Datasets:

---

nomic-ai

/

cornstack-ruby-v1

like 1

Follow

Nomic AI 709

[ "def to_hash\n object\n end", "def hash\r\n return to_s.hash\r\n end", "def hash\n to_a.hash\n end", "def hash\n [_hash, name, owner].hash\n end", "def hash\n return to_s.hash\n end", "def hash\n @hash\n end", "def hash\n @hash.hash\n end", "def hash\n @hash ||= self.to_a.hash\n end", "def to_hash\n @hash\n end", "def to_hash\n @hash\n end", "def hash\n to_s.hash\n end", "def to_hash\n @hash\n end", "def to_h\n @object\n end", "def to_h\n @object\n end", "def to_h\n @object\n end", "def to_h\n @object\n end", "def to_h\n @object\n end", "def to_h\n @object\n end", "def to_h\n @object\n end", "def to_h\n @object\n end", "def to_h\n @object\n end", "def to_h\n @object\n end", "def to_h\n @object\n end", "def to_h\n @object\n end", "def to_h\n @object\n end", "def to_h\n @object\n end", "def to_h\n @hash\n end", "def to_h\n @hash\n end", "def hash\n to_h.hash ^ self.class.hash\n end", "def as_hash\n @hash\n end", "def __getobj__\n @hashobj\n end", "def to_hash() end", "def hash\n to_s.hash\n end", "def hash\n to_s.hash\n end", "def hash\n object_id\n end", "def to_hash\n @_hash_\n end", "def hash\n\t\treturn self.name.to_s.hash\n\tend", "def to_hash\n to_a.hash\n end", "def hash\n { hash: @hash, hashType: @hash_type }\n end", "def hash\n data.hash\n end", "def hash\n [self.class, to_h].hash\n end", "def hash\n [self.class, to_h].hash\n end", "def hash\n [self.class, to_h].hash\n end", "def hash\r\n id.hash\r\n end", "def hash\n \"#{self.class.name}-#{self.id}-#{@__metadata__.cas}-#{@__attributes__.hash}\".hash\n end", "def hash\n attributes.hash\n end", "def hash\n attributes.hash\n end", "def hash\n attributes.hash\n end", "def hash #:nodoc:\n __getobj__.hash ^ self.class.hash\n end", "def hash\n self.to_f.hash\n end", "def hash\n end", "def hash\n end", "def hash\n end", "def to_hash\n return self\n end", "def to_hash(object)\n validate_class_kit(object.class)\n\n @hash_helper.to_hash(object)\n end", "def hash\n return @id.hash\n end", "def to_h\n Hash[ self ]\n end", "def to_hash\n Hash[self]\n end", "def to_h\n @hash.dup\n end", "def hash\n id.hash\n end", "def hash\n id.hash\n end", "def hash\n id.hash\n end", "def hash\n id.hash\n end", "def hash\n id.hash\n end", "def hash\n id.hash\n end", "def hash\n id.hash\n end", "def hash\n id.hash\n end", "def hash\n id.hash\n end", "def hash\n id.hash\n end", "def to_h\n @hash.dup\n end", "def hash\n model.hash + key.hash\n end", "def to_hash; end", "def to_hash; end", "def to_hash; end", "def to_hash; end", "def to_hash; end", "def to_hash; end", "def hash\n [self.class, to_s].hash\n end", "def hash\n id.hash\n end", "def hash\n id.hash\n end", "def hash\n self.atoms.hash\n end", "def to_h\n Hash[self]\n end", "def hash; end", "def hash; end", "def hash; end", "def hash; end", "def hash; end", "def hash; end", "def hash; end", "def hash; end", "def hash; end", "def hash; end", "def hash\n\t\tvalue.hash\n\tend", "def hash\n [description, routing_number, account_number, account_type, signatory, metadata, id, signature_url, bank_name, verified, date_created, date_modified, deleted, object].hash\n end", "def hash\n @id.hash\n end", "def hash\n id.hash\n end", "def hash\n self.class.name.hash\n end", "def to_h\n @_hash.dup\n end", "def hash\n\t\t[@id].hash\n\tend", "def hash\n [self.class, to_s].hash\n end", "def __hash\n @hash\n end" ]

[ "0.8270299", "0.78767854", "0.78726953", "0.7802364", "0.7789188", "0.77806795", "0.7775915", "0.7767511", "0.7760525", "0.7760525", "0.77559966", "0.7731286", "0.7713916", "0.7713916", "0.7713916", "0.7713916", "0.7713916", "0.7713916", "0.7713916", "0.7713916", "0.7713916", "0.7713916", "0.7713916", "0.7713916", "0.7713916", "0.7713916", "0.7647042", "0.7647042", "0.7626769", "0.760354", "0.7595938", "0.7582562", "0.7579971", "0.7579971", "0.7535553", "0.7495252", "0.7433835", "0.7411177", "0.73843014", "0.73661345", "0.73658615", "0.73658615", "0.73658615", "0.73600674", "0.7359121", "0.73590857", "0.73590857", "0.73590857", "0.7340058", "0.73356754", "0.7329828", "0.7329828", "0.7329828", "0.73170114", "0.730566", "0.73028016", "0.7294603", "0.72854036", "0.72643596", "0.72637254", "0.72620076", "0.72620076", "0.72620076", "0.72620076", "0.72620076", "0.72620076", "0.72620076", "0.72620076", "0.72620076", "0.726188", "0.72524244", "0.72511965", "0.72511965", "0.72511965", "0.72511965", "0.72511965", "0.72511965", "0.72479564", "0.72474235", "0.72474235", "0.7241066", "0.7229342", "0.7228758", "0.7228758", "0.7228758", "0.7228758", "0.7228758", "0.7228758", "0.7228758", "0.7228758", "0.7228758", "0.7228758", "0.7224175", "0.72185695", "0.72126305", "0.72116995", "0.71945405", "0.71828544", "0.7181684", "0.7171822", "0.71657544" ]

[ "def hash\n [value].hash\n end", "def hash\n [value].hash\n end", "def hash\n\t\tvalue.hash\n\tend", "def hash\n value.hash\n end", "def hash\n @value.hash\n end", "def hash\r\n return to_s.hash\r\n end", "def to_hash\n @value\n end", "def to_hash\n @value\n end", "def hash\n @hash || @hash = (value.hash * -1)\n end", "def output_hash; end", "def to_hash() end", "def hash\n return to_s.hash\n end", "def hash\n value_id.hash\n end", "def to_hash\n call\n @hash = @value\n @hash\n end", "def hash\n to_s.hash\n end", "def hash\n to_s.hash\n end", "def hash\n self.to_f.hash\n end", "def hash\n to_s.hash\n end", "def to_hash(obj = T.unsafe(nil)); end", "def to_h\n @value\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map { |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map { |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map { |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map { |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def value_to_hash(value, options = T.unsafe(nil)); end", "def to_s\r\n to_hash.to_s\r\n end", "def _to_hash(value)\r\n if value.is_a?(Array)\r\n value.compact.map{ |v| _to_hash(v) }\r\n elsif value.is_a?(Hash)\r\n {}.tap do |hash|\r\n value.each { |k, v| hash[k] = _to_hash(v) }\r\n end\r\n elsif value.respond_to? :to_hash\r\n value.to_hash\r\n else\r\n value\r\n end\r\n end", "def hash; end", "def hash; end", "def hash; end", "def hash; end", "def hash; end", "def hash; end", "def hash; end", "def hash; end", "def hash; end", "def hash; end", "def to_s\n to_hash.to_s\nend", "def to_s\n to_hash.to_s\nend", "def to_h(value)\n return value unless @to_h\n @to_h.call value\n end", "def to_hash\n Hash[to_a]\n end", "def to_hash; end", "def to_hash; end", "def to_hash; end", "def to_hash; end", "def to_hash; end", "def to_hash; end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end", "def _to_hash(value)\n if value.is_a?(Array)\n value.compact.map{ |v| _to_hash(v) }\n elsif value.is_a?(Hash)\n {}.tap do |hash|\n value.each { |k, v| hash[k] = _to_hash(v) }\n end\n elsif value.respond_to? :to_hash\n value.to_hash\n else\n value\n end\n end" ]

[ "0.6719518", "0.6719518", "0.666832", "0.66565555", "0.6586841", "0.6452931", "0.6414911", "0.6414911", "0.6382046", "0.6346188", "0.6302933", "0.62237245", "0.6151989", "0.6101756", "0.60795677", "0.60795677", "0.60717124", "0.6035991", "0.6021168", "0.5936472", "0.5903488", "0.5903488", "0.5903488", "0.5903488", "0.5903488", "0.5890367", "0.5890367", "0.5884459", "0.5884459", "0.58669275", "0.58533067", "0.58355993", "0.58215266", "0.58215266", "0.58215266", "0.58215266", "0.58215266", "0.58215266", "0.58215266", "0.58215266", "0.58215266", "0.58215266", "0.5803003", "0.5803003", "0.57983655", "0.578115", "0.577359", "0.577359", "0.577359", "0.577359", "0.577359", "0.577359", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771", "0.5769771" ]

[ "def queries\n qrs = []\n self.each_query {|qr| qrs << qr }\n qrs\n end", "def get_shelves\n shelves = [@shelf_ag, @shelf_hp, @shelf_qz]\n return shelves\n end", "def all\n # Figure out the table's name from the class we're calling the method on.\n table_name = self.to_s.pluralize.underscore\n \n results = QUIZ.execute(\"SELECT * FROM #{table_name}\")\n results_as_objects = []\n \n results.each do |result_hash|\n results_as_objects << self.new(result_hash)\n end\n return results_as_objects\n end", "def my_squirrels\n # which one knows about BOTH the trees and the nests?\n my_nests.map do |nest|\n nest.squirrel.name\n end\n end", "def instances(return_type)\n return nil unless(active_rdf? && is_iri?)\n qry = ActiveRDF::Query.new(URI).distinct.select(:s)\n qry.where(:s, RDF.type, self)\n qry.execute\n end", "def songs \n Song.all.select{|song| add_song(song)}.to_a\n # binding.pry\n end", "def questions\n qs = []\n qs |= self.class.questions if self.class.respond_to? :questions\n qs |= (@_questions||=[])\n qs.map{|q| q.for_instance(self) }\n end", "def results\n arr = []\n flag = 0 # iteration flag\n @obj['results'].each do |data|\n arr[flag] = Spreader::Bot.new(data)\n flag += 1\n end\n arr\n end", "def instances #:nodoc:\n r = []\n ObjectSpace.each_object(self) { |mod| r << mod }\n r\n end", "def all_as_objects\n table_name = self.to_s.pluralize\n \n results = CONNECTION.execute(\"SELECT * FROM #{table_name};\")\n \n results_as_objects = []\n \n results.each do |result_hash|\n \n results_as_objects << self.new(result_hash)\n \n end\n \n return results_as_objects\n \n end", "def all\n # Figure out the table's name from the class we're calling the method on.\n table_name = self.to_s.pluralize.underscore\n \n results = CONNECTION.execute(\"SELECT * FROM #{table_name}\")\n\n results_as_objects = []\n \n results.each do |result_hash|\n results_as_objects << self.new(result_hash)\n end\n \n return results_as_objects\n end", "def all\n # Figure out the table's name from the class we're calling the method on.\n table_name = self.to_s.pluralize.underscore\n \n results = CONNECTION.execute(\"SELECT * FROM #{table_name}\")\n # TODO put these lines back in and create another method to turn results_as_objects array of \n # objects in to array of hashes!!!!!!!\n results_as_objects = []\n\n results.each do |result_hash|\n results_as_objects << self.new(result_hash)\n end\n return results_as_objects\n end", "def all\n table_name = self.to_s.pluralize.underscore\n results = DATABASE.execute(\"SELECT * FROM #{table_name}\")\n \n results_as_objects = []\n \n results.each do |result_hash|\n results_as_objects << self.new(result_hash)\n end\n return results_as_objects\n end", "def songs # to entre the Song class then within the song class take the class variable all to use to select and go thought the songs listed in that array\n Song.all.select { |song| song.artist == self } # use the .select to gather the information we want from the all array in songs - go thought and assign each song artist to this current instance\n end", "def instances\n @instances ||= []\n end", "def gymclasses()\n sql = \"SELECT gymclasses.* FROM gymclasses INNER JOIN bookings\n ON gymclasses.id = bookings.gymclass_id WHERE client_id = $1\"\n values = [@id]\n gymclasses = SqlRunner.run(sql,values)\n result = gymclasses.map{|gymclass| GymClass.new(gymclass)}\n return result\n end", "def all\n results = CONNECTION.execute(\"SELECT * FROM #{get_table_name}\")\n\n results_as_objects = []\n\n results.each do |results_hash|\n results_as_objects << self.new(results_hash)\n end\n\n return results_as_objects\n end", "def sets\n return [EscholSet.new({name: \"everything\", spec: \"everything\"})]\n end", "def questions\n extracted_questions = []\n\n unless self.qp_questions.nil?\n self.qp_questions.each do |question| \n extracted_questions.push(Question.new(question))\n end \n end\n\n return extracted_questions\t\t\t\n\t\tend", "def object_instances\n return [] if object_definition.blank?\n \n latest_version = ::AP::VoiceExtension::Voice::Config.instance.latest_version\n klazz = \"::#{latest_version.upcase}::#{object_definition.name}\".constantize\n query_scope = object_definition.query_scope\n objects = klazz.respond_to?(query_scope.to_sym) ? klazz.send(query_scope.to_sym) : []\n if objects.blank?\n return []\n else\n return objects\n end\n end", "def recipe_instances\n recipe_ingredients.map { |ri| ri.recipe }\n end", "def songs\n # @@songs.select { |song| song.name == @name }\n @songs\n end", "def array\n self.allObjects\n end", "def songs\n Song.all_by_artist(self)\n end", "def songs\n #use select to iterate thru songs\n Song.all.select{|song| song.artist == self}\n end", "def ways \n return [] \n end", "def instances\n packages = []\n\n begin\n execpipe(listcmd) do |process|\n fields = [:name, :ensure]\n\n # yaourt -Q returns a list of packages in the format of\n # repo/package version (group)\n regex = /^\\w+\\/(\\S+)\\s+(\\S+)/\n\n process.each_line do |line|\n hash = {}\n\n if match = line.match(regex)\n fields.zip(match.captures) do |field, value|\n hash[field] = value\n end\n\n hash[:provider] = self.name\n packages << new(hash)\n else\n warning('Failed to match line %s' % line)\n end\n end\n end\n rescue Puppet::ExecutionFailure\n return nil\n end\n\n return packages\n end", "def genres\n songs.map{|song| song.genre} # giving back all the genres under that particular artist. artists can have nmany genres and calling of theirmany genres.\n # Song.all.map{|ind_song| ind_song.genre} #giving back all the different genres from the collection of song array. giving back all the genres of the songs\n # binding.pry\n end", "def instances; end", "def instances; end", "def get_schedules\n ret=[]\n #puts \"==============teachings=#{self.teachings.to_a}\"\n self.teachings.to_a.each do |teaching|\n teaching.schedules.each do |schedule|\n ret << schedule\n end\n end\n ret\n end", "def fetch_all\n self.to_a\n end", "def recipes\n Array fetch(:run_list)\n end", "def results\n @mutex.synchronize do\n resolvables = @resolvables\n @resolvables = []\n return resolvables\n end\n end", "def result_set\n klass.requestor.get(nil, { query: to_s })\n end", "def instances\n end", "def all\n table_name = self.table_name\n \n results = CONNECTION.execute(\"SELECT * FROM '#{table_name}';\")\n\n results_as_objects = []\n \n results.each do |result_hash|\n results_as_objects << self.new(result_hash)\n end\n \n return results_as_objects\n end", "def find_entities\n []\n end", "def shoes\n results = DATABASE.execute(\"SELECT * FROM shoes WHERE category_id = #{@id};\")\n\n store_results = []\n\n results.each do |hash|\n store_results << Shoe.new(hash)\n end\n\n return store_results\n end", "def get_all_instances(systems,code = @code)\n return [] unless code.is_a?(Array)\n return code.reduce([]) do |ar,sub|\n ar + get_all_instances(systems,sub)\n end + (code.select { |sub| is_instance?(sub,systems) }).to_a\n end", "def genres\n # look for a local variable called songs\n # look for a method on self. called songs => self.songs\n # looks up the parent chain\n self.songs.map do |song|\n song.genre\n end\n end", "def instances()\n return @instances\n end", "def terms\n [self]\n end", "def list\n self.class.list\n end", "def all\n return @recipearray\n end", "def getActiveQuests\n active = []\n $PokemonGlobal.quests.active_quests.each do |s|\n active.push(s.id)\n end\n return active\nend", "def all\n @q\n end", "def genres\n songs.map do |song|\n song.genre\n end\nend", "def to_a\n return @results\n end", "def games\n self.results.map {|r|;r.game}\n end", "def sources\n source_array = []\n self.questions.each do |q|\n if q.class == MatrixQuestion\n q.choice_questions.each {|cq| source_array << [\"#{cq.question_content.id},QuestionContent\", \"#{q.question_content.statement}: #{cq.question_content.statement}(matrix answer)\"]}\n else\n source_array << [\"#{q.question_content.id},QuestionContent\", \"#{q.question_content.statement}(Question)\"]\n end\n end\n source_array\n end", "def synonyms\n @synonyms ||= self.class.synonyms\n @synonyms\n end", "def get_instances\n all_instances = Array.new()\n @groups.values.each do |instances|\n instances.each do |instance|\n all_instances << instance\n end\n end\n all_instances\n end", "def songs\n Song.all.select {|song| song.artist == self}\n end", "def songs\n Song.all.select {|song| song.artist == self}\n end", "def schema\n []\n end", "def genres\n self.songs.collect do |song| #call the artist class on the songs method and collect the song\n song.genre #then call the genre on the song\n end\n end", "def to_a\n [self]\n end", "def all \n results = CONNECTION.execute(\"SELECT * FROM #{self.table_name}\")\n \n return self.results_as_objects(results)\n end", "def songs\n Song.all.select{|song| song.artist == self}\n end", "def stock\n sql = \"SELECT * FROM cars\n WHERE shop_id = $1\"\n value = [@id]\n cars = SqlRunner.run(sql, value)\n result = cars.map{|car| Car.new(car)}\n return result\n end", "def songs\n Song.all.select {|song| song.artist = self}\n end", "def to_a\n [self]\n end", "def songs\n Song.all.select {|song| song.genre == self}\n end", "def songs\n Song.all\n end", "def songs\n Song.all.select do |song_instance|\n song_instance.artist == self \n end\n end", "def get_schemas\n @schemas\n end", "def songs\n @songs ||= Song.where(:artist => info(:name))\n end", "def results_as_objects(results)\n results_as_objects = []\n results.each do |result_hash|\n results_as_objects << self.new(result_hash)\n end\n return results_as_objects \n end", "def songs\n Song.all.select {|s| s.artist == self}\n end", "def searches\n search_objects.map{ |s| s.query }\n end", "def songs\n Song.all.select {|song| song.artist == self }\n end", "def songs\n Song.all.select{|song| song.genre == self}\n end", "def songs\n Song.all.select{|song| song.genre == self}\n end", "def array\n @models ||= load\n end", "def classes\n self\n end", "def songs\n Song.all.select do |song_instance|\n song_instance.artist == self\n end\n end", "def songs\n Song.all.select{|song|song.artist == self}\n end", "def to_a\n [ self ]\n end", "def songs\n Song.all.select {|song| song.artist == self}\n end", "def find_all\n response = fetch()\n new(response)\n end", "def songs\n Song.all.select {|song| song.artist == self}\n end", "def genres\n all_genres = []\n Song.all.each do |x|\n if x.artist == self\n all_genres << x.genre\n end\n end\nall_genres\nend", "def songs \t\t\t\t\t\t\t# Have a songs for 2 classes... \n\t\tSong.all.select do |song| \t\t# Uninitialized constant Genre::Songs. Should be SELF????? select, not collect!\n\t\t\tsong.genre == self\n\t\t\t#song.genre == self #.name \t## what genre exactly?? self=Genre.\n\t\t\t\t#song \t\t\t\t\t# Was song.genre.. we want all song objects of given genre?\n\t\t\t\t#\tbinding.pry\n\t\t\t#end\n\t\tend\n\tend", "def songs\n Song.all.select do |song|\n song.artist == self.name\n end\n end", "def to_a\n fetch(ids)\n end", "def to_a\n fetch(ids)\n end", "def listBooks\n # not sure how we go from Book class to books array, so this method does not work, \n # because there is no books array.\n # http://stackoverflow.com/questions/14532844/ruby-array-of-objects-classes\n # books = [@bookname]\n # Book.all_instances\n books.each do |book|\n puts book\n end\n end", "def songs\n Song.all.select{|song| song.artist == self}\n end", "def to_a\n return @records unless loadable?\n\n @response = cache.get_or_set_query(klass, options) do\n connection.documents({ query: options })\n end\n\n @records = []\n\n if @response.success?\n records = @response.members.attributes[\"query\"]\n\n records.each do |record|\n @records << klass.new(record.merge(persisted: true))\n end\n\n @loaded = true\n end\n\n @records\n end", "def genres\n songs.map do |song| song.genre end\n end", "def to_a\n resolve\n @items\n end", "def elements\n # execute query\n ordered_objects.compact.uniq\n end", "def genres\n songs.map {|song| song.genre}\n end", "def songs\n Song.all.select {|songs| songs.artist == self}\n end", "def artists\nSong.all.collect{|x| x.artist}\nend", "def results\n\t\t\tArray(result)\n\t\tend", "def results\n @scope.where(@scope.primary_key => @ids).to_a\n end", "def results\n meth = [kind.to_s, self.search_suffix].join.to_sym\n return([]) unless respond_to?(meth) # Ensure no hijackers.\n return([]) if q.nil?\n \n send(meth)\n end", "def artists\n self.songs.map {|song| song.artist}\n end" ]

[ "0.6476854", "0.61224896", "0.6083525", "0.6074826", "0.6042455", "0.5914627", "0.5872662", "0.58673775", "0.5865003", "0.5857872", "0.58548903", "0.5803283", "0.5802454", "0.57944906", "0.5774669", "0.57738656", "0.57335556", "0.57330734", "0.5725632", "0.5669892", "0.5660457", "0.5647333", "0.5604235", "0.55919623", "0.5575774", "0.5571226", "0.5568752", "0.55642754", "0.554224", "0.554224", "0.553588", "0.553459", "0.55276465", "0.5520693", "0.55187356", "0.549069", "0.54876775", "0.5482649", "0.5480784", "0.5452337", "0.54427683", "0.544221", "0.54404515", "0.54306155", "0.54294485", "0.5422535", "0.5420531", "0.54104257", "0.5409407", "0.53968054", "0.53948665", "0.53919554", "0.5388181", "0.53865033", "0.53865033", "0.53838575", "0.53768235", "0.53750324", "0.5373149", "0.53706264", "0.537037", "0.53658444", "0.5359368", "0.5356884", "0.5356788", "0.5356651", "0.53549564", "0.5350476", "0.5345606", "0.53433245", "0.5343311", "0.53425574", "0.53324354", "0.53324354", "0.53270465", "0.53252274", "0.5323985", "0.5319921", "0.53188914", "0.5316735", "0.5310397", "0.530777", "0.5306862", "0.53067154", "0.5306599", "0.5303234", "0.5303234", "0.53015274", "0.52991414", "0.52964", "0.529438", "0.529037", "0.52878654", "0.5284689", "0.5280445", "0.5279683", "0.5279627", "0.52785134", "0.5272251", "0.5269442" ]

[ "def valid_scope(valid_scopes, scope)\n\t\tend", "def validate_callback(params)\n raise 'To be implemented in child classes'\n end", "def validate_params\n @calls << [:validate_params]\n end", "def validate; end", "def validate; end", "def validate; end", "def validate; end", "def validate\n raise ArgumentError.new('No vuln_id.') unless @vuln_id\n raise ArgumentError.new('No scope.') unless @scope\n raise ArgumentError.new('No reason.') unless @reason\n\n case @scope\n when Scope::ALL_INSTANCES\n @asset_id = @port = @vuln_key = nil\n when Scope::ALL_INSTANCES_ON_A_SPECIFIC_ASSET\n raise ArgumentError.new('No asset_id.') unless @asset_id\n @port = @vuln_key = nil\n when Scope::SPECIFIC_INSTANCE_OF_SPECIFIC_ASSET\n raise ArgumentError.new('No asset_id.') unless @asset_id\n raise ArgumentError.new('Port or vuln_key is required.') unless @port || @vuln_key\n when Scope::ALL_INSTANCES_IN_A_SPECIFIC_SITE\n raise ArgumentError.new('No site_id.') unless @site_id\n else\n raise ArgumentError.new(\"Invalid scope: #{@scope}\")\n end\n end", "def validate\n raise ArgumentError.new('No vuln_id.') unless @vuln_id\n raise ArgumentError.new('No scope.') unless @scope\n raise ArgumentError.new('No reason.') unless @reason\n\n case @scope\n when Scope::ALL_INSTANCES\n @asset_id = @port = @vuln_key = nil\n when Scope::ALL_INSTANCES_ON_A_SPECIFIC_ASSET\n raise ArgumentError.new('No asset_id.') unless @asset_id\n @port = @vuln_key = nil\n when Scope::SPECIFIC_INSTANCE_OF_SPECIFIC_ASSET\n raise ArgumentError.new('No asset_id.') unless @asset_id\n raise ArgumentError.new('Port or vuln_key is required.') unless @port || @vuln_key\n when Scope::ALL_INSTANCES_IN_A_SPECIFIC_SITE\n raise ArgumentError.new('No site_id.') unless @site_id\n else\n raise ArgumentError.new(\"Invalid scope: #{@scope}\")\n end\n end", "def validate\n validations = self.class.meta_eval { @validations }\n\n validations.each do |v|\n raise \"#{self.class}.#{v[:name]} #{v[:options][:message]}\" unless\n v[:proc].call(send(v[:name]))\n end\n\n self\n end", "def scope_condition() {} end", "def validate!; end", "def validate!; end", "def validate!; end", "def validate_with_callbacks\n run_callbacks(:before_validation)\n validate_without_callbacks\n run_callbacks(:after_validation) if errors.empty?\n end", "def validator; end", "def validation; end", "def validation; end", "def validate_event=(_arg0); end", "def validate\n \n \n end", "def valid; end", "def validate(validator, *args); validation_chain.validate(validator, *args); end", "def validate_event; end", "def validate\n errors.clear\n instance_exec(&validate_block) if validate_block && get\n end", "def validate(*args, &block)\n end", "def check_validity_of_scope\n errors.add(:name, \"is not a valid scope name\") unless Product.respond_to?(self.name.intern)\n apply_on(Product).limit(0) != nil\n rescue Exception => e\n unless Rails.env.production?\n\n puts \"name: #{self.name}\"\n puts \"arguments: #{self.arguments.inspect}\"\n puts e.message\n puts e.backtrace\n end\n errors.add(:arguments, \"are incorrect\")\n end", "def validate\r\n\r\n end", "def validate\n @condition = nil\n @error = \"No validation implemented for #{self.class}#validate\"\n end", "def verify_callback; end", "def verify_callback; end", "def validate\n end", "def valid(&block)\n raise \"validation method must take two arguments\" unless block.arity == 2\n @_valid = block\n #remove_method(:valid) rescue nil #if method_defined?(:valid)\n #define_method(:valid, &block)\n end", "def validate_paramified_params\n self.class.paramify_methods.each do |method|\n params = send(method)\n transfer_errors_from(params, TermMapper.scope(params.group)) if !params.valid?\n end\n end", "def validate\n\n end", "def valid?; end", "def valid?; end", "def valid?; end", "def valid?; end", "def valid?; end", "def validate\n end", "def validate\n end", "def validate\n end", "def validate\n validate_amount\n validate_game\n validate_period\n end", "def validate(resource, &block); end", "def scope; end", "def scope; end", "def scope; end", "def scope; end", "def scope; end", "def scope; end", "def scope; end", "def scope; end", "def scope; end", "def scope; end", "def invalid_scope?\n ! valid_scope?\n end", "def validate!\n # pass\n end", "def validate_me(validator)\n validator.validate self, checks\n end", "def verify_scope(scope)\n self.user_scope.each do |sym|\n raise RuntimeError, \"Expected to be passed a scope containing the key '#{sym.to_s}'\" unless scope.has_key? sym\n end\n scope\n end", "def validate\n end", "def validate\n end", "def validate\n end", "def scope() yield end", "def validate\n raise NoMethodError, \"must define method 'validate'\"\n end", "def validate_params(params)\n # This will be implemented by Validators which take parameters\n end", "def validate\n validator_class.new(self).validate\n end", "def validations\n valid_page_number? if page_number\n valid_period_name? if period_param\n valid_date? if date_param\n end", "def validate_on_create=(_arg0); end", "def validate\n errors.clear\n self.class.validator.invoke self\n end", "def validate_callback(params)\n if params[:error].present?\n raise AuthError.new(\"validate_callback: #{params[:error]}\", DATASOURCE_NAME)\n end\n\n if params[:code]\n validate_auth_code(params[:code])\n else\n raise AuthError.new('validate_callback: Missing authorization code', DATASOURCE_NAME)\n end\n end", "def validated; end", "def validate(&block)\n if block\n @validate = block\n else\n @validate\n end\n end", "def validate_params\n validate_size\n validate_mine_density\n validate_first_click\n type_specific_checks\n end", "def valid?\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n end", "def valid?\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n end", "def valid?\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n end", "def scope() binding end", "def valid?\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n end", "def validate_scopes\n @original_scopes = @original_scopes || server.jwt['scope']\n return true unless @original_scopes\n ScopeChecker.valid?(scope_str: @original_scopes, server_scopes: configuration.scopes, app_scopes: client.try(:scopes))\n end", "def validator=(_); end", "def validate(param)\n validator.call(param)\n end", "def validate(param)\n validator.call(param)\n end", "def is_valid; end", "def run_validations!\n run_callbacks(:validation) do\n super\n end\n end", "def validate!\n self.class.validators.each do |validator|\n validator.validate!(self)\n end\n nil\n end", "def validate_each(validator, name, value)\n scope = Array(@scope_keys).each_with_object({}) do |key, scope|\n scope[key] = validator.to_model[key]\n end\n validator.errors.add(name, message) unless unique?(name, value, scope)\n end", "def valid_scope?\n scope.to_s == self.class.scope.to_s\n end", "def valid?\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n end", "def valid?\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n end", "def valid_callbacks\n [:after_create, :after_save, :after_update, :after_commit]\n end", "def valid?(_) true end", "def valid?(_) true end", "def run_validations\n true\n end", "def defer_validation(&block)\n #p [:defer_validation, self.validation_on, @this]\n old_validation = self.validation_on\n self.validation_on = false\n v = nil\n begin\n v = @this.instance_eval(&block)\n ensure\n self.validation_on = old_validation\n end\n @this.validate!(false)\n v\n end", "def run_validation(vmode)\n validate(vmode)\n self\n end", "def run_validations(context)\n __run_validations__(context)\n end", "def validated?; end", "def valid?\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n end", "def validations\n {}\n end", "def validate\n validate_root\n validate_associated\n valid?\n end", "def run_validations\n run_callbacks :validation do\n failed_validators.clear\n validation_chain.run(self)\n @validated = true\n end\n end", "def validate\n # add errors if not validate\n end" ]

[ "0.7055817", "0.6469751", "0.6106404", "0.60650235", "0.60650235", "0.60650235", "0.60650235", "0.60380024", "0.60380024", "0.60291", "0.5986233", "0.5976042", "0.5976042", "0.5976042", "0.5968381", "0.5968029", "0.5940366", "0.5940366", "0.5925041", "0.5902548", "0.58957684", "0.5886103", "0.58623916", "0.5861935", "0.5860776", "0.58217126", "0.58064336", "0.58017737", "0.5801224", "0.5801224", "0.5789366", "0.577856", "0.57773393", "0.5773661", "0.5769978", "0.5769978", "0.5769978", "0.5769978", "0.5769978", "0.57693696", "0.57693696", "0.57693696", "0.5739921", "0.57049024", "0.57035637", "0.57035637", "0.57035637", "0.57035637", "0.57035637", "0.57035637", "0.57035637", "0.57035637", "0.57035637", "0.57035637", "0.5696296", "0.5693887", "0.5684857", "0.56713444", "0.5650164", "0.5650164", "0.5650164", "0.56438154", "0.56291217", "0.5601979", "0.559889", "0.5597233", "0.5592621", "0.5588335", "0.55852014", "0.55684644", "0.5566118", "0.5563018", "0.55522007", "0.55339473", "0.5520872", "0.551763", "0.551708", "0.55147046", "0.5510531", "0.55094683", "0.55094683", "0.5507391", "0.5506445", "0.5505834", "0.5504907", "0.54924285", "0.5488924", "0.5488924", "0.5486729", "0.5485351", "0.5485351", "0.54815227", "0.54813933", "0.54798836", "0.5476325", "0.5465192", "0.5464789", "0.54582286", "0.54440695", "0.5442673", "0.5439584" ]

[ "def create_batch_job(job_id)\n request = Net::HTTP::Put.new(\"/jobs/#{job_id}\")\n response = http.request(request)\n handle_response({ request_method: request.method, request_path: request.path }, response)\n end", "def create_job(job:, params: {})\n response = HTTParty.post(\"#{@host}/api/jobs\", body: {job: job, api_key: @api_key}.merge(params))\n \n return response\n end", "def create\n\t\tjob = Job.new\n\t\tjob.user_id = current_user.id\n\t\tjob.http_method \t= params[:http_method]\n\t\tjob.http_uri \t\t= params[:http_uri]\n\t\tjob.http_host \t\t= params[:http_host]\n\t\tjob.http_headers\t= params[:http_headers]\n\t\tjob.http_data\t\t= params[:http_data]\n\n\t\t# Set job type to bruteforce by default. This will change, but\n\t\t# for now we don't care about responses.\n\t\tjob.attack_type\t\t\t= \"repeat\"\n\n\t\t# Set status to pending by default -- this may change in future\n\t\tjob.status \t\t\t= \"pending\"\n\n\t\tjob.save\n\n\t\trender :json => job.to_json\n\tend", "def new_job(job, username, password)\n puts \"Requesting quote for job:\"\n puts JSON.pretty_generate(job)\n puts \"\"\n res = post_json('jobs.json', job, username, password)\n if res['error'] || res['status'] == 'error'\n puts \"Job rejected (error #{res['status']}): #{res['error'] || res['reason']}\"\n return\n end\n\n puts \"Gnip's job desc:\"\n puts summarise_job(res)\nend", "def post_job_content_sample(client)\n job_multipart = {\n :file => File.new($full_path),\n 'num copies' => 10\n }\n\n response = client['jobs'].post job_multipart\n\n p ''\n p 'Submit a new job'\n p response\nend", "def create_job(json_payload)\n conn = @client.post do |req|\n req.url '/api/v2/job/create'\n req.headers[\"Authorization\"] = @token\n req.body = json_payload\n end\n conn.body\n end", "def create\n @job = current_user.posted_jobs.build(job_params)\n if @job.save\n render json: @job\n else\n render json: @job.errors.full_messages, status: :unprocessable_entity\n end\n end", "def create\n job = Job.create(job_params)\n render json: job\n end", "def create\n GpsJob.perform_later(request_params)\n head(:ok)\n end", "def create\n arg = params[:email]\n counter = Job.enqueue(arg)\n render :status => :accepted, :json => { jobId: counter }\n end", "def submit_batch_job(job_id)\n request_path = \"/jobs/#{job_id}/queue\"\n request_body = \"submit\"\n response = http.request_post(request_path, request_body)\n handle_response({ request_method: 'POST', request_path: request_path, request_body: request_body }, response)\n end", "def create\n @job = Job.new(job_params)\n @job.user = current_user\n if @job.save\n render json: { redirect_url: job_url(@job), notice: \"Thanks for posting! Your job is now pending review.\" }\n else\n render json: @job.errors\n end\n end", "def create_batch\n begin\n # create the new batch\n batch = BatchJob.new\n batch.name = params[:name]\n batch.job_type = params[:type_id]\n batch.ocr_engine_id = params[:engine_id]\n batch.font_id = params[:font_id]\n batch.parameters = params[:params]\n batch.notes = params[:notes]\n batch.save!\n \n # populate it with pages from the selected works\n json_payload = ActiveSupport::JSON.decode(params[:json])\n json_payload['works'].each do | work_id |\n pages = Page.where(\"pg_work_id = ?\", work_id)\n pages.each do | page |\n job = JobQueue.new\n job.batch_id = batch.id\n job.page_id = page.pg_page_id\n job.job_status = 1\n job.work_id=work_id\n job.save!\n end\n end\n\n # get a new summary for the job queue\n status = get_job_queue_status()\n render :json => ActiveSupport::JSON.encode(status), :status => :ok \n \n rescue => e\n render :text => e.message, :status => :error\n end \n end", "def public_api_post_job_task_with_http_info(job_id, api_key, request, opts = {})\n if @api_client.config.debugging\n @api_client.config.logger.debug \"Calling API: JobsApi.public_api_post_job_task ...\"\n end\n # verify the required parameter 'job_id' is set\n if @api_client.config.client_side_validation && job_id.nil?\n fail ArgumentError, \"Missing the required parameter 'job_id' when calling JobsApi.public_api_post_job_task\"\n end\n # verify the required parameter 'api_key' is set\n if @api_client.config.client_side_validation && api_key.nil?\n fail ArgumentError, \"Missing the required parameter 'api_key' when calling JobsApi.public_api_post_job_task\"\n end\n # verify the required parameter 'request' is set\n if @api_client.config.client_side_validation && request.nil?\n fail ArgumentError, \"Missing the required parameter 'request' when calling JobsApi.public_api_post_job_task\"\n end\n # resource path\n local_var_path = \"/api/pub/v1/jobs/{jobId}/tasks\".sub('{' + 'jobId' + '}', job_id.to_s)\n\n # query parameters\n query_params = {}\n query_params[:'api_key'] = api_key\n\n # header parameters\n header_params = {}\n # HTTP header 'Accept' (if needed)\n header_params['Accept'] = @api_client.select_header_accept(['application/json', 'text/json'])\n # HTTP header 'Content-Type'\n header_params['Content-Type'] = @api_client.select_header_content_type(['application/json', 'text/json', 'application/x-www-form-urlencoded'])\n\n # form parameters\n form_params = {}\n\n # http body (model)\n post_body = @api_client.object_to_http_body(request)\n auth_names = []\n data, status_code, headers = @api_client.call_api(:POST, local_var_path,\n :header_params => header_params,\n :query_params => query_params,\n :form_params => form_params,\n :body => post_body,\n :auth_names => auth_names,\n :return_type => 'PublicApiIdResponse')\n if @api_client.config.debugging\n @api_client.config.logger.debug \"API called: JobsApi#public_api_post_job_task\\nData: #{data.inspect}\\nStatus code: #{status_code}\\nHeaders: #{headers}\"\n end\n return data, status_code, headers\n end", "def create\n @job = Job.new(job_params)\n\n respond_to do |format|\n if @job.save\n JobsWorker.perform_async(@job.id, @job.server.id)\n flash[:success] = 'Job was successfully created.'\n format.html { redirect_to jobs_path }\n format.json { render :show, status: :created, location: @job }\n else\n flash[:error] = 'Please fill all fields correctly !!'\n format.html { redirect_to root_url }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n ensure_authenticated!\n\n job = Grid5000::Job.new(job_params)\n Rails.logger.info \"Received job = #{job.inspect}\"\n raise BadRequest, \"The job you are trying to submit is not valid: #{job.errors.join('; ')}\" unless job.valid?\n\n job_to_send = job.to_hash(destination: 'oar-2.4-submission')\n Rails.logger.info \"Submitting #{job_to_send.inspect}\"\n\n result = @oarapi.create_job(job_to_send)\n\n job_uid = JSON.parse(result)['id']\n location_uri = uri_to(\n resource_path(job_uid),\n :in, :absolute\n )\n\n job = OAR::Job.expanded.includes(:job_types, :job_events, :gantt).find(job_uid)\n job.links = links_for_item(job)\n\n render_opts = {\n methods: %i[resources_by_type assigned_nodes],\n location: location_uri,\n status: 201\n }\n render_result(job, render_opts)\n end", "def create(id, job)\n connection.post do |req|\n req.url \"job/#{id}\"\n req.body = job\n end\n end", "def request(name,job)\n rz_send(service_socket(name),[JSON.dump(job)])\n self\n end", "def create\n @pending_job = PendingJob.new(pending_job_params)\n current_stage = 'E'\n @pending_job.time_queued = Time.now\n @pending_job.current_stage = current_stage\n @pending_job.current_stage_started = Time.now\n\n respond_to do |format|\n if @pending_job.save\n EFinishJob.perform_in(1.minutes, @pending_job.id, @pending_job.course, @pending_job.assignment, @pending_job.username)\n format.html { redirect_to @pending_job, notice: 'Pending job was successfully created.' }\n format.json { render :show, status: :created, location: @pending_job }\n else\n format.html { render :new }\n format.json { render json: @pending_job.errors, status: :unprocessable_entity }\n end\n end\n end", "def send_job(job)\n begin\n response = RestClient::Request.execute(\n method: :post,\n url: build_jobs_url,\n payload: job.to_codem_json,\n timeout: EBU::NETWORK_TIMEOUT,\n open_timeout: EBU::NETWORK_TIMEOUT\n )\n if response.code == 202\n if (obj = JSON.parse(response.to_str))\n obj[\"job_id\"]\n else\n raise \"Job #{job.id} was created on transcoder #{self.id}, but no job ID was returned.\"\n end\n else\n nil\n end\n rescue Timeout::Error => e\n nil\n rescue => e\n nil\n end\n end", "def create\n @job = Job.new(job_params)\n @job.creator = current_user\n @job.tasks.each do |task|\n if @job.job_type.present?\n task.type = \"#{@job.job_type.to_s.singularize.capitalize}Task\"\n end\n task.creator = current_user\n task.worker ||= current_user\n task.payoff_amount_cents ||= 0\n end\n respond_to do |format|\n if @job.save\n @job.tasks.each{ |task| task.set_price }\n format.html {\n if params[:commit].to_s.match(/save.*new/i)\n redirect_to new_job_path(client_id: @job.client_id, job_type: @job.job_type), notice: 'Job was successfully created. Create another one below...' \n else\n redirect_to @job, notice: 'Job was successfully created.'\n end\n }\n format.json { render :show, status: :created, location: @job }\n else\n format.html { render :new }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @myjob = Myjob.new(myjob_params)\n\n respond_to do |format|\n if @myjob.save\n format.html { redirect_to @myjob, notice: 'Myjob was successfully created.' }\n format.json { render :show, status: :created, location: @myjob }\n else\n format.html { render :new }\n format.json { render json: @myjob.errors, status: :unprocessable_entity }\n end\n end\n end", "def job_params\n params.require(:job).permit(:name, :client_id, :description, :quantity, :datein, :duedate, :completeper, :expectedin, :completed, :status, :comment)\n end", "def create\n ensure_authenticated!\n\n job = Grid5000::Job.new(payload)\n Rails.logger.info \"Received job = #{job.inspect}\"\n raise BadRequest, \"The job you are trying to submit is not valid: #{job.errors.join(\"; \")}\" unless job.valid?\n job_to_send = job.to_hash(:destination => \"oar-2.4-submission\")\n Rails.logger.info \"Submitting #{job_to_send.inspect}\"\n\n url = uri_to(\n site_path(params[:site_id])+\"/internal/oarapi/jobs.json\", :out\n )\n http = EM::HttpRequest.new(url).post(\n :timeout => 20,\n :body => job_to_send.to_json,\n :head => {\n 'X-Remote-Ident' => @credentials[:cn],\n 'Content-Type' => media_type(:json),\n 'Accept' => media_type(:json)\n }\n )\n continue_if!(http, :is => [201,202])\n\n job_uid = JSON.parse(http.response)['id']\n location_uri = uri_to(\n resource_path(job_uid),\n :in, :absolute\n )\n\n job = OAR::Job.expanded.find(\n job_uid,\n :include => [:job_types, :job_events, :gantt]\n )\n job.links = links_for_item(job)\n \n render_opts = {\n :methods => [:resources_by_type, :assigned_nodes],\n :location => location_uri,\n :status => 201\n }\n respond_to do |format|\n format.g5kitemjson { render render_opts.merge(:json => job) }\n format.json { render render_opts.merge(:json => job) }\n end\n end", "def create\n\n printer_ids = JSON.parse(job_params[:printer])\n\n printers = Printer.where(id: printer_ids)\n\n job_params_fixed = job_params\n\n job_params_fixed[:printer] = nil\n\n\n printers.each do |printer|\n\n @job = Job.new(job_params_fixed)\n\n @job.printer = printer\n\n @job.status = \"Unassigned\"\n @job.save\n end\n\n redirect_to root_path\n\n # respond_to do |format|\n # if @job.save\n # format.html { redirect_to @job, notice: 'Job was successfully created.' }\n # format.json { render :show, status: :created, location: @job }\n # else\n # format.html { render :new }\n # format.json { render json: @job.errors, status: :unprocessable_entity }\n # end\n # end\n end", "def update_job_success(job_id, success)\n RestClient.put \"#{rest_jobs_url}/#{job_id}\", { 'passed' => success }.to_json, :content_type => :json\nend", "def update_job_success(job_id, success)\n RestClient.put \"#{rest_jobs_url}/#{job_id}\", { 'passed' => success }.to_json, :content_type => :json\nend", "def update_job_success(job_id, success)\n RestClient.put \"#{rest_jobs_url}/#{job_id}\", { 'passed' => success }.to_json, :content_type => :json\nend", "def create\n @job = Job.new(params[:job])\n @job.status = 'listed'\n\n respond_to do |format|\n if @job.save\n format.html { redirect_to @job, notice: 'Job was successfully created.' }\n format.json { render json: @job, status: :created, location: @job }\n else\n format.html { render action: \"new\" }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def record_job(job_json)\n job = JSON.parse(job_json)\n processing_jobs.create!(\n :account_id => account_id,\n :cloud_crowd_id => job['id'],\n :title => title,\n :remote_job => job\n )\n end", "def update_job_success(job_id, success)\n RestClient.put \"#{rest_jobs_url}/#{job_id}\", {\"passed\" => success}.to_json, :content_type => :json\nend", "def create\n @job = Job.new(params[:job])\n\n respond_to do |format|\n if @job.save\n format.html { redirect_to @job, notice: 'Job was successfully created.' }\n format.json { render json: @job, status: :created, location: @job }\n else\n format.html { render action: \"new\" }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def request_content\n @request_content ||= begin\n uri = URI(http_request[:url])\n req = Net::HTTP::Post.new(uri.path, http_request[:headers])\n\n # Add task headers\n req[Cloudtasker::Config::TASK_ID_HEADER] = id\n req[Cloudtasker::Config::RETRY_HEADER] = retries\n\n # Set job payload\n req.body = http_request[:body]\n req\n end\n end", "def create\n @job = Job.new(job_params)\n\n respond_to do |format|\n if @job.save\n format.html { redirect_to @job, notice: 'Job was successfully created.' }\n format.json { render :show, status: :created, location: @job }\n else\n format.html { render :new }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @job = Job.new(job_params)\n\n respond_to do |format|\n if @job.save\n format.html { redirect_to @job, notice: 'Job was successfully created.' }\n format.json { render :show, status: :created, location: @job }\n else\n format.html { render :new }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @job = Job.new(job_params)\n\n respond_to do |format|\n if @job.save\n format.html { redirect_to @job, notice: 'Job was successfully created.' }\n format.json { render :show, status: :created, location: @job }\n else\n format.html { render :new }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @request = Request.new(request_params)\n @request.user_id = current_user.id\n @request.assign_json_attributes(params) if @request.resume?\n\n respond_to do |format|\n if @request.save\n @request.set_folio\n format.html { redirect_to @request, notice: 'Request was successfully created.' }\n format.json { render :show, status: :created, location: @request }\n else\n format.html { render :new }\n format.json { render json: @request.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @job = Job.new(job_params)\n\n respond_to do |format|\n if @job.save\n format.html { redirect_to root_path, notice: 'Job was successfully created.' }\n format.json { render action: 'show', status: :created, location: @job }\n else\n format.html { render action: 'new' }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n\n @customer_job = CustomerJob.new( customer_job_params )\n\n respond_to do |format|\n if @customer_job.save\n format.html { redirect_to customer_jobs_url, notice: 'Customer job was successfully created.' }\n format.json { render :show, status: :created, location: @customer_job }\n else\n format.html { render :new }\n format.json { render json: @customer_job.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @job = Job.new(job_params)\n\n respond_to do |format|\n if @job.save\n format.html { redirect_to @job, notice: 'Job was successfully created.' }\n format.json { render action: 'show', status: :created, location: @job }\n else\n format.html { render action: 'new' }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @job = Job.new(job_params)\n @job.poster_id = current_user.id\n respond_to do |format|\n if @job.save\n\tformat.html { \n\t if session[:batch_job] == true\n\t redirect_to batch_job_path\n\t else\n\t redirect_to job_build_path(job_id: @job.id, id: :job_scope)\n\t end }\n format.json { render :show, status: :created, location: @job }\n else\n format.html { render :new }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @job = Job.new(job_params)\n @job.target *= 3600\n @job.user = current_user\n \n respond_to do |format|\n if @job.save\n format.html { redirect_to @job, notice: 'Job was successfully created.' }\n format.json { render :show, status: :created, location: @job }\n else\n format.html { render :new }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def index\n @job_requests = JobRequest.all\n end", "def public_api_post_job_task(job_id, api_key, request, opts = {})\n data, _status_code, _headers = public_api_post_job_task_with_http_info(job_id, api_key, request, opts)\n return data\n end", "def create\n @launched_job = LaunchedJob.new(launched_job_params)\n\n respond_to do |format|\n if @launched_job.save\n format.html { redirect_to @launched_job, notice: 'Launched job was successfully created.' }\n format.json { render json: @launched_job, status: :created }\n else\n format.html { render action: 'new' }\n format.json { render json: @launched_job.errors, status: :unprocessable_entity }\n end\n end\n end", "def job_params\n params.require(:job).permit(:started_at, :user_id)\n end", "def job_params\n params.require(:job).permit(:parcel_number,\n :client_id, :address, :city, :state_id, :zipcode, :county_id, :old_owner, :new_owner, :requestor_id,\n :file_number, :close_on, :beneficiary_name, :payoff_amount, :beneficiary_account, :underwriter_name,\n :short_sale, :file_type, :job_type, :parcel_legal_description, :deed_of_trust_number, :developer,\n tasks_attributes: [\n :id,\n :product_id,\n :_destroy,\n :deed_of_trust_number,\n :lender_id,\n :beneficiary_name,\n :beneficiary_account,\n :payoff_amount,\n :developer,\n :price,\n :parcel_number,\n :parcel_legal_description,\n :new_deed_of_trust_number,\n :recorded_on,\n :docs_delivered_on,\n lender_attributes: [ :name ]\n ]\n )\n end", "def create\n job_id = ProductScraperJob.perform_async current_user.id, params[:url]\n respond_to do |format|\n format.html { redirect_to root_path, notice: \"Successfully queued..\" }\n format.json { render json: { id: job_id }.to_json }\n end\n end", "def create\n @job = @user.jobs.new(params[:job])\n\n respond_to do |format|\n if @job.save\n format.html { redirect_to :dashboard, notice: 'Job was successfully created.' }\n format.json { render json: @job, status: :created, location: @job }\n else\n format.html { render action: \"new\" }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n begin\n @job_request = job_requests.find( params[ :id ] )\n rescue ActiveRecord::RecordNotFound\n @job_request = nil\n end\n\n respond_to do |format|\n if @job_request && @job_request.update_attributes( params[ :job_request ] )\n format.html { redirect_to root_path, notice: \"Job Requests Updated Successfully\"}\n format.json { head :no_content }\n else\n format.html { redirect_to root_path, notice: \"Update Failed\" }\n format.json { render json: @job_request.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @create_job = CreateJob.new(create_job_params)\n\n respond_to do |format|\n if @create_job.save\n format.html { redirect_to @create_job, notice: 'Create job was successfully created.' }\n format.json { render :show, status: :created, location: @create_job }\n else\n format.html { render :new }\n format.json { render json: @create_job.errors, status: :unprocessable_entity }\n end\n end\n end", "def request_job_to_process\n \n response = HTTParty.get(\"#{@host}/api/process/request_job/#{@process_code}.json\", query: {\n api_key: @api_key\n })\n\n job = response[\"job\"]\n #If there is no job waiting, end script\n if job.nil? || job[\"id\"].to_i == 0 \n @helper.terminate(\"No job to process at this time\")\n else\n @helper.log(\"Starting process #{@process_code} for job: #{job[\"id\"]} - #{job[\"author\"]} - #{job[\"title\"]} - #{job[\"created_at\"]}\")\n end\n return job\n end", "def create\n new_params = job_request_params.deep_dup\n if new_params[:job_request_properties_attributes].present?\n new_params[:job_request_properties_attributes].each_pair do |key, property_attribute|\n property_attribute[:name] = property_attribute[:name].split(\" \").join(\" \").humanize\n end\n end\n @job_request = @deal.job_requests.new(new_params)\n if params[:attachments].present?\n params[:attachments].each do |attachment|\n @job_request.attachments.new(attachment: attachment)\n end\n end\n # Reject empty string and convert each of them to string so can be compared.\n @color_ids = new_params[:colors].present? ? new_params[:colors].reject { |c| c.empty? }.map { |c| c.to_i } : []\n @size_ids = new_params[:sizes].present? ? new_params[:sizes].reject { |s| s.empty? }.map { |s| s.to_i } : []\n begin\n respond_to do |format|\n if @job_request.valid? && @color_ids.present? && @size_ids.present?\n # Publisher.publish(\"design\", @job_request.attributes)\n @job_request.save(validate: false)\n format.html { redirect_to @deal, notice: 'Job request was successfully created.' }\n format.json { render :show, status: :created, location: @job_request }\n else\n @product = @job_request&.product\n format.html { render :new }\n format.json { render json: @job_request.errors, status: :unprocessable_entity }\n end\n end\n rescue\n flash.now[:notice] = \"Can't have more than 1 property with same name.\"\n render :new\n end\n end", "def job_params\n params.require(:job).permit(:invoice_number, :user_id, :customer_id, :customer, :user, :title, :description, :scheduled_date, :completed_date, :status,\n :attachment)\n end", "def create\n @job = @user.jobs.new(job_params)\n\n respond_to do |format|\n if @job.save\n format.html { redirect_to :dashboard, notice: \"Job was successfully created.\" }\n format.json { render json: @job, status: :created, location: @job }\n else\n format.html { render action: \"new\" }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @job = Job.new(params[:job])\n @job.company_id = current_company.id\n\n if @job.save\n response_message = {:message => \"Job created successfully.\", :job => @job}\n else\n response_message = {:message => \"Job creation failed. Please try again!\"}\n end\n\n respond_to do |format|\n format.xml { render :xml => response_message}\n format.json { render :json => response_message }\n end\n end", "def public_api_post_job_note_with_http_info(job_id, api_key, request, opts = {})\n if @api_client.config.debugging\n @api_client.config.logger.debug \"Calling API: JobsApi.public_api_post_job_note ...\"\n end\n # verify the required parameter 'job_id' is set\n if @api_client.config.client_side_validation && job_id.nil?\n fail ArgumentError, \"Missing the required parameter 'job_id' when calling JobsApi.public_api_post_job_note\"\n end\n # verify the required parameter 'api_key' is set\n if @api_client.config.client_side_validation && api_key.nil?\n fail ArgumentError, \"Missing the required parameter 'api_key' when calling JobsApi.public_api_post_job_note\"\n end\n # verify the required parameter 'request' is set\n if @api_client.config.client_side_validation && request.nil?\n fail ArgumentError, \"Missing the required parameter 'request' when calling JobsApi.public_api_post_job_note\"\n end\n # resource path\n local_var_path = \"/api/pub/v1/jobs/{jobId}/notes\".sub('{' + 'jobId' + '}', job_id.to_s)\n\n # query parameters\n query_params = {}\n query_params[:'api_key'] = api_key\n\n # header parameters\n header_params = {}\n # HTTP header 'Accept' (if needed)\n header_params['Accept'] = @api_client.select_header_accept(['application/json', 'text/json'])\n # HTTP header 'Content-Type'\n header_params['Content-Type'] = @api_client.select_header_content_type(['application/json', 'text/json', 'application/x-www-form-urlencoded'])\n\n # form parameters\n form_params = {}\n\n # http body (model)\n post_body = @api_client.object_to_http_body(request)\n auth_names = []\n data, status_code, headers = @api_client.call_api(:POST, local_var_path,\n :header_params => header_params,\n :query_params => query_params,\n :form_params => form_params,\n :body => post_body,\n :auth_names => auth_names,\n :return_type => 'PublicApiIdResponse')\n if @api_client.config.debugging\n @api_client.config.logger.debug \"API called: JobsApi#public_api_post_job_note\\nData: #{data.inspect}\\nStatus code: #{status_code}\\nHeaders: #{headers}\"\n end\n return data, status_code, headers\n end", "def create\n @postjob = Postjob.new(postjob_params)\n\n respond_to do |format|\n if @postjob.save\n format.html { redirect_to @postjob, notice: 'Postjob was successfully created.' }\n format.json { render :show, status: :created, location: @postjob }\n else\n format.html { render :new }\n format.json { render json: @postjob.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n http = Net::HTTP.new(\"#{@server_instance}.salesforce.com\", 443)\n http.use_ssl = true\n\n job_request = generate_create_request.lstrip\n logger.debug job_request\n response = http.post('/services/async/21.0/job',\n job_request,\n {\"Content-Type\" => \"application/xml;charset=UTF-8\", \"X-SFDC-Session\" => @session_id})\n\n return response.body if response.class != Net::HTTPCreated\n\n job_response = JobResponse.fromXML(response.body)\n @sf_job_id = job_response.job_id\n job_response\n end", "def create\n @job = current_user.jobs.new(job_params)\n respond_to do |format|\n if @job.save\n \ttrack_activity @job\n format.html { redirect_to @job, notice: 'Job was successfully created.' }\n format.json { render :show, status: :created, location: @job }\n else\n format.html { render :new }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n\t\t@job = Job.new(params[:job])\n\n\t\trespond_to do |format|\n\t\t\tif @job.save\n\t\t\t\tformat.html { redirect_to @job, notice: 'Job was successfully created.' }\n\t\t\t\tformat.json { render json: @job, status: :created, location: @job }\n\t\t\telse\n\t\t\t\tformat.html { render action: \"new\" }\n\t\t\t\tformat.json { render json: @job.errors, status: :unprocessable_entity }\n\t\t\tend\n\t\tend\n\tend", "def job_params\n params.require(:job).permit(:api_key, :api_token)\n # params.job_params[:job]\n end", "def create\n @worker_job = WorkerJob.new(worker_job_params)\n\n respond_to do |format|\n if @worker_job.save\n format.html { redirect_to @worker_job, notice: 'Worker job was successfully created.' }\n format.json { render action: 'show', status: :created, location: @worker_job }\n else\n format.html { render action: 'new' }\n format.json { render json: @worker_job.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @job = Job.new(job_params)\n\n respond_to do |format|\n if @job.save\n format.html { redirect_to mentor_job_path(@job), notice: 'Job was successfully created.' }\n format.json { render action: 'show', status: :created, location: @job }\n else\n format.html { render action: 'new' }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def requests(job)\r\n {\r\n :journal_entry_query_rq => {\r\n # :max_returned => 100,\r\n # :xml_attributes => { \"requestID\" =>\"1\", 'iterator' => \"Start\" },\r\n :modified_date_range_filter => {\"from_modified_date\" => qbwc_log_init(WorkerName), \"to_modified_date\" => qbwc_log_end()},\r\n :include_line_items => true\r\n }\r\n }\r\n end", "def job_params\n params.require(:job).permit(:title, :description, :start_at, :end_at,\n :place, :address, :slots, :user_id,\n :creation_frequency, :job_type_id, :notes)\n end", "def job_params\n params.require(:job).permit(:image_label_set_id, :user_id)\n end", "def set_job_request\n @job_request = JobRequest.find(params[:id])\n end", "def job_params\n params.require(:job).permit(:territory_id, :jobtype_id, :server_id, :is_running, :is_finished_correctly, :version, :fail_reason)\n end", "def create\n @job_post = JobPost.new(job_post_params)\n\n if @job_post.save\n render :show, status: :created, location: @job_post\n else\n render json: @job_post.errors, status: :unprocessable_entity\n end\n end", "def create\n @job = Job.new(job_params.merge({\n owner_id: current_user_id,\n owner_name: current_user_name,\n user_id: current_user_db_record.id,\n remote: job_params[:remote]\n }))\n\n respond_to do |format|\n if @job.save\n format.html { redirect_to @job, notice: 'Job was successfully created.' }\n format.json { render :show, status: :created, location: @job }\n else\n format.html { render :new }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def job_request_params\n params.require(:job_request).permit(:deal_id, :product_id, :name, :sleeve, :relabeling, :woven_tag, :hang_tag, :provide_artwork, :design_brief, :concept, :pantone_code, :remark, :sample_required, :budget, :client_comment, colors: [], sizes: [],\n print_details_attributes: [:id, :position, :print_method, :block, :color_count, :_destroy],\n job_request_properties_attributes: [:id, :name, :value, :_destroy],\n attachments_attributes: [:id, :attachment, :_destroy])\n end", "def job_params\n params.require(:job).permit(:name, :target, :current, :status)\n end", "def create\n @sfjob = Sfjob.new(params[:sfjob])\n\n respond_to do |format|\n if @sfjob.save\n format.html { redirect_to @sfjob, notice: 'Sfjob was successfully created.' }\n format.json { render json: @sfjob, status: :created, location: @sfjob }\n else\n format.html { render action: \"new\" }\n format.json { render json: @sfjob.errors, status: :unprocessable_entity }\n end\n end\n end", "def upload_submission(sub_info)\n uri = URI.parse(TARGET_API)\n http = Net::HTTP.new(uri.host, uri.port)\n\n req = Net::HTTP::Post.new(\"/ontologies/#{sub_info['ontology']['acronym']}/submissions\")\n req['Content-Type'] = 'application/json'\n req['Authorization'] = \"apikey token=#{TARGET_APIKEY}\"\n\n # Check if the source BioPortal is pulling the ontology from an URL\n # If yes then we will pull the ontology from this place (allow auto update of the ontology when the ontology is changed in its source URL)\n if sub_info['pullLocation'].nil?\n pull_location = \"#{sub_info['ontology']['links']['download']}?apikey=#{SOURCE_APIKEY}\"\n else\n pull_location = sub_info['pullLocation']\n end\n\n # Extract contacts\n contacts = []\n sub_info['contact'].each do |contact|\n contacts.push({'name': contact['name'],'email': contact['email']})\n end\n\n # Build the json body\n # hasOntologyLanguage options: OWL, UMLS, SKOS, OBO\n # status: alpha, beta, production, retired\n req.body = {\n 'contact': contacts,\n 'hasOntologyLanguage': sub_info['hasOntologyLanguage'],\n 'released': sub_info['released'],\n 'ontology': \"#{TARGET_API}/ontologies/#{sub_info['ontology']['acronym']}\",\n 'description': sub_info['description'],\n 'status': sub_info['status'],\n 'version': sub_info['version'],\n 'homepage': sub_info['homepage'],\n 'documentation': sub_info['documentation'],\n 'publication': sub_info['publication'],\n 'naturalLanguage': sub_info['naturalLanguage'],\n 'pullLocation': pull_location\n }.to_json\n\n #puts req.body.to_s\n response = http.start do |http|\n http.request(req)\n end\n\n return response\nend", "def create\n @job = Job.new(params[:job].reject{|key, value| key == 'jobs_queue_id'})\n @job.user = current_user\n\n respond_to do |format|\n if @job.save\n if @job.r_script.tags.collect{|tag| tag.name}.include?('install script')\n @job.pending \n elsif queue = JobsQueue.find_by_id(params[:job][:jobs_queue_id].to_i) \n @job.submit(queue) \n end\n create_log_entry(@job.r_script, @job, 'use')\n flash[:notice] = 'Job was successfully created.'\n format.html { redirect_to(jobs_url) }\n format.xml { render :xml => @job.to_xml(:include => { :job_parameters => { :include => :data_set } }), :status => :created, :location => @job }\n else\n @job.jobs_queue_id = params[:job][:jobs_queue_id]\n format.html { render :action => \"new\" }\n format.xml { render :xml => @job.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n @training_active_job = Training::ActiveJob.new(params[:training_active_job])\n\n respond_to do |format|\n if @training_active_job.save\n format.html { redirect_to @training_active_job, notice: 'Active job was successfully created.' }\n format.json { render json: @training_active_job, status: :created, location: @training_active_job }\n else\n format.html { render action: \"new\" }\n format.json { render json: @training_active_job.errors, status: :unprocessable_entity }\n end\n end\n end", "def get_single_job_sample(client)\n response = client[\"jobs/#{$job_id}\"].get\n\n p ''\n p 'Get single job'\n p response\nend", "def create\n @job = Job.new(job_params)\n @job.user_id = current_user.id\n @job.organization_id = current_user.organization_id\n\n respond_to do |format|\n if @job.save\n format.html { redirect_to @job, notice: 'Job was successfully created.' }\n format.json { render :show, status: :created, location: @job }\n else\n format.html { render :new }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def job_params\n params.require(:job).permit(:name, :description,:time, :status_id, :employer_id, :ad_type, :budget, service_ids: [],\n location_attributes: [:id, :name, :address_1, :address_2, :zip_code, :city_id, :longitude, :latitude],\n attachments_attributes: [:id, :name, :image_type, :document],\n jobs_services_attributes: [:id, :job_id, :service_id])\n end", "def print_jobs_create_with_http_info(opts = {})\n if @api_client.config.debugging\n @api_client.config.logger.debug 'Calling API: PrintJobsApi.print_jobs_create ...'\n end\n # resource path\n local_var_path = '/print-jobs/'\n\n # query parameters\n query_params = {}\n\n # header parameters\n header_params = {}\n # HTTP header 'Accept' (if needed)\n header_params['Accept'] = @api_client.select_header_accept(['application/json'])\n # HTTP header 'Content-Type'\n header_params['Content-Type'] = @api_client.select_header_content_type(['application/json'])\n\n # form parameters\n form_params = {}\n\n # http body (model)\n post_body = @api_client.object_to_http_body(opts[:'inline_object1'])\n auth_names = ['oauth2']\n data, status_code, headers = @api_client.call_api(:POST, local_var_path,\n :header_params => header_params,\n :query_params => query_params,\n :form_params => form_params,\n :body => post_body,\n :auth_names => auth_names,\n :return_type => 'InlineResponse2011')\n if @api_client.config.debugging\n @api_client.config.logger.debug \"API called: PrintJobsApi#print_jobs_create\\nData: #{data.inspect}\\nStatus code: #{status_code}\\nHeaders: #{headers}\"\n end\n return data, status_code, headers\n end", "def job_params\n params.require(:job).permit(:description, :employment, :responsibilities, :requirements, :company_id, :user_id)\n end", "def create\n @jobtype = Jobtype.new(params[:jobtype])\n \n if @jobtype.save\n render_json \"success\"\n else\n render_error \"failure\"\n end\n end", "def create\n @act_job = ActJob.new(act_job_params)\n\n respond_to do |format|\n if @act_job.save\n format.html { redirect_to @act_job, notice: 'Act job was successfully created.' }\n format.json { render :show, status: :created, location: @act_job }\n else\n format.html { render :new }\n format.json { render json: @act_job.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n #@job = Job.new(params[:job])\n @job = current_user.jobs.new(params[:job])\n \n\n respond_to do |format|\n if @job.save\n format.html { redirect_to @job, notice: 'Job was successfully created.' }\n format.json { render json: @job, status: :created, location: @job }\n else\n format.html { render action: \"new\" }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def job_params\n params.require(:job).permit(:title, :description, :requirement, :apply_instruction, :location,\n :start_day, :professional_skill, :language_skills, :is_published,\n :category_id, :industry_id, :contract_type_id, :location_id,\n :salary_range_id, :country_id)\n end", "def job_params\n params.require(:job).permit(:category, :title, :contents, :started_at, :finished_at, :working_time, :start_time, :finish_time, :learning_time, :level, :workers_count, :pay, :location, :address, :mentor_id, )\n end", "def jobs_post_with_http_info(body, opts = {})\n if @api_client.config.debugging\n @api_client.config.logger.debug \"Calling API: CoreApi#jobs_post ...\"\n end\n \n # verify the required parameter 'body' is set\n fail \"Missing the required parameter 'body' when calling jobs_post\" if body.nil?\n \n # resource path\n local_var_path = \"/jobs\".sub('{format}','json')\n\n # query parameters\n query_params = {}\n\n # header parameters\n header_params = {}\n\n # HTTP header 'Accept' (if needed)\n _header_accept = ['application/json']\n _header_accept_result = @api_client.select_header_accept(_header_accept) and header_params['Accept'] = _header_accept_result\n\n # HTTP header 'Content-Type'\n _header_content_type = ['application/json']\n header_params['Content-Type'] = @api_client.select_header_content_type(_header_content_type)\n\n # form parameters\n form_params = {}\n\n # http body (model)\n post_body = @api_client.object_to_http_body(body)\n \n auth_names = []\n data, status_code, headers = @api_client.call_api(:POST, local_var_path,\n :header_params => header_params,\n :query_params => query_params,\n :form_params => form_params,\n :body => post_body,\n :auth_names => auth_names,\n :return_type => 'JobsWrapper')\n if @api_client.config.debugging\n @api_client.config.logger.debug \"API called: CoreApi#jobs_post\\nData: #{data.inspect}\\nStatus code: #{status_code}\\nHeaders: #{headers}\"\n end\n return data, status_code, headers\n end", "def create\n create_fields = {}\n\n Job.storage_fields.each do |field|\n create_fields[field] = params[field.to_sym] if !params.has_key?(field.to_sym)\n end\n\n respond_with Job.create(create_fields)\n end", "def job_params\n params.require(:job).permit(:identifier)\n end", "def create\n @job = current_member.jobs.new(job_params)\n @job.published_at = DateTime.now\n\n\n respond_to do |format|\n if @job.save\n\n format.html { redirect_to @job, notice: 'The stuff you want done was successfully created.' }\n format.json { render json: @job, status: :created, location: @job }\n else\n format.html { render action: \"new\" }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def new\n @jobs = Job.new(params[:accepted_jobs])\n\n @jobs.user_id = current_user.id\n\n pp @jobs\n\n # respond_to do |format|\n # if @jobs.save\n # format.html { redirect_to home_path, notice: 'Request was successfully created.' }\n # format.json { render json: @jobs, status: :created, location: home_path }\n # else\n # format.html { render action: \"new\" }\n # format.json { render json: @jobs.errors, status: :unprocessable_entity }\n # end\n # end\n end", "def create\n @job_location = JobLocation.new(job_location_params)\n\n \n if @job_location.save\n render json: {job_location: @job_location, status: 'Job location was successfully created.'}, status: :created\n else\n render json: { errors: @job_location.errors.full_messages }, status: :bad_request \n end\n \n end", "def job_params\n params.require(:job).permit(:title, :description, :location, :remote, :industry, :job_type, :requirements, :benefits)\n end", "def create\n @job = Job.new(job_params)\n respond_to do |format|\n if @job.save_series\n record_activity :create, @job\n format.html { redirect_to @job, notice: 'Job was successfully created.' }\n format.json { render :show, status: :created, location: @job }\n else\n @job_type = JobType.find_by(id: @job.job_type_id)\n format.html { render :new }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n if current_user.saved_jobs.where(job_id: params[:saved_job][:job_id]).count > 0\n respond_to do |format|\n format.html { redirect_to worker_all_jobs_path, notice: t('saved_jobs_controller.saved_jobs_create_error') }\n end\n else\n @saved_job = current_user.saved_jobs.new(saved_job_params)\n\n respond_to do |format|\n if @saved_job.save\n format.html { redirect_to worker_all_jobs_path, notice: t('saved_jobs_controller.saved_jobs_create_success') }\n format.json { render :show, status: :created, location: @saved_job }\n\n else\n format.html { render :new }\n format.json { render json: @saved_job.errors, status: :unprocessable_entity }\n end\n end\n end\n end", "def create\n @job = current_company.jobs.build(params[:job])\n respond_to do |format|\n if @job.save\n format.html { redirect_to root_path, notice: 'Vaga criada com sucesso' }\n format.json { render json: @job, status: :created, location: @job }\n else\n format.html { render action: \"new\" }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n request = Request.new({title: params[:title], reqtype: params[:reqtype], description: params[:description],\n lat: params[:lat], lng: params[:lng], address: params[:address], status: params[:status], user_id: @current_user.id})\n if request.save\n render json: {\n status: 'success',\n message: 'Request added successfully',\n data: request\n },\n status: :created\n else \n render json: {\n status: 'error',\n message: 'Request not saved',\n data: request.errors\n },\n status: :unprocessable_entity\n end\n end", "def add_to_queue\n @list = current_user.list\n if @list.add_job(params[:id])\n respond_to do |format|\n format.json { render :json => @list.jobs }\n end\n else\n flash[:errors] = \"Sorry, something went wrong\"\n redirect_to :back\n end\n end", "def work\n possible_job = pluck_queue_message(:job_requests) # FIX: pluck doesn't delete\n job = Job.build(@instance_id, possible_job)\n job.valid? ? process(job) : process_invalid(job)\n end" ]

[ "0.6780263", "0.6687482", "0.6652123", "0.6601598", "0.647481", "0.64710575", "0.6417419", "0.64106214", "0.6407836", "0.6371234", "0.6286552", "0.6242088", "0.62181616", "0.61695063", "0.616624", "0.6141631", "0.61173546", "0.6114159", "0.60990155", "0.6096911", "0.60742384", "0.60350525", "0.60300267", "0.6029803", "0.6020672", "0.599922", "0.599922", "0.599922", "0.59928477", "0.5970444", "0.5969817", "0.59296435", "0.5926021", "0.59180546", "0.59180546", "0.59180546", "0.5883075", "0.58466226", "0.5840205", "0.5839469", "0.58300704", "0.5812077", "0.5804948", "0.57930714", "0.57880926", "0.5776822", "0.57752764", "0.57732", "0.5771272", "0.57711935", "0.5769641", "0.5766761", "0.57618517", "0.57599574", "0.57526785", "0.5751394", "0.57502836", "0.57313347", "0.57195705", "0.5712565", "0.5707748", "0.5701513", "0.56956416", "0.5695547", "0.5681861", "0.5678309", "0.5673863", "0.5671966", "0.5671799", "0.567167", "0.5669727", "0.56693774", "0.56627977", "0.5661581", "0.566073", "0.5649407", "0.5641289", "0.5640787", "0.5634854", "0.5632241", "0.56311184", "0.5627941", "0.5625684", "0.56168824", "0.5610756", "0.5607735", "0.56056243", "0.56027275", "0.560015", "0.5599682", "0.55995184", "0.5598715", "0.5592755", "0.5589552", "0.55857617", "0.55731714", "0.5564589", "0.5563322", "0.5562313", "0.5557381" ]

[ "def update_job_success(job_id, success)\n RestClient.put \"#{rest_jobs_url}/#{job_id}\", {\"passed\" => success}.to_json, :content_type => :json\nend", "def update_job_success(job_id, success)\n RestClient.put \"#{rest_jobs_url}/#{job_id}\", { 'passed' => success }.to_json, :content_type => :json\nend", "def update_job_success(job_id, success)\n RestClient.put \"#{rest_jobs_url}/#{job_id}\", { 'passed' => success }.to_json, :content_type => :json\nend", "def update_job_success(job_id, success)\n RestClient.put \"#{rest_jobs_url}/#{job_id}\", { 'passed' => success }.to_json, :content_type => :json\nend", "def update\n job = Job.find(params[:id])\n job.update_attributes(job_params)\n render json: job\n end", "def update_job(job:)\n response = HTTParty.put(\"#{@host}/api/jobs/#{job[:id]}\", body: {job: job, api_key: @api_key})\n \n return response.success?\n end", "def create_batch_job(job_id)\n request = Net::HTTP::Put.new(\"/jobs/#{job_id}\")\n response = http.request(request)\n handle_response({ request_method: request.method, request_path: request.path }, response)\n end", "def update(id, job)\n connection.put do |req|\n req.url \"job/#{id}\"\n req.body = job\n end\n end", "def set_job_request\n @job_request = JobRequest.find(params[:id])\n end", "def update\n @request.assign_json_attributes(params) if @request.resume?\n respond_to do |format|\n if @request.update(request_params)\n format.html { redirect_to @request, notice: 'Request was successfully updated.' }\n format.json { render :show, status: :ok, location: @request }\n else\n format.html { render :edit }\n format.json { render json: @request.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n if @job.update(job_params)\n @job.update(category: @category)\n @job.update(keywords: @keywords)\n render json: @job, status: :accepted\n else\n render json: @job.errors, status: :unprocessable_entity\n end\n end", "def action_update\n if job_exists\n post_job(job_url)\n else\n post_job(new_job_url)\n end\nend", "def public_api_put_job_with_http_info(job_id, api_key, request, opts = {})\n if @api_client.config.debugging\n @api_client.config.logger.debug \"Calling API: JobsApi.public_api_put_job ...\"\n end\n # verify the required parameter 'job_id' is set\n if @api_client.config.client_side_validation && job_id.nil?\n fail ArgumentError, \"Missing the required parameter 'job_id' when calling JobsApi.public_api_put_job\"\n end\n # verify the required parameter 'api_key' is set\n if @api_client.config.client_side_validation && api_key.nil?\n fail ArgumentError, \"Missing the required parameter 'api_key' when calling JobsApi.public_api_put_job\"\n end\n # verify the required parameter 'request' is set\n if @api_client.config.client_side_validation && request.nil?\n fail ArgumentError, \"Missing the required parameter 'request' when calling JobsApi.public_api_put_job\"\n end\n # resource path\n local_var_path = \"/api/pub/v1/jobs/{jobId}\".sub('{' + 'jobId' + '}', job_id.to_s)\n\n # query parameters\n query_params = {}\n query_params[:'api_key'] = api_key\n\n # header parameters\n header_params = {}\n # HTTP header 'Accept' (if needed)\n header_params['Accept'] = @api_client.select_header_accept(['application/json', 'text/json'])\n # HTTP header 'Content-Type'\n header_params['Content-Type'] = @api_client.select_header_content_type(['application/json', 'text/json', 'application/x-www-form-urlencoded'])\n\n # form parameters\n form_params = {}\n\n # http body (model)\n post_body = @api_client.object_to_http_body(request)\n auth_names = []\n data, status_code, headers = @api_client.call_api(:PUT, local_var_path,\n :header_params => header_params,\n :query_params => query_params,\n :form_params => form_params,\n :body => post_body,\n :auth_names => auth_names,\n :return_type => 'Object')\n if @api_client.config.debugging\n @api_client.config.logger.debug \"API called: JobsApi#public_api_put_job\\nData: #{data.inspect}\\nStatus code: #{status_code}\\nHeaders: #{headers}\"\n end\n return data, status_code, headers\n end", "def update\n respond_to do |format|\n if @pending_job.update(pending_job_params)\n format.html { redirect_to @pending_job, notice: 'Pending job was successfully updated.' }\n format.json { render :show, status: :ok, location: @pending_job }\n else\n format.html { render :edit }\n format.json { render json: @pending_job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n record_activity :update, @job\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { render :show, status: :ok, location: @job }\n else\n format.html { render :edit }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n job = Job.find(params[:id])\n\n Job.storage_fields.each do |field|\n job[field.to_sym] = params[field.to_sym]\n end\n\n respond_with job.save\n end", "def update #:nodoc:\n job = Job.find(params[:id])\n job.enter(params[:status], params, request.headers)\n respond_with job, location: api_job_url(job)\n end", "def update\n\n @job = current_member.jobs.find(params[:id])\n\n respond_to do |format|\n if @job.update_attributes(job_params)\n format.html { redirect_to @job, notice: 'The stuff you want done was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @job = Job.find(params[:id])\n if @job.update_attributes(params[:job])\n response_message = {:message => \"Job updated successfully.\", :job => @job}\n else\n response_message = {:message => \"Job updation failed. Please try again!\"}\n end\n\n respond_to do |format|\n format.xml { render :xml => response_message }\n format.json { render :json => response_message }\n end\n end", "def update\n byebug\n respond_to do |format|\n if @job.update(send(\"#{@job.type.underscore.to_sym}_params\"))\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { render :show, status: :ok, location: @job }\n else\n format.html { render :edit }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @job = Job.find(params[:id])\n @job.update({\n name: params[:job][:name],\n description: params[:job][:description],\n origin: params[:job][:origin],\n destination: params[:job][:destination],\n cost: params[:job][:cost],\n containers_needed: params[:job][:containers_needed]\n })\n\n if (@job)\n redirect_to url_for(:controller => :jobs, :action => :index)\n else\n redirect_to url_for(:controller => :jobs, :action => :edit)\n end\n end", "def update\n respond_to do |format|\n if @create_job.update(create_job_params)\n format.html { redirect_to @create_job, notice: 'job was successfully updated.' }\n format.json { render :show, status: :ok, location: @create_job }\n else\n format.html { render :edit }\n format.json { render json: @create_job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n #@job = Job.find(params[:id])\n\n respond_to do |format|\n if @job.update_attributes(params[:job])\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @job = Job.find(params[:id])\n\n respond_to do |format|\n if @job.update_attributes(params[:job])\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { head :ok }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @job = Job.find(params[:id])\n\n respond_to do |format|\n if @job.update_attributes(params[:job])\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to root_path, notice: 'Job was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { render :show, status: :ok, location: @job }\n else\n format.html { render :edit }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { render :show, status: :ok, location: @job }\n else\n format.html { render :edit }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { render :show, status: :ok, location: @job }\n else\n format.html { render :edit }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { render :show, status: :ok, location: @job }\n else\n format.html { render :edit }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { render :show, status: :ok, location: @job }\n else\n format.html { render :edit }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { render :show, status: :ok, location: @job }\n else\n format.html { render :edit }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { render :show, status: :ok, location: @job }\n else\n format.html { render :edit }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { render :show, status: :ok, location: @job }\n else\n format.html { render :edit }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { render :show, status: :ok, location: @job }\n else\n format.html { render :edit }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { render :show, status: :ok, location: @job }\n else\n format.html { render :edit }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { render :show, status: :ok, location: @job }\n else\n format.html { render :edit }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { render :show, status: :ok, location: @job }\n else\n format.html { render :edit }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { render :show, status: :ok, location: @job }\n else\n format.html { render :edit }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { render :show, status: :ok, location: @job }\n else\n format.html { render :edit }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to app_jobs_path, notice: 'Job was successfully updated.' }\n format.json { render :show, status: :ok, location: @job }\n else\n format.html { render :edit }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @request = Request.find(params[:id])\n\n if @request.update(params[:request])\n head :no_content\n else\n render json: @request.errors, status: :unprocessable_entity\n end\n end", "def post_job_content_sample(client)\n job_multipart = {\n :file => File.new($full_path),\n 'num copies' => 10\n }\n\n response = client['jobs'].post job_multipart\n\n p ''\n p 'Submit a new job'\n p response\nend", "def update\n respond_to do |format|\n if @launched_job.update(launched_job_params)\n format.html { redirect_to @launched_job, notice: 'Launched job was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @launched_job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to @job, success: 'Job was successfully updated.' }\n format.json { render :show, status: :ok, location: @job }\n else\n format.html { render :edit }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @job = @user.jobs.find(params[:id])\n\n respond_to do |format|\n if @job.update_attributes(params[:job])\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @myjob.update(myjob_params)\n format.html { redirect_to @myjob, notice: 'Myjob was successfully updated.' }\n format.json { render :show, status: :ok, location: @myjob }\n else\n format.html { render :edit }\n format.json { render json: @myjob.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to @job, notice: \"Job was successfully updated.\" }\n format.json { render :show, status: :ok, location: @job }\n else\n format.html { render :edit, status: :unprocessable_entity }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n authorize!(@job)\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @job = @user.jobs.find(params[:id])\n\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to @job, notice: \"Job was successfully updated.\" }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to jobs_path, notice: 'Job was successfully updated.' }\n format.json { render :show, status: :ok, location: @job }\n else\n format.html { render :edit }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update_process(job_id:, step:, status:, msg:)\n HTTParty.get(\"#{@host}/api/process/#{job_id}\", query: {\n process_code: @process_code,\n step: step,\n status: status,\n msg: msg,\n api_key: @api_key\n })\n end", "def update\n new_params = job_request_params.deep_dup\n @product = Product.find(new_params[:product_id]) if new_params[:product_id].present?\n if new_params[:job_request_properties_attributes].present?\n new_params[:job_request_properties_attributes].each_pair do |key, property_attribute|\n property_attribute[:name] = property_attribute[:name].split(\" \").join(\" \").humanize\n end\n end\n if params[:attachments].present?\n params[:attachments].each do |attachment|\n @job_request.attachments.new(attachment: attachment)\n end\n end\n @color_ids = new_params[:colors].present? ? new_params[:colors].reject { |c| c.empty? }.map { |c| c.to_i } : []\n @size_ids = new_params[:sizes].present? ? new_params[:sizes].reject { |s| s.empty? }.map { |s| s.to_i } : []\n @job_request.assign_attributes(new_params)\n respond_to do |format|\n if @job_request.valid? && @color_ids.present? && @size_ids.present?\n @job_request.save(validate: false)\n format.html { redirect_to [@deal, @job_request], notice: 'Job request was successfully updated.' }\n format.json { render :show, status: :ok, location: @job_request }\n else\n format.html { render :edit }\n format.json { render json: @job_request.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @job = Job.find(params[:id])\n respond_to do |format|\n if @job.update_attributes(params[:job])\n format.html { redirect_to @job, notice: 'Job was successfully accepted.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to mentor_job_path(@job), notice: 'Job was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update!(**args)\n @requests = args[:requests] if args.key?(:requests)\n end", "def update!(**args)\n @requests = args[:requests] if args.key?(:requests)\n end", "def update!(**args)\n @requests = args[:requests] if args.key?(:requests)\n end", "def update!(**args)\n @requests = args[:requests] if args.key?(:requests)\n end", "def update\n @request = @skill.requests.find(params[:id])\n\n respond_to do |format|\n if @request.update_attributes(params[:request])\n format.html { redirect_to myrequests_path, notice: 'request was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @request.errors, status: :unprocessable_entity }\n end\n end\n end", "def update_sauce_job_status(json_data = {})\n host = \"http://#{settings.sl_user}:#{settings.sl_api_key}@saucelabs.com\"\n path = \"/rest/v1/#{settings.sl_user}/jobs/#{session_id}\"\n url = \"#{host}#{path}\"\n ::RestClient.put url, json_data.to_json, content_type: :json, accept: :json\n end", "def update\n @job = current_user.jobs.find(params[:id])\n\n respond_to do |format|\n if @job.update_attributes(params[:job])\n flash[:notice] = t('jobs_controller.update.success')\n format.html { redirect_to @job}\n format.json { head :ok }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def request(name,job)\n rz_send(service_socket(name),[JSON.dump(job)])\n self\n end", "def update\n respond_to do |format|\n if @act_job.update(act_job_params)\n format.html { redirect_to @act_job, notice: 'Act job was successfully updated.' }\n format.json { render :show, status: :ok, location: @act_job }\n else\n format.html { render :edit }\n format.json { render json: @act_job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n request = Request.find_by_id(params[:id])\n if request\n request.status = 1\n if request.save\n render json: {\n status: 'success',\n message: 'Request marked as fulfilled',\n },\n status: :ok\n else\n render json: {\n status: 'error',\n message: 'Request failed',\n data: request.errors,\n },\n status: :unprocessable_entity\n end\n else\n render status: :unauthorized\n end\n end", "def update\n respond_to do |format|\n if @scrapper_job.update(scrapper_job_params)\n\tformat.html { redirect_to @scrapper_job, notice: 'Scrapper job was successfully updated.' }\n\tformat.json { render :show, status: :ok, location: @scrapper_job }\n else\n\tformat.html { render :edit }\n\tformat.json { render json: @scrapper_job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n\t\t@request = Request.unscoped.find(params[:id])\n\n\t\trespond_to do |format|\n\t\t\tif @request.update_attributes( update_request_params )\n\t\t\t\tformat.json { render json: @request, status: :created }\t\t\t\t\n\t\t\telse\n\t\t\t\tformat.json { render json: @request.errors, status: :unprocessable_entity }\n\t\t\tend\n\t\tend\n\tend", "def update\n @job = Mugen::Job.update(params[:id])\n \n redirect_to mygengo_jobs_path\n end", "def public_api_put_job_task_with_http_info(job_id, task_id, api_key, request, opts = {})\n if @api_client.config.debugging\n @api_client.config.logger.debug \"Calling API: JobsApi.public_api_put_job_task ...\"\n end\n # verify the required parameter 'job_id' is set\n if @api_client.config.client_side_validation && job_id.nil?\n fail ArgumentError, \"Missing the required parameter 'job_id' when calling JobsApi.public_api_put_job_task\"\n end\n # verify the required parameter 'task_id' is set\n if @api_client.config.client_side_validation && task_id.nil?\n fail ArgumentError, \"Missing the required parameter 'task_id' when calling JobsApi.public_api_put_job_task\"\n end\n # verify the required parameter 'api_key' is set\n if @api_client.config.client_side_validation && api_key.nil?\n fail ArgumentError, \"Missing the required parameter 'api_key' when calling JobsApi.public_api_put_job_task\"\n end\n # verify the required parameter 'request' is set\n if @api_client.config.client_side_validation && request.nil?\n fail ArgumentError, \"Missing the required parameter 'request' when calling JobsApi.public_api_put_job_task\"\n end\n # resource path\n local_var_path = \"/api/pub/v1/jobs/{jobId}/tasks/{taskId}\".sub('{' + 'jobId' + '}', job_id.to_s).sub('{' + 'taskId' + '}', task_id.to_s)\n\n # query parameters\n query_params = {}\n query_params[:'api_key'] = api_key\n\n # header parameters\n header_params = {}\n # HTTP header 'Accept' (if needed)\n header_params['Accept'] = @api_client.select_header_accept(['application/json', 'text/json'])\n # HTTP header 'Content-Type'\n header_params['Content-Type'] = @api_client.select_header_content_type(['application/json', 'text/json', 'application/x-www-form-urlencoded'])\n\n # form parameters\n form_params = {}\n\n # http body (model)\n post_body = @api_client.object_to_http_body(request)\n auth_names = []\n data, status_code, headers = @api_client.call_api(:PUT, local_var_path,\n :header_params => header_params,\n :query_params => query_params,\n :form_params => form_params,\n :body => post_body,\n :auth_names => auth_names,\n :return_type => 'Object')\n if @api_client.config.debugging\n @api_client.config.logger.debug \"API called: JobsApi#public_api_put_job_task\\nData: #{data.inspect}\\nStatus code: #{status_code}\\nHeaders: #{headers}\"\n end\n return data, status_code, headers\n end", "def update\n @job_item = @job.job_items.find(params[:id])\n\n respond_to do |format|\n if @job_item.update_attributes(params[:job_item])\n format.html { redirect_to [@job, @job_item], notice: 'Job item was successfully updated.' }\n format.json { head :ok }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @job_item.errors, status: :unprocessable_entity }\n end\n end\n end", "def add_job_file(job_id, filename, data)\n request = Net::HTTP::Put.new(\"/jobs/#{job_id}/files/#{filename}\")\n request.body = JSON.generate(data)\n response = http.request(request)\n handle_response({ request_method: request.method, request_path: request.path, request_body: request.body }, response)\n end", "def update\n @job = Job.find_by_job_number(params[:id])\n @job.client_id = params[:job][:client_id]\n\n # if any seeds file is uploaded, save the status to the job uploaded_seeds_file accessor\n @job.uploaded_seeds_file = true if params[:job][:seeds_definition_file].present?\n\n respond_to do |format|\n if @job.update_attributes(params[:job])\n if params[:job][:track_returns_type] == \"job\"\n @job.versions.each do |version|\n version.version_tracking_number = \"0000\"\n version.save\n end\n end\n\n if @job.errors.empty?\n if params[:job][:seeds_definition_file].present?\n flash[:notice] = 'Job was successfully updated. Please stand by as seeds are loaded and processed.'\n else\n flash[:notice] = 'Job was successfully updated'\n end\n else\n flash[:notice] = \"Job sucessfully updated with the following warnings: \" + @job.errors.full_messages[0,10].join(\"\\n\")\n end\n format.html { redirect_to job_url(@job) }\n format.xml { head :ok }\n else\n flash[:notice] = @job.errors.full_messages[0,10].join(\"\\n\")\n format.html { redirect_to edit_job_path(@job) }\n format.xml { render :xml => @job.errors.to_xml }\n end\n end\n end", "def update\n @job = Job.find(params[:id])\n case params[:status]\n when \"requested\"\n @job.status :requested\n when \"printed\"\n @job.status :printed\n when \"paid\"\n @job.status :paid\n end\n \n @job.save\n\n respond_to do |format|\n if @job.update_attributes(params[:job])\n flash[:notice] = 'Job was successfully updated.'\n format.html { redirect_to(@job) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @job.errors, :status => :unprocessable_entity }\n end\n end\n end", "def get_single_job_sample(client)\n response = client[\"jobs/#{$job_id}\"].get\n\n p ''\n p 'Get single job'\n p response\nend", "def set_job_request\n @job_request = JobRequest.joins(:job_posting)\n .joins(:user)\n .where('job_requests.user_id = ?', current_user.id)\n .find(params[:id])\n end", "def update\n authorize @job\n respond_to do |format|\n if @job.update(job_params)\n flash[:success] = t('flashes.update', model: Job.model_name.human)\n format.html { redirect_to @job}\n format.json { render :show, status: :ok, location: @job }\n else\n format.html { render :edit }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @sfjob = Sfjob.find(params[:id])\n\n respond_to do |format|\n if @sfjob.update_attributes(params[:sfjob])\n format.html { redirect_to @sfjob, notice: 'Sfjob was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @sfjob.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @training_active_job = Training::ActiveJob.find(params[:id])\n\n respond_to do |format|\n if @training_active_job.update_attributes(params[:training_active_job])\n format.html { redirect_to @training_active_job, notice: 'Active job was successfully updated.' }\n format.json { head :ok }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @training_active_job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @customer_job.update( customer_job_params )\n format.html { redirect_to @customer_job, notice: 'Customer job was successfully updated.' }\n format.json { render :show, status: :ok, location: @customer_job }\n else\n format.html { render :edit }\n format.json { render json: @customer_job.errors, status: :unprocessable_entity }\n end\n end\n end", "def put!\n request! :put\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to @job, notice: 'Job was successfully updated.' }\n format.json { render :show, status: :ok, location: @job }\n format.js\n else\n format.html { render :edit }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @job = @user.jobs.find(params[:id])\n\n respond_to do |format|\n if @job.update_attributes(params[:job])\n format.html { redirect_to(@job, :notice => 'Job was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @job.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update_attributes(params[:job])\n flash[:notice] = 'Job was successfully updated.'\n format.html { redirect_to(@job) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @job.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n @saved_job = SavedJob.find(params[:id])\n\n respond_to do |format|\n if @saved_job.update_attributes(params[:saved_job])\n format.html { redirect_to @saved_job, :notice => 'Saved job was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render :action => \"edit\" }\n format.json { render :json => @saved_job.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n @job = Job.new(params[:job])\n @job.status = 'listed'\n\n respond_to do |format|\n if @job.save\n format.html { redirect_to @job, notice: 'Job was successfully created.' }\n format.json { render json: @job, status: :created, location: @job }\n else\n format.html { render action: \"new\" }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @job = Job.find(params[:id])\n\n respond_to do |format|\n if @job.update_attributes(params[:job])\n format.html { redirect_to(@job, :notice => 'Job was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @job.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n @job = Job.find(params[:id])\n\n respond_to do |format|\n if @job.update_attributes(params[:job])\n format.html { redirect_to(@job, :notice => 'Job was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @job.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n @job = Job.find(params[:id])\n \n # todo:\n # add permission checking here\n\n respond_to do |format|\n if @job.update_attributes(params[:job])\n flash[:notice] = 'Job was successfully updated.'\n format.html { redirect_to(@job) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @job.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n @job = Job.find(params[:id])\n\n respond_to do |format|\n if @job.update_attributes(params[:job])\n flash[:notice] = 'Job was successfully updated.'\n\n format.html { redirect_to(@job) }\n format.xml { head :ok }\n format.json { head :ok } \n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @job.errors, :status => :unprocessable_entity }\n format.json { render :json => @job.errors, :status => :unprocessable_entity } \n end\n end\n end", "def update\n respond_to do |format|\n if UbiquoJobs.manager.update(params[:id], params[:job])\n flash[:notice] = t(\"ubiquo.jobs.job_edited\")\n format.html { redirect_to(ubiquo.jobs_path) }\n format.xml { head :ok }\n format.js\n else\n flash[:error] = t(\"ubiquo.jobs.cant_edit\")\n format.html { render :action => \"edit\" }\n format.xml { render :status => :unprocessable_entity }\n format.js\n end\n end\n end", "def update\n respond_to do |format|\n if @job.update(job_params)\n format.html { redirect_to edit_employer_path(@employer,anchor: \"jobs_tab\"), notice: 'Job was successfully updated.' }\n format.json { render :show, status: :ok, location: @job }\n else\n format.html { render :edit }\n format.json { render json: @job.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @crawl_request = CrawlRequest.find(params[:id])\n\n if @crawl_request.update_attributes(params[:crawl_request])\n head :no_content\n else\n render json: @crawl_request.errors, status: :unprocessable_entity\n end\n end", "def update\n @crawl_request = CrawlRequest.find(params[:id])\n\n if @crawl_request.update_attributes(params[:crawl_request])\n head :no_content\n else\n render json: @crawl_request.errors, status: :unprocessable_entity\n end\n end", "def update\n @job = Job.find(params[:id])\n\n respond_to do |format|\n if @job.update_attributes(params[:job])\n flash[:notice] = 'Job was successfully updated.'\n format.html { redirect_to job_url(@job) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @job.errors.to_xml }\n end\n end\n end", "def update\n respond_to do |format|\n if @worker_job.update(worker_job_params)\n format.html { redirect_to @worker_job, notice: 'Worker job was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @worker_job.errors, status: :unprocessable_entity }\n end\n end\n end", "def set_job\n @job = Job.find_by_id(params[:id])\n if @job == nil\n head :not_found\n end\n end", "def submit_batch_job(job_id)\n request_path = \"/jobs/#{job_id}/queue\"\n request_body = \"submit\"\n response = http.request_post(request_path, request_body)\n handle_response({ request_method: 'POST', request_path: request_path, request_body: request_body }, response)\n end", "def update\n \n @job_location.update(job_location_params)\n \n end" ]

[ "0.7060899", "0.701508", "0.701508", "0.701508", "0.6841361", "0.67931044", "0.6441181", "0.6381785", "0.63714504", "0.6276087", "0.6202867", "0.62005585", "0.6125181", "0.6124246", "0.61224884", "0.61198634", "0.6106911", "0.61025417", "0.60993516", "0.60967475", "0.60869175", "0.6082607", "0.60786", "0.6077312", "0.6075901", "0.6070125", "0.60610104", "0.6056722", "0.6053463", "0.6053463", "0.6053463", "0.6053463", "0.6053463", "0.6053463", "0.6053463", "0.6053463", "0.6053463", "0.6053463", "0.6053463", "0.6053463", "0.6053463", "0.6053463", "0.6053058", "0.60309976", "0.60293573", "0.6022322", "0.6020834", "0.6020018", "0.5995425", "0.59911346", "0.59889793", "0.59865826", "0.59759754", "0.5965925", "0.5944927", "0.5940656", "0.5910929", "0.5903451", "0.5903451", "0.5903451", "0.5903451", "0.5883423", "0.58797103", "0.58408743", "0.5826863", "0.5820603", "0.5810983", "0.57956386", "0.5795181", "0.57943547", "0.5793724", "0.57917494", "0.57912326", "0.5768246", "0.5749268", "0.57463443", "0.57438695", "0.57336664", "0.5730094", "0.5717654", "0.5712876", "0.5711833", "0.57073146", "0.5706657", "0.5699465", "0.5698602", "0.5689994", "0.568524", "0.568524", "0.5677331", "0.5668397", "0.5666892", "0.5656548", "0.5655888", "0.5655888", "0.565251", "0.5652237", "0.56403035", "0.5638619", "0.5628739" ]

[ "def solution(a)\r\n n=a.size\r\n i=1\r\n for k in a.sort do\r\n\tif k!=i \r\n\t then \r\n\t return 0\r\n\t break;\r\n\tend\r\n i+=1;\r\n end\t\r\n return 1 if a.inject(:+) ==n*(n+1)/2;\r\nend", "def find_dublicate(array)\n sum = 1000000*(1000000+1)/2 # (n*(n+1))/2\n array.each do |el| \n sum -= el\n end\n return sum\nend", "def fds(n)\n\n # arr = []\n # (n + 1).times.each{|e| arr << e if e > 0}\n # arr.flat_map.reduce(:*)\n # arr.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n (1..n).to_a.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n\nend", "def solution(m, a)\n n = a.count\n result = 0\n front = 0\n numbers = Array.new(m + 1, false)\n n.times { |back|\n while front < n and not numbers[a[front] - 1]\n numbers[a[front] - 1] = true\n front += 1\n result += front - back\n return 1_000_000_000 if result >= 1_000_000_000\n end\n numbers[a[back] - 1] = false\n }\n result\nend", "def solution(a)\n # In production environment this will be my solution:\n # a.uniq.size\n #\n # But since this is a coding challenge, my assumption\n # is that you're looking for a by-hand O(N*logN) solution\n\n return 0 if a.empty?\n\n n = a.size\n ary = a.sort\n uniques = 1\n (1...n).each do |i|\n uniques += 1 if ary[i] != ary[i - 1]\n end\n uniques\nend", "def solution(a)\n # write your code in Ruby 2.2\n n = a.length\n \n counter = Array.new(n+1, 0)\n \n a.each do |x|\n counter[x-1] += 1\n end\n \n return counter.index { |x| x == 0 } + 1\nend", "def largest_subsum(list)\n max = list[0] # O(1)\n current_sum = list[0] # O(1)\n\n (1...list.length).each do |i| # O(n)\n # debugger\n if current_sum < 0 # O(1)\n current_sum = 0 # O(1)\n end \n current_sum += list[i] # O(1)\n if current_sum > max # O(1)\n max = current_sum # O(1)\n end\n end\n\n max # O(1)\n\nend", "def solution(a)\n n = a.size\n passing_cars = 0\n\n suffix_sums = Array.new(n + 1, 0)\n\n a.reverse.each_with_index do |elem, i|\n suffix_sums[i + 1] = suffix_sums[i] + elem\n end\n suffix_sums.reverse!\n\n a.each_with_index do |car, i|\n if car == 0\n passing_cars += suffix_sums[i]\n end\n end\n\n passing_cars > 1_000_000_000 ? -1 : passing_cars\nend", "def solution(a)\n n = a.size\n return 0 unless n > 2\n a.sort!\n\n (2..n - 1).each do |i|\n return 1 if a[i - 2] + a[i - 1] > a[i]\n end\n\n return 0\nend", "def solution(a)\n counter = Hash.new(0)\n a.each do |elem|\n counter[elem] += 1\n end\n\n (1..a.size).each do |number|\n return 0 if counter[number] != 1\n end\n\n 1\nend", "def findDiffSquares(n)\n sum = 0\n (1..n).each { |i|\n (1..n).each { |j|\n sum += i*j unless i == j\n }\n }\n sum\nend", "def solution(a)\n # write your code in Ruby 2.2\n num_of_elements=a.length\n num_of_zeros=0\n tot_num_car_pairs=0\n a.each do |element|\n if element == 0\n num_of_zeros+=1\n else\n tot_num_car_pairs+=num_of_zeros\n end\n end\n return tot_num_car_pairs>1_000_000_000?-1:tot_num_car_pairs\nend", "def main\n\n sum = 0\n\n (0..999).each do |i|\n sum += check(i)\n end\n\n puts \"Total - O(n) #{sum}\"\n\n # Needed to refresh following: https://en.wikipedia.org/wiki/Arithmetic_progression\n sum2 = sum_multiples(3, 1000) + sum_multiples(5, 1000) - sum_multiples(15, 1000)\n\n # Refreshed Big O too : http://stackoverflow.com/questions/487258/plain-english-explanation-of-big-o \n puts \"Total - O(1) #{sum2}\"\n\nend", "def sorted_squares(nums)\n # This takes O(n)\n nums.map! { |num| num**2 }\n # This can take Ο(n logn)\n bubble_sort(nums)\nend", "def dp_possible_trees(n)\n array = Array.new(n+2) { Array.new(n+1) { 0 } }\n (0...n+2).to_a.each do |i|\n array[i][0] = 1\n end\n\n sum = 0\n (1...n+1).to_a.each do |i|\n sum = 0\n (1..i).to_a.each do |j|\n array[j][i] = array[n+1][i-j] * array[n+1][j-1]\n sum += array[j][i]\n end\n array[n+1][i] = sum\n end\n array[n+1].last\nend", "def euler29(n)\n terms = []\n 2.upto(n) do |i|\n 2.upto(n) do |j|\n if terms.include?(i ** j) == false\n terms << i ** j\n end\n end\n end\n \n terms.length\nend", "def naive_algorithm(arr)\n\tproduct = 0\n\tarr.each do |i|\n\t arr.each do |j|\n\t \tp = arr[i] * arr[j]\n\t \tproduct = p if product < p\n\t end\t\n\tend\t\t\n\tproduct\nend", "def solution(a)\n length = a.length\n sum = (length + 1) * (length + 1 + 1) / 2\n\n sum - a.inject(0) { |acc, e| acc += e }\nend", "def solve( n = 10_000 )\n (1..n).select {|i| i.amicable?}.reduce( :+ )\n end", "def solution(n)\n array = Array.new\n (1..n).each do\n array.push(0)\n end\n while (array.length >= 16)\n (1..16).each do\n array.pop\n end \n end\n array.length\nend", "def problem_57\n ret,n,d = 0,1,1\n 1000.times do |i|\n n,d = (n+2*d),(n+d)\n ret += 1 if n.to_s.length > d.to_s.length\n end\n ret\nend", "def solution(a)\n return 0 if a.uniq.size != a.size\n \n max = a.size \n sum = (1 + max) * max / 2\n \n array_sum = a.inject(0, &:+) \n sum == array_sum ? 1 : 0 \nend", "def solution(n)\n x = (n**0.5).floor\n (1..x).reduce(0) { |s, i| n % i == 0 ? s += (i * i == n ? 1 : 2) : s }\nend", "def solution(a)\n return 1 if a.empty?\n a.sort!\n return 1 if a.first > 1\n return a.first + 1 if a.length <2\n (0..(a.length)).each do |index|\n return a[index] + 1 if a[index] + 1 != a[index + 1]\n end\n return a.last + 1\nend", "def fibonacci(n)\n return fib_helper([0, 1], 2, n)\n # if you'd like to test what i THINK is an O(1) space complexity solution.....\n # i did run this through the tests and it SHOULD work:\n # return faster_fib_helper([0, 1], 2, n)\nend", "def solution(a)\n result = 0\n tmp_count = 0\n a.each_with_index do |val, idx|\n if val.zero?\n tmp_count += 1\n else\n result += tmp_count\n end\n end\n return result > 1000000000 ? -1 : result\nend", "def solution(n)\n\tval = 0.0\n\tval += 1.0 unless n[0].zero?\n\tval += 2.0 unless n[1].zero?\n\tval += 4.0 unless n[2].zero?\n\tval += 8.0 unless n[3].zero?\n val\n\t\nend", "def f(n)\n # your code here\n result = []\n possibles = (2..n).flat_map{ |s| [*2..n].combination(s).map(&:join).to_a }\n p possibles\n possibles.each do |i|\n x = 0\n temp_arr = []\n temp = i.split('').map { |j| j.to_i }\n p temp\n while x < temp.length do \n if i[x + 1] != i[x] + 1 || i[x + 1] == nil\n temp_arr << i[x]\n end\n x += 1\n end\n result << temp_arr\n end\n result.length\nend", "def solution(n, a)\n # write your code in Ruby 2.2\n arr = [0] * n\n max_c = 0\n \n a.each_with_index do |value,index|\n if value == n + 1\n arr = [max_c] * n\n else\n arr[value - 1] = arr[value - 1] + 1\n max_c = (arr[value -1] > max_c ? arr[value -1] : max_c)\n end\n end\n arr\nend", "def three_sum_fastest(arr)\n count = 0\n\n (0..arr.length - 2).each { |i|\n set = Set.new\n\n (i + 1..arr.length - 1).each { |j|\n if set.include?(-arr[i] - arr[j])\n count += 1\n end\n\n set.add(arr[j])\n }\n }\n count\nend", "def stones(n, a, b)\n ar=[0]\n (n-1).times do |val|\n tmp=[]\n ar.each do |v|\n tmp << v+a if !tmp.include?(v+a)\n tmp << v+b if !tmp.include?(v+b)\n end\n ar=tmp\n end\n ar.sort\nend", "def find_missing(array, n)\n i = 0\n\n (1..n).each { |number| i = i ^ number }\n array.each { |number| i = i ^ number }\n\n i\nend", "def solution(a)\n # write your code in Ruby 2.2\n \n is_perm = 0\n \n n = a.length\n b = [0]*n\n \n \n a.each do |v|\n break if v > n \n break if b[v] == 1 \n b[v] = 1\n end\n \n sum = b.inject(:+)\n if sum == n\n is_perm = 1\n end\n \n is_perm\nend", "def solution(x, a)\r\n # write your code in Ruby 2.2\r\n arr=[];\r\n i=0;\r\n l=a.count\r\n \r\n while(arr.count<=x)\r\n \r\n if(arr[i].nil?)\r\n arr << i\r\n end\r\n \r\n i+=1\r\n end\r\n i\r\nend", "def largest_contiguous_subsum_2(list)# [2, 3, -6, 7, -6, 7]\n largest_num = list[0]#2 O(1)\n running_sum = list[0]#2 - 5 after entering loop. O(1)\n\n (1...list.length).each do |i| #O(n) \n running_sum = 0 if running_sum < 0 #O(1)\n running_sum += list[i] #O(1)\n largest_num = running_sum if running_sum > largest_num #O(1)\n end\n return largest_num #O(1)\nend", "def solution(a)\n n = a.size\n a.sort!\n\n count = 0\n for i in 0...n-2 do\n k = i+2\n for j in i+1...n-1 do\n while k < n and a[i] + a[j] > a[k] do\n k += 1\n end\n count += k - j - 1\n end\n end\n count\nend", "def solution(arr)\n zeros = 0\n pass_cars = 0\n\n (0...arr.size).each do |idx|\n arr[idx] == 0 ? zeros += 1 : pass_cars += zeros\n\n return -1 if pass_cars > 1000000000\n end\n\n pass_cars\nend", "def naive(array)\n max = -10000\n for i in (0..array.length - 1)\n for j in (i..array.length - 1)\n total = array[i..j].inject { |m,k| m + k }\n max = total if total > max\n end\n end\n max\nend", "def solution(a)\n n = a.size\n starting = Array.new(n, 0)\n ending = Array.new(n, 0)\n\n (1..n - 2).each {|i| starting[i] = [starting[i - 1] + a[i], 0].max}\n (1..n - 2).reverse_each {|i| ending[i] = [ending[i + 1] + a[i], 0].max}\n\n sum = 0\n (1..n - 2).each {|i| sum = [sum, starting[i - 1] + ending[i + 1]].max}\n sum\nend", "def seesaw?(arr)\n left_sum = 0\n arr.each_index do |i| #O(n)\n if i > 0\n left_sum = arr[0...i].reduce(:+) #O(n)\n end\n if i < arr.size-1\n right_sum = arr[i+1..-1].reduce(:+); #O(n)\n else\n right_sum = 0\n end\n if left_sum == right_sum\n return true\n end\n end\n return false\nend", "def sum_upon_sums(array)\n # Step 0: initialize variables => O(1)\n max = -1\n sum = 0\n\n # Step 1: Get Max and Sum => O(n)\n array.each do |num|\n max = num if num >= max\n sum += num\n end\n\n # Step 2: Get summation => O(1)\n summation = max * (max + 1) / 2\n\n # Step 3: Return Missing value by subtracting summation and sum => O(1)\n summation - sum\nend", "def solution(n, a)\n max = 0\n counters = Array.new(n, max)\n a.each do |counter|\n if counter == n + 1\n counters.fill(max)\n else\n counters[counter - 1] += 1\n max = counters[counter - 1] if counters[counter - 1] > max\n end\n end\n counters\nend", "def compute(n)\n a = []\n a.push(1)\n a.push(1)\n n -=1\n first = 1\n second = 1\n n.times do\n third = first + second\n first = second\n second = third\n a.push(third)\n end\n #first\n a\nend", "def solution(a)\n a.sort!\n a.each_with_index do |element, index|\n return 0 if element != index + 1\n end\n 1\nend", "def my_min_2(list)\r\n min = 0 # O(1)\r\n \r\n list.each do |ele| # O(n) \r\n if ele < min # O(1)\r\n min = ele # O(1)\r\n end\r\n end\r\n min # O(1) \r\nend", "def solution(a)\n a.uniq.count\nend", "def amicable_numbers(n)\r\n numbers = Array.new\r\n 2.upto(n) do |x|\r\n y = d(x)\r\n if !numbers.include?(y)\r\n numbers.push(x,y) if d(y) == x && y != x\r\n end\r\n end\r\n return numbers\r\nend", "def sub_sum(list)\n sub_arr = []\n (0...list.length).each do |i| #O(n)\n (i...list.length).each do |j| #O(n)\n sub_arr << list[i..j] if i <= j\n end\n end\n largest_continuous_sub_sum1(sub_arr)\nend", "def canBeSum(n, array, cache)\n\ti = 0\n\twhile array[i] <= n / 2\n\t\tif cache[n-array[i]] # array.include?(n-array[i]) is OK, but very slow\n\t\t\treturn true\n\t\tend\n\n\t\ti += 1\n\tend\n\n\treturn false\nend", "def find_amicables(n)\n pairs = []\n sum = 0\n for i in 0..n do \n next if pairs.include? i\n d = sum_proper_divisors(i)\n next if d == i\n p = sum_proper_divisors(d)\n if p == i \n pairs << d\n pairs << i\n sum += d + i\n end\n end\n return sum\nend", "def solve( n = 100 )\n n.partition_sieve[-1] - 1\n end", "def move_zeros(array)\n zero_count = 0\n # O(n)\n array.each do |num|\n\n zero_count += 1 if num == 0\n end\n\n # O(n)\n array = array.select { |num| num != 0 }\n \n # O(1)\n zero_count.times do\n array += [0]\n end\n\n array\nend", "def solution(a)\n # write your code in Ruby 2.2\n seen = {}\n\n a.each do |number|\n seen[number] = true\n end\n\n max = a.max\n\n for i in 1..(max + 1)\n return i unless seen[i]\n end\n\n 1\nend", "def solution(n, a)\n counters = Array.new(n, 0)\n max = 0\n a.each do |item|\n if item >= 1 && item <= n\n counters[item - 1] += 1\n max = counters[item - 1] if counters[item - 1] > max\n elsif item == n + 1\n counters = Array.new(n, max)\n end\n end\n\n counters\nend", "def solution(a)\n # write your code in Ruby 2.2\n sum = a.inject(:+)\n acc = 0\n\n min = 99999999\n a[0..-2].each do |n|\n sum -= n\n acc += n\n\n min = [(acc - sum).abs, min].min\n end\n min\nend", "def solution(a)\n accessed = Array.new(a.size + 1, nil)\n caterpillar_back = 0\n count = 0\n\n a.each_with_index do |x, caterpillar_front|\n if accessed[x] == nil\n accessed[x] = caterpillar_front\n else\n new_caterpillar_back = accessed[x] + 1\n first_part_size = caterpillar_front - caterpillar_back\n second_part_size = caterpillar_front - new_caterpillar_back\n count += first_part_size * (first_part_size + 1) / 2\n count -= (second_part_size) * (second_part_size + 1) / 2\n caterpillar_back.upto(new_caterpillar_back - 1) { |n| accessed[a[n]] = nil}\n accessed[x] = caterpillar_front\n caterpillar_back = new_caterpillar_back\n end\n end\n\n remaining_size = a.size - caterpillar_back\n count += (remaining_size) * (remaining_size + 1) / 2\n end", "def okay_two_sum?(arr, target)\n arr = arr.sort #n log n\n (0...arr.length).each do |i| #n\n search = bsearch(arr, target-arr[i]) # log n\n return true unless search.nil?\n end #n log n\n false\nend", "def process n\n i = 1\n while (2**i <= n)\n i += 1\n end\n n == 2**(i-1)\nend", "def solution(a)\n # we could do radix sort and then loop over all the items in order to find the missing element\n # in the ordered list or use the Gauss theorem: https://study.com/academy/lesson/finding-the-sum-of-consecutive-numbers.html\n #\n # if we use the Gauss theorem we can do:\n # sum = (1 + N+1) * ( N / 2 )\n #\n # if (1 + N+1) % 2 == 1 we need to sum also (n+1+1)/2 + 1\n #\n # then remove every item from the sum: the remainder is the missing number\n len = a.length\n sum = (1 + len + 1) * ((len + 1) / 2)\n sum += ((len + 1) / 2.0).ceil unless (len + 1) % 2 == 0\n\n a.reduce(sum) do |sum, i|\n sum - i\n end\nend", "def solution(x, a)\n perm = (1..x).to_a\n return -1 unless (perm - a).empty?\n a.index(a.uniq.last)\nend", "def my_min_2(array)#O(n)\n array.inject do |acc, ele|#O(n)\n if acc < ele\n acc\n else\n ele\n end\n end\nend", "def checkArray(a)\n\tn = a.length-1\n\tcount = 0\n\tfor i in 0..n do\n\t\tfor j in (i+1)..n do\n\t\t\tfor k in (j+1)..n do\n\t\t\t\tif (a[i] + a[j] + a[k] == 0)\n\t\t\t\t\tcount += 1\n\t\t\t\t\treturn count;\n\t\t\t\telse\n\t\t\t\t\treturn count;\n\t\t\t\tend\n\t\t\tend\n\t\tend\n\tend\nend", "def problem18(r) \n h = r.length\n sum = 0\n for i in 0..h-1 \n \n end\nend", "def sturges\n len = array.length\n return 1.0 if len == 0\n\n # return (long)(ceil(Math.log2(n)) + 1);\n return Math.log2(len).ceil + 1\n end", "def largest_contiguous_subsum(arr) #BigO of O(n)\n max = 0 \n current_sum = 0\n arr.each_with_index do |el,idx|\n if current_sum + el >= el \n current_sum += el \n else \n current_sum = el \n end \n max = current_sum if current_sum > max \n end \n max\nend", "def solution(a)\n ((1..a.size + 1).to_a - a).first\nend", "def removNb(n)\n results = []\n (2..n).each do |a|\n b = (n*(n+1)/2.0-a)/(a + 1)\n results << [a, b.to_i] if b % 1 == 0 && b < n && b > 2\n end\n results\nend", "def lAS(n: 0)\n array = [1]\n puts \"#{array.inspect}\"\n previous = array.first\n new_array = []\n counter = 0\n \n n.times do\n previous = array.first\n counter = 0\n new_array = []\n \n array.each do |element|\n if(element == previous)\n counter = counter + 1\n else\n new_array << counter\n new_array << previous\n counter = 1\n previous = element\n end\n end\n \n new_array << counter\n new_array << previous\n array = new_array.dup\n puts \"#{array.inspect}\"\n end\nend", "def sum_to_n? arr, n\n #arr.product(arr).any? {|c| sum(c) == n && c[0] != c[1] } ----1.3\n arr = arr.sort\n low = 0\n high = arr.length - 1\n while low < high\n if arr[low] + arr[high] == n\n return true\n end\n arr[low] + arr[high] < n ? low += 1 : high -= 1 \n end\n return false\nend", "def pairSumSequence(n)\n sum = 0\n\n for i in 0..n\n # pairSum calls do not exist simultabeously on\n # the call stack, so you only need O(1) space\n sum += pairSum(i, i + 1)\n puts \"sum += (#{i + i + 1}) #{i} + #{i} + 1 \"\n end\n\n return sum\nend", "def running_time(array)\n cnt = 0\n (1...(array.length)).each do |x|\n y = x\n while y.positive?\n break unless array[y - 1] > array[y]\n\n temp_num = array[y]\n array[y] = array[y - 1]\n array[y - 1] = temp_num\n cnt += 1\n y -= 1\n end\n end\n cnt\nend", "def solution(n)\n # write your code in Ruby 2.2\n a = Math.sqrt(n).floor\n a -= 1 while n % a != 0\n b = n / a\n (a + b) * 2\nend", "def solution(a)\n ((1..a.length).to_a - a).empty? ? 1 : 0\nend", "def solution(n)\n (1..n).to_a.join.chars.map(&:to_i).sum\nend", "def solution_dp_bu(p, n)\n dp = Array.new(n, MIN_INT)\n # we set p[0] and dp[0] to 0\n dp[0] = 0\n p = p.dup.unshift(0)\n\n (1..n).each do |i|\n dp[i] = (0..(i - 1)).reduce(MIN_INT) do |max, j|\n [max, dp[j] + p[i - j]].max\n end\n end\n\n dp.last\nend", "def dbl_linear(n)\n result = [1] # base\n\n i = 0 # pointer for 2x + 1\n j = 0 # pointer for 3x + 1\n\n until result.size == n + 1 # because n is an index (size - 1)\n list1 = 2 * result[i] + 1\n list2 = 3 * result[j] + 1\n min = [list1, list2].min\n\n result << min\n\n i += 1 if min == list1\n j += 1 if min == list2\n end\n\n result.last\nend", "def sieve_of_e(n)\n a = (0...n).to_a\n a[0] = nil\n a[1] = nil\n (2..Math.sqrt(n)).each do |i|\n if a[i]\n it = 0\n j = i * i\n while j <= n\n a[j] = nil\n it += 1\n j = i * i + i * it\n end\n end\n end\n a.select{|i| i}\nend", "def better_subsum(arr) # o(n)\n largest = 0 \n sum = 0 \n i = 0 \n j = 0\n\n while i != arr.length-1\n largest += arr[j]\n sum = largest if largest > sum \n if j == arr.length-1 \n i+=1 \n j = i \n largest = 0 \n else\n j+=1\n end \n end \n sum \n end", "def solution(a)\n return 1 if a.count == 0\n \n real_sum = a.inject(:+)\n expected_sum = (a.count + 1) * (a.count + 2) / 2.0\n (expected_sum - real_sum).to_i\nend", "def cantor_pairing(n, m)\n (n + m) * (n + m + 1) / 2 + m\nend", "def solution(a)\n counts = {}\n for i in a\n counts[i] ||= 0\n counts[i] += 1\n end\n for i in (1..a.count)\n return 0 if counts[i] != 1\n end\n return 1\nend", "def find_duplicate_space(nums)\n # sort nums first (lgn), then check for dups by iterate over (n)\n last_seen = 0\n nums.sort!.each do |num|\n return num if last_seen == num\n last_seen = num\n end\nend", "def fast_lcss(arr)\n i_arr = []\n biggest = 0\n max_sub_arr = []\n arr.length.times do |x|\n arr.map do |ele1|\n i_arr += [ele1]\n sum = i_arr.inject(0) do |a, b|\n a + b\n end\n max_sub_arr = i_arr if sum > biggest\n biggest = sum if sum > biggest \n end\n i_arr = []\n arr.shift\n end\n max_sub_arr\nend", "def f(n, x)\n # $count += 1\n if n == 0\n x <= 0 ? 0 : 1\n elsif x <= 1\n 0\n elsif 1 < x && x <= 1 + $a[n - 1]\n f(n - 1, x - 1)\n elsif x == 2 + $a[n - 1]\n $p[n - 1] + 1\n elsif 2 + ($a[n - 1]) < x && x <= 2 + 2 * $a[n - 1]\n $p[n - 1] + 1 + f(n - 1, x - 2 - $a[n - 1])\n else\n 2 * $p[n - 1] + 1\n end\nend", "def solution(a)\r\n # write your code in Ruby 2.2\r\n #trangular\r\n # a[0] = 10\r\n # a[2] = 5\r\n # a[4] = 8\r\n # 10 + 5 > 8\r\n # 5 + 8 > 10\r\n #8 + 10 > 5\r\n \r\n \r\n l=a.count\r\n \r\n i=0\r\n while(i<l) do\r\n j=i+1\r\n while(j<l) do\r\n k=j+1\r\n \r\n \r\n while(k<l) do\r\n if((a[i] + a[j] > a[k]) && (a[j] +a[k] > a[i]) && (a[k] + a[i] >a[j]))\r\n return 1\r\n end\r\n k+=1 \r\n end \r\n \r\n j+=1 \r\n end\r\n i+=1\r\n end\r\n \r\n return 0\r\n \r\nend", "def isSumOfTwoAbundantNumbers n\n\n # we'll cycle over all abundant numbers less than n / 2\n if n / 2 < @@listOfAbundants.first\n return false\n end\n\n if @@listOfAbundants.last < n / 2\n for i in ((@@listOfAbundants.last + 1)..n)\n if isAbundant i\n @@listOfAbundants.push i\n end\n end\n end\n\n for a in @@listOfAbundants\n if a > n /2 \n return false\n end\n \n pair = n - a\n if @@listOfAbundants.include? pair\n return true\n end\n end\n\nend", "def solve( n = 100_000_000 )\n # Assuming the largest valid sum of squares is S = a^2 + (a - 1)^2 < n,\n # first find a and set aside space to cache that many running sums.\n len = (1 + Math.sqrt( 2*n )) / 2\n sos = Array.new( len )\n\n seen = []\n sos[0] = 1\n\n (1...len).each do |i|\n # Precompute the ∑ i^2 for all i <= a. \n ds = i*i + 2*i + 1\n sos[i] = sos[i - 1] + ds\n\n seen << sos[i] if sos[i].palindrome?\n\n # Most of the sum of square values will exceed n, so subtract lower sums\n # to check shorter runs.\n (i - 2).downto( 0 ) do |j|\n diff = sos[i] - sos[j]\n break unless diff < n\n\n # Update our total if the shorter run a[j] + a[j + 1] + ... + a[i] is\n # a palindrome.\n seen << diff if diff.palindrome?\n end\n end\n\n seen.uniq.reduce( :+ )\n end", "def bunny(n)\n return 0 if n == 0\n return n + bunny(n / 2.0 )\n # This passes the tests, though technically it never hits 0 (just approaches 0)\n # An alternate solution is to return 1 + bunny(n - 0.5) but that would have a slower time complexity O(n)\nend", "def unique_paths(m, n)\n return 0 if m == 0 && n == 0\n return 1 if m == 0 || n == 0\n\n arr = [0] * n\n matrix = []\n m.times do \n matrix << arr\n end\n\n for i in 0...m do \n for j in 0...n do \n if i == 0 && j == 0\n matrix[i][j] *= 1\n elsif i == 0 && j != 0\n matrix[i][j] = matrix[i][j - 1]\n elsif j == 0\n matrix[i][j] = matrix[i - 1][j]\n else\n matrix[i][j] = matrix[i - 1][j] + matrix[i][j - 1]\n end\n end\n end\n\n matrix[m-1][n-1]\nend", "def solution(p, n)\n return 0 if n <= 0\n\n n.times.reduce(MIN_INT) do |max, i|\n [max, p[i] + solution(p, n - (i + 1))].max\n end\nend", "def isAbundant(n)\n return getDivSums(n) > n\nend", "def solution(a)\n # write your code in Ruby 2.2\n permutation = Array(1..a.size)\n # puts permutation\n return 1 if permutation - a == []\n 0\nend", "def largest_cont_subsum_fast(list)\n # for constant size to be true, you cant create any variables\n # whose memory size depends on the size of the input\n curr_sum = list[0]\n largest_sum = list[0]\n\n # we know there are n^2 potential, so if we ever check all of them\n # it must be n^2\n\n # there must be a way to find the max without checking every subarray\n list[1..-1].each do |ele|\n # debugger\n if curr_sum > largest_sum\n largest_sum = curr_sum\n end\n\n if curr_sum < 0\n curr_sum = 0\n end\n\n curr_sum += ele\n\n end\n\n # debugger\n return [largest_sum, curr_sum].max\n\nend", "def cout(n)\n\tw=[0,1,2,3,4,5,6,7,8,9]\n\tx=[]\n\tk=1\n\twhile x!=w do \n\t\tm=n*k\n\t\t\twhile m>0 do\n\t\t\t\tt=m%10\n\t\t\t\tx=x.push(t)\n\t\t\t\tx.sort!\n\t\t\t\tx.uniq!\n\t\t\t\tm=m/10\t\n\t\t\tend\n\t\tk=k+1\n\tend\nreturn (k-1)*n\nend", "def trinum n\n temp = 0\n for i in 1..n\n temp = temp + i\n end\n return temp\nend", "def efficient_contiguous_subsum(list)\n current_sum = list[0] #0\n largest_sum = list[0] #5\n # debugger\n (1...list.length).each do |i| \n if current_sum + list[i] > 0 \n current_sum += list[i] \n largest_sum = current_sum if current_sum > largest_sum\n else \n current_sum = 0\n end \n end \n largest_sum\nend", "def is_abundant?(n)\n return false if n<2\n\n s = 1\n 2.upto(Math.sqrt(n).to_i) do |i|\n if ((n % i) == 0 )\n s += i\n s += (n/i) unless (n/i == i)\n\n return true if s > n\n end\n end\n return false\nend", "def calculate_optimal_k\n k=0\n @k_optimal = Array.new(@size)\n (3..@size).each{|n|\n k+=1 while(cost(n,k)<cost(n,k+1))\n @k_optimal[n]=k\n }\n end", "def removNb(n)\n numbers = (1..n).to_a\n all_combinations = numbers.combination(2).to_a\n possible_pairs = []\n sum = numbers.reduce(:+)\n all_combinations.each do |pair|\n if (sum - pair.reduce(:+)) == pair.reduce(:*)\n possible_pairs << pair\n possible_pairs << pair.reverse\n end\n end\n possible_pairs\nend", "def my_min_2(arr)\n\n smallest_value = arr[0] # O(1)\n\n arr.each do |ele1| # [ 0, 3, 5, 4, -5, 10, 1, 90 ] O(n)\n smallest_value = ele1 if ele1 <= smallest_value #O(1)\n end\n\n smallest_value #O(1)\n\nend", "def solve( n = 1_000_000_000 )\n log10 = Math.log10( n )\n\n sum = (0...log10).map do |i|\n if 0 == (i % 4)\n 0\n elsif 0 != (i % 2)\n 20 * 30**((i - 1)/2)\n else\n 100 * 500**((i - 2)/4)\n end\n end\n\n sum.reduce( :+ )\n end" ]

[ "0.6842821", "0.6839885", "0.6603645", "0.6554738", "0.64983106", "0.6412053", "0.6381801", "0.6375984", "0.633254", "0.628327", "0.62447083", "0.6241112", "0.62397665", "0.6227911", "0.62271285", "0.62200683", "0.6218131", "0.6197176", "0.61964417", "0.61833155", "0.61794084", "0.61757326", "0.6169446", "0.616667", "0.6160478", "0.61573833", "0.61540157", "0.615007", "0.61483836", "0.6139198", "0.61225486", "0.61131966", "0.6108886", "0.6084503", "0.6083235", "0.60668206", "0.60608083", "0.60540783", "0.6051602", "0.6046407", "0.60407054", "0.60367316", "0.6036439", "0.6032661", "0.60322416", "0.6030408", "0.60267854", "0.6009089", "0.59982485", "0.59973097", "0.5994931", "0.5992428", "0.5979598", "0.5976993", "0.59682506", "0.5954499", "0.59472257", "0.5945766", "0.59395695", "0.59150726", "0.5913294", "0.5907037", "0.59000456", "0.5881507", "0.58705354", "0.5870397", "0.58693767", "0.58543044", "0.585139", "0.58461016", "0.58369976", "0.58359224", "0.5829949", "0.582973", "0.5820111", "0.58129686", "0.58095324", "0.5808031", "0.5804803", "0.5804454", "0.58043903", "0.580283", "0.5801937", "0.57966244", "0.57927155", "0.5787074", "0.57822245", "0.57815945", "0.5780711", "0.57803774", "0.57777375", "0.57744896", "0.5771945", "0.57642305", "0.57641023", "0.5762518", "0.5762012", "0.57610613", "0.575521", "0.5754851", "0.5752735" ]

[ "def solution(a)\r\n n=a.size\r\n i=1\r\n for k in a.sort do\r\n\tif k!=i \r\n\t then \r\n\t return 0\r\n\t break;\r\n\tend\r\n i+=1;\r\n end\t\r\n return 1 if a.inject(:+) ==n*(n+1)/2;\r\nend", "def find_dublicate(array)\n sum = 1000000*(1000000+1)/2 # (n*(n+1))/2\n array.each do |el| \n sum -= el\n end\n return sum\nend", "def fds(n)\n\n # arr = []\n # (n + 1).times.each{|e| arr << e if e > 0}\n # arr.flat_map.reduce(:*)\n # arr.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n (1..n).to_a.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n\nend", "def solution(m, a)\n n = a.count\n result = 0\n front = 0\n numbers = Array.new(m + 1, false)\n n.times { |back|\n while front < n and not numbers[a[front] - 1]\n numbers[a[front] - 1] = true\n front += 1\n result += front - back\n return 1_000_000_000 if result >= 1_000_000_000\n end\n numbers[a[back] - 1] = false\n }\n result\nend", "def solution(a)\n # In production environment this will be my solution:\n # a.uniq.size\n #\n # But since this is a coding challenge, my assumption\n # is that you're looking for a by-hand O(N*logN) solution\n\n return 0 if a.empty?\n\n n = a.size\n ary = a.sort\n uniques = 1\n (1...n).each do |i|\n uniques += 1 if ary[i] != ary[i - 1]\n end\n uniques\nend", "def solution(a)\n # write your code in Ruby 2.2\n n = a.length\n \n counter = Array.new(n+1, 0)\n \n a.each do |x|\n counter[x-1] += 1\n end\n \n return counter.index { |x| x == 0 } + 1\nend", "def largest_subsum(list)\n max = list[0] # O(1)\n current_sum = list[0] # O(1)\n\n (1...list.length).each do |i| # O(n)\n # debugger\n if current_sum < 0 # O(1)\n current_sum = 0 # O(1)\n end \n current_sum += list[i] # O(1)\n if current_sum > max # O(1)\n max = current_sum # O(1)\n end\n end\n\n max # O(1)\n\nend", "def solution(a)\n n = a.size\n passing_cars = 0\n\n suffix_sums = Array.new(n + 1, 0)\n\n a.reverse.each_with_index do |elem, i|\n suffix_sums[i + 1] = suffix_sums[i] + elem\n end\n suffix_sums.reverse!\n\n a.each_with_index do |car, i|\n if car == 0\n passing_cars += suffix_sums[i]\n end\n end\n\n passing_cars > 1_000_000_000 ? -1 : passing_cars\nend", "def solution(a)\n n = a.size\n return 0 unless n > 2\n a.sort!\n\n (2..n - 1).each do |i|\n return 1 if a[i - 2] + a[i - 1] > a[i]\n end\n\n return 0\nend", "def solution(a)\n counter = Hash.new(0)\n a.each do |elem|\n counter[elem] += 1\n end\n\n (1..a.size).each do |number|\n return 0 if counter[number] != 1\n end\n\n 1\nend", "def findDiffSquares(n)\n sum = 0\n (1..n).each { |i|\n (1..n).each { |j|\n sum += i*j unless i == j\n }\n }\n sum\nend", "def solution(a)\n # write your code in Ruby 2.2\n num_of_elements=a.length\n num_of_zeros=0\n tot_num_car_pairs=0\n a.each do |element|\n if element == 0\n num_of_zeros+=1\n else\n tot_num_car_pairs+=num_of_zeros\n end\n end\n return tot_num_car_pairs>1_000_000_000?-1:tot_num_car_pairs\nend", "def main\n\n sum = 0\n\n (0..999).each do |i|\n sum += check(i)\n end\n\n puts \"Total - O(n) #{sum}\"\n\n # Needed to refresh following: https://en.wikipedia.org/wiki/Arithmetic_progression\n sum2 = sum_multiples(3, 1000) + sum_multiples(5, 1000) - sum_multiples(15, 1000)\n\n # Refreshed Big O too : http://stackoverflow.com/questions/487258/plain-english-explanation-of-big-o \n puts \"Total - O(1) #{sum2}\"\n\nend", "def sorted_squares(nums)\n # This takes O(n)\n nums.map! { |num| num**2 }\n # This can take Ο(n logn)\n bubble_sort(nums)\nend", "def dp_possible_trees(n)\n array = Array.new(n+2) { Array.new(n+1) { 0 } }\n (0...n+2).to_a.each do |i|\n array[i][0] = 1\n end\n\n sum = 0\n (1...n+1).to_a.each do |i|\n sum = 0\n (1..i).to_a.each do |j|\n array[j][i] = array[n+1][i-j] * array[n+1][j-1]\n sum += array[j][i]\n end\n array[n+1][i] = sum\n end\n array[n+1].last\nend", "def euler29(n)\n terms = []\n 2.upto(n) do |i|\n 2.upto(n) do |j|\n if terms.include?(i ** j) == false\n terms << i ** j\n end\n end\n end\n \n terms.length\nend", "def naive_algorithm(arr)\n\tproduct = 0\n\tarr.each do |i|\n\t arr.each do |j|\n\t \tp = arr[i] * arr[j]\n\t \tproduct = p if product < p\n\t end\t\n\tend\t\t\n\tproduct\nend", "def solution(a)\n length = a.length\n sum = (length + 1) * (length + 1 + 1) / 2\n\n sum - a.inject(0) { |acc, e| acc += e }\nend", "def solve( n = 10_000 )\n (1..n).select {|i| i.amicable?}.reduce( :+ )\n end", "def solution(n)\n array = Array.new\n (1..n).each do\n array.push(0)\n end\n while (array.length >= 16)\n (1..16).each do\n array.pop\n end \n end\n array.length\nend", "def problem_57\n ret,n,d = 0,1,1\n 1000.times do |i|\n n,d = (n+2*d),(n+d)\n ret += 1 if n.to_s.length > d.to_s.length\n end\n ret\nend", "def solution(a)\n return 0 if a.uniq.size != a.size\n \n max = a.size \n sum = (1 + max) * max / 2\n \n array_sum = a.inject(0, &:+) \n sum == array_sum ? 1 : 0 \nend", "def solution(n)\n x = (n**0.5).floor\n (1..x).reduce(0) { |s, i| n % i == 0 ? s += (i * i == n ? 1 : 2) : s }\nend", "def solution(a)\n return 1 if a.empty?\n a.sort!\n return 1 if a.first > 1\n return a.first + 1 if a.length <2\n (0..(a.length)).each do |index|\n return a[index] + 1 if a[index] + 1 != a[index + 1]\n end\n return a.last + 1\nend", "def fibonacci(n)\n return fib_helper([0, 1], 2, n)\n # if you'd like to test what i THINK is an O(1) space complexity solution.....\n # i did run this through the tests and it SHOULD work:\n # return faster_fib_helper([0, 1], 2, n)\nend", "def solution(a)\n result = 0\n tmp_count = 0\n a.each_with_index do |val, idx|\n if val.zero?\n tmp_count += 1\n else\n result += tmp_count\n end\n end\n return result > 1000000000 ? -1 : result\nend", "def solution(n)\n\tval = 0.0\n\tval += 1.0 unless n[0].zero?\n\tval += 2.0 unless n[1].zero?\n\tval += 4.0 unless n[2].zero?\n\tval += 8.0 unless n[3].zero?\n val\n\t\nend", "def f(n)\n # your code here\n result = []\n possibles = (2..n).flat_map{ |s| [*2..n].combination(s).map(&:join).to_a }\n p possibles\n possibles.each do |i|\n x = 0\n temp_arr = []\n temp = i.split('').map { |j| j.to_i }\n p temp\n while x < temp.length do \n if i[x + 1] != i[x] + 1 || i[x + 1] == nil\n temp_arr << i[x]\n end\n x += 1\n end\n result << temp_arr\n end\n result.length\nend", "def solution(n, a)\n # write your code in Ruby 2.2\n arr = [0] * n\n max_c = 0\n \n a.each_with_index do |value,index|\n if value == n + 1\n arr = [max_c] * n\n else\n arr[value - 1] = arr[value - 1] + 1\n max_c = (arr[value -1] > max_c ? arr[value -1] : max_c)\n end\n end\n arr\nend", "def three_sum_fastest(arr)\n count = 0\n\n (0..arr.length - 2).each { |i|\n set = Set.new\n\n (i + 1..arr.length - 1).each { |j|\n if set.include?(-arr[i] - arr[j])\n count += 1\n end\n\n set.add(arr[j])\n }\n }\n count\nend", "def stones(n, a, b)\n ar=[0]\n (n-1).times do |val|\n tmp=[]\n ar.each do |v|\n tmp << v+a if !tmp.include?(v+a)\n tmp << v+b if !tmp.include?(v+b)\n end\n ar=tmp\n end\n ar.sort\nend", "def find_missing(array, n)\n i = 0\n\n (1..n).each { |number| i = i ^ number }\n array.each { |number| i = i ^ number }\n\n i\nend", "def solution(a)\n # write your code in Ruby 2.2\n \n is_perm = 0\n \n n = a.length\n b = [0]*n\n \n \n a.each do |v|\n break if v > n \n break if b[v] == 1 \n b[v] = 1\n end\n \n sum = b.inject(:+)\n if sum == n\n is_perm = 1\n end\n \n is_perm\nend", "def solution(x, a)\r\n # write your code in Ruby 2.2\r\n arr=[];\r\n i=0;\r\n l=a.count\r\n \r\n while(arr.count<=x)\r\n \r\n if(arr[i].nil?)\r\n arr << i\r\n end\r\n \r\n i+=1\r\n end\r\n i\r\nend", "def largest_contiguous_subsum_2(list)# [2, 3, -6, 7, -6, 7]\n largest_num = list[0]#2 O(1)\n running_sum = list[0]#2 - 5 after entering loop. O(1)\n\n (1...list.length).each do |i| #O(n) \n running_sum = 0 if running_sum < 0 #O(1)\n running_sum += list[i] #O(1)\n largest_num = running_sum if running_sum > largest_num #O(1)\n end\n return largest_num #O(1)\nend", "def solution(a)\n n = a.size\n a.sort!\n\n count = 0\n for i in 0...n-2 do\n k = i+2\n for j in i+1...n-1 do\n while k < n and a[i] + a[j] > a[k] do\n k += 1\n end\n count += k - j - 1\n end\n end\n count\nend", "def solution(arr)\n zeros = 0\n pass_cars = 0\n\n (0...arr.size).each do |idx|\n arr[idx] == 0 ? zeros += 1 : pass_cars += zeros\n\n return -1 if pass_cars > 1000000000\n end\n\n pass_cars\nend", "def naive(array)\n max = -10000\n for i in (0..array.length - 1)\n for j in (i..array.length - 1)\n total = array[i..j].inject { |m,k| m + k }\n max = total if total > max\n end\n end\n max\nend", "def solution(a)\n n = a.size\n starting = Array.new(n, 0)\n ending = Array.new(n, 0)\n\n (1..n - 2).each {|i| starting[i] = [starting[i - 1] + a[i], 0].max}\n (1..n - 2).reverse_each {|i| ending[i] = [ending[i + 1] + a[i], 0].max}\n\n sum = 0\n (1..n - 2).each {|i| sum = [sum, starting[i - 1] + ending[i + 1]].max}\n sum\nend", "def seesaw?(arr)\n left_sum = 0\n arr.each_index do |i| #O(n)\n if i > 0\n left_sum = arr[0...i].reduce(:+) #O(n)\n end\n if i < arr.size-1\n right_sum = arr[i+1..-1].reduce(:+); #O(n)\n else\n right_sum = 0\n end\n if left_sum == right_sum\n return true\n end\n end\n return false\nend", "def sum_upon_sums(array)\n # Step 0: initialize variables => O(1)\n max = -1\n sum = 0\n\n # Step 1: Get Max and Sum => O(n)\n array.each do |num|\n max = num if num >= max\n sum += num\n end\n\n # Step 2: Get summation => O(1)\n summation = max * (max + 1) / 2\n\n # Step 3: Return Missing value by subtracting summation and sum => O(1)\n summation - sum\nend", "def solution(n, a)\n max = 0\n counters = Array.new(n, max)\n a.each do |counter|\n if counter == n + 1\n counters.fill(max)\n else\n counters[counter - 1] += 1\n max = counters[counter - 1] if counters[counter - 1] > max\n end\n end\n counters\nend", "def compute(n)\n a = []\n a.push(1)\n a.push(1)\n n -=1\n first = 1\n second = 1\n n.times do\n third = first + second\n first = second\n second = third\n a.push(third)\n end\n #first\n a\nend", "def solution(a)\n a.sort!\n a.each_with_index do |element, index|\n return 0 if element != index + 1\n end\n 1\nend", "def my_min_2(list)\r\n min = 0 # O(1)\r\n \r\n list.each do |ele| # O(n) \r\n if ele < min # O(1)\r\n min = ele # O(1)\r\n end\r\n end\r\n min # O(1) \r\nend", "def solution(a)\n a.uniq.count\nend", "def amicable_numbers(n)\r\n numbers = Array.new\r\n 2.upto(n) do |x|\r\n y = d(x)\r\n if !numbers.include?(y)\r\n numbers.push(x,y) if d(y) == x && y != x\r\n end\r\n end\r\n return numbers\r\nend", "def sub_sum(list)\n sub_arr = []\n (0...list.length).each do |i| #O(n)\n (i...list.length).each do |j| #O(n)\n sub_arr << list[i..j] if i <= j\n end\n end\n largest_continuous_sub_sum1(sub_arr)\nend", "def canBeSum(n, array, cache)\n\ti = 0\n\twhile array[i] <= n / 2\n\t\tif cache[n-array[i]] # array.include?(n-array[i]) is OK, but very slow\n\t\t\treturn true\n\t\tend\n\n\t\ti += 1\n\tend\n\n\treturn false\nend", "def find_amicables(n)\n pairs = []\n sum = 0\n for i in 0..n do \n next if pairs.include? i\n d = sum_proper_divisors(i)\n next if d == i\n p = sum_proper_divisors(d)\n if p == i \n pairs << d\n pairs << i\n sum += d + i\n end\n end\n return sum\nend", "def solve( n = 100 )\n n.partition_sieve[-1] - 1\n end", "def move_zeros(array)\n zero_count = 0\n # O(n)\n array.each do |num|\n\n zero_count += 1 if num == 0\n end\n\n # O(n)\n array = array.select { |num| num != 0 }\n \n # O(1)\n zero_count.times do\n array += [0]\n end\n\n array\nend", "def solution(a)\n # write your code in Ruby 2.2\n seen = {}\n\n a.each do |number|\n seen[number] = true\n end\n\n max = a.max\n\n for i in 1..(max + 1)\n return i unless seen[i]\n end\n\n 1\nend", "def solution(n, a)\n counters = Array.new(n, 0)\n max = 0\n a.each do |item|\n if item >= 1 && item <= n\n counters[item - 1] += 1\n max = counters[item - 1] if counters[item - 1] > max\n elsif item == n + 1\n counters = Array.new(n, max)\n end\n end\n\n counters\nend", "def solution(a)\n # write your code in Ruby 2.2\n sum = a.inject(:+)\n acc = 0\n\n min = 99999999\n a[0..-2].each do |n|\n sum -= n\n acc += n\n\n min = [(acc - sum).abs, min].min\n end\n min\nend", "def solution(a)\n accessed = Array.new(a.size + 1, nil)\n caterpillar_back = 0\n count = 0\n\n a.each_with_index do |x, caterpillar_front|\n if accessed[x] == nil\n accessed[x] = caterpillar_front\n else\n new_caterpillar_back = accessed[x] + 1\n first_part_size = caterpillar_front - caterpillar_back\n second_part_size = caterpillar_front - new_caterpillar_back\n count += first_part_size * (first_part_size + 1) / 2\n count -= (second_part_size) * (second_part_size + 1) / 2\n caterpillar_back.upto(new_caterpillar_back - 1) { |n| accessed[a[n]] = nil}\n accessed[x] = caterpillar_front\n caterpillar_back = new_caterpillar_back\n end\n end\n\n remaining_size = a.size - caterpillar_back\n count += (remaining_size) * (remaining_size + 1) / 2\n end", "def okay_two_sum?(arr, target)\n arr = arr.sort #n log n\n (0...arr.length).each do |i| #n\n search = bsearch(arr, target-arr[i]) # log n\n return true unless search.nil?\n end #n log n\n false\nend", "def process n\n i = 1\n while (2**i <= n)\n i += 1\n end\n n == 2**(i-1)\nend", "def solution(a)\n # we could do radix sort and then loop over all the items in order to find the missing element\n # in the ordered list or use the Gauss theorem: https://study.com/academy/lesson/finding-the-sum-of-consecutive-numbers.html\n #\n # if we use the Gauss theorem we can do:\n # sum = (1 + N+1) * ( N / 2 )\n #\n # if (1 + N+1) % 2 == 1 we need to sum also (n+1+1)/2 + 1\n #\n # then remove every item from the sum: the remainder is the missing number\n len = a.length\n sum = (1 + len + 1) * ((len + 1) / 2)\n sum += ((len + 1) / 2.0).ceil unless (len + 1) % 2 == 0\n\n a.reduce(sum) do |sum, i|\n sum - i\n end\nend", "def solution(x, a)\n perm = (1..x).to_a\n return -1 unless (perm - a).empty?\n a.index(a.uniq.last)\nend", "def my_min_2(array)#O(n)\n array.inject do |acc, ele|#O(n)\n if acc < ele\n acc\n else\n ele\n end\n end\nend", "def checkArray(a)\n\tn = a.length-1\n\tcount = 0\n\tfor i in 0..n do\n\t\tfor j in (i+1)..n do\n\t\t\tfor k in (j+1)..n do\n\t\t\t\tif (a[i] + a[j] + a[k] == 0)\n\t\t\t\t\tcount += 1\n\t\t\t\t\treturn count;\n\t\t\t\telse\n\t\t\t\t\treturn count;\n\t\t\t\tend\n\t\t\tend\n\t\tend\n\tend\nend", "def problem18(r) \n h = r.length\n sum = 0\n for i in 0..h-1 \n \n end\nend", "def sturges\n len = array.length\n return 1.0 if len == 0\n\n # return (long)(ceil(Math.log2(n)) + 1);\n return Math.log2(len).ceil + 1\n end", "def largest_contiguous_subsum(arr) #BigO of O(n)\n max = 0 \n current_sum = 0\n arr.each_with_index do |el,idx|\n if current_sum + el >= el \n current_sum += el \n else \n current_sum = el \n end \n max = current_sum if current_sum > max \n end \n max\nend", "def solution(a)\n ((1..a.size + 1).to_a - a).first\nend", "def removNb(n)\n results = []\n (2..n).each do |a|\n b = (n*(n+1)/2.0-a)/(a + 1)\n results << [a, b.to_i] if b % 1 == 0 && b < n && b > 2\n end\n results\nend", "def lAS(n: 0)\n array = [1]\n puts \"#{array.inspect}\"\n previous = array.first\n new_array = []\n counter = 0\n \n n.times do\n previous = array.first\n counter = 0\n new_array = []\n \n array.each do |element|\n if(element == previous)\n counter = counter + 1\n else\n new_array << counter\n new_array << previous\n counter = 1\n previous = element\n end\n end\n \n new_array << counter\n new_array << previous\n array = new_array.dup\n puts \"#{array.inspect}\"\n end\nend", "def sum_to_n? arr, n\n #arr.product(arr).any? {|c| sum(c) == n && c[0] != c[1] } ----1.3\n arr = arr.sort\n low = 0\n high = arr.length - 1\n while low < high\n if arr[low] + arr[high] == n\n return true\n end\n arr[low] + arr[high] < n ? low += 1 : high -= 1 \n end\n return false\nend", "def pairSumSequence(n)\n sum = 0\n\n for i in 0..n\n # pairSum calls do not exist simultabeously on\n # the call stack, so you only need O(1) space\n sum += pairSum(i, i + 1)\n puts \"sum += (#{i + i + 1}) #{i} + #{i} + 1 \"\n end\n\n return sum\nend", "def running_time(array)\n cnt = 0\n (1...(array.length)).each do |x|\n y = x\n while y.positive?\n break unless array[y - 1] > array[y]\n\n temp_num = array[y]\n array[y] = array[y - 1]\n array[y - 1] = temp_num\n cnt += 1\n y -= 1\n end\n end\n cnt\nend", "def solution(n)\n # write your code in Ruby 2.2\n a = Math.sqrt(n).floor\n a -= 1 while n % a != 0\n b = n / a\n (a + b) * 2\nend", "def solution(a)\n ((1..a.length).to_a - a).empty? ? 1 : 0\nend", "def solution(n)\n (1..n).to_a.join.chars.map(&:to_i).sum\nend", "def solution_dp_bu(p, n)\n dp = Array.new(n, MIN_INT)\n # we set p[0] and dp[0] to 0\n dp[0] = 0\n p = p.dup.unshift(0)\n\n (1..n).each do |i|\n dp[i] = (0..(i - 1)).reduce(MIN_INT) do |max, j|\n [max, dp[j] + p[i - j]].max\n end\n end\n\n dp.last\nend", "def dbl_linear(n)\n result = [1] # base\n\n i = 0 # pointer for 2x + 1\n j = 0 # pointer for 3x + 1\n\n until result.size == n + 1 # because n is an index (size - 1)\n list1 = 2 * result[i] + 1\n list2 = 3 * result[j] + 1\n min = [list1, list2].min\n\n result << min\n\n i += 1 if min == list1\n j += 1 if min == list2\n end\n\n result.last\nend", "def sieve_of_e(n)\n a = (0...n).to_a\n a[0] = nil\n a[1] = nil\n (2..Math.sqrt(n)).each do |i|\n if a[i]\n it = 0\n j = i * i\n while j <= n\n a[j] = nil\n it += 1\n j = i * i + i * it\n end\n end\n end\n a.select{|i| i}\nend", "def better_subsum(arr) # o(n)\n largest = 0 \n sum = 0 \n i = 0 \n j = 0\n\n while i != arr.length-1\n largest += arr[j]\n sum = largest if largest > sum \n if j == arr.length-1 \n i+=1 \n j = i \n largest = 0 \n else\n j+=1\n end \n end \n sum \n end", "def solution(a)\n return 1 if a.count == 0\n \n real_sum = a.inject(:+)\n expected_sum = (a.count + 1) * (a.count + 2) / 2.0\n (expected_sum - real_sum).to_i\nend", "def solution(a)\n counts = {}\n for i in a\n counts[i] ||= 0\n counts[i] += 1\n end\n for i in (1..a.count)\n return 0 if counts[i] != 1\n end\n return 1\nend", "def cantor_pairing(n, m)\n (n + m) * (n + m + 1) / 2 + m\nend", "def find_duplicate_space(nums)\n # sort nums first (lgn), then check for dups by iterate over (n)\n last_seen = 0\n nums.sort!.each do |num|\n return num if last_seen == num\n last_seen = num\n end\nend", "def fast_lcss(arr)\n i_arr = []\n biggest = 0\n max_sub_arr = []\n arr.length.times do |x|\n arr.map do |ele1|\n i_arr += [ele1]\n sum = i_arr.inject(0) do |a, b|\n a + b\n end\n max_sub_arr = i_arr if sum > biggest\n biggest = sum if sum > biggest \n end\n i_arr = []\n arr.shift\n end\n max_sub_arr\nend", "def f(n, x)\n # $count += 1\n if n == 0\n x <= 0 ? 0 : 1\n elsif x <= 1\n 0\n elsif 1 < x && x <= 1 + $a[n - 1]\n f(n - 1, x - 1)\n elsif x == 2 + $a[n - 1]\n $p[n - 1] + 1\n elsif 2 + ($a[n - 1]) < x && x <= 2 + 2 * $a[n - 1]\n $p[n - 1] + 1 + f(n - 1, x - 2 - $a[n - 1])\n else\n 2 * $p[n - 1] + 1\n end\nend", "def solution(a)\r\n # write your code in Ruby 2.2\r\n #trangular\r\n # a[0] = 10\r\n # a[2] = 5\r\n # a[4] = 8\r\n # 10 + 5 > 8\r\n # 5 + 8 > 10\r\n #8 + 10 > 5\r\n \r\n \r\n l=a.count\r\n \r\n i=0\r\n while(i<l) do\r\n j=i+1\r\n while(j<l) do\r\n k=j+1\r\n \r\n \r\n while(k<l) do\r\n if((a[i] + a[j] > a[k]) && (a[j] +a[k] > a[i]) && (a[k] + a[i] >a[j]))\r\n return 1\r\n end\r\n k+=1 \r\n end \r\n \r\n j+=1 \r\n end\r\n i+=1\r\n end\r\n \r\n return 0\r\n \r\nend", "def isSumOfTwoAbundantNumbers n\n\n # we'll cycle over all abundant numbers less than n / 2\n if n / 2 < @@listOfAbundants.first\n return false\n end\n\n if @@listOfAbundants.last < n / 2\n for i in ((@@listOfAbundants.last + 1)..n)\n if isAbundant i\n @@listOfAbundants.push i\n end\n end\n end\n\n for a in @@listOfAbundants\n if a > n /2 \n return false\n end\n \n pair = n - a\n if @@listOfAbundants.include? pair\n return true\n end\n end\n\nend", "def solve( n = 100_000_000 )\n # Assuming the largest valid sum of squares is S = a^2 + (a - 1)^2 < n,\n # first find a and set aside space to cache that many running sums.\n len = (1 + Math.sqrt( 2*n )) / 2\n sos = Array.new( len )\n\n seen = []\n sos[0] = 1\n\n (1...len).each do |i|\n # Precompute the ∑ i^2 for all i <= a. \n ds = i*i + 2*i + 1\n sos[i] = sos[i - 1] + ds\n\n seen << sos[i] if sos[i].palindrome?\n\n # Most of the sum of square values will exceed n, so subtract lower sums\n # to check shorter runs.\n (i - 2).downto( 0 ) do |j|\n diff = sos[i] - sos[j]\n break unless diff < n\n\n # Update our total if the shorter run a[j] + a[j + 1] + ... + a[i] is\n # a palindrome.\n seen << diff if diff.palindrome?\n end\n end\n\n seen.uniq.reduce( :+ )\n end", "def bunny(n)\n return 0 if n == 0\n return n + bunny(n / 2.0 )\n # This passes the tests, though technically it never hits 0 (just approaches 0)\n # An alternate solution is to return 1 + bunny(n - 0.5) but that would have a slower time complexity O(n)\nend", "def unique_paths(m, n)\n return 0 if m == 0 && n == 0\n return 1 if m == 0 || n == 0\n\n arr = [0] * n\n matrix = []\n m.times do \n matrix << arr\n end\n\n for i in 0...m do \n for j in 0...n do \n if i == 0 && j == 0\n matrix[i][j] *= 1\n elsif i == 0 && j != 0\n matrix[i][j] = matrix[i][j - 1]\n elsif j == 0\n matrix[i][j] = matrix[i - 1][j]\n else\n matrix[i][j] = matrix[i - 1][j] + matrix[i][j - 1]\n end\n end\n end\n\n matrix[m-1][n-1]\nend", "def solution(p, n)\n return 0 if n <= 0\n\n n.times.reduce(MIN_INT) do |max, i|\n [max, p[i] + solution(p, n - (i + 1))].max\n end\nend", "def isAbundant(n)\n return getDivSums(n) > n\nend", "def solution(a)\n # write your code in Ruby 2.2\n permutation = Array(1..a.size)\n # puts permutation\n return 1 if permutation - a == []\n 0\nend", "def largest_cont_subsum_fast(list)\n # for constant size to be true, you cant create any variables\n # whose memory size depends on the size of the input\n curr_sum = list[0]\n largest_sum = list[0]\n\n # we know there are n^2 potential, so if we ever check all of them\n # it must be n^2\n\n # there must be a way to find the max without checking every subarray\n list[1..-1].each do |ele|\n # debugger\n if curr_sum > largest_sum\n largest_sum = curr_sum\n end\n\n if curr_sum < 0\n curr_sum = 0\n end\n\n curr_sum += ele\n\n end\n\n # debugger\n return [largest_sum, curr_sum].max\n\nend", "def cout(n)\n\tw=[0,1,2,3,4,5,6,7,8,9]\n\tx=[]\n\tk=1\n\twhile x!=w do \n\t\tm=n*k\n\t\t\twhile m>0 do\n\t\t\t\tt=m%10\n\t\t\t\tx=x.push(t)\n\t\t\t\tx.sort!\n\t\t\t\tx.uniq!\n\t\t\t\tm=m/10\t\n\t\t\tend\n\t\tk=k+1\n\tend\nreturn (k-1)*n\nend", "def trinum n\n temp = 0\n for i in 1..n\n temp = temp + i\n end\n return temp\nend", "def efficient_contiguous_subsum(list)\n current_sum = list[0] #0\n largest_sum = list[0] #5\n # debugger\n (1...list.length).each do |i| \n if current_sum + list[i] > 0 \n current_sum += list[i] \n largest_sum = current_sum if current_sum > largest_sum\n else \n current_sum = 0\n end \n end \n largest_sum\nend", "def is_abundant?(n)\n return false if n<2\n\n s = 1\n 2.upto(Math.sqrt(n).to_i) do |i|\n if ((n % i) == 0 )\n s += i\n s += (n/i) unless (n/i == i)\n\n return true if s > n\n end\n end\n return false\nend", "def calculate_optimal_k\n k=0\n @k_optimal = Array.new(@size)\n (3..@size).each{|n|\n k+=1 while(cost(n,k)<cost(n,k+1))\n @k_optimal[n]=k\n }\n end", "def removNb(n)\n numbers = (1..n).to_a\n all_combinations = numbers.combination(2).to_a\n possible_pairs = []\n sum = numbers.reduce(:+)\n all_combinations.each do |pair|\n if (sum - pair.reduce(:+)) == pair.reduce(:*)\n possible_pairs << pair\n possible_pairs << pair.reverse\n end\n end\n possible_pairs\nend", "def my_min_2(arr)\n\n smallest_value = arr[0] # O(1)\n\n arr.each do |ele1| # [ 0, 3, 5, 4, -5, 10, 1, 90 ] O(n)\n smallest_value = ele1 if ele1 <= smallest_value #O(1)\n end\n\n smallest_value #O(1)\n\nend", "def solve( n = 1_000_000_000 )\n log10 = Math.log10( n )\n\n sum = (0...log10).map do |i|\n if 0 == (i % 4)\n 0\n elsif 0 != (i % 2)\n 20 * 30**((i - 1)/2)\n else\n 100 * 500**((i - 2)/4)\n end\n end\n\n sum.reduce( :+ )\n end" ]

[ "0.68425924", "0.6839727", "0.66038096", "0.6554466", "0.64986706", "0.64122146", "0.6381702", "0.6375202", "0.6332033", "0.62830585", "0.6244346", "0.6240925", "0.6239316", "0.62276083", "0.6226886", "0.6219938", "0.62179184", "0.6196942", "0.6196645", "0.6183639", "0.6178741", "0.6175613", "0.6169286", "0.6166314", "0.6160131", "0.61573297", "0.615354", "0.615033", "0.614844", "0.61390847", "0.612281", "0.6113738", "0.6108652", "0.60847443", "0.60831887", "0.606649", "0.60604465", "0.6054147", "0.6051399", "0.6046154", "0.604099", "0.6036794", "0.60359544", "0.6032376", "0.6031765", "0.6030592", "0.60268027", "0.60088855", "0.59981346", "0.5997255", "0.59949464", "0.5992868", "0.59794784", "0.59768", "0.59676725", "0.59536713", "0.59466887", "0.5945527", "0.5939715", "0.59149224", "0.5913175", "0.59071803", "0.5899971", "0.58809966", "0.5870588", "0.5869975", "0.58689076", "0.5854083", "0.5851551", "0.5845903", "0.58366436", "0.58352923", "0.5829994", "0.5829928", "0.58205026", "0.5812358", "0.58099055", "0.58079445", "0.5804343", "0.58043325", "0.5804155", "0.5802742", "0.58015937", "0.57961595", "0.5792242", "0.5786864", "0.57823837", "0.5781268", "0.5780962", "0.57806784", "0.57777995", "0.577384", "0.57715106", "0.57644314", "0.57640064", "0.57620513", "0.5761981", "0.57603294", "0.57549816", "0.57548016", "0.575274" ]

[ "def find_dublicate(array)\n sum = 1000000*(1000000+1)/2 # (n*(n+1))/2\n array.each do |el| \n sum -= el\n end\n return sum\nend", "def solution(a)\r\n n=a.size\r\n i=1\r\n for k in a.sort do\r\n\tif k!=i \r\n\t then \r\n\t return 0\r\n\t break;\r\n\tend\r\n i+=1;\r\n end\t\r\n return 1 if a.inject(:+) ==n*(n+1)/2;\r\nend", "def my_min_2(list)\r\n min = 0 # O(1)\r\n \r\n list.each do |ele| # O(n) \r\n if ele < min # O(1)\r\n min = ele # O(1)\r\n end\r\n end\r\n min # O(1) \r\nend", "def largest_subsum(list)\n max = list[0] # O(1)\n current_sum = list[0] # O(1)\n\n (1...list.length).each do |i| # O(n)\n # debugger\n if current_sum < 0 # O(1)\n current_sum = 0 # O(1)\n end \n current_sum += list[i] # O(1)\n if current_sum > max # O(1)\n max = current_sum # O(1)\n end\n end\n\n max # O(1)\n\nend", "def third_anagram?(str1, str2)\n beginning_time = Time.now\n str1.split(\"\").sort == str2.split(\"\").sort #O(nlogn)\n \"Time complexity of first_anagram: #{(Time.now - beginning_time)}\"\nend", "def sorted_squares(nums)\n # This takes O(n)\n nums.map! { |num| num**2 }\n # This can take Ο(n logn)\n bubble_sort(nums)\nend", "def three_sum_fastest(arr)\n count = 0\n\n (0..arr.length - 2).each { |i|\n set = Set.new\n\n (i + 1..arr.length - 1).each { |j|\n if set.include?(-arr[i] - arr[j])\n count += 1\n end\n\n set.add(arr[j])\n }\n }\n count\nend", "def fourth_anagram?(str1, str2)\n hash1 = Hash.new(0)#O(1)\n beginning_time = Time.now\n str1.each_char {|char| hash1[char]+=1}#O(n)\n str2.each_char {|char| hash1[char]-=1}#O(n)\n hash1.all? {|_, v| v.zero?}#O(n)\n \"Time complexity of first_anagram: #{(Time.now - beginning_time)}\"\nend", "def solution(a)\n n = a.size\n passing_cars = 0\n\n suffix_sums = Array.new(n + 1, 0)\n\n a.reverse.each_with_index do |elem, i|\n suffix_sums[i + 1] = suffix_sums[i] + elem\n end\n suffix_sums.reverse!\n\n a.each_with_index do |car, i|\n if car == 0\n passing_cars += suffix_sums[i]\n end\n end\n\n passing_cars > 1_000_000_000 ? -1 : passing_cars\nend", "def solution(m, a)\n n = a.count\n result = 0\n front = 0\n numbers = Array.new(m + 1, false)\n n.times { |back|\n while front < n and not numbers[a[front] - 1]\n numbers[a[front] - 1] = true\n front += 1\n result += front - back\n return 1_000_000_000 if result >= 1_000_000_000\n end\n numbers[a[back] - 1] = false\n }\n result\nend", "def fibonacci(n)\n return fib_helper([0, 1], 2, n)\n # if you'd like to test what i THINK is an O(1) space complexity solution.....\n # i did run this through the tests and it SHOULD work:\n # return faster_fib_helper([0, 1], 2, n)\nend", "def solution(a)\n # In production environment this will be my solution:\n # a.uniq.size\n #\n # But since this is a coding challenge, my assumption\n # is that you're looking for a by-hand O(N*logN) solution\n\n return 0 if a.empty?\n\n n = a.size\n ary = a.sort\n uniques = 1\n (1...n).each do |i|\n uniques += 1 if ary[i] != ary[i - 1]\n end\n uniques\nend", "def find_duplicate(nums)\n if !nums or nums.size == 0\n return nil\n else\n fast = nums[ 0 ]\n slow = nums[ 0 ]\n while true\n fast = nums[ fast ]\n fast = nums[ fast ]\n slow = nums[ slow ]\n if fast == slow\n new_node = nums[ 0 ]\n while new_node != slow\n new_node = nums[ new_node ]\n slow = nums[ slow ]\n end\n return slow\n end\n end\n end\nend", "def my_min_2(arr)\n\n smallest_value = arr[0] # O(1)\n\n arr.each do |ele1| # [ 0, 3, 5, 4, -5, 10, 1, 90 ] O(n)\n smallest_value = ele1 if ele1 <= smallest_value #O(1)\n end\n\n smallest_value #O(1)\n\nend", "def seesaw?(arr)\n left_sum = 0\n arr.each_index do |i| #O(n)\n if i > 0\n left_sum = arr[0...i].reduce(:+) #O(n)\n end\n if i < arr.size-1\n right_sum = arr[i+1..-1].reduce(:+); #O(n)\n else\n right_sum = 0\n end\n if left_sum == right_sum\n return true\n end\n end\n return false\nend", "def solution(a)\n counter = Hash.new(0)\n a.each do |elem|\n counter[elem] += 1\n end\n\n (1..a.size).each do |number|\n return 0 if counter[number] != 1\n end\n\n 1\nend", "def solution(a)\n # write your code in Ruby 2.2\n num_of_elements=a.length\n num_of_zeros=0\n tot_num_car_pairs=0\n a.each do |element|\n if element == 0\n num_of_zeros+=1\n else\n tot_num_car_pairs+=num_of_zeros\n end\n end\n return tot_num_car_pairs>1_000_000_000?-1:tot_num_car_pairs\nend", "def okay_two_sum?(arr, target)\n arr = arr.sort #n log n\n (0...arr.length).each do |i| #n\n search = bsearch(arr, target-arr[i]) # log n\n return true unless search.nil?\n end #n log n\n false\nend", "def naive_algorithm(arr)\n\tproduct = 0\n\tarr.each do |i|\n\t arr.each do |j|\n\t \tp = arr[i] * arr[j]\n\t \tproduct = p if product < p\n\t end\t\n\tend\t\t\n\tproduct\nend", "def main\n\n sum = 0\n\n (0..999).each do |i|\n sum += check(i)\n end\n\n puts \"Total - O(n) #{sum}\"\n\n # Needed to refresh following: https://en.wikipedia.org/wiki/Arithmetic_progression\n sum2 = sum_multiples(3, 1000) + sum_multiples(5, 1000) - sum_multiples(15, 1000)\n\n # Refreshed Big O too : http://stackoverflow.com/questions/487258/plain-english-explanation-of-big-o \n puts \"Total - O(1) #{sum2}\"\n\nend", "def largest_contiguous_subsum_2(list)# [2, 3, -6, 7, -6, 7]\n largest_num = list[0]#2 O(1)\n running_sum = list[0]#2 - 5 after entering loop. O(1)\n\n (1...list.length).each do |i| #O(n) \n running_sum = 0 if running_sum < 0 #O(1)\n running_sum += list[i] #O(1)\n largest_num = running_sum if running_sum > largest_num #O(1)\n end\n return largest_num #O(1)\nend", "def two_sum?(array, target)\n #O(n)\n hash = Hash.new(0)\n i = 1\n array.each do |ele|\n hash[ele] = i \n i += 1\n end\n hash.each_key do |k|\n return true if hash.has_key?(target - k) && hash[k] != hash[target - k]\n end\n false \nend", "def fast_lcss(arr)\n i_arr = []\n biggest = 0\n max_sub_arr = []\n arr.length.times do |x|\n arr.map do |ele1|\n i_arr += [ele1]\n sum = i_arr.inject(0) do |a, b|\n a + b\n end\n max_sub_arr = i_arr if sum > biggest\n biggest = sum if sum > biggest \n end\n i_arr = []\n arr.shift\n end\n max_sub_arr\nend", "def problem_57\n ret,n,d = 0,1,1\n 1000.times do |i|\n n,d = (n+2*d),(n+d)\n ret += 1 if n.to_s.length > d.to_s.length\n end\n ret\nend", "def solution(arr)\n zeros = 0\n pass_cars = 0\n\n (0...arr.size).each do |idx|\n arr[idx] == 0 ? zeros += 1 : pass_cars += zeros\n\n return -1 if pass_cars > 1000000000\n end\n\n pass_cars\nend", "def my_min_2(array)#O(n)\n array.inject do |acc, ele|#O(n)\n if acc < ele\n acc\n else\n ele\n end\n end\nend", "def my_min(list) \n\n list.each_with_index do |ele, i| #O(n)\n compare_arr = list[0...i] + list[i+1..-1] # O(2n) \n return ele if compare_arr.all? { |ele2| ele < ele2 } #O(n)\n end\n\n #time complexity = O(n^2) + O(2n)\n\nend", "def bad_two_sum?(arr, target)\n arr.each_with_index do |num1, idx1| #O(n)\n arr.each_with_index do |num2, idx2| #O(n)\n return true if idx2 > idx1 && num1 + num2 == target #O(1)\n end\n end\n false\nend", "def largest_contiguous_subsum(arr) #BigO of O(n)\n max = 0 \n current_sum = 0\n arr.each_with_index do |el,idx|\n if current_sum + el >= el \n current_sum += el \n else \n current_sum = el \n end \n max = current_sum if current_sum > max \n end \n max\nend", "def sub_sum(list)\n sub_arr = []\n (0...list.length).each do |i| #O(n)\n (i...list.length).each do |j| #O(n)\n sub_arr << list[i..j] if i <= j\n end\n end\n largest_continuous_sub_sum1(sub_arr)\nend", "def solution(a)\n n = a.size\n return 0 unless n > 2\n a.sort!\n\n (2..n - 1).each do |i|\n return 1 if a[i - 2] + a[i - 1] > a[i]\n end\n\n return 0\nend", "def solution(a)\n n = a.size\n a.sort!\n\n count = 0\n for i in 0...n-2 do\n k = i+2\n for j in i+1...n-1 do\n while k < n and a[i] + a[j] > a[k] do\n k += 1\n end\n count += k - j - 1\n end\n end\n count\nend", "def my_min_2(nums) # O(n)\n smallest = 0\n nums.each do |num|\n smallest = num if num < smallest\n end\n smallest\nend", "def solution(a)\n # write your code in Ruby 2.2\n n = a.length\n \n counter = Array.new(n+1, 0)\n \n a.each do |x|\n counter[x-1] += 1\n end\n \n return counter.index { |x| x == 0 } + 1\nend", "def solution(a)\n return 1 if a.empty?\n a.sort!\n return 1 if a.first > 1\n return a.first + 1 if a.length <2\n (0..(a.length)).each do |index|\n return a[index] + 1 if a[index] + 1 != a[index + 1]\n end\n return a.last + 1\nend", "def second_anagram?(word_1, word_2) #O(n^2)\n matching_word = word_2.split(\"\")\n\n word_1.each_char do |ele|\n if matching_word.index(ele) #evaluating the conditional\n matching_word.delete_at(matching_word.index(ele)) #n many times, do this\n end\n end\n\n matching_word.empty? #constant O(1)\nend", "def anagram4(str1, str2)\n count = Hash.new(0) #O(1)\n \n str1.each_char do |char| #O(n)\n count[char] += 1 #O(1)\n end\n\n str2.each_char do |char| #O(n)\n count[char] -= 1 #O(1)\n end\n\n # count.values.uniq.length == 1\n count.values.each do |v| #O(n)\n return false if v > 0\n end\n true\nend", "def two_sum?(arr, target_sum) # O(N)\n hash = Hash.new(0)\n count = Hash.new(0)\n\n arr.each do |num|\n hash[num] = target_sum - num\n count[num] += 1\n end\n\n hash.each do |key, value|\n if hash.has_key?(value) \n if key == value \n if count[value] > 1\n return true\n end\n else\n return true\n end\n end\n end\n\n false\nend", "def fds(n)\n\n # arr = []\n # (n + 1).times.each{|e| arr << e if e > 0}\n # arr.flat_map.reduce(:*)\n # arr.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n (1..n).to_a.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n\nend", "def naive(array)\n max = -10000\n for i in (0..array.length - 1)\n for j in (i..array.length - 1)\n total = array[i..j].inject { |m,k| m + k }\n max = total if total > max\n end\n end\n max\nend", "def running_time(array)\n cnt = 0\n (1...(array.length)).each do |x|\n y = x\n while y.positive?\n break unless array[y - 1] > array[y]\n\n temp_num = array[y]\n array[y] = array[y - 1]\n array[y - 1] = temp_num\n cnt += 1\n y -= 1\n end\n end\n cnt\nend", "def fifth_anagram?(word1, word2) # O(n)\n \n p \"Running fifth_anagram...\" \n\n start = Time.now\n \n hash1 = Hash.new(0)\n # hash2 = Hash.new(0)\n\n word1.each_char {|char| hash1[char] += 1}\n word2.each_char {|char| hash1[char] += 1}\n\n hash1.values.all? {|v| v.even?}\n\n\n # puts \"Took #{Time.now - start} seconds\"\n\n \nend", "def my_min_2(arr) #O(N)\n min_num = arr.first\n \n arr.each { |num| min_num = num if num < min_num }\n \n min_num\n end", "def solution(a)\n result = 0\n tmp_count = 0\n a.each_with_index do |val, idx|\n if val.zero?\n tmp_count += 1\n else\n result += tmp_count\n end\n end\n return result > 1000000000 ? -1 : result\nend", "def solution(a)\n # write your code in Ruby 2.2\n seen = {}\n\n a.each do |number|\n seen[number] = true\n end\n\n max = a.max\n\n for i in 1..(max + 1)\n return i unless seen[i]\n end\n\n 1\nend", "def solution(a)\n a.uniq.count\nend", "def solution(a)\r\n # write your code in Ruby 2.2\r\n \r\n arr =[]\r\n a.each_with_index{|el,i|\r\n \r\n if !arr.index(el) \r\n arr << el\r\n end\r\n \r\n }\r\n arr.count\r\nend", "def solution(a)\n accessed = Array.new(a.size + 1, nil)\n caterpillar_back = 0\n count = 0\n\n a.each_with_index do |x, caterpillar_front|\n if accessed[x] == nil\n accessed[x] = caterpillar_front\n else\n new_caterpillar_back = accessed[x] + 1\n first_part_size = caterpillar_front - caterpillar_back\n second_part_size = caterpillar_front - new_caterpillar_back\n count += first_part_size * (first_part_size + 1) / 2\n count -= (second_part_size) * (second_part_size + 1) / 2\n caterpillar_back.upto(new_caterpillar_back - 1) { |n| accessed[a[n]] = nil}\n accessed[x] = caterpillar_front\n caterpillar_back = new_caterpillar_back\n end\n end\n\n remaining_size = a.size - caterpillar_back\n count += (remaining_size) * (remaining_size + 1) / 2\n end", "def solution(a)\r\n # write your code in Ruby 2.2\r\n #trangular\r\n # a[0] = 10\r\n # a[2] = 5\r\n # a[4] = 8\r\n # 10 + 5 > 8\r\n # 5 + 8 > 10\r\n #8 + 10 > 5\r\n \r\n \r\n l=a.count\r\n \r\n i=0\r\n while(i<l) do\r\n j=i+1\r\n while(j<l) do\r\n k=j+1\r\n \r\n \r\n while(k<l) do\r\n if((a[i] + a[j] > a[k]) && (a[j] +a[k] > a[i]) && (a[k] + a[i] >a[j]))\r\n return 1\r\n end\r\n k+=1 \r\n end \r\n \r\n j+=1 \r\n end\r\n i+=1\r\n end\r\n \r\n return 0\r\n \r\nend", "def solution(a)\n # write your code in Ruby 2.2\n \n is_perm = 0\n \n n = a.length\n b = [0]*n\n \n \n a.each do |v|\n break if v > n \n break if b[v] == 1 \n b[v] = 1\n end\n \n sum = b.inject(:+)\n if sum == n\n is_perm = 1\n end\n \n is_perm\nend", "def solution(a)\n len = a.size\n unique = {}\n i = 0\n while i < len\n item = a[i]\n if unique.has_key?(item)\n unique[item] += 1\n else\n unique[item] = 1\n end\n i += 1\n end\n pairs = 0\n unique.each do |key,count|\n (1...count).step {|n| pairs += n }\n end\n return pairs > 1_000_000_000 ? 1_000_000_000 : pairs\nend", "def second_anagram?(word1, word2)\n p \"Running second_anagram?...\" \n\n start = Time.now\n word2 = word2.split(\"\") #O(n)\n word1.each_char do |char| #O(n)\n char_index = word2.index(char) #O(n)\n if char_index.nil? #O(1)\n return false #O(1)\n else\n word2.delete_at(char_index) #O(1)\n end\n end\n word2.empty? #O(1)\n p \"Took #{Time.now - start} seconds\"\nend", "def solution(a)\n length = a.length\n sum = (length + 1) * (length + 1 + 1) / 2\n\n sum - a.inject(0) { |acc, e| acc += e }\nend", "def canBeSum(n, array, cache)\n\ti = 0\n\twhile array[i] <= n / 2\n\t\tif cache[n-array[i]] # array.include?(n-array[i]) is OK, but very slow\n\t\t\treturn true\n\t\tend\n\n\t\ti += 1\n\tend\n\n\treturn false\nend", "def my_min2 # O(n) time complexity\n smallest = self.first\n self.each do |num|\n sleep(1)\n smallest = num if num < smallest \n end\n smallest\n end", "def seesaw2?(arr)\n left_sum = 0\n right_sum = arr.size > 1 ? arr[1..-1].reduce(:+) : 0\n\n arr.each_index do |i| #O(n)\n return true if left_sum == right_sum\n left_sum += arr[i]\n i < arr.size-1 ? right_sum -= arr[i+1] : right_sum = 0\n end\n return false\nend", "def two_sum(arr) #o(ns)\n set = Set.new\n arr.each{|el| set << el}\n arr.select{|el| set.include?(-1 * el)}\nend", "def solution(a)\n # write your code in Ruby 2.2\n sum = a.inject(:+)\n acc = 0\n\n min = 99999999\n a[0..-2].each do |n|\n sum -= n\n acc += n\n\n min = [(acc - sum).abs, min].min\n end\n min\nend", "def second_anagram?(str1, str2) #quadratic\r\n\r\n split = str2.split(\"\") #O(n)\r\n str1.split(\"\").each do |c| #O(n) <\r\n split.delete(c) #O(n) ^ O(n^2) when nested in above each block\r\n end\r\n\r\n split.empty?\r\nend", "def move_zeros(array)\n zero_count = 0\n # O(n)\n array.each do |num|\n\n zero_count += 1 if num == 0\n end\n\n # O(n)\n array = array.select { |num| num != 0 }\n \n # O(1)\n zero_count.times do\n array += [0]\n end\n\n array\nend", "def three_sum_fast(arr)\n arr = merge_sort(arr)\n count = 0\n\n (0..arr.length - 1).each { |i|\n (i + 1..arr.length - 1).each { |j|\n if bin_search(arr, -arr[i] - arr[j]) > j\n count += 1\n end\n }\n }\n count\nend", "def better_subsum(arr) # o(n)\n largest = 0 \n sum = 0 \n i = 0 \n j = 0\n\n while i != arr.length-1\n largest += arr[j]\n sum = largest if largest > sum \n if j == arr.length-1 \n i+=1 \n j = i \n largest = 0 \n else\n j+=1\n end \n end \n sum \n end", "def fourth_anagram?(str1, str2)\n\n str1_hash = Hash.new {|h,k| h[k] = 0 } # O(1)\n str2_hash = Hash.new {|h,k| h[k] = 0 } # O(1)\n\n str1.each_char do |char| # O(n)\n str1_hash[char] += 1\n end\n\n str2.each_char do |char| # O(n)\n str2_hash[char] += 1\n end\n\n str1_hash == str2_hash # O(1)\n\nend", "def equal(arr)\n size = arr.size\n hash = Hash.new{|h,k| h[k] = []}\n (0...size).each do |i|\n (i + 1...size - 1).each do |j|\n sum = arr[i] + arr[j]\n if hash.has_key?(sum)\n values = hash[sum]\n values << i\n values << j\n return values\n else\n hash[sum] = [i, j]\n end\n end\n end\nend", "def hash_two_sum(arr,target_sum)\n #creates a new hash with each element that is satisfying the target_sum\n hash = Hash.new(0) #{|h,k| h[k] = []}\n (0...arr.length).each { |i| hash[i] = arr[i]} #O(n)\nend", "def solution(x, a)\r\n # write your code in Ruby 2.2\r\n arr=[];\r\n i=0;\r\n l=a.count\r\n \r\n while(arr.count<=x)\r\n \r\n if(arr[i].nil?)\r\n arr << i\r\n end\r\n \r\n i+=1\r\n end\r\n i\r\nend", "def find_duplicate_space(nums)\n # sort nums first (lgn), then check for dups by iterate over (n)\n last_seen = 0\n nums.sort!.each do |num|\n return num if last_seen == num\n last_seen = num\n end\nend", "def two_sum_v3?(arr, target) \n hash = Hash.new\n arr.each { |ele| hash[ele] = ele } #o(n)\n arr.each do |ele| #o(n)\n search_value = target - ele\n return true if !hash[search_value].nil? && hash[search_value] != ele\n end\n false\nend", "def solution(a)\n a.sort!\n a.each_with_index do |element, index|\n return 0 if element != index + 1\n end\n 1\nend", "def find_unsorted_subarray(nums)\n \nend", "def better_sum1(arr, target) # this one is going to return true or false\n pairs = Set.new\n\n arr.each do |ele|\n if pairs.include?(ele)\n return true\n else\n pairs << target - ele\n end\n end\n false\nend", "def solution(a)\n return 0 if a.uniq.size != a.size\n \n max = a.size \n sum = (1 + max) * max / 2\n \n array_sum = a.inject(0, &:+) \n sum == array_sum ? 1 : 0 \nend", "def efficient_contiguous_subsum(list)\n current_sum = list[0] #0\n largest_sum = list[0] #5\n # debugger\n (1...list.length).each do |i| \n if current_sum + list[i] > 0 \n current_sum += list[i] \n largest_sum = current_sum if current_sum > largest_sum\n else \n current_sum = 0\n end \n end \n largest_sum\nend", "def two_sum?(arr, target_sum)\n hash = {}\n arr.each do |ele|\n diff = target_sum - ele\n return true if hash.has_key?(diff) # O(1), or constant time\n hash[ele] = 0\n end\n false\nend", "def find3(a, X)\n # scan through array\n # build hash storing complement in each key\n complements = {}\n a.each_with_index do |val, ind|\n if complements[X - val]\n complements[X - val].push(ind)\n else\n complements[X - val] = [ind]\n end\n end\n\n # scan through the array again\n # get complement\n # for each value scan the remainder of the arrray\n # for a value such taht a + b = the complement\n\n # for each character we have built a dictionary such that, we can find\n # x = a + complement\n\n # [1, 2, 3]\n # 1 + 2 = 3\n # 1 + 3 = 4 =>\n\n # for each value in the array (a) look at all following values (b) and see if a + b\n # is in the dictionary, if it is, check that their indices do not collide with the index\n # stored at dict(a+b)\n\n a.each_with_index do |va, i|\n a.each_with_index do |vb, j|\n break if i == j\n\n complement = va + vb\n indices = complements[complement]\n\n indices.each do |z|\n # every index is unique\n return [i, j, z] unless z == i || z == j\n end\n end\n end\n\n return nil\nend", "def largest_cont_subsum_fast(list)\n # for constant size to be true, you cant create any variables\n # whose memory size depends on the size of the input\n curr_sum = list[0]\n largest_sum = list[0]\n\n # we know there are n^2 potential, so if we ever check all of them\n # it must be n^2\n\n # there must be a way to find the max without checking every subarray\n list[1..-1].each do |ele|\n # debugger\n if curr_sum > largest_sum\n largest_sum = curr_sum\n end\n\n if curr_sum < 0\n curr_sum = 0\n end\n\n curr_sum += ele\n\n end\n\n # debugger\n return [largest_sum, curr_sum].max\n\nend", "def solution(a)\n s= a.sort\n 0.step(s.size - 1).inject(0) do |result, x|\n z= x+2\n (x+1).step(s.size - 1).inject(result) do |acc, y|\n z+=1 while z < s.size && s[x] + s[y] > s[z]\n acc += z-y-1\n end\n end\nend", "def largest_contiguous_subsum1(list)\n p Time.now\n sub_arrays = []\n list.each_index do |i|\n list.each_index do |j|\n next if j < i\n sub_arrays << list[i..j]\n end\n end\n sub_arrays.map{|numbers| numbers.inject(:+)}.max\n p Time.now\nend", "def fourth_anagram?(str1, str2) # O(n)\n hash = Hash.new(0) # 1\n str1.each_char {|char| hash[char] += 1} # n\n str2.each_char {|char| hash[char] -= 1} # n\n\n hash.values.all?(0) # n\n\nend", "def awesome(arr, target)\n hash = Hash.new(0)\n i = 0\n j = i + 1\n while i < arr.size\n hash[arr[i] + arr[j]] += 1 \n if j < arr.size\n j += 1\n else\n i += 1\n if j = i + 1 > arr.length\n j = i \n else\n j = i + 1\n \n end\n\n end\n \n end\n return true if hash[target] >= 1\n false\nend", "def largest_contiguous_subsum2(list)\n # O(N) ==> Time\n # O(1) ==> Space\n largest = list.first\n curr = list.first\n\n len = list.length\n (1...len).each do |i|\n curr = 0 if curr < 0 \n curr += list[i]\n largest = curr if curr > largest\n end\n largest\nend", "def solution(a)\n counts = {}\n for i in a\n counts[i] ||= 0\n counts[i] += 1\n end\n for i in (1..a.count)\n return 0 if counts[i] != 1\n end\n return 1\nend", "def my_min1(arr)\n arr.each do |el1| #O(n)\n if arr.all? {|el2| el1 <= el2 } #O(n + 1)\n return el1\n end\n end \nend", "def first_anagram?(str1, str2)\r\n possible = str1.split(\"\").permutation.to_a #O(n!)\r\n possible.map! {|ele| ele.join(\"\")} #O(n)\r\n possible.include?(str2) #O(n)\r\nend", "def okay_two_sum?(arr, target)\n sorted = arr.sort # n log n => quicksort => is nlogn DOMINANT\n sorted.each_with_index do |num, i| # => O(n)\n # return true if sorted[i] + sorted[-1 - i] == target\n return true if sorted[i + 1 .. - 1].bsearch {|number| target - num <=> number} # => O(log(n))\n # ASK TA ABOUT BSEARCH\n # bsearch {|ele| pivot <=> ele}\n end\n false\nend", "def findDiffSquares(n)\n sum = 0\n (1..n).each { |i|\n (1..n).each { |j|\n sum += i*j unless i == j\n }\n }\n sum\nend", "def solution_slow_2(n, p, q)\n sieve = sieve_of_erathosteneses(n)\n # puts \"sieve:#{sieve}\"\n semi = semiprimes(n, sieve)\n # puts \"sp:#{semi}\"\n prefix = [0,0,0,0,1]\n 5.upto(n) do |x|\n if semi.include? x \n prefix << prefix.last + 1\n else\n prefix << prefix.last\n end\n end\n # puts \"prefix:#{prefix}\"\n\n queries = [p,q].transpose\n\n\n res = queries.map do |query|\n prefix[query.last] - prefix[query.first - 1]\n end\n\n # puts \"res:#{res}\"\n\n res\n end", "def stones(n, a, b)\n ar=[0]\n (n-1).times do |val|\n tmp=[]\n ar.each do |v|\n tmp << v+a if !tmp.include?(v+a)\n tmp << v+b if !tmp.include?(v+b)\n end\n ar=tmp\n end\n ar.sort\nend", "def checkArray(a)\n\tn = a.length-1\n\tcount = 0\n\tfor i in 0..n do\n\t\tfor j in (i+1)..n do\n\t\t\tfor k in (j+1)..n do\n\t\t\t\tif (a[i] + a[j] + a[k] == 0)\n\t\t\t\t\tcount += 1\n\t\t\t\t\treturn count;\n\t\t\t\telse\n\t\t\t\t\treturn count;\n\t\t\t\tend\n\t\t\tend\n\t\tend\n\tend\nend", "def largest_contiguous_sub_sum2(arr)\n #one varable tracks largest sum\n #one variable tracks current sum\n #O(n) + O(1)\n # list = [2, 3, -6, 7, -6, 7]\n\n # largest_sum= arr.first\n\n # i = 0\n # arr_end = true\n\n # while arr_end\n # current_sum = arr[i]\n # if arr[i+1] == nil\n # arr_end = false\n # puts \"This is current sum: #{current_sum}\"\n # else\n # if current_sum > largest_sum\n # current_sum += arr[i+1]\n # largest_sum = current_sum\n # end\n # end\n # if i < arr.length\n # arr_end = true\n # i += 1\n # end\n # end\n # largest_sum\n \n\n\n # arr.each_with_index do |ele, idx|\n # if ele > largest_sum\n # largest_sum = ele\n # end\n\n # i = idx\n # sum = ele\n # while i < arr.length - 1\n # if sum <= sum + arr[i+1]\n # largest_sum = sum + arr[i+1]\n # end\n # sum = sum + arr[i+1]\n # i+=1\n # end\n # end\n # largest_sum\n\nend", "def fourth_anagram?(str1, str2) # .338 O(n)\n h1 = Hash.new(0)\n h2 = Hash.new(0)\n str1.each_char { |c1| h1[c1] += 1}\n str2.each_char { |c2| h2[c2] += 1}\n h1 == h2\nend", "def my_min(array) # O(n) - Linear\n counter = array[0]\n\n (1...array.length).each do |i|\n if counter > array[i]\n counter = array[i]\n end\n end\n counter\nend", "def sum_upon_sums(array)\n # Step 0: initialize variables => O(1)\n max = -1\n sum = 0\n\n # Step 1: Get Max and Sum => O(n)\n array.each do |num|\n max = num if num >= max\n sum += num\n end\n\n # Step 2: Get summation => O(1)\n summation = max * (max + 1) / 2\n\n # Step 3: Return Missing value by subtracting summation and sum => O(1)\n summation - sum\nend", "def lcs_phase_two(arr)\n return arr.max if arr.max < 0 #edge case\n\n current = 0\n largest = 0\n\n arr.each do |ele|\n current += ele\n current = 0 if current < 0 #bookmark\n largest = current if largest < current\n end\n\n largest\nend", "def fast_hash_additive_find(arr, target)\n lookup_table = Hash.new\n\n arr.each do |element|\n return true if lookup_table[target - element]\n if lookup_table[element]\n lookup_table[element] += 1\n else\n lookup_table[element] = 1\n end\n end\n\n return false\n end", "def hardcore_two_sum?(arr, target)\n nums = {}\n arr.each{ |n| nums[n] = n }\n\n nums.each do |n,_|\n needed = target - n\n return true if !nums[needed].nil? && nums[needed] != n\n end\n\n false\nend", "def cost(ar)\n c = 0\n for pd in ar\n for i, n in pd\n c += i*n + n*2\n end\n end\n c -= 2\nend", "def euler29(n)\n terms = []\n 2.upto(n) do |i|\n 2.upto(n) do |j|\n if terms.include?(i ** j) == false\n terms << i ** j\n end\n end\n end\n \n terms.length\nend", "def bf_inversions arr\n count = 0\n (0...arr.size).each do |i|\n ((i+1)...arr.size).each do |j|\n count+=1 if arr[i] > arr[j]\n end\n end\n count\nend", "def find_unique_elements(arr)\n \nend", "def get_products_but_self(arr)\n # raise 'need more than itself to get all other products' if arr.length < 2\n # result = [] \n # #first just try to come up with a way that works even if it's slow \n # arr.each_with_index do |el,idx|\n # arr[idx] = 1 \n # result << arr.reduce(:*) O(n) in a O(n) loop \n # arr[idx] = el \n # end \n # result This works, Time: O(n^2) space:O(n), created 1 new array Now try to optimize \n \n # Faster way, trying greedy way, constanly update the variable\n products_before_el = [1] # when we are at the first el, the product before that we use 1\n products_after_el = [] #we know that product after the last el, we can use 1, and since\n #we can only multiply, we backwards from the last el for products after el\n end_idx = arr.length - 1 \n products_after_el[end_idx] = 1\n (1..end_idx).each do |i| # time O(n)\n products_before_el[i] = products_before_el[i-1]*arr[i-1]\n products_after_el[end_idx - i] = products_after_el[end_idx - i + 1]*arr[end_idx - i +1]\n end \n result = []\n arr.length.times do |i| \n result[i] = products_before_el[i] * products_after_el[i]\n end \n result \n\n # Can we improve on space? \nend" ]

[ "0.64688283", "0.63178664", "0.6267248", "0.62198216", "0.62003064", "0.6068516", "0.60298127", "0.59856176", "0.59822917", "0.598102", "0.5910868", "0.5903023", "0.58936894", "0.5890103", "0.5879472", "0.58556885", "0.58543235", "0.5849014", "0.5835677", "0.57822996", "0.5779699", "0.57748854", "0.5774721", "0.5767835", "0.57464397", "0.57251805", "0.5723592", "0.57145303", "0.56900626", "0.56884664", "0.56832945", "0.56797016", "0.56791097", "0.56635123", "0.5662269", "0.56566966", "0.5655867", "0.5651081", "0.5648561", "0.56481177", "0.56458753", "0.56358856", "0.56207335", "0.56183076", "0.5616148", "0.56144124", "0.56057686", "0.5592543", "0.5587115", "0.5582902", "0.55818653", "0.55811346", "0.5572391", "0.557126", "0.5570052", "0.5563378", "0.55596167", "0.5556394", "0.5553933", "0.5552467", "0.5552357", "0.5551158", "0.5550001", "0.5526713", "0.55242395", "0.5522795", "0.5511609", "0.55062497", "0.550335", "0.55030596", "0.5500208", "0.5496503", "0.54927975", "0.54906374", "0.5489878", "0.5483197", "0.54818785", "0.547454", "0.54701877", "0.5469552", "0.54682666", "0.54626334", "0.54616946", "0.54614156", "0.5461224", "0.54606897", "0.5457935", "0.5457248", "0.5454806", "0.54475284", "0.5445509", "0.54435945", "0.5442592", "0.54347587", "0.54278564", "0.5426472", "0.54249805", "0.54202795", "0.5403773", "0.5402338", "0.53939664" ]

[ "def find_dublicate(array)\n sum = 1000000*(1000000+1)/2 # (n*(n+1))/2\n array.each do |el| \n sum -= el\n end\n return sum\nend", "def solution(a)\r\n n=a.size\r\n i=1\r\n for k in a.sort do\r\n\tif k!=i \r\n\t then \r\n\t return 0\r\n\t break;\r\n\tend\r\n i+=1;\r\n end\t\r\n return 1 if a.inject(:+) ==n*(n+1)/2;\r\nend", "def my_min_2(list)\r\n min = 0 # O(1)\r\n \r\n list.each do |ele| # O(n) \r\n if ele < min # O(1)\r\n min = ele # O(1)\r\n end\r\n end\r\n min # O(1) \r\nend", "def largest_subsum(list)\n max = list[0] # O(1)\n current_sum = list[0] # O(1)\n\n (1...list.length).each do |i| # O(n)\n # debugger\n if current_sum < 0 # O(1)\n current_sum = 0 # O(1)\n end \n current_sum += list[i] # O(1)\n if current_sum > max # O(1)\n max = current_sum # O(1)\n end\n end\n\n max # O(1)\n\nend", "def third_anagram?(str1, str2)\n beginning_time = Time.now\n str1.split(\"\").sort == str2.split(\"\").sort #O(nlogn)\n \"Time complexity of first_anagram: #{(Time.now - beginning_time)}\"\nend", "def sorted_squares(nums)\n # This takes O(n)\n nums.map! { |num| num**2 }\n # This can take Ο(n logn)\n bubble_sort(nums)\nend", "def three_sum_fastest(arr)\n count = 0\n\n (0..arr.length - 2).each { |i|\n set = Set.new\n\n (i + 1..arr.length - 1).each { |j|\n if set.include?(-arr[i] - arr[j])\n count += 1\n end\n\n set.add(arr[j])\n }\n }\n count\nend", "def fourth_anagram?(str1, str2)\n hash1 = Hash.new(0)#O(1)\n beginning_time = Time.now\n str1.each_char {|char| hash1[char]+=1}#O(n)\n str2.each_char {|char| hash1[char]-=1}#O(n)\n hash1.all? {|_, v| v.zero?}#O(n)\n \"Time complexity of first_anagram: #{(Time.now - beginning_time)}\"\nend", "def solution(a)\n n = a.size\n passing_cars = 0\n\n suffix_sums = Array.new(n + 1, 0)\n\n a.reverse.each_with_index do |elem, i|\n suffix_sums[i + 1] = suffix_sums[i] + elem\n end\n suffix_sums.reverse!\n\n a.each_with_index do |car, i|\n if car == 0\n passing_cars += suffix_sums[i]\n end\n end\n\n passing_cars > 1_000_000_000 ? -1 : passing_cars\nend", "def solution(m, a)\n n = a.count\n result = 0\n front = 0\n numbers = Array.new(m + 1, false)\n n.times { |back|\n while front < n and not numbers[a[front] - 1]\n numbers[a[front] - 1] = true\n front += 1\n result += front - back\n return 1_000_000_000 if result >= 1_000_000_000\n end\n numbers[a[back] - 1] = false\n }\n result\nend", "def fibonacci(n)\n return fib_helper([0, 1], 2, n)\n # if you'd like to test what i THINK is an O(1) space complexity solution.....\n # i did run this through the tests and it SHOULD work:\n # return faster_fib_helper([0, 1], 2, n)\nend", "def solution(a)\n # In production environment this will be my solution:\n # a.uniq.size\n #\n # But since this is a coding challenge, my assumption\n # is that you're looking for a by-hand O(N*logN) solution\n\n return 0 if a.empty?\n\n n = a.size\n ary = a.sort\n uniques = 1\n (1...n).each do |i|\n uniques += 1 if ary[i] != ary[i - 1]\n end\n uniques\nend", "def find_duplicate(nums)\n if !nums or nums.size == 0\n return nil\n else\n fast = nums[ 0 ]\n slow = nums[ 0 ]\n while true\n fast = nums[ fast ]\n fast = nums[ fast ]\n slow = nums[ slow ]\n if fast == slow\n new_node = nums[ 0 ]\n while new_node != slow\n new_node = nums[ new_node ]\n slow = nums[ slow ]\n end\n return slow\n end\n end\n end\nend", "def my_min_2(arr)\n\n smallest_value = arr[0] # O(1)\n\n arr.each do |ele1| # [ 0, 3, 5, 4, -5, 10, 1, 90 ] O(n)\n smallest_value = ele1 if ele1 <= smallest_value #O(1)\n end\n\n smallest_value #O(1)\n\nend", "def seesaw?(arr)\n left_sum = 0\n arr.each_index do |i| #O(n)\n if i > 0\n left_sum = arr[0...i].reduce(:+) #O(n)\n end\n if i < arr.size-1\n right_sum = arr[i+1..-1].reduce(:+); #O(n)\n else\n right_sum = 0\n end\n if left_sum == right_sum\n return true\n end\n end\n return false\nend", "def solution(a)\n counter = Hash.new(0)\n a.each do |elem|\n counter[elem] += 1\n end\n\n (1..a.size).each do |number|\n return 0 if counter[number] != 1\n end\n\n 1\nend", "def solution(a)\n # write your code in Ruby 2.2\n num_of_elements=a.length\n num_of_zeros=0\n tot_num_car_pairs=0\n a.each do |element|\n if element == 0\n num_of_zeros+=1\n else\n tot_num_car_pairs+=num_of_zeros\n end\n end\n return tot_num_car_pairs>1_000_000_000?-1:tot_num_car_pairs\nend", "def okay_two_sum?(arr, target)\n arr = arr.sort #n log n\n (0...arr.length).each do |i| #n\n search = bsearch(arr, target-arr[i]) # log n\n return true unless search.nil?\n end #n log n\n false\nend", "def naive_algorithm(arr)\n\tproduct = 0\n\tarr.each do |i|\n\t arr.each do |j|\n\t \tp = arr[i] * arr[j]\n\t \tproduct = p if product < p\n\t end\t\n\tend\t\t\n\tproduct\nend", "def main\n\n sum = 0\n\n (0..999).each do |i|\n sum += check(i)\n end\n\n puts \"Total - O(n) #{sum}\"\n\n # Needed to refresh following: https://en.wikipedia.org/wiki/Arithmetic_progression\n sum2 = sum_multiples(3, 1000) + sum_multiples(5, 1000) - sum_multiples(15, 1000)\n\n # Refreshed Big O too : http://stackoverflow.com/questions/487258/plain-english-explanation-of-big-o \n puts \"Total - O(1) #{sum2}\"\n\nend", "def largest_contiguous_subsum_2(list)# [2, 3, -6, 7, -6, 7]\n largest_num = list[0]#2 O(1)\n running_sum = list[0]#2 - 5 after entering loop. O(1)\n\n (1...list.length).each do |i| #O(n) \n running_sum = 0 if running_sum < 0 #O(1)\n running_sum += list[i] #O(1)\n largest_num = running_sum if running_sum > largest_num #O(1)\n end\n return largest_num #O(1)\nend", "def two_sum?(array, target)\n #O(n)\n hash = Hash.new(0)\n i = 1\n array.each do |ele|\n hash[ele] = i \n i += 1\n end\n hash.each_key do |k|\n return true if hash.has_key?(target - k) && hash[k] != hash[target - k]\n end\n false \nend", "def fast_lcss(arr)\n i_arr = []\n biggest = 0\n max_sub_arr = []\n arr.length.times do |x|\n arr.map do |ele1|\n i_arr += [ele1]\n sum = i_arr.inject(0) do |a, b|\n a + b\n end\n max_sub_arr = i_arr if sum > biggest\n biggest = sum if sum > biggest \n end\n i_arr = []\n arr.shift\n end\n max_sub_arr\nend", "def problem_57\n ret,n,d = 0,1,1\n 1000.times do |i|\n n,d = (n+2*d),(n+d)\n ret += 1 if n.to_s.length > d.to_s.length\n end\n ret\nend", "def solution(arr)\n zeros = 0\n pass_cars = 0\n\n (0...arr.size).each do |idx|\n arr[idx] == 0 ? zeros += 1 : pass_cars += zeros\n\n return -1 if pass_cars > 1000000000\n end\n\n pass_cars\nend", "def my_min_2(array)#O(n)\n array.inject do |acc, ele|#O(n)\n if acc < ele\n acc\n else\n ele\n end\n end\nend", "def my_min(list) \n\n list.each_with_index do |ele, i| #O(n)\n compare_arr = list[0...i] + list[i+1..-1] # O(2n) \n return ele if compare_arr.all? { |ele2| ele < ele2 } #O(n)\n end\n\n #time complexity = O(n^2) + O(2n)\n\nend", "def bad_two_sum?(arr, target)\n arr.each_with_index do |num1, idx1| #O(n)\n arr.each_with_index do |num2, idx2| #O(n)\n return true if idx2 > idx1 && num1 + num2 == target #O(1)\n end\n end\n false\nend", "def largest_contiguous_subsum(arr) #BigO of O(n)\n max = 0 \n current_sum = 0\n arr.each_with_index do |el,idx|\n if current_sum + el >= el \n current_sum += el \n else \n current_sum = el \n end \n max = current_sum if current_sum > max \n end \n max\nend", "def sub_sum(list)\n sub_arr = []\n (0...list.length).each do |i| #O(n)\n (i...list.length).each do |j| #O(n)\n sub_arr << list[i..j] if i <= j\n end\n end\n largest_continuous_sub_sum1(sub_arr)\nend", "def solution(a)\n n = a.size\n return 0 unless n > 2\n a.sort!\n\n (2..n - 1).each do |i|\n return 1 if a[i - 2] + a[i - 1] > a[i]\n end\n\n return 0\nend", "def solution(a)\n n = a.size\n a.sort!\n\n count = 0\n for i in 0...n-2 do\n k = i+2\n for j in i+1...n-1 do\n while k < n and a[i] + a[j] > a[k] do\n k += 1\n end\n count += k - j - 1\n end\n end\n count\nend", "def my_min_2(nums) # O(n)\n smallest = 0\n nums.each do |num|\n smallest = num if num < smallest\n end\n smallest\nend", "def solution(a)\n # write your code in Ruby 2.2\n n = a.length\n \n counter = Array.new(n+1, 0)\n \n a.each do |x|\n counter[x-1] += 1\n end\n \n return counter.index { |x| x == 0 } + 1\nend", "def solution(a)\n return 1 if a.empty?\n a.sort!\n return 1 if a.first > 1\n return a.first + 1 if a.length <2\n (0..(a.length)).each do |index|\n return a[index] + 1 if a[index] + 1 != a[index + 1]\n end\n return a.last + 1\nend", "def second_anagram?(word_1, word_2) #O(n^2)\n matching_word = word_2.split(\"\")\n\n word_1.each_char do |ele|\n if matching_word.index(ele) #evaluating the conditional\n matching_word.delete_at(matching_word.index(ele)) #n many times, do this\n end\n end\n\n matching_word.empty? #constant O(1)\nend", "def anagram4(str1, str2)\n count = Hash.new(0) #O(1)\n \n str1.each_char do |char| #O(n)\n count[char] += 1 #O(1)\n end\n\n str2.each_char do |char| #O(n)\n count[char] -= 1 #O(1)\n end\n\n # count.values.uniq.length == 1\n count.values.each do |v| #O(n)\n return false if v > 0\n end\n true\nend", "def two_sum?(arr, target_sum) # O(N)\n hash = Hash.new(0)\n count = Hash.new(0)\n\n arr.each do |num|\n hash[num] = target_sum - num\n count[num] += 1\n end\n\n hash.each do |key, value|\n if hash.has_key?(value) \n if key == value \n if count[value] > 1\n return true\n end\n else\n return true\n end\n end\n end\n\n false\nend", "def fds(n)\n\n # arr = []\n # (n + 1).times.each{|e| arr << e if e > 0}\n # arr.flat_map.reduce(:*)\n # arr.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n (1..n).to_a.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n\nend", "def naive(array)\n max = -10000\n for i in (0..array.length - 1)\n for j in (i..array.length - 1)\n total = array[i..j].inject { |m,k| m + k }\n max = total if total > max\n end\n end\n max\nend", "def running_time(array)\n cnt = 0\n (1...(array.length)).each do |x|\n y = x\n while y.positive?\n break unless array[y - 1] > array[y]\n\n temp_num = array[y]\n array[y] = array[y - 1]\n array[y - 1] = temp_num\n cnt += 1\n y -= 1\n end\n end\n cnt\nend", "def fifth_anagram?(word1, word2) # O(n)\n \n p \"Running fifth_anagram...\" \n\n start = Time.now\n \n hash1 = Hash.new(0)\n # hash2 = Hash.new(0)\n\n word1.each_char {|char| hash1[char] += 1}\n word2.each_char {|char| hash1[char] += 1}\n\n hash1.values.all? {|v| v.even?}\n\n\n # puts \"Took #{Time.now - start} seconds\"\n\n \nend", "def my_min_2(arr) #O(N)\n min_num = arr.first\n \n arr.each { |num| min_num = num if num < min_num }\n \n min_num\n end", "def solution(a)\n result = 0\n tmp_count = 0\n a.each_with_index do |val, idx|\n if val.zero?\n tmp_count += 1\n else\n result += tmp_count\n end\n end\n return result > 1000000000 ? -1 : result\nend", "def solution(a)\n # write your code in Ruby 2.2\n seen = {}\n\n a.each do |number|\n seen[number] = true\n end\n\n max = a.max\n\n for i in 1..(max + 1)\n return i unless seen[i]\n end\n\n 1\nend", "def solution(a)\n a.uniq.count\nend", "def solution(a)\r\n # write your code in Ruby 2.2\r\n \r\n arr =[]\r\n a.each_with_index{|el,i|\r\n \r\n if !arr.index(el) \r\n arr << el\r\n end\r\n \r\n }\r\n arr.count\r\nend", "def solution(a)\n accessed = Array.new(a.size + 1, nil)\n caterpillar_back = 0\n count = 0\n\n a.each_with_index do |x, caterpillar_front|\n if accessed[x] == nil\n accessed[x] = caterpillar_front\n else\n new_caterpillar_back = accessed[x] + 1\n first_part_size = caterpillar_front - caterpillar_back\n second_part_size = caterpillar_front - new_caterpillar_back\n count += first_part_size * (first_part_size + 1) / 2\n count -= (second_part_size) * (second_part_size + 1) / 2\n caterpillar_back.upto(new_caterpillar_back - 1) { |n| accessed[a[n]] = nil}\n accessed[x] = caterpillar_front\n caterpillar_back = new_caterpillar_back\n end\n end\n\n remaining_size = a.size - caterpillar_back\n count += (remaining_size) * (remaining_size + 1) / 2\n end", "def solution(a)\r\n # write your code in Ruby 2.2\r\n #trangular\r\n # a[0] = 10\r\n # a[2] = 5\r\n # a[4] = 8\r\n # 10 + 5 > 8\r\n # 5 + 8 > 10\r\n #8 + 10 > 5\r\n \r\n \r\n l=a.count\r\n \r\n i=0\r\n while(i<l) do\r\n j=i+1\r\n while(j<l) do\r\n k=j+1\r\n \r\n \r\n while(k<l) do\r\n if((a[i] + a[j] > a[k]) && (a[j] +a[k] > a[i]) && (a[k] + a[i] >a[j]))\r\n return 1\r\n end\r\n k+=1 \r\n end \r\n \r\n j+=1 \r\n end\r\n i+=1\r\n end\r\n \r\n return 0\r\n \r\nend", "def solution(a)\n # write your code in Ruby 2.2\n \n is_perm = 0\n \n n = a.length\n b = [0]*n\n \n \n a.each do |v|\n break if v > n \n break if b[v] == 1 \n b[v] = 1\n end\n \n sum = b.inject(:+)\n if sum == n\n is_perm = 1\n end\n \n is_perm\nend", "def solution(a)\n len = a.size\n unique = {}\n i = 0\n while i < len\n item = a[i]\n if unique.has_key?(item)\n unique[item] += 1\n else\n unique[item] = 1\n end\n i += 1\n end\n pairs = 0\n unique.each do |key,count|\n (1...count).step {|n| pairs += n }\n end\n return pairs > 1_000_000_000 ? 1_000_000_000 : pairs\nend", "def second_anagram?(word1, word2)\n p \"Running second_anagram?...\" \n\n start = Time.now\n word2 = word2.split(\"\") #O(n)\n word1.each_char do |char| #O(n)\n char_index = word2.index(char) #O(n)\n if char_index.nil? #O(1)\n return false #O(1)\n else\n word2.delete_at(char_index) #O(1)\n end\n end\n word2.empty? #O(1)\n p \"Took #{Time.now - start} seconds\"\nend", "def solution(a)\n length = a.length\n sum = (length + 1) * (length + 1 + 1) / 2\n\n sum - a.inject(0) { |acc, e| acc += e }\nend", "def canBeSum(n, array, cache)\n\ti = 0\n\twhile array[i] <= n / 2\n\t\tif cache[n-array[i]] # array.include?(n-array[i]) is OK, but very slow\n\t\t\treturn true\n\t\tend\n\n\t\ti += 1\n\tend\n\n\treturn false\nend", "def my_min2 # O(n) time complexity\n smallest = self.first\n self.each do |num|\n sleep(1)\n smallest = num if num < smallest \n end\n smallest\n end", "def seesaw2?(arr)\n left_sum = 0\n right_sum = arr.size > 1 ? arr[1..-1].reduce(:+) : 0\n\n arr.each_index do |i| #O(n)\n return true if left_sum == right_sum\n left_sum += arr[i]\n i < arr.size-1 ? right_sum -= arr[i+1] : right_sum = 0\n end\n return false\nend", "def two_sum(arr) #o(ns)\n set = Set.new\n arr.each{|el| set << el}\n arr.select{|el| set.include?(-1 * el)}\nend", "def solution(a)\n # write your code in Ruby 2.2\n sum = a.inject(:+)\n acc = 0\n\n min = 99999999\n a[0..-2].each do |n|\n sum -= n\n acc += n\n\n min = [(acc - sum).abs, min].min\n end\n min\nend", "def second_anagram?(str1, str2) #quadratic\r\n\r\n split = str2.split(\"\") #O(n)\r\n str1.split(\"\").each do |c| #O(n) <\r\n split.delete(c) #O(n) ^ O(n^2) when nested in above each block\r\n end\r\n\r\n split.empty?\r\nend", "def move_zeros(array)\n zero_count = 0\n # O(n)\n array.each do |num|\n\n zero_count += 1 if num == 0\n end\n\n # O(n)\n array = array.select { |num| num != 0 }\n \n # O(1)\n zero_count.times do\n array += [0]\n end\n\n array\nend", "def three_sum_fast(arr)\n arr = merge_sort(arr)\n count = 0\n\n (0..arr.length - 1).each { |i|\n (i + 1..arr.length - 1).each { |j|\n if bin_search(arr, -arr[i] - arr[j]) > j\n count += 1\n end\n }\n }\n count\nend", "def better_subsum(arr) # o(n)\n largest = 0 \n sum = 0 \n i = 0 \n j = 0\n\n while i != arr.length-1\n largest += arr[j]\n sum = largest if largest > sum \n if j == arr.length-1 \n i+=1 \n j = i \n largest = 0 \n else\n j+=1\n end \n end \n sum \n end", "def fourth_anagram?(str1, str2)\n\n str1_hash = Hash.new {|h,k| h[k] = 0 } # O(1)\n str2_hash = Hash.new {|h,k| h[k] = 0 } # O(1)\n\n str1.each_char do |char| # O(n)\n str1_hash[char] += 1\n end\n\n str2.each_char do |char| # O(n)\n str2_hash[char] += 1\n end\n\n str1_hash == str2_hash # O(1)\n\nend", "def equal(arr)\n size = arr.size\n hash = Hash.new{|h,k| h[k] = []}\n (0...size).each do |i|\n (i + 1...size - 1).each do |j|\n sum = arr[i] + arr[j]\n if hash.has_key?(sum)\n values = hash[sum]\n values << i\n values << j\n return values\n else\n hash[sum] = [i, j]\n end\n end\n end\nend", "def hash_two_sum(arr,target_sum)\n #creates a new hash with each element that is satisfying the target_sum\n hash = Hash.new(0) #{|h,k| h[k] = []}\n (0...arr.length).each { |i| hash[i] = arr[i]} #O(n)\nend", "def solution(x, a)\r\n # write your code in Ruby 2.2\r\n arr=[];\r\n i=0;\r\n l=a.count\r\n \r\n while(arr.count<=x)\r\n \r\n if(arr[i].nil?)\r\n arr << i\r\n end\r\n \r\n i+=1\r\n end\r\n i\r\nend", "def find_duplicate_space(nums)\n # sort nums first (lgn), then check for dups by iterate over (n)\n last_seen = 0\n nums.sort!.each do |num|\n return num if last_seen == num\n last_seen = num\n end\nend", "def two_sum_v3?(arr, target) \n hash = Hash.new\n arr.each { |ele| hash[ele] = ele } #o(n)\n arr.each do |ele| #o(n)\n search_value = target - ele\n return true if !hash[search_value].nil? && hash[search_value] != ele\n end\n false\nend", "def solution(a)\n a.sort!\n a.each_with_index do |element, index|\n return 0 if element != index + 1\n end\n 1\nend", "def find_unsorted_subarray(nums)\n \nend", "def better_sum1(arr, target) # this one is going to return true or false\n pairs = Set.new\n\n arr.each do |ele|\n if pairs.include?(ele)\n return true\n else\n pairs << target - ele\n end\n end\n false\nend", "def solution(a)\n return 0 if a.uniq.size != a.size\n \n max = a.size \n sum = (1 + max) * max / 2\n \n array_sum = a.inject(0, &:+) \n sum == array_sum ? 1 : 0 \nend", "def efficient_contiguous_subsum(list)\n current_sum = list[0] #0\n largest_sum = list[0] #5\n # debugger\n (1...list.length).each do |i| \n if current_sum + list[i] > 0 \n current_sum += list[i] \n largest_sum = current_sum if current_sum > largest_sum\n else \n current_sum = 0\n end \n end \n largest_sum\nend", "def two_sum?(arr, target_sum)\n hash = {}\n arr.each do |ele|\n diff = target_sum - ele\n return true if hash.has_key?(diff) # O(1), or constant time\n hash[ele] = 0\n end\n false\nend", "def find3(a, X)\n # scan through array\n # build hash storing complement in each key\n complements = {}\n a.each_with_index do |val, ind|\n if complements[X - val]\n complements[X - val].push(ind)\n else\n complements[X - val] = [ind]\n end\n end\n\n # scan through the array again\n # get complement\n # for each value scan the remainder of the arrray\n # for a value such taht a + b = the complement\n\n # for each character we have built a dictionary such that, we can find\n # x = a + complement\n\n # [1, 2, 3]\n # 1 + 2 = 3\n # 1 + 3 = 4 =>\n\n # for each value in the array (a) look at all following values (b) and see if a + b\n # is in the dictionary, if it is, check that their indices do not collide with the index\n # stored at dict(a+b)\n\n a.each_with_index do |va, i|\n a.each_with_index do |vb, j|\n break if i == j\n\n complement = va + vb\n indices = complements[complement]\n\n indices.each do |z|\n # every index is unique\n return [i, j, z] unless z == i || z == j\n end\n end\n end\n\n return nil\nend", "def largest_cont_subsum_fast(list)\n # for constant size to be true, you cant create any variables\n # whose memory size depends on the size of the input\n curr_sum = list[0]\n largest_sum = list[0]\n\n # we know there are n^2 potential, so if we ever check all of them\n # it must be n^2\n\n # there must be a way to find the max without checking every subarray\n list[1..-1].each do |ele|\n # debugger\n if curr_sum > largest_sum\n largest_sum = curr_sum\n end\n\n if curr_sum < 0\n curr_sum = 0\n end\n\n curr_sum += ele\n\n end\n\n # debugger\n return [largest_sum, curr_sum].max\n\nend", "def solution(a)\n s= a.sort\n 0.step(s.size - 1).inject(0) do |result, x|\n z= x+2\n (x+1).step(s.size - 1).inject(result) do |acc, y|\n z+=1 while z < s.size && s[x] + s[y] > s[z]\n acc += z-y-1\n end\n end\nend", "def largest_contiguous_subsum1(list)\n p Time.now\n sub_arrays = []\n list.each_index do |i|\n list.each_index do |j|\n next if j < i\n sub_arrays << list[i..j]\n end\n end\n sub_arrays.map{|numbers| numbers.inject(:+)}.max\n p Time.now\nend", "def fourth_anagram?(str1, str2) # O(n)\n hash = Hash.new(0) # 1\n str1.each_char {|char| hash[char] += 1} # n\n str2.each_char {|char| hash[char] -= 1} # n\n\n hash.values.all?(0) # n\n\nend", "def awesome(arr, target)\n hash = Hash.new(0)\n i = 0\n j = i + 1\n while i < arr.size\n hash[arr[i] + arr[j]] += 1 \n if j < arr.size\n j += 1\n else\n i += 1\n if j = i + 1 > arr.length\n j = i \n else\n j = i + 1\n \n end\n\n end\n \n end\n return true if hash[target] >= 1\n false\nend", "def largest_contiguous_subsum2(list)\n # O(N) ==> Time\n # O(1) ==> Space\n largest = list.first\n curr = list.first\n\n len = list.length\n (1...len).each do |i|\n curr = 0 if curr < 0 \n curr += list[i]\n largest = curr if curr > largest\n end\n largest\nend", "def solution(a)\n counts = {}\n for i in a\n counts[i] ||= 0\n counts[i] += 1\n end\n for i in (1..a.count)\n return 0 if counts[i] != 1\n end\n return 1\nend", "def my_min1(arr)\n arr.each do |el1| #O(n)\n if arr.all? {|el2| el1 <= el2 } #O(n + 1)\n return el1\n end\n end \nend", "def first_anagram?(str1, str2)\r\n possible = str1.split(\"\").permutation.to_a #O(n!)\r\n possible.map! {|ele| ele.join(\"\")} #O(n)\r\n possible.include?(str2) #O(n)\r\nend", "def okay_two_sum?(arr, target)\n sorted = arr.sort # n log n => quicksort => is nlogn DOMINANT\n sorted.each_with_index do |num, i| # => O(n)\n # return true if sorted[i] + sorted[-1 - i] == target\n return true if sorted[i + 1 .. - 1].bsearch {|number| target - num <=> number} # => O(log(n))\n # ASK TA ABOUT BSEARCH\n # bsearch {|ele| pivot <=> ele}\n end\n false\nend", "def findDiffSquares(n)\n sum = 0\n (1..n).each { |i|\n (1..n).each { |j|\n sum += i*j unless i == j\n }\n }\n sum\nend", "def solution_slow_2(n, p, q)\n sieve = sieve_of_erathosteneses(n)\n # puts \"sieve:#{sieve}\"\n semi = semiprimes(n, sieve)\n # puts \"sp:#{semi}\"\n prefix = [0,0,0,0,1]\n 5.upto(n) do |x|\n if semi.include? x \n prefix << prefix.last + 1\n else\n prefix << prefix.last\n end\n end\n # puts \"prefix:#{prefix}\"\n\n queries = [p,q].transpose\n\n\n res = queries.map do |query|\n prefix[query.last] - prefix[query.first - 1]\n end\n\n # puts \"res:#{res}\"\n\n res\n end", "def stones(n, a, b)\n ar=[0]\n (n-1).times do |val|\n tmp=[]\n ar.each do |v|\n tmp << v+a if !tmp.include?(v+a)\n tmp << v+b if !tmp.include?(v+b)\n end\n ar=tmp\n end\n ar.sort\nend", "def checkArray(a)\n\tn = a.length-1\n\tcount = 0\n\tfor i in 0..n do\n\t\tfor j in (i+1)..n do\n\t\t\tfor k in (j+1)..n do\n\t\t\t\tif (a[i] + a[j] + a[k] == 0)\n\t\t\t\t\tcount += 1\n\t\t\t\t\treturn count;\n\t\t\t\telse\n\t\t\t\t\treturn count;\n\t\t\t\tend\n\t\t\tend\n\t\tend\n\tend\nend", "def largest_contiguous_sub_sum2(arr)\n #one varable tracks largest sum\n #one variable tracks current sum\n #O(n) + O(1)\n # list = [2, 3, -6, 7, -6, 7]\n\n # largest_sum= arr.first\n\n # i = 0\n # arr_end = true\n\n # while arr_end\n # current_sum = arr[i]\n # if arr[i+1] == nil\n # arr_end = false\n # puts \"This is current sum: #{current_sum}\"\n # else\n # if current_sum > largest_sum\n # current_sum += arr[i+1]\n # largest_sum = current_sum\n # end\n # end\n # if i < arr.length\n # arr_end = true\n # i += 1\n # end\n # end\n # largest_sum\n \n\n\n # arr.each_with_index do |ele, idx|\n # if ele > largest_sum\n # largest_sum = ele\n # end\n\n # i = idx\n # sum = ele\n # while i < arr.length - 1\n # if sum <= sum + arr[i+1]\n # largest_sum = sum + arr[i+1]\n # end\n # sum = sum + arr[i+1]\n # i+=1\n # end\n # end\n # largest_sum\n\nend", "def fourth_anagram?(str1, str2) # .338 O(n)\n h1 = Hash.new(0)\n h2 = Hash.new(0)\n str1.each_char { |c1| h1[c1] += 1}\n str2.each_char { |c2| h2[c2] += 1}\n h1 == h2\nend", "def my_min(array) # O(n) - Linear\n counter = array[0]\n\n (1...array.length).each do |i|\n if counter > array[i]\n counter = array[i]\n end\n end\n counter\nend", "def sum_upon_sums(array)\n # Step 0: initialize variables => O(1)\n max = -1\n sum = 0\n\n # Step 1: Get Max and Sum => O(n)\n array.each do |num|\n max = num if num >= max\n sum += num\n end\n\n # Step 2: Get summation => O(1)\n summation = max * (max + 1) / 2\n\n # Step 3: Return Missing value by subtracting summation and sum => O(1)\n summation - sum\nend", "def lcs_phase_two(arr)\n return arr.max if arr.max < 0 #edge case\n\n current = 0\n largest = 0\n\n arr.each do |ele|\n current += ele\n current = 0 if current < 0 #bookmark\n largest = current if largest < current\n end\n\n largest\nend", "def fast_hash_additive_find(arr, target)\n lookup_table = Hash.new\n\n arr.each do |element|\n return true if lookup_table[target - element]\n if lookup_table[element]\n lookup_table[element] += 1\n else\n lookup_table[element] = 1\n end\n end\n\n return false\n end", "def hardcore_two_sum?(arr, target)\n nums = {}\n arr.each{ |n| nums[n] = n }\n\n nums.each do |n,_|\n needed = target - n\n return true if !nums[needed].nil? && nums[needed] != n\n end\n\n false\nend", "def cost(ar)\n c = 0\n for pd in ar\n for i, n in pd\n c += i*n + n*2\n end\n end\n c -= 2\nend", "def euler29(n)\n terms = []\n 2.upto(n) do |i|\n 2.upto(n) do |j|\n if terms.include?(i ** j) == false\n terms << i ** j\n end\n end\n end\n \n terms.length\nend", "def bf_inversions arr\n count = 0\n (0...arr.size).each do |i|\n ((i+1)...arr.size).each do |j|\n count+=1 if arr[i] > arr[j]\n end\n end\n count\nend", "def find_unique_elements(arr)\n \nend", "def get_products_but_self(arr)\n # raise 'need more than itself to get all other products' if arr.length < 2\n # result = [] \n # #first just try to come up with a way that works even if it's slow \n # arr.each_with_index do |el,idx|\n # arr[idx] = 1 \n # result << arr.reduce(:*) O(n) in a O(n) loop \n # arr[idx] = el \n # end \n # result This works, Time: O(n^2) space:O(n), created 1 new array Now try to optimize \n \n # Faster way, trying greedy way, constanly update the variable\n products_before_el = [1] # when we are at the first el, the product before that we use 1\n products_after_el = [] #we know that product after the last el, we can use 1, and since\n #we can only multiply, we backwards from the last el for products after el\n end_idx = arr.length - 1 \n products_after_el[end_idx] = 1\n (1..end_idx).each do |i| # time O(n)\n products_before_el[i] = products_before_el[i-1]*arr[i-1]\n products_after_el[end_idx - i] = products_after_el[end_idx - i + 1]*arr[end_idx - i +1]\n end \n result = []\n arr.length.times do |i| \n result[i] = products_before_el[i] * products_after_el[i]\n end \n result \n\n # Can we improve on space? \nend" ]

[ "0.64688283", "0.63178664", "0.6267248", "0.62198216", "0.62003064", "0.6068516", "0.60298127", "0.59856176", "0.59822917", "0.598102", "0.5910868", "0.5903023", "0.58936894", "0.5890103", "0.5879472", "0.58556885", "0.58543235", "0.5849014", "0.5835677", "0.57822996", "0.5779699", "0.57748854", "0.5774721", "0.5767835", "0.57464397", "0.57251805", "0.5723592", "0.57145303", "0.56900626", "0.56884664", "0.56832945", "0.56797016", "0.56791097", "0.56635123", "0.5662269", "0.56566966", "0.5655867", "0.5651081", "0.5648561", "0.56481177", "0.56458753", "0.56358856", "0.56207335", "0.56183076", "0.5616148", "0.56144124", "0.56057686", "0.5592543", "0.5587115", "0.5582902", "0.55818653", "0.55811346", "0.5572391", "0.557126", "0.5570052", "0.5563378", "0.55596167", "0.5556394", "0.5553933", "0.5552467", "0.5552357", "0.5551158", "0.5550001", "0.5526713", "0.55242395", "0.5522795", "0.5511609", "0.55062497", "0.550335", "0.55030596", "0.5500208", "0.5496503", "0.54927975", "0.54906374", "0.5489878", "0.5483197", "0.54818785", "0.547454", "0.54701877", "0.5469552", "0.54682666", "0.54626334", "0.54616946", "0.54614156", "0.5461224", "0.54606897", "0.5457935", "0.5457248", "0.5454806", "0.54475284", "0.5445509", "0.54435945", "0.5442592", "0.54347587", "0.54278564", "0.5426472", "0.54249805", "0.54202795", "0.5403773", "0.5402338", "0.53939664" ]

[ "def find_dublicate(array)\n sum = 1000000*(1000000+1)/2 # (n*(n+1))/2\n array.each do |el| \n sum -= el\n end\n return sum\nend", "def solution(a)\r\n n=a.size\r\n i=1\r\n for k in a.sort do\r\n\tif k!=i \r\n\t then \r\n\t return 0\r\n\t break;\r\n\tend\r\n i+=1;\r\n end\t\r\n return 1 if a.inject(:+) ==n*(n+1)/2;\r\nend", "def my_min_2(list)\r\n min = 0 # O(1)\r\n \r\n list.each do |ele| # O(n) \r\n if ele < min # O(1)\r\n min = ele # O(1)\r\n end\r\n end\r\n min # O(1) \r\nend", "def largest_subsum(list)\n max = list[0] # O(1)\n current_sum = list[0] # O(1)\n\n (1...list.length).each do |i| # O(n)\n # debugger\n if current_sum < 0 # O(1)\n current_sum = 0 # O(1)\n end \n current_sum += list[i] # O(1)\n if current_sum > max # O(1)\n max = current_sum # O(1)\n end\n end\n\n max # O(1)\n\nend", "def third_anagram?(str1, str2)\n beginning_time = Time.now\n str1.split(\"\").sort == str2.split(\"\").sort #O(nlogn)\n \"Time complexity of first_anagram: #{(Time.now - beginning_time)}\"\nend", "def sorted_squares(nums)\n # This takes O(n)\n nums.map! { |num| num**2 }\n # This can take Ο(n logn)\n bubble_sort(nums)\nend", "def three_sum_fastest(arr)\n count = 0\n\n (0..arr.length - 2).each { |i|\n set = Set.new\n\n (i + 1..arr.length - 1).each { |j|\n if set.include?(-arr[i] - arr[j])\n count += 1\n end\n\n set.add(arr[j])\n }\n }\n count\nend", "def fourth_anagram?(str1, str2)\n hash1 = Hash.new(0)#O(1)\n beginning_time = Time.now\n str1.each_char {|char| hash1[char]+=1}#O(n)\n str2.each_char {|char| hash1[char]-=1}#O(n)\n hash1.all? {|_, v| v.zero?}#O(n)\n \"Time complexity of first_anagram: #{(Time.now - beginning_time)}\"\nend", "def solution(a)\n n = a.size\n passing_cars = 0\n\n suffix_sums = Array.new(n + 1, 0)\n\n a.reverse.each_with_index do |elem, i|\n suffix_sums[i + 1] = suffix_sums[i] + elem\n end\n suffix_sums.reverse!\n\n a.each_with_index do |car, i|\n if car == 0\n passing_cars += suffix_sums[i]\n end\n end\n\n passing_cars > 1_000_000_000 ? -1 : passing_cars\nend", "def solution(m, a)\n n = a.count\n result = 0\n front = 0\n numbers = Array.new(m + 1, false)\n n.times { |back|\n while front < n and not numbers[a[front] - 1]\n numbers[a[front] - 1] = true\n front += 1\n result += front - back\n return 1_000_000_000 if result >= 1_000_000_000\n end\n numbers[a[back] - 1] = false\n }\n result\nend", "def fibonacci(n)\n return fib_helper([0, 1], 2, n)\n # if you'd like to test what i THINK is an O(1) space complexity solution.....\n # i did run this through the tests and it SHOULD work:\n # return faster_fib_helper([0, 1], 2, n)\nend", "def solution(a)\n # In production environment this will be my solution:\n # a.uniq.size\n #\n # But since this is a coding challenge, my assumption\n # is that you're looking for a by-hand O(N*logN) solution\n\n return 0 if a.empty?\n\n n = a.size\n ary = a.sort\n uniques = 1\n (1...n).each do |i|\n uniques += 1 if ary[i] != ary[i - 1]\n end\n uniques\nend", "def find_duplicate(nums)\n if !nums or nums.size == 0\n return nil\n else\n fast = nums[ 0 ]\n slow = nums[ 0 ]\n while true\n fast = nums[ fast ]\n fast = nums[ fast ]\n slow = nums[ slow ]\n if fast == slow\n new_node = nums[ 0 ]\n while new_node != slow\n new_node = nums[ new_node ]\n slow = nums[ slow ]\n end\n return slow\n end\n end\n end\nend", "def my_min_2(arr)\n\n smallest_value = arr[0] # O(1)\n\n arr.each do |ele1| # [ 0, 3, 5, 4, -5, 10, 1, 90 ] O(n)\n smallest_value = ele1 if ele1 <= smallest_value #O(1)\n end\n\n smallest_value #O(1)\n\nend", "def seesaw?(arr)\n left_sum = 0\n arr.each_index do |i| #O(n)\n if i > 0\n left_sum = arr[0...i].reduce(:+) #O(n)\n end\n if i < arr.size-1\n right_sum = arr[i+1..-1].reduce(:+); #O(n)\n else\n right_sum = 0\n end\n if left_sum == right_sum\n return true\n end\n end\n return false\nend", "def solution(a)\n counter = Hash.new(0)\n a.each do |elem|\n counter[elem] += 1\n end\n\n (1..a.size).each do |number|\n return 0 if counter[number] != 1\n end\n\n 1\nend", "def solution(a)\n # write your code in Ruby 2.2\n num_of_elements=a.length\n num_of_zeros=0\n tot_num_car_pairs=0\n a.each do |element|\n if element == 0\n num_of_zeros+=1\n else\n tot_num_car_pairs+=num_of_zeros\n end\n end\n return tot_num_car_pairs>1_000_000_000?-1:tot_num_car_pairs\nend", "def okay_two_sum?(arr, target)\n arr = arr.sort #n log n\n (0...arr.length).each do |i| #n\n search = bsearch(arr, target-arr[i]) # log n\n return true unless search.nil?\n end #n log n\n false\nend", "def naive_algorithm(arr)\n\tproduct = 0\n\tarr.each do |i|\n\t arr.each do |j|\n\t \tp = arr[i] * arr[j]\n\t \tproduct = p if product < p\n\t end\t\n\tend\t\t\n\tproduct\nend", "def main\n\n sum = 0\n\n (0..999).each do |i|\n sum += check(i)\n end\n\n puts \"Total - O(n) #{sum}\"\n\n # Needed to refresh following: https://en.wikipedia.org/wiki/Arithmetic_progression\n sum2 = sum_multiples(3, 1000) + sum_multiples(5, 1000) - sum_multiples(15, 1000)\n\n # Refreshed Big O too : http://stackoverflow.com/questions/487258/plain-english-explanation-of-big-o \n puts \"Total - O(1) #{sum2}\"\n\nend", "def largest_contiguous_subsum_2(list)# [2, 3, -6, 7, -6, 7]\n largest_num = list[0]#2 O(1)\n running_sum = list[0]#2 - 5 after entering loop. O(1)\n\n (1...list.length).each do |i| #O(n) \n running_sum = 0 if running_sum < 0 #O(1)\n running_sum += list[i] #O(1)\n largest_num = running_sum if running_sum > largest_num #O(1)\n end\n return largest_num #O(1)\nend", "def two_sum?(array, target)\n #O(n)\n hash = Hash.new(0)\n i = 1\n array.each do |ele|\n hash[ele] = i \n i += 1\n end\n hash.each_key do |k|\n return true if hash.has_key?(target - k) && hash[k] != hash[target - k]\n end\n false \nend", "def fast_lcss(arr)\n i_arr = []\n biggest = 0\n max_sub_arr = []\n arr.length.times do |x|\n arr.map do |ele1|\n i_arr += [ele1]\n sum = i_arr.inject(0) do |a, b|\n a + b\n end\n max_sub_arr = i_arr if sum > biggest\n biggest = sum if sum > biggest \n end\n i_arr = []\n arr.shift\n end\n max_sub_arr\nend", "def problem_57\n ret,n,d = 0,1,1\n 1000.times do |i|\n n,d = (n+2*d),(n+d)\n ret += 1 if n.to_s.length > d.to_s.length\n end\n ret\nend", "def solution(arr)\n zeros = 0\n pass_cars = 0\n\n (0...arr.size).each do |idx|\n arr[idx] == 0 ? zeros += 1 : pass_cars += zeros\n\n return -1 if pass_cars > 1000000000\n end\n\n pass_cars\nend", "def my_min_2(array)#O(n)\n array.inject do |acc, ele|#O(n)\n if acc < ele\n acc\n else\n ele\n end\n end\nend", "def my_min(list) \n\n list.each_with_index do |ele, i| #O(n)\n compare_arr = list[0...i] + list[i+1..-1] # O(2n) \n return ele if compare_arr.all? { |ele2| ele < ele2 } #O(n)\n end\n\n #time complexity = O(n^2) + O(2n)\n\nend", "def bad_two_sum?(arr, target)\n arr.each_with_index do |num1, idx1| #O(n)\n arr.each_with_index do |num2, idx2| #O(n)\n return true if idx2 > idx1 && num1 + num2 == target #O(1)\n end\n end\n false\nend", "def largest_contiguous_subsum(arr) #BigO of O(n)\n max = 0 \n current_sum = 0\n arr.each_with_index do |el,idx|\n if current_sum + el >= el \n current_sum += el \n else \n current_sum = el \n end \n max = current_sum if current_sum > max \n end \n max\nend", "def sub_sum(list)\n sub_arr = []\n (0...list.length).each do |i| #O(n)\n (i...list.length).each do |j| #O(n)\n sub_arr << list[i..j] if i <= j\n end\n end\n largest_continuous_sub_sum1(sub_arr)\nend", "def solution(a)\n n = a.size\n return 0 unless n > 2\n a.sort!\n\n (2..n - 1).each do |i|\n return 1 if a[i - 2] + a[i - 1] > a[i]\n end\n\n return 0\nend", "def solution(a)\n n = a.size\n a.sort!\n\n count = 0\n for i in 0...n-2 do\n k = i+2\n for j in i+1...n-1 do\n while k < n and a[i] + a[j] > a[k] do\n k += 1\n end\n count += k - j - 1\n end\n end\n count\nend", "def my_min_2(nums) # O(n)\n smallest = 0\n nums.each do |num|\n smallest = num if num < smallest\n end\n smallest\nend", "def solution(a)\n # write your code in Ruby 2.2\n n = a.length\n \n counter = Array.new(n+1, 0)\n \n a.each do |x|\n counter[x-1] += 1\n end\n \n return counter.index { |x| x == 0 } + 1\nend", "def solution(a)\n return 1 if a.empty?\n a.sort!\n return 1 if a.first > 1\n return a.first + 1 if a.length <2\n (0..(a.length)).each do |index|\n return a[index] + 1 if a[index] + 1 != a[index + 1]\n end\n return a.last + 1\nend", "def second_anagram?(word_1, word_2) #O(n^2)\n matching_word = word_2.split(\"\")\n\n word_1.each_char do |ele|\n if matching_word.index(ele) #evaluating the conditional\n matching_word.delete_at(matching_word.index(ele)) #n many times, do this\n end\n end\n\n matching_word.empty? #constant O(1)\nend", "def anagram4(str1, str2)\n count = Hash.new(0) #O(1)\n \n str1.each_char do |char| #O(n)\n count[char] += 1 #O(1)\n end\n\n str2.each_char do |char| #O(n)\n count[char] -= 1 #O(1)\n end\n\n # count.values.uniq.length == 1\n count.values.each do |v| #O(n)\n return false if v > 0\n end\n true\nend", "def two_sum?(arr, target_sum) # O(N)\n hash = Hash.new(0)\n count = Hash.new(0)\n\n arr.each do |num|\n hash[num] = target_sum - num\n count[num] += 1\n end\n\n hash.each do |key, value|\n if hash.has_key?(value) \n if key == value \n if count[value] > 1\n return true\n end\n else\n return true\n end\n end\n end\n\n false\nend", "def fds(n)\n\n # arr = []\n # (n + 1).times.each{|e| arr << e if e > 0}\n # arr.flat_map.reduce(:*)\n # arr.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n (1..n).to_a.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n\nend", "def naive(array)\n max = -10000\n for i in (0..array.length - 1)\n for j in (i..array.length - 1)\n total = array[i..j].inject { |m,k| m + k }\n max = total if total > max\n end\n end\n max\nend", "def running_time(array)\n cnt = 0\n (1...(array.length)).each do |x|\n y = x\n while y.positive?\n break unless array[y - 1] > array[y]\n\n temp_num = array[y]\n array[y] = array[y - 1]\n array[y - 1] = temp_num\n cnt += 1\n y -= 1\n end\n end\n cnt\nend", "def fifth_anagram?(word1, word2) # O(n)\n \n p \"Running fifth_anagram...\" \n\n start = Time.now\n \n hash1 = Hash.new(0)\n # hash2 = Hash.new(0)\n\n word1.each_char {|char| hash1[char] += 1}\n word2.each_char {|char| hash1[char] += 1}\n\n hash1.values.all? {|v| v.even?}\n\n\n # puts \"Took #{Time.now - start} seconds\"\n\n \nend", "def my_min_2(arr) #O(N)\n min_num = arr.first\n \n arr.each { |num| min_num = num if num < min_num }\n \n min_num\n end", "def solution(a)\n result = 0\n tmp_count = 0\n a.each_with_index do |val, idx|\n if val.zero?\n tmp_count += 1\n else\n result += tmp_count\n end\n end\n return result > 1000000000 ? -1 : result\nend", "def solution(a)\n # write your code in Ruby 2.2\n seen = {}\n\n a.each do |number|\n seen[number] = true\n end\n\n max = a.max\n\n for i in 1..(max + 1)\n return i unless seen[i]\n end\n\n 1\nend", "def solution(a)\n a.uniq.count\nend", "def solution(a)\r\n # write your code in Ruby 2.2\r\n \r\n arr =[]\r\n a.each_with_index{|el,i|\r\n \r\n if !arr.index(el) \r\n arr << el\r\n end\r\n \r\n }\r\n arr.count\r\nend", "def solution(a)\n accessed = Array.new(a.size + 1, nil)\n caterpillar_back = 0\n count = 0\n\n a.each_with_index do |x, caterpillar_front|\n if accessed[x] == nil\n accessed[x] = caterpillar_front\n else\n new_caterpillar_back = accessed[x] + 1\n first_part_size = caterpillar_front - caterpillar_back\n second_part_size = caterpillar_front - new_caterpillar_back\n count += first_part_size * (first_part_size + 1) / 2\n count -= (second_part_size) * (second_part_size + 1) / 2\n caterpillar_back.upto(new_caterpillar_back - 1) { |n| accessed[a[n]] = nil}\n accessed[x] = caterpillar_front\n caterpillar_back = new_caterpillar_back\n end\n end\n\n remaining_size = a.size - caterpillar_back\n count += (remaining_size) * (remaining_size + 1) / 2\n end", "def solution(a)\r\n # write your code in Ruby 2.2\r\n #trangular\r\n # a[0] = 10\r\n # a[2] = 5\r\n # a[4] = 8\r\n # 10 + 5 > 8\r\n # 5 + 8 > 10\r\n #8 + 10 > 5\r\n \r\n \r\n l=a.count\r\n \r\n i=0\r\n while(i<l) do\r\n j=i+1\r\n while(j<l) do\r\n k=j+1\r\n \r\n \r\n while(k<l) do\r\n if((a[i] + a[j] > a[k]) && (a[j] +a[k] > a[i]) && (a[k] + a[i] >a[j]))\r\n return 1\r\n end\r\n k+=1 \r\n end \r\n \r\n j+=1 \r\n end\r\n i+=1\r\n end\r\n \r\n return 0\r\n \r\nend", "def solution(a)\n # write your code in Ruby 2.2\n \n is_perm = 0\n \n n = a.length\n b = [0]*n\n \n \n a.each do |v|\n break if v > n \n break if b[v] == 1 \n b[v] = 1\n end\n \n sum = b.inject(:+)\n if sum == n\n is_perm = 1\n end\n \n is_perm\nend", "def solution(a)\n len = a.size\n unique = {}\n i = 0\n while i < len\n item = a[i]\n if unique.has_key?(item)\n unique[item] += 1\n else\n unique[item] = 1\n end\n i += 1\n end\n pairs = 0\n unique.each do |key,count|\n (1...count).step {|n| pairs += n }\n end\n return pairs > 1_000_000_000 ? 1_000_000_000 : pairs\nend", "def second_anagram?(word1, word2)\n p \"Running second_anagram?...\" \n\n start = Time.now\n word2 = word2.split(\"\") #O(n)\n word1.each_char do |char| #O(n)\n char_index = word2.index(char) #O(n)\n if char_index.nil? #O(1)\n return false #O(1)\n else\n word2.delete_at(char_index) #O(1)\n end\n end\n word2.empty? #O(1)\n p \"Took #{Time.now - start} seconds\"\nend", "def solution(a)\n length = a.length\n sum = (length + 1) * (length + 1 + 1) / 2\n\n sum - a.inject(0) { |acc, e| acc += e }\nend", "def canBeSum(n, array, cache)\n\ti = 0\n\twhile array[i] <= n / 2\n\t\tif cache[n-array[i]] # array.include?(n-array[i]) is OK, but very slow\n\t\t\treturn true\n\t\tend\n\n\t\ti += 1\n\tend\n\n\treturn false\nend", "def my_min2 # O(n) time complexity\n smallest = self.first\n self.each do |num|\n sleep(1)\n smallest = num if num < smallest \n end\n smallest\n end", "def seesaw2?(arr)\n left_sum = 0\n right_sum = arr.size > 1 ? arr[1..-1].reduce(:+) : 0\n\n arr.each_index do |i| #O(n)\n return true if left_sum == right_sum\n left_sum += arr[i]\n i < arr.size-1 ? right_sum -= arr[i+1] : right_sum = 0\n end\n return false\nend", "def two_sum(arr) #o(ns)\n set = Set.new\n arr.each{|el| set << el}\n arr.select{|el| set.include?(-1 * el)}\nend", "def solution(a)\n # write your code in Ruby 2.2\n sum = a.inject(:+)\n acc = 0\n\n min = 99999999\n a[0..-2].each do |n|\n sum -= n\n acc += n\n\n min = [(acc - sum).abs, min].min\n end\n min\nend", "def second_anagram?(str1, str2) #quadratic\r\n\r\n split = str2.split(\"\") #O(n)\r\n str1.split(\"\").each do |c| #O(n) <\r\n split.delete(c) #O(n) ^ O(n^2) when nested in above each block\r\n end\r\n\r\n split.empty?\r\nend", "def move_zeros(array)\n zero_count = 0\n # O(n)\n array.each do |num|\n\n zero_count += 1 if num == 0\n end\n\n # O(n)\n array = array.select { |num| num != 0 }\n \n # O(1)\n zero_count.times do\n array += [0]\n end\n\n array\nend", "def three_sum_fast(arr)\n arr = merge_sort(arr)\n count = 0\n\n (0..arr.length - 1).each { |i|\n (i + 1..arr.length - 1).each { |j|\n if bin_search(arr, -arr[i] - arr[j]) > j\n count += 1\n end\n }\n }\n count\nend", "def better_subsum(arr) # o(n)\n largest = 0 \n sum = 0 \n i = 0 \n j = 0\n\n while i != arr.length-1\n largest += arr[j]\n sum = largest if largest > sum \n if j == arr.length-1 \n i+=1 \n j = i \n largest = 0 \n else\n j+=1\n end \n end \n sum \n end", "def fourth_anagram?(str1, str2)\n\n str1_hash = Hash.new {|h,k| h[k] = 0 } # O(1)\n str2_hash = Hash.new {|h,k| h[k] = 0 } # O(1)\n\n str1.each_char do |char| # O(n)\n str1_hash[char] += 1\n end\n\n str2.each_char do |char| # O(n)\n str2_hash[char] += 1\n end\n\n str1_hash == str2_hash # O(1)\n\nend", "def equal(arr)\n size = arr.size\n hash = Hash.new{|h,k| h[k] = []}\n (0...size).each do |i|\n (i + 1...size - 1).each do |j|\n sum = arr[i] + arr[j]\n if hash.has_key?(sum)\n values = hash[sum]\n values << i\n values << j\n return values\n else\n hash[sum] = [i, j]\n end\n end\n end\nend", "def hash_two_sum(arr,target_sum)\n #creates a new hash with each element that is satisfying the target_sum\n hash = Hash.new(0) #{|h,k| h[k] = []}\n (0...arr.length).each { |i| hash[i] = arr[i]} #O(n)\nend", "def solution(x, a)\r\n # write your code in Ruby 2.2\r\n arr=[];\r\n i=0;\r\n l=a.count\r\n \r\n while(arr.count<=x)\r\n \r\n if(arr[i].nil?)\r\n arr << i\r\n end\r\n \r\n i+=1\r\n end\r\n i\r\nend", "def find_duplicate_space(nums)\n # sort nums first (lgn), then check for dups by iterate over (n)\n last_seen = 0\n nums.sort!.each do |num|\n return num if last_seen == num\n last_seen = num\n end\nend", "def two_sum_v3?(arr, target) \n hash = Hash.new\n arr.each { |ele| hash[ele] = ele } #o(n)\n arr.each do |ele| #o(n)\n search_value = target - ele\n return true if !hash[search_value].nil? && hash[search_value] != ele\n end\n false\nend", "def solution(a)\n a.sort!\n a.each_with_index do |element, index|\n return 0 if element != index + 1\n end\n 1\nend", "def find_unsorted_subarray(nums)\n \nend", "def better_sum1(arr, target) # this one is going to return true or false\n pairs = Set.new\n\n arr.each do |ele|\n if pairs.include?(ele)\n return true\n else\n pairs << target - ele\n end\n end\n false\nend", "def solution(a)\n return 0 if a.uniq.size != a.size\n \n max = a.size \n sum = (1 + max) * max / 2\n \n array_sum = a.inject(0, &:+) \n sum == array_sum ? 1 : 0 \nend", "def efficient_contiguous_subsum(list)\n current_sum = list[0] #0\n largest_sum = list[0] #5\n # debugger\n (1...list.length).each do |i| \n if current_sum + list[i] > 0 \n current_sum += list[i] \n largest_sum = current_sum if current_sum > largest_sum\n else \n current_sum = 0\n end \n end \n largest_sum\nend", "def two_sum?(arr, target_sum)\n hash = {}\n arr.each do |ele|\n diff = target_sum - ele\n return true if hash.has_key?(diff) # O(1), or constant time\n hash[ele] = 0\n end\n false\nend", "def find3(a, X)\n # scan through array\n # build hash storing complement in each key\n complements = {}\n a.each_with_index do |val, ind|\n if complements[X - val]\n complements[X - val].push(ind)\n else\n complements[X - val] = [ind]\n end\n end\n\n # scan through the array again\n # get complement\n # for each value scan the remainder of the arrray\n # for a value such taht a + b = the complement\n\n # for each character we have built a dictionary such that, we can find\n # x = a + complement\n\n # [1, 2, 3]\n # 1 + 2 = 3\n # 1 + 3 = 4 =>\n\n # for each value in the array (a) look at all following values (b) and see if a + b\n # is in the dictionary, if it is, check that their indices do not collide with the index\n # stored at dict(a+b)\n\n a.each_with_index do |va, i|\n a.each_with_index do |vb, j|\n break if i == j\n\n complement = va + vb\n indices = complements[complement]\n\n indices.each do |z|\n # every index is unique\n return [i, j, z] unless z == i || z == j\n end\n end\n end\n\n return nil\nend", "def largest_cont_subsum_fast(list)\n # for constant size to be true, you cant create any variables\n # whose memory size depends on the size of the input\n curr_sum = list[0]\n largest_sum = list[0]\n\n # we know there are n^2 potential, so if we ever check all of them\n # it must be n^2\n\n # there must be a way to find the max without checking every subarray\n list[1..-1].each do |ele|\n # debugger\n if curr_sum > largest_sum\n largest_sum = curr_sum\n end\n\n if curr_sum < 0\n curr_sum = 0\n end\n\n curr_sum += ele\n\n end\n\n # debugger\n return [largest_sum, curr_sum].max\n\nend", "def solution(a)\n s= a.sort\n 0.step(s.size - 1).inject(0) do |result, x|\n z= x+2\n (x+1).step(s.size - 1).inject(result) do |acc, y|\n z+=1 while z < s.size && s[x] + s[y] > s[z]\n acc += z-y-1\n end\n end\nend", "def largest_contiguous_subsum1(list)\n p Time.now\n sub_arrays = []\n list.each_index do |i|\n list.each_index do |j|\n next if j < i\n sub_arrays << list[i..j]\n end\n end\n sub_arrays.map{|numbers| numbers.inject(:+)}.max\n p Time.now\nend", "def fourth_anagram?(str1, str2) # O(n)\n hash = Hash.new(0) # 1\n str1.each_char {|char| hash[char] += 1} # n\n str2.each_char {|char| hash[char] -= 1} # n\n\n hash.values.all?(0) # n\n\nend", "def awesome(arr, target)\n hash = Hash.new(0)\n i = 0\n j = i + 1\n while i < arr.size\n hash[arr[i] + arr[j]] += 1 \n if j < arr.size\n j += 1\n else\n i += 1\n if j = i + 1 > arr.length\n j = i \n else\n j = i + 1\n \n end\n\n end\n \n end\n return true if hash[target] >= 1\n false\nend", "def largest_contiguous_subsum2(list)\n # O(N) ==> Time\n # O(1) ==> Space\n largest = list.first\n curr = list.first\n\n len = list.length\n (1...len).each do |i|\n curr = 0 if curr < 0 \n curr += list[i]\n largest = curr if curr > largest\n end\n largest\nend", "def solution(a)\n counts = {}\n for i in a\n counts[i] ||= 0\n counts[i] += 1\n end\n for i in (1..a.count)\n return 0 if counts[i] != 1\n end\n return 1\nend", "def my_min1(arr)\n arr.each do |el1| #O(n)\n if arr.all? {|el2| el1 <= el2 } #O(n + 1)\n return el1\n end\n end \nend", "def first_anagram?(str1, str2)\r\n possible = str1.split(\"\").permutation.to_a #O(n!)\r\n possible.map! {|ele| ele.join(\"\")} #O(n)\r\n possible.include?(str2) #O(n)\r\nend", "def okay_two_sum?(arr, target)\n sorted = arr.sort # n log n => quicksort => is nlogn DOMINANT\n sorted.each_with_index do |num, i| # => O(n)\n # return true if sorted[i] + sorted[-1 - i] == target\n return true if sorted[i + 1 .. - 1].bsearch {|number| target - num <=> number} # => O(log(n))\n # ASK TA ABOUT BSEARCH\n # bsearch {|ele| pivot <=> ele}\n end\n false\nend", "def findDiffSquares(n)\n sum = 0\n (1..n).each { |i|\n (1..n).each { |j|\n sum += i*j unless i == j\n }\n }\n sum\nend", "def solution_slow_2(n, p, q)\n sieve = sieve_of_erathosteneses(n)\n # puts \"sieve:#{sieve}\"\n semi = semiprimes(n, sieve)\n # puts \"sp:#{semi}\"\n prefix = [0,0,0,0,1]\n 5.upto(n) do |x|\n if semi.include? x \n prefix << prefix.last + 1\n else\n prefix << prefix.last\n end\n end\n # puts \"prefix:#{prefix}\"\n\n queries = [p,q].transpose\n\n\n res = queries.map do |query|\n prefix[query.last] - prefix[query.first - 1]\n end\n\n # puts \"res:#{res}\"\n\n res\n end", "def stones(n, a, b)\n ar=[0]\n (n-1).times do |val|\n tmp=[]\n ar.each do |v|\n tmp << v+a if !tmp.include?(v+a)\n tmp << v+b if !tmp.include?(v+b)\n end\n ar=tmp\n end\n ar.sort\nend", "def checkArray(a)\n\tn = a.length-1\n\tcount = 0\n\tfor i in 0..n do\n\t\tfor j in (i+1)..n do\n\t\t\tfor k in (j+1)..n do\n\t\t\t\tif (a[i] + a[j] + a[k] == 0)\n\t\t\t\t\tcount += 1\n\t\t\t\t\treturn count;\n\t\t\t\telse\n\t\t\t\t\treturn count;\n\t\t\t\tend\n\t\t\tend\n\t\tend\n\tend\nend", "def largest_contiguous_sub_sum2(arr)\n #one varable tracks largest sum\n #one variable tracks current sum\n #O(n) + O(1)\n # list = [2, 3, -6, 7, -6, 7]\n\n # largest_sum= arr.first\n\n # i = 0\n # arr_end = true\n\n # while arr_end\n # current_sum = arr[i]\n # if arr[i+1] == nil\n # arr_end = false\n # puts \"This is current sum: #{current_sum}\"\n # else\n # if current_sum > largest_sum\n # current_sum += arr[i+1]\n # largest_sum = current_sum\n # end\n # end\n # if i < arr.length\n # arr_end = true\n # i += 1\n # end\n # end\n # largest_sum\n \n\n\n # arr.each_with_index do |ele, idx|\n # if ele > largest_sum\n # largest_sum = ele\n # end\n\n # i = idx\n # sum = ele\n # while i < arr.length - 1\n # if sum <= sum + arr[i+1]\n # largest_sum = sum + arr[i+1]\n # end\n # sum = sum + arr[i+1]\n # i+=1\n # end\n # end\n # largest_sum\n\nend", "def fourth_anagram?(str1, str2) # .338 O(n)\n h1 = Hash.new(0)\n h2 = Hash.new(0)\n str1.each_char { |c1| h1[c1] += 1}\n str2.each_char { |c2| h2[c2] += 1}\n h1 == h2\nend", "def my_min(array) # O(n) - Linear\n counter = array[0]\n\n (1...array.length).each do |i|\n if counter > array[i]\n counter = array[i]\n end\n end\n counter\nend", "def sum_upon_sums(array)\n # Step 0: initialize variables => O(1)\n max = -1\n sum = 0\n\n # Step 1: Get Max and Sum => O(n)\n array.each do |num|\n max = num if num >= max\n sum += num\n end\n\n # Step 2: Get summation => O(1)\n summation = max * (max + 1) / 2\n\n # Step 3: Return Missing value by subtracting summation and sum => O(1)\n summation - sum\nend", "def lcs_phase_two(arr)\n return arr.max if arr.max < 0 #edge case\n\n current = 0\n largest = 0\n\n arr.each do |ele|\n current += ele\n current = 0 if current < 0 #bookmark\n largest = current if largest < current\n end\n\n largest\nend", "def fast_hash_additive_find(arr, target)\n lookup_table = Hash.new\n\n arr.each do |element|\n return true if lookup_table[target - element]\n if lookup_table[element]\n lookup_table[element] += 1\n else\n lookup_table[element] = 1\n end\n end\n\n return false\n end", "def hardcore_two_sum?(arr, target)\n nums = {}\n arr.each{ |n| nums[n] = n }\n\n nums.each do |n,_|\n needed = target - n\n return true if !nums[needed].nil? && nums[needed] != n\n end\n\n false\nend", "def cost(ar)\n c = 0\n for pd in ar\n for i, n in pd\n c += i*n + n*2\n end\n end\n c -= 2\nend", "def euler29(n)\n terms = []\n 2.upto(n) do |i|\n 2.upto(n) do |j|\n if terms.include?(i ** j) == false\n terms << i ** j\n end\n end\n end\n \n terms.length\nend", "def bf_inversions arr\n count = 0\n (0...arr.size).each do |i|\n ((i+1)...arr.size).each do |j|\n count+=1 if arr[i] > arr[j]\n end\n end\n count\nend", "def find_unique_elements(arr)\n \nend", "def get_products_but_self(arr)\n # raise 'need more than itself to get all other products' if arr.length < 2\n # result = [] \n # #first just try to come up with a way that works even if it's slow \n # arr.each_with_index do |el,idx|\n # arr[idx] = 1 \n # result << arr.reduce(:*) O(n) in a O(n) loop \n # arr[idx] = el \n # end \n # result This works, Time: O(n^2) space:O(n), created 1 new array Now try to optimize \n \n # Faster way, trying greedy way, constanly update the variable\n products_before_el = [1] # when we are at the first el, the product before that we use 1\n products_after_el = [] #we know that product after the last el, we can use 1, and since\n #we can only multiply, we backwards from the last el for products after el\n end_idx = arr.length - 1 \n products_after_el[end_idx] = 1\n (1..end_idx).each do |i| # time O(n)\n products_before_el[i] = products_before_el[i-1]*arr[i-1]\n products_after_el[end_idx - i] = products_after_el[end_idx - i + 1]*arr[end_idx - i +1]\n end \n result = []\n arr.length.times do |i| \n result[i] = products_before_el[i] * products_after_el[i]\n end \n result \n\n # Can we improve on space? \nend" ]

[ "0.64688283", "0.63178664", "0.6267248", "0.62198216", "0.62003064", "0.6068516", "0.60298127", "0.59856176", "0.59822917", "0.598102", "0.5910868", "0.5903023", "0.58936894", "0.5890103", "0.5879472", "0.58556885", "0.58543235", "0.5849014", "0.5835677", "0.57822996", "0.5779699", "0.57748854", "0.5774721", "0.5767835", "0.57464397", "0.57251805", "0.5723592", "0.57145303", "0.56900626", "0.56884664", "0.56832945", "0.56797016", "0.56791097", "0.56635123", "0.5662269", "0.56566966", "0.5655867", "0.5651081", "0.5648561", "0.56481177", "0.56458753", "0.56358856", "0.56207335", "0.56183076", "0.5616148", "0.56144124", "0.56057686", "0.5592543", "0.5587115", "0.5582902", "0.55818653", "0.55811346", "0.5572391", "0.557126", "0.5570052", "0.5563378", "0.55596167", "0.5556394", "0.5553933", "0.5552467", "0.5552357", "0.5551158", "0.5550001", "0.5526713", "0.55242395", "0.5522795", "0.5511609", "0.55062497", "0.550335", "0.55030596", "0.5500208", "0.5496503", "0.54927975", "0.54906374", "0.5489878", "0.5483197", "0.54818785", "0.547454", "0.54701877", "0.5469552", "0.54682666", "0.54626334", "0.54616946", "0.54614156", "0.5461224", "0.54606897", "0.5457935", "0.5457248", "0.5454806", "0.54475284", "0.5445509", "0.54435945", "0.5442592", "0.54347587", "0.54278564", "0.5426472", "0.54249805", "0.54202795", "0.5403773", "0.5402338", "0.53939664" ]

[ "def find_dublicate(array)\n sum = 1000000*(1000000+1)/2 # (n*(n+1))/2\n array.each do |el| \n sum -= el\n end\n return sum\nend", "def solution(a)\r\n n=a.size\r\n i=1\r\n for k in a.sort do\r\n\tif k!=i \r\n\t then \r\n\t return 0\r\n\t break;\r\n\tend\r\n i+=1;\r\n end\t\r\n return 1 if a.inject(:+) ==n*(n+1)/2;\r\nend", "def my_min_2(list)\r\n min = 0 # O(1)\r\n \r\n list.each do |ele| # O(n) \r\n if ele < min # O(1)\r\n min = ele # O(1)\r\n end\r\n end\r\n min # O(1) \r\nend", "def largest_subsum(list)\n max = list[0] # O(1)\n current_sum = list[0] # O(1)\n\n (1...list.length).each do |i| # O(n)\n # debugger\n if current_sum < 0 # O(1)\n current_sum = 0 # O(1)\n end \n current_sum += list[i] # O(1)\n if current_sum > max # O(1)\n max = current_sum # O(1)\n end\n end\n\n max # O(1)\n\nend", "def third_anagram?(str1, str2)\n beginning_time = Time.now\n str1.split(\"\").sort == str2.split(\"\").sort #O(nlogn)\n \"Time complexity of first_anagram: #{(Time.now - beginning_time)}\"\nend", "def sorted_squares(nums)\n # This takes O(n)\n nums.map! { |num| num**2 }\n # This can take Ο(n logn)\n bubble_sort(nums)\nend", "def three_sum_fastest(arr)\n count = 0\n\n (0..arr.length - 2).each { |i|\n set = Set.new\n\n (i + 1..arr.length - 1).each { |j|\n if set.include?(-arr[i] - arr[j])\n count += 1\n end\n\n set.add(arr[j])\n }\n }\n count\nend", "def fourth_anagram?(str1, str2)\n hash1 = Hash.new(0)#O(1)\n beginning_time = Time.now\n str1.each_char {|char| hash1[char]+=1}#O(n)\n str2.each_char {|char| hash1[char]-=1}#O(n)\n hash1.all? {|_, v| v.zero?}#O(n)\n \"Time complexity of first_anagram: #{(Time.now - beginning_time)}\"\nend", "def solution(a)\n n = a.size\n passing_cars = 0\n\n suffix_sums = Array.new(n + 1, 0)\n\n a.reverse.each_with_index do |elem, i|\n suffix_sums[i + 1] = suffix_sums[i] + elem\n end\n suffix_sums.reverse!\n\n a.each_with_index do |car, i|\n if car == 0\n passing_cars += suffix_sums[i]\n end\n end\n\n passing_cars > 1_000_000_000 ? -1 : passing_cars\nend", "def solution(m, a)\n n = a.count\n result = 0\n front = 0\n numbers = Array.new(m + 1, false)\n n.times { |back|\n while front < n and not numbers[a[front] - 1]\n numbers[a[front] - 1] = true\n front += 1\n result += front - back\n return 1_000_000_000 if result >= 1_000_000_000\n end\n numbers[a[back] - 1] = false\n }\n result\nend", "def fibonacci(n)\n return fib_helper([0, 1], 2, n)\n # if you'd like to test what i THINK is an O(1) space complexity solution.....\n # i did run this through the tests and it SHOULD work:\n # return faster_fib_helper([0, 1], 2, n)\nend", "def solution(a)\n # In production environment this will be my solution:\n # a.uniq.size\n #\n # But since this is a coding challenge, my assumption\n # is that you're looking for a by-hand O(N*logN) solution\n\n return 0 if a.empty?\n\n n = a.size\n ary = a.sort\n uniques = 1\n (1...n).each do |i|\n uniques += 1 if ary[i] != ary[i - 1]\n end\n uniques\nend", "def find_duplicate(nums)\n if !nums or nums.size == 0\n return nil\n else\n fast = nums[ 0 ]\n slow = nums[ 0 ]\n while true\n fast = nums[ fast ]\n fast = nums[ fast ]\n slow = nums[ slow ]\n if fast == slow\n new_node = nums[ 0 ]\n while new_node != slow\n new_node = nums[ new_node ]\n slow = nums[ slow ]\n end\n return slow\n end\n end\n end\nend", "def my_min_2(arr)\n\n smallest_value = arr[0] # O(1)\n\n arr.each do |ele1| # [ 0, 3, 5, 4, -5, 10, 1, 90 ] O(n)\n smallest_value = ele1 if ele1 <= smallest_value #O(1)\n end\n\n smallest_value #O(1)\n\nend", "def seesaw?(arr)\n left_sum = 0\n arr.each_index do |i| #O(n)\n if i > 0\n left_sum = arr[0...i].reduce(:+) #O(n)\n end\n if i < arr.size-1\n right_sum = arr[i+1..-1].reduce(:+); #O(n)\n else\n right_sum = 0\n end\n if left_sum == right_sum\n return true\n end\n end\n return false\nend", "def solution(a)\n counter = Hash.new(0)\n a.each do |elem|\n counter[elem] += 1\n end\n\n (1..a.size).each do |number|\n return 0 if counter[number] != 1\n end\n\n 1\nend", "def solution(a)\n # write your code in Ruby 2.2\n num_of_elements=a.length\n num_of_zeros=0\n tot_num_car_pairs=0\n a.each do |element|\n if element == 0\n num_of_zeros+=1\n else\n tot_num_car_pairs+=num_of_zeros\n end\n end\n return tot_num_car_pairs>1_000_000_000?-1:tot_num_car_pairs\nend", "def okay_two_sum?(arr, target)\n arr = arr.sort #n log n\n (0...arr.length).each do |i| #n\n search = bsearch(arr, target-arr[i]) # log n\n return true unless search.nil?\n end #n log n\n false\nend", "def naive_algorithm(arr)\n\tproduct = 0\n\tarr.each do |i|\n\t arr.each do |j|\n\t \tp = arr[i] * arr[j]\n\t \tproduct = p if product < p\n\t end\t\n\tend\t\t\n\tproduct\nend", "def main\n\n sum = 0\n\n (0..999).each do |i|\n sum += check(i)\n end\n\n puts \"Total - O(n) #{sum}\"\n\n # Needed to refresh following: https://en.wikipedia.org/wiki/Arithmetic_progression\n sum2 = sum_multiples(3, 1000) + sum_multiples(5, 1000) - sum_multiples(15, 1000)\n\n # Refreshed Big O too : http://stackoverflow.com/questions/487258/plain-english-explanation-of-big-o \n puts \"Total - O(1) #{sum2}\"\n\nend", "def largest_contiguous_subsum_2(list)# [2, 3, -6, 7, -6, 7]\n largest_num = list[0]#2 O(1)\n running_sum = list[0]#2 - 5 after entering loop. O(1)\n\n (1...list.length).each do |i| #O(n) \n running_sum = 0 if running_sum < 0 #O(1)\n running_sum += list[i] #O(1)\n largest_num = running_sum if running_sum > largest_num #O(1)\n end\n return largest_num #O(1)\nend", "def two_sum?(array, target)\n #O(n)\n hash = Hash.new(0)\n i = 1\n array.each do |ele|\n hash[ele] = i \n i += 1\n end\n hash.each_key do |k|\n return true if hash.has_key?(target - k) && hash[k] != hash[target - k]\n end\n false \nend", "def fast_lcss(arr)\n i_arr = []\n biggest = 0\n max_sub_arr = []\n arr.length.times do |x|\n arr.map do |ele1|\n i_arr += [ele1]\n sum = i_arr.inject(0) do |a, b|\n a + b\n end\n max_sub_arr = i_arr if sum > biggest\n biggest = sum if sum > biggest \n end\n i_arr = []\n arr.shift\n end\n max_sub_arr\nend", "def problem_57\n ret,n,d = 0,1,1\n 1000.times do |i|\n n,d = (n+2*d),(n+d)\n ret += 1 if n.to_s.length > d.to_s.length\n end\n ret\nend", "def solution(arr)\n zeros = 0\n pass_cars = 0\n\n (0...arr.size).each do |idx|\n arr[idx] == 0 ? zeros += 1 : pass_cars += zeros\n\n return -1 if pass_cars > 1000000000\n end\n\n pass_cars\nend", "def my_min_2(array)#O(n)\n array.inject do |acc, ele|#O(n)\n if acc < ele\n acc\n else\n ele\n end\n end\nend", "def my_min(list) \n\n list.each_with_index do |ele, i| #O(n)\n compare_arr = list[0...i] + list[i+1..-1] # O(2n) \n return ele if compare_arr.all? { |ele2| ele < ele2 } #O(n)\n end\n\n #time complexity = O(n^2) + O(2n)\n\nend", "def bad_two_sum?(arr, target)\n arr.each_with_index do |num1, idx1| #O(n)\n arr.each_with_index do |num2, idx2| #O(n)\n return true if idx2 > idx1 && num1 + num2 == target #O(1)\n end\n end\n false\nend", "def largest_contiguous_subsum(arr) #BigO of O(n)\n max = 0 \n current_sum = 0\n arr.each_with_index do |el,idx|\n if current_sum + el >= el \n current_sum += el \n else \n current_sum = el \n end \n max = current_sum if current_sum > max \n end \n max\nend", "def sub_sum(list)\n sub_arr = []\n (0...list.length).each do |i| #O(n)\n (i...list.length).each do |j| #O(n)\n sub_arr << list[i..j] if i <= j\n end\n end\n largest_continuous_sub_sum1(sub_arr)\nend", "def solution(a)\n n = a.size\n return 0 unless n > 2\n a.sort!\n\n (2..n - 1).each do |i|\n return 1 if a[i - 2] + a[i - 1] > a[i]\n end\n\n return 0\nend", "def solution(a)\n n = a.size\n a.sort!\n\n count = 0\n for i in 0...n-2 do\n k = i+2\n for j in i+1...n-1 do\n while k < n and a[i] + a[j] > a[k] do\n k += 1\n end\n count += k - j - 1\n end\n end\n count\nend", "def my_min_2(nums) # O(n)\n smallest = 0\n nums.each do |num|\n smallest = num if num < smallest\n end\n smallest\nend", "def solution(a)\n # write your code in Ruby 2.2\n n = a.length\n \n counter = Array.new(n+1, 0)\n \n a.each do |x|\n counter[x-1] += 1\n end\n \n return counter.index { |x| x == 0 } + 1\nend", "def solution(a)\n return 1 if a.empty?\n a.sort!\n return 1 if a.first > 1\n return a.first + 1 if a.length <2\n (0..(a.length)).each do |index|\n return a[index] + 1 if a[index] + 1 != a[index + 1]\n end\n return a.last + 1\nend", "def second_anagram?(word_1, word_2) #O(n^2)\n matching_word = word_2.split(\"\")\n\n word_1.each_char do |ele|\n if matching_word.index(ele) #evaluating the conditional\n matching_word.delete_at(matching_word.index(ele)) #n many times, do this\n end\n end\n\n matching_word.empty? #constant O(1)\nend", "def anagram4(str1, str2)\n count = Hash.new(0) #O(1)\n \n str1.each_char do |char| #O(n)\n count[char] += 1 #O(1)\n end\n\n str2.each_char do |char| #O(n)\n count[char] -= 1 #O(1)\n end\n\n # count.values.uniq.length == 1\n count.values.each do |v| #O(n)\n return false if v > 0\n end\n true\nend", "def two_sum?(arr, target_sum) # O(N)\n hash = Hash.new(0)\n count = Hash.new(0)\n\n arr.each do |num|\n hash[num] = target_sum - num\n count[num] += 1\n end\n\n hash.each do |key, value|\n if hash.has_key?(value) \n if key == value \n if count[value] > 1\n return true\n end\n else\n return true\n end\n end\n end\n\n false\nend", "def fds(n)\n\n # arr = []\n # (n + 1).times.each{|e| arr << e if e > 0}\n # arr.flat_map.reduce(:*)\n # arr.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n (1..n).to_a.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n\nend", "def naive(array)\n max = -10000\n for i in (0..array.length - 1)\n for j in (i..array.length - 1)\n total = array[i..j].inject { |m,k| m + k }\n max = total if total > max\n end\n end\n max\nend", "def running_time(array)\n cnt = 0\n (1...(array.length)).each do |x|\n y = x\n while y.positive?\n break unless array[y - 1] > array[y]\n\n temp_num = array[y]\n array[y] = array[y - 1]\n array[y - 1] = temp_num\n cnt += 1\n y -= 1\n end\n end\n cnt\nend", "def fifth_anagram?(word1, word2) # O(n)\n \n p \"Running fifth_anagram...\" \n\n start = Time.now\n \n hash1 = Hash.new(0)\n # hash2 = Hash.new(0)\n\n word1.each_char {|char| hash1[char] += 1}\n word2.each_char {|char| hash1[char] += 1}\n\n hash1.values.all? {|v| v.even?}\n\n\n # puts \"Took #{Time.now - start} seconds\"\n\n \nend", "def my_min_2(arr) #O(N)\n min_num = arr.first\n \n arr.each { |num| min_num = num if num < min_num }\n \n min_num\n end", "def solution(a)\n result = 0\n tmp_count = 0\n a.each_with_index do |val, idx|\n if val.zero?\n tmp_count += 1\n else\n result += tmp_count\n end\n end\n return result > 1000000000 ? -1 : result\nend", "def solution(a)\n # write your code in Ruby 2.2\n seen = {}\n\n a.each do |number|\n seen[number] = true\n end\n\n max = a.max\n\n for i in 1..(max + 1)\n return i unless seen[i]\n end\n\n 1\nend", "def solution(a)\n a.uniq.count\nend", "def solution(a)\r\n # write your code in Ruby 2.2\r\n \r\n arr =[]\r\n a.each_with_index{|el,i|\r\n \r\n if !arr.index(el) \r\n arr << el\r\n end\r\n \r\n }\r\n arr.count\r\nend", "def solution(a)\n accessed = Array.new(a.size + 1, nil)\n caterpillar_back = 0\n count = 0\n\n a.each_with_index do |x, caterpillar_front|\n if accessed[x] == nil\n accessed[x] = caterpillar_front\n else\n new_caterpillar_back = accessed[x] + 1\n first_part_size = caterpillar_front - caterpillar_back\n second_part_size = caterpillar_front - new_caterpillar_back\n count += first_part_size * (first_part_size + 1) / 2\n count -= (second_part_size) * (second_part_size + 1) / 2\n caterpillar_back.upto(new_caterpillar_back - 1) { |n| accessed[a[n]] = nil}\n accessed[x] = caterpillar_front\n caterpillar_back = new_caterpillar_back\n end\n end\n\n remaining_size = a.size - caterpillar_back\n count += (remaining_size) * (remaining_size + 1) / 2\n end", "def solution(a)\r\n # write your code in Ruby 2.2\r\n #trangular\r\n # a[0] = 10\r\n # a[2] = 5\r\n # a[4] = 8\r\n # 10 + 5 > 8\r\n # 5 + 8 > 10\r\n #8 + 10 > 5\r\n \r\n \r\n l=a.count\r\n \r\n i=0\r\n while(i<l) do\r\n j=i+1\r\n while(j<l) do\r\n k=j+1\r\n \r\n \r\n while(k<l) do\r\n if((a[i] + a[j] > a[k]) && (a[j] +a[k] > a[i]) && (a[k] + a[i] >a[j]))\r\n return 1\r\n end\r\n k+=1 \r\n end \r\n \r\n j+=1 \r\n end\r\n i+=1\r\n end\r\n \r\n return 0\r\n \r\nend", "def solution(a)\n # write your code in Ruby 2.2\n \n is_perm = 0\n \n n = a.length\n b = [0]*n\n \n \n a.each do |v|\n break if v > n \n break if b[v] == 1 \n b[v] = 1\n end\n \n sum = b.inject(:+)\n if sum == n\n is_perm = 1\n end\n \n is_perm\nend", "def solution(a)\n len = a.size\n unique = {}\n i = 0\n while i < len\n item = a[i]\n if unique.has_key?(item)\n unique[item] += 1\n else\n unique[item] = 1\n end\n i += 1\n end\n pairs = 0\n unique.each do |key,count|\n (1...count).step {|n| pairs += n }\n end\n return pairs > 1_000_000_000 ? 1_000_000_000 : pairs\nend", "def second_anagram?(word1, word2)\n p \"Running second_anagram?...\" \n\n start = Time.now\n word2 = word2.split(\"\") #O(n)\n word1.each_char do |char| #O(n)\n char_index = word2.index(char) #O(n)\n if char_index.nil? #O(1)\n return false #O(1)\n else\n word2.delete_at(char_index) #O(1)\n end\n end\n word2.empty? #O(1)\n p \"Took #{Time.now - start} seconds\"\nend", "def solution(a)\n length = a.length\n sum = (length + 1) * (length + 1 + 1) / 2\n\n sum - a.inject(0) { |acc, e| acc += e }\nend", "def canBeSum(n, array, cache)\n\ti = 0\n\twhile array[i] <= n / 2\n\t\tif cache[n-array[i]] # array.include?(n-array[i]) is OK, but very slow\n\t\t\treturn true\n\t\tend\n\n\t\ti += 1\n\tend\n\n\treturn false\nend", "def my_min2 # O(n) time complexity\n smallest = self.first\n self.each do |num|\n sleep(1)\n smallest = num if num < smallest \n end\n smallest\n end", "def seesaw2?(arr)\n left_sum = 0\n right_sum = arr.size > 1 ? arr[1..-1].reduce(:+) : 0\n\n arr.each_index do |i| #O(n)\n return true if left_sum == right_sum\n left_sum += arr[i]\n i < arr.size-1 ? right_sum -= arr[i+1] : right_sum = 0\n end\n return false\nend", "def two_sum(arr) #o(ns)\n set = Set.new\n arr.each{|el| set << el}\n arr.select{|el| set.include?(-1 * el)}\nend", "def solution(a)\n # write your code in Ruby 2.2\n sum = a.inject(:+)\n acc = 0\n\n min = 99999999\n a[0..-2].each do |n|\n sum -= n\n acc += n\n\n min = [(acc - sum).abs, min].min\n end\n min\nend", "def second_anagram?(str1, str2) #quadratic\r\n\r\n split = str2.split(\"\") #O(n)\r\n str1.split(\"\").each do |c| #O(n) <\r\n split.delete(c) #O(n) ^ O(n^2) when nested in above each block\r\n end\r\n\r\n split.empty?\r\nend", "def move_zeros(array)\n zero_count = 0\n # O(n)\n array.each do |num|\n\n zero_count += 1 if num == 0\n end\n\n # O(n)\n array = array.select { |num| num != 0 }\n \n # O(1)\n zero_count.times do\n array += [0]\n end\n\n array\nend", "def three_sum_fast(arr)\n arr = merge_sort(arr)\n count = 0\n\n (0..arr.length - 1).each { |i|\n (i + 1..arr.length - 1).each { |j|\n if bin_search(arr, -arr[i] - arr[j]) > j\n count += 1\n end\n }\n }\n count\nend", "def better_subsum(arr) # o(n)\n largest = 0 \n sum = 0 \n i = 0 \n j = 0\n\n while i != arr.length-1\n largest += arr[j]\n sum = largest if largest > sum \n if j == arr.length-1 \n i+=1 \n j = i \n largest = 0 \n else\n j+=1\n end \n end \n sum \n end", "def fourth_anagram?(str1, str2)\n\n str1_hash = Hash.new {|h,k| h[k] = 0 } # O(1)\n str2_hash = Hash.new {|h,k| h[k] = 0 } # O(1)\n\n str1.each_char do |char| # O(n)\n str1_hash[char] += 1\n end\n\n str2.each_char do |char| # O(n)\n str2_hash[char] += 1\n end\n\n str1_hash == str2_hash # O(1)\n\nend", "def equal(arr)\n size = arr.size\n hash = Hash.new{|h,k| h[k] = []}\n (0...size).each do |i|\n (i + 1...size - 1).each do |j|\n sum = arr[i] + arr[j]\n if hash.has_key?(sum)\n values = hash[sum]\n values << i\n values << j\n return values\n else\n hash[sum] = [i, j]\n end\n end\n end\nend", "def hash_two_sum(arr,target_sum)\n #creates a new hash with each element that is satisfying the target_sum\n hash = Hash.new(0) #{|h,k| h[k] = []}\n (0...arr.length).each { |i| hash[i] = arr[i]} #O(n)\nend", "def solution(x, a)\r\n # write your code in Ruby 2.2\r\n arr=[];\r\n i=0;\r\n l=a.count\r\n \r\n while(arr.count<=x)\r\n \r\n if(arr[i].nil?)\r\n arr << i\r\n end\r\n \r\n i+=1\r\n end\r\n i\r\nend", "def find_duplicate_space(nums)\n # sort nums first (lgn), then check for dups by iterate over (n)\n last_seen = 0\n nums.sort!.each do |num|\n return num if last_seen == num\n last_seen = num\n end\nend", "def two_sum_v3?(arr, target) \n hash = Hash.new\n arr.each { |ele| hash[ele] = ele } #o(n)\n arr.each do |ele| #o(n)\n search_value = target - ele\n return true if !hash[search_value].nil? && hash[search_value] != ele\n end\n false\nend", "def solution(a)\n a.sort!\n a.each_with_index do |element, index|\n return 0 if element != index + 1\n end\n 1\nend", "def find_unsorted_subarray(nums)\n \nend", "def better_sum1(arr, target) # this one is going to return true or false\n pairs = Set.new\n\n arr.each do |ele|\n if pairs.include?(ele)\n return true\n else\n pairs << target - ele\n end\n end\n false\nend", "def solution(a)\n return 0 if a.uniq.size != a.size\n \n max = a.size \n sum = (1 + max) * max / 2\n \n array_sum = a.inject(0, &:+) \n sum == array_sum ? 1 : 0 \nend", "def efficient_contiguous_subsum(list)\n current_sum = list[0] #0\n largest_sum = list[0] #5\n # debugger\n (1...list.length).each do |i| \n if current_sum + list[i] > 0 \n current_sum += list[i] \n largest_sum = current_sum if current_sum > largest_sum\n else \n current_sum = 0\n end \n end \n largest_sum\nend", "def two_sum?(arr, target_sum)\n hash = {}\n arr.each do |ele|\n diff = target_sum - ele\n return true if hash.has_key?(diff) # O(1), or constant time\n hash[ele] = 0\n end\n false\nend", "def find3(a, X)\n # scan through array\n # build hash storing complement in each key\n complements = {}\n a.each_with_index do |val, ind|\n if complements[X - val]\n complements[X - val].push(ind)\n else\n complements[X - val] = [ind]\n end\n end\n\n # scan through the array again\n # get complement\n # for each value scan the remainder of the arrray\n # for a value such taht a + b = the complement\n\n # for each character we have built a dictionary such that, we can find\n # x = a + complement\n\n # [1, 2, 3]\n # 1 + 2 = 3\n # 1 + 3 = 4 =>\n\n # for each value in the array (a) look at all following values (b) and see if a + b\n # is in the dictionary, if it is, check that their indices do not collide with the index\n # stored at dict(a+b)\n\n a.each_with_index do |va, i|\n a.each_with_index do |vb, j|\n break if i == j\n\n complement = va + vb\n indices = complements[complement]\n\n indices.each do |z|\n # every index is unique\n return [i, j, z] unless z == i || z == j\n end\n end\n end\n\n return nil\nend", "def largest_cont_subsum_fast(list)\n # for constant size to be true, you cant create any variables\n # whose memory size depends on the size of the input\n curr_sum = list[0]\n largest_sum = list[0]\n\n # we know there are n^2 potential, so if we ever check all of them\n # it must be n^2\n\n # there must be a way to find the max without checking every subarray\n list[1..-1].each do |ele|\n # debugger\n if curr_sum > largest_sum\n largest_sum = curr_sum\n end\n\n if curr_sum < 0\n curr_sum = 0\n end\n\n curr_sum += ele\n\n end\n\n # debugger\n return [largest_sum, curr_sum].max\n\nend", "def solution(a)\n s= a.sort\n 0.step(s.size - 1).inject(0) do |result, x|\n z= x+2\n (x+1).step(s.size - 1).inject(result) do |acc, y|\n z+=1 while z < s.size && s[x] + s[y] > s[z]\n acc += z-y-1\n end\n end\nend", "def largest_contiguous_subsum1(list)\n p Time.now\n sub_arrays = []\n list.each_index do |i|\n list.each_index do |j|\n next if j < i\n sub_arrays << list[i..j]\n end\n end\n sub_arrays.map{|numbers| numbers.inject(:+)}.max\n p Time.now\nend", "def fourth_anagram?(str1, str2) # O(n)\n hash = Hash.new(0) # 1\n str1.each_char {|char| hash[char] += 1} # n\n str2.each_char {|char| hash[char] -= 1} # n\n\n hash.values.all?(0) # n\n\nend", "def awesome(arr, target)\n hash = Hash.new(0)\n i = 0\n j = i + 1\n while i < arr.size\n hash[arr[i] + arr[j]] += 1 \n if j < arr.size\n j += 1\n else\n i += 1\n if j = i + 1 > arr.length\n j = i \n else\n j = i + 1\n \n end\n\n end\n \n end\n return true if hash[target] >= 1\n false\nend", "def largest_contiguous_subsum2(list)\n # O(N) ==> Time\n # O(1) ==> Space\n largest = list.first\n curr = list.first\n\n len = list.length\n (1...len).each do |i|\n curr = 0 if curr < 0 \n curr += list[i]\n largest = curr if curr > largest\n end\n largest\nend", "def solution(a)\n counts = {}\n for i in a\n counts[i] ||= 0\n counts[i] += 1\n end\n for i in (1..a.count)\n return 0 if counts[i] != 1\n end\n return 1\nend", "def my_min1(arr)\n arr.each do |el1| #O(n)\n if arr.all? {|el2| el1 <= el2 } #O(n + 1)\n return el1\n end\n end \nend", "def first_anagram?(str1, str2)\r\n possible = str1.split(\"\").permutation.to_a #O(n!)\r\n possible.map! {|ele| ele.join(\"\")} #O(n)\r\n possible.include?(str2) #O(n)\r\nend", "def okay_two_sum?(arr, target)\n sorted = arr.sort # n log n => quicksort => is nlogn DOMINANT\n sorted.each_with_index do |num, i| # => O(n)\n # return true if sorted[i] + sorted[-1 - i] == target\n return true if sorted[i + 1 .. - 1].bsearch {|number| target - num <=> number} # => O(log(n))\n # ASK TA ABOUT BSEARCH\n # bsearch {|ele| pivot <=> ele}\n end\n false\nend", "def findDiffSquares(n)\n sum = 0\n (1..n).each { |i|\n (1..n).each { |j|\n sum += i*j unless i == j\n }\n }\n sum\nend", "def solution_slow_2(n, p, q)\n sieve = sieve_of_erathosteneses(n)\n # puts \"sieve:#{sieve}\"\n semi = semiprimes(n, sieve)\n # puts \"sp:#{semi}\"\n prefix = [0,0,0,0,1]\n 5.upto(n) do |x|\n if semi.include? x \n prefix << prefix.last + 1\n else\n prefix << prefix.last\n end\n end\n # puts \"prefix:#{prefix}\"\n\n queries = [p,q].transpose\n\n\n res = queries.map do |query|\n prefix[query.last] - prefix[query.first - 1]\n end\n\n # puts \"res:#{res}\"\n\n res\n end", "def stones(n, a, b)\n ar=[0]\n (n-1).times do |val|\n tmp=[]\n ar.each do |v|\n tmp << v+a if !tmp.include?(v+a)\n tmp << v+b if !tmp.include?(v+b)\n end\n ar=tmp\n end\n ar.sort\nend", "def checkArray(a)\n\tn = a.length-1\n\tcount = 0\n\tfor i in 0..n do\n\t\tfor j in (i+1)..n do\n\t\t\tfor k in (j+1)..n do\n\t\t\t\tif (a[i] + a[j] + a[k] == 0)\n\t\t\t\t\tcount += 1\n\t\t\t\t\treturn count;\n\t\t\t\telse\n\t\t\t\t\treturn count;\n\t\t\t\tend\n\t\t\tend\n\t\tend\n\tend\nend", "def largest_contiguous_sub_sum2(arr)\n #one varable tracks largest sum\n #one variable tracks current sum\n #O(n) + O(1)\n # list = [2, 3, -6, 7, -6, 7]\n\n # largest_sum= arr.first\n\n # i = 0\n # arr_end = true\n\n # while arr_end\n # current_sum = arr[i]\n # if arr[i+1] == nil\n # arr_end = false\n # puts \"This is current sum: #{current_sum}\"\n # else\n # if current_sum > largest_sum\n # current_sum += arr[i+1]\n # largest_sum = current_sum\n # end\n # end\n # if i < arr.length\n # arr_end = true\n # i += 1\n # end\n # end\n # largest_sum\n \n\n\n # arr.each_with_index do |ele, idx|\n # if ele > largest_sum\n # largest_sum = ele\n # end\n\n # i = idx\n # sum = ele\n # while i < arr.length - 1\n # if sum <= sum + arr[i+1]\n # largest_sum = sum + arr[i+1]\n # end\n # sum = sum + arr[i+1]\n # i+=1\n # end\n # end\n # largest_sum\n\nend", "def fourth_anagram?(str1, str2) # .338 O(n)\n h1 = Hash.new(0)\n h2 = Hash.new(0)\n str1.each_char { |c1| h1[c1] += 1}\n str2.each_char { |c2| h2[c2] += 1}\n h1 == h2\nend", "def my_min(array) # O(n) - Linear\n counter = array[0]\n\n (1...array.length).each do |i|\n if counter > array[i]\n counter = array[i]\n end\n end\n counter\nend", "def sum_upon_sums(array)\n # Step 0: initialize variables => O(1)\n max = -1\n sum = 0\n\n # Step 1: Get Max and Sum => O(n)\n array.each do |num|\n max = num if num >= max\n sum += num\n end\n\n # Step 2: Get summation => O(1)\n summation = max * (max + 1) / 2\n\n # Step 3: Return Missing value by subtracting summation and sum => O(1)\n summation - sum\nend", "def lcs_phase_two(arr)\n return arr.max if arr.max < 0 #edge case\n\n current = 0\n largest = 0\n\n arr.each do |ele|\n current += ele\n current = 0 if current < 0 #bookmark\n largest = current if largest < current\n end\n\n largest\nend", "def fast_hash_additive_find(arr, target)\n lookup_table = Hash.new\n\n arr.each do |element|\n return true if lookup_table[target - element]\n if lookup_table[element]\n lookup_table[element] += 1\n else\n lookup_table[element] = 1\n end\n end\n\n return false\n end", "def hardcore_two_sum?(arr, target)\n nums = {}\n arr.each{ |n| nums[n] = n }\n\n nums.each do |n,_|\n needed = target - n\n return true if !nums[needed].nil? && nums[needed] != n\n end\n\n false\nend", "def cost(ar)\n c = 0\n for pd in ar\n for i, n in pd\n c += i*n + n*2\n end\n end\n c -= 2\nend", "def euler29(n)\n terms = []\n 2.upto(n) do |i|\n 2.upto(n) do |j|\n if terms.include?(i ** j) == false\n terms << i ** j\n end\n end\n end\n \n terms.length\nend", "def bf_inversions arr\n count = 0\n (0...arr.size).each do |i|\n ((i+1)...arr.size).each do |j|\n count+=1 if arr[i] > arr[j]\n end\n end\n count\nend", "def find_unique_elements(arr)\n \nend", "def get_products_but_self(arr)\n # raise 'need more than itself to get all other products' if arr.length < 2\n # result = [] \n # #first just try to come up with a way that works even if it's slow \n # arr.each_with_index do |el,idx|\n # arr[idx] = 1 \n # result << arr.reduce(:*) O(n) in a O(n) loop \n # arr[idx] = el \n # end \n # result This works, Time: O(n^2) space:O(n), created 1 new array Now try to optimize \n \n # Faster way, trying greedy way, constanly update the variable\n products_before_el = [1] # when we are at the first el, the product before that we use 1\n products_after_el = [] #we know that product after the last el, we can use 1, and since\n #we can only multiply, we backwards from the last el for products after el\n end_idx = arr.length - 1 \n products_after_el[end_idx] = 1\n (1..end_idx).each do |i| # time O(n)\n products_before_el[i] = products_before_el[i-1]*arr[i-1]\n products_after_el[end_idx - i] = products_after_el[end_idx - i + 1]*arr[end_idx - i +1]\n end \n result = []\n arr.length.times do |i| \n result[i] = products_before_el[i] * products_after_el[i]\n end \n result \n\n # Can we improve on space? \nend" ]

[ "0.64688283", "0.63178664", "0.6267248", "0.62198216", "0.62003064", "0.6068516", "0.60298127", "0.59856176", "0.59822917", "0.598102", "0.5910868", "0.5903023", "0.58936894", "0.5890103", "0.5879472", "0.58556885", "0.58543235", "0.5849014", "0.5835677", "0.57822996", "0.5779699", "0.57748854", "0.5774721", "0.5767835", "0.57464397", "0.57251805", "0.5723592", "0.57145303", "0.56900626", "0.56884664", "0.56832945", "0.56797016", "0.56791097", "0.56635123", "0.5662269", "0.56566966", "0.5655867", "0.5651081", "0.5648561", "0.56481177", "0.56458753", "0.56358856", "0.56207335", "0.56183076", "0.5616148", "0.56144124", "0.56057686", "0.5592543", "0.5587115", "0.5582902", "0.55818653", "0.55811346", "0.5572391", "0.557126", "0.5570052", "0.5563378", "0.55596167", "0.5556394", "0.5553933", "0.5552467", "0.5552357", "0.5551158", "0.5550001", "0.5526713", "0.55242395", "0.5522795", "0.5511609", "0.55062497", "0.550335", "0.55030596", "0.5500208", "0.5496503", "0.54927975", "0.54906374", "0.5489878", "0.5483197", "0.54818785", "0.547454", "0.54701877", "0.5469552", "0.54682666", "0.54626334", "0.54616946", "0.54614156", "0.5461224", "0.54606897", "0.5457935", "0.5457248", "0.5454806", "0.54475284", "0.5445509", "0.54435945", "0.5442592", "0.54347587", "0.54278564", "0.5426472", "0.54249805", "0.54202795", "0.5403773", "0.5402338", "0.53939664" ]

[ "def find_dublicate(array)\n sum = 1000000*(1000000+1)/2 # (n*(n+1))/2\n array.each do |el| \n sum -= el\n end\n return sum\nend", "def solution(a)\r\n n=a.size\r\n i=1\r\n for k in a.sort do\r\n\tif k!=i \r\n\t then \r\n\t return 0\r\n\t break;\r\n\tend\r\n i+=1;\r\n end\t\r\n return 1 if a.inject(:+) ==n*(n+1)/2;\r\nend", "def my_min_2(list)\r\n min = 0 # O(1)\r\n \r\n list.each do |ele| # O(n) \r\n if ele < min # O(1)\r\n min = ele # O(1)\r\n end\r\n end\r\n min # O(1) \r\nend", "def largest_subsum(list)\n max = list[0] # O(1)\n current_sum = list[0] # O(1)\n\n (1...list.length).each do |i| # O(n)\n # debugger\n if current_sum < 0 # O(1)\n current_sum = 0 # O(1)\n end \n current_sum += list[i] # O(1)\n if current_sum > max # O(1)\n max = current_sum # O(1)\n end\n end\n\n max # O(1)\n\nend", "def third_anagram?(str1, str2)\n beginning_time = Time.now\n str1.split(\"\").sort == str2.split(\"\").sort #O(nlogn)\n \"Time complexity of first_anagram: #{(Time.now - beginning_time)}\"\nend", "def sorted_squares(nums)\n # This takes O(n)\n nums.map! { |num| num**2 }\n # This can take Ο(n logn)\n bubble_sort(nums)\nend", "def three_sum_fastest(arr)\n count = 0\n\n (0..arr.length - 2).each { |i|\n set = Set.new\n\n (i + 1..arr.length - 1).each { |j|\n if set.include?(-arr[i] - arr[j])\n count += 1\n end\n\n set.add(arr[j])\n }\n }\n count\nend", "def fourth_anagram?(str1, str2)\n hash1 = Hash.new(0)#O(1)\n beginning_time = Time.now\n str1.each_char {|char| hash1[char]+=1}#O(n)\n str2.each_char {|char| hash1[char]-=1}#O(n)\n hash1.all? {|_, v| v.zero?}#O(n)\n \"Time complexity of first_anagram: #{(Time.now - beginning_time)}\"\nend", "def solution(a)\n n = a.size\n passing_cars = 0\n\n suffix_sums = Array.new(n + 1, 0)\n\n a.reverse.each_with_index do |elem, i|\n suffix_sums[i + 1] = suffix_sums[i] + elem\n end\n suffix_sums.reverse!\n\n a.each_with_index do |car, i|\n if car == 0\n passing_cars += suffix_sums[i]\n end\n end\n\n passing_cars > 1_000_000_000 ? -1 : passing_cars\nend", "def solution(m, a)\n n = a.count\n result = 0\n front = 0\n numbers = Array.new(m + 1, false)\n n.times { |back|\n while front < n and not numbers[a[front] - 1]\n numbers[a[front] - 1] = true\n front += 1\n result += front - back\n return 1_000_000_000 if result >= 1_000_000_000\n end\n numbers[a[back] - 1] = false\n }\n result\nend", "def fibonacci(n)\n return fib_helper([0, 1], 2, n)\n # if you'd like to test what i THINK is an O(1) space complexity solution.....\n # i did run this through the tests and it SHOULD work:\n # return faster_fib_helper([0, 1], 2, n)\nend", "def solution(a)\n # In production environment this will be my solution:\n # a.uniq.size\n #\n # But since this is a coding challenge, my assumption\n # is that you're looking for a by-hand O(N*logN) solution\n\n return 0 if a.empty?\n\n n = a.size\n ary = a.sort\n uniques = 1\n (1...n).each do |i|\n uniques += 1 if ary[i] != ary[i - 1]\n end\n uniques\nend", "def find_duplicate(nums)\n if !nums or nums.size == 0\n return nil\n else\n fast = nums[ 0 ]\n slow = nums[ 0 ]\n while true\n fast = nums[ fast ]\n fast = nums[ fast ]\n slow = nums[ slow ]\n if fast == slow\n new_node = nums[ 0 ]\n while new_node != slow\n new_node = nums[ new_node ]\n slow = nums[ slow ]\n end\n return slow\n end\n end\n end\nend", "def my_min_2(arr)\n\n smallest_value = arr[0] # O(1)\n\n arr.each do |ele1| # [ 0, 3, 5, 4, -5, 10, 1, 90 ] O(n)\n smallest_value = ele1 if ele1 <= smallest_value #O(1)\n end\n\n smallest_value #O(1)\n\nend", "def seesaw?(arr)\n left_sum = 0\n arr.each_index do |i| #O(n)\n if i > 0\n left_sum = arr[0...i].reduce(:+) #O(n)\n end\n if i < arr.size-1\n right_sum = arr[i+1..-1].reduce(:+); #O(n)\n else\n right_sum = 0\n end\n if left_sum == right_sum\n return true\n end\n end\n return false\nend", "def solution(a)\n counter = Hash.new(0)\n a.each do |elem|\n counter[elem] += 1\n end\n\n (1..a.size).each do |number|\n return 0 if counter[number] != 1\n end\n\n 1\nend", "def solution(a)\n # write your code in Ruby 2.2\n num_of_elements=a.length\n num_of_zeros=0\n tot_num_car_pairs=0\n a.each do |element|\n if element == 0\n num_of_zeros+=1\n else\n tot_num_car_pairs+=num_of_zeros\n end\n end\n return tot_num_car_pairs>1_000_000_000?-1:tot_num_car_pairs\nend", "def okay_two_sum?(arr, target)\n arr = arr.sort #n log n\n (0...arr.length).each do |i| #n\n search = bsearch(arr, target-arr[i]) # log n\n return true unless search.nil?\n end #n log n\n false\nend", "def naive_algorithm(arr)\n\tproduct = 0\n\tarr.each do |i|\n\t arr.each do |j|\n\t \tp = arr[i] * arr[j]\n\t \tproduct = p if product < p\n\t end\t\n\tend\t\t\n\tproduct\nend", "def main\n\n sum = 0\n\n (0..999).each do |i|\n sum += check(i)\n end\n\n puts \"Total - O(n) #{sum}\"\n\n # Needed to refresh following: https://en.wikipedia.org/wiki/Arithmetic_progression\n sum2 = sum_multiples(3, 1000) + sum_multiples(5, 1000) - sum_multiples(15, 1000)\n\n # Refreshed Big O too : http://stackoverflow.com/questions/487258/plain-english-explanation-of-big-o \n puts \"Total - O(1) #{sum2}\"\n\nend", "def largest_contiguous_subsum_2(list)# [2, 3, -6, 7, -6, 7]\n largest_num = list[0]#2 O(1)\n running_sum = list[0]#2 - 5 after entering loop. O(1)\n\n (1...list.length).each do |i| #O(n) \n running_sum = 0 if running_sum < 0 #O(1)\n running_sum += list[i] #O(1)\n largest_num = running_sum if running_sum > largest_num #O(1)\n end\n return largest_num #O(1)\nend", "def two_sum?(array, target)\n #O(n)\n hash = Hash.new(0)\n i = 1\n array.each do |ele|\n hash[ele] = i \n i += 1\n end\n hash.each_key do |k|\n return true if hash.has_key?(target - k) && hash[k] != hash[target - k]\n end\n false \nend", "def fast_lcss(arr)\n i_arr = []\n biggest = 0\n max_sub_arr = []\n arr.length.times do |x|\n arr.map do |ele1|\n i_arr += [ele1]\n sum = i_arr.inject(0) do |a, b|\n a + b\n end\n max_sub_arr = i_arr if sum > biggest\n biggest = sum if sum > biggest \n end\n i_arr = []\n arr.shift\n end\n max_sub_arr\nend", "def problem_57\n ret,n,d = 0,1,1\n 1000.times do |i|\n n,d = (n+2*d),(n+d)\n ret += 1 if n.to_s.length > d.to_s.length\n end\n ret\nend", "def solution(arr)\n zeros = 0\n pass_cars = 0\n\n (0...arr.size).each do |idx|\n arr[idx] == 0 ? zeros += 1 : pass_cars += zeros\n\n return -1 if pass_cars > 1000000000\n end\n\n pass_cars\nend", "def my_min_2(array)#O(n)\n array.inject do |acc, ele|#O(n)\n if acc < ele\n acc\n else\n ele\n end\n end\nend", "def my_min(list) \n\n list.each_with_index do |ele, i| #O(n)\n compare_arr = list[0...i] + list[i+1..-1] # O(2n) \n return ele if compare_arr.all? { |ele2| ele < ele2 } #O(n)\n end\n\n #time complexity = O(n^2) + O(2n)\n\nend", "def bad_two_sum?(arr, target)\n arr.each_with_index do |num1, idx1| #O(n)\n arr.each_with_index do |num2, idx2| #O(n)\n return true if idx2 > idx1 && num1 + num2 == target #O(1)\n end\n end\n false\nend", "def largest_contiguous_subsum(arr) #BigO of O(n)\n max = 0 \n current_sum = 0\n arr.each_with_index do |el,idx|\n if current_sum + el >= el \n current_sum += el \n else \n current_sum = el \n end \n max = current_sum if current_sum > max \n end \n max\nend", "def sub_sum(list)\n sub_arr = []\n (0...list.length).each do |i| #O(n)\n (i...list.length).each do |j| #O(n)\n sub_arr << list[i..j] if i <= j\n end\n end\n largest_continuous_sub_sum1(sub_arr)\nend", "def solution(a)\n n = a.size\n return 0 unless n > 2\n a.sort!\n\n (2..n - 1).each do |i|\n return 1 if a[i - 2] + a[i - 1] > a[i]\n end\n\n return 0\nend", "def solution(a)\n n = a.size\n a.sort!\n\n count = 0\n for i in 0...n-2 do\n k = i+2\n for j in i+1...n-1 do\n while k < n and a[i] + a[j] > a[k] do\n k += 1\n end\n count += k - j - 1\n end\n end\n count\nend", "def my_min_2(nums) # O(n)\n smallest = 0\n nums.each do |num|\n smallest = num if num < smallest\n end\n smallest\nend", "def solution(a)\n # write your code in Ruby 2.2\n n = a.length\n \n counter = Array.new(n+1, 0)\n \n a.each do |x|\n counter[x-1] += 1\n end\n \n return counter.index { |x| x == 0 } + 1\nend", "def solution(a)\n return 1 if a.empty?\n a.sort!\n return 1 if a.first > 1\n return a.first + 1 if a.length <2\n (0..(a.length)).each do |index|\n return a[index] + 1 if a[index] + 1 != a[index + 1]\n end\n return a.last + 1\nend", "def second_anagram?(word_1, word_2) #O(n^2)\n matching_word = word_2.split(\"\")\n\n word_1.each_char do |ele|\n if matching_word.index(ele) #evaluating the conditional\n matching_word.delete_at(matching_word.index(ele)) #n many times, do this\n end\n end\n\n matching_word.empty? #constant O(1)\nend", "def anagram4(str1, str2)\n count = Hash.new(0) #O(1)\n \n str1.each_char do |char| #O(n)\n count[char] += 1 #O(1)\n end\n\n str2.each_char do |char| #O(n)\n count[char] -= 1 #O(1)\n end\n\n # count.values.uniq.length == 1\n count.values.each do |v| #O(n)\n return false if v > 0\n end\n true\nend", "def two_sum?(arr, target_sum) # O(N)\n hash = Hash.new(0)\n count = Hash.new(0)\n\n arr.each do |num|\n hash[num] = target_sum - num\n count[num] += 1\n end\n\n hash.each do |key, value|\n if hash.has_key?(value) \n if key == value \n if count[value] > 1\n return true\n end\n else\n return true\n end\n end\n end\n\n false\nend", "def fds(n)\n\n # arr = []\n # (n + 1).times.each{|e| arr << e if e > 0}\n # arr.flat_map.reduce(:*)\n # arr.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n (1..n).to_a.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n\nend", "def naive(array)\n max = -10000\n for i in (0..array.length - 1)\n for j in (i..array.length - 1)\n total = array[i..j].inject { |m,k| m + k }\n max = total if total > max\n end\n end\n max\nend", "def running_time(array)\n cnt = 0\n (1...(array.length)).each do |x|\n y = x\n while y.positive?\n break unless array[y - 1] > array[y]\n\n temp_num = array[y]\n array[y] = array[y - 1]\n array[y - 1] = temp_num\n cnt += 1\n y -= 1\n end\n end\n cnt\nend", "def fifth_anagram?(word1, word2) # O(n)\n \n p \"Running fifth_anagram...\" \n\n start = Time.now\n \n hash1 = Hash.new(0)\n # hash2 = Hash.new(0)\n\n word1.each_char {|char| hash1[char] += 1}\n word2.each_char {|char| hash1[char] += 1}\n\n hash1.values.all? {|v| v.even?}\n\n\n # puts \"Took #{Time.now - start} seconds\"\n\n \nend", "def my_min_2(arr) #O(N)\n min_num = arr.first\n \n arr.each { |num| min_num = num if num < min_num }\n \n min_num\n end", "def solution(a)\n result = 0\n tmp_count = 0\n a.each_with_index do |val, idx|\n if val.zero?\n tmp_count += 1\n else\n result += tmp_count\n end\n end\n return result > 1000000000 ? -1 : result\nend", "def solution(a)\n # write your code in Ruby 2.2\n seen = {}\n\n a.each do |number|\n seen[number] = true\n end\n\n max = a.max\n\n for i in 1..(max + 1)\n return i unless seen[i]\n end\n\n 1\nend", "def solution(a)\n a.uniq.count\nend", "def solution(a)\r\n # write your code in Ruby 2.2\r\n \r\n arr =[]\r\n a.each_with_index{|el,i|\r\n \r\n if !arr.index(el) \r\n arr << el\r\n end\r\n \r\n }\r\n arr.count\r\nend", "def solution(a)\n accessed = Array.new(a.size + 1, nil)\n caterpillar_back = 0\n count = 0\n\n a.each_with_index do |x, caterpillar_front|\n if accessed[x] == nil\n accessed[x] = caterpillar_front\n else\n new_caterpillar_back = accessed[x] + 1\n first_part_size = caterpillar_front - caterpillar_back\n second_part_size = caterpillar_front - new_caterpillar_back\n count += first_part_size * (first_part_size + 1) / 2\n count -= (second_part_size) * (second_part_size + 1) / 2\n caterpillar_back.upto(new_caterpillar_back - 1) { |n| accessed[a[n]] = nil}\n accessed[x] = caterpillar_front\n caterpillar_back = new_caterpillar_back\n end\n end\n\n remaining_size = a.size - caterpillar_back\n count += (remaining_size) * (remaining_size + 1) / 2\n end", "def solution(a)\r\n # write your code in Ruby 2.2\r\n #trangular\r\n # a[0] = 10\r\n # a[2] = 5\r\n # a[4] = 8\r\n # 10 + 5 > 8\r\n # 5 + 8 > 10\r\n #8 + 10 > 5\r\n \r\n \r\n l=a.count\r\n \r\n i=0\r\n while(i<l) do\r\n j=i+1\r\n while(j<l) do\r\n k=j+1\r\n \r\n \r\n while(k<l) do\r\n if((a[i] + a[j] > a[k]) && (a[j] +a[k] > a[i]) && (a[k] + a[i] >a[j]))\r\n return 1\r\n end\r\n k+=1 \r\n end \r\n \r\n j+=1 \r\n end\r\n i+=1\r\n end\r\n \r\n return 0\r\n \r\nend", "def solution(a)\n # write your code in Ruby 2.2\n \n is_perm = 0\n \n n = a.length\n b = [0]*n\n \n \n a.each do |v|\n break if v > n \n break if b[v] == 1 \n b[v] = 1\n end\n \n sum = b.inject(:+)\n if sum == n\n is_perm = 1\n end\n \n is_perm\nend", "def solution(a)\n len = a.size\n unique = {}\n i = 0\n while i < len\n item = a[i]\n if unique.has_key?(item)\n unique[item] += 1\n else\n unique[item] = 1\n end\n i += 1\n end\n pairs = 0\n unique.each do |key,count|\n (1...count).step {|n| pairs += n }\n end\n return pairs > 1_000_000_000 ? 1_000_000_000 : pairs\nend", "def second_anagram?(word1, word2)\n p \"Running second_anagram?...\" \n\n start = Time.now\n word2 = word2.split(\"\") #O(n)\n word1.each_char do |char| #O(n)\n char_index = word2.index(char) #O(n)\n if char_index.nil? #O(1)\n return false #O(1)\n else\n word2.delete_at(char_index) #O(1)\n end\n end\n word2.empty? #O(1)\n p \"Took #{Time.now - start} seconds\"\nend", "def solution(a)\n length = a.length\n sum = (length + 1) * (length + 1 + 1) / 2\n\n sum - a.inject(0) { |acc, e| acc += e }\nend", "def canBeSum(n, array, cache)\n\ti = 0\n\twhile array[i] <= n / 2\n\t\tif cache[n-array[i]] # array.include?(n-array[i]) is OK, but very slow\n\t\t\treturn true\n\t\tend\n\n\t\ti += 1\n\tend\n\n\treturn false\nend", "def my_min2 # O(n) time complexity\n smallest = self.first\n self.each do |num|\n sleep(1)\n smallest = num if num < smallest \n end\n smallest\n end", "def seesaw2?(arr)\n left_sum = 0\n right_sum = arr.size > 1 ? arr[1..-1].reduce(:+) : 0\n\n arr.each_index do |i| #O(n)\n return true if left_sum == right_sum\n left_sum += arr[i]\n i < arr.size-1 ? right_sum -= arr[i+1] : right_sum = 0\n end\n return false\nend", "def two_sum(arr) #o(ns)\n set = Set.new\n arr.each{|el| set << el}\n arr.select{|el| set.include?(-1 * el)}\nend", "def solution(a)\n # write your code in Ruby 2.2\n sum = a.inject(:+)\n acc = 0\n\n min = 99999999\n a[0..-2].each do |n|\n sum -= n\n acc += n\n\n min = [(acc - sum).abs, min].min\n end\n min\nend", "def second_anagram?(str1, str2) #quadratic\r\n\r\n split = str2.split(\"\") #O(n)\r\n str1.split(\"\").each do |c| #O(n) <\r\n split.delete(c) #O(n) ^ O(n^2) when nested in above each block\r\n end\r\n\r\n split.empty?\r\nend", "def move_zeros(array)\n zero_count = 0\n # O(n)\n array.each do |num|\n\n zero_count += 1 if num == 0\n end\n\n # O(n)\n array = array.select { |num| num != 0 }\n \n # O(1)\n zero_count.times do\n array += [0]\n end\n\n array\nend", "def three_sum_fast(arr)\n arr = merge_sort(arr)\n count = 0\n\n (0..arr.length - 1).each { |i|\n (i + 1..arr.length - 1).each { |j|\n if bin_search(arr, -arr[i] - arr[j]) > j\n count += 1\n end\n }\n }\n count\nend", "def better_subsum(arr) # o(n)\n largest = 0 \n sum = 0 \n i = 0 \n j = 0\n\n while i != arr.length-1\n largest += arr[j]\n sum = largest if largest > sum \n if j == arr.length-1 \n i+=1 \n j = i \n largest = 0 \n else\n j+=1\n end \n end \n sum \n end", "def fourth_anagram?(str1, str2)\n\n str1_hash = Hash.new {|h,k| h[k] = 0 } # O(1)\n str2_hash = Hash.new {|h,k| h[k] = 0 } # O(1)\n\n str1.each_char do |char| # O(n)\n str1_hash[char] += 1\n end\n\n str2.each_char do |char| # O(n)\n str2_hash[char] += 1\n end\n\n str1_hash == str2_hash # O(1)\n\nend", "def equal(arr)\n size = arr.size\n hash = Hash.new{|h,k| h[k] = []}\n (0...size).each do |i|\n (i + 1...size - 1).each do |j|\n sum = arr[i] + arr[j]\n if hash.has_key?(sum)\n values = hash[sum]\n values << i\n values << j\n return values\n else\n hash[sum] = [i, j]\n end\n end\n end\nend", "def hash_two_sum(arr,target_sum)\n #creates a new hash with each element that is satisfying the target_sum\n hash = Hash.new(0) #{|h,k| h[k] = []}\n (0...arr.length).each { |i| hash[i] = arr[i]} #O(n)\nend", "def solution(x, a)\r\n # write your code in Ruby 2.2\r\n arr=[];\r\n i=0;\r\n l=a.count\r\n \r\n while(arr.count<=x)\r\n \r\n if(arr[i].nil?)\r\n arr << i\r\n end\r\n \r\n i+=1\r\n end\r\n i\r\nend", "def find_duplicate_space(nums)\n # sort nums first (lgn), then check for dups by iterate over (n)\n last_seen = 0\n nums.sort!.each do |num|\n return num if last_seen == num\n last_seen = num\n end\nend", "def two_sum_v3?(arr, target) \n hash = Hash.new\n arr.each { |ele| hash[ele] = ele } #o(n)\n arr.each do |ele| #o(n)\n search_value = target - ele\n return true if !hash[search_value].nil? && hash[search_value] != ele\n end\n false\nend", "def solution(a)\n a.sort!\n a.each_with_index do |element, index|\n return 0 if element != index + 1\n end\n 1\nend", "def find_unsorted_subarray(nums)\n \nend", "def better_sum1(arr, target) # this one is going to return true or false\n pairs = Set.new\n\n arr.each do |ele|\n if pairs.include?(ele)\n return true\n else\n pairs << target - ele\n end\n end\n false\nend", "def solution(a)\n return 0 if a.uniq.size != a.size\n \n max = a.size \n sum = (1 + max) * max / 2\n \n array_sum = a.inject(0, &:+) \n sum == array_sum ? 1 : 0 \nend", "def efficient_contiguous_subsum(list)\n current_sum = list[0] #0\n largest_sum = list[0] #5\n # debugger\n (1...list.length).each do |i| \n if current_sum + list[i] > 0 \n current_sum += list[i] \n largest_sum = current_sum if current_sum > largest_sum\n else \n current_sum = 0\n end \n end \n largest_sum\nend", "def two_sum?(arr, target_sum)\n hash = {}\n arr.each do |ele|\n diff = target_sum - ele\n return true if hash.has_key?(diff) # O(1), or constant time\n hash[ele] = 0\n end\n false\nend", "def find3(a, X)\n # scan through array\n # build hash storing complement in each key\n complements = {}\n a.each_with_index do |val, ind|\n if complements[X - val]\n complements[X - val].push(ind)\n else\n complements[X - val] = [ind]\n end\n end\n\n # scan through the array again\n # get complement\n # for each value scan the remainder of the arrray\n # for a value such taht a + b = the complement\n\n # for each character we have built a dictionary such that, we can find\n # x = a + complement\n\n # [1, 2, 3]\n # 1 + 2 = 3\n # 1 + 3 = 4 =>\n\n # for each value in the array (a) look at all following values (b) and see if a + b\n # is in the dictionary, if it is, check that their indices do not collide with the index\n # stored at dict(a+b)\n\n a.each_with_index do |va, i|\n a.each_with_index do |vb, j|\n break if i == j\n\n complement = va + vb\n indices = complements[complement]\n\n indices.each do |z|\n # every index is unique\n return [i, j, z] unless z == i || z == j\n end\n end\n end\n\n return nil\nend", "def largest_cont_subsum_fast(list)\n # for constant size to be true, you cant create any variables\n # whose memory size depends on the size of the input\n curr_sum = list[0]\n largest_sum = list[0]\n\n # we know there are n^2 potential, so if we ever check all of them\n # it must be n^2\n\n # there must be a way to find the max without checking every subarray\n list[1..-1].each do |ele|\n # debugger\n if curr_sum > largest_sum\n largest_sum = curr_sum\n end\n\n if curr_sum < 0\n curr_sum = 0\n end\n\n curr_sum += ele\n\n end\n\n # debugger\n return [largest_sum, curr_sum].max\n\nend", "def solution(a)\n s= a.sort\n 0.step(s.size - 1).inject(0) do |result, x|\n z= x+2\n (x+1).step(s.size - 1).inject(result) do |acc, y|\n z+=1 while z < s.size && s[x] + s[y] > s[z]\n acc += z-y-1\n end\n end\nend", "def largest_contiguous_subsum1(list)\n p Time.now\n sub_arrays = []\n list.each_index do |i|\n list.each_index do |j|\n next if j < i\n sub_arrays << list[i..j]\n end\n end\n sub_arrays.map{|numbers| numbers.inject(:+)}.max\n p Time.now\nend", "def fourth_anagram?(str1, str2) # O(n)\n hash = Hash.new(0) # 1\n str1.each_char {|char| hash[char] += 1} # n\n str2.each_char {|char| hash[char] -= 1} # n\n\n hash.values.all?(0) # n\n\nend", "def awesome(arr, target)\n hash = Hash.new(0)\n i = 0\n j = i + 1\n while i < arr.size\n hash[arr[i] + arr[j]] += 1 \n if j < arr.size\n j += 1\n else\n i += 1\n if j = i + 1 > arr.length\n j = i \n else\n j = i + 1\n \n end\n\n end\n \n end\n return true if hash[target] >= 1\n false\nend", "def largest_contiguous_subsum2(list)\n # O(N) ==> Time\n # O(1) ==> Space\n largest = list.first\n curr = list.first\n\n len = list.length\n (1...len).each do |i|\n curr = 0 if curr < 0 \n curr += list[i]\n largest = curr if curr > largest\n end\n largest\nend", "def solution(a)\n counts = {}\n for i in a\n counts[i] ||= 0\n counts[i] += 1\n end\n for i in (1..a.count)\n return 0 if counts[i] != 1\n end\n return 1\nend", "def my_min1(arr)\n arr.each do |el1| #O(n)\n if arr.all? {|el2| el1 <= el2 } #O(n + 1)\n return el1\n end\n end \nend", "def first_anagram?(str1, str2)\r\n possible = str1.split(\"\").permutation.to_a #O(n!)\r\n possible.map! {|ele| ele.join(\"\")} #O(n)\r\n possible.include?(str2) #O(n)\r\nend", "def okay_two_sum?(arr, target)\n sorted = arr.sort # n log n => quicksort => is nlogn DOMINANT\n sorted.each_with_index do |num, i| # => O(n)\n # return true if sorted[i] + sorted[-1 - i] == target\n return true if sorted[i + 1 .. - 1].bsearch {|number| target - num <=> number} # => O(log(n))\n # ASK TA ABOUT BSEARCH\n # bsearch {|ele| pivot <=> ele}\n end\n false\nend", "def findDiffSquares(n)\n sum = 0\n (1..n).each { |i|\n (1..n).each { |j|\n sum += i*j unless i == j\n }\n }\n sum\nend", "def solution_slow_2(n, p, q)\n sieve = sieve_of_erathosteneses(n)\n # puts \"sieve:#{sieve}\"\n semi = semiprimes(n, sieve)\n # puts \"sp:#{semi}\"\n prefix = [0,0,0,0,1]\n 5.upto(n) do |x|\n if semi.include? x \n prefix << prefix.last + 1\n else\n prefix << prefix.last\n end\n end\n # puts \"prefix:#{prefix}\"\n\n queries = [p,q].transpose\n\n\n res = queries.map do |query|\n prefix[query.last] - prefix[query.first - 1]\n end\n\n # puts \"res:#{res}\"\n\n res\n end", "def stones(n, a, b)\n ar=[0]\n (n-1).times do |val|\n tmp=[]\n ar.each do |v|\n tmp << v+a if !tmp.include?(v+a)\n tmp << v+b if !tmp.include?(v+b)\n end\n ar=tmp\n end\n ar.sort\nend", "def checkArray(a)\n\tn = a.length-1\n\tcount = 0\n\tfor i in 0..n do\n\t\tfor j in (i+1)..n do\n\t\t\tfor k in (j+1)..n do\n\t\t\t\tif (a[i] + a[j] + a[k] == 0)\n\t\t\t\t\tcount += 1\n\t\t\t\t\treturn count;\n\t\t\t\telse\n\t\t\t\t\treturn count;\n\t\t\t\tend\n\t\t\tend\n\t\tend\n\tend\nend", "def largest_contiguous_sub_sum2(arr)\n #one varable tracks largest sum\n #one variable tracks current sum\n #O(n) + O(1)\n # list = [2, 3, -6, 7, -6, 7]\n\n # largest_sum= arr.first\n\n # i = 0\n # arr_end = true\n\n # while arr_end\n # current_sum = arr[i]\n # if arr[i+1] == nil\n # arr_end = false\n # puts \"This is current sum: #{current_sum}\"\n # else\n # if current_sum > largest_sum\n # current_sum += arr[i+1]\n # largest_sum = current_sum\n # end\n # end\n # if i < arr.length\n # arr_end = true\n # i += 1\n # end\n # end\n # largest_sum\n \n\n\n # arr.each_with_index do |ele, idx|\n # if ele > largest_sum\n # largest_sum = ele\n # end\n\n # i = idx\n # sum = ele\n # while i < arr.length - 1\n # if sum <= sum + arr[i+1]\n # largest_sum = sum + arr[i+1]\n # end\n # sum = sum + arr[i+1]\n # i+=1\n # end\n # end\n # largest_sum\n\nend", "def fourth_anagram?(str1, str2) # .338 O(n)\n h1 = Hash.new(0)\n h2 = Hash.new(0)\n str1.each_char { |c1| h1[c1] += 1}\n str2.each_char { |c2| h2[c2] += 1}\n h1 == h2\nend", "def my_min(array) # O(n) - Linear\n counter = array[0]\n\n (1...array.length).each do |i|\n if counter > array[i]\n counter = array[i]\n end\n end\n counter\nend", "def sum_upon_sums(array)\n # Step 0: initialize variables => O(1)\n max = -1\n sum = 0\n\n # Step 1: Get Max and Sum => O(n)\n array.each do |num|\n max = num if num >= max\n sum += num\n end\n\n # Step 2: Get summation => O(1)\n summation = max * (max + 1) / 2\n\n # Step 3: Return Missing value by subtracting summation and sum => O(1)\n summation - sum\nend", "def lcs_phase_two(arr)\n return arr.max if arr.max < 0 #edge case\n\n current = 0\n largest = 0\n\n arr.each do |ele|\n current += ele\n current = 0 if current < 0 #bookmark\n largest = current if largest < current\n end\n\n largest\nend", "def fast_hash_additive_find(arr, target)\n lookup_table = Hash.new\n\n arr.each do |element|\n return true if lookup_table[target - element]\n if lookup_table[element]\n lookup_table[element] += 1\n else\n lookup_table[element] = 1\n end\n end\n\n return false\n end", "def hardcore_two_sum?(arr, target)\n nums = {}\n arr.each{ |n| nums[n] = n }\n\n nums.each do |n,_|\n needed = target - n\n return true if !nums[needed].nil? && nums[needed] != n\n end\n\n false\nend", "def cost(ar)\n c = 0\n for pd in ar\n for i, n in pd\n c += i*n + n*2\n end\n end\n c -= 2\nend", "def euler29(n)\n terms = []\n 2.upto(n) do |i|\n 2.upto(n) do |j|\n if terms.include?(i ** j) == false\n terms << i ** j\n end\n end\n end\n \n terms.length\nend", "def bf_inversions arr\n count = 0\n (0...arr.size).each do |i|\n ((i+1)...arr.size).each do |j|\n count+=1 if arr[i] > arr[j]\n end\n end\n count\nend", "def find_unique_elements(arr)\n \nend", "def get_products_but_self(arr)\n # raise 'need more than itself to get all other products' if arr.length < 2\n # result = [] \n # #first just try to come up with a way that works even if it's slow \n # arr.each_with_index do |el,idx|\n # arr[idx] = 1 \n # result << arr.reduce(:*) O(n) in a O(n) loop \n # arr[idx] = el \n # end \n # result This works, Time: O(n^2) space:O(n), created 1 new array Now try to optimize \n \n # Faster way, trying greedy way, constanly update the variable\n products_before_el = [1] # when we are at the first el, the product before that we use 1\n products_after_el = [] #we know that product after the last el, we can use 1, and since\n #we can only multiply, we backwards from the last el for products after el\n end_idx = arr.length - 1 \n products_after_el[end_idx] = 1\n (1..end_idx).each do |i| # time O(n)\n products_before_el[i] = products_before_el[i-1]*arr[i-1]\n products_after_el[end_idx - i] = products_after_el[end_idx - i + 1]*arr[end_idx - i +1]\n end \n result = []\n arr.length.times do |i| \n result[i] = products_before_el[i] * products_after_el[i]\n end \n result \n\n # Can we improve on space? \nend" ]

[ "0.64688283", "0.63178664", "0.6267248", "0.62198216", "0.62003064", "0.6068516", "0.60298127", "0.59856176", "0.59822917", "0.598102", "0.5910868", "0.5903023", "0.58936894", "0.5890103", "0.5879472", "0.58556885", "0.58543235", "0.5849014", "0.5835677", "0.57822996", "0.5779699", "0.57748854", "0.5774721", "0.5767835", "0.57464397", "0.57251805", "0.5723592", "0.57145303", "0.56900626", "0.56884664", "0.56832945", "0.56797016", "0.56791097", "0.56635123", "0.5662269", "0.56566966", "0.5655867", "0.5651081", "0.5648561", "0.56481177", "0.56458753", "0.56358856", "0.56207335", "0.56183076", "0.5616148", "0.56144124", "0.56057686", "0.5592543", "0.5587115", "0.5582902", "0.55818653", "0.55811346", "0.5572391", "0.557126", "0.5570052", "0.5563378", "0.55596167", "0.5556394", "0.5553933", "0.5552467", "0.5552357", "0.5551158", "0.5550001", "0.5526713", "0.55242395", "0.5522795", "0.5511609", "0.55062497", "0.550335", "0.55030596", "0.5500208", "0.5496503", "0.54927975", "0.54906374", "0.5489878", "0.5483197", "0.54818785", "0.547454", "0.54701877", "0.5469552", "0.54682666", "0.54626334", "0.54616946", "0.54614156", "0.5461224", "0.54606897", "0.5457935", "0.5457248", "0.5454806", "0.54475284", "0.5445509", "0.54435945", "0.5442592", "0.54347587", "0.54278564", "0.5426472", "0.54249805", "0.54202795", "0.5403773", "0.5402338", "0.53939664" ]

[ "def find_dublicate(array)\n sum = 1000000*(1000000+1)/2 # (n*(n+1))/2\n array.each do |el| \n sum -= el\n end\n return sum\nend", "def solution(a)\r\n n=a.size\r\n i=1\r\n for k in a.sort do\r\n\tif k!=i \r\n\t then \r\n\t return 0\r\n\t break;\r\n\tend\r\n i+=1;\r\n end\t\r\n return 1 if a.inject(:+) ==n*(n+1)/2;\r\nend", "def my_min_2(list)\r\n min = 0 # O(1)\r\n \r\n list.each do |ele| # O(n) \r\n if ele < min # O(1)\r\n min = ele # O(1)\r\n end\r\n end\r\n min # O(1) \r\nend", "def largest_subsum(list)\n max = list[0] # O(1)\n current_sum = list[0] # O(1)\n\n (1...list.length).each do |i| # O(n)\n # debugger\n if current_sum < 0 # O(1)\n current_sum = 0 # O(1)\n end \n current_sum += list[i] # O(1)\n if current_sum > max # O(1)\n max = current_sum # O(1)\n end\n end\n\n max # O(1)\n\nend", "def third_anagram?(str1, str2)\n beginning_time = Time.now\n str1.split(\"\").sort == str2.split(\"\").sort #O(nlogn)\n \"Time complexity of first_anagram: #{(Time.now - beginning_time)}\"\nend", "def sorted_squares(nums)\n # This takes O(n)\n nums.map! { |num| num**2 }\n # This can take Ο(n logn)\n bubble_sort(nums)\nend", "def three_sum_fastest(arr)\n count = 0\n\n (0..arr.length - 2).each { |i|\n set = Set.new\n\n (i + 1..arr.length - 1).each { |j|\n if set.include?(-arr[i] - arr[j])\n count += 1\n end\n\n set.add(arr[j])\n }\n }\n count\nend", "def fourth_anagram?(str1, str2)\n hash1 = Hash.new(0)#O(1)\n beginning_time = Time.now\n str1.each_char {|char| hash1[char]+=1}#O(n)\n str2.each_char {|char| hash1[char]-=1}#O(n)\n hash1.all? {|_, v| v.zero?}#O(n)\n \"Time complexity of first_anagram: #{(Time.now - beginning_time)}\"\nend", "def solution(a)\n n = a.size\n passing_cars = 0\n\n suffix_sums = Array.new(n + 1, 0)\n\n a.reverse.each_with_index do |elem, i|\n suffix_sums[i + 1] = suffix_sums[i] + elem\n end\n suffix_sums.reverse!\n\n a.each_with_index do |car, i|\n if car == 0\n passing_cars += suffix_sums[i]\n end\n end\n\n passing_cars > 1_000_000_000 ? -1 : passing_cars\nend", "def solution(m, a)\n n = a.count\n result = 0\n front = 0\n numbers = Array.new(m + 1, false)\n n.times { |back|\n while front < n and not numbers[a[front] - 1]\n numbers[a[front] - 1] = true\n front += 1\n result += front - back\n return 1_000_000_000 if result >= 1_000_000_000\n end\n numbers[a[back] - 1] = false\n }\n result\nend", "def fibonacci(n)\n return fib_helper([0, 1], 2, n)\n # if you'd like to test what i THINK is an O(1) space complexity solution.....\n # i did run this through the tests and it SHOULD work:\n # return faster_fib_helper([0, 1], 2, n)\nend", "def solution(a)\n # In production environment this will be my solution:\n # a.uniq.size\n #\n # But since this is a coding challenge, my assumption\n # is that you're looking for a by-hand O(N*logN) solution\n\n return 0 if a.empty?\n\n n = a.size\n ary = a.sort\n uniques = 1\n (1...n).each do |i|\n uniques += 1 if ary[i] != ary[i - 1]\n end\n uniques\nend", "def find_duplicate(nums)\n if !nums or nums.size == 0\n return nil\n else\n fast = nums[ 0 ]\n slow = nums[ 0 ]\n while true\n fast = nums[ fast ]\n fast = nums[ fast ]\n slow = nums[ slow ]\n if fast == slow\n new_node = nums[ 0 ]\n while new_node != slow\n new_node = nums[ new_node ]\n slow = nums[ slow ]\n end\n return slow\n end\n end\n end\nend", "def my_min_2(arr)\n\n smallest_value = arr[0] # O(1)\n\n arr.each do |ele1| # [ 0, 3, 5, 4, -5, 10, 1, 90 ] O(n)\n smallest_value = ele1 if ele1 <= smallest_value #O(1)\n end\n\n smallest_value #O(1)\n\nend", "def seesaw?(arr)\n left_sum = 0\n arr.each_index do |i| #O(n)\n if i > 0\n left_sum = arr[0...i].reduce(:+) #O(n)\n end\n if i < arr.size-1\n right_sum = arr[i+1..-1].reduce(:+); #O(n)\n else\n right_sum = 0\n end\n if left_sum == right_sum\n return true\n end\n end\n return false\nend", "def solution(a)\n counter = Hash.new(0)\n a.each do |elem|\n counter[elem] += 1\n end\n\n (1..a.size).each do |number|\n return 0 if counter[number] != 1\n end\n\n 1\nend", "def solution(a)\n # write your code in Ruby 2.2\n num_of_elements=a.length\n num_of_zeros=0\n tot_num_car_pairs=0\n a.each do |element|\n if element == 0\n num_of_zeros+=1\n else\n tot_num_car_pairs+=num_of_zeros\n end\n end\n return tot_num_car_pairs>1_000_000_000?-1:tot_num_car_pairs\nend", "def okay_two_sum?(arr, target)\n arr = arr.sort #n log n\n (0...arr.length).each do |i| #n\n search = bsearch(arr, target-arr[i]) # log n\n return true unless search.nil?\n end #n log n\n false\nend", "def naive_algorithm(arr)\n\tproduct = 0\n\tarr.each do |i|\n\t arr.each do |j|\n\t \tp = arr[i] * arr[j]\n\t \tproduct = p if product < p\n\t end\t\n\tend\t\t\n\tproduct\nend", "def main\n\n sum = 0\n\n (0..999).each do |i|\n sum += check(i)\n end\n\n puts \"Total - O(n) #{sum}\"\n\n # Needed to refresh following: https://en.wikipedia.org/wiki/Arithmetic_progression\n sum2 = sum_multiples(3, 1000) + sum_multiples(5, 1000) - sum_multiples(15, 1000)\n\n # Refreshed Big O too : http://stackoverflow.com/questions/487258/plain-english-explanation-of-big-o \n puts \"Total - O(1) #{sum2}\"\n\nend", "def largest_contiguous_subsum_2(list)# [2, 3, -6, 7, -6, 7]\n largest_num = list[0]#2 O(1)\n running_sum = list[0]#2 - 5 after entering loop. O(1)\n\n (1...list.length).each do |i| #O(n) \n running_sum = 0 if running_sum < 0 #O(1)\n running_sum += list[i] #O(1)\n largest_num = running_sum if running_sum > largest_num #O(1)\n end\n return largest_num #O(1)\nend", "def two_sum?(array, target)\n #O(n)\n hash = Hash.new(0)\n i = 1\n array.each do |ele|\n hash[ele] = i \n i += 1\n end\n hash.each_key do |k|\n return true if hash.has_key?(target - k) && hash[k] != hash[target - k]\n end\n false \nend", "def fast_lcss(arr)\n i_arr = []\n biggest = 0\n max_sub_arr = []\n arr.length.times do |x|\n arr.map do |ele1|\n i_arr += [ele1]\n sum = i_arr.inject(0) do |a, b|\n a + b\n end\n max_sub_arr = i_arr if sum > biggest\n biggest = sum if sum > biggest \n end\n i_arr = []\n arr.shift\n end\n max_sub_arr\nend", "def problem_57\n ret,n,d = 0,1,1\n 1000.times do |i|\n n,d = (n+2*d),(n+d)\n ret += 1 if n.to_s.length > d.to_s.length\n end\n ret\nend", "def solution(arr)\n zeros = 0\n pass_cars = 0\n\n (0...arr.size).each do |idx|\n arr[idx] == 0 ? zeros += 1 : pass_cars += zeros\n\n return -1 if pass_cars > 1000000000\n end\n\n pass_cars\nend", "def my_min_2(array)#O(n)\n array.inject do |acc, ele|#O(n)\n if acc < ele\n acc\n else\n ele\n end\n end\nend", "def my_min(list) \n\n list.each_with_index do |ele, i| #O(n)\n compare_arr = list[0...i] + list[i+1..-1] # O(2n) \n return ele if compare_arr.all? { |ele2| ele < ele2 } #O(n)\n end\n\n #time complexity = O(n^2) + O(2n)\n\nend", "def bad_two_sum?(arr, target)\n arr.each_with_index do |num1, idx1| #O(n)\n arr.each_with_index do |num2, idx2| #O(n)\n return true if idx2 > idx1 && num1 + num2 == target #O(1)\n end\n end\n false\nend", "def largest_contiguous_subsum(arr) #BigO of O(n)\n max = 0 \n current_sum = 0\n arr.each_with_index do |el,idx|\n if current_sum + el >= el \n current_sum += el \n else \n current_sum = el \n end \n max = current_sum if current_sum > max \n end \n max\nend", "def sub_sum(list)\n sub_arr = []\n (0...list.length).each do |i| #O(n)\n (i...list.length).each do |j| #O(n)\n sub_arr << list[i..j] if i <= j\n end\n end\n largest_continuous_sub_sum1(sub_arr)\nend", "def solution(a)\n n = a.size\n return 0 unless n > 2\n a.sort!\n\n (2..n - 1).each do |i|\n return 1 if a[i - 2] + a[i - 1] > a[i]\n end\n\n return 0\nend", "def solution(a)\n n = a.size\n a.sort!\n\n count = 0\n for i in 0...n-2 do\n k = i+2\n for j in i+1...n-1 do\n while k < n and a[i] + a[j] > a[k] do\n k += 1\n end\n count += k - j - 1\n end\n end\n count\nend", "def my_min_2(nums) # O(n)\n smallest = 0\n nums.each do |num|\n smallest = num if num < smallest\n end\n smallest\nend", "def solution(a)\n # write your code in Ruby 2.2\n n = a.length\n \n counter = Array.new(n+1, 0)\n \n a.each do |x|\n counter[x-1] += 1\n end\n \n return counter.index { |x| x == 0 } + 1\nend", "def solution(a)\n return 1 if a.empty?\n a.sort!\n return 1 if a.first > 1\n return a.first + 1 if a.length <2\n (0..(a.length)).each do |index|\n return a[index] + 1 if a[index] + 1 != a[index + 1]\n end\n return a.last + 1\nend", "def second_anagram?(word_1, word_2) #O(n^2)\n matching_word = word_2.split(\"\")\n\n word_1.each_char do |ele|\n if matching_word.index(ele) #evaluating the conditional\n matching_word.delete_at(matching_word.index(ele)) #n many times, do this\n end\n end\n\n matching_word.empty? #constant O(1)\nend", "def anagram4(str1, str2)\n count = Hash.new(0) #O(1)\n \n str1.each_char do |char| #O(n)\n count[char] += 1 #O(1)\n end\n\n str2.each_char do |char| #O(n)\n count[char] -= 1 #O(1)\n end\n\n # count.values.uniq.length == 1\n count.values.each do |v| #O(n)\n return false if v > 0\n end\n true\nend", "def two_sum?(arr, target_sum) # O(N)\n hash = Hash.new(0)\n count = Hash.new(0)\n\n arr.each do |num|\n hash[num] = target_sum - num\n count[num] += 1\n end\n\n hash.each do |key, value|\n if hash.has_key?(value) \n if key == value \n if count[value] > 1\n return true\n end\n else\n return true\n end\n end\n end\n\n false\nend", "def fds(n)\n\n # arr = []\n # (n + 1).times.each{|e| arr << e if e > 0}\n # arr.flat_map.reduce(:*)\n # arr.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n (1..n).to_a.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n\nend", "def naive(array)\n max = -10000\n for i in (0..array.length - 1)\n for j in (i..array.length - 1)\n total = array[i..j].inject { |m,k| m + k }\n max = total if total > max\n end\n end\n max\nend", "def running_time(array)\n cnt = 0\n (1...(array.length)).each do |x|\n y = x\n while y.positive?\n break unless array[y - 1] > array[y]\n\n temp_num = array[y]\n array[y] = array[y - 1]\n array[y - 1] = temp_num\n cnt += 1\n y -= 1\n end\n end\n cnt\nend", "def fifth_anagram?(word1, word2) # O(n)\n \n p \"Running fifth_anagram...\" \n\n start = Time.now\n \n hash1 = Hash.new(0)\n # hash2 = Hash.new(0)\n\n word1.each_char {|char| hash1[char] += 1}\n word2.each_char {|char| hash1[char] += 1}\n\n hash1.values.all? {|v| v.even?}\n\n\n # puts \"Took #{Time.now - start} seconds\"\n\n \nend", "def my_min_2(arr) #O(N)\n min_num = arr.first\n \n arr.each { |num| min_num = num if num < min_num }\n \n min_num\n end", "def solution(a)\n result = 0\n tmp_count = 0\n a.each_with_index do |val, idx|\n if val.zero?\n tmp_count += 1\n else\n result += tmp_count\n end\n end\n return result > 1000000000 ? -1 : result\nend", "def solution(a)\n # write your code in Ruby 2.2\n seen = {}\n\n a.each do |number|\n seen[number] = true\n end\n\n max = a.max\n\n for i in 1..(max + 1)\n return i unless seen[i]\n end\n\n 1\nend", "def solution(a)\n a.uniq.count\nend", "def solution(a)\r\n # write your code in Ruby 2.2\r\n \r\n arr =[]\r\n a.each_with_index{|el,i|\r\n \r\n if !arr.index(el) \r\n arr << el\r\n end\r\n \r\n }\r\n arr.count\r\nend", "def solution(a)\n accessed = Array.new(a.size + 1, nil)\n caterpillar_back = 0\n count = 0\n\n a.each_with_index do |x, caterpillar_front|\n if accessed[x] == nil\n accessed[x] = caterpillar_front\n else\n new_caterpillar_back = accessed[x] + 1\n first_part_size = caterpillar_front - caterpillar_back\n second_part_size = caterpillar_front - new_caterpillar_back\n count += first_part_size * (first_part_size + 1) / 2\n count -= (second_part_size) * (second_part_size + 1) / 2\n caterpillar_back.upto(new_caterpillar_back - 1) { |n| accessed[a[n]] = nil}\n accessed[x] = caterpillar_front\n caterpillar_back = new_caterpillar_back\n end\n end\n\n remaining_size = a.size - caterpillar_back\n count += (remaining_size) * (remaining_size + 1) / 2\n end", "def solution(a)\r\n # write your code in Ruby 2.2\r\n #trangular\r\n # a[0] = 10\r\n # a[2] = 5\r\n # a[4] = 8\r\n # 10 + 5 > 8\r\n # 5 + 8 > 10\r\n #8 + 10 > 5\r\n \r\n \r\n l=a.count\r\n \r\n i=0\r\n while(i<l) do\r\n j=i+1\r\n while(j<l) do\r\n k=j+1\r\n \r\n \r\n while(k<l) do\r\n if((a[i] + a[j] > a[k]) && (a[j] +a[k] > a[i]) && (a[k] + a[i] >a[j]))\r\n return 1\r\n end\r\n k+=1 \r\n end \r\n \r\n j+=1 \r\n end\r\n i+=1\r\n end\r\n \r\n return 0\r\n \r\nend", "def solution(a)\n # write your code in Ruby 2.2\n \n is_perm = 0\n \n n = a.length\n b = [0]*n\n \n \n a.each do |v|\n break if v > n \n break if b[v] == 1 \n b[v] = 1\n end\n \n sum = b.inject(:+)\n if sum == n\n is_perm = 1\n end\n \n is_perm\nend", "def solution(a)\n len = a.size\n unique = {}\n i = 0\n while i < len\n item = a[i]\n if unique.has_key?(item)\n unique[item] += 1\n else\n unique[item] = 1\n end\n i += 1\n end\n pairs = 0\n unique.each do |key,count|\n (1...count).step {|n| pairs += n }\n end\n return pairs > 1_000_000_000 ? 1_000_000_000 : pairs\nend", "def second_anagram?(word1, word2)\n p \"Running second_anagram?...\" \n\n start = Time.now\n word2 = word2.split(\"\") #O(n)\n word1.each_char do |char| #O(n)\n char_index = word2.index(char) #O(n)\n if char_index.nil? #O(1)\n return false #O(1)\n else\n word2.delete_at(char_index) #O(1)\n end\n end\n word2.empty? #O(1)\n p \"Took #{Time.now - start} seconds\"\nend", "def solution(a)\n length = a.length\n sum = (length + 1) * (length + 1 + 1) / 2\n\n sum - a.inject(0) { |acc, e| acc += e }\nend", "def canBeSum(n, array, cache)\n\ti = 0\n\twhile array[i] <= n / 2\n\t\tif cache[n-array[i]] # array.include?(n-array[i]) is OK, but very slow\n\t\t\treturn true\n\t\tend\n\n\t\ti += 1\n\tend\n\n\treturn false\nend", "def my_min2 # O(n) time complexity\n smallest = self.first\n self.each do |num|\n sleep(1)\n smallest = num if num < smallest \n end\n smallest\n end", "def seesaw2?(arr)\n left_sum = 0\n right_sum = arr.size > 1 ? arr[1..-1].reduce(:+) : 0\n\n arr.each_index do |i| #O(n)\n return true if left_sum == right_sum\n left_sum += arr[i]\n i < arr.size-1 ? right_sum -= arr[i+1] : right_sum = 0\n end\n return false\nend", "def two_sum(arr) #o(ns)\n set = Set.new\n arr.each{|el| set << el}\n arr.select{|el| set.include?(-1 * el)}\nend", "def solution(a)\n # write your code in Ruby 2.2\n sum = a.inject(:+)\n acc = 0\n\n min = 99999999\n a[0..-2].each do |n|\n sum -= n\n acc += n\n\n min = [(acc - sum).abs, min].min\n end\n min\nend", "def second_anagram?(str1, str2) #quadratic\r\n\r\n split = str2.split(\"\") #O(n)\r\n str1.split(\"\").each do |c| #O(n) <\r\n split.delete(c) #O(n) ^ O(n^2) when nested in above each block\r\n end\r\n\r\n split.empty?\r\nend", "def move_zeros(array)\n zero_count = 0\n # O(n)\n array.each do |num|\n\n zero_count += 1 if num == 0\n end\n\n # O(n)\n array = array.select { |num| num != 0 }\n \n # O(1)\n zero_count.times do\n array += [0]\n end\n\n array\nend", "def three_sum_fast(arr)\n arr = merge_sort(arr)\n count = 0\n\n (0..arr.length - 1).each { |i|\n (i + 1..arr.length - 1).each { |j|\n if bin_search(arr, -arr[i] - arr[j]) > j\n count += 1\n end\n }\n }\n count\nend", "def better_subsum(arr) # o(n)\n largest = 0 \n sum = 0 \n i = 0 \n j = 0\n\n while i != arr.length-1\n largest += arr[j]\n sum = largest if largest > sum \n if j == arr.length-1 \n i+=1 \n j = i \n largest = 0 \n else\n j+=1\n end \n end \n sum \n end", "def fourth_anagram?(str1, str2)\n\n str1_hash = Hash.new {|h,k| h[k] = 0 } # O(1)\n str2_hash = Hash.new {|h,k| h[k] = 0 } # O(1)\n\n str1.each_char do |char| # O(n)\n str1_hash[char] += 1\n end\n\n str2.each_char do |char| # O(n)\n str2_hash[char] += 1\n end\n\n str1_hash == str2_hash # O(1)\n\nend", "def equal(arr)\n size = arr.size\n hash = Hash.new{|h,k| h[k] = []}\n (0...size).each do |i|\n (i + 1...size - 1).each do |j|\n sum = arr[i] + arr[j]\n if hash.has_key?(sum)\n values = hash[sum]\n values << i\n values << j\n return values\n else\n hash[sum] = [i, j]\n end\n end\n end\nend", "def hash_two_sum(arr,target_sum)\n #creates a new hash with each element that is satisfying the target_sum\n hash = Hash.new(0) #{|h,k| h[k] = []}\n (0...arr.length).each { |i| hash[i] = arr[i]} #O(n)\nend", "def solution(x, a)\r\n # write your code in Ruby 2.2\r\n arr=[];\r\n i=0;\r\n l=a.count\r\n \r\n while(arr.count<=x)\r\n \r\n if(arr[i].nil?)\r\n arr << i\r\n end\r\n \r\n i+=1\r\n end\r\n i\r\nend", "def find_duplicate_space(nums)\n # sort nums first (lgn), then check for dups by iterate over (n)\n last_seen = 0\n nums.sort!.each do |num|\n return num if last_seen == num\n last_seen = num\n end\nend", "def two_sum_v3?(arr, target) \n hash = Hash.new\n arr.each { |ele| hash[ele] = ele } #o(n)\n arr.each do |ele| #o(n)\n search_value = target - ele\n return true if !hash[search_value].nil? && hash[search_value] != ele\n end\n false\nend", "def solution(a)\n a.sort!\n a.each_with_index do |element, index|\n return 0 if element != index + 1\n end\n 1\nend", "def find_unsorted_subarray(nums)\n \nend", "def better_sum1(arr, target) # this one is going to return true or false\n pairs = Set.new\n\n arr.each do |ele|\n if pairs.include?(ele)\n return true\n else\n pairs << target - ele\n end\n end\n false\nend", "def solution(a)\n return 0 if a.uniq.size != a.size\n \n max = a.size \n sum = (1 + max) * max / 2\n \n array_sum = a.inject(0, &:+) \n sum == array_sum ? 1 : 0 \nend", "def efficient_contiguous_subsum(list)\n current_sum = list[0] #0\n largest_sum = list[0] #5\n # debugger\n (1...list.length).each do |i| \n if current_sum + list[i] > 0 \n current_sum += list[i] \n largest_sum = current_sum if current_sum > largest_sum\n else \n current_sum = 0\n end \n end \n largest_sum\nend", "def two_sum?(arr, target_sum)\n hash = {}\n arr.each do |ele|\n diff = target_sum - ele\n return true if hash.has_key?(diff) # O(1), or constant time\n hash[ele] = 0\n end\n false\nend", "def find3(a, X)\n # scan through array\n # build hash storing complement in each key\n complements = {}\n a.each_with_index do |val, ind|\n if complements[X - val]\n complements[X - val].push(ind)\n else\n complements[X - val] = [ind]\n end\n end\n\n # scan through the array again\n # get complement\n # for each value scan the remainder of the arrray\n # for a value such taht a + b = the complement\n\n # for each character we have built a dictionary such that, we can find\n # x = a + complement\n\n # [1, 2, 3]\n # 1 + 2 = 3\n # 1 + 3 = 4 =>\n\n # for each value in the array (a) look at all following values (b) and see if a + b\n # is in the dictionary, if it is, check that their indices do not collide with the index\n # stored at dict(a+b)\n\n a.each_with_index do |va, i|\n a.each_with_index do |vb, j|\n break if i == j\n\n complement = va + vb\n indices = complements[complement]\n\n indices.each do |z|\n # every index is unique\n return [i, j, z] unless z == i || z == j\n end\n end\n end\n\n return nil\nend", "def largest_cont_subsum_fast(list)\n # for constant size to be true, you cant create any variables\n # whose memory size depends on the size of the input\n curr_sum = list[0]\n largest_sum = list[0]\n\n # we know there are n^2 potential, so if we ever check all of them\n # it must be n^2\n\n # there must be a way to find the max without checking every subarray\n list[1..-1].each do |ele|\n # debugger\n if curr_sum > largest_sum\n largest_sum = curr_sum\n end\n\n if curr_sum < 0\n curr_sum = 0\n end\n\n curr_sum += ele\n\n end\n\n # debugger\n return [largest_sum, curr_sum].max\n\nend", "def solution(a)\n s= a.sort\n 0.step(s.size - 1).inject(0) do |result, x|\n z= x+2\n (x+1).step(s.size - 1).inject(result) do |acc, y|\n z+=1 while z < s.size && s[x] + s[y] > s[z]\n acc += z-y-1\n end\n end\nend", "def largest_contiguous_subsum1(list)\n p Time.now\n sub_arrays = []\n list.each_index do |i|\n list.each_index do |j|\n next if j < i\n sub_arrays << list[i..j]\n end\n end\n sub_arrays.map{|numbers| numbers.inject(:+)}.max\n p Time.now\nend", "def fourth_anagram?(str1, str2) # O(n)\n hash = Hash.new(0) # 1\n str1.each_char {|char| hash[char] += 1} # n\n str2.each_char {|char| hash[char] -= 1} # n\n\n hash.values.all?(0) # n\n\nend", "def awesome(arr, target)\n hash = Hash.new(0)\n i = 0\n j = i + 1\n while i < arr.size\n hash[arr[i] + arr[j]] += 1 \n if j < arr.size\n j += 1\n else\n i += 1\n if j = i + 1 > arr.length\n j = i \n else\n j = i + 1\n \n end\n\n end\n \n end\n return true if hash[target] >= 1\n false\nend", "def largest_contiguous_subsum2(list)\n # O(N) ==> Time\n # O(1) ==> Space\n largest = list.first\n curr = list.first\n\n len = list.length\n (1...len).each do |i|\n curr = 0 if curr < 0 \n curr += list[i]\n largest = curr if curr > largest\n end\n largest\nend", "def solution(a)\n counts = {}\n for i in a\n counts[i] ||= 0\n counts[i] += 1\n end\n for i in (1..a.count)\n return 0 if counts[i] != 1\n end\n return 1\nend", "def my_min1(arr)\n arr.each do |el1| #O(n)\n if arr.all? {|el2| el1 <= el2 } #O(n + 1)\n return el1\n end\n end \nend", "def first_anagram?(str1, str2)\r\n possible = str1.split(\"\").permutation.to_a #O(n!)\r\n possible.map! {|ele| ele.join(\"\")} #O(n)\r\n possible.include?(str2) #O(n)\r\nend", "def okay_two_sum?(arr, target)\n sorted = arr.sort # n log n => quicksort => is nlogn DOMINANT\n sorted.each_with_index do |num, i| # => O(n)\n # return true if sorted[i] + sorted[-1 - i] == target\n return true if sorted[i + 1 .. - 1].bsearch {|number| target - num <=> number} # => O(log(n))\n # ASK TA ABOUT BSEARCH\n # bsearch {|ele| pivot <=> ele}\n end\n false\nend", "def findDiffSquares(n)\n sum = 0\n (1..n).each { |i|\n (1..n).each { |j|\n sum += i*j unless i == j\n }\n }\n sum\nend", "def solution_slow_2(n, p, q)\n sieve = sieve_of_erathosteneses(n)\n # puts \"sieve:#{sieve}\"\n semi = semiprimes(n, sieve)\n # puts \"sp:#{semi}\"\n prefix = [0,0,0,0,1]\n 5.upto(n) do |x|\n if semi.include? x \n prefix << prefix.last + 1\n else\n prefix << prefix.last\n end\n end\n # puts \"prefix:#{prefix}\"\n\n queries = [p,q].transpose\n\n\n res = queries.map do |query|\n prefix[query.last] - prefix[query.first - 1]\n end\n\n # puts \"res:#{res}\"\n\n res\n end", "def stones(n, a, b)\n ar=[0]\n (n-1).times do |val|\n tmp=[]\n ar.each do |v|\n tmp << v+a if !tmp.include?(v+a)\n tmp << v+b if !tmp.include?(v+b)\n end\n ar=tmp\n end\n ar.sort\nend", "def checkArray(a)\n\tn = a.length-1\n\tcount = 0\n\tfor i in 0..n do\n\t\tfor j in (i+1)..n do\n\t\t\tfor k in (j+1)..n do\n\t\t\t\tif (a[i] + a[j] + a[k] == 0)\n\t\t\t\t\tcount += 1\n\t\t\t\t\treturn count;\n\t\t\t\telse\n\t\t\t\t\treturn count;\n\t\t\t\tend\n\t\t\tend\n\t\tend\n\tend\nend", "def largest_contiguous_sub_sum2(arr)\n #one varable tracks largest sum\n #one variable tracks current sum\n #O(n) + O(1)\n # list = [2, 3, -6, 7, -6, 7]\n\n # largest_sum= arr.first\n\n # i = 0\n # arr_end = true\n\n # while arr_end\n # current_sum = arr[i]\n # if arr[i+1] == nil\n # arr_end = false\n # puts \"This is current sum: #{current_sum}\"\n # else\n # if current_sum > largest_sum\n # current_sum += arr[i+1]\n # largest_sum = current_sum\n # end\n # end\n # if i < arr.length\n # arr_end = true\n # i += 1\n # end\n # end\n # largest_sum\n \n\n\n # arr.each_with_index do |ele, idx|\n # if ele > largest_sum\n # largest_sum = ele\n # end\n\n # i = idx\n # sum = ele\n # while i < arr.length - 1\n # if sum <= sum + arr[i+1]\n # largest_sum = sum + arr[i+1]\n # end\n # sum = sum + arr[i+1]\n # i+=1\n # end\n # end\n # largest_sum\n\nend", "def fourth_anagram?(str1, str2) # .338 O(n)\n h1 = Hash.new(0)\n h2 = Hash.new(0)\n str1.each_char { |c1| h1[c1] += 1}\n str2.each_char { |c2| h2[c2] += 1}\n h1 == h2\nend", "def my_min(array) # O(n) - Linear\n counter = array[0]\n\n (1...array.length).each do |i|\n if counter > array[i]\n counter = array[i]\n end\n end\n counter\nend", "def sum_upon_sums(array)\n # Step 0: initialize variables => O(1)\n max = -1\n sum = 0\n\n # Step 1: Get Max and Sum => O(n)\n array.each do |num|\n max = num if num >= max\n sum += num\n end\n\n # Step 2: Get summation => O(1)\n summation = max * (max + 1) / 2\n\n # Step 3: Return Missing value by subtracting summation and sum => O(1)\n summation - sum\nend", "def lcs_phase_two(arr)\n return arr.max if arr.max < 0 #edge case\n\n current = 0\n largest = 0\n\n arr.each do |ele|\n current += ele\n current = 0 if current < 0 #bookmark\n largest = current if largest < current\n end\n\n largest\nend", "def fast_hash_additive_find(arr, target)\n lookup_table = Hash.new\n\n arr.each do |element|\n return true if lookup_table[target - element]\n if lookup_table[element]\n lookup_table[element] += 1\n else\n lookup_table[element] = 1\n end\n end\n\n return false\n end", "def hardcore_two_sum?(arr, target)\n nums = {}\n arr.each{ |n| nums[n] = n }\n\n nums.each do |n,_|\n needed = target - n\n return true if !nums[needed].nil? && nums[needed] != n\n end\n\n false\nend", "def cost(ar)\n c = 0\n for pd in ar\n for i, n in pd\n c += i*n + n*2\n end\n end\n c -= 2\nend", "def euler29(n)\n terms = []\n 2.upto(n) do |i|\n 2.upto(n) do |j|\n if terms.include?(i ** j) == false\n terms << i ** j\n end\n end\n end\n \n terms.length\nend", "def bf_inversions arr\n count = 0\n (0...arr.size).each do |i|\n ((i+1)...arr.size).each do |j|\n count+=1 if arr[i] > arr[j]\n end\n end\n count\nend", "def find_unique_elements(arr)\n \nend", "def get_products_but_self(arr)\n # raise 'need more than itself to get all other products' if arr.length < 2\n # result = [] \n # #first just try to come up with a way that works even if it's slow \n # arr.each_with_index do |el,idx|\n # arr[idx] = 1 \n # result << arr.reduce(:*) O(n) in a O(n) loop \n # arr[idx] = el \n # end \n # result This works, Time: O(n^2) space:O(n), created 1 new array Now try to optimize \n \n # Faster way, trying greedy way, constanly update the variable\n products_before_el = [1] # when we are at the first el, the product before that we use 1\n products_after_el = [] #we know that product after the last el, we can use 1, and since\n #we can only multiply, we backwards from the last el for products after el\n end_idx = arr.length - 1 \n products_after_el[end_idx] = 1\n (1..end_idx).each do |i| # time O(n)\n products_before_el[i] = products_before_el[i-1]*arr[i-1]\n products_after_el[end_idx - i] = products_after_el[end_idx - i + 1]*arr[end_idx - i +1]\n end \n result = []\n arr.length.times do |i| \n result[i] = products_before_el[i] * products_after_el[i]\n end \n result \n\n # Can we improve on space? \nend" ]

[ "0.64688283", "0.63178664", "0.6267248", "0.62198216", "0.62003064", "0.6068516", "0.60298127", "0.59856176", "0.59822917", "0.598102", "0.5910868", "0.5903023", "0.58936894", "0.5890103", "0.5879472", "0.58556885", "0.58543235", "0.5849014", "0.5835677", "0.57822996", "0.5779699", "0.57748854", "0.5774721", "0.5767835", "0.57464397", "0.57251805", "0.5723592", "0.57145303", "0.56900626", "0.56884664", "0.56832945", "0.56797016", "0.56791097", "0.56635123", "0.5662269", "0.56566966", "0.5655867", "0.5651081", "0.5648561", "0.56481177", "0.56458753", "0.56358856", "0.56207335", "0.56183076", "0.5616148", "0.56144124", "0.56057686", "0.5592543", "0.5587115", "0.5582902", "0.55818653", "0.55811346", "0.5572391", "0.557126", "0.5570052", "0.5563378", "0.55596167", "0.5556394", "0.5553933", "0.5552467", "0.5552357", "0.5551158", "0.5550001", "0.5526713", "0.55242395", "0.5522795", "0.5511609", "0.55062497", "0.550335", "0.55030596", "0.5500208", "0.5496503", "0.54927975", "0.54906374", "0.5489878", "0.5483197", "0.54818785", "0.547454", "0.54701877", "0.5469552", "0.54682666", "0.54626334", "0.54616946", "0.54614156", "0.5461224", "0.54606897", "0.5457935", "0.5457248", "0.5454806", "0.54475284", "0.5445509", "0.54435945", "0.5442592", "0.54347587", "0.54278564", "0.5426472", "0.54249805", "0.54202795", "0.5403773", "0.5402338", "0.53939664" ]

[ "def reduce_max_times_if_no_more_registrations\n errors.add(:max_times, 'already has more registrations') if max_times_changed? && max_times < registrations.count && max_times != 0\n end", "def build_registrations!\n quantity.times.map{registrations.build(:product => product)}\n end", "def non_elimination\n\t 3.times do |n|\n\t registers.each do |registrant|\n\t matches.build(:round => n + 1, :register_id => registrant.id).save\n\t end\n\t end\n\t end", "def create_maximum_child_profile\n i = 0\n profile_arr = []\n while !has_registration_complete_lbl? && i < 10\n # Generate profile info\n name = 'profile' + i.to_s\n gender = %w(Boy Girl)[rand(0..1)]\n grade = ['Early Pre-K', 'Pre-K', 'Kindergarten', '1st', '2nd', '3rd', '4th', '5th', '6th'][rand(0..8)]\n month = %w(January February March April May June July August September October November December)[rand(0..11)]\n day = rand(1..29).to_s\n year = rand(2006..2015).to_s\n\n if create_profile_form.has_create_another_profile_btn?\n # Click on Create Another Profile button\n create_profile_form.create_another_profile_btn.click\n end\n\n if create_profile_form.has_first_name_txt?\n enter_profile_info(name, gender, grade, month, day, year)\n end\n\n profile_arr.push(\n slot: i.to_s,\n name: name,\n gender: gender_mapping(gender),\n grade: grade_mapping(grade),\n dob: dob_mapping(month, day, year)\n )\n sleep(2)\n i += 1\n end\n profile_arr\n end", "def create_for_all_registrants\n signed_up_registrants.each do |registrant_sign_up|\n registrant_sign_up.create_reg_item\n end\n end", "def test_generate_unique_ids\n\n n = 10_000\n\n wfids = (1..n).collect { @dashboard.context.wfidgen.generate }\n\n assert_equal n, wfids.uniq.size\n end", "def check_for_registry_leaks\n expected = @players.size + @npcs.size\n actual = @registry.size\n if expected != actual\n raise \"We have #{expected} game entities, #{actual} in registry (delta: #{actual - expected})\"\n end\n end", "def before_adding_person(person)\n if self.people_without_deferred_save.size + [person].size > maximum_occupancy\n raise \"There are too many people in this room\"\n end\n end", "def registration_requests\n # TODO: generate a request for each supported version\n [RegisterRequest.new(challenge)]\n end", "def create_generation\n old_persons = Array.new(@all_persons)\n clear_world\n unless old_persons.empty?\n best_person = highest_fitness(old_persons)\n best_person.reset_energy_level\n @all_persons.push(best_person) unless best_person.nil?\n while @all_persons.size < @total_people and !old_persons.empty?\n if old_persons.size >= 10\n sample_size = 10\n elsif old_persons.size >= 5\n sample_size = 5\n else\n sample_size = 3\n end\n sample_one = old_persons.sample(sample_size)\n sample_two = old_persons.sample(sample_size)\n\n parent_one = highest_fitness(sample_one)\n parent_two = highest_fitness(sample_two)\n\n old_persons.delete_if { |x| x == parent_one or x == parent_two }\n (0..1).each do\n coords = get_empty_coords\n new_person = Person.new(coords[0], coords[1], @x_size, @y_size, parent_one.get_chromosome, parent_two.get_chromosome)\n @all_persons.push(new_person)\n end\n end\n end\n @generation += 1\n end", "def launch_minimum_number_of_instances \n if can_start_a_new_instance? && !minimum_number_of_instances_are_running? \n list_of_pending_instances.size == 0 ? request_launch_one_instance_at_a_time : wait(\"5.seconds\")\n reset!\n launch_minimum_number_of_instances\n provision_slaves_from_n(minimum_instances.to_i)\n after_launched\n end\n end", "def current_user_number_of_registrations\n if current_user\n CourseRegistration.where(course_id: @course.id, user_id: current_user.id).count\n end\n end", "def request_launch_new_instances(num=1)\n out = []\n num.times {out << launch_new_instance!}\n out\n end", "def backfilled_visitors\n existing = visitors\n num_needed = max_visitors - existing.count\n backfill = num_needed.times.map { Visitor.new }\n existing.to_a + backfill\n end", "def make_new(server)\n if (n = size) >= @max_size\n @allocated.keys.each{|t| release(t) unless t.alive?}\n n = nil\n end\n super if (n || size) < @max_size\n end", "def random_objects_with_max(max, model_type)\n number_of_objects = Random.rand(1..max)\n objects = []\n number_of_objects.times do |index|\n objects[index] = create(model_type)\n end\n objects\nend", "def remaining?\n return true if max_times.zero?\n registrations.count < max_times\n end", "def signup(n=N)\n puts \"-- Signup #{n} Users\"\n n.times do |i|\n User.create(\"testuser#{i}\", \"password#{i}\")\n end\nend", "def generate_departments\n 30.times do\n Department.create(name: Faker::Commerce.unique.department)\n end\n# Just in case Faker has less data than I imagine\nrescue Faker::UniqueGenerator::RetryLimitExceeded\nend", "def auto_assign_users(team_size)\n all_registrations = course.registrations.where(for_credit: true).\n includes(:user).all\n\n team_sets = []\n overflow = []\n all_registrations.group_by(&:for_credit?).each do |credit, registrations|\n students = registrations.map(&:user).shuffle!\n (0...students.length).step(team_size) do |i|\n team_set = students[i, team_size]\n if team_set.length == team_size\n team_sets << team_set\n else\n overflow += team_set\n if overflow.length >= team_size\n team_sets << overflow.shift(team_size)\n end\n end\n end\n end\n team_sets << overflow\n\n teams = team_sets.map.with_index do |members, i|\n team = Team.create! partition: self, name: \"Team #{i + 1}\"\n members.each do |member|\n TeamMembership.create! user: member, team: team, course: course\n end\n team\n end\n\n teams\n end", "def generate_nodes!\n 7.times do |index|\n game.nodes.create(\n position: index,\n land_ids: land_ids_for_node(index)\n )\n end\n end", "def max_snapshot_groups; end", "def generate_unis\n\n @max = params[:uni_num].to_i + '@batch.unis.count'.to_i\n\n\n # @max = '0'.to_i and '24'.to_i\n\n if @max >= '24'.to_i\n # params[:uni_num].to_i.times do Uni.create(batch_id: params[:id], user_id: (current_user.id), rand_num: rand(1000000))\n redirect_to :back, notice: \"You can only generate 24 numbers at a time!\"\n elsif\n\n # params[:uni_num].to_i.times do Uni.create(batch_id: params[:id], user_id: (current_user.id), rand_num: rand(1000000))\n '6'.to_i.times do Uni.create(batch_id: params[:id], user_id: (current_user.id), rand_num: rand(1000000))\n end\n\n # redirect_to unis_url(@uni), notice: \"Your uni numbers are listed below ;)\"\n redirect_to :back, notice: \"Your unique numbers are listed below :-]\"\n end\n\n end", "def create_generations\n @generations.each do |g|\n create_generation(g) unless Generation.find_by(name: g['name'])\n end\n end", "def generate_with_hash_length\n @numberHash.clear\n while @numberHash.length < @count\n @numberHash[rand(@limit)] = nil\n end\n @numbers = @numberHash.keys\n end", "def default_reservation_size\n\t\t\t\t\t1\n\t\t\t\tend", "def create\n p = params[:registration]\n training = Training.find_by_code(p[:training_code])\n owner = Student.find_by_wp_email(p[:owner_email])\n reg_type = p[:reg_type]\n if reg_type == 'single-self'\n registerable = owner\n elsif reg_type == 'single-other'\n registerable = Student.find_by_wp_email(p[:registrant_email])\n else \n registerable = Group.find_by_handle(p[:group_handle])\n end\n @registration = Registration.new(reg_type: reg_type)\n @registration.owner = owner\n @registration.registerable = registerable\n @registration.training = training\n\n # Fix this. We need to have a sequence in the database.\n @registration.code = 100000 + rand(900000)\n\n respond_to do |format|\n if @registration.save\n format.html { redirect_to @registration, notice: 'Registration was successfully created.' }\n format.json { render :show, status: :created, location: @registration }\n else\n format.html do\n @trainings = Training.all\n render :new\n end\n format.json { render json: @registration.errors, status: :unprocessable_entity }\n end\n end\n end", "def num_signed_up_registrants\n registrant_event_sign_ups.signed_up.count\n end", "def canRegister\n\t\tif(num_enrolled.to_i<capacity.to_i)\n\t\t\treturn true\n\t\telse\n\t\t\treturn false\n\t\tend\n\t\tend", "def new_rooms\n min_rooms = MIN_NEXT_ROOMS\n max_rooms = MAX_NEXT_ROOMS\n rand(min_rooms..max_rooms).times do\n @next_rooms << Zarta::Room.new(@dungeon)\n end\n end", "def max_reg_address\n @max_reg_address || 0\n end", "def specific_max_size(number); end", "def make_hotel_rooms\n (1..20).each do |num|\n @all_rooms << num #Hotel::Room.new(num) I don't think I have to do this\n end\n end", "def max_address_reg_size\n @max_address_reg_size\n end", "def generate_devices device_count\n return if upstream_sessions.count >= device_count\n print \"Generating #{device_count} devices...\" if Rails.env.development?\n needed_devices = device_count - upstream_sessions.count\n needed_devices.times.each do |i|\n generate_upstream_session\n report_progress = (needed_devices >= 10) && (i % (needed_devices/10).to_i == 0)\n yield \"Generated #{i} devices.\" if report_progress && block_given?\n end\n puts 'done.' if Rails.env.development?\n end", "def create_random_list(limit)\n limit.times do\n add(rand(10))\n end\n end", "def slots_available\n 5 - users.size\n end", "def limit_number_of_family_members\n errors.add(:base, 'You cannot add any more family members to this family') if family.additional_family_members.size > 9\n end", "def candidate_limit(uuid); end", "def generate_keys(num)\n num.times.inject({}) do |acc, i| \n key = ::Digest::MD5.hexdigest(i.to_s)\n node = redis.node_for(key).client\n hash_key = \"redis://#{node.host}:#{node.port}/#{node.db}\"\n acc[hash_key] = [] if acc[hash_key].nil?\n acc[hash_key] << key\n acc\n end\n end", "def schedule_workers\n log(:debug, 'Schedule maximum number of workers to all available resource configurations')\n @resources_interface.get_available_resource_configurations.each do |configuration|\n log(:debug, \"#{configuration.inspect}\")\n @resources_interface.schedule_workers(Float::INFINITY, configuration)\n end\n end", "def start_registration\r\n \r\n end", "def unique(max_retries = T.unsafe(nil)); end", "def gen_new_node_num()\n gen_uniq_rand($node_range, $nodes)\nend", "def ruby_gc_init_slots\n 10_000\n end", "def gen_dummy_users\n num = (1..5).to_a\n users = num.map {|n| \"user\" + n.to_s}\n emails = users.map {|e| e + \"@mailforspam.com\" }\n num.each{ |n| User.create(email: emails[n - 1], password: \"12312312\", password_confirmation: \"12312312\", username: users[n - 1]) }\nend", "def make_hp_regeneration\n @superman.hp_pool += @superman.hp_regen\n @batman.hp_pool += @batman.hp_regen\n end", "def initialize(max_value)\n self.count, self.store = 0, Array.new(max_value, false)\n end", "def workers(count); end", "def fill_pool\n number = Prompt.where(prompt_type: @name, game_id: nil).count\n if number < POOL_SIZE\n for index in 0...(POOL_SIZE - number)\n generate\n end\n end\n end", "def make_33_users\ncounter = 0\n\nwhile counter < 33 \n counter += 1 \n User.create(username: \"evan_#{counter}\", email: \"user#{counter}@user.com\", password_digest: \"password_#{counter}\")\n end \nend", "def set_generation\n i = 0\n while i < CONST_GENERATIONS.size && self.generation.nil?\n if self.id > CONST_GENERATIONS[i]\n i += 1\n else\n self.generation = i + 1\n end\n end\n end", "def launch_minimum_instances\n request_launch_new_instances(Application.minimum_instances - number_of_pending_and_running_instances)\n nodes\n end", "def generate_instances(supervisor, quantity = self.quantity)\n quantity.times.map { |i| create_instance(supervisor) }\n end", "def max_battle_members\n @max_battle_member_count ||= FormationConfig::DEFAULT_BATTLE_MEMBERS\n end", "def create_franchises\n 8.times do \n Franchise.create(company_id: Company.all.sample.id, owner_id: Owner.all.sample.id, location: Faker::Address.city, profit: Faker::Number.within(range: -1000.00..1000000.00))\n end\nend", "def maximum_requests\n super\n end", "def fill! num=@pool-@count\n raise CreatorError, NO_CONSTRUCTOR_MSG if @create.nil?\n \n return 0 if full?\n num = @pool-num.abs if num < 0\n return 0 if num <= 0\n \n objs = num.times.map(&@create.method(:call))\n expr_addition = objs.zip([Time.now]*num)\n \n threadsafe do\n @expr_hash.merge(expr_addition)\n @stack.push *objs\n @count += num\n end\n \n start_purging!\n\t\t\n\t\tnum\n\tend", "def registers; end", "def add_x_users(num, *args)\n\n puts \"Adding #{num} users, params=#{args.inspect}\"\n\n org = Org.find(:first)\n\n name = \"Test User\"\n login_name = \"testuser\"\n password = \"password\"\n phone = \"+123456789\"\n validated = true\n group_name = nil\n\n if args.length==1\n params = args[0]\n name = params[:name] if params[:name]\n login_name = params[:username] if params[:username]\n password = params[:password] if params[:password]\n phone = params[:phone] if params[:phone]\n validated = params[:validated] if params[:validated]\n group_name = params[:group]\n end\n\n if group_name and Group.find_by_name(:first,group_name)\n raise \"The group #{group_name} already exists!\"\n end\n \n # find the first unique test user name\n next_avail_user_num = 0\n found = true\n while found do\n next_avail_user_num = next_avail_user_num + 1\n found = User.find_by_login_name(login_name+next_avail_user_num.to_s) != nil \n print \".\"\n end\n\n puts \"found next #{login_name} #{next_avail_user_num}\"\n\n users = []\n num.times do |i|\n u = User.new\n u.org = org\n u.name = name + (next_avail_user_num+i).to_s\n u.login_name = login_name + (next_avail_user_num+i).to_s\n u.password = password\n u.phone = phone\n u.save!\n u.force_sms_validation!(validated)\n users << u\n puts \"Added user #{u.inspect}\"\n end\n\n if group_name\n # now create the group_name from this\n group = Group.new\n group.org = org\n group.name = group_name\n group.save!\n puts \"Added group #{group.inspect}\"\n users.each do |u|\n u.groups << group\n end\n puts \"Added all users to groups\"\n end\n\n users\nend", "def allocate_port_range(n)\n if n <= @free_ports.length\n ps = @free_ports.take(n)\n @free_ports = @free_ports.drop(n)\n @allocated_ports.concat(ps)\n PortAllocator.new(ports: ps)\n else\n raise NoPortsAvailable\n end\n end", "def enter_100k(num_rosters=1)\n contest_type = self.contest_types.where(\"name = '100k'\").first\n raise \"no 100k contest\" if contest_type.nil?\n system_user = User.where(:name => 'SYSTEM USER').first\n raise \"could not find system user\" if system_user.nil?\n num_rosters.times { Roster.generate(system_user, contest_type).fill_randomly.submit! }\n end", "def item_max; 64; end", "def available_instances\n @available_instances ||= {}\n end", "def initialize_devices\n count = workers * devices\n client = Client.new(base_url, max_concurrency: [count, 200].min) # Typheous gets flaky above 200\n if end_point.nil?\n update(end_point: EndPoint.find_or_create_by(base_url: base_url))\n end\n log \"setup\", \"Checking for #{count} generated devices in the local database.\"\n end_point.generate_devices(count) {|progress| log \"setup\", \"Devices: #{progress}\" }\n log \"setup\", \"Checking for #{count} logged in users.\"\n end_point.register_and_login_devices client,\n ->(r) { log \"setup\", \"Warm-up completed!\";r },\n ->(r) { log_error \"setup\", \"Device registration or login failed: #{r}\" }\n end", "def int(max_int)\n NumGen.new max_int\n end", "def initialize\n @max_resource_size = 10_000_000\n end", "def next_available_number\n request :get_next_available_number\n end", "def next_available_number\n request :get_next_available_number\n end", "def registry_created\n raise ActionController::RoutingError, \"Not found\" if Registry.count > 0\n end", "def generate_conference_pins\n self.guest_pin_long = \"#{rand(1_000_000_000..9_999_999_999).to_s[0..9]}#\"\n self.host_pin_long = \"#{rand(1_000_000..9_999_999).to_s[0..9]}#\"\n end", "def add_elevators(starting_floor, number_of_elevators)\n\t\tnumber_of_elevators.times do\n\t\t\te = Elevator.new(starting_floor, @elevator_strategy)\n\t\t\t@elevators << e\n\t\t\t@sim.register(e)\n\t\tend\n\tend", "def try_create\n return if @created == @max\n\n obj = @create_block.call()\n @created += 1\n obj\n end", "def newPort()\n \"Return the next port number to allocate.\"\n if @ports.length > 0\n return @ports.values.max + 1\n end \n return @@portBase\n end", "def new_generation\n # Incrementiamo il contatore di generazioni, per motivi di\n # studio e statistica, e poi generiamo una roulette propor-\n # zionale al fitness. \n # NOTA: non si può chiamare new_generation se non è stato\n # prima eseguito un test sul fitness.\n @current_generation += 1\n roulette = Roulette.new(@fitness_pool)\n \n # Ottenuta la roulette possiamo farla girare in modo da\n # estrarre coppie di cromosomi da riprodurre\n # Il loop viene eseguito popolazione / 2 volte perché ogni\n # accoppiamento produce due figli.\n # Esistono versioni alternative che da ogni accoppiamento\n # fanno nascere un solo figlio. \n new_population = []\n (@population.size / 2).times do\n mother = @population[roulette.extract]\n father = @population[roulette.extract]\n \n # Inseriamo i figli nella nuova popolazione\n Chromosome.mated_pair(mother, father).each do |chromosome|\n new_population << chromosome\n end\n end\n \n # Il vecchio lascia il posto al nuovo - è la legge della vita\n @population = new_population\n end", "def generate_registration_token\n candidate_token = nil\n\n while candidate_token.nil?\n candidate_token = SecureRandom.hex(3).upcase\n candidate_token = nil unless Device.find_by(registration_token: candidate_token).nil?\n end\n\n self.registration_token = candidate_token\n end", "def registers(user, product)\n if(registrations.size < quantity and not user.registered_to?(product))\n user.registrations.build(:product => product, :execution => self)\n end\n end", "def gen_ip_addresses(max=20)\n (1..max).map do |octet|\n \"192.168.#{octet}.1\"\n end\nend", "def new_users\n print \"\\nadding 5 new users: \"\n users = []\n 5.times do\n print '.'\n user = User.create!(\n email: Faker::Internet.unique.email,\n password: \"password\",\n first_name: Faker::Superhero.descriptor,\n last_name: Faker::Superhero.suffix\n )\n users << user\n end\n users\nend", "def generate_users\n @users = (1..GEN_USERS).to_a\n (1..@users.length).each do |user|\n username = Faker::Internet.user_name\n email = Faker::Internet.safe_email(username)\n unless User.create!(username: username, email: email)\n puts \"*********** ERROR ******************\"\n end\n end\nend", "def create_parcel_slot_lot(number)\n @max_key = number\n @slot_numbers = Slot.generate_slot_numbers(number)\n @parcel = Parcel.new\n puts \"Created a parcel slot with #{number} slots\"\nend", "def generate_promotions\n # This \"promotion\" is the one used to populate products with no promotion\n PromoCode.create(code: 'nopromo', discount: 0)\n Faker::Commerce.unique.exclude :string, [7], %w[nopromo]\n\n 15.times do\n PromoCode.create(\n code: Faker::Commerce.unique.promotion_code,\n discount: Faker::Commerce.price(20.0..50.0)\n )\n end\n# Just in case Faker has less data than I imagine\nrescue Faker::UniqueGenerator::RetryLimitExceeded\nend", "def daily_limit_check\n errors.add(:base, \"Glucose Level can not be added more than 4 times a day.\") if GlucoseLevel.where(:user_id => user_id, :registered_date => registered_date).size >= 4\n end", "def get_registrations_per_week\n result = []\n\n if registrations &&\n registration_start_date &&\n registration_end_date\n\n reg = registrations.group(\"strftime('%W', created_at)\").count\n start_week = get_registration_start_week\n weeks = registration_weeks\n result = calculate_items_per_week(start_week, weeks, reg)\n end\n result\n end", "def bootstrap_users\n @@bootstrap_users ||= []\n return @@bootstrap_users unless @@bootstrap_users.length == 0\n 12.times do\n u = User.gen\n @@bootstrap_users << u\n u.build_watch_collection\n end\n return @@bootstrap_users\nend", "def register_worker(name, bucket_count, config={})\n options = { :iteration_length => 60, :servers => ['127.0.0.1:11211'] }\n options.merge!(config)\n\n self.group_name = name\n self.iteration_length = options[:iteration_length]\n @memcache_client = client_for(Array(options[:servers]))\n\n @buckets = []\n @bucket_count = bucket_count\n initialize_buckets\n\n\t\t register_with_bonjour\n\t\t \n\t\t log.info { \"Registered #{self} in group #{group_name} at port #{@port}\" }\n end", "def current_or_create_new_institutions\n Institution.current_or_create_new(name: 'Demo Institution', street_address: '1234 Main St.', city: 'Williamstown', state: 'MA', country: 'USA', gps_longitude: -73.202887, gps_latitude: 42.710570, range: 0.002, configuration_id: 1, api_key: 'DEMO01267')\n Institution.current_or_create_new(name: 'Development', street_address: '123 Main St.', city: 'Anytown', state: 'NY', country: 'USA', gps_longitude: -74.062958, gps_latitude: 40.869911, range: 0.005, configuration_id: 2, api_key: 'DEVELOPMENT')\n Institution.current_or_create_new(name: 'Williams', street_address: '880 Main St.', city: 'Williamstown', state: 'MA', country: 'USA', gps_longitude: -73.202887, gps_latitude: 42.710570, range: 0.001, configuration_id: 3, api_key: 'WILLIAMS')\nend", "def n_generator\n number = rand(10..30)\n end", "def max_identities(max)\n @max_identities = max.to_i\n self\n end", "def max_invalid_logins\n 100\n end", "def pool_capacity; end", "def compute_free_places\n max_participants - compute_occupied_places\n end", "def count_used_instances\n count = 0\n return count\n end", "def ids_in_list_limit\n 1499\n end", "def max_snapshot_groups=(_arg0); end", "def resource_limits; end", "def resource_limits; end", "def generate_invitees_for(micropost, num_invitees)\r\n\twhile num_invitees > 0 do\r\n\t\tmicropost.add_to_invited(FactoryGirl.create(:user))\r\n\t\t\r\n\t\tnum_invitees-=1\r\n\tend\r\nend", "def test_tile_rack_with_one_tile_should_need_max_minus_one_tiles\n @newTileRack.append(:A)\n assert_equal(6,@newTileRack.number_of_tiles_needed)\n end", "def generate_number\n begin\n begin\n num = rand(10)\n end while @guessed_number.include?(num)\n @guessed_number.push(num)\n end while @guessed_number.size < 4\n end" ]

[ "0.6555691", "0.60335755", "0.5734284", "0.56878096", "0.5662171", "0.5638957", "0.5582231", "0.5532331", "0.5519514", "0.5504393", "0.5489561", "0.5482158", "0.5479332", "0.5465627", "0.5444873", "0.54357487", "0.54290384", "0.5416783", "0.54023385", "0.5400763", "0.53891665", "0.5382576", "0.53724575", "0.53637034", "0.5354735", "0.5350246", "0.534954", "0.5347965", "0.5308402", "0.53079057", "0.5299438", "0.52984446", "0.52869236", "0.5284474", "0.5275025", "0.5272651", "0.52701426", "0.52687275", "0.5252867", "0.52228224", "0.5220844", "0.52072275", "0.52052057", "0.5201852", "0.51987225", "0.519275", "0.51901484", "0.5186223", "0.5178481", "0.51762974", "0.5175139", "0.51748616", "0.5174664", "0.5169748", "0.51613474", "0.51550364", "0.5154212", "0.51490605", "0.51489633", "0.51398796", "0.5139537", "0.5137045", "0.5130284", "0.512758", "0.5116795", "0.5115231", "0.51136637", "0.51131916", "0.51131916", "0.5101516", "0.50978196", "0.5094814", "0.50905484", "0.5089876", "0.5063168", "0.5062998", "0.5059198", "0.5056618", "0.5046363", "0.5044975", "0.50407887", "0.5037848", "0.50373435", "0.50344974", "0.5031592", "0.50305134", "0.5029794", "0.5028558", "0.50276077", "0.5024611", "0.50216174", "0.5016418", "0.50161934", "0.50150853", "0.5009366", "0.50082743", "0.50082743", "0.50057214", "0.49994358", "0.49969015" ]

[ "def prefix=(prefix) @prefix = prefix end", "def prefixes; end", "def prefixes; end", "def prefix; end", "def prefix; end", "def prefix; end", "def prefix; end", "def prefix; end", "def prefix; end", "def prefix; end", "def prefix; end", "def prefix; end", "def prefix; end", "def prefix(new_prefix = nil)\n return @prefix if new_prefix.nil?\n @prefix = new_prefix\n end", "def prefix=(_); end", "def _prefixes; end", "def use_prefix\n prefix, @prefix = @prefix, nil\n @res << prefix if prefix\n\n prefix\n end", "def set_prefix\n if self.prefix.nil? && self.title.present?\n self.prefix = self.title.to_s.gsub(/\\W/, '').downcase\n end\n end", "def prefix=(_arg0); end", "def prefix_for(ns_href)\n namespaces[ns_href] || add_namespace(ns_href)\n end", "def wrap_prefix(prefix)\n prefix\n end", "def prefix(name, uri = nil)\n name = name.to_s.empty? ? nil : (name.respond_to?(:to_sym) ? name.to_sym : name.to_s.to_sym)\n uri.nil? ? prefixes[name] : prefixes[name] = (uri.respond_to?(:to_sym) ? uri.to_sym : uri.to_s.to_sym)\n end", "def prefix_css_selectors(prefix = \"_\")\n selector_regex = /^\\s*?(?!\\/\\*)+?[^:]*?(?!:\\s)([\\.#][^,\\s]*[:]?[^\\s,])$/\n\n new_sass = \"\"\n sass.each_line do |line|\n # Skip blank lines\n next if line =~ /^\\s*$/\n\n line = line.gsub(selector_regex) do |str|\n # Add the underscores\n str.gsub!(/([#.])/, \"\\\\1#{prefix}\")\n end\n new_sass << line\n end\n\n sass = new_sass\n end", "def prefix(*ps)\n set :prefixes, ps.map { |p| ::File.join(\"/\", p) }\n end", "def prefix(value)\n merge(aguprefix: value.to_s)\n end", "def prefix\n regexify(bothify(fetch('aircraft.prefix')))\n end", "def set_prefix_to(a)\n Kamelopard.id_prefix = a\n end", "def aref_prefix\n raise NotImplementedError\n end", "def prefix\n 'oai_dc' \n end", "def prefix!(prefix=\"DEFAULT\")\n @session.chanserv.set(self.name, :prefix, prefix)\n end", "def prefix(name, iri = nil)\n name = name.to_s.empty? ? nil : (name.respond_to?(:to_sym) ? name.to_sym : name.to_s.to_sym)\n iri.nil? ? prefixes[name] : prefixes[name] = iri\n end", "def route_name_prefix prefix\n @route_name_prefix = prefix\n end", "def delegation_prefix\n ensure_setup!\n options[:prefix].try(:to_s)\n end", "def local_prefixes; end", "def set_prefix\n @prefix = @str[@i_last_real_word...@i]\n end", "def exec_prefix() return @prefix end", "def prefix=(value)\n value += '/' if value != '' and value[-1] != '/'\n @prefix = value\n end", "def prefix(options={})\n default = site.path\n default << '/' unless default[-1..-1] == '/'\n self.prefix = default\n prefix(options)\n end", "def name_prefix=(_arg0); end", "def oprefix(f)\n Formula[f].opt_prefix\n end", "def prefix(value)\n merge(gadrprefix: value.to_s)\n end", "def handle_prefix(client, data)\n prefix, uri = data\n\n topic = @engine.find_or_create_topic(uri)\n client.add_prefix(prefix, topic)\n\n trigger(:prefix, client, prefix, uri)\n end", "def prefix(prefix)\n new(map { |attr| attr.prefixed(prefix) })\n end", "def prefix=(value)\n @prefix = value\n end", "def url_with_prefix\n\t\t( url.blank? ) ? '' :\n\t\t\t( url.match(/^http(s)?:\\/\\//) ? url : \"http://#{url}\" )\n\tend", "def name_prefix; end", "def prefix\n \"#{name}::\"\n end", "def prefix=(value = '/')\n # Replace :placeholders with '#{embedded options[:lookups]}'\n prefix_call = value.gsub(/:\\w+/) { |key| \"\\#{options[#{key}]}\" }\n\n # Redefine the new methods.\n code = <<-end_code\n def prefix_source() \"#{value}\" end\n def prefix(options={}) \"#{prefix_call}\" end\n end_code\n silence_warnings { instance_eval code, __FILE__, __LINE__ }\n rescue\n logger.error \"Couldn't set prefix: #{$!}\\n #{code}\"\n raise\n end", "def path_prefix=(value); end", "def _prefix_arg0(args, prefix)\n if args.size > 0 && !args[0].nil? && !args[0].include?(prefix)\n args[0] = prefix + args[0]\n end\n args\nend", "def prefix!( *pf )\r\n clone.prefix(*pf)\r\n end", "def add_filename_prefix(filename, prefix)\n filename = filename.rpartition(File.basename(filename))\n filename[1] = \"#{prefix}#{filename[1]}\"\n filename.join\n end", "def update_name_prefix(name_prefix)\n @name_prefix = \"#{@name_prefix}#{name_prefix}\"\n end", "def prefix\n nil\n end", "def _prefixes\n @_prefixes ||= super + ['catalog', 'hyrax/base']\n end", "def add_ns2_prefix(content)\n %w{ actuate arcrole entityref from href id linktype parent role show target title to xpointer }.each do | xa |\n content.gsub!(/ #{xa}=/) {|match| \" ns2:#{match.strip}\"} if content =~ / #{xa}=/\n end\n content\n end", "def prefix(value)\n merge(leprefix: value.to_s)\n end", "def prefix(prefix = nil, &block)\n raise ArgumentError if prefix.nil? && block.nil?\n @__cinch_prefix = prefix || block\n end", "def prefix\n raise NotImplementedError\n end", "def prefix_table\n update unless @prefix_table\n @prefix_table\n end", "def prefix_method_string prefix\n puts \"About to call PREFIX TABLE.to_full with #{prefix}\" if SY::DEBUG\n full_prefix = SY::PREFIX_TABLE.to_full( prefix )\n full_prefix == '' ? '' : \".#{full_prefix}\"\n end", "def prefixed(p)\n condition { env['enron.api.prefix'] == p }\n end", "def resource_prefix( route )\n\t\t\tself.service_options[ :prefix ] = route\n\t\tend", "def resource_prefix=(value)\n @prefix_parameters = nil\n\n resource_prefix_call = value.gsub(/:\\w+/) { |key| \"\\#{URI::DEFAULT_PARSER.escape options[#{key}].to_s}\" }\n\n silence_warnings do\n # Redefine the new methods.\n instance_eval <<-RUBY_EVAL, __FILE__, __LINE__ + 1\n def prefix_source() \"#{value}\" end\n def resource_prefix(options={}) \"#{resource_prefix_call}\" end\n RUBY_EVAL\n end\n rescue => e\n logger&.error(\"Couldn't set prefix: #{e}\\n #{code}\")\n raise\n end", "def prefix\n ''\n end", "def append_without_prefix(string); end", "def [](prefix)\n @prefixed[prefix] ||= PrefixedWithFallback.new(prefix, self)\n end", "def add_namespace(ns, prefix = \"unknown#{rand 65536}\")\n return nil if ns.nil? || ns.empty?\n unless namespaces.key? ns\n namespaces[ns] = prefix\n return prefix\n end\n end", "def prefix pref_name\n @context['prefix'] = pref_name\n end", "def cli_prefix=(_arg0); end", "def default_prefix=(prefix)\r\n # Find default prefix\r\n ns = find_by_prefix(nil)\r\n raise(ArgumentError, \"No default namespace was found\") unless ns\r\n Namespace.new(self.node, prefix, ns.href)\r\n end", "def prefixed(path)\n OneCfg::Config::Utils.prefixed(path, @prefix)\n end", "def url(prefix, stem)\n if prefix == ''\n \"/#{stem}/#{self.id}\"\n else\n \"#{prefix}/#{stem}/#{self.id}\"\n end\n end", "def subscribe(prefix)\n setsockopt :subscribe, prefix\n end", "def aref_prefix\n 'method'\n end", "def prefix(num)\n namespace + '_prefix_' + num.to_s\n end", "def userprefix(value)\n merge(ucuserprefix: value.to_s)\n end", "def prefix(path=nil)\n return ''\n end", "def start_of_string\n @prefixes = '\\A' + @prefixes\n end", "def prefix=(obj)\n obj = obj.split('/') if obj.is_a? String\n @prefix = obj\n end", "def auto_prefix\n # Add our IPv6 prefix.\n if (v6prefix == V6AUTO)\n Role.logger.info(\"Network: Creating automatic IPv6 prefix for #{name}\")\n user = User.admin.first\n # this config code really needs to move to Crowbar base\n cluster_prefix = user.settings(:network).v6prefix[name]\n if cluster_prefix.nil? or cluster_prefix.eql? V6AUTO\n cluster_prefix = Network.make_global_v6prefix\n user.settings(:network).v6prefix[name] = cluster_prefix\n end\n Network.transaction do\n update_column(\"v6prefix\", sprintf(\"#{cluster_prefix}:%04x\",id))\n end\n Rails.logger.info(\"Network: Created #{sprintf(\"#{cluster_prefix}:%04x\",id)} for #{name}\")\n create_auto_v6_range\n end\n end", "def plugin_prefixes( *args )\n\t\t@plugin_prefixes.replace( args ) if !args.empty?\n\t\treturn @plugin_prefixes\n\tend", "def prefix(*args)\n [@options[:env], @options[:prefix], *args].compact.join('.')\n end", "def prefix\n @prefix ||= '/assets'\n end", "def has_prefix?\n info(:use_the_prefix)\n end", "def setNamespace(prefix, uri) \n @obj.setNamespace(prefix, uri)\n end", "def bottle_prefix; prefix+'.bottle' end", "def with_prefix(name_or_symbol)\n self.class.initialize_prefixed_version(name_or_symbol,self)\n end", "def name_with_prefix(prefix, name)\n prefix ? \"#{prefix}[#{name}]\" : name.to_s\n end", "def plugin_prefixes=( args )\n\t\t@plugin_prefixes = Array( args )\n\tend", "def alias_processing\n self.alias = Russian.translit(self.alias.strip.gsub(' ', '_').gsub(/[\\W\\d]/, '')).downcase\n end", "def path_prefix=(value)\n url_prefix.path = if value\n value = '/' + value unless value[0,1] == '/'\n value\n end\n end", "def normalize_path(name, prefix)\n prefix.present? ? \"#{prefix}/#{name}\" : name\n end", "def normalize_path(name, prefix)\n prefix.present? ? \"#{prefix}/#{name}\" : name\n end", "def define_prefixes(prefs)\n\t\t\tprefs.each do |prefix, val|\n\t\t\t @@prefixes[prefix] = RDF::Vocabulary.new(val)\n\t\t\tend\n\t\tend", "def with_prefixes(*prefixes)\n [prefixes].map { |prefix| self.with_prefix(prefix) }\n end", "def path_prefix=(value)\n if value\n value.chomp! \"/\"\n value.replace \"/#{value}\" if value !~ /^\\//\n end\n @path_prefix = value\n end", "def cli_prefix; end", "def get_namespace(node, prefix); end", "def address_prefix\n return unless exists?\n properties.addressPrefix\n end" ]

[ "0.67473847", "0.67285955", "0.67285955", "0.66695315", "0.66695315", "0.66695315", "0.66695315", "0.66695315", "0.66695315", "0.66695315", "0.66695315", "0.66695315", "0.66695315", "0.6622057", "0.6607422", "0.6580267", "0.6458225", "0.64179486", "0.63889736", "0.6379755", "0.6370842", "0.6291013", "0.6285328", "0.6260609", "0.6246468", "0.615604", "0.61372715", "0.6120177", "0.6098182", "0.6071375", "0.60153073", "0.59884197", "0.5973094", "0.5961132", "0.59550196", "0.5942606", "0.5939036", "0.5936314", "0.5910191", "0.5903211", "0.59000206", "0.58673614", "0.5861085", "0.5860968", "0.58536416", "0.5833119", "0.582511", "0.5818154", "0.5801542", "0.5797245", "0.5762359", "0.5755127", "0.5736997", "0.57351816", "0.5729438", "0.57263273", "0.5722586", "0.5704565", "0.56991774", "0.5698588", "0.5676752", "0.565253", "0.5646646", "0.5613485", "0.56012094", "0.55921215", "0.557693", "0.55698127", "0.55665463", "0.5562097", "0.5541955", "0.553842", "0.5527691", "0.5524514", "0.5518761", "0.5500868", "0.5484029", "0.5482179", "0.54814297", "0.5476685", "0.5463802", "0.5462926", "0.54621077", "0.54415077", "0.5433975", "0.54292804", "0.5403583", "0.5399627", "0.5394662", "0.53914905", "0.5381378", "0.53676903", "0.53581417", "0.53580993", "0.53489894", "0.5347139", "0.53399026", "0.5330324", "0.5328119", "0.5315222" ]

[ "def split_refseq\n # prepare output files\n system(%Q[cut -f4 #{$prepare_dir}/refseq_genes_result.tsv | cut -c1-5 | sort | uniq > #{$prepare_dir}/refp_prefix_list.txt ]) # get exist prefix list of protein_id\n FileUtils.mkdir_p(\"#{$prepare_dir}/refp\") unless File.exist?(\"#{$prepare_dir}/refp\")\n refp_output = {}\n File.open(\"#{$prepare_dir}/refp_prefix_list.txt\") do |f|\n f.each_line do |line|\n prefix = line.chomp.strip\n refp_output[prefix] = File.open(\"#{$prepare_dir}/refp/#{prefix}.dat\", \"w\")\n end\n end\n refp_output[\"no_protein_id\"] = File.open(\"#{$prepare_dir}/refp/no_protein_id.dat\", \"w\") # protein_id is optional\n\n File.open(\"#{$prepare_dir}/refseq_genes_result.tsv\") do |f|\n f.each_line do |line|\n columns = line.chomp.strip.split(\"\\t\")\n prefix = (columns[3].nil? || columns[3] == \"\") ? \"no_protein_id\" : columns[3][0..4] # protein_id is optional\n refp_output[prefix].puts line.chomp.strip\n end\n end\n refp_output.each do |k, v|\n v.flush\n v.close\n end\nend", "def read_data_to(dir, data); end", "def read\n\t\t\n\t\t# Parse NMEA sentence until we find one we can use\n\t\twhile true do\n\t\t\tnmea = next_sentence\n\t\t\tdata = parse_NMEA(nmea)\n\t\t\t\n\t\t\t# Sentence parsed, now merge\n\t\t\tunless data[:last_nmea].nil?\n\t\t\t\t@collected << data[:last_nmea]\n\t\t\t\t@collected.uniq!\n\t\t\t\t@data.merge!(data)\t\n\t\t\t\t\n\t\t\t\tbreak\n\t\t\tend\n\t\t\t\n\t\tend\n\n\t\treturn @data\n\tend", "def getFtsProtSequences\n @gbkObj.each_cds do |ft|\n ftH = ft.to_hash\n loc = ft.locations\n gene = []\n product = []\n protId = \"\"\n if ftH.has_key? \"pseudo\"\n next\n end\n gene = ftH[\"gene\"] if !ftH[\"gene\"].nil?\n product = ftH[\"product\"] if !ftH[\"product\"].nil?\n protId = ftH[\"protein_id\"][0] if !ftH[\"protein_id\"].nil?\n locustag = ftH[\"locus_tag\"][0] if !ftH[\"locus_tag\"].nil?\n dna = getDna(ft,@gbkObj.to_biosequence)\n pep = ftH[\"translation\"][0] if !ftH[\"translation\"].nil?\n pepBioSeq = Bio::Sequence.auto(pep)\n seqout = pepBioSeq.output_fasta(\"#{@accession}|#{loc}|#{protId}|#{locustag}|#{gene[0]}|#{product[0]}\",60)\n puts seqout\n end\n end", "def all_related_data_files\n via_assay = related_assays.collect do |assay|\n assay.data_file_masters\n end.flatten.uniq.compact\n via_assay | related_data_files\n end", "def extract\n extract_all\n extract_ccs\n end", "def prepare_reads(base, map, fqgz0, *fqgzs0)\n\n fqgzs = [fqgz0] + fqgzs0\n\n bcs = Hash.new\n open(map, 'r').each do |line|\n bc, well = line.rstrip.split(',')\n bcs[bc] = well\n end\n \n bcl = bcs.keys.map!{|key| key.length}.sort.uniq[0]\n\n tso_pattern = '.'*options.umi_length + '.'*bcl + 'GG'\n\n #\n \n STDERR.puts \"#{`date`.strip}: Demultiplexing each raw sequence files...\"\n \n fqgz2csv0 = Hash.new\n fqgz2csv1 = Hash.new\n fqgz2base = Hash.new\n fqgzs.each do |fqgz|\n fqgz2csv0[fqgz] = get_temporary_path('strt.preprocess', 'csv', false)\n fqgz2csv1[fqgz] = get_temporary_path('strt.preprocess', 'csv', false)\n fqgz2base[fqgz] = get_temporary_path('strt.preprocess', 'base', false)\n end\n\n Parallel.map(fqgz2csv0.keys, in_processes: options.parallel) do |fqgz|\n cmds = [\n \"unpigz -c #{fqgz}\",\n \"#{fq1l_convert_command(options)}\",\n \"#{fq1l_count_command(options)} #{fqgz2csv0[fqgz]}\",\n \"fq1l match_5end#{grep_prefix_option(options)} #{tso_pattern}\",\n \"#{fq1l_count_command(options)} #{fqgz2csv1[fqgz]}\",\n \"fq1l annotate_index --first-cycle=#{options.umi_length+1} --last-cycle=#{options.umi_length+bcl}\",\n \"fq1l annotate_umi --first-cycle=1 --last-cycle=#{options.umi_length}\",\n \"fq1l sort_index#{coreutils_prefix_option}#{parallel_option(options)} --buffer-size=#{(options.maximum_memory/(fqgz2csv0.keys.size+1)).to_i}%\",\n \"fq1l demultiplex #{fqgz2base[fqgz]} #{map}\"\n ]\n cmds.insert(2, \"#{head_command(options)} -n #{options.reads}\") unless options.reads.nil?\n stats = Open3.pipeline(*cmds)\n stats.each_index do |i|\n raise \"Fail at process #{i}; #{stats[i]}; #{cmds[i]}\" unless stats[i].success? || (stats[i].signaled? && stats[i].termsig == 13)\n end\n end\n\n system \"fq1l sum_counts #{fqgz2csv0.values.join(' ')} > #{base}.count.step1.csv\"\n unlink_files(fqgz2csv0.values)\n \n system \"fq1l sum_counts #{fqgz2csv1.values.join(' ')} > #{base}.count.step2.csv\"\n unlink_files(fqgz2csv1.values)\n\n #\n \n (bcs.values + ['NA']).each do |well|\n\n STDERR.puts \"#{`date`.strip}: Finishing well #{well}...\"\n \n tmpfqgzs = fqgz2base.values.map {|base| \"#{base}.#{well}.fq.gz\"}\n csvs = Array.new(6) {|i| \"#{base}.#{well}.count.step#{i+3}.csv\"}\n \n pipeline(\"unpigz -c #{tmpfqgzs.join(' ')}\",\n \"#{fq1l_convert_command(options)}\",\n \"#{fq1l_count_command(options)} #{csvs[0]}\",\n \"#{fq1l_sort_command} --buffer-size=#{(options.maximum_memory/2).to_i}%\",\n \"fq1l exclude_duplicate\",\n \"#{fq1l_count_command(options)} #{csvs[1]}\",\n \"fq1l trim_3end_quality\",\n \"#{fq1l_count_command(options)} #{csvs[2]}\",\n \"fq1l trim_3end_primer#{coreutils_prefix_option}#{grep_prefix_option(options)}#{parallel_option(options)}\",\n \"#{fq1l_count_command(options)} #{csvs[3]}\",\n \"#{fq1l_sort_command} --buffer-size=#{(options.maximum_memory/2).to_i}%\",\n \"fq1l exclude_degenerate\",\n \"#{fq1l_count_command(options)} #{csvs[4]}\",\n \"fq1l trim_5end --minimum-length=#{options.minimum_length} #{tso_pattern}+\",\n \"#{fq1l_count_command(options)} #{csvs[5]}\",\n \"fq1l restore#{coreutils_prefix_option}\",\n \"pigz -c > #{base}.#{well}.fq.gz\")\n \n unlink_files(tmpfqgzs)\n \n end\n \n end", "def prepare_identities_from_files; end", "def find_transcript_pbs(fasta)\n proteins = {}\n fasta = (fasta || '').gsub(/(n|N)/, '')\n unless fasta.empty?\n begin\n uri = URI(@config[:rbpdb][:url] + @config[:rbpdb][:pbs_path])\n res = Net::HTTP.post_form(\n uri,\n 'thresh' => 0.8,\n 'seq' => fasta\n )\n page = Nokogiri::HTML(res.body)\n page.css('table.pme-main tr.pme-row-0, table.pme-main tr.pme-row-1').each do |row|\n # Fetch base data.\n pos = Container::Position.new(\n score: row.children[1].text[0...-1].to_i,\n start: row.children[3].text.to_i,\n end: row.children[4].text.to_i,\n seq: row.children[5].text\n )\n\n # Fetch protein name and build result structure.\n prot = row.children[2].children[0].text.upcase\n proteins[prot] ||= Container::Protein.new(name: prot)\n proteins[prot].positions << pos\n end\n rescue StandardError => e\n puts e.message, e.backtrace\n retry\n end\n end\n proteins\n end", "def getFtProtID\n protein_id = ARGV[1]\n protId = \"\"\n @gbkObj.each_cds do |ft|\n ftH = ft.to_hash\n ftloc = ft.locations\n if ftH[\"protein_id\"][0].include? protein_id\n gene = []\n product = []\n gene = ftH[\"gene\"] if !ftH[\"gene\"].nil?\n product = ftH[\"product\"] if !ftH[\"product\"].nil?\n protId = ftH[\"protein_id\"][0] if !ftH[\"protein_id\"].nil?\n locustag = ftH[\"locus_tag\"][0] if !ftH[\"locus_tag\"].nil?\n if ftloc[0].strand == -1\n location = \"c#{ftloc[0].from}..#{ftloc[0].to}\"\n else\n location = \"#{ftloc[0].from}..#{ftloc[0].to}\"\n end\n dna = getDna(ft,@gbkObj.to_biosequence)\n seqout = dna.output_fasta(\"#{@accession}|#{location}|#{protId}|#{locustag}|#{gene[0]}|#{product[0]}\",60)\n puts seqout\n end\n end\n end", "def getFtsSequences\n @gb.each_cds do |ft|\n ftH = ft.to_hash\n loc = ft.locations\n loc = \"c#{ft.locations[0].to_s}\" if ft.locations[0].strand == -1\n gene = []\n product = []\n gene = ftH[\"gene\"] if !ftH[\"gene\"].nil?\n product = ftH[\"product\"] if !ftH[\"product\"].nil?\n dna = getDna(ft,@gb.to_biosequence)\n seqout = dna.output_fasta(\"#{@accession}|#{loc}|#{ftH[\"protein_id\"][0]}|#{gene[0]}|#{product[0]}|#{@org}\",60)\n puts seqout\n end\nend", "def merge(prt_pdb, lig_pdb, complex_pdb)\n prt_lines = File.readlines(prt_pdb)\n lig_lines = File.readlines(lig_pdb)\n\n prt_atm_lines = prt_lines.select { |line| /ATOM/ =~ line }\n lig_atm_lines = lig_lines.select { |line| /HETATM/ =~ line}\n\n f = File.open(complex_pdb, 'w')\n\n f.write(\"MODEL 1\\n\")\n prt_atm_lines.each do |line| f.write(line) end\n f.write(\"TER\\n\")\n lig_atm_lines.each do |line| f.write(line) end\n f.write(\"END\\n\")\n\n f.close()\n\nend", "def extract_regional_data\n infile, result, *others = params\n\n country_part = \"\"\n country_part << \"#{others[0]}-\" if others[0]\n country_part << \"#{others[1]}-\" if others[1]\n out_file_name = \"#{country_part}spares-and-repairs.csv\"\n\n puts; print \"Extracting rows of #{country_part.chop}\"\n\n row_filter = \"BEGINs18=='#{others[0]}'||s18=='RE_GEBIET'END\"\n\n Sycsvpro::Extractor.new(infile: infile,\n outfile: out_file_name,\n rows: row_filter).execute\n\n puts; puts \"You can find the result in #{out_file_name}\"\nend", "def read_fat_data(clust, chn=read_chain(clust))\n\t\tchn.inject('') { |data, cs| data << read_clust(cs) }\n\tend", "def test_parse_mdc_snp_data\n column_headings = []\n snp_data = []\n File.open(\"#{RAILS_ROOT}/test/mocks/#{@mdc_filename}\",\"r\") do |file|\n while (f = file.gets)\n\n next if f =~ /^#/ # ignore lines that start with a hash - comments\n f.strip! # remove any whitespace, linefeeds, etc.\n\n # if this line has the column headings, extract and do the next line\n if f =~ /^a1_External_ID/\n column_headings = f.split(/\\t/)\n next\n end\n\n # Split the mdc file based on tabs\n snp_data = f.split(/\\t/)\n\n # load_hapmap_snp_data(column_headings,snp_data)\n break # jump out after first line as we're just testing the parsing\n end # end of file_array.each loop\n\n # test that we're parsing the headings and the SNP data correctly\n assert_equal 235, snp_data.size\n assert_equal \"a2_RGSCv3.4_chr\",column_headings[1]\n assert_equal \"rat105_009_k11.p1ca_226\",snp_data[0]\n assert_equal \"2283252\",snp_data[2]\n assert_equal '6',snp_data[233] # penultimate entry\n assert_equal '6',snp_data[234] # last entry\n assert_equal nil,snp_data[235] # shouldnt exist\n end\n end", "def map_tgup_by_proteinid()\n # output unmatch list for map by gene_id (prefix of gene_id is first char of gene_id. (\"1\", \"2\", ..))\n refg_output = {}\n FileUtils.mkdir_p(\"#{$prepare_dir}/refg\") unless File.exist?(\"#{$prepare_dir}/refg\")\n (1..9).each do |prefix|\n refg_output[prefix.to_s] = File.open(\"#{$prepare_dir}/refg/#{prefix.to_s}.dat\", \"w\")\n end\n\n output_header\n\n # try mapping the same prefix of RefSeq data and UniProt data(for performance)\n Dir.glob(\"#{$prepare_dir}/refp/*.dat\") do |input_file|\n # parse data\n refseq_gene_list = []\n protein_id_prefix = input_file.split(\"/\").last.split(\"\\.\").first\n puts \"protein_id prefix: #{protein_id_prefix}\"\n File.open(input_file) do |f|\n f.each_line do |line|\n columns = line.chomp.strip.split(\"\\t\")\n gene_id_prefix = columns[4].nil? ? \"\" : columns[4][0]\n refseq_gene_list.push({taxid: columns[0], gene_rsrc: columns[1], gene_label: columns[2], protein_id: columns[3], gene_id: columns[4], gene_id_prefix: gene_id_prefix})\n end\n end\n\n $count_nc += refseq_gene_list.size if protein_id_prefix == \"no_protein_id\" # no protein_id on RefSeq\n up_list = load_up_refp(protein_id_prefix) # get same prefix data from UniProt\n\n refseq_gene_list.each do |refseq_data|\n match = false\n output_tax(refseq_data) # output all gene-tax turtle\n unless up_list.nil? # exist prefix on UniProt\n match_list = up_list[refseq_data[:protein_id]]\n unless match_list.nil? # match some uniprot_ids\n match_list.each do |up_info|\n if refseq_data[:taxid] == up_info[:taxid] # ignore unmatch tax\n output_idmap(refseq_data, up_info[:upid])\n match = true\n else # match protein_id but not match tax_id\n output_uptax(up_info)\n $taxup_list[up_info[:taxid]] = true\n $tax_mismatch[\"#{refseq_data[:taxid]}-#{up_info[:taxid]} : #{refseq_data[:protein_id]}\"] = true\n end\n end\n end\n end\n if match == false\n if refseq_data[:gene_id_prefix].nil? ||refseq_data[:gene_id_prefix] == \"\" # can't salvage it by gene_id.\n $no_up += 1\n else # output a file to each prefix of gene_id that can be salvaged by gene_id\n line = [refseq_data[:taxid], refseq_data[:gene_rsrc], refseq_data[:gene_label], refseq_data[:protein_id], refseq_data[:gene_id], refseq_data[:gene_id_prefix]]\n refg_output[refseq_data[:gene_id_prefix]].puts(line.join(\"\\t\"))\n end\n end\n $count += 1\n end\n end\n refg_output.each do |k, v|\n v.flush\n v.close\n end\nend", "def run (hdin)\n i = 0;\n dups = 0;\n puts \"Reading from #{hdin.path}\";\n\n # Opens temporary loadfile. Overwrites existing file.\n @loadfiles.values.each do |hdout|\n hdout.open('w');\n end\n\n # Open infile and process line.\n hdin.open('r').file.each_line do |line|\n i += 1;\n\n # Skip stuff that doesn't look like json.\n if !line.start_with?('{') then\n STDERR.puts \"Skipping line: #{line}\";\n next;\n # For testing purposes.\n # elsif i > 2000 then\n # puts \"ok we are done here\";\n # break;\n elsif i % 1000 == 0 then\n puts \"#{i} ...\";\n end\n\n # gd_id is the id used as primary key in hathi_gd\n # and foreign key in all other tables, connecting the snowflake.\n gd_id = nil;\n item_id = nil;\n line_hash = JSON.parse(line);\n\n # The file where the data originally came from, not the file currently being read.\n infile = line_hash['infile'];\n file_id = get_infile_id(infile);\n # We don't want to include lineno or mongo_id in digest, so we delete them from the hash.\n lineno = line_hash.delete('lineno');\n mongo_id = line_hash.delete('mongo_id');\n # hashsum goes in hathi_gd to make sure we don't put total dups in there.\n hashsum = @sha_digester.hexdigest(line_hash.to_json);\n\n # Not all records have a record id.\n rec_id = 'N/A';\n if !line_hash['record_id'].nil? then\n rec_id = line_hash['record_id'].first.values.first;\n\n if rec_id.length > @max_record_id_len then\n rec_id = rec_id[0..(@max_record_id_len-1)];\n end\n\n\n end\n\n if !line_hash['item_id'].nil? then\n if line_hash['item_id'].first.class == {}.class then\n item_id = line_hash['item_id'].first.values.first;\n if item_id.size > 50 then\n # Make sure we fit in the column.\n item_id = item_id[0..49];\n end\n end\n end\n\n # Get a gd_id from mysql.\n # Use it as primary key in hathi_gd.\n # Use it in all the tables (except hathi_str) as foreign key.\n begin\n @hathi_gd_insert_q.execute(1, file_id, lineno, mongo_id, hashsum, rec_id, item_id);\n @last_id_q.query() do |row|\n gd_id = row[:id];\n end\n rescue Java::ComMysqlJdbcExceptionsJdbc4::MySQLIntegrityConstraintViolationException => e\n if (e.to_s =~ /Duplicate entry.+for key 'hashsum'/) == 0 then\n dups += 1;\n next;\n else\n puts e;\n puts line;\n end\n end\n # If we got a gd_id, proceed to insert the rest.\n insert_line(line_hash, gd_id);\n end\n hdin.close();\n\n # When all the lines in the file have been read and the loadfiles are done,\n # use the loadfiles for their intended purpose.\n @loadfiles.keys.each do |suffix|\n loadfile = @loadfiles[suffix];\n loadfile.close();\n sql = \"LOAD DATA LOCAL INFILE ? REPLACE INTO TABLE hathi_#{suffix} (gd_id, str_id, marc_field)\";\n puts sql;\n query = @conn.prepare(sql);\n query.execute(loadfile.path);\n # loadfile.delete();\n end\n\n puts @bench.prettyprint();\n puts \"#{dups} dups\";\nend", "def format_data data\r\n\tresult = []\r\n\t#split entry to array\r\n\tarr = data.read.split '>'\r\n\tarr.each do |item|\r\n\t\tname = item.split('|')[0]\r\n\t\tnext if !name\r\n\r\n\t\tprotein = []\r\n\t\t#format name\r\n\t\tname.delete! ' '\r\n\t\tname.tr! '|', ''\r\n\r\n\t\t#format sequence\r\n\t\ttmp = item.split \"\\n\"\r\n\t\ttmp.shift\r\n\t\tsequence = tmp.join\r\n\r\n\t\tprotein.push name, sequence\r\n\r\n\t\tresult.push protein\r\n\tend\t\r\n\tresult\r\n\r\nend", "def related_data_files\n via_assay = assays.collect(&:data_files).flatten.uniq.compact\n via_assay | data_files\n end", "def clustal_consensus_multi(seq_hash,open = 15, ext = 6.66, gap_treatment = 1)\n gapopen = open\n gapext = ext\n temp_dir = File.dirname($0)\n temp_file_in = temp_dir + \"/temp_sequence\"\n f = File.open(temp_file_in,'w')\n f.puts seq_hash.flatten\n f.close\n\n temp_file_out = temp_dir + \"/temp_out\"\n temp_screen_out = temp_dir + \"/temp_screen\"\n print `/applications/clustalw2 -infile=#{temp_file_in} -case=upper -outorder=input -output=gde -outfile=#{temp_file_out} >#{temp_screen_out} -gapopen=#{gapopen} -gapext=#{gapext}`\n h = {}\n File.open(temp_file_out,\"r\") do |file|\n n = 0\n file.readlines.each do |line|\n if line =~ /^\\#/\n n += 1\n h[n] = \"\"\n else\n h[n] += line.chomp\n end\n end\n end\n length = h[1].size\n consensus_bases = []\n (0..(length-1)).each do |n|\n bases = []\n h.values.each do |seq|\n bases << seq[n]\n end\n if gap_treatment == 1\n consensus_bases << creat_consensus_base_non_gap(bases)\n else\n consensus_bases << creat_consensus_base_gap(bases)\n end\n end\n File.unlink temp_file_in\n File.unlink temp_file_out\n File.unlink temp_screen_out\n Dir.chdir(temp_dir) do\n Dir.glob(\"*.dnd\") do |dnd|\n File.unlink(dnd)\n end\n end\n consensus_seq = consensus_bases.join('')\nend", "def read_ld_output_file(ldfile)\n snp_lds = Array.new\n\n begin\n File.open(ldfile, \"r\") do |file|\n file.each_line do |oline|\n oline.each_line(\"\\r\") do |line|\n next if line =~ /^\\n$/\n if line =~ /LOD/\n next\n end\n\n data=strip_and_split(line) \n snp_lds << SNPCombination.new(data[0], data[1], data[2], data[3], data[4])\n end\n end\n end\n rescue StandardError => e\n puts e\n exit(1)\n end\n return snp_lds\n\n end", "def extract_uni\n # Extract all uniquely mapping reads\n run_cmd(\n \"samtools view -H #{@names.get('mapped_merged')} \" \\\n \"> #{@names.get('mapped_uniq')}\"\n )\n run_cmd(\n \"samtools view -h #{@names.get('mapped_merged')} \" \\\n \"| grep -P 'NH:i:1(\\t|$)' \" \\\n \">> #{@names.get('mapped_uniq')}\"\n )\n run_cmd(\n \"samtools sort -o #{@names.get('mapped_uniqsort')} -O bam -T \" \\\n \"tmp.bam #{@names.get('mapped_uniq')}\"\n )\n end", "def read(files); end", "def read(files); end", "def candidates2fa(input_file, fasta, read_length, output_file, exoncov=8)\n\t\tchromosomes = {}\n\t\tpositions = []\n\t\t\n\t\t# Input into hash sorted by chromosomes\n\t\tFile.open(input_file, 'r').readlines.each do |line|\n\t\t\tline = line.strip.split(\"\\t\")[0..-2]\n\t\t\tchr_a, pos_a, strand_a, chr_b, pos_b, strand_b = line[0..5]\n\t\t\tpos = [chr_a, pos_a, chr_b, pos_b].join(':')\n\t\n\t\t\tchromosomes[chr_a] = {} if !chromosomes.has_key?(chr_a)\n\t\t\t\n\t\t\tif !chromosomes.has_key?(chr_b)\n\t\t\t\tchromosomes[chr_a][chr_b] = [line]\n\t\t\n\t\t\t# 2nd elsif to exclude reads that map on same junction but opposite ends\t\t\n\t\t\telsif chromosomes[chr_a].has_key?(chr_b) && !positions.include?(pos)\n\t\t\t\tchromosomes[chr_a][chr_b].push(line)\n\t\t\t\tpositions << pos\n\t\t\tend\n\t\tend\n\n\t\t# Output\n\t\toutput = File.open(output_file, 'w') do |output|\n\t\t\tchromosomes.each do |chr_a, values|\n\t\t\t\tfasta_file = File.open(\"#{fasta}#{chr_a}.fa\", 'r')\n\t\t\t\theader = fasta_file.gets.strip\n\t\t\t\tdna_a = fasta_file.read.gsub(/\\n/, '')\n\t\t\t\t\n\t\t\t\tvalues.each do |chr_b, values|\n\t\t\t\t fasta_file = File.open(\"#{fasta}#{chr_b}.fa\", 'r')\n\t\t\t\t\theader = fasta_file.gets.strip\n\t\t\t\t\tdna_b = fasta_file.read.gsub(/\\n/, '')\n\n\t\t\t\t\tvalues.each do |v|\n\t\t\t\t\t\tbp_a, bp_b = v[1].to_i, v[4].to_i\n\t\t\t\t\t\tstrand_a, strand_b = v[2], v[5]\n\t\t\t\t\t\toverlap = v[-1].to_i - read_length\n\t\t\t\t\t\tl = read_length - exoncov \n\t\t\t\t\t\t\t\t\t\t\n\t\t\t\t\t\tupstream = dna_a[bp_a..bp_a + overlap + l].upcase\t\n\t\t\t\t\t\tdownstream = dna_b[bp_b - l - overlap + 1..bp_b - overlap].upcase\n\t\t\t\t\t\n\t\t\t\t\t\tif strand_a == '1' && strand_b == '-1'\n\t\t\t\t\t\t\tdownstream = Alignment.reverse_complement(dna_b[bp_b..bp_b + l].upcase)\n\t\t\t\t\t\telsif strand_a == '-1' && strand_b == '1'\n\t\t\t\t\t\t\tupstream = Alignment.reverse_complement(dna_a[bp_a - l + 1..bp_a].upcase)\n\t\t\t\t\t\tend\n\t\t\n\t\t\t\t\t\tid = [v[0..1], v[3..4]].join(':')\n\t\t\t\t\t\toutput.puts [\">#{id}\", downstream + upstream].join(\"\\n\")\n\t\t\t\t\tend\n\t\t\t\tend\n\t\t\tend\n\t\tend\n\t\t$logfile.puts \"#{Time.new.strftime(\"%c\")}: Wrote loci to fasta-file.\"\n\tend", "def getFtLocus\n locustag = ARGV[1]\n protId = \"\"\n @gbkObj.each_cds do |ft|\n ftH = ft.to_hash\n ftloc = ft.locations\n if ftH[\"locus_tag\"][0].eql? locustag\n gene = []\n product = []\n gene = ftH[\"gene\"] if !ftH[\"gene\"].nil?\n product = ftH[\"product\"] if !ftH[\"product\"].nil?\n protId = ftH[\"protein_id\"][0] if !ftH[\"protein_id\"].nil?\n locustag = ftH[\"locus_tag\"][0] if !ftH[\"locus_tag\"].nil?\n if ftloc[0].strand == -1\n location = \"c#{ftloc[0].from}..#{ftloc[0].to}\"\n else\n location = \"#{ftloc[0].from}..#{ftloc[0].to}\"\n end\n dna = getDna(ft,@gbkObj.to_biosequence)\n seqout = dna.output_fasta(\"#{@accession}|#{location}|#{protId}|#{locustag}|#{gene[0]}|#{product[0]}\",60)\n puts seqout\n end\n end\n end", "def read\n $t1 = Time.now # Init procedure timestamp\n person = []\n IO.foreach(\"data_500.txt\") do |line| # Get all patients from file iterate each line\n line.chomp! # Remove trailing whitespace.\n person.push(line.split(\":\")) # Saving data split :\n end\n group(person) # Get blood type\n end", "def fetchIDs\n\n\tFile.open(ARGV[0].to_s, \"r\") do |file|\n\n\t\t\n\t\tbook = Hash.new\n\n\t\tfile.each_line do |line|\n\n\t\t\tcontainer = Array.new\n\n\t\t\tif line.include? \"Name\"\n\n\t\t\t\tcontainer = line.split(\";\")\n\t\t\t\tcontainer.map { |e| book[\"#{e.gsub!(\"Name=\", \"\")}\"] = line if e.include? \"Name=\" } \n\n\t\t\telse\n\t\t\t\tnext\n\t\t\tend\t\n\t\tend\n\n\t\t#puts book.inspect\n\t\tfile_write(\"Helicoverpa.out\", book)\n\tend\t\t\nend", "def split_upids(idmap_file)\n puts \"split idmapping.dat to each prefix files\"\n up_refp_output = prepare_prefix_files(idmap_file, \"protein_id\")\n up_refg_output = prepare_prefix_files(idmap_file, \"gene_id\")\n\n cnt = 0\n # it is assumed that the tax_id is followed by a protein_id or gene_id\n current_tax = {upid: nil, tax_id: nil}\n taxid_missing_list = [] \n File.open(idmap_file, \"r\") do |f|\n f.each_line do |line|\n up, xref, id = line.strip.split(\"\\t\")\n case xref\n when \"NCBI_TaxID\"\n current_tax = {upid: up.split(\"-\").first, tax_id: id}\n when \"RefSeq\", \"GeneID\"\n # Push only the tax_id with refseq protein_id or gene_id\n if current_tax[:upid] == up.split(\"-\").first\n if xref == \"RefSeq\"\n prefix = id.chomp.strip[0..4]\n up_refp_output[prefix].puts line.chomp.strip + \"\\t\" + current_tax[:tax_id]\n elsif xref == \"GeneID\"\n prefix = id.chomp.strip[0]\n up_refg_output[prefix].puts line.chomp.strip + \"\\t\" + current_tax[:tax_id]\n end\n else\n taxid_missing_list.push(up)\n end\n end\n cnt += 1\n if (cnt % 100000 == 0)\n puts cnt\n end\n end\n # list of upid that can't get taxid. Depends on the order of idmapping.dat\n out = File.open(\"taxid_missing_list.json\", \"w\") unless taxid_missing_list.size == 0\n taxid_missing_list.each do |upid|\n out.puts JSON.pretty_generate(taxid_missing_list)\n end\n end\n\n # close files\n up_refp_output.each do |k, v|\n v.flush\n v.close\n end\n up_refg_output.each do |k, v|\n v.flush\n v.close\n end\nend", "def process \n return false if @file == false\n\t\t\n\t\ttime = File.mtime(@file)\n\n\t\tRDF::NQuads::Writer.open(@outfile) do |writer|\n\t\t\n\t\trecord = RDF::URI.new(\"http://bio2rdf.org/sider\")\n\n File.open(@file,\"r\").each do |line|\n row = line.strip.chomp.split(\"\\t\")\n \n # convert the STICH id to pubchem (see NOTES)\n pubchem = @pubchem_compound[row[1].to_i.abs.to_s]\n writer << [pubchem,RDF.type,@sider_vocabulary['Drug'],record]\n writer << [pubchem,DC.title,row[3],record]\n writer << [pubchem,DC.identifier,\"pubchem:#{row[1].to_i.abs.to_s}\",record]\n \n # these identifiers should in the future be linked \n # with proper ontology URIS retrieved from NCBO bioportal.\n side_effect = @umls[row[2]]\n writer << [side_effect,RDF.type,@sider_vocabulary['Side_Effect'],record]\n writer << [side_effect,DC.identifier,\"ulms:#{row[2]}\",record]\n writer << [side_effect,DC.title,row[4],record]\n writer << [pubchem,@sider_vocabulary['side_effect'],side_effect,record]\n end\n end\n end", "def readDataSingleSource(nameout)\n\t\t\tif nameout.include?(\".source\") == false\n\t\t\t\tnameout = nameout + \".source\"\n\t\t\tend\n\t\t\tdatautils = DataUtils.new\n\t\t\t#puts \"nameout: \" + nameout;\n\t\t\t@l = -1;\n\t\t\t@b = -1;\n\t\t\t@r = -1;\n\t\t\t@ell_a = -1;\n\t\t\t@ell_b = -1;\n\t\t\t@ell_phi = -1;\n\t\t\t\n\t\t\t@sicalc = 0\n\t\t\t@sicalc_error = 0\n\n\t\t\t#read upper limit\n\t\t\tindex2 = 0;\n\t\t\t@r = -1;\n\t\t\t@galcoeff = \"-1\"\n\t\t\t@galcoeff_err = \"-1\"\n\t\t\t@galcoeffzero = \"-1\"\n\t\t\t@galcoeffzero_err = \"-1\"\t\n\t\t\t@isocoeff = \"-1\"\n\t\t\t@isocoeff_err = \"-1\"\n\t\t\t@isocoeffzero = \"-1\"\n\t\t\t@isocoeffzero_err = \"-1\"\t\n\t\t\t@fitdata = \"-1, -1, -1, -1, -1, -1, -1\"\n\t\t\tFile.open(nameout).each_line do | line |\n\t\t\t\tindex2 = index2 + 1;\n\t\t\t\tlll = line.split(\" \")\n\t\t\t\tif index2.to_i == 15\n\t\t\t\t\t@label =lll[0];\n\t\t\t\t\t@fix =lll[1];\n\t\t\t\t\t@si_start = lll[2];\n\t\t\t\t\t@ulconflevel = lll[3];\n\t\t\t\t\t@srcconflevel = lll[4];\n\t\t\t\t\t@startL = lll[5];\n\t\t\t\t\t@startB = lll[6];\n\t\t\t\t\t@startFlux = lll[7];\n\t\t\t\t\t@lmin = lll[9];\n\t\t\t\t\t@lmax = lll[11];\n\t\t\t\t\t@bmin = lll[14];\n\t\t\t\t\t@bmax = lll[16];\n\t\t\t\tend\n\t\t\t\tif index2.to_i == 16\n\t\t\t\t\t@sqrtTS =lll[0];\n\t\t\t\tend\n\t\t\t\tif index2.to_i == 17\n\t\t\t\t\t@l_peak = lll[0];\n\t\t\t\t\t@b_peak = lll[1];\n\t\t\t\t\t@dist = lll[2];\n\t\t\t\tend\n\t\t\t\tif index2.to_i == 18\n\t\t\t\t\t@l = lll[0]\n\t\t\t\t\t@b = lll[1]\n\t\t\t\t\t@distellipse = lll[2];\n\t\t\t\t\t@r = lll[3];\n\t\t\t\t\t@ell_a = lll[4];\n\t\t\t\t\t@ell_b = lll[5];\n\t\t\t\t\t@ell_phi = lll[6];\n\t\t\t\t\t@fullellipseline = format(\"%.2f %.2f %.2f %.2f %.2f %.2f %.2f\", @l, @b, @distellipse, @r, @ell_a, @ell_b, @ell_phi)\n\t\t\t\tend\n\t\t\t\tif index2.to_i == 19\n\t\t\t\t\t@counts = lll[0]\n\t\t\t\t\t@counts_error = lll[1]\n\t\t\t\t\t@counts_error_p = lll[2]\n\t\t\t\t\t@counts_error_m = lll[3]\n\t\t\t\t\t@counts_ul = lll[4];\n\t\t\t\tend\n\t\t\t\tif index2.to_i == 20\n\t\t\t\t\t@flux = lll[0]\n\t\t\t\t\t@flux_error = lll[1]\n\t\t\t\t\t@flux_error_p = lll[2]\n\t\t\t\t\t@flux_error_m = lll[3]\n\t\t\t\t\t@flux_ul = lll[4];\n\t\t\t\t\t@exposure = lll[5]\n\t\t\t\tend\n\t\t\t\tif index2.to_i == 21\n\t\t\t\t\t@sicalc = lll[0]\n\t\t\t\t\t@sicalc_error = lll[1]\n\t\t\t\tend\n\t\t\t\t\n\t\t\t\tif index2.to_i == 22\n\t\t\t\t\t@fit_cts = lll[0]\n\t\t\t\t\t@fit_fcn0 = lll[1]\n\t\t\t\t\t@fit_fcn1 = lll[2]\n\t\t\t\t\t@fit_edm0 = lll[3]\n\t\t\t\t\t@fit_edm1 = lll[4]\n\t\t\t\t\t@fit_iter0 = lll[5]\n\t\t\t\t\t@fit_iter1 = lll[6]\n\t\t\t\tend\n\t\t\t\t\n\t\t\t\tif index2.to_i == 23\n\t\t\t\t\t@galcoeff = lll[0]\n\t\t\t\t\t@galcoeff_err = lll[1]\n\t\t\t\tend\n\t\t\t\t\n\t\t\t\tif index2.to_i == 24\n\t\t\t\t\t@galcoeffzero = lll[0]\n\t\t\t\t\t@galcoeffzero_err = lll[1]\n\t\t\t\tend\n\t\t\t\t\n\t\t\t\tif index2.to_i == 25\n\t\t\t\t\t@isocoeff = lll[0]\n\t\t\t\t\t@isocoeff_err = lll[1]\n\t\t\t\tend\n\t\t\t\t\n\t\t\t\tif index2.to_i == 26\n\t\t\t\t\t@isocoeffzero = lll[0]\n\t\t\t\t\t@isocoeffzero_err = lll[1]\n\t\t\t\tend\n\t\t\t\t\n\t\t\t\tif index2.to_i == 27\n\t\t\t\t\t@tstart = lll[0]\n\t\t\t\t\t@tstop = lll[1]\n\t\t\t\t\t\n\t\t\t\t\t@timestart_utc = @tstart\n\t\t\t\t\t@timestop_utc = @tstop\n\t\t\t\t\t@timestart_tt = datautils.time_utc_to_tt(@tstart);\n\t\t\t\t\t@timestop_tt = datautils.time_utc_to_tt(@tstop);\n\t\t\t\t\t@timestart_mjd = datautils.time_tt_to_mjd(@timestart_tt);\n\t\t\t\t\t@timestop_mjd = datautils.time_tt_to_mjd(@timestop_tt);\n\t\t\t\t\t\n\t\t\t\t\t#calcolo fase orbitale\n\t\t\t\t\t@orbitalphase = -1;\n\t\t\t\t\tif(@calcorbitalphase_period.to_f != 0)\n\t\t\t\t\t\ttimemjd = @timestart_mjd.to_f + (@timestop_mjd.to_f-@timestart_mjd.to_f)\n\t\t\t\t\t\t@orbitalphase = (timemjd.to_f - @calcorbitalphase_t0.to_f) / @calcorbitalphase_period.to_f;\n\t\t\t\t\t\t@orbitalphase = @orbitalphase.to_f - @orbitalphase.to_i;\n\t\t\t\t\tend\n\t\t\t\t\t\n\t\t\t\tend\n\t\t\t\t\n\t\t\t\tif index2.to_i == 28\n\t\t\t\t\t@energyrange = lll[0]\n\t\t\t\t\t@fovrange = lll[1]\n\t\t\t\t\t@albedo = lll[2]\n\t\t\t\t\t@binsize = lll[3] \n\t\t\t\t\t@expstep = lll[4] \n\t\t\t\t\t@phasecode = lll[5] \n\t\t\t\tend\n\t\t\tend\n\n\tend", "def read_lines(data)\n blockchain_temp = IO.readlines(data)\n blockchain_temp\n end", "def load_target(delim)\n proteins = {}\n buffer = File.readlines(extractDatabase(@type).chomp(\"fasta\") + \"yml\") #Loading into buffer is key to increasing speed.\n \n buffer.each do |line|\n index = line.index(delim) #Creating two arrays instead of using split greatly increases speed.\n proteins[line[0,index]] = line[index+2,line.length-1] #Using commas uses numbers, while using .. creates a range object.\n end\n \n buffer = nil #Fork will fail if there's not enough memory. This is an attempt to help.\n proteins\n end", "def read_metadata; end", "def merge_reads\n @reads_fpath = output_fpath(\"quanto.reads.tsv\")\n if !output_exist?(@reads_fpath)\n File.open(@reads_fpath, 'w') do |file|\n file.puts(reads_header.join(\"\\t\"))\n @objects.each do |obj|\n file.puts(open(obj[:summary_path]).read.chomp)\n end\n end\n end\n end", "def parse\n info \"---- Digest DB and store data in mRNA Hash (NoCache)\"\n @count_ids = Counter.new # Count ids\n @count_seqnames = Counter.new # Count seqnames\n @componentlist = SeekRecList.new(@iter.fh,@options[:parser]) # Store containers, like genes, contigs\n @orflist = SeekLinkedRecs.new # Store linked gene records\n @mrnalist = SeekLinkedRecs.new # Store linked mRNA records\n @cdslist = SeekLinkedRecs.new\n @exonlist = SeekLinkedRecs.new\n @sequencelist = {}\n @unrecognized_features = {}\n @iter.each_rec do |fpos, line|\n rec = case @options[:parser]\n when :bioruby\n Bio::GFF::GFF3::BioRubyFileRecord.new(fpos, line)\n when :line\n Bio::GFF::GFF3::FastParserFileRecord.new(fpos, line)\n else\n raise 'Unknown parser'\n end\n store_record(rec)\n end\n @iter.each_sequence do | id, bioseq |\n @sequencelist[id] = bioseq.to_s\n end\n validate_mrnas \n validate_cdss\n show_unrecognized_features\n @genelist = @count_ids.keys \n read_fasta\n end", "def general_process_file(lines)\n data = []\n chap, sec, subsec, subsubsec = false, false, false, false\n lines.each do |raw_line|\n line = raw_line.strip\n if starts_with?(line, \"\\\\chapter\")\n node = {}\n node[:chapter] = get_data_in_brackets(line)\n node[:content] = []\n data << node\n chap = true\n elsif starts_with?(line, \"\\\\section\")\n sec, subsec, subsubsec = true, false, false\n node = {}\n node[:section] = get_data_in_brackets(line)\n node[:content] = [] \n ((chap) ? data.last[:content] : data) << node\n elsif starts_with?(line, \"\\\\subsection\")\n subsec, subsubsec = true, false\n node = {}\n node[:subsec] = get_data_in_brackets(line)\n node[:content] = []\n # puts line\n # puts data.last[:content].inspect\n ((chap) ? data.last[:content].last[:content] : data.last[:content]) << node\n elsif starts_with?(line, \"\\\\subsubsection\")\n subsubsec = true\n node = {}\n node[:subsubsec] = get_data_in_brackets(line)\n node[:content] = []\n ((chap) ? data.last[:content].last[:content].last[:content] : data.last[:content].last[:content]) << node\n else\n # we just have a line (store the raw line)\n if subsubsec\n ((chap) ? data.last[:content].last[:content].last[:content].last[:content] : data.last[:content].last[:content].last[:content]) << raw_line\n elsif subsec\n ((chap) ? data.last[:content].last[:content].last[:content] : data.last[:content].last[:content]) << raw_line\n elsif sec\n ((chap) ? data.last[:content].last[:content] : data.last[:content]) << raw_line\n elsif chap\n data.last[:content] << raw_line\n else\n raise \"got line and not in a known section type: #{line}\"\n end\n end\n end\n return data\nend", "def read_fasta(fasta_file)\r\n fasta_name = \"\"\r\n fasta_seqs = {}\r\n seq = \"\"\r\n File.open(fasta_file).each do |line|\r\n if !(line.nil?)\r\n if line.start_with? \">\"\r\n seq = \"\"\r\n fasta_name = line.chomp.split(\">\")[1]\r\n elsif\r\n seq = seq + line.chomp\r\n fasta_seqs[fasta_name] = seq\r\n end\r\n end\r\n end\r\n return fasta_seqs\r\nend", "def read_data_file(path); end", "def getFtsLoc\n location = ARGV[1]\n loc = location.split(\"..\")\n @gb.each_cds do |ft|\n ftH = ft.to_hash\n ftloc = ft.locations\n if ftloc[0].from == loc[0].to_i && ftloc[0].to == loc[1].to_i\n gene = []\n product = []\n gene = ftH[\"gene\"] if !ftH[\"gene\"].nil?\n product = ftH[\"product\"] if !ftH[\"product\"].nil?\n loc = \"c#{location}\" if ftloc[0].strand == -1\n dna = getDna(ft,@gb.to_biosequence)\n seqout = dna.output_fasta(\"#{@accession}|#{loc}|#{ftH[\"protein_id\"][0]}|#{gene[0]}|#{product[0]}|#{@org}\",60)\n puts seqout\n end\n end\nend", "def load_hpo_file(file)\n\tstorage = []\n\tid = nil\n\tname = nil\n\talt_id = []\n\tsyn = []\n\tis_a = []\n\tFile.open(file).each do |line|\n\t\tline.chomp!\n\t\ttag, info = line.split(': ')\n\t\tif tag == 'id' || tag == 'name' || tag == 'is_a' || tag == 'synonym' || tag == 'alt_id'\n\t\t\tif tag == 'id'\n\t\t\t\tstorage << [id, alt_id.join('|'), name, syn.join('|')].concat(is_a) if !name.nil? #if !temp[1].include?(\"obsolete\") \n\t\t\t\tid = info\n\t\t\t\tname = nil\n\t\t\t\talt_id = []\n\t\t\t\tsyn = []\n\t\t\t\tis_a = []\n\t\t\tend\n\t\t\tif tag == 'alt_id'\n\t\t\t\talt_id << info\n\t\t\telsif tag == 'is_a'\n\t\t\t\tis_a.concat(info.split(' ! '))\n\t\t\telsif tag == 'synonym'\n\t\t\t\tsyn << info.split('\"')[1]\n\t\t\telse\n\t\t\t\tname = info\n\t\t\tend\n\t\tend\n\tend\n\tstorage << [id, alt_id.join('|'), name, syn.join('|')].concat(is_a)\n\treturn storage\nend", "def test_parse_and_load_mdc_snp_data\n column_headings = []\n snp_data = []\n results = 0\n \n File.open(\"#{RAILS_ROOT}/test/mocks/#{@mdc_filename}\",\"r\") do |file|\n while (f = file.gets)\n\n next if f =~ /^#/ # ignore lines that start with a hash - comments\n f.strip! # remove any whitespace, linefeeds, etc.\n\n # if this line has the column headings, extract and do the next line\n if f =~ /^a1_External_ID/\n column_headings = f.split(/\\t/)\n next\n end\n\n # Split the mdc file based on tabs\n snp_data = f.split(/\\t/)\n\n results += @controller.load_mdc_snp_data(column_headings,snp_data)\n \n assert_equal column_headings.size, snp_data.size\n # break\n end # end of file_array.each loop\n \n # check the results returned match the expected number of snps loaded\n assert 9, results\n\n # check number of SNPs loaded into the database itself, should be 15\n assert 9, Snp.find(:all).size\n \n # Look for specific SNP\n snp = Snp.find_by_symbol('J500418')\n assert_not_nil snp\n \n strain2 = Strain.find_by_mdc_id('MDC-05-90')\n assert_not_nil strain2\n end\n end", "def compile_metadata(path = \"PBS/metadata.txt\")\r\n GameData::Metadata::DATA.clear\r\n GameData::MapMetadata::DATA.clear\r\n # Read from PBS file\r\n File.open(path, \"rb\") { |f|\r\n FileLineData.file = path # For error reporting\r\n # Read a whole section's lines at once, then run through this code.\r\n # contents is a hash containing all the XXX=YYY lines in that section, where\r\n # the keys are the XXX and the values are the YYY (as unprocessed strings).\r\n pbEachFileSection(f) { |contents, map_id|\r\n schema = (map_id == 0) ? GameData::Metadata::SCHEMA : GameData::MapMetadata::SCHEMA\r\n # Go through schema hash of compilable data and compile this section\r\n for key in schema.keys\r\n FileLineData.setSection(map_id, key, contents[key]) # For error reporting\r\n # Skip empty properties, or raise an error if a required property is\r\n # empty\r\n if contents[key].nil?\r\n if map_id == 0 && [\"Home\", \"PlayerA\"].include?(key)\r\n raise _INTL(\"The entry {1} is required in {2} section 0.\", key, path)\r\n end\r\n next\r\n end\r\n # Compile value for key\r\n value = pbGetCsvRecord(contents[key], key, schema[key])\r\n value = nil if value.is_a?(Array) && value.length == 0\r\n contents[key] = value\r\n end\r\n if map_id == 0 # Global metadata\r\n # Construct metadata hash\r\n metadata_hash = {\r\n :id => map_id,\r\n :home => contents[\"Home\"],\r\n :wild_battle_BGM => contents[\"WildBattleBGM\"],\r\n :trainer_battle_BGM => contents[\"TrainerBattleBGM\"],\r\n :wild_victory_ME => contents[\"WildVictoryME\"],\r\n :trainer_victory_ME => contents[\"TrainerVictoryME\"],\r\n :wild_capture_ME => contents[\"WildCaptureME\"],\r\n :surf_BGM => contents[\"SurfBGM\"],\r\n :bicycle_BGM => contents[\"BicycleBGM\"],\r\n :player_A => contents[\"PlayerA\"],\r\n :player_B => contents[\"PlayerB\"],\r\n :player_C => contents[\"PlayerC\"],\r\n :player_D => contents[\"PlayerD\"],\r\n :player_E => contents[\"PlayerE\"],\r\n :player_F => contents[\"PlayerF\"],\r\n :player_G => contents[\"PlayerG\"],\r\n :player_H => contents[\"PlayerH\"]\r\n }\r\n # Add metadata's data to records\r\n GameData::Metadata.register(metadata_hash)\r\n else # Map metadata\r\n # Construct metadata hash\r\n metadata_hash = {\r\n :id => map_id,\r\n :outdoor_map => contents[\"Outdoor\"],\r\n :announce_location => contents[\"ShowArea\"],\r\n :can_bicycle => contents[\"Bicycle\"],\r\n :always_bicycle => contents[\"BicycleAlways\"],\r\n :teleport_destination => contents[\"HealingSpot\"],\r\n :weather => contents[\"Weather\"],\r\n :town_map_position => contents[\"MapPosition\"],\r\n :dive_map_id => contents[\"DiveMap\"],\r\n :dark_map => contents[\"DarkMap\"],\r\n :safari_map => contents[\"SafariMap\"],\r\n :snap_edges => contents[\"SnapEdges\"],\r\n :random_dungeon => contents[\"Dungeon\"],\r\n :battle_background => contents[\"BattleBack\"],\r\n :wild_battle_BGM => contents[\"WildBattleBGM\"],\r\n :trainer_battle_BGM => contents[\"TrainerBattleBGM\"],\r\n :wild_victory_ME => contents[\"WildVictoryME\"],\r\n :trainer_victory_ME => contents[\"TrainerVictoryME\"],\r\n :wild_capture_ME => contents[\"WildCaptureME\"],\r\n :town_map_size => contents[\"MapSize\"],\r\n :battle_environment => contents[\"Environment\"]\r\n }\r\n # Add metadata's data to records\r\n GameData::MapMetadata.register(metadata_hash)\r\n end\r\n }\r\n }\r\n # Save all data\r\n GameData::Metadata.save\r\n GameData::MapMetadata.save\r\n Graphics.update\r\n end", "def read_singletons(singletons, read_length)\n\t\tsingle_reads = {}\n\t\t\n\t\tFile.open(singletons, 'r').readlines.each do |line|\n \n \t\tline = line.strip.split(/\\s+/)\n \t\tqname, flag, chr, start = line[0..3] \t\n \t\tflag.to_i & 0x10 > 0 ? strand = -1 : strand = 1\n \t\tcigar = line[5]\n\t\t\tdistance = genomic_mappinglength(cigar, read_length)\n\t\t\t\n\t\t\tif distance != false\n\t\t\t\tstrand == 1 ? stop = start + distance : stop = start - distance\n\t\t\t\tsingle_reads[qname] = [chr, start, stop, strand]\n\t\t\tend\n\t\tend\n\t\tsingle_reads\n\tend", "def common\n \n end", "def fetch_produce_items\r\n all_items = read_table('SRCFILE')\r\n included_ids = File.readlines(File.join('data', 'included.txt')).map(&:chomp)\r\n\r\n @items = all_items.select do |i|\r\n included_ids.include?(i.id)\r\n end\r\nend", "def partial_bidir_tmp(project, ref_ds)\n n = ref_ds.size\n\n # Read data first (threaded)\n tmp = File.join(project.path, 'doctor-bidirectional.tmp')\n FileUtils.mkdir_p(tmp)\n MiGA::Parallel.process(cli[:threads]) do |thr|\n file = File.join(tmp, \"#{thr}.json\")\n fh = File.open(file, 'w')\n [:aai, :ani].each do |metric|\n fh.puts \"# #{metric}\"\n ref_ds.each_with_index do |ds, idx|\n if idx % cli[:threads] == thr\n cli.advance('Reading:', idx + 1, n, false) if thr == 0\n row = read_bidirectional(ds, metric)\n fh.puts \"#{ds.name} #{JSON.fast_generate(row)}\" unless row.empty?\n end\n end\n end\n fh.puts '# end'\n fh.flush # necessary for large threaded runs\n fh.close\n if thr == 0\n cli.advance('Reading:', n, n, false)\n cli.say\n end\n end\n\n return tmp\n end", "def multistamp(primary_file, stamp_file, output); end", "def _setup_pcrs_and_seq_file_for_batch_tests\n @proj = Proj.find($proj_id) \n \n @proj.pcrs.destroy_all\n\n (0..4).each do |i|\n Pcr.create!(:fwd_primer => @primer1, :rev_primer => @primer2, :extract => @extract)\n end\n\n @proj.reload\n\n foo = File.new((File.dirname(__FILE__) + '/../fixtures/test_files/seqs.fasta'), \"w+\")\n foo.puts @proj.pcrs.collect{|p| \">seq_#{p.id}\\nACGTCGT\"}.join(\"\\n\\n\")\n foo.close\n\n @fasta_file = File.open((File.dirname(__FILE__) + '/../fixtures/test_files/seqs.fasta'), \"r\") \n end", "def map_tgup_by_geneid()\n Dir.glob(\"#{$prepare_dir}/refg/*.dat\") do |input_file|\n refseq_gene_list = []\n gene_id_prefix = input_file.split(\"/\").last.split(\"\\.\").first\n puts \"gene_id prefix: #{gene_id_prefix}\"\n File.open(input_file) do |f|\n f.each_line do |line|\n columns = line.chomp.strip.split(\"\\t\")\n refseq_gene_list.push({taxid: columns[0], gene_rsrc: columns[1], gene_label: columns[2], protein_id: columns[3], gene_id: columns[4], gene_id_prefix: gene_id_prefix})\n end\n end\n\n up_list = load_up_refg(gene_id_prefix) # get same prefix data from UniProt\n refseq_gene_list.each do |refseq_data|\n match = false\n unless up_list.nil? # exist prefix list on UniProt\n match_list = up_list[refseq_data[:gene_id]]\n unless match_list.nil?\n match_list.each do |up_info|\n if refseq_data[:taxid] == up_info[:taxid]\n output_idmap(refseq_data, up_info[:upid])\n match = true\n end\n end\n end\n end\n if match == false\n $no_up += 1\n end\n end\n end\nend", "def read_ccsr_metadata\n\n parser = XML::Parser.io(File.open(filename, \"r\"), :encoding => XML::Encoding::ISO_8859_1)\n doc = parser.parse\n\n nodes = doc.find('//ccsrmetadata/variables')\n if nodes.size == 1\n nodes[0].each_element do |node|\n if (/^id_/.match(node.name)) \n name = node[\"variable_name\"]\n label = node[\"variable_label\"]\n v = Variable.find(:all,:conditions=> {:dataset_id => dataset_id, :is_archived=>false, :name=>name})\n if (v[0]!= nil)\n v[0].value_domains.each do |valdom|\n valdom.delete\n end\n value_map = String.new\n node.each_element do |child_node| \n if (!child_node.empty?) \n valDom = ValueDomain.new\n valDom.variable = v[0]\n valDom.label = child_node[\"value_name\"]\n valDom.value = child_node[\"value\"]\n value_map << \"value \" + child_node[\"value\"] + \" label \" + child_node[\"value_name\"] + \"\\r\\n\"\n valDom.save\n end\n end\n v[0].update_attributes(:value=>label, :info=>value_map,:updated_by=>user_id, :update_reason=>update_reason)\n\n # don't care about 'false positives' in the metadata, all we care about is the columns from the original dataset\n end\n end \n end\n else\n nodes.each do |node|\n name = node[\"variable_name\"]\n label = node[\"variable_label\"]\n v = Variable.find(:all,:conditions=> {:dataset_id => dataset_id, :is_archived=>false, :name=>name})\n if (v[0]!= nil)\n v[0].value_domains.each do |valdom|\n valdom.delete\n end\n value_map = String.new\n node.each_element do |child_node| \n if (!child_node.empty?) \n valDom = ValueDomain.new\n valDom.variable = v[0]\n valDom.label = child_node[\"value_name\"]\n valDom.value = child_node[\"value\"]\n value_map << \"value \" + child_node[\"value\"] + \" label \" + child_node[\"value_name\"] + \"\\r\\n\"\n valDom.save\n end\n end\n\n v[0].update_attributes(:value=>label, :info=>value_map,:updated_by=>user_id, :update_reason=>update_reason)\n\n # don't care about 'false positives' in the metadata, all we care about is the columns from the original dataset\n end \n end\n end\n end", "def load_file full_name\n file = FasterCSV.open( full_name , { :col_sep => \"\\t\"} ) \n @header = file.shift\n @data = file.readlines\n #puts @header\n @header.each do |col|\n #puts \"col=#{col}= mapped to =#{@mapping[col]}=\"\n end\n index = 0\n while index < @data.length\n row = @data[index]\n #puts \"row is \" + row.join(\"--\")\n @mapping.each do |key,val|\n #puts \"Row:#{val} at #{@mapping.index(val)} is --#{@header.index(@mapping.index(val))}--value---\"\n #puts \"--#{at_in(val,row)}--\" if @header.index(@mapping.index(val))\n end\n prod = get_product(row)\n set_attributes_and_image( prod , row )\n set_taxon(prod , row)\n #puts \"saving -\" + prod.description + \"- at \" + at_in(:price,row) #if at_in(:price,row) == \"0\"\n prod.save!\n throw \"no master for #{prod.name}\" if prod.master == nil \n# pr = get_product( row )\n# puts \"TAXONs #{pr.taxons}\"\n \n puts \"saved -\" + prod.description + \"- at \" + at_in(:price,row) #if at_in(:price,row) == \"0\"\n index = slurp_variants(prod , index + 1) #read variants if there are, returning the last read line\n end\n\n end", "def parse_output_data(filepath)\n # NOPE!\nend", "def doing_phrases_file_sort_and_unique\n a = File.readlines(\"./tmp/database_doings/doing_phrases/phrases_sorted.txt\")\n @megadeta = a.sort do |x,y|\n x.downcase <=> y.downcase\n end\n consumer = Fiber.new do |producer, queue|\n f = open(\"./tmp/database_doings/doing_phrases/phrases_ready_to_load.txt\", \"a\") do |f| \n loop do\n queue = producer.transfer(consumer, queue)\n puts f << queue\n queue.clear\n end\n raise StopIteration\n end\n end\n producer = Fiber.new do |consumer, queue|\n queue = \"\"\n puts queue\n\t @megadata_unique = @megadata.uniq\n queue << \"#{@megadata_unique}\"\n break unless @megadata_uniq\n consumer.transfer queue\n queue.clear\n raise StopIteration\n end \n consumer.transfer(producer, [])\n after_break\n end", "def get_data_from_file(file)\r\n f = File.open(file, \"r\")\r\n gene = Array.new\r\n f.each_line do |line|\r\n gene << line.delete(\"\\n\") # We remove end of line \\n \r\n end\r\n return gene\r\nend", "def import_soepinfo1(filename=\"import/soepinfo1.csv\", group=\"v1\")\n @group = Group.find_or_create_by_name_and_study_id(group, id)\n Study.transaction do\n CSV.foreach(filename = filename, headers: true) do |row|\n @row = row.to_hash\n @study_unit = StudyUnit.find_or_create_by_name_and_study_id(@row[\"study_unit\"], id)\n @logical_product = LogicalProduct.find_or_create_by_name_and_study_unit_id(@row[\"product\"], @study_unit.id)\n @physical_data_product = PhysicalDataProduct.find_or_create_by_name_and_group_id(@row[\"product\"], @group.id)\n @concept = Concept.find_or_create_by_name(@row[\"concept\"])\n @variable_group = VariableGroup.find_or_create_by_name_and_logical_product_id_and_concept_id(@row[\"variable\"], @logical_product.id, @concept.id)\n @variable = Variable.find_or_create_by_name_and_physical_data_product_id_and_variable_group_id(@row[\"variable\"], @physical_data_product.id, @variable_group.id)\n @variable_category = VariableCategory.create(value: @row[\"category_val\"], label: @row[\"category_lab\"], variable_id: @variable.id)\n end\n end\n\n end", "def doing_extract_data\n consumer = Fiber.new do |producer, queue|\n f = open(\"./tmp/database_doings/doing_phrases/phrases_ready_to_load.txt\", \"a\") do |f| \n loop do\n queue = producer.transfer(consumer, queue)\n puts f << queue\n queue.clear\n end\n raise StopIteration\n end\n end\n producer = Fiber.new do |consumer, queue|\n IO.foreach(\"./tmp/database_doings/doing_phrases/phrases_sorted.txt\") do |line| \n queue = \"\"\n puts queue\n sequence_text, sequence_creation, sequence_complete, sequence_lexigram, sequence_singular, sequence_lense, description, reference, anagram, name, phrase, research, external, internal, created_at = line.split(\"\\t\")\n extracted_data = sequence_text.to_textual\n queue << \"#{extracted_data}\\n\"\n break unless line\n consumer.transfer queue\n queue.clear\n end\n raise StopIteration\n end \n consumer.transfer(producer, [])\n after_break\n end", "def find_replicates(params)\n unless ( params[:geoid_string].nil? ^ params[:geoid_file].nil?) then\n fr_puts \"Received both a :geoid_string and :geoid_file parameter--exactly one is required! Aborting!\"\n throw :needs_exactly_one_geoid_string_or_file\n end\n @batchmode = ! params[:geoid_file].nil?\n # If running in batch, set up the file to get geoids from\n if @batchmode then\n f = File.new(params[:geoid_file])\n else\n f = [params[:geoid_string]]\n end \n output_basedir = Dir.new(params[:output_dir])\n # This ought to be a constant\n no_db_commits = params[:no_db_commits]\n @calling_command = params[:calling_command]\n\n all_infos = [] # All info hashs discovered \n # Only save list of marshalled infos if in batchmode\n marshal_list = File.new(File.join(output_basedir.path, \"marshal_list.txt\"), \"w\") if @batchmode\n \n # For each line in the file (or the single array entry)\n # figure out what the geoids ought to be and stick them in a hash\n f.each { |line|\n line.chomp!\n (pid, gse, gsms, target_column, sdrf) = line.split(/\\t/)\n gsms = gsms.split(/,/)\n \n info = {} # Hash containing calculated geoid information\n info[:pid] = pid\n\n header = parse_sdrf(sdrf)\n s = header.reverse\n\n fr_puts \"modencode_#{pid} has #{gsms.size.inspect} GSMs\" \n fr_puts \"and we have #{header[0].rows.inspect} rows\"\n\n if gsms.size != header[0].rows then\n raise Exception.new(\"Must supply as many GSMS as rows! SDRF has #{header[0].rows} rows, but received #{gsms.size} GSMS.\")\n end\n\n column_specified = false\n target_column = target_column.to_i\n \n colname = header[target_column].name\n if colname =~ /geo/i then\n fr_puts \"Using existing GEOid column #{colname}\"\n else\n fr_puts \"Using protocol #{header[target_column].split_example}.\"\n column_specified = true\n end\n\n # if it's not geo, use it as protocol:\n if( column_specified ) then \n \n # get previous_protocol (ie target) and the one after it\n previous_protocol = header[target_column]\n previous_protocol_name = previous_protocol.split_example unless previous_protocol.nil?\n next_protocol = header.slice(target_column +1, header.length).find{|col| col.heading =~ /Protocol REF/i}\n next_protocol_name = next_protocol.split_example unless next_protocol.nil?\n\n\n geo_record = SDRFHeader.new(\"Result Value\", \"geo record\") # make a new column\n # populate the geo record\n gsms.each_index{|i|\n geo_record.values[i] = gsms[i]\n }\n fr_puts \" Setting GSMs to: \" + geo_record.values.join(\", \") \n i = next_protocol.nil? ? header.size : header.find_index(next_protocol)\n header.insert(i, geo_record)\n fr_puts \" Attach GEO IDs to protocol: '#{previous_protocol.to_s}'\" \n else # there must be a geo colunn\n\n # finding a geo header index.\n geo_header_idx = s.find_index { |h| h.name =~ /geo/i }\n\n if geo_header_idx then\n previous_protocol = s.slice(geo_header_idx, s.length).find { |col| col.heading =~ /Protocol REF/i }; previous_protocol_name = previous_protocol.split_example unless previous_protocol.nil?\n next_protocol = s.slice(0, geo_header_idx).reverse.find { |col| col.heading =~ /Protocol REF/i }; next_protocol_name = next_protocol.split_example unless next_protocol.nil?\n # Attach GEO IDs to existing GEO ID column\n fr_puts \" Found existing GEO ID column for #{pid} between: '#{previous_protocol_name.to_s}' AND '#{next_protocol_name.to_s}'\" \n sdrf_rows = s[geo_header_idx].rows\n geo_header_col = s[geo_header_idx]\n\n if sdrf_rows != gsms.size then\n raise Exception.new(\"Can't match #{sdrf_rows} SDRF rows to #{gsms.size} GEO ids!\")\n \n ## Attach GEO IDs, lining up duplicates with the previous row in the SDRF with the appropriate number of unique values\n #fr_puts \" There are more rows in the SDRF than GSM IDs: #{sdrf_rows} != #{gsms.size}.\" \n # Have to line this up carefully\n #uniq_rows = enough_replicates_at.uniq_rows\n #fr_puts \" Unique rows for #{enough_replicates_at.heading} [#{enough_replicates_at.name}]: \" + uniq_rows.pretty_inspect \n #geo_header_col.values.clear\n #uniq_rows.each_index { |is_idx|\n # uniq_rows[is_idx].each { |i|\n # geo_header_col.values[i] = gsms[is_idx]\n # }\n #}\n #fr_puts \" Setting GSMs to: \" + geo_header_col.values.join(\", \") \n else\n # Attach GEO IDs to the SDRF in order\n geo_header_col.values.clear\n gsms.each_index { |i|\n geo_header_col.values[i] = gsms[i]\n }\n fr_puts \" Setting GSMs to: \" + geo_header_col.values.join(\", \") \n end\n geo_record = geo_header_col\n else # No protocol column and no geo header idx. should never happen.\n raise Exception.new(\"No protocol column or existing GEO column was specified. This should never happen!\")\n end\n end\n\n # If batchmode, make the project's subfolder within out\n output_sdrfdir = @batchmode ? File.join(output_basedir.path, pid.to_s) : output_basedir.path \n FileUtils.mkdir_p(output_sdrfdir)\n out_sdrf = File.join(output_sdrfdir, File.basename(sdrf))\n\n # Create new SDRF, overwriting existing sdrf only if not in batchmode\n print_sdrf(header, out_sdrf, !@batchmode)\n\n info[:geo_header_col] = geo_header_col\n info[:geo_record] = geo_record\n info[:previous_protocol_name] = previous_protocol_name\n\n # stick info in the hash to be remembered\n all_infos << info\n # Write a marshal file\n marshal_filename = GEOID_MARSHAL\n out_marshal = File.join(output_sdrfdir, marshal_filename) \n marshal_file = File.new(out_marshal, \"w\")\n marshal_file.puts(Marshal.dump(info))\n marshal_file.close\n \n marshal_list.puts File.join(pid.to_s, marshal_filename) if @batchmode \n \n } \n \n marshal_list.close if @batchmode\n \n # Then, run the database stuff on all_infos\n attached_geoids = update_db(all_infos, no_db_commits)\n attached_geoids\n end", "def ExtractInfoFromFileContents file_contents\ndata = file_contents.split('|')\n# Remove the first line\n# Remove the project_name from data\n# Remove the line below project_name\ndata = data.drop(3)\n\n# Now, everything is in 3-tuple <key, value, \"\\n\">\ndata.shift\nproject_name = data.first\nproject_name = project_name.gsub(/\\s+/, \"\")\ndata = data.drop(3)\n\nrepo_url = data.first\nrepo_url = repo_url.gsub(/\\s+/, \"\")\ndata = data.drop(3)\n\nhead_sha = data.first\nhead_sha = head_sha.gsub(/\\s+/, \"\")\ndata = data.drop(3)\n\nnum_commits = data.first\nnum_commits = num_commits.gsub(/\\s+/, \"\")\ndata = data.drop(3)\n\nnum_merges = data.first\nnum_merges = num_merges.gsub(/\\s+/, \"\")\ndata = data.drop(3)\n\nreverts_msg = data.first\nreverts_msg = reverts_msg.gsub(/\\s+/, \"\")\ndata = data.drop(3)\n\nreverts_complete = data.first\nreverts_complete = reverts_complete.gsub(/\\s+/, \"\")\ndata = data.drop(3)\n\nreverts_partial = data.first\nreverts_partial = reverts_partial.gsub(/\\s+/, \"\")\ndata = data.drop(3)\n\ncps_complete = data.first\ncps_complete = cps_complete.gsub(/\\s+/, \"\")\ndata = data.drop(3)\n\ncps_partial = data.first\ncps_partial = cps_partial.gsub(/\\s+/, \"\")\ndata = data.drop(2)\n\nproject_name_repo_url_head_sha_combined = project_name + \"\\n\" + repo_url + \"\\n\" + head_sha\nreturn [project_name_repo_url_head_sha_combined, num_commits, num_merges, reverts_msg, reverts_complete, reverts_partial, cps_complete, cps_partial]\n\nend", "def parse_entry(io)\n # Read INSDC or RefSeq entry\n Bio::FlatFile.auto(io).each do |entry|\n @entry = entry\n @features = entry.features\n @source = @features.shift\n parse_sequence\n parse_source\n #parse_genes\n parse_features\n end\n end", "def combine_salmon\n @tpm = {}\n @counts = {}\n if @paired == 1\n @data.each_with_index do |left,i|\n name = \"#{left[:name]}-#{left[:type]}-#{left[:rep]}\"\n File.open(left[:salmon]).each do |line|\n unless line.start_with?(\"#\")\n cols = line.chomp.split(\"\\t\")\n transcript = cols[0]\n tpm = cols[2].to_f\n counts = cols[3].to_f\n @tpm[transcript] ||= {}\n @tpm[transcript][name] = tpm\n @counts[transcript] ||= {}\n @counts[transcript][name] = counts\n end\n end\n end\n elsif @paired == 2\n @data.each_with_index.each_slice(2) do |(left,i), (right,j)|\n name = \"#{left[:name]}-#{left[:type]}-#{left[:rep]}\"\n File.open(left[:salmon]).each do |line|\n unless line.start_with?(\"#\")\n cols = line.chomp.split(\"\\t\")\n transcript = cols[0]\n tpm = cols[2].to_f\n counts = cols[3].to_f\n @tpm[transcript] ||= {}\n @tpm[transcript][name] = tpm\n @counts[transcript] ||= {}\n @counts[transcript][name] = counts\n end\n end\n end\n end\n File.open(\"#{@output_dir}/combined_tpm.csv\", \"wb\") do |out|\n out.write \"transcript\"\n @tpm[@tpm.keys.first].each do |file, tpm|\n out.write \"\\t#{file}\"\n end\n out.write \"\\n\"\n @tpm.each do |transcript, hash|\n out.write \"#{transcript}\"\n hash.each do |file, tpm|\n out.write \"\\t#{tpm}\"\n end\n out.write \"\\n\"\n end\n end\n File.open(\"#{@output_dir}/combined_counts.csv\", \"wb\") do |out|\n out.write \"transcript\"\n @counts[@counts.keys.first].each do |file, counts|\n out.write \"\\t#{file}\"\n end\n out.write \"\\n\"\n @counts.each do |transcript, hash|\n out.write \"#{transcript}\"\n hash.each do |file, counts|\n out.write \"\\t#{counts}\"\n end\n out.write \"\\n\"\n end\n end\n end", "def process_bam(input_file, fasta, skip)\n\n\t\t# general settings\n\t\texclude = []\n\t\tFile.open(skip, 'r').readlines.each {|line| exclude << line.strip}\n\t\tfirstline = TRUE \n\t\tanchor_left = nil\n\t\tanchor_right = nil\n\t\tchr_a = nil\n\t\tchr_b = nil\n\t\tinput_hash = {}\n\n\t\t# Initiate chromosome hash\n\t\tDir.foreach(fasta) do |item|\n\t\t\tchr = item.sub('.fa', '')\n\t\t\tnext if item == '.' || item == '..' || exclude.include?(chr) \n\t\t\tinput_hash[chr] = {}\n\t\tend\n\n\t\tinput_hash.each_key do |chr_a|\n\t\t\tinput_hash.keys.each {|chr_b| input_hash[chr_a][chr_b] = []}\n\t\tend\n\n\t\t# read bam file\n\t\tinput_file.each do |line|\n\t\t\tline = line.strip.split(/\\s+/)\n\t\t\n\t\t\tif firstline \n\t\t\t\tanchor_left = ReadBam.new(line)\n\t\t\t\tfirstline = FALSE\n\t\t\t\tchr_a = anchor_left.chr\n\t\t\telse\n\t\t\t\tanchor_right = ReadBam.new(line)\n\t\t\t\tchr_b = anchor_right.chr\n\t\t\t\t\n\t\t\t\tif input_hash.has_key?(chr_a) && interChimeric?(anchor_left, anchor_right, exclude)\n\t\t\t\t\t\n\t\t\t\t\tif anchor_left.strand == 1 && anchor_right.strand == 1\n\t\t\t\t\t\tinput_hash[chr_b][chr_a] << [anchor_right, anchor_left] \n\t\t\t\t\telsif anchor_left.strand == -1 && anchor_right.strand == -1\n\t\t\t\t\t\tinput_hash[chr_a][chr_b] << [anchor_left, anchor_right] \n\t\t\t\t\telse\n\t\t\t\t\t\tinput_hash[chr_b][chr_a] << [anchor_right, anchor_left] \n\t\t\t\t\tend\n\t\t\t\tend\n\t\t\t\t\n\t\t\t\tanchor_left, anchor_right = nil\n\t\t\t\tfirstline = TRUE\n\t\t\tend\n\t\tend\n\t\t$logfile.puts \"#{Time.new.strftime(\"%c\")}: Found anchor pairs.\"\t\t\n\t\tinput_hash\n\tend", "def obtain_data_from_ebi(gene)\r\n address = URI(\"http://www.ebi.ac.uk/Tools/dbfetch/dbfetch?db=ensemblgenomesgene&format=embl&id=#{gene}\") \r\n response = Net::HTTP.get_response(address) # use the Net::HTTP object \"get_response\" method\r\n record = response.body\r\n entry = Bio::EMBL.new(record) \r\n ac_seq= entry.accession.split(\":\")\r\n chr_id=ac_seq[2]\r\n chr_cord=[ac_seq[3].to_i,ac_seq[4].to_i]\r\n #obtein the secuence\r\n bioseq = entry.to_biosequence\r\n return bioseq, chr_id, chr_cord\r\nend", "def from_file(filename, opts)\n @resident_dir = File.dirname(File.expand_path(filename))\n opts = { :filter_by_precursor_mass_tolerance => true, :read_pephits => true}.merge(opts)\n\n (@params, after_params_io_pos) = Mspire::Sequest::Srf.get_sequest_params_and_finish_pos(filename)\n return unless @params\n\n dup_references = 0\n dup_refs_gt_0 = false\n\n dup_references = @params.print_duplicate_references.to_i\n if dup_references == 0\n # warn %Q{\n #*****************************************************************************\n #WARNING: This srf file lists only 1 protein per peptide! (based on the\n #print_duplicate_references parameter in the sequest.params file used in its\n #creation) So, downstream output will likewise only contain a single protein\n #for each peptide hit. In many instances this is OK since downstream programs\n #will recalculate protein-to-peptide linkages from the database file anyway.\n #For complete protein lists per peptide hit, .srf files must be created with\n #print_duplicate_references > 0. HINT: to capture all duplicate references, \n #set the sequest parameter 'print_duplicate_references' to 100 or greater.\n #*****************************************************************************\n # }\n else\n dup_refs_gt_0 = true\n end\n\n File.open(filename, 'rb') do |fh|\n @header = Mspire::Sequest::Srf::Header.from_io(fh)\n @version = @header.version\n\n unpack_35 = case @version\n when '3.2'\n false\n when '3.3'\n false\n when '3.5'\n true\n end\n\n if @header.combined\n @base_name = File.basename(filename, '.*')\n # I'm not sure why this is the case, but the reported number is too\n # big by one on the 2 files I've seen so far, so we will correct it here!\n @header.dta_gen.num_dta_files = @header.dta_gen.num_dta_files - 1\n if opts[:read_pephits] == false\n raise NotImplementedError, \"on combined files must read everything right now!\"\n end\n (@dta_files, @out_files) = read_dta_and_out_interleaved(fh, @header.num_dta_files, unpack_35, dup_refs_gt_0)\n else\n @base_name = @header.raw_filename.scan(/[\\\\\\/]([^\\\\\\/]+)\\.RAW$/).first.first\n\n @dta_files = read_dta_files(fh, @header.num_dta_files, unpack_35)\n if opts[:read_pephits]\n # need the params file to know if the duplicate_references is set > 0\n raise NoSequestParamsError, \"no sequest params info in srf file!\\npass in path to sequest.params file\" if @params.nil?\n @out_files = read_out_files(fh,@header.num_dta_files, unpack_35, dup_refs_gt_0)\n\n # FOR DISPLAY ONLY!\n #@out_files.each do |f|\n # if f.num_hits == 10\n # p f.hits.last\n # end\n #end\n\n if fh.eof?\n #warn \"FILE: '#{filename}' appears to be an abortive run (no params in srf file)\\nstill continuing...\"\n @params = nil\n @index = []\n end\n end\n end\n\n fh.pos = after_params_io_pos\n\n # This is very sensitive to the grab_params method in sequest params\n fh.read(12) ## gap between last params entry and index \n\n @index = read_scan_index(fh,@header.num_dta_files)\n end\n\n\n ### UPDATE SOME THINGS:\n # give each hit a base_name, first_scan, last_scan\n if opts[:read_pephits] && !@header.combined\n @index.each_with_index do |ind,i|\n mass_measured = @dta_files[i][0]\n outfile = @out_files[i]\n outfile.first_scan = ind[0]\n outfile.last_scan = ind[1]\n outfile.charge = ind[2]\n\n pep_hits = @out_files[i].hits\n @peptide_hits.push( *pep_hits )\n pep_hits.each do |pep_hit|\n pep_hit[15] = @base_name\n pep_hit[16] = ind[0]\n pep_hit[17] = ind[1]\n pep_hit[18] = ind[2]\n # add the deltamass\n pep_hit[12] = pep_hit[0] - mass_measured # real - measured (deltamass)\n pep_hit[13] = 1.0e6 * pep_hit[12].abs / mass_measured ## ppm\n pep_hit[19] = self ## link with the srf object\n end\n end\n\n filter_by_precursor_mass_tolerance! if params\n end\n\n self\n end", "def all_items(ead)\n ead.reader.archdesc.dsc.c01s.each do |c01|\n c01.c02s.each do |c02|\n puts \"#{c01.level}:#{c01.identifier} -> #{c02.level}:#{c02.identifier} -> #{c02.dao.try(:href)} | #{print_types(c02)}\"\n c02.c03s.each do |c03|\n puts \"#{c01.level}:#{c01.identifier} -> #{c02.level}:#{c02.identifier} -> #{c03.level}:#{c03.identifier} -> #{c03.dao.try(:href)} | #{print_types(c03)}\"\n c03.c04s.each do |c04|\n puts \"#{c01.level}:#{c01.identifier} -> #{c02.level}:#{c02.identifier} -> #{c03.level}:#{c03.identifier} -> #{c04.level}:#{c04.identifier} -> #{c04.dao.try(:href)} | #{print_types(c04)}\"\n end\n end\n end\n puts \"\\n\"\n end\nend", "def read_all(&block); end", "def central_producers\n @cental_prod ||= CSVDocument.new(\n dataset_dir.join('central_producers.csv'))\n end", "def loadComData\n @comData = Hash.new\n\n # Load direct communication targets from file\n File.open(PATH_COM_DATA).each_line do |line|\n # Warning: This is only generated every few steps per agent and thus not symmetric (as it should be)\n data = line.split(\"\\t\")\n next if data[0] == \"SimTime\"\n\n # Format: Time / Autoindex / Direct Communication\n @comData[data[0]] ||= Hash.new\n @comData[data[0]][data[1]] ||= Set.new\n\n targets = convert_can_data_to_system(data[2]).split(\",\")\n\n @comData[data[0]][data[1]].merge targets\n end\n\n debug \"Repairing data\"\n # Repair data: Direct communication targets should be symmetric\n @comData.each do |time, data|\n data.each do |car, targets|\n targets.each do |target|\n # Add car to target's targets if car can comunicate with target\n @comData[time][target] ||= last_com_for_car(target, time)\n @comData[time][target] << car\n end\n end\n end\n\n debug \"Loaded communication data\"\n end", "def check_csfasta(fasta)\n # length is the total read lengh + 2\n # cat *.csfasta | perl -ne 'next if /^#/;$i++;if ($i%2==0) {print unless \n # length($_)==52} else {print unless /^>\\d+_\\d+\\_\\d+\\_(F|R)(3|5)(-P2)*\\n$/}'\n # | more\n length = get_bp_length(fasta) + 2\n i = 0\n output = \"\"\n File.open(fasta).each do |l|\n next if /^#/.match(l)\n i = i + 1\n if ( i % 2 == 0 ) && ( l.size != length ) &&\n !/^>\\\\d+_\\\\d+_\\\\d+_(F|R)(3|5)(-P2)*\\n$/.match(l)\n output = output + l\n end\n end\n output\n end", "def parse ddi_file\n @logger.info 'Parsing DDI file ' + ddi_file\n catalog = DDI::Catalog.new\n study = DDI::Study.new\n study_info_hash = Hash.new\n#TODO This will not work on windows since it depends on the unix tool file need to use a different way. Possibly use rchardet instead\n begin\n encode_type = `file --mime -br #{ddi_file}`.gsub(/\\n/,\"\").split(';')[1].split('=')[1]\n rescue Exception => e\n \n end\n #have to convert to UTF-8 for libxml\n contents = File.open(ddi_file).read\n output = Iconv.conv(\"UTF-8\", encode_type, contents)\n converted_file = File.join(File.dirname(ddi_file), \"converted_file.xml\")\n file = File.open(converted_file, 'w')\n file.write(output)\n file.close\n parser = LibXML::XML::Parser.file(converted_file)\n doc = parser.parse\n studynodes = doc.find('//stdyDscr')\n abstracts = studynodes[0].find('//abstract')\n abstract = \"\"\n abstracts.each {|ab| abstract << ab.content.strip}\n abstract.strip!\n study.abstract = abstract\n study.title = studynodes[0].find('//stdyDscr/citation/titlStmt/titl')[0].first.content.strip unless studynodes[0].find('//stdyDscr/citation/titlStmt/titl')[0] == nil\n study.id = studynodes[0].find('//IDNo')[0].first.content.strip unless studynodes[0].find('//IDNo')[0] == nil\n \n #start and finish dates for study\n dates = []\n date = studynodes[0].find('//sumDscr/collDate')\n date.each do |d|\n a = d.attributes\n unless a.length == 0\n study_date = DDI::StudyDate.new\n study_date.type = a.get_attribute('event').value.strip\n study_date.date = a.get_attribute('date').value.strip\n dates.push(study_date)\n end\n end\n study.dates = dates\n studynodes[0].find('//sampProc')[0] ? samp_node = studynodes[0].find('//sampProc')[0] : samp_node = nil\n unless samp_node == nil\n study.sampling_procedure = samp_node.first.content.strip unless samp_node.first == nil\n end\n # study.weight = studynodes[0].find('//sampProc')[0].first.content\n study.ddi_variables = get_variable_information doc\n return study\n end", "def parse835(first_line) read_header(first_line).read_parties.read_details.read_adjustments.read_trailer; end", "def read_data\n entities = Hash.new\n DATA.each_line.map(&:chomp).each do |entity|\n entities[entity.split(',').slice(0..-2).map { |n| n.to_i } ] = entity.split(',').slice(-1)\n end\n entities\nend", "def getFt \n kword = ARGV[1]\n seq = @gb.to_biosequence\n seqoptions = \"\"\n\n for c in 2..ARGV.length-1\n seqoptions += \"#{ARGV[c]},\"\n end\n \n # look through all features\n @gb.each_cds do |ft|\n ftH = ft.to_hash\n loc = ft.locations\n gene = []\n product = []\n if (!ftH[\"gene\"].nil? && ftH[\"gene\"][0].downcase.include?(kword.downcase)) or\n (!ftH[\"product\"].nil? && ftH[\"product\"][0].downcase.include?(kword.downcase)) \n sbeg = loc[0].from.to_i\n send = loc[0].to.to_i\n fasta = Bio::Sequence::NA.new(seq.subseq(sbeg,send))\n position = \"#{sbeg}..#{send}\"\n if loc[0].strand == -1\n fasta.reverse_complement!\n position = \"c#{position}\"\n end\n pep = Bio::Sequence.new(fasta.translate)\n gene = ftH[\"gene\"][0] if !ftH[\"gene\"].nil?\n product = ftH[\"product\"][0] if !ftH[\"product\"].nil?\n if seqoptions.downcase.include?(\"pep\") or seqoptions.downcase.include?(\"prot\")\n puts pep.output_fasta(\"#{@accession}|#{position}|#{ftH[\"protein_id\"][0]}|#{gene}|#{product}|#{@org}\", 60)\n else\n dna = Bio::Sequence.auto(fasta)\n puts dna.output_fasta(\"#{@accession}|#{position}|#{ftH[\"protein_id\"][0]}|#{gene}|#{product}|#{@org}\",60)\n end\n end\n end\nend", "def collect_alma_data( source_dir:, source_file_name:, ingestConf:, options:)\n\n puts \"START COLLECTING\"\n ######################################################################################\n reiresConfJson = File.read(File.join(File.dirname(__FILE__), '../config/config.cfg'))\n reiresConf = JSON.parse(reiresConfJson)\n\n ######################### Dataset and Dataprovider Configuration ######################\n @dataset = ingestConf[\"dataset\"]\n @provider = ingestConf[\"provider\"]\n @license = ingestConf[\"license\"]\n\n @mediaUrlPrefix = ingestConf[\"mediaUrlPrefix\"]\n @same_as_template = ingestConf[\"same_as_template\"]\n\n @metaLanguage = ingestConf[\"metaLanguage\"]\n @unicode_script = ingestConf[\"unicode_script\"]\n @recordLanguage = ingestConf[\"recordLanguage\"]\n @defaulttype =ingestConf[\"defaulttype\"] \n @genericRecordDesc = ingestConf[\"genericRecordDesc\"]\n\n ingestdata = {\n \"provider\" => @provider,\n \"dataset\" => @dataset,\n \"license\" => @license,\n \"name\" => @genericRecordDesc\n }\n @isBasedOn = build_isBasedOn(ingestdata)\n\n #######################################################################################\n @url_prefix = reiresConf[\"url_prefix\"]\n @prefixid = \"#{reiresConf[\"prefixid\"]}_#{ @provider[\"@id\"] }_#{ @dataset[\"@id\"] }\"\n\n # @sdLicense = reiresConf[\"sdLicense\"]\n # @sdPublisher = reiresConf[\"sdPublisher\"]\n #######################################################################################\n\n \n #Link to Limo => bases on institution id\n #same_as_template = \"https://limo.libis.be/primo-explore/search?query=any,contains,<#record_id>&vid=KULeuven&lang=en_US\"\n #Link to Limo => bases on networkzone id (different publishing profile)\n # same_as_template = https://limo.libis.be/primo-explore/fulldisplay?docid=<#record_id>&context=L&vid=KULeuven&search_scope=ALL_CONTENT&tab=all_content_tab&lang=en_US\n\n records_dir = \"#{RECORDS_DIR}/Alma_KULeuven/#{@dataset[\"@id\"]}\"\n \n @counter = 0\n record_count = 0\n \n if options[:full_export] \n log(\"Clear records #{records_dir}/*.json\")\n Dir.glob(\"#{records_dir}/*.json\").each { |file| File.delete(file)}\n else\n log(\"DO NOT CLEAR RECORDS DIR; It is a partial export [#{records_dir}]\")\n end\n\n source_dir = source_dir || SOURCE_RECORDS_DIR\n log(\"SOURCE_RECORDS_DIR : #{ source_dir }\")\n log(\"source_file_name : #{ source_file_name }\")\n \n# filter(data, '$..collection.record').each do |record|\n\n nori = Nori.new(parser: :nokogiri, strip_namespaces: true, convert_tags_to: lambda {|tag| tag.gsub(/^@/, '_')})\n\n Dir[\"#{source_dir}/#{source_file_name}\"].each_with_index do |source_file, index| \n log(\" parsing #{source_file}\")\n timing_start = Time.now\n x = XmlSplit.new(source_file, 'record')\n x.each_with_index { |node,i| \n filter( nori.parse(node) , '$.record').each do |record|\n #@logger.debug(\" ReIReS parser - record : #{record} \")\n ## To debug a large xml-file.\n ## Split the xml-file in smal chunks; 1 json representation per file\n\n=begin\n #if i % 7 == 0\n split_dir = \"/app/records/split_records\"\n unless File.directory?(split_dir)\n FileUtils.mkdir_p(split_dir)\n end\n file_name = \"#{split_dir}/record_#{i}.json\"\n File.open(file_name, 'wb') do |f|\n f.puts record.to_json\n end\n #end\n=end \n #if i.between?(24660 , 24670)\n parse_record( record: record, index: i, records_dir: records_dir)\n #end\n end\n index += 1\n if index % 5000 == 0\n @logger.info(\" ReIReS parser - #{index} records already parsed \") \n end\n }\n record_count += index\n end\n\n####### PARSE A FEW RECORDS !!!!!!!!!!!!!!!!!!######################\n=begin\nfiles =[]\nfiles << \"/app/records/split_records/record_68138.xml\"\nfiles << \"/app/records/split_records/record_15489.xml\"\n###################################################################\nrecords_dir = \"/app/records/Alma_KULeuven/test/\"\nDir.glob(\"#{records_dir}/*.json\").each { |file| File.delete(file)}\n\nfiles.each_with_index do |file,i| \n record = JSON.parse(File.read(file))\n parse_record( record: record, index: 0, records_dir: records_dir)\nend\n=end\n\nend", "def merged_file_read_opts(site, opts); end", "def get_all_data\n Hash[*File.read(\"#{@path}scripts/data\").split(/[, \\n]+/)]\n end", "def by_file(first, output)\n qseq = Bio::Ngs::Converter::Qseq.new(options.paired ? :pe : :se)\n buffers = [first] if first.kind_of? String\n buffers = first if first.kind_of? Array\n buffers.each do |file_name|\n qseq.buffer = File.open(file_name,'r') #todo: dir is not used here it could be a bug\n fastq_file = File.open(File.join(options.dir,\"#{output}.fastq\"), (options.append ? 'a' : 'w'))\n qseq.to_fastq do |fastq|\n fastq_file.puts fastq if fastq\n end\n qseq.buffer.close\n fastq_file.close \n #Write the report\n File.open(File.join(options.dir,\"#{output}.stats\"), (options.append ? 'a' : 'w')) do |file|\n file.puts ({:file_name=>file_name, :stats=>qseq.stats}.to_yaml)\n end\n end #buffers\n # puts \"Done #{file_name}\"\n end", "def prepare_data(peptide_hits)\n prot_to_peps = Hash.new{ |h,k| h[k] = Set.new }\n pep_to_prots = {}\n \n peptide_hits.group_by(&:aaseq).each do |aaseq, hits|\n prots = hits.first.prots\n pep_to_prots[aaseq] = prots.map(&:id)\n prots.each do |prot|\n prot_to_peps[prot.id] << aaseq\n end\n end\n \n most_overlap = pep_to_prots.values.map(&:size).max\n \n return prot_to_peps, most_overlap, pep_to_prots\n end", "def process_all_primary_files\n # NOTE: I investigated concurrent processing of files\n # to speed up this process, however I didn't pursue it\n # further: This process is highly CPU intensive, so the\n # only way to get a significant speedup is to use\n # multiple CPUs/Cores. In MRI this is only possible\n # with multiple processes. I didn't want to go through\n # the trouble of IPC to collect all files' operations.\n # It would be easier if we could use threads, however\n # that would require jruby or rbx. So I'm sticking with\n # sequential processing for now.\n Dir.glob(\n File.join(@repository.base_dir, '**/content/**/*.at')\n ).map { |absolute_file_path|\n next nil if !@file_list.any? { |e| absolute_file_path.index(e) }\n # Skip non content_at files\n unless absolute_file_path =~ /\\/content\\/.+\\d{4}\\.at\\z/\n raise \"shouldn't get here\"\n end\n\n # Note: @any_content_type may be the wrong one, however finding\n # corresponding STM CSV file will still work as it doesn't rely\n # on config but das regex replacements on file path only.\n content_at_file_to = Repositext::RFile::ContentAt.new(\n File.read(absolute_file_path),\n @language,\n absolute_file_path,\n @any_content_type\n )\n\n @logger.info(\" - process #{ content_at_file_to.repo_relative_path(true) }\")\n\n soff = SubtitleOperationsForFile.new(\n content_at_file_to,\n @repository.base_dir,\n {\n from_git_commit: @from_git_commit,\n to_git_commit: @to_git_commit,\n prev_last_operation_id: @prev_last_operation_id,\n execution_context: @execution_context,\n }\n ).compute\n\n if soff.operations.any?\n @prev_last_operation_id = soff.last_operation_id\n soff\n else\n # Return nil if no subtitle operations exist for this file\n nil\n end\n }.compact\n end", "def get_oclcs(member_id, hdfn, conn)\n hdf = Hathidata::Data.new(hdfn);\n\n if hdf.exists? then\n $log.i(\"#{hdf.path} already exists, skipping method #{__method__}.\");\n return hdf.path;\n elsif hdf.backup? then\n $log.i(\"Backup of #{overlapf.path} already exists. Skipping method #{__method__}.\");\n return hdf.path;\n end\n\n hdf.open('w');\n sql = \"SELECT DISTINCT oclc FROM holdings_memberitem WHERE member_id = ?\";\n sth = conn.prepare(sql);\n\n $log.d(sql.sub('?', member_id));\n\n count_lines = 0;\n sth.query(member_id) do |row|\n hdf.file.puts row['oclc'];\n count_lines += 1;\n if count_lines % 100000 == 0 then \n $log.d(\"#{count_lines} oclcs output\");\n end\n end\n hdf.close();\n\n return hdf.path;\nend", "def handle_taxa(data, import)\n print \"Handling taxa \"\n if import.metadata['taxa']\n print \"from database. Indexing OTUs by TaxonCode...\"\n Otu.includes(:identifiers).each do |o|\n # There is only one identifier added at this point, so we are safe here. If this changes specify here.\n data.otus.merge!(o.identifiers.first.identifier => o)\n end\n print \"done.\\n\" \n else\n print \"as newly parsed.\\n\"\n puts\n\n path = @args[:data_directory] + 'TXT/taxa_hierarchical.txt'\n raise 'file not found' if not File.exists?(path)\n\n parent_index = {}\n f = CSV.open(path, col_sep: \"\\t\", :headers => true)\n\n\n code = :iczn\n\n f.first(500).each_with_index do |row, i| #f.first(500).each_with_index\n name = row['Name']\n author = (row['Parens'] ? \"(#{row['Author']})\" : row['Author']) unless row['Author'].blank?\n author ||= nil\n code = :icn if code == :iczn && row['Name'] == 'Plantae'\n rank = Ranks.lookup(code, row['Rank'])\n rank ||= NomenclaturalRank\n\n p = Protonym.new(\n name: name,\n verbatim_author: author,\n year_of_publication: row['Year'],\n rank_class: rank,\n created_by_id: find_or_create_collection_user(row['CreatedBy'], data),\n updated_by_id: find_or_create_collection_user(row['ModifiedBy'], data),\n #creator: find_or_create_user(row['CreatedBy'], data),\n #updater: find_or_create_user(row['ModifiedBy'], data),\n created_at: time_from_field(row['CreatedOn']),\n updated_at: time_from_field(row['ModifiedOn'])\n )\n p.parent_id = parent_index[row['Parent'].to_s].id unless row['Parent'].blank? || parent_index[row['Parent'].to_s].nil?\n if rank == NomenclaturalRank || !p.parent_id.blank?\n bench = Benchmark.measure {\n p.save\n build_otu(row, p, data)\n }\n\n if p.valid?\n parent_index.merge!(row['ID'] => p)\n TAXA.merge!(row['TaxonCode'] => p)\n print \"\\r#{i}\\t#{bench.to_s.strip} #{name} \" # \\t\\t#{rank}\n else\n puts \"\\n#{p.name}\"\n puts p.errors.messages\n puts\n end\n else\n puts \"\\n No parent for #{p.name}.\\n\"\n end\n\n\n p.data_attributes.create(type: 'InternalAttribute', predicate: data.keywords['Taxa:Synonyms'], value: row['Synonyms']) unless row['Synonyms'].blank?\n p.data_attributes.create(type: 'InternalAttribute', predicate: data.keywords['Taxa:References'], value: row['References']) unless row['References'].blank?\n p.notes.create(text: row['Remarks']) unless row['Remarks'].blank?\n\n #p.parent_id = p.parent.id if p.parent && !p.parent.id.blank?\n\n end\n\n import.metadata['taxa'] = true\n end\n end", "def test_parse_hapmap_snp_data\n column_headings = []\n snp_data = []\n File.open(\"#{RAILS_ROOT}/test/mocks/#{@hapmap_filename}\",\"r\") do |file|\n while (f = file.gets)\n\n next if f =~ /^#/ # ignore lines that start with a hash - comments\n f.strip! # remove any whitespace, linefeeds, etc.\n\n # if this line has the column headings, extract and do the next line\n if f =~ /^rs#/\n column_headings = f.split(/\\s/)\n next\n end\n\n # Split the hapmap file based on spaces\n snp_data = f.split(/\\s/)\n\n # load_hapmap_snp_data(column_headings,snp_data)\n break\n end # end of file_array.each loop\n\n # test that we're parsing the headings and the SNP data correctly\n assert_equal \"SNPalleles\",column_headings[1]\n assert_equal \"rs7754266\",snp_data[0]\n assert_equal \"ncbi_b35\",snp_data[5]\n end\n end", "def read_files\r\n @prefixes = IO.read('prefixes.txt').split(' ')\r\n @syllables = IO.read('syllables.txt').split(' ')\r\n @postfixes = IO.read('postfixes.txt').split(' ')\r\n end", "def read_file pn\n pn.readlines.map(&:chomp)\n .each do |line|\n @entries.add line, pn\n end\n end", "def get_program_file_data(program_file)\n File.open(program_file,'rb'){|f| f.read}\nend", "def adj_read_bases\n # mapping quality after '^' symbol is substituted\n # to avoid splitting at non indel + or - characters\n # read ends marking by '$' symbol is substituted\n # insertion and deletion marking by '*' symbol is substituted\n self.read_bases.gsub!(/\\^./, '')\n self.read_bases.delete! '$'\n self.read_bases.delete! '*'\n # warn about reads with ambiguous codes\n # if self.read_bases.match(/[^atgcATGC,\\.\\+\\-0-9]/)\n # warn \"Ambiguous nucleotide\\t#{self.read_bases}\"\n # end\n end", "def getFtsNtSequences\n @gbkObj.each_cds do |ft|\n ftH = ft.to_hash\n loc = ft.locations\n gene = []\n product = []\n protId = \"\"\n gene = ftH[\"gene\"] if !ftH[\"gene\"].nil?\n product = ftH[\"product\"] if !ftH[\"product\"].nil?\n protId = ftH[\"protein_id\"][0] if !ftH[\"protein_id\"].nil?\n locustag = ftH[\"locus_tag\"][0] if !ftH[\"locus_tag\"].nil?\n dna = getDna(ft,@gbkObj.to_biosequence)\n seqout = dna.output_fasta(\"#{@accession}|#{loc}|#{protId}|#{locustag}|#{gene[0]}|#{product[0]}\",60)\n puts seqout\n end\n end", "def getData()\n CSV.foreach(\"SkaterProjections.csv\", :headers => true) do |row|\n @skater_data.push(row)\n end\n \n CSV.foreach(\"GoalieProjections.csv\", :headers => true) do |row|\n @goalie_data.push(row)\n end\nend", "def readlines(*several_variants)\n #This is a stub, used for indexing\n end", "def doing_raw_file_to_verified_unique_researches # adjustable line length filter\n consumer = Fiber.new do |producer, queue|\n a = File.read(\"../../Documents/20111224-research.txt\")\n\t new = a.to_textual\n#TODO finishe\t \n @megadata = a.sort do |x,y|\n x.downcase <=> y.downcase\n end\n @megadata_unique = @megadata.uniq\n f = open(\"./tmp/database_doings/doing_uniques/uniques_done.txt\", \"a\") do |f| \n loop do\n queue = producer.transfer(consumer, queue)\n puts f << queue\n queue.clear\n end\n raise StopIteration\n end\n end\n producer = Fiber.new do |consumer, queue|\n #IO.foreach(\"./tmp/database_doings/doing_uniques/uniques_todo.txt\") do |line|\n queue = \"\"\n puts queue\n @megadata_unique.each do |line|\n sequence_text = line.to_textual.de_comma\n if sequence_text.length < 50 # adjustable\n puts \"line ignored due to length\"\n elsif Sequence.find_by_sequence_text(sequence_text)\n puts \"line ignored as it is already in database : \" + \"#{sequence_text}\"\n else\n sequence_creation = sequence_text.de_space unless nil\n sequence_complete = sequence_text.split(//).sort.join('').strip unless nil\n sequence_lexigram = lexigram_sequencer(sequence_text) unless nil\n sequence_singular = sequence_complete.squeeze unless nil\n description = \"research\"\n reference = \"literoti\"\n anagram = 0\n name = 0\n phrase = 0\n research = 1\n external = 0\n internal = 0\n created_at = \"2011-12-21 12:12:00\"\n #line = \"#{sequence_text}\\n\"\n line = \"#{sequence_text}\\t#{sequence_creation}\\t#{sequence_complete}\\t#{sequence_lexigram}\\t#{sequence_singular}\\t#{description}\\t#{reference}\\t#{anagram}\\t#{name}\\t#{phrase}\\t#{research}\\t#{external}\\t#{internal}\\t#{created_at}\\n\"\n queue << line\n break unless line\n consumer.transfer queue\n queue.clear\n end\n end\n end\n raise StopIteration\n end", "def read_shared_strings(doc)\n #TODO: doc.find(\"//*[local-name()='si']\").each do |si|\n doc.xpath(\"//*[local-name()='si']\").each do |si|\n shared_table_entry = ''\n #TODO: si.each_element do |elem|\n si.children.each do |elem|\n if elem.name == 'r' and elem.children\n # elem.each_element do |r_elem|\n elem.children.each do |r_elem|\n if r_elem.name == 't'\n shared_table_entry << r_elem.content\n end\n end\n end\n if elem.name == 't'\n shared_table_entry = elem.content\n end\n end\n @shared_table << shared_table_entry\n end\n end", "def process_gff(gff, out)\n require 'bio/db/gff'\n\n # Read the lifted gff file into memory and parse it.\n gff3 = Bio::GFF::GFF3.new File.read(gff)\n\n # Obtain transcripts and their children. genes and other features are not\n # processed.\n transcripts = Hash.new { |h, k| h[k] = [] }\n gff3.records.each do |record|\n # GFF file includes features, comments and directives. We are only\n # interested in \"features\".\n next unless record.respond_to?(:feature_type)\n\n # If the feature is a transcript, we consider its ID attribute.\n if record.feature_type =~ /mRNA|transcript/\n transcripts[record.attributes.assoc('ID')] << record\n end\n\n # If the feature is exon or CDS, we consider its Parent attribute.\n if record.feature_type =~ /exon|CDS/\n transcripts[record.attributes.assoc('Parent')] << record\n end\n end\n\n transcripts = transcripts.map do |id, annots|\n next unless annots.map(&:seqname).uniq.length == 1 # mRNA on different scaffolds/contigs\n next unless annots.map(&:feature_type).include? 'CDS' # mRNA with no CDS\n\n # If there's a group of CDS without parent mRNA.\n if !annots.map(&:feature_type).include?('mRNA')\n mrna = [\n annots.first.seqname,\n annots.first.source,\n 'mRNA',\n annots.map(&:start).min,\n annots.map(&:end).max,\n nil,\n annots.first.strand,\n nil,\n [[\"ID\", id]]\n ]\n mrna = Bio::GFF::GFF3::Record.new(*mrna)\n annots.unshift(mrna)\n end\n\n annots\n end.flatten.compact\n\n tmp = Tempfile.open('lifted')\n tmp.write transcripts.join\n tmp.close\n sh \"gt gff3 -tidy -sort -addids -retainids #{tmp.path} > #{out}\"\nend", "def read_data(filename)\n data = File.readlines(filename).map{|line| line.chomp.split(\"\\t\"). map{|field| field == \"\" ? nil : field}}\n data.map do |line|\n {:district => line[0], :name => line[1], :sponsorship => line[2], :phone1 => line[3], :phone2 => line[4], :email => line[5]}\n end\nend", "def seed_parser(db)\n warn \"Parsing data files in #{@options[:datadir]}/#{db}\" if @options[:verbose]\n\n @data[db] = { }\n\n # There are three files we need: SEED.md52id2ont, SEED.md52id2func and\n # SEED.id2subsystems, each will be read and placed in the @data structure\n # under the keys 'SEED' and the respective file endings. The first two will\n # be a hash indexed by md5sum, the third a hash indexed by subsystem id\n # (which can be found in the md52id2ont file).\n #\n # 1. SEED.md52id2ont\n begin\n warn \"\\tSEED.md52id2ont\" if @options[:verbose]\n data = {}\n @data['SEED']['md52id2ont'] = data\n File.new(\"#{@options[:datadir]}/#{db}/SEED.md52id2ont\").each_with_index do |line, linenum|\n begin\n\tline.chomp!\n\tfields = line.split(/\\s*\\t\\s*/)\n\n\t# We have entries with multiple annotations\n\tdata[fields[0]] ||= []\n\tdata[fields[0]] << fields[1]\n rescue ArgumentError\n\twarn \"\\t\\tSEED.md52id2ont error at #{linenum}\" if @options[:verbose]\n end\n end\n rescue\n warn \"Failed to parse #{@options[:datadir]}/#{db}/SEED.md52id2ont: #{$!}, backtrace:\\n\\t#{$!.backtrace.join(\"\\n\\t\")}\"\n exit\n end\n\n # 2. SEED.md52id2func\n begin\n warn \"\\tSEED.md52id2func\" if @options[:verbose]\n data = {}\n @data['SEED']['md52id2func'] = data\n File.new(\"#{@options[:datadir]}/#{db}/SEED.md52id2func\").each_with_index do |line, linenum|\n line.chomp!\n begin\n\tfields = line.split(/\\s*\\t\\s*/)\n\n\t# We may have multiple rows. We only care about picking up the complete list of organisms\n\tif data[fields[0]]\n\t data[fields[0]][:organisms] << fields[3]\n\telse\n\t data[fields[0]] = { \n\t desc: fields[2],\n\t organisms: [ fields[3] ]\n\t }\n\tend\n rescue ArgumentError\n\twarn \"\\t\\tSEED.md52id2func error at #{linenum}\" if @options[:verbose]\n end\n end\n rescue\n warn \"Failed to parse #{@options[:datadir]}/#{db}/SEED.md52id2func: #{$!}, backtrace:\\n\\t#{$!.backtrace.join(\"\\n\\t\")}\"\n exit\n end\n\n # 3. SEED.id2subsystems\n begin\n warn \"\\tSEED.id2subsystems\" if @options[:verbose]\n data = {}\n @data['SEED']['id2subsystems'] = data\n File.new(\"#{@options[:datadir]}/#{db}/SEED.id2subsystems\").each_with_index do |line, linenum|\n begin\n\tline.chomp!\n\tfields = line.split(/\\s*\\t\\s*/)\n\tdata[fields[-1]] = fields[0..-2]\n rescue ArgumentError\n\twarn \"\\t\\tSEED.id2subsystems error at #{linenum}\" if @options[:verbose]\n end\n end\n rescue\n warn \"Failed to parse #{@options[:datadir]}/#{db}/SEED.id2subsystems: #{$!}, backtrace:\\n\\t#{$!.backtrace.join(\"\\n\\t\")}\"\n exit\n end\n\n # Open an output file\n fname = \"#{@options[:basename]}.seed\"\n begin\n warn \"Opening #{fname} for SEED output\" if @options[:verbose]\n @data[db][:outfile] = File.new(fname, \"w\")\n rescue\n warn \"Failed to open file for SEED output #{fname}: #{$!}, backtrace: #{$!.backtrace.join(\"\\n\\t\")}\"\n end\nend", "def final_candidates(before, after, output_file)\n\t\tcandidates = {}\n\t\tall_ids = {}\n\n\t\t# Read circular candidates into hash\n\t\tFile.open(before, 'r').readlines.each do |line|\n\t\t\tline = line.strip.split(\"\\t\")\n\t\n\t\t\tpos = [line[0..1], line[3..4]].join(':')\n\t\t\tread_count = line[6].to_i\n\t\t\tqname = line[-1].split(';')\n\t\n\t\t\t# Create qname index to make search faster\n\t\t\t# Remark 2\n\t\t\tqname.each do |q|\n\t\t\t\tk1, k2 = q.split(':')[3..4]\n\t\t\n\t\t\t\tall_ids[k1] = {} if !all_ids.has_key?(k1)\n\t\t\n\t\t\t\tif !all_ids[k1].has_key?(k2)\n\t\t\t\t\tall_ids[k1][k2] = [q]\n\t\t\t\telse\n\t\t\t\t\tall_ids[k1][k2] << q\n\t\t\t\tend\n\t\t\tend\n\n\t\t\tcandidates[pos] = {:counts => read_count, :qnames => qname}\n\t\tend\n\n\t\t# Read remapped readpairs and compare them to initial candidates\n\t\tFile.open(after, 'r').readlines.each do |line|\n\t\t\tline = line.strip.split(\"\\t\")\n\t\n\t\t\tqname = line[0]\n\t\t\tpos = [line[1..2], line[3..4]].join(':')\n\t\t\tk1, k2 = qname.split(':')[3..4]\n\n\t\t\tread_unused = (!all_ids.has_key?(k1) || !all_ids[k1].has_key?(k2) || !all_ids[k1][k2].include?(qname)) \n\t\t\t\t\t\t\n\t\t\t# Add read if read is not already used (condition 2)\n\t\t\tif candidates.has_key?(pos) && read_unused \n\t\t\t\tcandidates[pos][:counts] += 1\n\t\t\t\tcandidates[pos][:qnames] << qname\n\t\t\tend\n\t\tend\n\n\t\t# Output\n\t\tFile.open(output_file, 'w') do |output|\n\t\t\toutput.puts %w(chr pos_a chr_b pos_b readCounts qnames).join(\"\\t\")\n\t\n\t\t\tcandidates.each do |pos, v| \n\t\t\t\toutput.puts [pos.split(':'), v[:counts], v[:qnames].join(';')].join(\"\\t\")\n\t\t\tend\n\t\tend\n\t\t$logfile.puts \"#{Time.new.strftime(\"%c\")}: Final candidate list finished.\"\n\tend", "def extract_data( page )\n strip_tags page[:content]\n\n #extract_concepts( page[:title] , page , LOC_TITLE ) if page[:title] && page[:title] !=~ PTN_EMPTY\n if page[:tag] && page[:tag] !=~ PTN_EMPTY\n page[:tag] = page[:tag].split(SEP_TAG).map{|e|\"[[\"+e+\"]]\"}.join(\";\")\n extract_concepts( page[:tag] , page , LOC_TAG )\n end\n\n extract_concepts( page[:title] , page , LOC_TITLE)\n extract_concepts( page[:content] , page )\n extract_resources( page[:content] , page )\n end", "def get_pdf_data(pdf_file, verbose)\n\tmeta_data=[]\n\tbegin\n\t\tinteresting_fields=Array.[](\"/Author\")\n\n\t\tf=File.open(pdf_file)\n\t\tf.each_line{ |line|\n\t\t\tline.force_encoding('ISO-8859-1')\n\t\t\tif /pdf:Author='([^']*)'/.match(line)\n\t\t\t\tif verbose\n\t\t\t\t\tputs \"Found pdf:Author: \"+$1\n\t\t\t\tend\n\t\t\t\tmeta_data<<$1.to_s.chomp unless $1.to_s==\"\"\n\t\t\tend\n\t\t\tif /xap:Author='([^']*)'/i.match(line)\n\t\t\t\tif verbose\n\t\t\t\t\tputs \"Found xap:Author: \"+$1\n\t\t\t\tend\n\t\t\t\tmeta_data<<$1.to_s.chomp unless $1.to_s==\"\"\n\t\t\tend\n\t\t\tif /dc:creator='([^']*)'/i.match(line)\n\t\t\t\tif verbose\n\t\t\t\t\tputs \"Found dc:creator: \"+$1\n\t\t\t\tend\n\t\t\t\tmeta_data<<$1.to_s.chomp unless $1.to_s==\"\"\n\t\t\tend\n\t\t\tif /\\/Author ?\\(([^\\)]*)\\)/i.match(line)\n\t\t\t\tif verbose\n\t\t\t\t\tputs \"Found Author: \"+$1\n\t\t\t\tend\n\t\t\t\tmeta_data<<$1.to_s.chomp unless $1.to_s==\"\"\n\t\t\tend\n\t\t\tif /<xap:creator>(.*)<\\/xap:creator>/i.match(line)\n\t\t\t\tif verbose\n\t\t\t\t\tputs \"Found pdf:creator: \"+$1\n\t\t\t\tend\n\t\t\t\tmeta_data<<$1.to_s.chomp unless $1.to_s==\"\"\n\t\t\tend\n\t\t\tif /<xap:Author>(.*)<\\/xap:Author>/i.match(line)\n\t\t\t\tif verbose\n\t\t\t\t\tputs \"Found xap:Author: \"+$1\n\t\t\t\tend\n\t\t\t\tmeta_data<<$1.to_s.chomp unless $1.to_s==\"\"\n\t\t\tend\n\t\t\tif /<pdf:Author>(.*)<\\/pdf:Author>/i.match(line)\n\t\t\t\tif verbose\n\t\t\t\t\tputs \"Found pdf:Author: \"+$1\n\t\t\t\tend\n\t\t\t\tmeta_data<<$1.to_s.chomp unless $1.to_s==\"\"\n\t\t\tend\n\t\t\tif /<dc:creator>(.*)<\\/dc:creator>/i.match(line)\n\t\t\t\tif verbose\n\t\t\t\t\tputs \"Found dc:creator: \"+$1\n\t\t\t\tend\n\t\t\t\tmeta_data<<$1.to_s.chomp unless $1.to_s==\"\"\n\t\t\tend\n\t\t\t\n\t\t}\n\t\treturn meta_data\n\trescue => e\n\t\tif verbose\n\t\t\tputs \"There was an error processing the document - \" + e.message\n\t\tend\n\tend\n\treturn meta_data\nend", "def find_blat_out_candidate_reads\n\t\tputs \"step 4 find blat out candidate reads\"\n\t\tblat_out_candidate_reads(\n\t\t\tfiles.keys.sort.collect{|k| \"chopped_#{k}lane.psl \" },\n\t\t\tfiles.keys.sort.collect{|k| \"#{k}lane.fa \" },\n\t\t\tfiles.keys.sort.collect{|k| \"04_blat_out_candidate_#{k}lane.fa\" })\n\n#\t\tcommand = \"blatoutcandidate.rb \"\n#\t\t#\tfiles is a hash and the keys are not guaranteed to be sorted\n#\t\t#\tsort alphabetically and left is first, right is last (conveniently)\n#\t\tfiles.keys.sort.each{|k| command << \"chopped_#{k}lane.psl \" } #\tNON-HUMAN matches\n#\t\tfiles.keys.sort.each{|k| command << \"#{k}lane.fa \" } #\traw reads input\n#\t\tcommand.execute\n##\n##\tblatoutcandidate.pl ALWAYS creates ... blat_out_candidate_#{k}lane.fa\n##\tI REALLY don't like that. So much inconsistancy. Will overwrite existing.\n##\n##\tTODO wrote my own version of blatoutcandidate so could change this\n##\n#\t\tfiles.each_pair { |k,v| \n#\t\t\t#\t\n#\t\t\t#\traw reads with names in the psl files.\n#\t\t\t#\t\n#\t\t\t\"blat_out_candidate_#{k}lane.fa\".file_check(die_on_failed_file_check)\n#\t\t\tFileUtils.mv( \"blat_out_candidate_#{k}lane.fa\",\n#\t\t\t\t\"04_blat_out_candidate_#{k}lane.fa\" )\t#\tNON-HUMAN matches \n#\t\t}\n\tend", "def get_common_lines\n file2 = @file2.dup\n common_lines = {}\n\n acc = 0\n @file1.each_with_index { |str, i|\n line = file2.index(str)\n unless line.nil?\n common_lines[i] = acc + line\n acc += line + 1\n file2 = file2.drop(line + 1)\n end\n }\n\n common_lines\n end", "def parse_annotation_file filename\n lines = File.open(filename,'r').read.split(\"\\n\")\n puts lines.size\n bad_header = lines.shift.split(\"\\t\")\n header = %w'seq_id reciprocal_id reciprocal_rank sp_symbol sp_evalue sp_description pfam_ids go_ids'\n data = []\n lines.each do |line|\n fields = line.split(\"\\t\")\n fields = fields.collect {|f| (f == \"#N/A\") ? nil : f}\n d = Hash[header.zip(fields)]\n d['pfam_ids'] = (d['pfam_ids']) ? d['pfam_ids'].split(\";\") : []\n\n d['go_ids'] = (d['go_ids']) ? d['go_ids'].split(\";\") : []\n data << d\n end\n data\nend" ]

[ "0.5410093", "0.5275363", "0.5234244", "0.5195857", "0.512016", "0.5108919", "0.510191", "0.5046017", "0.5037706", "0.50304896", "0.5027487", "0.49786612", "0.49605885", "0.4947074", "0.4940088", "0.49292764", "0.49202317", "0.49107608", "0.48956367", "0.48707545", "0.4839346", "0.48380074", "0.4818855", "0.4818855", "0.47988346", "0.47936594", "0.47926387", "0.47717646", "0.47682643", "0.47669405", "0.47555578", "0.47544074", "0.4743804", "0.4741477", "0.47409374", "0.4736536", "0.4726234", "0.47230566", "0.47182915", "0.4713016", "0.4712355", "0.47112286", "0.4695428", "0.4688458", "0.46767864", "0.46765208", "0.4663589", "0.46579337", "0.46534356", "0.46512067", "0.46449813", "0.46281236", "0.46271026", "0.46190327", "0.46164736", "0.4615511", "0.46135786", "0.46130767", "0.46064037", "0.46045902", "0.46036133", "0.4589099", "0.4582254", "0.4580921", "0.45797175", "0.45792902", "0.45751527", "0.4573821", "0.45718908", "0.45697534", "0.45568693", "0.4556392", "0.45544046", "0.45467722", "0.45331645", "0.4530877", "0.45276386", "0.4527047", "0.45256126", "0.45216623", "0.45141327", "0.4513794", "0.45109707", "0.4510021", "0.4509854", "0.45085824", "0.450785", "0.45071685", "0.4502456", "0.4500991", "0.449866", "0.44956282", "0.44941643", "0.44933575", "0.44883084", "0.4482246", "0.44795197", "0.44759434", "0.44707066", "0.44693252" ]

[ "def protect_against_forgery?; end", "def disable_request_forgery_protection; end", "def disable_request_forgery_protection=(_arg0); end", "def allow_forgery_protection\n true\n end", "def protect_against_forgery?\n end", "def protect_against_forgery?\n\n end", "def protect_from_forgery\n end", "def protect_against_forgery? #:nodoc:\n false\n end", "def protect_against_forgery?\n false\n end", "def protect_against_forgery?\n false\nend", "def protect_against_forgery?\n false\n end", "def protect_against_forgery?\n false\n end", "def protect_against_forgery?\n false\n end", "def protect_against_forgery?\n false\n end", "def protect_against_forgery?\n false\n end", "def protect_against_forgery?\n false\n end", "def protect_against_forgery?\n false\n end", "def protect_against_forgery?\n @paf ||= ActionController::Base.new.send(:protect_against_forgery?)\n end", "def protect_against_forgery?\n false\n end", "def skip_forgery_protection(options = T.unsafe(nil)); end", "def protect_against_forgery?\n false\n end", "def protect_against_forgery?\n false\n end", "def protect_against_forgery?\n controller.send(:protect_against_forgery?)\n end", "def use_null_session\n ActionController::RequestForgeryProtection::ProtectionMethods::NullSession.new(self)\n .handle_unverified_request\n end", "def handle_unverified_request\n logger.warn \" Form token: #{params[request_forgery_protection_token]}\" if logger\n logger.warn \" Header token: #{request.headers['X-CSRF-Token']}\" if logger\n logger.warn \" Session token: #{session[:_csrf_token]}\" if logger\n super\n end", "def csrf; end", "def handle_unverified_request\n super\n render :text => \"Forgery protection token was not present.\", :status => :unauthorized\n end", "def verified_request?\n !protect_against_forgery? ||\n request.method == :get ||\n !verifiable_request_format? ||\n form_authenticity_token == params[request_forgery_protection_token]\n end", "def verified_request?\n !protect_against_forgery? ||\n request.method == :get ||\n request.xhr? ||\n !verifiable_request_format? ||\n form_authenticity_token == params[request_forgery_protection_token]\n end", "def request_authenticity_tokens; end", "def verified_request?\n\t\t!protect_against_forgery? || request.get? ||\n\t\t\tform_authenticity_token == params[request_forgery_protection_token] || form_authenticity_token == request.headers['X-CSRF-Token'] ||\n\t\t\trequest.headers['X-XSRF-Token'] && form_authenticity_token == request.headers['X-XSRF-Token'].gsub!(/\\A\"|\"\\Z/, '')\n\tend", "def verified_request?\n !protect_against_forgery? || request.get? ||\n form_authenticity_token == params[request_forgery_protection_token] ||\n form_authenticity_token == request.headers['X-XSRF-Token']\n end", "def verified_request?\n !protect_against_forgery? || request.get? ||\n form_authenticity_token == params[request_forgery_protection_token] ||\n form_authenticity_token == request.headers['X-XSRF-Token']\n end", "def verified_request?\n !protect_against_forgery? || request.get? ||\n form_authenticity_token == params[request_forgery_protection_token] ||\n form_authenticity_token == request.headers['X-XSRF-Token']\n end", "def refuse_request\n request = Request.first\n RequestMailer.refuse_request(request)\n end", "def handle_unverified_request\n redirect_to root_url, :notice => \"We detect unmatching token form your form, please do not hack us\"\n \n end", "def need_protection?(request)\n request.params.has_key?('access_token')\n end", "def clean_up_csrf?; end", "def clean_up_csrf?; end", "def csrf_token_hash(action=nil)\n vc = @controller.view_context\n # :nocov:\n if vc.protect_against_forgery?\n # :nocov:\n {vc.request_forgery_protection_token.to_s=>vc.form_authenticity_token}\n end\n end", "def rails_check_csrf!\n rails_controller_instance.send(:verify_authenticity_token)\n end", "def csrf_meta_tags; end", "def verify_authenticity_token; end", "def email_confirmed?\n # Validate if the user has the email confirmed in the\n # server side session. This is set by the controller.\n # after we've validated the email. If the user doesn't\n # have this session value, he can't complete this form.\n #\n # If the user attempts to share/bookmark this url, for example\n # and the incoming session is not found to be valid\n # then the user is redirected to the terms and conditions\n # and a notification that their link has expired is\n # shown.\n if session[\"email_confirmed\"].to_s.length == 0 or\n session[\"email_confirmed\"] == false or\n session[\"email\"].to_s.length == 0 or\n session[\"locked_address\"].to_s.length == 0\n redirect to ('/?expired=true')\n # If the email address and the locked address\n # do not match, we could have a user using\n # multiple tabs at the same time to process different\n # certificate requests. This could happen if a\n # shared computer is left open with a partially\n # uncompleted request that already has access to the\n # form, and another request that is processing an email\n # confirmation. Other than that, and on a more malicious\n # note, an attacker could be trying to exploit our\n # session system, to attempt to send email to an\n # unconfirmed address. We stop both potential situations\n # immediately here.\n elsif (session[\"locked_address\"] != session[\"email\"])\n redirect to ('/?email=false')\n end\n\nend", "def verified_request?\r\n super || form_authenticity_token == request.headers['X-XSRF-TOKEN']\r\n end", "def form_authenticity_param; end", "def handle_unverified_request\n raise ActionController::InvalidAuthenticityToken\n end", "def handle_unverified_request\n raise ActionController::InvalidAuthenticityToken\n end", "def rails_csrf_param\n rails_controller.request_forgery_protection_token\n end", "def check_csrf?\n true\n end", "def verified_request?\n super || form_authenticity_token == request.headers['X-XSRF-TOKEN']\n end", "def verified_request?\n super || form_authenticity_token == request.headers['X-XSRF-TOKEN']\n end", "def verified_request?\n super || form_authenticity_token == request.headers['X-XSRF-TOKEN']\n end", "def verified_request?\n super || form_authenticity_token == request.headers['X-XSRF-TOKEN']\n end", "def rails_check_csrf!\n rails_controller_instance.send(:verify_authenticity_token)\n end", "def verified_request?\n\t\tsuper || form_authenticity_token == request.headers['X-XSRF-TOKEN']\n\tend", "def rails_csrf_param\n rails_controller.request_forgery_protection_token\n end", "def check_csrf?\n true\n end", "def verify_csrf_token?\n false\n end", "def check_csrf\n rails_check_csrf!\n end", "def use_request_specific_csrf_tokens?\n csrf_options[:require_request_specific_tokens]\n end", "def handle_unverified_request; end", "def handle_unverified_request; end", "def handle_unverified_request\n \n # By default this method raises ActionController::InvalidAuthenticityToken\n #redirect_to root_url\n end", "def csrf=(_arg0); end", "def clean_up_csrf?\n false\n end", "def check_csrf\n rails_check_csrf!\n end", "def before_request\n end", "def form_authenticity_token\n \"foo\"\n end", "def clean_up_csrf?\n true\n end", "def clean_up_csrf?\n true\n end", "def clean_up_csrf?\n false\n end", "def csrf_params_hash\n return { request_forgery_protection_token => form_authenticity_token }\n end", "def auth_token\n (protect_against_forgery? ? form_authenticity_token : nil)\n end", "def handle_unverified_request\n true\n end", "def handle_unverified_request\n true\n end", "def masked_authenticity_token(session, form_options: T.unsafe(nil)); end", "def handle_unverified_request\n if Rails.env.production?\n reset_session\n else\n raise ActionController::InvalidAuthenticityToken\n end\n end", "def handle_unverified_request\n true\n end", "def handle_unverified_request\n true\n end", "def handle_unverified_request\n true\n end", "def handle_unverified_request\n true\n end", "def handle_unverified_request\n true\n end", "def handle_unverified_request\n true\n end", "def handle_unverified_request\n true\n end", "def handle_unverified_request\n true\n end", "def handle_unverified_request\n true\n end", "def handle_unverified_request\n true\n end", "def handle_unverified_request\n true\n end", "def handle_unverified_request\n true\n end", "def any_authenticity_token_valid?; end", "def form_authenticity_token\n @form_authenticity_token ||= if !session.respond_to?(:session_id)\n raise InvalidAuthenticityToken, \"Request Forgery Protection requires a valid session. Use #allow_forgery_protection to disable it, or use a valid session.\"\n elsif request_forgery_protection_options[:secret]\n authenticity_token_from_session_id\n elsif session.respond_to?(:dbman) && session.dbman.respond_to?(:generate_digest)\n authenticity_token_from_cookie_session\n else\n raise InvalidAuthenticityToken, \"No :secret given to the #protect_from_forgery call. Set that or use a session store capable of generating its own keys (Cookie Session Store).\"\n end\n end", "def verified_request?; end", "def request_allowed?(request)\n true\n end", "def password_reset_request\n end", "def marked_for_same_origin_verification?; end", "def security_enabled_request_state\n super\n end", "def verify_csrf_token?(req, *)\n !IDEMPOTENT_HTTP_METHODS[req.request_method]\n end", "def verify_authenticity_token\n super unless request_comes_from_facebook?\n end", "def verified_request?\n\t\tsuper || valid_authenticity_token?(session, request.headers['X-XSRF-TOKEN'])\n\tend", "def auth_csrf_token\n request.env['HTTP_X_AUTH_CSRF']\n end" ]

[ "0.7633273", "0.75466746", "0.7544969", "0.72861606", "0.7254172", "0.722627", "0.7150675", "0.7116732", "0.71094257", "0.70954484", "0.7084591", "0.7083618", "0.7083618", "0.7083618", "0.7083618", "0.7083618", "0.7083618", "0.7056187", "0.7013498", "0.7009992", "0.6961028", "0.6961028", "0.68925434", "0.67772734", "0.671474", "0.6697497", "0.6566164", "0.64275503", "0.64140433", "0.63685495", "0.63246995", "0.63052785", "0.63052785", "0.63052785", "0.63033193", "0.6269188", "0.62421554", "0.6239298", "0.6239298", "0.6211966", "0.6187324", "0.61840284", "0.61744213", "0.6171612", "0.615475", "0.6141968", "0.613475", "0.613475", "0.613166", "0.6118421", "0.607543", "0.607543", "0.607543", "0.607543", "0.6075092", "0.6032732", "0.60228926", "0.6017325", "0.60051835", "0.5983686", "0.597025", "0.59517086", "0.59517086", "0.5950503", "0.59483993", "0.5940764", "0.5895305", "0.58810395", "0.58785075", "0.5875521", "0.5875521", "0.5852371", "0.58429205", "0.5828176", "0.582346", "0.582346", "0.5807371", "0.577684", "0.57727873", "0.57727873", "0.57727873", "0.57727873", "0.57727873", "0.57727873", "0.57727873", "0.57727873", "0.57727873", "0.57727873", "0.57727873", "0.57727873", "0.57489383", "0.5745276", "0.5715672", "0.57156324", "0.57027125", "0.5699973", "0.5697854", "0.5681753", "0.5678412", "0.566446", "0.566201" ]

[ "def stop_doc\n return unless @track_visibility\n\n @document_self = false\n @document_children = false\n end", "def kill\n\n close_node\n\n wrap_cancel_children('flavour' => 'kill') +\n wrap_cancelled\n end", "def nosourceack(text)\n\t$k.kill\nend", "def kill() end", "def kill!\n @kill = true\n end", "def kill!() end", "def kill(msg)\n trace \"texas: #{msg}\\nTry `texas --help' for more information.\"\n exit 1\n end", "def close_and_quit\n if word_object_is_defined?\n # first close all open documents without saving\n Rails.logger.debug \"word_automator::close_and_quit\"\n @doc.Close 0 unless @doc.nil?\n 1.upto(@word.Documents.Count) do |count|\n @word.Documents.Item(1).Close 0\n end\n Rails.logger.debug \"word_automator::quit word\"\n @word.Quit\n # clean up, protect against unexpected use\n @word=nil\n @doc=nil\n end\n end", "def kill\n Window.functions[__method__] ||= AU3_Function.new(\"WinKill\", 'SS', 'L')\n Window.functions[__method__].call(@title.wide, @text.wide)\n nil\n end", "def kill\n send(:kill)\n end", "def stoppen\n destroy_fox_components\n end", "def kill(idx)\n\t\tself[idx].kill rescue false\n\tend", "def discard_doc!\n links # force parsing of page links before we trash the document\n @doc = @body = nil\n end", "def kill!\n Bumbleworks.dashboard.kill_expression(@fei)\n end", "def uninstall_doc\n base_dir = @spec.base_dir\n raise Gem::FilePermissionError.new base_dir unless File.writable? base_dir\n\n # TODO: ok... that's twice... ugh\n old_name = [\n @spec.name, @spec.version, @spec.original_platform].join '-'\n\n doc_dir = @spec.doc_dir\n unless File.directory? doc_dir then\n doc_dir = File.join File.dirname(doc_dir), old_name\n end\n\n ri_dir = @spec.ri_dir\n unless File.directory? ri_dir then\n ri_dir = File.join File.dirname(ri_dir), old_name\n end\n\n FileUtils.rm_rf doc_dir\n FileUtils.rm_rf ri_dir\n end", "def no_doc!\n @controller.doc = false\n end", "def delete_supporting_document(doc_refno)\n call_ok?(:delete_document, request_delete_supporting_document_elements(doc_refno))\n end", "def delete_doc_with_unique_term(term)\n writer.delete_document(\"Q#{term}\")\n true\n end", "def rl_kill_word(count, key)\r\n if (count < 0)\r\n return (rl_backward_kill_word(-count, key))\r\n else\r\n orig_point = @rl_point\r\n rl_forward_word(count, key)\r\n\r\n if (@rl_point != orig_point)\r\n rl_kill_text(orig_point, @rl_point)\r\n end\r\n\r\n @rl_point = orig_point\r\n if (@rl_editing_mode == @emacs_mode)\r\n @rl_mark = @rl_point\r\n end\r\n end\r\n 0\r\n end", "def stopKill\n self.stop_d\n return\n end", "def cloud_search_delete_document(doc)\n doc.version += 1\n self.cloud_search_batcher_command(:delete_document, doc)\n end", "def stop!(kill=true)\n if exists?(pid)\n _pid = File.read(pid).to_i\n puts \"=> Found pid #{_pid}...\"\n FileUtils.rm_f(pid)\n begin\n puts \"=> Killing process #{_pid}...\"\n Process.kill(:KILL, _pid)\n rescue Errno::ESRCH => e\n puts \"=> #{e.message}\"\n end\n else\n puts \"=> Pid not found, process seems don't exist!\"\n end\n end", "def stop!(kill=true)\n if exists?(pid)\n _pid = File.read(pid).to_i\n puts \"=> Found pid #{_pid}...\"\n FileUtils.rm_f(pid)\n begin\n puts \"=> Killing process #{_pid}...\"\n Process.kill(:KILL, _pid)\n rescue Errno::ESRCH => e\n puts \"=> #{e.message}\"\n end\n else\n puts \"=> Pid not found, process seems don't exist!\"\n end\n end", "def kill!\n @die = true\n end", "def unindex(obj)\n XapianDb.database.delete_doc_with_unique_term(obj.xapian_id)\n XapianDb.database.commit\n end", "def kill\n @accepting = false\n @iost.close rescue nil # force termination now\n @iost = nil\n end", "def stop(kill_arg = T.unsafe(nil)); end", "def end_document; end", "def end_document; end", "def suppress\n return unless @track_visibility\n\n @suppressed = true\n\n stop_doc\n end", "def kill\n stop_propagation\n prevent_default\n end", "def kill\n ck_valid\n Process.kill 9, @pid if running?\n\n invalidate\n end", "def delete_xmp\n Jhead.call(\"-dx\", @match, @pattern)\n end", "def delete_pose_index\n self.pose_words.clear if Pose.perform_search?\n end", "def docClean\n dir = Pathname.new pathDocuments\n fileCleanPath(dir)\nend", "def remove_document(doc)\n @documents.delete_if{|document| document == doc }\n end", "def test_delete_unprotect_document\n filename = 'SampleProtectedBlankWordDocument.docx'\n remote_name = 'TestDeleteUnprotectDocument.docx'\n body = ProtectionRequest.new({:Password => 'aspose'})\n\n st_request = PutCreateRequest.new remote_test_folder + test_folder + '/' + remote_name, File.open(local_test_folder + test_folder + '/' + filename, \"r\").read\n @storage_api.put_create st_request\n\n request = DeleteUnprotectDocumentRequest.new remote_name, body, remote_test_folder + test_folder\n result = @words_api.delete_unprotect_document request\n assert_equal 200, result.code\n end", "def shutdown\n yard_shutdown\n YARD::Templates::Engine.template_paths -=\n [File.dirname(__FILE__) + '/../../templates',File.dirname(__FILE__) + '/../../docserver']\n end", "def kill\n sig :KILL\n end", "def remove\n from = Suspender.new(doc_with_tokens, tokens_to_remove).suspend\n from.filtered_text\n end", "def kill()\n System.run(\"kill\", \"-9\", @pid.to_s) if @pid\n end", "def kill\n @alive = false\n end", "def destroy(text)\n analyze(text)\n generate_all(self.class.start_prefix(text, @num_prefix_words))\n end", "def stop_search!\n false unless !!@thread\n\n @thread.exit\n @thread = nil\n end", "def delBookmarks content\r\n\t\tfind('#del1449930755433').click\r\n\t\tfind('.jBox-Confirm-button-submit').click\r\n\t\tsleep 1\r\n\tend", "def delete_document index, id\n uri = URI(\"http://#{@host}:#{@port_s}/#{index}/_doc/#{id}\")\n req = Net::HTTP::Delete.new(uri)\n run(uri, req)\n end", "def stop!\n system \"pkill -f play\"\n end", "def srch_destroy(opts={})\n\t\t\t\tsrch_client.destroy_document(opts)\n\t\t\tend", "def destroy\n @tdoc = Tdoc.find(params[:id])\n @tdoc.destroy\n\n respond_to do |format|\n format.html { redirect_to(tdocs_url) }\n format.xml { head :ok }\n end\n end", "def delete(slide)\n # ./_rels/presentation.xml.rels\n # Update Relationship ids\n # Insert a new one slideRef\n @doc.edit_xml @doc.presentation.rels.path do |xml|\n # Calucate the next id\n # next_id = xml.xpath('//xmlns:Relationship[@Id]').map{ |n| n['Id'] }.sort.last.succ\n # TODO - Figure out how to make this more MS idiomatic up 9->10 instead of incrementing\n # the character....\n # Insert that into the slide and crakc open the presentation.xml file\n\n target = slide.path.relative_path_from(@doc.presentation.path.dirname)\n relationship = xml.at_xpath(\"/xmlns:Relationships/xmlns:Relationship[@Type='#{Slide::REL_TYPE}' and @Target='#{target}']\")\n # ./presentation.xml\n # Update attr\n # p:notesMasterId\n # Insert attr\n # p:sldId, increment, etc.\n @doc.edit_xml '/ppt/presentation.xml' do |xml|\n xml.at_xpath(\"/p:presentation/p:sldIdLst/p:sldId[@r:id='#{relationship['Id']}']\").remove\n end\n relationship.remove\n end\n\n # Delete slide link and slideNotes link from ./[Content-Types].xml \n @doc.edit_xml @doc.content_types.path do |xml|\n xml.at_xpath(\"/xmlns:Types/xmlns:Override[@ContentType='#{Slide::CONTENT_TYPE}' and @PartName='#{slide.path}']\").remove\n xml.at_xpath(\"/xmlns:Types/xmlns:Override[@ContentType='#{Notes::CONTENT_TYPE}' and @PartName='#{slide.notes.path}']\").remove\n end\n\n # Update ./ppt\n # !!! DESTROY !!!\n # ./slides\n # Delete files\n # ./_rels/notesSlide(\\d+).xml.rels\n @doc.delete slide.notes.rels.path\n # ./notesSlide(\\d+).xml file\n @doc.delete slide.notes.path\n # ./_rels/slide(\\d+).xml.rels\n @doc.delete slide.rels.path\n # ./slide(\\d+).xml file\n @doc.delete slide.path\n # ./notesSlides\n # Delete files\n\n # Hooray! We're done! Ummm, what should we return though? can't be the slide since\n # its destroyed and there's no practical way to keep it around in memory.\n end", "def delete force: false\n ensure_connection!\n docs_to_be_removed = documents view: \"ID_ONLY\"\n return if docs_to_be_removed.empty?\n unless force\n fail \"Unable to delete because documents exist. Use force option.\"\n end\n while docs_to_be_removed\n docs_to_be_removed.each { |d| remove d }\n if docs_to_be_removed.next?\n docs_to_be_removed = documents token: docs_to_be_removed.token,\n view: \"ID_ONLY\"\n else\n docs_to_be_removed = nil\n end\n end\n end", "def ole_stop\n @ole.quit\n end", "def kill(msg = nil)\n ui.warn usage\n ui.warn msg.color(:red) unless msg.nil?\n ui.warn \"Try `--help' for more information.\"\n exit 1\n end", "def rl_kill_text(from, to)\r\n # Is there anything to kill?\r\n if (from == to)\r\n @_rl_last_command_was_kill = true if !@_rl_last_command_was_kill\r\n return 0\r\n end\r\n text = rl_copy_text(from, to)\r\n\r\n # Delete the copied text from the line.\r\n rl_delete_text(from, to)\r\n _rl_copy_to_kill_ring(text, from < to)\r\n @_rl_last_command_was_kill = true if !@_rl_last_command_was_kill\r\n 0\r\n end", "def kill_command\n ::Middleman::WINDOWS ? 1 : :INT\n end", "def cancel_process (exp_or_wfid)\n\n wfid = extract_wfid(exp_or_wfid, false)\n # 'true' would have made sure that the parent wfid is used...\n\n ldebug { \"cancel_process() '#{wfid}'\" }\n\n root = fetch_root(wfid)\n\n raise \"no process to cancel '#{wfid}'\" unless root\n\n cancel(root)\n end", "def stop\n control :kill\n self\n end", "def destroy\n response = API.instance.send_request('docs.delete', :doc_id => self.id)\n return response.elements['/rsp'].attributes['stat'] == 'ok'\n end", "def kill\n @ws_thread.kill\n end", "def kill\n @ws_thread.kill\n end", "def remove_housing doc\n\tdoc.search('table').first\n end", "def stop!\n if exists?(pid)\n _pid = File.read(pid).to_i\n print \"=> Found pid #{_pid}...\\n\"\n FileUtils.rm_f(pid)\n begin\n print \"=> Killing process #{_pid}...\\n\"\n on_exit.call if on_exit\n Process.kill(:KILL, _pid)\n rescue Errno::ESRCH => e\n puts \"=> #{e.message}\"\n end\n else\n print \"=> Pid not found, process seems don't exist!\\n\"\n end\n end", "def kill(signo)\n Process.kill(signo, pid)\n end", "def delete_book(b)\n print \"Are you sure you want to delete this book?\"\n answer = gets.chomp\n if answer == \"y*\"\n b.destroy\n else found_it(record)\n end\nend", "def kill\n shutdown\n end", "def kill\n signal(\"KILL\", scope: :all)\n cleanup\n end", "def stop\n ck_valid\n Process.kill 15, @pid if running?\n\n invalidate\n end", "def kill(*args)\n obj = self.lookup(*args)\n case obj \n when nil then false\n when Array then obj.each {|o| o.kill}\n else obj.kill \n end \n end", "def mark_to_kill\n CURSORS[@cursor_id] = true if @cursor_id && alive?\n @cursor_id = 0\n end", "def cancel; end", "def cancel; end", "def cancel!; end", "def kill_word(*)\n first_non_letter = current_buffer.index(/\\P{L}/, current_buffer.point) || current_buffer.length\n word_beginning = current_buffer.index(/\\p{L}/, first_non_letter) || current_buffer.length\n current_buffer.slice!(current_buffer.point, word_beginning - current_buffer.point)\n true\nend", "def bkg_kill\n reload\n while processing?\n sleep 1\n reload\n end\n if dj\n dj.destroy\n save\n end\n end", "def stop_it\n puts \"Sorry, this file already exists. Check for typos!\"\n exit\nend", "def kill_execution\n # do nothing\n end", "def do_kill\n\n return kill_when_ended if node_ended?\n #return kill_when_closed if node_closed? # nothing of the sort\n\n kill\n end", "def delete_iptc\n Jhead.call(\"-di\", @match, @pattern)\n end", "def kill(nickname, comment)\n raw \"KILL #{nickname} :#{comment}\\r\\n\"\n end", "def destroy\n @doc = Doc.find(params[:id])\n @doc.destroy\n\n respond_to do |format|\n format.html { redirect_to(docs_url) }\n format.xml { head :ok }\n end\n end", "def destroy\n @doc = Doc.find(params[:id])\n @doc.destroy\n\n respond_to do |format|\n format.html { redirect_to(docs_url) }\n format.xml { head :ok }\n end\n end", "def kill_instruments(r, w, pid)\n puts \"killing Instruments (pid #{pid})...\".red\n begin\n Process.kill(9, pid)\n w.close\n r.close\n Process.wait(pid)\n rescue PTY::ChildExited\n end\n end", "def stop\n puts 'Stopping timer'\n index\n\n File.unlink(@path) if File.exist?(@path)\n end", "def stop_gracefully\n begin\n Process.kill 15, pid\n rescue Errno::ESRCH\n # already gone\n end\n end", "def destroy\n @document.destroy\n end", "def remove doc_id\n # Get the id if passes a Document object\n doc_id = doc_id.doc_id if doc_id.respond_to? :doc_id\n ensure_connection!\n resp = connection.delete_doc index_id, doc_id\n return true if resp.success?\n fail ApiError.from_response(resp)\n end", "def cancel_todo todo_content\n switch_to_man_frame \n sleep 2\n cancel_todo_data_list todo_content\n sleep 2\n switch_out_frame\n end", "def destroy\n begin\n File.delete( @doc_file.docOwner)\n rescue\n end\n @doc_file.destroy\n \n respond_to do |format|\n format.html { redirect_to doc_files_url }\n format.json { head :no_content }\n end\n end", "def kill_process!\n ::Process.kill 9, ::Process.pid\n end", "def delete\n @text.slice!(@cursor, 1)\n end", "def kill\n @queue << \"kill\"\n end", "def complete_removal(manual_record)\n document_ids = document_ids_for(manual_record)\n\n document_ids.each do |id|\n SpecialistDocumentEdition.where(document_id: id).map(&:destroy)\n end\n\n manual_record.destroy\n\n log \"Manual destroyed.\"\n log \"--------------------------------------------------------\"\n end", "def remove_id(object_id)\n\t\ti = @docs.index { |doc| doc.object_id == object_id }\n\t\tdestroy_tab(i) if @docs[i].try_to_save()\n\t\t # remove_tab(i) #if not i.nil?\n\tend", "def delete_comment\n Jhead.call(\"-dc\", @match, @pattern)\n end", "def dont_exit_on_help=(val) #:nodoc:\n @@exit = true\n end", "def delete_content(title)\n File.delete(\"pages/#{title}.txt\")\nend", "def close\r\n\t\t\tsuper\r\n\t\t\t\r\n#\t\t\tAPI.HTMLProcessTerminate\r\n#\t\t\tAPI.NotesTerm\r\n\t\tend", "def kill_browser\n Praline::kill_browser\n end", "def kill\n\n threads.each { |t| t.raise(KillSignal) }\n end", "def kill_body\n box2d.destroy_body(body)\n end" ]

[ "0.61360544", "0.61202544", "0.61067003", "0.58359677", "0.57946795", "0.57563037", "0.5679418", "0.564175", "0.5625756", "0.5591268", "0.55263394", "0.5513665", "0.54826313", "0.5480219", "0.5422195", "0.54141766", "0.5412089", "0.53766114", "0.53510165", "0.53319657", "0.5328826", "0.5310938", "0.5310938", "0.5286144", "0.5271828", "0.52578264", "0.52460927", "0.52285933", "0.52285933", "0.52207154", "0.52062386", "0.52051365", "0.5172032", "0.51543236", "0.5152128", "0.51466745", "0.514411", "0.5115634", "0.50976247", "0.5095901", "0.5086611", "0.50837964", "0.50804114", "0.50755376", "0.5058851", "0.50539076", "0.504768", "0.5035521", "0.5023542", "0.5006067", "0.49985737", "0.49973506", "0.49874857", "0.49863595", "0.49819848", "0.49737775", "0.49677834", "0.49565125", "0.49555573", "0.49555573", "0.49486914", "0.49385217", "0.49383816", "0.49361256", "0.4915132", "0.48983464", "0.48830897", "0.48807022", "0.48780045", "0.48698285", "0.48698285", "0.48589346", "0.4855091", "0.48538136", "0.48477045", "0.48401946", "0.4839651", "0.48385754", "0.48355293", "0.48294777", "0.48294777", "0.48248622", "0.4820264", "0.48072472", "0.48071852", "0.48049855", "0.48044515", "0.48033804", "0.48016292", "0.47991914", "0.47928724", "0.47928137", "0.4789811", "0.47885042", "0.4785005", "0.47796836", "0.47749582", "0.4773067", "0.47711107", "0.47678435" ]

[ "def haversine_miles(lat1,lng1,lat2,lng2)\n\trad_per_deg = Math::PI / 180\n\tearth_radius_miles = 3963.1676\n\tlat1_rad = lat1*rad_per_deg\n\tlat2_rad = lat2*rad_per_deg\n\tdlat_rad = (lat1-lat2)*rad_per_deg\n\tdlng_rad = (lng1-lng2)*rad_per_deg\n\ta = (Math.sin(dlat_rad/2))**2 + Math.cos(lat1_rad) * Math.cos(lat2_rad) * (Math.sin(dlng_rad/2))**2\n\tc = 2*Math.atan2(Math.sqrt(a),Math.sqrt(1-a))\n\td = c*earth_radius_miles\n\treturn d\nend", "def geo_dist(from, to)\n return 40000 if [from.lat, from.lon, to.lat, to.lon].any?(&:nil?)\n EARTH_DIAMETER * Math.asin(Math.sqrt(\n Math.cos(from.lat) * Math.cos(to.lat) *\n Math.sin((from.lon - to.lon)/2) ** 2 +\n Math.sin((from.lat - to.lat)/2) ** 2\n ))\nend", "def distanceBetweenTwoPointsLatAndLongInMI(lat1, long1, lat2, long2)\n return distanceBetweenTwoPointsLatAndLongInKM(lat1, long1, lat2, long2) * 0.621371;\n end", "def distanceMeters(lat1, lon1, lat2, lon2)\n # https://stackoverflow.com/questions/12966638/how-to-calculate-the-distance-between-two-gps-coordinates-without-using-google-m\n lat1_rad, lat2_rad = lat1 * RAD_PER_DEG, lat2 * RAD_PER_DEG\n lon1_rad, lon2_rad = lon1 * RAD_PER_DEG, lon2 * RAD_PER_DEG\n\n a = Math.sin((lat2_rad - lat1_rad) / 2) ** 2 + Math.cos(lat1_rad) * Math.cos(lat2_rad) * Math.sin((lon2_rad - lon1_rad) / 2) ** 2\n c = 2 * Math::atan2(Math::sqrt(a), Math::sqrt(1 - a))\n\n RM * c # Delta in meters \nend", "def miles\n self.distance * KM_TO_MILE\n end", "def meter_distance(coordinate1 , coordinate2)\n latitude_difference = (coordinate2[:latitude] - coordinate1[:latitude]).abs.to_radians\n longitude_difference = (coordinate2[:longitude] - coordinate1[:longitude]).abs.to_radians \n a = Math.sin(latitude_difference/2)**2 + \\\n Math.cos(coordinate1[:latitude].to_radians) * Math.cos(coordinate2[:latitude].to_radians) *\\\n Math.sin(longitude_difference/2)**2\n c = 2 * Math.atan2(Math.sqrt(a) , Math.sqrt(1 - a))\n 6_371 * c * 1000\n end", "def get_distance(lat1, long1, lat2, long2)\n\tdistance = 0\n\tdistance = Math.sqrt((lat2 - lat1)**2 + (long2-long1)**2)\n\treturn distance\nend", "def miles_to_kilometers(miles)\n miles * 1.60934\nend", "def get_distance(lat1, long1, lat2, long2)\n term1 = (Math.sin((lat2 - lat1) * Math::PI / 360 )) ** 2\n term2 = Math.cos(lat1 * Math::PI / 180) * Math.cos(lat2 * Math::PI / 180)\n term3 = (Math.sin((long2 - long1) * Math::PI / 360 )) ** 2\n distance = (2 * 3959 * Math.asin(Math.sqrt(term1 + term2 * term3))).round(1) \n end", "def distance(city1, city2) # haversine formula to compute great circle distances\n # nb need convert to radians\n lon1 = city1.lon * RAD_PER_DEG\n lat1 = city1.lat * RAD_PER_DEG\n lon2 = city2.lon * RAD_PER_DEG\n lat2 = city2.lat * RAD_PER_DEG\n dlon = lon2 - lon1\n dlat = lat2 - lat1\n\n a = Math.sin(dlat/2)**2 + Math.cos(lat1) * Math.cos(lat2) * Math.sin(dlon/2)**2\n c = 2 * Math.asin( Math.sqrt(a))\n\n return Rmiles * c # distance between the two points in miles\nend", "def haversine_distance( lat1, lon1, lat2, lon2 )\n rad_per_deg = 0.017453293\n rmiles = 3956 # radius of the great circle in miles\n rkm = 6371 # radius in kilometers...some algorithms use 6367\n rfeet = rmiles * 5282 # radius in feet\n rmeters = rkm * 1000 # radi\n \n dlon = lon2 - lon1\n dlat = lat2 - lat1\n \n dlon_rad = dlon * rad_per_deg\n dlat_rad = dlat * rad_per_deg\n \n lat1_rad = lat1 * rad_per_deg\n lon1_rad = lon1 * rad_per_deg\n \n lat2_rad = lat2 * rad_per_deg\n lon2_rad = lon2 * rad_per_deg\n\n a = (Math.sin(dlat_rad/2))**2 + Math.cos(lat1_rad) * Math.cos(lat2_rad) * (Math.sin(dlon_rad/2))**2\n c = 2 * Math.atan2( Math.sqrt(a), Math.sqrt(1-a))\n \n dMi = rmiles * c # delta between the two points in miles\n dKm = rkm * c # delta in kilometers\n dFeet = rfeet * c # delta in feet\n dMeters = rmeters * c # delta in meters\n \n dMi\nend", "def haversine_distance( lat1, lon1, lat2, lon2 )\r\n\r\n\t\tdlon = lon2 - lon1\r\n\t\tdlat = lat2 - lat1\r\n\r\n\t\tdlon_rad = dlon * RAD_PER_DEG \r\n\t\tdlat_rad = dlat * RAD_PER_DEG\r\n\r\n\t\tlat1_rad = lat1 * RAD_PER_DEG\r\n\t\tlon1_rad = lon1 * RAD_PER_DEG\r\n\r\n\t\tlat2_rad = lat2 * RAD_PER_DEG\r\n\t\tlon2_rad = lon2 * RAD_PER_DEG\r\n\r\n\t\ta = (Math.sin(dlat_rad/2))**2 + Math.cos(lat1_rad) * Math.cos(lat2_rad) * (Math.sin(dlon_rad/2))**2\r\n\t\tc = 2 * Math.atan2( Math.sqrt(a), Math.sqrt(1-a))\r\n\r\n\t\tdMi = Rmiles * c # delta between the two points in miles\r\n\tend", "def distance loc1, loc2\n lat1, lon1 = loc1\n lat2, lon2 = loc2\n dLat = (lat2-lat1).to_rad;\n dLon = (lon2-lon1).to_rad;\n a = Math.sin(dLat/2) * Math.sin(dLat/2) +\n Math.cos(lat1.to_rad) * Math.cos(lat2.to_rad) *\n Math.sin(dLon/2) * Math.sin(dLon/2);\n c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1-a));\n d = 6371 * c; # Multiply by 6371 to get Kilometers\nend", "def distanceBetweenTwoPointsLatAndLongInKM(lat1, long1, lat2, long2)\n earthRadius = 6371; # Earth's mean radius in KM\n latitudeChange = (lat2 - lat1) * Math::PI / 180\n longitudeChange = (long2 - long1) * Math::PI / 180\n a = Math.sin(latitudeChange / 2) * Math.sin(latitudeChange / 2) +\n Math.cos(lat1 * Math::PI / 180) * Math.cos(lat2 * Math::PI / 180) *\n Math.sin(longitudeChange / 2) * Math.sin(longitudeChange)\n c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1 - a))\n d = earthRadius * c\n return d\n end", "def haversine_distance(lat1, lon1, lat2, lon2)\n dlon_rad = (lon2 - lon1) * RAD_PER_DEG\n dlat_rad = (lat2 - lat1) * RAD_PER_DEG\n\n lat1_rad = lat1 * RAD_PER_DEG\n lon1_rad = lon1 * RAD_PER_DEG\n\n lat2_rad = lat2 * RAD_PER_DEG\n lon2_rad = lon2 * RAD_PER_DEG\n\n a = (Math.sin(dlat_rad/2))**2 + Math.cos(lat1_rad) * Math.cos(lat2_rad) * (Math.sin(dlon_rad/2))**2\n c = 2 * Math.atan2( Math.sqrt(a), Math.sqrt(1-a))\n\n return 3956 * c # delta between the two points in miles\nend", "def distance(start_lat, start_lon, other_lat, other_lon)\n latitude1 = start_lat.to_f * Math::PI/180 #in radian\n longitude1 = start_lon.to_f * Math::PI/180 #in radian\n latitude2 = other_lat.to_f * Math::PI/180 #in radian\n longitude2 = other_lon.to_f * Math::PI/180 #in radian\n cLa1 = Math.cos( latitude1 );\n x_A = RADIUS_EARTH * cLa1 * Math.cos( longitude1 )\n y_A = RADIUS_EARTH * cLa1 * Math.sin( longitude1 )\n z_A = RADIUS_EARTH * Math.sin( latitude1 );\n\n cLa2 = Math.cos( latitude2 );\n x_B = RADIUS_EARTH * cLa2 * Math.cos( longitude2 )\n y_B = RADIUS_EARTH * cLa2 * Math.sin( longitude2 )\n z_B = RADIUS_EARTH * Math.sin( latitude2 )\n \n #in meters\n distance = Math.sqrt( ( x_A - x_B ) * ( x_A - x_B ) + ( y_A - y_B ) * ( y_A - y_B ) + ( z_A - z_B ) * ( z_A - z_B ) )\nend", "def distance(p0,p1,p2)\r\n if p1.lat == p2.lat and p1.lng == p2.lng\r\n out = Math.sqrt(((p2.lat - p0.lat)**2) + ((p2.lng - p0.lng)**2))\r\n else\r\n u = ((p0.lat - p1.lat)*(p2.lat - p1.lat)+(p0.lng - p1.lng)*(p2.lng - p1.lng))/\r\n (((p2.lat - p1.lat)**2) + ((p2.lng - p1.lng)**2))\r\n if u <= 0\r\n out = Math.sqrt( ((p0.lat - p1.lat)**2 ) + ((p0.lng - p1.lng)**2) )\r\n end\r\n if u >= 1\r\n out = Math.sqrt(((p0.lat - p2.lat)**2) + ((p0.lng - p2.lng)**2))\r\n end\r\n if 0 < u and u < 1\r\n out = Math.sqrt( ((p0.lat-p1.lat-u*(p2.lat-p1.lat))**2) +\r\n ((p0.lng-p1.lng-u*(p2.lng-p1.lng))**2) )\r\n end\r\n end\r\n return out\r\n end", "def distance_from_lat_lon(a, b)\n lat1 = a['lat']\n lon1 = a['lng']\n lat2 = b['lat']\n lon2 = b['lng']\n radlat1 = Math::PI * lat1/180\n radlat2 = Math::PI * lat2/180\n radlon1 = Math::PI * lon1/180\n radlon2 = Math::PI * lon2/180\n theta = lon1-lon2\n radtheta = Math::PI * theta/180\n dist = Math.sin(radlat1) * Math.sin(radlat2) + Math.cos(radlat1) * Math.cos(radlat2) * Math.cos(radtheta);\n dist = [[dist, -1.0].max, 1.0].min\n dist = Math.acos(dist)\n dist = dist * 180/Math::PI\n # seconds-in-a-degree * statute-miles-in-a-nautical-mile * kilometers-in-a-mile * meters-in-a-kilometer!\n # See http://stackoverflow.com/questions/389211/geospatial-coordinates-and-distance-in-kilometers-updated-again\n dist = dist * 60 * 1.1515 * 1.609344 * 1000\n dist\nend", "def distance_between(lat1, lon1, lat2, lon2)\n lat1_rad, lat2_rad = lat1 * RAD_PER_DEG, lat2 * RAD_PER_DEG\n lon1_rad, lon2_rad = lon1 * RAD_PER_DEG, lon2 * RAD_PER_DEG\n\n a = Math.sin((lat2_rad - lat1_rad) / 2) ** 2 + Math.cos(lat1_rad) * Math.cos(lat2_rad) * Math.sin((lon2_rad - lon1_rad) / 2) ** 2\n c = 2 * Math::atan2(Math::sqrt(a), Math::sqrt(1 - a))\n\n RM * c # Delta in meters\nend", "def distance(lon1, lat1, lon2, lat2)\n Math.acos( Math.sin(lat1 * (Math::PI/180))*Math.sin(lat2*(Math::PI/180)) + Math.cos(lat1*Math::PI/180) * Math.cos(lat2*(Math::PI/180))*Math.cos((lon2 * Math::PI/180)-(lon1*Math::PI/180)) ) * 6371000\n end", "def\t_calc_geo_distance(lon1, lat1, lon2, lat2)\n\t\t# Radius of the Earth [km]\n\t\tr = 6371 \n\t\td_lat = _deg2rad(lat1-lat2)\n\t\td_lon = _deg2rad(lon1-lon2)\n\t\ta = Math.sin(d_lat/2) * Math.sin(d_lat/2) +\n\t\tMath.cos(_deg2rad(lat1)) * Math.cos(_deg2rad(lat2)) *\n\t\tMath.sin(d_lon/2) * Math.sin(d_lon/2)\n\n\n\t\tc = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1 - a))\n\t\td = r * c\n\t\treturn d * 1000\n\tend", "def haversine_distance(lat1, lon1, lat2, lon2)\n rad_per_degree = 0.017453293 # Math::PI/180\n\t \n # the great circle distance d will be in whatever units R is in\n\t \n rmiles = 3956 # radius of the great circle in miles\n rkm = 6371 # radius in kilometers...some algorithms use 6367\n rfeet = rmiles * 5282 # radius in feet\n rmeters = rkm * 1000 # radius in meters\n\n \tdlon = lon2 - lon1\n\tdlat = lat2 - lat1\n\t \n\tdlon_rad = dlon * rad_per_degree\n\tdlat_rad = dlat * rad_per_degree\n\t \n\tlat1_rad = lat1 * rad_per_degree\n\tlon1_rad = lon1 * rad_per_degree\n\t \n\tlat2_rad = lat2 * rad_per_degree\n\tlon2_rad = lon2 * rad_per_degree\n \n puts \"dlon: #{dlon}, dlon_rad: #{dlon_rad}, dlat: #{dlat}, dlat_rad: #{dlat_rad}\"\n\t \n\ta = (Math.sin(dlat_rad/2))**2 + Math.cos(lat1_rad) * Math.cos(lat2_rad) * (Math.sin(dlon_rad/2))**2\n\tc = 2 * Math.atan2( Math.sqrt(a), Math.sqrt(1-a))\n\t \n\tdMi = rmiles * c # delta between the two points in miles\n\tdKm = rkm * c # delta in kilometers\n\tdFeet = rfeet * c # delta in feet\n\tdMeters = rmeters * c # delta in meters\n\t \n\treturn dMi\nend", "def distance loc1, loc2\n rad_per_deg = Math::PI/180 \n rkm = 6371 \n rm = rkm * 1000 \n\n dlat_rad = (loc2[0]-loc1[0]) * rad_per_deg \n dlon_rad = (loc2[1]-loc1[1]) * rad_per_deg\n\n lat1_rad, lon1_rad = loc1.map {|i| i * rad_per_deg }\n lat2_rad, lon2_rad = loc2.map {|i| i * rad_per_deg }\n\n a = Math.sin(dlat_rad/2)**2 + Math.cos(lat1_rad) * Math.cos(lat2_rad) * Math.sin(dlon_rad/2)**2\n c = 2 * Math::atan2(Math::sqrt(a), Math::sqrt(1-a))\n\n rm * c \nend", "def great_circle_distance(lat1, lon1, lat2, lon2)\n \tp = 0.017453292519943295 #Pi/180\n \ta = 0.5 - Math.cos((lat2 - lat1) * p)/2 + Math.cos(lat1 * p) * Math.cos(lat2 * p) * (1 - Math.cos((lon2 - lon1) * p)) / 2\n \tresult = 12742 * Math.asin(Math.sqrt(a)) #2*R*asin...\n \treturn result * 1000 # Convert result from km to m\n end", "def distance_m(loc1, loc2)\n lat1, lon1 = loc1\n lat2, lon2 = loc2\n dLat = (lat2-lat1) * RAD_PER_DEG;\n dLon = (lon2-lon1) * RAD_PER_DEG;\n a = Math.sin(dLat/2) * Math.sin(dLat/2) +\n Math.cos(lat1 * RAD_PER_DEG) * Math.cos(lat2 * RAD_PER_DEG) *\n Math.sin(dLon/2) * Math.sin(dLon/2);\n c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1-a));\n d = POSTGRES_EARTHDISTANCE_RADUIS_KILOMETERS * 1000.0 * c; # Multiply by 6371 to get Kilometers\n end", "def distance(long1, lat1, long2, lat2)\n theta = long1 - long2\n rad_per_deg = Math::PI/180 # PI / 180\n dlat1 = lat1 * rad_per_deg\n dlat2 = lat2 * rad_per_deg\n dlon_diff = theta *rad_per_deg\n dist = (Math.sin(dlat1) * Math.sin(dlat2)) + (Math.cos(dlat1) * Math.cos(dlat2) * Math.cos(dlon_diff))\n dist_acos = Math.acos(dist)\n dist_deg = dist_acos * (180 / Math::PI)\n dist_deg * 69.09 * 1.6093 # to convert mile in Kilometers\n \n end", "def haversine_distance(alocation, miles=false)\n # Get latitude and longitude\n res=100000.0\n lat1 = self.latitude\n lon1 = self.longitude\n if !alocation.nil?\n\n lat2 = alocation.latitude\n lon2 = alocation.longitude\n\n # Calculate radial arcs for latitude and longitude\n dLat = (lat2 - lat1) * Math::PI / 180\n dLon = (lon2 - lon1) * Math::PI / 180\n\n\n a = Math.sin(dLat / 2) *\n Math.sin(dLat / 2) +\n Math.cos(lat1 * Math::PI / 180) *\n Math.cos(lat2 * Math::PI / 180) *\n Math.sin(dLon / 2) * Math.sin(dLon / 2)\n\n c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1-a))\n\n d = 6371 * c * (miles ? 1 / 1.6 : 1)\n res=d\n end\n res\nend", "def spherical_miles(other)\n MILES_PER_RADIAN * spherical_distance(other)\n end", "def miles\n \t#byebug\n \tcase units\n\t \twhen \"miles\" then distance\n\t \twhen \"yards\" then distance*0.000568182\n\t \twhen \"meters\" then distance*0.000621371\n\t \twhen \"kilometers\" then distance*0.621371\n\t \telse nil\n \tend\n end", "def distance(loc1, loc2)\n\n lat1 = loc1[0].to_f\n lon1 = loc1[1].to_f\n\n lat2 = loc2[0].to_f\n lon2 = loc2[1].to_f\n\n dLat = conv_deg_rad(lat2 - lat1)\n dLon = conv_deg_rad(lon2 - lon1)\n\n a = Math.sin(dLat/2) * Math.sin(dLat/2) +\n Math.cos(lat1/180 * Math::PI) * Math.cos(lat2/180 * Math::PI) *\n Math.sin(dLon/2) * Math.sin(dLon/2)\n\n c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1-a))\n\n d = 6371e3 * c #meters\n\n return d\n end", "def distance_between(lat1, lon1, lat2, lon2, options = {})\n\n # set default options\n options[:units] ||= :mi\n\n # define conversion factors\n conversions = { :mi => 3956, :km => 6371 }\n\n # convert degrees to radians\n lat1 = to_radians(lat1)\n lon1 = to_radians(lon1)\n lat2 = to_radians(lat2)\n lon2 = to_radians(lon2)\n\n # compute distances\n dlat = (lat1 - lat2).abs\n dlon = (lon1 - lon2).abs\n\n a = (Math.sin(dlat / 2))**2 + Math.cos(lat1) *\n (Math.sin(dlon / 2))**2 * Math.cos(lat2)\n c = 2 * Math.atan2( Math.sqrt(a), Math.sqrt(1-a))\n c * conversions[options[:units]]\n end", "def calculate_distance(vals1, vals2)\n vals1_sum = vals1.inject(:+)\n vals2_sum = vals2.inject(:+)\n\n (0..11).map { |i| ((vals1[i].to_f/vals1_sum)-(vals2[i].to_f/vals2_sum))**2 }.inject(:+)\nend", "def nearby_metros(miles=400)\n return nil unless self.lat and self.lng\n puts \"within 30 miles of #{self.lat}/#{self.lng}\"\n Metro.find(:all, :origin => [self.lat,self.lng],:within=>miles,:order=>'distance')\n end", "def haversine_distance( lat1, lon1, lat2, lon2 )\n\tself::class::const_set(:RAD_PER_DEG, 0.017453293)\n\tself::class::const_set(:Rkm, 6371) # radius in kilometers...some algorithms use 6367\n\tself::class::const_set(:Rmeters, 6371000) # radius in meters\n\t@distances = Hash.new\n\tdlon = lon2 - lon1\n\tdlat = lat2 - lat1\n\tdlon_rad = dlon * RAD_PER_DEG\n\tdlat_rad = dlat * RAD_PER_DEG\n\tlat1_rad = lat1 * RAD_PER_DEG\n\tlon1_rad = lon1 * RAD_PER_DEG\n\tlat2_rad = lat2 * RAD_PER_DEG\n\tlon2_rad = lon2 * RAD_PER_DEG\n\ta = (Math.sin(dlat_rad/2))**2 + Math.cos(lat1_rad) * Math.cos(lat2_rad) * (Math.sin(dlon_rad/2))**2\n\tc = 2 * Math.atan2( Math.sqrt(a), Math.sqrt(1-a))\n\tdKm = Rkm * c # delta in kilometers\n\tdMeters = Rmeters * c # delta in meters\n\t@distances[\"km\"] = dKm\n\t@distances[\"m\"] = dMeters\nend", "def calculate_distance(point_a, point_b)\n to_radians = proc { |x| x * Math::PI / 180 }\n lat_a = to_radians.call(point_a.latitude / COORD_FACTOR)\n lat_b = to_radians.call(point_b.latitude / COORD_FACTOR)\n lon_a = to_radians.call(point_a.longitude / COORD_FACTOR)\n lon_b = to_radians.call(point_b.longitude / COORD_FACTOR)\n delta_lat = lat_a - lat_b\n delta_lon = lon_a - lon_b\n a = Math.sin(delta_lat / 2)**2 +\n Math.cos(lat_a) * Math.cos(lat_b) +\n Math.sin(delta_lon / 2)**2\n (2 * RADIUS * Math.atan2(Math.sqrt(a), Math.sqrt(1 - a))).to_i\nend", "def distance_between (long1, long2, lat1, lat2)\n radlat1 = Math.PI * lat1/180\n \tradlat2 = Math.PI * lat2/180\n \ttheta = lon1-lon2\n \tradtheta = Math.PI * theta/180\n \tdist = Math.sin(radlat1) * Math.sin(radlat2) + Math.cos(radlat1) * Math.cos(radlat2) * Math.cos(radtheta);\n \tdist = Math.acos(dist)\n \tdist = dist * 180/Math.PI\n \tdist = dist * 60 * 1.1515\n dist = dist * 1.609344\n \treturn dist\n end", "def miles\n# 1 meter = 0.000621371 miles\n if self.u == 'meters'\n self.distance * 0.000621371\n elsif self.u == 'miles' # mile in mile\n self.distance\n# 1 kilometer = 0.621371 miles\n elsif self.u == 'kilometers'\n self.distance * 0.621371\n# 1 yard = 0.000568182 miles\n elsif self.u == 'yards'\n self.distance * 0.000568182\n end\n end", "def grid_coords(lat, lon, dist) # dist in meter\n dist_POLE_RADIUS = 6356752.314 # North to South 6356km\n dist_EQUATOR_RADIUS = 6378137 # East to West 6378km\n lat_degree = ( 360 * 1000 ) / ( 2 * Math::PI * dist_POLE_RADIUS )\n lng_degree = ( 360 * 1000 ) / ( 2 * Math::PI * ( dist_EQUATOR_RADIUS * Math.cos(lat.to_f * Math::PI / 180.0) ) )\n \n dist_lat = lat_degree * dist.to_f/1000\n dist_lon = lng_degree* dist.to_f/1000\n \n grid_lat = (lat.to_f/dist_lat).to_i\n grid_lon = (lon.to_f/dist_lat).to_i\n \n return ([grid_lat, grid_lon])\nend", "def total_miles\n self.inject(0) do |accum,trip|\n accum += trip.distance_in_miles\n accum\n end\n end", "def distance(p1, p2)\n dx = ED * (p1['lat']-p2['lat'])\n dy = ED * Math::cos(Math::PI*p1['lat']/180)*(p1['lon']-p2['lon'])\n return (dx**2 + dy**2)**0.5\nend", "def getDistanceBetween(lat1, lon1, lat2, lon2)\r\n rad_lat1 = lat1.to_f * Math::PI / 180.0\r\n rad_lat2 = lat2.to_f * Math::PI / 180.0\r\n rad_lon1 = lon1.to_f * Math::PI / 180.0\r\n rad_lon2 = lon2.to_f * Math::PI / 180.0\r\n\r\n dLat = (rad_lat2 - rad_lat1)\r\n dLon = (rad_lon2 - rad_lon1)\r\n\r\n a = Math.sin(dLat/2.0) * Math.sin(dLat/2.0) + Math.cos(rad_lat1) * Math.cos(rad_lat2) * Math.sin(dLon/2.0) * Math.sin(dLon/2.0)\r\n c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1-a))\r\n d = EARTH_RAD_M * c\r\n\r\n return d\r\n end", "def distance(lat1, lon1, lat2, lon2)\n phi1 = lat1.to_rad\n phi2 = lat2.to_rad\n dphi = (lat2 - lat1).to_rad\n dlambda = (lon2 - lon1).to_rad\n a = Math.sin(dphi / 2) * Math.sin(dphi / 2) + Math.cos(phi1) * Math.cos(phi2) * Math.sin(dlambda / 2) * Math.sin(dlambda / 2)\n c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1 - a))\n return Run::R * c\n end", "def distance(lat1, lon1, lat2, lon2)\n phi1 = lat1.to_rad\n phi2 = lat2.to_rad\n dphi = (lat2 - lat1).to_rad\n dlambda = (lon2 - lon1).to_rad\n a = Math.sin(dphi / 2) * Math.sin(dphi / 2) + Math.cos(phi1) * Math.cos(phi2) * Math.sin(dlambda / 2) * Math.sin(dlambda / 2)\n c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1 - a))\n return Run::R * c\n end", "def spherical_distance(start_coords, end_coords)\n lat1, long1 = deg2rad *start_coords\n lat2, long2 = deg2rad *end_coords\n 2 * Radius * asin(sqrt(sin((lat2-lat1)/2)**2 + cos(lat1) * cos(lat2) * sin((long2 - long1)/2)**2))\nend", "def distance(p1, p2)\n a = [p1[:lat], p1[:lon]]\n b = [p2[:lat], p2[:lon]]\n\n rad_per_deg = Math::PI/180 # PI / 180\n rkm = 6371 # Earth radius in kilometers\n rm = rkm * 1000 # Radius in meters\n\n dlon_rad = (b[1]-a[1]) * rad_per_deg # Delta, converted to rad\n dlat_rad = (b[0]-a[0]) * rad_per_deg\n\n lat1_rad, lon1_rad = a.map! {|i| i * rad_per_deg }\n lat2_rad, lon2_rad = b.map! {|i| i * rad_per_deg }\n\n a = Math.sin(dlat_rad/2)**2 + Math.cos(lat1_rad) * Math.cos(lat2_rad) * Math.sin(dlon_rad/2)**2\n c = 2 * Math::atan2(Math::sqrt(a), Math::sqrt(1-a))\n rm * c # Delta in meters\nend", "def distance(p1, p2)\n a = [p1[:lat], p1[:lon]]\n b = [p2[:lat], p2[:lon]]\n\n rad_per_deg = Math::PI/180 # PI / 180\n rkm = 6371 # Earth radius in kilometers\n rm = rkm * 1000 # Radius in meters\n\n dlon_rad = (b[1]-a[1]) * rad_per_deg # Delta, converted to rad\n dlat_rad = (b[0]-a[0]) * rad_per_deg\n\n lat1_rad, lon1_rad = a.map! {|i| i * rad_per_deg }\n lat2_rad, lon2_rad = b.map! {|i| i * rad_per_deg }\n\n a = Math.sin(dlat_rad/2)**2 + Math.cos(lat1_rad) * Math.cos(lat2_rad) * Math.sin(dlon_rad/2)**2\n c = 2 * Math::atan2(Math::sqrt(a), Math::sqrt(1-a))\n rm * c # Delta in meters\nend", "def distance_between_points(a, b)\n Math.sqrt( (b.x - a.x)**2 + (b.y - a.y)**2 ).round(6)\nend", "def distance_from(coordinate_array)\n\t \t(super || Float::INFINITY) * Constant.miles_per_kilo_meter\n\tend", "def near?(lat, long, mile_radius)\n # omitted\n end", "def get_distance(lat1, lng1, lat2, lng2)\n validate_lat_lngs(lat1, lng1)\n validate_lat_lngs(lat2, lng2)\n\n lat1 = to_radians(lat1)\n lng1 = to_radians(lng1)\n lat2 = to_radians(lat2)\n lng2 = to_radians(lng2)\n\n distance = Math.acos(Math.sin(lat1) *\n Math.sin(lat2) + Math.cos(lat1) *\n Math.cos(lat2) * Math.cos(lng1 - lng2))\n (distance * EARTH_RADIUS).round\n end", "def haversine(lat1, long1, lat2, long2)\n\t dtor = Math::PI/180\n\t #for kilometer \n\t #r = 6378.14\n\t # For Mile\n\t r = 3959\n\t # For meter r = 6378.14*1000\n\t rlat1 = lat1 * dtor \n\t rlong1 = long1 * dtor \n\t rlat2 = lat2 * dtor \n\t rlong2 = long2 * dtor \n\n\t dlon = rlong1 - rlong2\n\t dlat = rlat1 - rlat2\n\n\t a = power(Math::sin(dlat/2), 2) + Math::cos(rlat1) * Math::cos(rlat2) * power(Math::sin(dlon/2), 2)\n\t c = 2 * Math::atan2(Math::sqrt(a), Math::sqrt(1-a))\n\t d = r * c\n\n\t return d\n end", "def calc_geo_distance(loc1, loc2)\n rad_per_deg = Math::PI/180 # PI / 180\n rkm = 6371 # Earth radius in kilometers\n rm = rkm * 1000 # Radius in meters\n\n dlat_rad = (loc2[:lat]-loc1[:lat]) * rad_per_deg # Delta, converted to rad\n dlon_rad = (loc2[:lng]-loc1[:lng]) * rad_per_deg\n\n lat1_rad = loc1[:lat] * rad_per_deg\n lng1_rad = loc1[:lng] * rad_per_deg\n lat2_rad = loc2[:lat] * rad_per_deg\n lng2_rad = loc2[:lng] * rad_per_deg\n\n a = Math.sin(dlat_rad/2)**2 + Math.cos(lat1_rad) * Math.cos(lat2_rad) * Math.sin(dlon_rad/2)**2\n c = 2 * Math::atan2(Math::sqrt(a), Math::sqrt(1-a))\n\n rm * c # Delta in meters\nend", "def distanceToSearchCenter(centerLat, centerLong)\n\n # kilometers\n earthRadius = 6371 \n\n buildingLat = self.gis_lat\n buildingLong = self.gis_long\n\n buildingLatRad = buildingLat/180 * Math::PI\n centerLongRad = centerLong/180 * Math::PI\n\n\n dLat = (centerLat-buildingLat)/180 * Math::PI;\n dLon = (centerLong-buildingLong)/180 * Math::PI;\n\n a = Math.sin(dLat/2) * Math.sin(dLat/2) +\n Math.cos(buildingLatRad) * Math.cos(centerLongRad) *\n Math.sin(dLon/2) * Math.sin(dLon/2);\n\n c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1-a));\n\n distanceMeters = 6371*1000 * c; \n puts distanceMeters\n distanceMeters\n end", "def haversine_distance( lat1, lon1, lat2, lon2 )\n\n dlon = lon2 - lon1\n dlat = lat2 - lat1\n\n dlon_rad = dlon * RAD_PER_DEG\n dlat_rad = dlat * RAD_PER_DEG\n\n lat1_rad = lat1 * RAD_PER_DEG\n lon1_rad = lon1 * RAD_PER_DEG\n\n lat2_rad = lat2 * RAD_PER_DEG\n lon2_rad = lon2 * RAD_PER_DEG\n\n # puts \"dlon: #{dlon}, dlon_rad: #{dlon_rad}, dlat: #{dlat}, dlat_rad: #{dlat_rad}\"\n\n a = Math.sin((lat2 - lat1)/2)**2 + Math.cos(lat1) * Math.cos(lat2) * Math.sin((lon2 - lon1)/2)**2\n #a = Math.sin(dlat_rad/2)**2 + Math.cos(lat1_rad) * Math.cos(lat2_rad) * Math.sin(dlon_rad/2)**2\n c = 2 * Math.asin( Math.sqrt(a))\n\n RADIUS * c # delta in meters\n\n @distances[\"m\"] = dMeters\n end", "def distCalc(point1, point2)\n first = ((point2[:x] - point1[:x]) **2)\n second = ((point2[:y] - point1[:y]) **2)\n sum = (first + second)\n dist = Math.sqrt(sum)\n return dist\nend", "def find_region\n count = 0\n GRID.each_with_index do |y_values, current_x|\n y_values.each do |current_y|\n distance = 0\n ALL_POINTS.each do |point|\n distance += ((point.y - current_y).abs + (point.x - current_x).abs)\n end\n p distance\n count += 1 if distance < 10_000\n end\n end\n p count\nend", "def get_square(lat,lon)\n return [ ((lat * 100.0).round)/100.0,\n ((lon * 100.0).round)/100.0 ]\n \nend", "def find_center(collection)\n sum_lat = 0.0\n sum_lng = 0.0\n count = 0\n collection.each do |llp| # should be a collection of LatLonPoints\n count += 1\n sum_lat += llp.lat unless llp.lat.nil?\n sum_lng += llp.lon unless llp.lon.nil?\n end\n {:lng => sum_lng / count, :lat => sum_lat / count} #return a hash\n [sum_lat/count, sum_lng/count] # return an array\n end", "def get_tile_number(lat_deg, lng_deg, zoom)\n lat_rad = lat_deg/180 * Math::PI\n n = 2.0 ** zoom\n x = ((lng_deg + 180.0) / 360.0 * n).to_i\n y = ((1.0 - Math::log(Math::tan(lat_rad) + (1 / Math::cos(lat_rad))) / Math::PI) / 2.0 * n).to_i\n\n {:x => x, :y => y}\nend", "def get_distance_duration(start_locations, end_locations)\n origins = start_locations.map{ |l| l.map(&:to_s).join(\",\") }.join(\"|\")\n destinations = end_locations.map{ |l| l.map(&:to_s).join(\",\") }.join(\"|\")\n\n request_url = \"https://maps.googleapis.com/maps/api/distancematrix/json?units=imperial&origins=\"+\n \"#{origins}&destinations=#{destinations}&mode=bicycling&key=#{ENV['GOOGLE_MAPS_API_KEY_TEST']}\"\n\n response = HTTP.get(request_url).parse\nend", "def geodist(key, from, to, unit = \"m\")\n\t\t\t\t\tcall(\"GEODIST\", key, from, to, unit)\n\t\t\t\tend", "def distance(point2)\n end", "def distance x1, y1, x2, y2\n ((x1-x2)**2+(y1-y2)**2)**0.5\nend", "def haversine(loc1, loc2)\n lat1, lon1 = loc1\n lat2, lon2 = loc2\n dLat = (lat2-lat1).to_rad\n dLon = (lon2-lon1).to_rad\n a = Math.sin(dLat/2) * Math.sin(dLat/2) +\n Math.cos(lat1.to_rad) * Math.cos(lat2.to_rad) *\n Math.sin(dLon/2) * Math.sin(dLon/2)\n c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1-a))\n d = 6371 * c # Multiply by 6371 to get Kilometers\n end", "def best_zoom(collection, center_point, width, height)\n min_lat, max_lat, min_lng, max_lng = 0, 0, 0, 0\n collection.each do |loc|\n if loc.class == Location\n min_lat = loc.lat if loc.lat < min_lat\n max_lat = loc.lat if loc.lat > max_lat\n min_lng = loc.lng if loc.lng < min_lng\n max_lng = loc.lng if loc.lng > max_lng\n elsif loc.class == Array # expecting [lat, lng] array elements\n min_lat = loc.first if loc.first < min_lat\n max_lat = loc.first if loc.first > max_lat\n min_lng = loc.last if loc.last < min_lng\n max_lng = loc.last if loc.last > max_lng\n end\n end\n distance_diag = calculate_distance2(min_lat, min_lng, max_lat, max_lng)\n pixels_diag = Math.sqrt(width ** 2 + height ** 2)\n meters_per_pixel_needed = distance_diag / pixels_diag\n # compare here, meters per pixel to this number for different zoom levels\n zoom_levels_yahoo = [0, 2**0, 2**1, 2**2, 2**3, 2**4, 2**5, 2**6, 2**7, 2**8, 2**9, 2**10, 2**11, 2**12, 2**13, 2**14, 2**15, 2**16, 2**17] #start close in and zoom out\n zoom_levels_yahoo.each_with_index do |zl, i|\n zoom = (18 - i) if meters_per_pixel_needed > zl\n end\n zoom = 10 if (zoom.nil? || zoom == 0)\n zoom\n end", "def getGeoDistance(c1,c2)\n # atan2 raises domain error.\n if equalCoordinates?(c1,c2)\n return 0.0\n end\n ca = getCentralAngle(c1,c2)\n dist = EARTH_RADIUS_FEET * ca\n return abs(dist)\n end", "def is_nearby?(user_lat, user_long, bus_lat, bus_long)\n\n# max distance is about 0.6 miles away 0.01 degrees\n\nmax_distance = 0.01\n\ndifference_latitudes = user_lat - bus_lat.to_f\ndifference_longitudes = user_long - bus_long.to_f\n\ndistance = Math.sqrt(difference_latitudes ** 2 + difference_longitudes ** 2)\n\ndistance <= max_distance\n\nend", "def initial_distance(start_point, end_point)\n long1 = start_point.location.x\n long2 = end_point.location.x\n lat1 = start_point.location.y\n lat2 = end_point.location.y\n dtor = Math::PI/180\n r = 6378.14*1000\n\n rlat1 = lat1 * dtor\n rlong1 = long1 * dtor\n rlat2 = lat2 * dtor\n rlong2 = long2 * dtor\n\n dlon = rlong1 - rlong2\n dlat = rlat1 - rlat2\n\n a = (Math::sin(dlat/2)**2) + Math::cos(rlat1) * Math::cos(rlat2) * (Math::sin(dlon/2)**2)\n c = 2 * Math::atan2(Math::sqrt(a), Math::sqrt(1-a))\n d = r * c\n end", "def distance_calculator(start, destination)\n #http://forrst.com/posts/Read_JSON_data_using_Ruby-13V\n url = \"http://maps.googleapis.com/maps/api/distancematrix/json?origins=#{start}&destinations=#{destination}&mode=driving&sensor=false\"\n \n buffer = open(url).read\n result = JSON.parse(buffer)\n \n duration = result[\"rows\"].first[\"elements\"].first[\"duration\"][\"value\"]\n distance = result[\"rows\"].first[\"elements\"].first[\"distance\"][\"value\"]\n return duration.to_f/60, distance.to_f/1000\nend", "def distance_between(city_1, city_2)\n Math.hypot(city_2.x - city_1.x, city_2.y - city_1.y)\nend", "def distance\n diff_longitude = @longitude_b - @longitude_a\n diff_latitude = @latitude_b - @latitude_a\n\n angle_a = (Math.sin(radius_to_degree(diff_latitude)/2.0)) ** 2 +\n Math.cos(radius_to_degree(@latitude_a)) *\n Math.cos(radius_to_degree(@latitude_b)) *\n (Math.sin(radius_to_degree(diff_longitude)/2.0)) ** 2\n angle_c = 2 * Math.atan2(Math.sqrt(angle_a), Math.sqrt(1-angle_a))\n\n (EARTH_RADIUS * angle_c) / 1000 # Returns the distance in kilometers\n end", "def meters\n \t#byebug\n \tcase units\n\t \twhen \"meters\" then distance\n\t \twhen \"kilometers\" then distance*1000\n\t \twhen \"yards\" then distance*0.9144\n\t \twhen \"miles\" then distance*1609.344\n\t \telse nil\n \tend\n end", "def lon_lat_to_meters(lon, lat)\n mx = lon * @origin_shift / 180.0\n my = Math.log(Math.tan((90 + lat) * Math::PI / 360.0)) / (Math::PI / 180.0)\n\n my = my * @origin_shift / 180.0\n [mx, my]\n end", "def distance(loc1, loc2)\n rad_per_deg = Math::PI / 180 # PI / 180\n rkm = 6371 # Earth radius in kilometers\n dlat_rad = (loc2[0] - loc1[0]) * rad_per_deg # Delta, converted to rad\n dlon_rad = (loc2[1] - loc1[1]) * rad_per_deg\n lat1_rad, lon1_rad = loc1.map { |i| i * rad_per_deg }\n lat2_rad, lon2_rad = loc2.map { |i| i * rad_per_deg }\n a = Math.sin(dlat_rad / 2)**2 + Math.cos(lat1_rad) * Math.cos(lat2_rad) * Math.sin(dlon_rad / 2)**2\n c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1 - a))\n rkm * c # Delta in kilometers\n end", "def distance_to(loc2)\n self.point.ellipsoidal_distance(loc2.point)/1000\n end", "def distanceToCoord(startXPosition, startYPosition, endXPosition, endYPosition)\n if startXPosition == endXPosition and startYPosition == endYPosition\n return 0\n end\n \n return (startXPosition - endXPosition).abs + (startYPosition - endYPosition).abs\nend", "def distance(loc1, loc2)\n rad_per_deg = Math::PI/180 # PI / 180\n rkm = 6371 # Earth radius in kilometers\n rm = rkm * 1000 # Radius in meters\n\n dlat_rad = (loc2[0]-loc1[0]) * rad_per_deg # Delta, converted to rad\n dlon_rad = (loc2[1]-loc1[1]) * rad_per_deg\n\n lat1_rad, lon1_rad = loc1.map {|i| i * rad_per_deg }\n lat2_rad, lon2_rad = loc2.map {|i| i * rad_per_deg }\n\n a = Math.sin(dlat_rad/2)**2 + Math.cos(lat1_rad) * Math.cos(lat2_rad) * Math.sin(dlon_rad/2)**2\n c = 2 * Math::atan2(Math::sqrt(a), Math::sqrt(1-a))\n\n rm * c # Delta in meters\n end", "def manhatten_distance(base_coordinates)\n x1 = base_coordinates[0] + 10\n x2 = coordinates[0] + 10\n y1 = base_coordinates[1] + 10\n y2 = coordinates[1] + 10\n return (x1 - x2).abs + (y1 - y2).abs\n end", "def distance(userlat, userlon, homelat, homelon)\n dlon = homelon - userlon\n dlat = homelat - userlat\n a = (Math.sin(rpd(dlat)/2))**2 + Math.cos(rpd(userlat)) * Math.cos((rpd(homelat))) * (Math.sin(rpd(dlon)/2))**2\n c = 2 * Math.atan2( Math.sqrt(a), Math.sqrt(1-a)) * 3956 * 5280\n return c\n end", "def points_distance(x1, y1, x2, y2)\n Math.sqrt((x1 - x2).abs2 + (y1 - y2).abs2)\n end", "def route_length_in_miles_not_rounded\n departure_airport.distance_from(arrival_airport)\n end", "def compute_geometry_in_memory\n sites_with_location = sites.select{|x| x.lat && x.lng}\n min_lat, max_lat, min_lng, max_lng = 90, -90, 180, -180\n sites_with_location.each do |site|\n min_lat = site.lat if site.lat < min_lat\n max_lat = site.lat if site.lat > max_lat\n min_lng = site.lng if site.lng < min_lng\n max_lng = site.lng if site.lng > max_lng\n end\n set_bounding_box min_lat, max_lat, min_lng, max_lng\n end", "def calculate_map_dimensions(top_left:, bottom_right:, zoom:)\n top_left = top_left.zoom_to(zoom)\n bottom_right = bottom_right.zoom_to(zoom)\n\n # map width and height in pixels\n width = ((bottom_right.column - top_left.column) * Honua.configuration.tile_width).to_i\n height = ((bottom_right.row - top_left.row) * Honua.configuration.tile_height).to_i\n\n [width, height]\n end", "def areas_by_radius(lat, lon, radius_meters)\n #get min/max latitude and longitude of radius around point\n min_lat, min_lon, max_lat, max_lon = radius_box = bounding_box(lat, lon, radius_meters)\n\n #estimate the size of boxes to target\n steps = estimate_steps_by_radius(radius_meters)\n #re-encode point using steps\n #the geohashes are composed of 32 distinct numbers/letters, basically base 32\n #bits are composed of 1s and 0s, base 2 or binary\n #steps is the length of the binary number for longitude and latitude, and the combined length of the binary string (which interleaves both the longitude and latitude) is 2*steps\n # since 32 is 2^5, while 2 is 2^1, the length of a base 32 number will be the length of a binary number divided by 5 and plus 1 (32 base 10 = 10000 base 2 = 10 base 32).\n str_len = steps*2/5 + 1\n hash = encode(lat, lon, str_len)\n\n #get neighbors of box\n neighbors = neighbors(hash)\n neighbors_neighbors = neighbors.each_with_object([]) {|neighbor, nb| nb << neighbors(neighbor)}\n\n # 25 geohashes surrounding the original\n nb = neighbors_neighbors.flatten.uniq\n\n # remove those geohashes that are outside the bounding box\n nb.each do |neighbor|\n n_latlng_low, n_latlng_high = decode(neighbor)\n if n_latlng_low[0] > max_lat or n_latlng_low[1] > max_lon or n_latlng_high[0] < min_lat or n_latlng_high[1] < min_lon\n nb -= [neighbor]\n end\n end\n\n #return remaining neighbor list\n nb\n end", "def degrees_to_meters(lon, lat)\n half_circumference = 20037508.34\n x = lon * half_circumference / 180\n y = Math.log(Math.tan((90 + lat) * Math::PI / 360)) / (Math::PI / 180)\n \n y = y * half_circumference / 180\n \n return [x, y]\nend", "def dist_user(a, b)\n earth_R = 6371e3 #The earth radius, im meters!\n φ1 = (a[\"latitude\"]).to_f * Math::PI / 180\n φ2 = (b[\"coords\"][\"latitude\"]).to_f * Math::PI / 180\n Δφ = ((b[\"coords\"][\"latitude\"]).to_f-(a[\"latitude\"]).to_f)* Math::PI / 180\n Δλ = ((b[\"coords\"][\"longitude\"]).to_f-(a[\"longitude\"]).to_f)* Math::PI / 180\n a = Math.sin(Δφ/2)**2+Math.cos(φ1)*Math.cos(φ2)*Math.sin(Δλ/2)**2\n earth_R * 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1-a))\n end", "def distance(g0, g1)\n Math::sqrt( ((g1.lat-g0.lat).abs**2) + ((g1.lon-g0.lon).abs**2) )\n end", "def distance_to(lat, lon, units = :km)\n return nil unless geocoded?\n mylat,mylon = read_coordinates\n Geocoder.distance_between(mylat, mylon, lat, lon, :units => units)\n end", "def distance_from(tlat, tlng)\n [@lat - tlat, @lng - tlng]\n end", "def rect_by_size(lat, lng, distance)\n {\n :lat1 => (lat + distance.to_f / 111.32),\n :lng1 => (lng - distance.to_f / 98.64),\n :lat2 => (lat - distance.to_f / 111.32),\n :lng2 => (lng + distance.to_f / 98.64)\n }\n end", "def is_nearby?(user_lat, user_long, bus_lat, bus_long)\n Math.hypot((user_lat - bus_lat), (user_long - bus_long)) <= .01\n end", "def distance_to(mtn)\n GeoMath.haversine_distance(\n @latitude, @longitude, \n mtn.latitude, mtn.longitude)\n end", "def distance_between(point1, point2)\n earth_radius_in_meters = 6371000\n radian_per_degree = Math::PI/180\n\n # Delta latitudes and longitudes in radians.\n delta_lat = (point2[0] - point1[0]) * radian_per_degree\n delta_lng = (point2[1] - point1[1]) * radian_per_degree\n\n lat1 = point1.first * radian_per_degree\n lat2 = point2.first * radian_per_degree\n\n a = Math.sin(delta_lat / 2) ** 2 + Math.cos(lat1) * Math.cos(lat2) * Math.sin(delta_lng / 2) ** 2\n b = 2 * Math::atan2(Math::sqrt(a), Math::sqrt(1 - a))\n\n earth_radius_in_meters * b\n end", "def distance(x1,y1,x2,y2)\n return ((x2 - x1)**2 + (y2 - y1)**2)**0.5\nend", "def distanceBetween(uLat, uLng, eLat, eLng)\n @R = 6371\n @c1 = uLat * Math::PI/180\n @c2 = eLat * Math::PI/180\n @dLat = (eLat - uLat) * Math::PI/180\n @dLng = (eLng - uLng) * Math::PI/180\n \n @a = Math.sin(@dLat/2) * Math.sin(@dLat/2) +\n Math.cos(@c1) * Math.cos(@c2) *\n Math.sin(@dLng/2) * Math.sin(@dLng/2)\n \n @c = 2 * Math.atan2(Math.sqrt(@a), Math.sqrt(1 - @a))\n\n return (@R * @c).to_i\n end", "def findSize(streets)\n x = 0\n y = 0\n streets.each do |rua|\n if(rua.endX > x)\n x = rua.endX\n end\n\n if(rua.endY > y)\n y = rua.endY\n end\n end\n\n return [x, y]\nend", "def llDistance(ll_start, ll_end)\n\t\t\tlat_s = ll_start.lat * Math.PI / 180\n\t\t\tlat_f = ll_end.lat * Math.PI / 180\n\t\t\td_lon = (ll_end.lon - ll_start.lon) * Math.PI / 180\n\t\t\treturn( Math.atan2( Math.sqrt( (Math.cos(lat_f) * Math.sin(d_lon)**2) + (Math.cos(lat_s)*Math.sin(lat_f) - Math.sin(lat_s)*Math.cos(lat_f)*Math.cos(d_lon)**2)) ,\n\t\t\t\t\tMath.sin(lat_s)*Math.sin(lat_f) + Math.cos(lat_s)*Math.cos(lat_f)*Math.cos(d_lon) )\n\t\t\t\t);\n\t\tend", "def distance_of_items(loc1, loc2, loc3)\n items = [loc1, loc2, loc3]\n low, high = items.map { |item| find_location_bays(item) }.minmax\n high - low\nend", "def calculate_length\n l = @points.enum_cons(2).inject(0) { |s, points|\n s + distance_between(*points)\n }\n\n # include distance to go from last point to first to make loop\n l + distance_between(@points[-1], @points[0])\n end", "def getBox(coord1, coord2)\n lon1 = coord1[0]\n lat1 = coord1[1]\n lon2 = coord2[0]\n lat2 = coord2[1]\n\n nw_lat = lat1 > lat2 ? lat1 : lat2\n se_lat = lat1 < lat2 ? lat1 : lat2\n\n if lon1 < 0\n if lon2 <= 0\n nw_lon = lon1 < lon2 ? lon1 : lon2\n se_lon = lon1 > lon2 ? lon1 : lon2\n else\n # We need to calculate for the minimum distance\n if abs(lon1 - lon2) < 180\n nw_lon = lon1\n se_lon = lon2\n else\n nw_lon = lon2\n se_lon = lon1\n end\n end\n else\n if lon2 >= 0\n nw_lon = lon1 < lon2 ? lon1 : lon2\n se_lon =-lon1 > lon2 ? lon1 : lon2\n else\n # minimum distance\n if abs(lon1-lon2) < 180\n nw_lon = lon2\n se_lon = lon1\n else\n nw_lon = lon1\n se_lon = lon2\n end\n end\n end\n return [[nw_lon,nw_lat],[se_lon,se_lat]]\n end" ]

[ "0.7593549", "0.7296941", "0.72916555", "0.6898749", "0.687274", "0.6859289", "0.6858514", "0.68575114", "0.67634887", "0.67528605", "0.67118335", "0.666891", "0.66418767", "0.6628817", "0.65530074", "0.65409726", "0.65375704", "0.651639", "0.6484931", "0.64551324", "0.6436073", "0.6435119", "0.64072484", "0.63977426", "0.63863534", "0.63817203", "0.6379069", "0.6367942", "0.6366934", "0.6326047", "0.63182503", "0.6304322", "0.629969", "0.6289214", "0.62841725", "0.6261133", "0.6241515", "0.62262124", "0.6219262", "0.6173892", "0.6158049", "0.6135971", "0.6135971", "0.61190915", "0.6118357", "0.6118357", "0.6108229", "0.60753495", "0.6036063", "0.60325783", "0.6017297", "0.60128933", "0.6012625", "0.6005832", "0.59903157", "0.5982903", "0.5969093", "0.5957648", "0.5944635", "0.59232855", "0.5922518", "0.59108377", "0.5893306", "0.5885789", "0.58699036", "0.58649194", "0.58647984", "0.58641475", "0.5862609", "0.58602047", "0.5859243", "0.58542186", "0.58351064", "0.5832551", "0.58244413", "0.58243066", "0.5822175", "0.58207494", "0.58190477", "0.5818191", "0.581556", "0.5813025", "0.58021784", "0.57988554", "0.57942164", "0.5778891", "0.5778181", "0.5776879", "0.5769717", "0.57562304", "0.5753661", "0.57393646", "0.5732284", "0.57216996", "0.5720217", "0.57187766", "0.57051194", "0.57008797", "0.56953764", "0.5694361" ]

[ "def implementation; end", "def implementation; end", "def private; end", "def internal; end", "def methods; end", "def methods; end", "def methods; end", "def methods; end", "def wrapper; end", "def class() end", "def initialize\n \n end", "def call\n # implement in subclasses\n end", "def methods() end", "def work\n raise \"implement this in a class that includes this module\"\n end", "def invoke\r\n # TODO: rename to more appropriate one 2007/05/10 by shino\r\n raise 'must be implemented in subclasses'\r\n end", "def run; raise NotImplementedError; end", "def run; raise NotImplementedError; end", "def implementation\n fail 'Subclasses must implement implementation()!'\n end", "def custom; end", "def custom; end", "def interface; end", "def interface; end", "def private_method\n end", "def initialize() end", "def commence\n raise NotImplementedError\n end", "def overrides; end", "def init\n raise NotImplementedError\n end", "def call\n raise NotImplementedError\n end", "def call\n raise NotImplementedError\n end", "def initialize; end", "def initialize; end", "def initialize; end", "def initialize; end", "def initialize; end", "def initialize; end", "def initialize; end", "def initialize; end", "def initialize; end", "def initialize; end", "def initialize; end", "def implementation\n @implementation\n end", "def invoke\n raise NotImplementedError, \"Author of subclass forgot to implement #invoke\"\n end", "def __getobj__\n raise \"Abstract class requires implementation\"\n end", "def initialize\n super\n end", "def initialize\n super\n end", "def initialize\n super\n end", "def initialize\r\n\r\n end", "def initialize()\r\n\r\n end", "def realize_self\n raise NotImplementedError\n end", "def method; end", "def method; end", "def method; end", "def method; end", "def method; end", "def method; end", "def method; end", "def method; end", "def method; end", "def method; end", "def method; end", "def method; end", "def implemented_in; end", "def service; raise NotImplementedError; end", "def dispatch\n raise NotImplementedError\n end", "def init; end", "def init; end", "def init; end", "def init; end", "def provide\n raise NotImplementedError\n end", "def initialize\n super()\n end", "def initialize\n super()\n end", "def initialize\n super()\n end", "def initialize\n super()\n end", "def initialize\n super()\n end", "def initialize\n super()\n end", "def initialize\n super()\n end", "def initialize()\n # override parent\n end", "def initialize\n super\n end", "def initialize\n super\n end", "def abstract!; end", "def initialize ( _caller )\n super\n end", "def initialize ( _caller )\n super\n end", "def public; end", "def public; end", "def call\n raise NotImplementedError,\n \"Override #call and implement your application logic.\"\n end", "def instance; end", "def instance; end", "def instance; end", "def initialize\n\t\t\n\tend", "def specie; end", "def specie; end", "def specie; end", "def specie; end", "def initialize\n # nothing here for now\n end", "def initialize\n \n end", "def initialize\n\n end", "def initialize\n\n end", "def initialize\n end", "def initialize\n end", "def initialize\n end", "def initialize\n end" ]

[ "0.8523953", "0.8523953", "0.78491676", "0.71883124", "0.70584863", "0.70584863", "0.70584863", "0.70584863", "0.6980452", "0.69691235", "0.69645184", "0.69396913", "0.69298077", "0.69246954", "0.68834186", "0.68821424", "0.68821424", "0.6861032", "0.6844157", "0.6844157", "0.6827217", "0.6827217", "0.6805905", "0.6804179", "0.67990494", "0.67863905", "0.67811275", "0.6780067", "0.6780067", "0.67596215", "0.67596215", "0.67596215", "0.67596215", "0.67596215", "0.67596215", "0.67596215", "0.67596215", "0.67596215", "0.67596215", "0.67596215", "0.6752532", "0.67275107", "0.67211396", "0.671058", "0.671058", "0.671058", "0.66714877", "0.66579247", "0.66576564", "0.6643073", "0.6643073", "0.6643073", "0.6643073", "0.6643073", "0.6643073", "0.6643073", "0.6643073", "0.6643073", "0.6643073", "0.6643073", "0.6643073", "0.6628454", "0.66207856", "0.65983397", "0.65920335", "0.65920335", "0.65920335", "0.65920335", "0.6591622", "0.6587477", "0.6587477", "0.6587477", "0.6587477", "0.6587477", "0.6587477", "0.6587477", "0.65857524", "0.65738624", "0.65738624", "0.6556992", "0.6556218", "0.6556218", "0.6549709", "0.6549709", "0.65389407", "0.6534136", "0.6534136", "0.6534136", "0.65249634", "0.6524353", "0.6524353", "0.6524353", "0.6524353", "0.65032846", "0.6502809", "0.64975995", "0.64975995", "0.64970225", "0.64970225", "0.64970225", "0.64970225" ]

[ "def my_select\n new_arr = []\n self.my_each do |ele|\n new_arr << ele if yield ele\n end\n new_arr\n end", "def my_select\n if block_given?\n new_array = []\n self.my_each{|item| array_new << item if yield(self)}\n # This is the same as:\n # for i in 0..self.length-1\n # new_array << self[i] if yield(self[i])\n # end\n new_array\n end\n end", "def my_select\n arr = []\n self.my_each {|x| arr << x if yield x}\n arr\n end", "def select\n counter = 0\n new_list = TodoList.new(title)\n\n while counter < @todos.length do\n if yield(@todos[counter])\n new_list << @todos[counter]\n end\n counter += 1\n end\n\n new_list\n end", "def my_select\n\ti = 0\n\tarr = Array.new\n\tself.my_each do |a| \n\t\tif yield (a)\n\t\t\tarr[i] = a\n\t\t\ti +=1\n\t\telse\n\t\t\tfalse\n\t\tend\n\tend\n\tarr\nend", "def my_select\n return self unless block_given?\n new_arr = []\n self.my_each { |s| new_arr << s if yield(s) }\n return new_arr\n end", "def my_select(&prc)\n\t\tnew_array = []\n\n\t\tself.my_each do |ele|\n\t\t\tnew_array << ele if prc.call(ele)\t\t\t\t\n\t\tend\n\n\t\tnew_array\n\tend", "def my_select\n array = []\n self.my_each do |item|\n if (yield item) == true\n array << item\n end\n end\n array\n end", "def my_select\n result = []\n i = 0\n while i < self.to_a.length\n if yield self.to_a[i] \n result << self.to_a[i]\n end\n i += 1\n end\n result\n end", "def my_select\n\n\t\tselect_array = []\n\t\t# call my each\n my_each do | num |\n \tif yield( num )\n \t\tselect_array << num\n \telse\n \t\tnext\n \tend\n\n\n end\n\n return select_array\n\n\tend", "def my_select(collection)\n holder = [] #for collection at the end\n counter = 0 #start at beginning of array\n\n while counter < collection.length # condition to be met\n if yield(collection[counter]) == true #if the mumbojumbo results in true *which select gives\n holder.push(collection[counter]) #then push that element into the new array\n end\n counter += 1 #iterate throughout the array incremently\n end\n holder #show everyone your new array\nend", "def my_select\n\t\treturn_array = []\n\t\tself.my_each do |element|\n\t\t\tif yield(element) == true\n\t\t\t\treturn_array << element\n\t\t\tend\n\t\tend\n\t\treturn return_array\n\tend", "def select\n new_list = TodoList.new(\"Selected Items\")\n\n each do |todo|\n new_list.add(todo) if yield(todo)\n end\n new_list\n end", "def my_select(&prc)\n arr = []\n self.my_each { |el| arr << el if prc.call(el) }\n arr\n end", "def my_select(&prc)\n result_array = []\n self.my_each {|el| result_array << el if prc.call(el)}\n result_array\n end", "def my_select\n i = 0\n result = []\n self.my_each do |x|\n if yield(x)\n result[i] = x\n i += 1\n end\n end\n return result\n end", "def my_select\n new_array = []\n each do |value|\n new_array << value if yield(value)\n end\n new_array\nend", "def select(arr)\n result_arr = []\n \n counter = 0\n while counter < arr.size\n result_arr << arr[counter] if yield(arr[counter])\n end\n \n result_arr\nend", "def select\n new_array = []\n @array.size.times do |index|\n value = @array[index]\n if yield(value)\n new_array << value\n end\n end\n\n new_array\n end", "def my_select(coll)\n # your code here!\n mod_coll = []\n i=0\n while i < coll.length\n if (yield(coll[i]))\n mod_coll.push(coll[i])\n end\n i = i+1\n end\n mod_coll\nend", "def select\n out = []\n\n each { |e| out << e if yield(e) }\n\n out\n end", "def select(array)\n final_selections = []\n\n for elem in array do\n result = yield(elem)\n final_selections << elem if result\n end\n \n final_selections\nend", "def my_select(array)\n counter = 0\n new_array = []\n while counter < array.size\n if yield(array[counter])\n new_array << array[counter]\n else\n end\n counter += 1\n end\n return new_array\nend", "def select\n a = []\n @set.each do |e,_|\n if yield(e)\n a << e\n end\n end\n a\n end", "def my_select(arr)\ncounter = 0\nresults = []\nwhile counter < arr.length\n if yield(arr[counter]) == true\n results.push(arr[counter])\n end\n counter += 1\nend\nresults\nend", "def select_all\n\t\treturn self.clone( :select => [] )\n\tend", "def my_select (collection)\n if block_given?\n i = 0 \n new_collection = []\n \n while i < collection.length \n if yield(collection[i]) \n new_collection << collection[i]\n end\n i += 1\n end\n \n else\n puts \"Hey! No block was given!\"\n end\n new_collection \nend", "def select(array)\n counter = 0\n ret_array = []\n while counter < array.size\n ret = yield(array[counter])\n ret_array << array[counter] if ret\n counter += 1\n end\n ret_array\nend", "def my_select\n if block_given?\n arr = Array.new\n self.my_each do |x|\n if yield x\n arr << x\n end\n end\n arr\n else\n self.to_enum\n end\n end", "def my_select\n return to_enum unless block_given?\n array = []\n to_a.my_each { |n| array << n if yield(n) }\n array\n end", "def each\n @todos.each do |todo|\n yield(todo)\n end\n self\n end", "def select(array)\n counter = 0\n result = []\n\n while counter < array.size\n current_element = array[counter]\n result << current_element if yield(current_element)\n counter += 1\n end\n\n result\nend", "def select(array)\n counter = 0\n return_array = []\n while counter < array.size\n return_array << array[counter] if yield(array[counter])\n counter += 1\n end\n return_array\nend", "def my_select(array)\n i = 0\n select = []\n while i < array.length\n if (yield(array[i]))\n select << array[i]\n end\n i+=1\n end\n select\nend", "def build_array\n arr = []\n yield(arr)\n arr \n end", "def select(array)\n counter = 0\n new_array = []\n while counter < array.size\n value = yield(array[counter])\n if value\n new_array << array[counter]\n end\n counter += 1\n end\n\n new_array\nend", "def my_select(&prc)\n selection = []\n i = 0\n while i < self.length\n if prc.call(self[i])\n selection << self[i]\n end\n i += 1\n end\n return selection\n end", "def collect\n nha = self.class.new\n (0...self.length).each { |i| nha << yield(self.fetch(i)) }\n nha\n end", "def my_select(collection)\n new_collection = [] #create new empty array\n i = 1 #counter variable i set to 1 (not 0, which is even)\n while i < collection.length #start while loop, execute code below as long as i is less than the length of the array\n (new_collection << i) if i.even? # each number gets appended to new_collection that is even\n i = i + 1 #increment value of i variable\n end #end do loop\n new_collection #return new_collection array\nend", "def select(array)\n counter = 0\n result = []\n until counter == array.size do\n result << array[counter] if yield(array[counter])\n counter += 1\n end\n result\nend", "def my_select(&block)\n result = []\n my_each do |elem|\n result << elem if block.call(elem) == true\n end\n result\n end", "def all\n @all ||= data.collect do |item|\n todo = Todo.new(item.merge(user: user))\n end\n end", "def my_select\n return to_enum unless block_given?\n\n selected = []\n my_each { |i| selected << i if yield(i) }\n selected\n end", "def my_collect(array)\ni = 0\n\nnewArray = []\nwhile i < array.length\n\n newArray.push(yield array[i])\n i = i + 1\nend\nnewArray\nend", "def all_done\n select{ |todo| todo.done? }\n end", "def map &block\n new_array = [] # create a new array where elements will go into\n self.each {|el| new_array << (yield el)} # for each true element in the block, shovel that element into new array\n new_array # return the new array\n end", "def my_collect(array, &block)\nnew_array = []\ncounter =0\nif block_given?\nwhile counter < array.length\n new_array[counter] = yield(array[counter])\n counter +=1\nend\nreturn new_array\nelse \n return self.to_enum\nend\nend", "def to_a\n each.force\n end", "def collect_preserve\n\t\tcopy = @arr.clone[0...@last]\n\tend", "def\tcollect\n\t\ta = []\n\t\tself.each{|v| a << v}\n\t\ta\n\tend", "def all_done\n self.select { |todo| todo.done? }\n end", "def thread_select\n selection = Array.new\n thread_each do |e|\n selection << e if yield(e)\n end\n selection\n end", "def my_collect(array)\n i = 0\n name_collection = []\n while i < array.length\n name_collection.push yield(array[i])\n # you could also do it this way:\n # name_collection << yield(array[i])\n i += 1\n end\n name_collection\nend", "def select how_much\n res = []\n how_much.times { res << select_one }\n res\n end", "def get_items\r\n @arr.to_a\r\n end", "def select_all\n clone(:select => nil)\n end", "def find_all(&block)\r\n copy_and_return(@records.select(&block))\r\n end", "def my_select(list)\n result = []\n list.each do |n|\n result << n if yield(n)\n end\n result\nend", "def to_a\n result = []\n self.each do |item|\n result << item\n end\n return result\n end", "def new_with_progenitor array\n iter_ary = IterableArray.new array\n iter_ary.take_progenitor @progenitor\n iter_ary\n end", "def to_a\n x = []\n self.each do |it|\n x << it\n end\n x\n end", "def select(&block)\n ary = []\n self.class.members.each{|field|\n val = self[field]\n ary.push(val) if block.call(val)\n }\n ary\n end", "def select_all; end", "def my_collect(array)\n new_array = []\n # if array.size == 0\n # return 0\n # else\n counter = 0\n while counter < array.length\n new_array << yield(array[counter])\n counter += 1\n end\n \n new_array\nend", "def collect\r\n array = []\r\n @table.each do |subarray|\r\n array.concat subarray\r\n end\r\n array\r\n end", "def test_all_done# #all_done returns an new TodoList object (meets criteria)\r\n @todo1.done!\r\n new_obj = @list.all_done\r\n assert_equal([@todo1], new_obj.to_a)\r\n end", "def all_not_done\n self.select { |todo| !todo.done? }\n end", "def map(arr) # creating our own map method\n\tnewArr = [] # declaring an empty array to push our results inside\n\tarr.each do |i| # run the block of code to iterate inside each elements in an array\n\t\tnewArr << yield(i) # push the modified elements inside our newArr []\n\tend\n\tnewArr\nend", "def subsets(arr)\n return [self] if arr.length == 1\n\n subs + subsets()\nend", "def my_select\n return self unless block_given?\n\n result = self.class.new\n\n if is_a? Array\n my_each { |val| result.push(val) if yield(val) }\n elsif is_a? Hash\n my_each { |key, val| result[key] = val if yield(key, val) }\n else\n warn 'Incompatible type!'\n end\n result\n end", "def xnor_select(arr, proc_1, proc_2)\n new_arr = []\n arr.each do |ele|\n new_arr << ele if ( proc_1.call(ele) && proc_2.call(ele) ) || ( !proc_1.call(ele) && !proc_2.call(ele) )\n end\n new_arr\nend", "def batch_badge_creator(attendee)\n # the below code would work more effectively but since I found it somewhere else I decided to use another method to prove to myself I could do it on my own. Since the collect method saves the results automatically to a new array, it doesnt require the extra step I needed to do with the .each method.\n # attendee.collect do |i|\n # badge_maker(i)\n # end\n\n badges =[]\n attendee.each {|i| badges.push badge_maker(i)}\n return badges\nend", "def to_a\n [self]\n end", "def get_items\n\t\t@arr\n\tend", "def to_a\n Array(each)\n end", "def my_collect(array)\n i = 0\n collection = []\n while i < array.size\n collection << yield(array[i])\n i += 1\n end\n collection\nend", "def to_a\n each.to_a\n end", "def to_a\n each.to_a\n end", "def company_array(arr)\n companies_array = []\n arr.each {|comp| companies_array << comp }\n companies_array \nend", "def my_collect(array) # put argument(s) here\n # code here\n i = 0\n result = []\n\n while i < array.size\n\n result << yield(array[i])\n i += 1\n end\nresult\nend", "def to_a\n [ self ]\n end", "def selecting(&blk)\n Enumerator.new do |yielder|\n each do |*item|\n yielder.yield *item if blk.call(*item)\n end\n end\n end", "def hello(array)\n i = 0\n collection = [] # set a (new) empty array\n while i < array.length\n collection << yield(array[i]) # push the return value into new array\n i += 1\n end\n collection # return new array after while loop has completed\nend", "def my_each(array)\n\t\t#array = []\n\t\tindex = 0\n\t\twhile index < array.length\n\t\t\tyield(array[index])\n\t\t\tindex += 1\n\t\tend\n\t\treturn array\n\tend", "def my_collect(array)\n collection = []\n index = 0\n while index < array.size\n collection << yield(array[index])\n index += 1\n end\n collection\nend", "def flatten_todos(my_todos)\n\t\treturn [] if not my_todos or my_todos.size == 0\n\t\ttodos = []\n\t\tmy_todos.each do |todo|\n\t\t\tmatch = false\n\t\t\ttodos.each do |existing_todo|\n\t\t\t\tif existing_todo.compare(todo)\n\t\t\t\t\texisting_todo.add_jobs(todo.get_jobs)\n\t\t\t\t\tmatch = true\n\t\t\t\tend\n\t\t\tend\n\t\t\tif not match\n\t\t\t\ttodos.push(todo)\n\t\t\tend\n\t\tend\n\t\ttodos\n\tend", "def another; return []; end", "def selected_values &block\n ar = []\n selected_rows().each do |i|\n val = @list[i]\n if block_given?\n yield val\n else\n ar << val\n end\n end\n return ar unless block_given?\n end", "def each(&blk)\n to_a.each(&blk)\n end", "def to_a\n [self]\n end", "def to_a\n [ self ]\n end", "def sublist(&block)\n @tasks.select(&block)\n end", "def collect(result_array)\n collection = result_array.collect { |item| new(item)}\n result_array.replace(collection)\n result_array\n end", "def each\n to_a.each\n end", "def each\n to_a.each\n end", "def each\n to_a.each\n end", "def each(&block)\n to_a.each(&block)\n end", "def my_select( proc_argument = nil )\n result = []\n\n my_each do |element|\n if block_given? \n result << element if yield(element)\n else\n result << element if proc_argument.call(element)\n end\n end\n result\n end", "def find_a(array)\n new_a_array = []\n #binding.pry\n array.select do |item|\n if item[0]==\"a\"\n new_a_array<< item\n else\n puts \"nil\"\n end\n end\nnew_a_array\nend", "def getCTOByRating\n @CTOArray= Array.new\n \n #generate mockup model\n\n (0..10).each {|i|\n @arrayElement = CTOMock.new(i,\"test1\",\"aff1\",i)\n @CTOArray.append(@arrayElement)\n }\n \n return @CTOArray\n end" ]

[ "0.74007255", "0.72010475", "0.70896405", "0.7073939", "0.7058128", "0.6903173", "0.6889198", "0.67903614", "0.67575824", "0.6673704", "0.66505766", "0.66448355", "0.6622905", "0.6618596", "0.65584046", "0.65569097", "0.6452629", "0.6413699", "0.62972444", "0.6234604", "0.6199501", "0.6171421", "0.61459404", "0.61394376", "0.6133636", "0.6090939", "0.60402143", "0.60007775", "0.59744817", "0.5963359", "0.5960351", "0.59325945", "0.5914752", "0.5913206", "0.589839", "0.5847863", "0.58342254", "0.5816496", "0.581355", "0.58029515", "0.5785545", "0.5756821", "0.56924444", "0.5665125", "0.564601", "0.56314427", "0.56174237", "0.55691737", "0.5568123", "0.5543393", "0.55369014", "0.5533169", "0.5526962", "0.55118454", "0.5510129", "0.55014443", "0.55009013", "0.54949915", "0.5461998", "0.54426116", "0.5441909", "0.54213107", "0.541465", "0.5409971", "0.5408071", "0.5399892", "0.5394026", "0.53758115", "0.5374967", "0.5366574", "0.5360454", "0.5356052", "0.5350061", "0.53491765", "0.5345256", "0.5339508", "0.5336051", "0.5336051", "0.5334517", "0.5333304", "0.5330188", "0.53287244", "0.53264946", "0.53257054", "0.532432", "0.53195477", "0.5315188", "0.53018236", "0.52997047", "0.5292974", "0.52799714", "0.5277846", "0.52696353", "0.52612084", "0.52612084", "0.52612084", "0.5252404", "0.5249926", "0.5239021", "0.5232482" ]

[ "def find_by_title(string)\n @todos.each do |todo|\n return todo if (todo.title =~ /#{string}/)\n end\n nil\n end", "def find_by_title(todo_title)\n select { |todo| todo.title == todo_title }.first\n end", "def todo_with_substring(substring) \n issue_todo = @remaining_todos.detect{ |t| !t.content.index(substring).nil? }\n issue_todo ||= @completed_todos.detect { |t| !t.content.index(substring).nil? }\n end", "def _get_task_by_name(task_name)\n @tasks.each do |t|\n return t if t.name == task_name\n end\n raise \"Unknown Task!\" # couldn't find it. boo.\n end", "def first(name=nil)\n name.nil? ? matches.first : find(name, false).first\n end", "def find(name)\n m = match(name)\n m.count == 1 ? m[0] : nil\n end", "def find_first(name)\n object = build(name)\n object.retrieve\n end", "def load_todo(list, id)\n list[:todos].find { |todo| todo[:id] == id }\nend", "def load_todo(id)\n @list[:todos].find { |todo| todo[:id] == id }\nend", "def find_first(name)\n find_all(name).first\n end", "def get_node_by_name(str)\n self.each_node do |node|\n if get_node_name(node) == str\n return node\n end\n end\n nil\n end", "def todo_object\n task = Todo.find_by_id(self.todo_id)\n return task\n end", "def find_by(**args)\n where(**args).first\n end", "def find_by_term(str)\n idx = @children.map(&:term).index(str)\n return nil if idx.nil?\n @children[idx]\n end", "def find_task(name)\n name = name.to_sym unless name.nil?\n @tasks[name]\n end", "def find_filename_for_todo(id)\n for filename in Dir.entries(TODOS_DIRECTORY)\n if filename.start_with?(id)\n return filename\n end\n end\nend", "def first(string)\n return string[0]\nend", "def first(c)\n if c and c.class == String\n return c\n elsif c and c.length > 0 \n return c[0]\n else\n return nil\n end\nend", "def find_by_param(param)\n with_param(param).first\n end", "def beer_search_first(arg)\n beer_search(arg).find {|beer|beer}\nend", "def first(*args)\n find(:first, *args)\n end", "def first(*args)\n find(:first, *args)\n end", "def at(search_string)\n self.search(search_string).first\n end", "def find(*args)\n if args[0].is_a?(String) && args[0].length == has_token_id_options[:length]\n record = find_by_token(args[0])\n end\n record || super(*args)\n end", "def find_single(id, *args)\n data = get(id.to_s, *args)\n return nil unless data && !data.empty?\n instantiate(id, data)\n end", "def find_node_for(str)\n c = str[0..0]\n return nil if @value==\"\" and !@children.keys.include?(c)\n if @children.keys.include?(c)\n if( str.length<=1 )\n\t ret = @children[c]\n else\n ret = @children[c].find_node_for(str[1..100])\n end\n else\n ret = self\n end\n return ret\n end", "def task(str, create_if_nil = false)\n t = tasks.find(:all).reject{|t| t.title.gsub(/\\s/,\"_\").underscore != str.to_s.gsub(/\\s/,\"_\").underscore}.first\n t = tasks.create(:title => str.to_s.humanize) if t.nil?\n t\n end", "def first(*args)\n find(:first, *args)\n end", "def party(str)\n Party.where(name: str).first\nend", "def find_by_id(id)\n @to_dos.each { |item| return item if item.id == id}\n end", "def find_object(name); end", "def pick_todo\n if Todo.allTodos.empty?\n system \"clear\"\n puts 'Please add todos, before you can edit them.'.yellow\n return main_menu\n end\n\n puts 'What todo?'\n Todo.display_todos\n todo_index = check_for_exit(gets.chomp).to_i\n Todo.new(Todo.allTodos[todo_index]);\n\nend", "def find(*args)\n find_all(*args).first\n end", "def get_node(string)\n # Let's do a case insensitive search..\n string = string.downcase()\n results = @graph.vertices[0].select { |k,v|\n d = v.description\n d.downcase().include? string\n }\n if results.count >= 1\n if results.count > 1\n puts \"WARNING: More than one node matches '#{string}'! Simply using the first one...\"\n end\n # Just use the \"first\" node available, whatever that might mean...\n node = Array(results)[0][1]\n else\n puts \"WARNING: No nodes matches '#{string}'!\"\n node = nil\n end\n return node\n end", "def find_command(command, str)\n #split on first instance of command char\n parsed = str.split(@command_char, 2)\n if parsed.first == command\n return self.parse_value(parsed.last)\n else\n return nil\n end\n end", "def find_first(*args)\n id = get_range(:count => 1, *args).first\n id && find_one(id, *args)\n end", "def find(str)\n index = items.index {|i| i.index > current_row && i.name.start_with?(str)} || items.index {|i| i.name.start_with? str}\n move_cursor index if index\n end", "def test_find_with_string\n assert_equal(Topic.find(1).title, Topic.find(\"1\").title)\n end", "def find_token_by_name(name)\n self.tokens.where(name: name.to_s).first\n end", "def find_command(command, str)\n #split on first instance of command char\n parsed = str.split(@command_char, 2)\n if parsed.first == command\n return self.parse_value(parsed.last)\n else\n return nil\n end\n end", "def task_in_todo (nb)\n t = get_todo (nb)\n if t\n task_in t.chomp\n else\n puts \"No task specified\"\n end\n end", "def first_word(input)\n # Split string into array of words and select first entry\n input.split(\" \")[0]\nend", "def task(params)\n params[\"text\"].scan(/\\w+/).first\n end", "def find_first(*paths)\n xpath(*paths).first\n end", "def find_trackable(trackable_str, trackable_id)\n trackable_str.constantize.find(trackable_id)\n end", "def find_by_token(name, token)\n token = find_token(:name => \"#{name}\", :token => token)\n token.object if token\n end", "def first(*args)\n if args.any?\n if args.first.kind_of?(Integer) ||\n (loaded? && !args.first.kind_of?(Hash))\n to_a.first(*args)\n else\n apply_finder_options(args.first).first\n end\n else\n find_first\n end\nend", "def find_by_value_str(value_str)\n value_str = value_str.to_s\n by_value.each do |value, instance|\n return instance if value_str == value.to_s\n end\n nil\n end", "def find_by_name(name)\n end", "def find_todolist\n @todolist = Todolist.find(params[:todolist_id])\n end", "def find(typed_name)\n nil\n end", "def first_token(string)\n str = string.match(@word)\n\n # Return if nothing matched.\n return nil, string if not str\n \n # If a create a new item with the data from regex. :tag is optional.\n token = Token.new(string[str.begin(:start)..str.end(:end)], str[:word], (str.names.include?('tag')? str[:tag] : nil))\n\n # puts \"TOKEN: #{token} // #{string[str.end(:end)..-1]}\"\n\n # Then return it with a section cut off the original string\n return token, string[str.end(:end)..-1]\n end", "def find_by(params = {})\n find_by_index(params) || where(params).first\n end", "def find_one_by(opts = {})\n list_all_payment_tokens(opts)[0]\n end", "def get_object(type, id)\n repo = barerepo\n return false if repo.empty?\n return repo.head.target unless id\n begin\n res = repo.lookup id\n rescue\n return false\n end\n (res.type == type) ? res : false\n end", "def get_object(type, id)\n repo = barerepo\n return false if repo.empty?\n return repo.head.target unless id\n begin\n res = repo.lookup id\n rescue\n return false\n end\n (res.type == type) ? res : false\n end", "def next_todo\n jid = redis.with { |c| c.brpoplpush('antelopes:todo', 'antelopes:doing', timeout: 1) }\n\n return if jid.nil?\n Job.new(JSON.parse(redis.with { |c| c.get(\"antelopes:job:#{jid}\") }))\n end", "def find(subcmds, param)\n param.downcase!\n for try_subcmd in subcmds do\n if (param.size >= try_subcmd.min) and\n (try_subcmd.name[0..param.size-1] == param)\n return try_subcmd\n end\n end\n return nil\n end", "def find(thing)\n case thing\n when Symbol\n find_by_tag(thing)\n when String\n find_by_string(thing)\n when Array\n find_by_string(thing.join(' '))\n when Node\n thing\n end\n end", "def find_object(path)\n path_array = path.split(/\\//)\n n = CGI::unescape(path_array.shift)\n #puts \"looking for #{n} #{path} #{path_array.inspect}\"\n \n children.each do |c|\n # look for an object with named by n\n if c.name == n\n return c if path_array.empty?\n return c.find_object(path_array.join('/'))\n end\n end\n return nil\n end", "def find(name); end", "def parent_object\n #todoable = \n # case\n # when params[:user_id] then User.find(params[:user_id])\n # when params[:project_id] then Project.find(params[:project_id])\n # #when params[:todo_template_id] then TodoTemplate.find(params[:todo_template_id])\n # end \n todoable = Project.find(params[:project_id]) if params[:project_id]\n raise ActiveRecord::RecordNotFound, \"TODO association not FOUND! \" if !todoable\n \n return todoable\n end", "def find(regexp)\n self.body[regexp] ? $1 : nil\n end", "def find name\n object = objects.find { |o| o.name == name.to_s }\n end", "def find_token(token_string)\n raise NotImplementedError\n end", "def get_entry(entry)\n selected_entry = find_entry(entry)\n raise Errno::ENOENT, entry if selected_entry.nil?\n\n selected_entry\n end", "def one(*args)\n find(:one, *args)\n end", "def find_planet_by_name(planet_name_str = \"earth\")\n @planets.each do |planet|\n if planet_name_str.upcase == planet.name.upcase\n return planet\n end\n end\n # Return false if planet not found\n return nil\n end", "def find_planet_by_name(planet_string)\n @planets.each do |planet|\n if planet_string.downcase == planet.name.downcase\n return planet\n end\n end\n return \"Planet could not be found in this solar system.\"\n end", "def find_by_title(*opts)\n find_by_titles(opts).pages.first\n end", "def find_node(*args)\n nodes = find_all_nodes(*args)\n raise AmbiguousNode if nodes.size > 1\n nodes.first\n end", "def match_command(input)\n @commands.each do |command|\n return command if command.match?(input[0])\n end\n nil\n end", "def find_resource str\n resources.find{|rsc_klass| rsc_klass.to_s == str }\n end", "def find_token(*args)\n if args.first.kind_of?(Hash)\n options = args.first\n else\n options = {\n name: args.first,\n token: args.last\n }\n end\n\n options.merge!(name: options[:name].to_s, tokenizable_type: self.name)\n Token.where(options).includes(:tokenizable).first\n end", "def find_by_valid_token(name, token)\n token = find_token(:name => name.to_s, :token => token)\n return token.object if token && token.valid_for_use?\n end", "def getTaskByID(id) \n ret = nil \n\n @Tasks.each do |task| \n ret = task if task.ID == id\n end \n end", "def find_item(str, arr)\n index = 0\n while index < arr.length\n if str == arr[index]\n arr[index]\n break\n end\n index += 1\n end\n arr[index]\nend", "def first_object(query, kwargs = {})\n objs = objects(query, kwargs)\n return objs.length > 0 ? objs[0] : nil\n end", "def find(value)\n key = \\\n if value.to_s =~ /^[0-9\\.]*$/\n default_search_param + \"id\"\n else\n default_search_param\n end\n\n where(key => value).first\n end", "def find(id)\n where({'id' => \"#{id}\"}).first\n end", "def find_one_member(event, string, check_int = false)\n return string if check_int && string == string.gsub(/\\D/, '')\n return nil unless (event.respond_to?(:message) && !event.message.mentions.empty?) || (!string.nil? && !string.empty?)\n members = self.find_members(event, string)\n if members && string && members.size > 1\n member = members.find { |member| member.display_name == string || member.username == string || member.distinct == string}\n if member\n return member\n else\n event.respond I18n.t(\"commands.common.too_many_matches\", {\n matches: members.map(&:distinct).map { |identifier| \"-#{identifier}\" }.join(\"\\n\")\n })\n nil\n end\n else\n members.first\n end\n end", "def first(*args)\n find_first_or_last(:first, *args)\n end", "def find_commentable(commentable_str, commentable_id)\n model = commentable_str.constantize\n model.respond_to?(:find_comments_for) ? model.find(commentable_id) : nil\n end", "def find(item, type = nil)\n find_by_id(item) || find_by_generic(item, type)\n end", "def find(name, default: T.unsafe(nil), **options); end", "def find_patient_by_name(patient_name)\n Patient.find_by(name: patient_name)\nend", "def get_test(test_name)\n Test.where(test_name: test_name).first\n end", "def resolve_task(name)\n name = name.to_s\n @tasks.each do |task|\n return task if task.name == name\n end\n @salticid.tasks.each do |task|\n return task if task.name == name\n end\n nil\n end", "def find_by_id_or_username!\n if input_is_id?\n find_by_id!\n else\n find_by_username!\n end\n end", "def find(data)\n @items.each do |item|\n return item if item.title == data\n end\n return nil\n end", "def find_by_id_or_username\n if input_is_id?\n find_by_id\n else\n find_by_username\n end\n end", "def find_by_id(id)\n self.select { |record| record.id == id.to_s }.first\n end", "def find_by_id(id)\n self.select { |record| record.id == id.to_s }.first\n end", "def find_one(params, field = :_id)\n return nil if params.nil? #to avoid mistakes \n return self.find(params).first if params.is_a? Hash\n\n find_one((field.to_s) => params)\n end", "def find(id, optional = {})\n find_all([id], optional).first\n end", "def find_by_slug_id(id)\n if Moped::BSON::ObjectId.legal?(id)\n Topic.find(id)\n else\n Topic.where(:slug_pretty => id.parameterize).first\n end\n end", "def item_of(id)\n\tif id == '/'\n\t\tid = '/index'\n\tend\n\tif %r{^/.+/$}.match(id)\n\t\tid = id.chop\n\tend\n\treturn @items.find { |i| i.identifier.without_ext == id }\nend", "def find_github_issue\n\n issue = github.branch_for_head.match(/(issue\\/\\d+)/)\n if issue\n return issue[1]\n end\n\nend", "def find_entry(entry_name); end", "def find_by_token(token)\n begin\n find(decode_token(token))\n rescue Hashids::InputError\n # controller should handle not found when we can't decode bad token\n return find(nil)\n end\n end" ]

[ "0.73197424", "0.7082518", "0.5925521", "0.57626754", "0.574034", "0.5645423", "0.56425625", "0.55725354", "0.5558545", "0.5493785", "0.54746956", "0.5443234", "0.5440293", "0.54157585", "0.54141414", "0.5403148", "0.5372902", "0.53702646", "0.5351545", "0.53336", "0.5288524", "0.5288524", "0.5268172", "0.52245957", "0.52096194", "0.5204554", "0.5168587", "0.513514", "0.51311165", "0.51011884", "0.5088181", "0.5077959", "0.5063933", "0.50630456", "0.5061273", "0.50436676", "0.5032975", "0.50206786", "0.5015506", "0.50125283", "0.4997687", "0.4995823", "0.49895576", "0.49791092", "0.49770322", "0.49748686", "0.49720347", "0.49619964", "0.4961385", "0.49607715", "0.49548095", "0.49530426", "0.4947067", "0.494606", "0.49445948", "0.49445948", "0.49302152", "0.4927717", "0.49203375", "0.4919951", "0.4913862", "0.4900185", "0.48992926", "0.48785946", "0.48753807", "0.48741388", "0.4859896", "0.48536545", "0.48457894", "0.48373103", "0.48361632", "0.482071", "0.48203006", "0.48136878", "0.48112997", "0.48109406", "0.48078164", "0.48051724", "0.47909176", "0.47904727", "0.47829422", "0.47734928", "0.47684807", "0.47640753", "0.4760142", "0.4751989", "0.47484982", "0.47438875", "0.47431394", "0.47403243", "0.47379997", "0.4737411", "0.4737411", "0.4730848", "0.47256193", "0.47227722", "0.47144514", "0.4713207", "0.47125798", "0.47098032" ]

[ "def get_unfinished_todos\n return Todo.where({\"user_id\" => self.id, \"completed\" => false})\n end", "def show_completed_items\n return @to_do_item.select { |x| x.is_done? == true }\n end", "def show_not_completed_items\n return @to_do_item.select { |x| x.is_done? == false }\n end", "def filtered_todos # return the current filtered todos\n TodoItem.all.select { |todo| !(todo.destroyed? or (filter == :completed and !todo.complete) or (filter == :uncompleted and todo.complete))}\n end", "def overdue\n TodosList.new(@todos.filter { |todo| todo.overdue? })\n end", "def all_not_done\n self.select { |todo| !todo.done? }\n end", "def get_completed_todos\n return Todo.where({\"user_id\" => self.id, \"completed\" => true})\n end", "def selectIncomplete\n @to_do_items.select {|item| item.done? == 'Item incomplete'}\n end", "def show_not_completed_date_items\n return @to_do_with_date.select { |x| x.is_done? == false }\n end", "def todos\n remaining_todos + completed_todos\n end", "def all_done\n select{ |todo| todo.done? }\n end", "def due_later\n TodosList.new(@todos.filter { |todo| todo.due_later? })\n end", "def selectComplete\n @to_do_items.select {|item| item.done? == 'Item complete'}\n end", "def test_all_done# #all_done returns an new TodoList object (meets criteria)\r\n @todo1.done!\r\n new_obj = @list.all_done\r\n assert_equal([@todo1], new_obj.to_a)\r\n end", "def due_today\n TodosList.new(@todos.filter { |todo| todo.due_today? })\n end", "def delete_all_completed!\n @todos = @todos.reject { |todo| todo.completed == true }\n end", "def to_do_items\n return @to_do_item\n end", "def allDone\n Todo.where(\"done = true\")\nend", "def notDone\n Todo.where(\"done = false\")\nend", "def completed_todos\n if @completed_todos.empty? && @completed_count > 0\n refresh\n end\n \n return @completed_todos\n end", "def index\n @todo_items = @todo_list.todo_items.all.order(\"completed ASC\") \n end", "def printNotDone\n notDoneList = \"\"\n @toDoListArray.each do |e|\n if !e.status\n notDoneList = notDoneList + e.printItem + \" \"\n end\n end\n notDoneList\n end", "def all_incomplete_todos\n (global_incomplete_todos + local_incomplete_todos).uniq\n end", "def get_tasks_from_todoist\n return Todoist::Task.uncompleted(PROGRAMMING_PROJECT_ID)\n end", "def get_pending\n Rutodo::Database::Todo.where(done: false).map(&:as_entity)\n end", "def update_completed\n uncompleted_items = todo_list_items.select { |e| !e.completed? }\n update(completed: true) if uncompleted_items.zero?\n end", "def incompleteItemsWithAndWithoutDates\n @due_items.sort!{|x,y| x.dueDate <=> y.dueDate}\n @due_items.select!{|item| item.done? == 'Item incomplete'}\n @to_do_items.select!{|item| item.done? == 'Item incomplete'}\n @incomplete_array = @due_items.concat(@to_do_items)\n end", "def delete\n newTodos = []\n\n @@allTodos.each { |item|\n if item['id'] != @id\n newTodos.push(item)\n end\n }\n\n @@allTodos = newTodos\n Todo.presist_data\n end", "def divide_done_todos\n done = []\n notDone = ToDo.ordered_position_done(self.id)\n self.to_dos.each do |todo|\n done << todo if todo.done? \n end\n \n return {:done => done, :notDone => notDone}\n end", "def select\n new_list = TodoList.new(\"Selected Items\")\n\n each do |todo|\n new_list.add(todo) if yield(todo)\n end\n new_list\n end", "def all_completed_todos\n (global_completed_todos + local_completed_todos).uniq\n end", "def completed_items\n new? ? Array.new : Item.completed(@id)\n end", "def index\n @todolist = Todolist.find(params[:todolist_id])\n @task = @todolist.tasks.find(params[:id])\n\n @tasks = @todolist.tasks.where(completed: false).order('created_at ASC')\n @completed_tasks = @todolist.tasks.where(completed: true).order('updated_at')\n end", "def done\n @items = Item.includes(:listings => :list).where(\"listings.deleted_at IS NOT NULL\").order('listings.deleted_at DESC').paginate(:page => params[:page])\n end", "def todos_remaining(list)\n list[:todos].count { |todo| !todo[:complete] }\n end", "def select\n counter = 0\n new_list = TodoList.new(title)\n\n while counter < @todos.length do\n if yield(@todos[counter])\n new_list << @todos[counter]\n end\n counter += 1\n end\n\n new_list\n end", "def uncompleted_items\n new? ? Array.new : Item.uncompleted(@id)\n end", "def done(item)\n @todo_list.each { |todo| todo.update_status if todo.description == item }\n end", "def list_todo_items(opts={})\n query_param_keys = [\n \n ]\n\n form_param_keys = [\n \n ]\n\n # set default values and merge with input\n options = underscored_merge_opts(opts,\n {}\n \n )\n\n # resource path\n path = path_replace(\"/v1/users/self/todo\",\n )\n headers = nil\n form_params = select_params(options, form_param_keys)\n query_params = select_params(options, query_param_keys)\n if opts[:next_page]\n pagination_params = page_params_load(:get, path)\n query_params.merge! pagination_params if pagination_params\n end\n response = mixed_request(:get, path, query_params, form_params, headers)\n page_params_store(:get, path)\n response\n \n end", "def completed_todos\n todos.completed.order('completed_time DESC')\n end", "def todo\n @tasks = TaskDecorator.decorate_collection Task.getReadyToDoTasks\n render \"v1/tasks/index\"\n end", "def select\n # new_list = TodoList.new(\"Selected Todos\")\n new_list = TodoList.new(title) # should probably keep the original title\n self.each do |todo| # don't need to use 'self.each' here (just use 'each')\n new_list.add(todo) if yield(todo)\n end\n new_list # rtn a TodoList obj\n end", "def all_todos\n (global_todos.where(language: I18n.locale).to_a.delete_if{ |gt| local_todos.map(&:title).include?(gt.title) } + local_todos)\n end", "def printDone\n doneList = \"\"\n @toDoListArray.each do |e|\n if e.status\n doneList = doneList + e.printItem + \" \"\n end\n end\n doneList\n end", "def test_finish_list_item\n list = Todo::List.new\n list.add(name: 'do this')\n list.finish('do this')\n assert_equal(true, list.tasks.first.finished?)\n end", "def to_do_list_completed?\n return @to_do_list.all? {|item| item.completion_status == true}\n end", "def all_available_todos\n (global_available_todos + local_available_todos).uniq\n end", "def filter!\n list_items(doc).reverse.each do |li|\n next if list_items(li.parent).empty?\n\n add_css_class(li.parent, 'task-list')\n\n outer, inner =\n if p = li.xpath(ItemParaSelector)[0]\n [p, p.inner_html]\n else\n [li, li.inner_html]\n end\n if match = (inner.chomp =~ ItemPattern && $1)\n item = TaskList::Item.new(match, inner)\n # prepend because we're iterating in reverse\n task_list_items.unshift item\n\n add_css_class(li, 'task-list-item')\n outer.inner_html = render_task_list_item(item)\n end\n end\n end", "def todos(project_id)\n return [] if project_id.blank? || !basecamp\n @todos[project_id] ||= Basecamp::TodoList.all(project_id, false)\n end", "def index\n @todoitems = @todolist.todoitems.order(:created_at)\n end", "def show_not_done\n task = Task.where(done: false).all\nend", "def get_finished\n Rutodo::Database::Todo.where(done: true).map(&:as_entity)\n end", "def remaining_todos\n if @remaining_todos.empty? && @remaining_count > 0\n refresh\n end\n \n return @remaining_todos\n end", "def index\n @todos = Todo.where(user_id: current_user.id). where(finish: false).offset(0).limit(PAGE_DISP_NUM).order(\"deadline DESC\")\n end", "def incomplete_tasks\n sublist { |task| task.incomplete? }.sort_by { |task| task.created_at }\n end", "def create_or_delete_todos\n return unless draft_changed?\n if draft_changed? from: true, to: false\n Course::LessonPlan::Todo.create_for(self, course.course_users)\n elsif draft_changed? from: false, to: true\n Course::LessonPlan::Todo.delete_for(self)\n end\n end", "def my_todos\r\n\t\t\t\t\tself.authored_todos | self.assigned_todos\r\n\t\t\t\tend", "def add_items!(items)\n add_items_to_queue!(:todo, items)\n end", "def index\n @todoas = Todoa.where(user_id: current_user.id,done: false).order(\"due, created_at DESC\")\n end", "def tasks_complete(list)\n completed = list[:todos].select do |item|\n item[:completed] == true\n end.size\n end", "def get_incomplete\n @task_list.select { |task| task.status == \"incomplete\" }\n end", "def index\n @listitems = @todolist.listitems\nend", "def get_completed(projectid)\n get(\"projects/#{projectid}/todolists/completed.json\")\n end", "def done?\n @todos.all? {|todo| todo.done? }\n end", "def incomplete_tasks\n\t\ttasks.select{ |t| !t.completed? }\n\tend", "def lists(project_id, complete=nil)\n records \"todo-list\", \"/projects/#{project_id}/todos/lists\", :complete => complete\n end", "def listNotDue\n Todo.where(\"duedate is null\")\nend", "def listAllDue\n Todo.where(\"duedate is not null\")\nend", "def get_items(projectid, todolistid)\n get(\"projects/#{projectid}/todolists/#{todolistid}.json\")\n end", "def task_list_items\n result[:task_list_items] ||= []\n end", "def mark_as_done(todo)\n @data_object.aff_to_do &= ~todo\n end", "def handle_todos\n yield\n\n if has_todo\n existing_todo_user_ids = todos.pluck(:user_id)\n course_users = CourseUser.where(course_id: course_id).where.not(user_id: existing_todo_user_ids)\n Course::LessonPlan::Todo.create_for!(self, course_users)\n else\n todos.not_started.not_ignored.delete_all\n end\n end", "def not_completed_due_today\n @not_done = @to_do_with_date.select { |x| x.is_done? == false }\n return @not_done.select { |x| x.due_date == Date.today }\n end", "def status\n TodoStatus::PENDING\n end", "def index\n @todo_items = TodoItem.all\n \n \n # Collect completed tasks\n # block starts ============================\n complete = []\n @todo_items.each do |item|\n if item[:complete] == true\n complete << item \n end\n end\n # block ends ============================\n\n @completed_items = complete.count\n @all_items = @todo_items.count\n\n # Define percentage of completed tasks\n # block starts ============================\n if @all_items > 0\n percentage = (@completed_items).to_f/(@all_items).to_f * 100\n @progress = \"#{percentage}%\"\n end\n # block ends ============================\n\n\n # Define high priority items. Priority are items that are due today.\n\n priority = []\n @todo_items.each do |item|\n today = Date.today.to_s\n if item[:due].to_s == today\n priority << item\n end\n end\n\n @todays_tasks = priority.map(&:task)\n\n\n tomorrow_array = []\n @todo_items.each do |item|\n tomorrow = Date.tomorrow.to_s\n if item[:due].to_s == tomorrow\n tomorrow_array << item\n end\n end\n\n @tomorrows_tasks = tomorrow_array.map(&:task)\n\n end", "def tickler_todos\n todos.ticklers.order('completed_time DESC')\n end", "def index\n @todoit_lists = TodoitList.all\n end", "def index\n @to_do = current_user.stuk_todo_tasks.where(state: 'to_do')\n @doing = current_user.stuk_todo_tasks.where(state: 'doing')\n @done = current_user.stuk_todo_tasks.where(state: 'done')\n end", "def active_todos\n todos.active.order('created_at DESC')\n end", "def complete(to_do_item)\n response = to_do_item\n response[:complete] = true\n response\n end", "def setDone(id)\n new_item = List.find(id)\n new_item.done = true\n new_item.save\n end", "def show_done\n task = Task.where(done: true).all\nend", "def todo_list\n TodoList.find_by(user_id: current_user['sub'])\n end", "def items\n response = @client.request :get, \"#{LISTS_PATH}/#{@id}\"\n raise(StandardError, 'unexpected response') unless response\n response['items']&.map { |i| TodoableItem.new self, i, @client }\n end", "def index\n @to_dos = ToDo.all\n end", "def user_todos user_id=\"self\", options={}\n response = get(\"/lists/#{user_id}/todos\", options)[\"response\"]\n Foursquared::Response::List.new(self, response[\"list\"])\n end", "def set_todo_list\n begin\n @todo_list = current_user.todo_lists.where(project_id: params[:project_id]).find(params[:id])\n rescue => exception\n head 401\n end\n end", "def index\n @todolists = Todolist.all\nend", "def flatten_todos(my_todos)\n\t\treturn [] if not my_todos or my_todos.size == 0\n\t\ttodos = []\n\t\tmy_todos.each do |todo|\n\t\t\tmatch = false\n\t\t\ttodos.each do |existing_todo|\n\t\t\t\tif existing_todo.compare(todo)\n\t\t\t\t\texisting_todo.add_jobs(todo.get_jobs)\n\t\t\t\t\tmatch = true\n\t\t\t\tend\n\t\t\tend\n\t\t\tif not match\n\t\t\t\ttodos.push(todo)\n\t\t\tend\n\t\tend\n\t\ttodos\n\tend", "def todo?\n self.status == Task.todo_status\n end", "def incomplete_tasks\n # Give me all the tasks such that the task is incomplete\n @tasks.select { |task| task.incomplete? }.sort_by { |task| task.created_at }\n end", "def home\n @todos = Todo.all\n @todos = Todo.ready if params[:todo_filters].eql? 'ready'\n @todos = Todo.not_ready if params[:todo_filters].eql? 'not_ready'\n @todos.order(:created_at)\n end", "def set_todo_item\n @todo_list.todo_items.find(:id)\n end", "def delete_finished\n Rutodo::Database::Todo.where(done: true).delete\n end", "def get(id:)\n list = client.get_list(id: id)\n\n Todoable::List.new(list)\n end", "def items\n reload unless attributes[\"items\"]\n\n @_items ||= Array(attributes[\"items\"]).map do |item|\n item[\"list_id\"] = @id\n\n Todoable::Item.new(item)\n end\n\n @_items\n end", "def add_an_item\n item = Item.new\n item.description = \"Task number #{to_do_list.size+1}\"\n to_do_list << item\n end", "def mark_all_done\n self.each { |todo| todo.done! }\n end", "def todo_object\n task = Todo.find_by_id(self.todo_id)\n return task\n end", "def dueToday\n dueTodayList = \"\"\n @toDoListArray.each do |e|\n if !e.status && e.dueDate == Date.today\n dueTodayList = dueTodayList + e.printItem + \" \"\n end\n end\n dueTodayList\n end" ]

[ "0.7290903", "0.72537297", "0.7240629", "0.69705564", "0.6903398", "0.6888046", "0.68777454", "0.6823541", "0.6741669", "0.6654324", "0.66469", "0.6644124", "0.6602716", "0.6586828", "0.6537656", "0.65038025", "0.64412826", "0.64242834", "0.6396058", "0.6392591", "0.63877255", "0.6356743", "0.6355342", "0.6322614", "0.6320914", "0.6297945", "0.6282412", "0.62640524", "0.6254058", "0.6197435", "0.61326075", "0.61268324", "0.61224043", "0.6099053", "0.6097693", "0.60801935", "0.6071096", "0.60596836", "0.6053223", "0.6050199", "0.6042015", "0.60310066", "0.6024526", "0.6022248", "0.59982795", "0.5991593", "0.5972336", "0.5945105", "0.5926317", "0.5919643", "0.5902815", "0.588993", "0.58816224", "0.5868325", "0.58635104", "0.5857225", "0.5854902", "0.5846369", "0.58414316", "0.5807875", "0.5804424", "0.5796084", "0.57920235", "0.5784192", "0.57791346", "0.57788074", "0.57781684", "0.5765245", "0.5756054", "0.5746461", "0.57444143", "0.573036", "0.5721389", "0.57187515", "0.57149047", "0.57122755", "0.5709498", "0.5703609", "0.5700522", "0.5699501", "0.5686951", "0.5679439", "0.566562", "0.5663575", "0.56435555", "0.5609287", "0.55943507", "0.5582356", "0.55823386", "0.5575787", "0.5575012", "0.5558621", "0.555266", "0.5552484", "0.55511016", "0.5548676", "0.5535756", "0.55265945", "0.55179477", "0.55083126" ]

[ "def show_not_completed_items\n return @to_do_item.select { |x| x.is_done? == false }\n end", "def get_unfinished_todos\n return Todo.where({\"user_id\" => self.id, \"completed\" => false})\n end", "def show_not_completed_date_items\n return @to_do_with_date.select { |x| x.is_done? == false }\n end", "def overdue\n TodosList.new(@todos.filter { |todo| todo.overdue? })\n end", "def filtered_todos # return the current filtered todos\n TodoItem.all.select { |todo| !(todo.destroyed? or (filter == :completed and !todo.complete) or (filter == :uncompleted and todo.complete))}\n end", "def show_completed_items\n return @to_do_item.select { |x| x.is_done? == true }\n end", "def selectIncomplete\n @to_do_items.select {|item| item.done? == 'Item incomplete'}\n end", "def uncompleted_items\n new? ? Array.new : Item.uncompleted(@id)\n end", "def notDone\n Todo.where(\"done = false\")\nend", "def due_later\n TodosList.new(@todos.filter { |todo| todo.due_later? })\n end", "def incompleteItemsWithAndWithoutDates\n @due_items.sort!{|x,y| x.dueDate <=> y.dueDate}\n @due_items.select!{|item| item.done? == 'Item incomplete'}\n @to_do_items.select!{|item| item.done? == 'Item incomplete'}\n @incomplete_array = @due_items.concat(@to_do_items)\n end", "def get_tasks_from_todoist\n return Todoist::Task.uncompleted(PROGRAMMING_PROJECT_ID)\n end", "def listNotDue\n Todo.where(\"duedate is null\")\nend", "def all_incomplete_todos\n (global_incomplete_todos + local_incomplete_todos).uniq\n end", "def printNotDone\n notDoneList = \"\"\n @toDoListArray.each do |e|\n if !e.status\n notDoneList = notDoneList + e.printItem + \" \"\n end\n end\n notDoneList\n end", "def due_today\n TodosList.new(@todos.filter { |todo| todo.due_today? })\n end", "def get_completed_todos\n return Todo.where({\"user_id\" => self.id, \"completed\" => true})\n end", "def to_do_items\n return @to_do_item\n end", "def get_pending\n Rutodo::Database::Todo.where(done: false).map(&:as_entity)\n end", "def todos\n remaining_todos + completed_todos\n end", "def all_done\n self.select { |todo| todo.done? }\n end", "def listAllDue\n Todo.where(\"duedate is not null\")\nend", "def incomplete_tasks\n sublist { |task| task.incomplete? }.sort_by { |task| task.created_at }\n end", "def all_done\n select{ |todo| todo.done? }\n end", "def incomplete_tasks\n\t\ttasks.select{ |t| !t.completed? }\n\tend", "def add_items!(items)\n add_items_to_queue!(:todo, items)\n end", "def show_not_done\n task = Task.where(done: false).all\nend", "def delete_all_completed!\n @todos = @todos.reject { |todo| todo.completed == true }\n end", "def proper_items\n items.where.not(sort: ['self', 'pdf_destination'])\n .where.not(start_time: nil)\n end", "def allDone\n Todo.where(\"done = true\")\nend", "def update_completed\n uncompleted_items = todo_list_items.select { |e| !e.completed? }\n update(completed: true) if uncompleted_items.zero?\n end", "def index\n @todo_items = @todo_list.todo_items.all.order(\"completed ASC\") \n end", "def selectComplete\n @to_do_items.select {|item| item.done? == 'Item complete'}\n end", "def not_completed_due_today\n @not_done = @to_do_with_date.select { |x| x.is_done? == false }\n return @not_done.select { |x| x.due_date == Date.today }\n end", "def test_all_done# #all_done returns an new TodoList object (meets criteria)\r\n @todo1.done!\r\n new_obj = @list.all_done\r\n assert_equal([@todo1], new_obj.to_a)\r\n end", "def delete\n newTodos = []\n\n @@allTodos.each { |item|\n if item['id'] != @id\n newTodos.push(item)\n end\n }\n\n @@allTodos = newTodos\n Todo.presist_data\n end", "def filter!\n list_items(doc).reverse.each do |li|\n next if list_items(li.parent).empty?\n\n add_css_class(li.parent, 'task-list')\n\n outer, inner =\n if p = li.xpath(ItemParaSelector)[0]\n [p, p.inner_html]\n else\n [li, li.inner_html]\n end\n if match = (inner.chomp =~ ItemPattern && $1)\n item = TaskList::Item.new(match, inner)\n # prepend because we're iterating in reverse\n task_list_items.unshift item\n\n add_css_class(li, 'task-list-item')\n outer.inner_html = render_task_list_item(item)\n end\n end\n end", "def completed_items\n new? ? Array.new : Item.completed(@id)\n end", "def all_available_todos\n (global_available_todos + local_available_todos).uniq\n end", "def get_incomplete\n @task_list.select { |task| task.status == \"incomplete\" }\n end", "def all_todos\n (global_todos.where(language: I18n.locale).to_a.delete_if{ |gt| local_todos.map(&:title).include?(gt.title) } + local_todos)\n end", "def all_completed_todos\n (global_completed_todos + local_completed_todos).uniq\n end", "def task_list_items\n result[:task_list_items] ||= []\n end", "def list_todo_items(opts={})\n query_param_keys = [\n \n ]\n\n form_param_keys = [\n \n ]\n\n # set default values and merge with input\n options = underscored_merge_opts(opts,\n {}\n \n )\n\n # resource path\n path = path_replace(\"/v1/users/self/todo\",\n )\n headers = nil\n form_params = select_params(options, form_param_keys)\n query_params = select_params(options, query_param_keys)\n if opts[:next_page]\n pagination_params = page_params_load(:get, path)\n query_params.merge! pagination_params if pagination_params\n end\n response = mixed_request(:get, path, query_params, form_params, headers)\n page_params_store(:get, path)\n response\n \n end", "def select\n new_list = TodoList.new(\"Selected Items\")\n\n each do |todo|\n new_list.add(todo) if yield(todo)\n end\n new_list\n end", "def incomplete_tasks\n # Give me all the tasks such that the task is incomplete\n @tasks.select { |task| task.incomplete? }.sort_by { |task| task.created_at }\n end", "def create_or_delete_todos\n return unless draft_changed?\n if draft_changed? from: true, to: false\n Course::LessonPlan::Todo.create_for(self, course.course_users)\n elsif draft_changed? from: false, to: true\n Course::LessonPlan::Todo.delete_for(self)\n end\n end", "def index\n @todolist = Todolist.find(params[:todolist_id])\n @task = @todolist.tasks.find(params[:id])\n\n @tasks = @todolist.tasks.where(completed: false).order('created_at ASC')\n @completed_tasks = @todolist.tasks.where(completed: true).order('updated_at')\n end", "def divide_done_todos\n done = []\n notDone = ToDo.ordered_position_done(self.id)\n self.to_dos.each do |todo|\n done << todo if todo.done? \n end\n \n return {:done => done, :notDone => notDone}\n end", "def todos_remaining(list)\n list[:todos].count { |todo| !todo[:complete] }\n end", "def index\n @todoitems = @todolist.todoitems.order(:created_at)\n end", "def select\n counter = 0\n new_list = TodoList.new(title)\n\n while counter < @todos.length do\n if yield(@todos[counter])\n new_list << @todos[counter]\n end\n counter += 1\n end\n\n new_list\n end", "def show_due_tasks\n task = Task.where.not(due_date: nil).all\nend", "def select\n # new_list = TodoList.new(\"Selected Todos\")\n new_list = TodoList.new(title) # should probably keep the original title\n self.each do |todo| # don't need to use 'self.each' here (just use 'each')\n new_list.add(todo) if yield(todo)\n end\n new_list # rtn a TodoList obj\n end", "def my_todos\r\n\t\t\t\t\tself.authored_todos | self.assigned_todos\r\n\t\t\t\tend", "def index\n @lists = List.includes(:items).not_deleted\n end", "def status\n TodoStatus::PENDING\n end", "def todo\n @tasks = TaskDecorator.decorate_collection Task.getReadyToDoTasks\n render \"v1/tasks/index\"\n end", "def done\n @items = Item.includes(:listings => :list).where(\"listings.deleted_at IS NOT NULL\").order('listings.deleted_at DESC').paginate(:page => params[:page])\n end", "def handle_todos\n yield\n\n if has_todo\n existing_todo_user_ids = todos.pluck(:user_id)\n course_users = CourseUser.where(course_id: course_id).where.not(user_id: existing_todo_user_ids)\n Course::LessonPlan::Todo.create_for!(self, course_users)\n else\n todos.not_started.not_ignored.delete_all\n end\n end", "def not_complete_by_date\n @not_done = show_not_completed_date_items\n return @not_done.sort_by {|x| x.due_date }\n end", "def index\n @listitems = @todolist.listitems\nend", "def items\n response = @client.request :get, \"#{LISTS_PATH}/#{@id}\"\n raise(StandardError, 'unexpected response') unless response\n response['items']&.map { |i| TodoableItem.new self, i, @client }\n end", "def todo_list\n TodoList.find_by(user_id: current_user['sub'])\n end", "def completed_todos\n if @completed_todos.empty? && @completed_count > 0\n refresh\n end\n \n return @completed_todos\n end", "def invalid_items\n @items.select { |item| item.valid == false }\n end", "def get_items(projectid, todolistid)\n get(\"projects/#{projectid}/todolists/#{todolistid}.json\")\n end", "def completed_todos\n todos.completed.order('completed_time DESC')\n end", "def flatten_todos(my_todos)\n\t\treturn [] if not my_todos or my_todos.size == 0\n\t\ttodos = []\n\t\tmy_todos.each do |todo|\n\t\t\tmatch = false\n\t\t\ttodos.each do |existing_todo|\n\t\t\t\tif existing_todo.compare(todo)\n\t\t\t\t\texisting_todo.add_jobs(todo.get_jobs)\n\t\t\t\t\tmatch = true\n\t\t\t\tend\n\t\t\tend\n\t\t\tif not match\n\t\t\t\ttodos.push(todo)\n\t\t\tend\n\t\tend\n\t\ttodos\n\tend", "def items\n reload unless attributes[\"items\"]\n\n @_items ||= Array(attributes[\"items\"]).map do |item|\n item[\"list_id\"] = @id\n\n Todoable::Item.new(item)\n end\n\n @_items\n end", "def not_closed_lists\n List.not_closed(id)\n end", "def selectIncompleteDueDate\n @due_items.select{|item| item.dueToday? && item.done? == 'Item incomplete'}\n end", "def todos(project_id)\n return [] if project_id.blank? || !basecamp\n @todos[project_id] ||= Basecamp::TodoList.all(project_id, false)\n end", "def index\n @todoit_lists = TodoitList.all\n end", "def add_an_item\n item = Item.new\n item.description = \"Task number #{to_do_list.size+1}\"\n to_do_list << item\n end", "def remaining_todos\n if @remaining_todos.empty? && @remaining_count > 0\n refresh\n end\n \n return @remaining_todos\n end", "def client_tasks_overdue\n self.find_all {|e| (e.completed.nil? or !e.completed) and e.complete_by < Time.zone.now }\n end", "def index\n @todoas = Todoa.where(user_id: current_user.id,done: false).order(\"due, created_at DESC\")\n end", "def todo?\n self.status == Task.todo_status\n end", "def filter(items)\r\n\tnew_items = Array.new\r\n\titems.each { |item| new_items.push(item) unless should_ban(item) }\r\n\tnew_items\r\nend", "def done(item)\n @todo_list.each { |todo| todo.update_status if todo.description == item }\n end", "def index\n @todo_items = TodoItem.all\n \n \n # Collect completed tasks\n # block starts ============================\n complete = []\n @todo_items.each do |item|\n if item[:complete] == true\n complete << item \n end\n end\n # block ends ============================\n\n @completed_items = complete.count\n @all_items = @todo_items.count\n\n # Define percentage of completed tasks\n # block starts ============================\n if @all_items > 0\n percentage = (@completed_items).to_f/(@all_items).to_f * 100\n @progress = \"#{percentage}%\"\n end\n # block ends ============================\n\n\n # Define high priority items. Priority are items that are due today.\n\n priority = []\n @todo_items.each do |item|\n today = Date.today.to_s\n if item[:due].to_s == today\n priority << item\n end\n end\n\n @todays_tasks = priority.map(&:task)\n\n\n tomorrow_array = []\n @todo_items.each do |item|\n tomorrow = Date.tomorrow.to_s\n if item[:due].to_s == tomorrow\n tomorrow_array << item\n end\n end\n\n @tomorrows_tasks = tomorrow_array.map(&:task)\n\n end", "def todo_object\n task = Todo.find_by_id(self.todo_id)\n return task\n end", "def get(id:)\n list = client.get_list(id: id)\n\n Todoable::List.new(list)\n end", "def active_todos\n todos.active.order('created_at DESC')\n end", "def get_todo model, cohort\n return [] unless model && cohort\n ids = adminned_memberships_by_tag(cohort).map(&:id)\n records = model.where(membership_id: ids).todo\n end", "def show\n @tasks=@list.tasks.where.not(\"estado = ?\",\"expirada\").order(:prioridad)\n end", "def unfulfilled_line_items\n return self.order_line_items.where('status != ?', 'shipped').all\n end", "def index\n @todos = Todo.where(user_id: current_user.id). where(finish: false).offset(0).limit(PAGE_DISP_NUM).order(\"deadline DESC\")\n end", "def tickler_todos\n todos.ticklers.order('completed_time DESC')\n end", "def selectIncompleteOrderByDate\n @due_items.sort!{|x,y| x.dueDate <=> y.dueDate}\n @due_items.select{|item| item.done? == 'Item incomplete'}\n end", "def index\n @incomplete_tasks = Task.where(complete: false)\n @complete_tasks = Task.where(complete: true) \n end", "def index\n @to_do = current_user.stuk_todo_tasks.where(state: 'to_do')\n @doing = current_user.stuk_todo_tasks.where(state: 'doing')\n @done = current_user.stuk_todo_tasks.where(state: 'done')\n end", "def without_approvals(items)\n items.without_approvals\n end", "def index\n @tasks = @list.tasks.where(\"type = ?\",\"TaskTemp\").where.not(\"estado = ?\",\"expirada\").order(:prioridad)\n end", "def mark_all_undone\n self.each { |todo| todo.undone! }\n end", "def mark_as_done(todo)\n @data_object.aff_to_do &= ~todo\n end", "def not_completed_all_by_month\n #calls the not_completed function to hopefully set a not_completed_with_date list containing a sorted list of tasks that HAVE dates\n not_completed\n return_list = []\n #check if each item in the list is in the current month\n @not_completed_with_date.each do |a|\n b = Date.strptime(\"#{a.date}\")\n if b.mon == Date.today.mon\n return_list << a\n end\n end\n return_list\n end", "def remove_item_list\n if @listing.job? \n ['Filled Position', 'Removed Job']\n elsif @listing.event? \n ['Event Cancelled', 'Event Ended']\n else\n ['Changed Mind', 'Donated Item', 'Gave Away Item', 'Sold Item']\n end\n end", "def list_items_inactive\r\n return_list = Array.new\r\n for s in self.item_list\r\n if !s.is_active?\r\n return_list.push(s)\r\n end\r\n end\r\n return return_list\r\n end" ]

[ "0.753549", "0.7284123", "0.7018296", "0.7009293", "0.6946318", "0.6780821", "0.6768124", "0.66947544", "0.66900605", "0.66564363", "0.6634344", "0.660676", "0.65365374", "0.65075624", "0.64729244", "0.64450496", "0.6402285", "0.63112044", "0.6288424", "0.6198829", "0.61909515", "0.6151146", "0.6097817", "0.6087513", "0.608126", "0.607518", "0.6048089", "0.59943354", "0.59782875", "0.59686404", "0.59640956", "0.59488636", "0.5948408", "0.5945197", "0.5944007", "0.59348136", "0.593403", "0.59303206", "0.5923795", "0.5907108", "0.5844603", "0.5837274", "0.58305264", "0.58092624", "0.5796758", "0.5752322", "0.5750458", "0.5742366", "0.57407504", "0.57270414", "0.5721906", "0.57197917", "0.57122666", "0.5682798", "0.56756276", "0.56604624", "0.5637214", "0.56345105", "0.56169", "0.5609146", "0.5606865", "0.56029207", "0.55966115", "0.5593497", "0.55809337", "0.5571898", "0.5569927", "0.556412", "0.555061", "0.55466056", "0.55446315", "0.55173194", "0.5509162", "0.55074775", "0.5498314", "0.5493565", "0.5478939", "0.5475455", "0.5461019", "0.54606813", "0.5453886", "0.544336", "0.5442071", "0.5435491", "0.54292107", "0.5399057", "0.5396585", "0.538499", "0.5376278", "0.53705657", "0.53586423", "0.5355775", "0.53515613", "0.5349029", "0.5341517", "0.53403735", "0.5329796", "0.5326141", "0.53243405", "0.5318496" ]

[ "def mark_done(string)\n @todos.each do |todo|\n todo.done! if (todo.title =~ /#{string}/)\n end\n end", "def mark_todo\n puts \"Which todo have you finished?\"\n action = get_input.to_i\n arr_index = 0\n @todos.each do |x|\n if x[\"completed\"] == \"no\"\n arr_index = arr_index + 1\n if arr_index == action\n x[\"completed\"] = \"yes\"\n save!\n break\n end\n end\n end\n end", "def mark_as_done(todo)\n @data_object.aff_to_do &= ~todo\n end", "def done(item)\n @todo_list.each { |todo| todo.update_status if todo.description == item }\n end", "def task_in_todo (nb)\n t = get_todo (nb)\n if t\n task_in t.chomp\n else\n puts \"No task specified\"\n end\n end", "def complete_todo\n cli.die \"That task is already completed!\" if @todo.completed?\n @todo.complete!\n puts \"#{@todo.label}: '#{@todo.todo}' marked as completed at #{@todo.stop}\"\n end", "def markDone(id)\n item = Todo.find(id)\n item.done = true\n item.save\nend", "def todo_with_substring(substring) \n issue_todo = @remaining_todos.detect{ |t| !t.content.index(substring).nil? }\n issue_todo ||= @completed_todos.detect { |t| !t.content.index(substring).nil? }\n end", "def find_and_mark_done(name)\n item = items.find{|e| e.name == name}\n puts \"finding |#{name}|\"\n if item\n item.mark_done!\n else\n puts \"item not found: #{name}\"\n end\n end", "def test_finish_list_item\n list = Todo::List.new\n list.add(name: 'do this')\n list.finish('do this')\n assert_equal(true, list.tasks.first.finished?)\n end", "def markDone\n if @complete == \"Item incomplete\"\n @complete = \"Item complete\"\n else\n @complete = \"Item complete\"\n end\n end", "def change_to_todo\n @task = Task.find(params[:id])\n @task.done = false\n @task.save\n redirect_to root_path\nend", "def next_todo\n jid = redis.with { |c| c.brpoplpush('antelopes:todo', 'antelopes:doing', timeout: 1) }\n\n return if jid.nil?\n Job.new(JSON.parse(redis.with { |c| c.get(\"antelopes:job:#{jid}\") }))\n end", "def add_todo(string)\n write_message(:todo, string)\n end", "def set_complete(name)\n\t\tif index = find_index(name)\n\t\t\ttodo_items[index].set_complete!\n\t\t\treturn true\n\t\telse\n\t\t\treturn false\n\t\tend\n\tend", "def finish\n question = 'Are you done with this task? [yes/no] :'\n if ret = !! Readline.readline(question).match(/^yes/i)\n @issue.mark_finished!\n @issue.save\n end\n ret end", "def done!\n @todos.each {|todo| todo.done! }\n end", "def setDone(id)\n new_item = List.find(id)\n new_item.done = true\n new_item.save\n end", "def mark_complete(name)\n this_item = find_index(name)\n #if this_item == nil\n # puts \"...item not listed...\"\n if /\\D/.match(name) || /^$/.match(name)\n @todo_items[this_item].mark_complete!\n elsif /\\d/.match(name)\n complete_item_by_index(name)\n else\n puts \"\\n\"\n puts \"!!! You gotta give me either the index or the list item.\"\n @out_of_bounds = true\n end\n end", "def finish!\n Todoable.client.put(\"#{path}/finish\")\n true\n end", "def pick_todo\n if Todo.allTodos.empty?\n system \"clear\"\n puts 'Please add todos, before you can edit them.'.yellow\n return main_menu\n end\n\n puts 'What todo?'\n Todo.display_todos\n todo_index = check_for_exit(gets.chomp).to_i\n Todo.new(Todo.allTodos[todo_index]);\n\nend", "def mark_completed\n puts 'Enter task number(ID), please'\n\n entered_id = get_id_input\n\n if @tasks[entered_id]\n\n @tasks[entered_id].status = 'completed'\n\n else\n\n no_entry_message\n\n end\n\n end", "def mark_tip_todo tip_id\n response = post(\"/tips/#{tip_id}/marktodo\")[\"response\"]\n Foursquared::Response::Todo.new(self, response[\"todo\"])\n end", "def start_todo\n cli.die \"That task is already started!\" if @todo.started?\n @todo.start!\n puts \"#{@todo.label}: '#{@todo.todo}' marked as started at #{@todo.start}\"\n end", "def find_by_title(str)\n self.each do |todo|\n return todo if todo.title == str\n end\n nil\n # select { |todo| todo.title == str }.first # alt from solution\n end", "def update\n @todo = Todoo.find(params[:id])\n if @todo.update_attribute(:done, true)\n redirect_to todoo_index_path, :notice => \"Your todo item was marked as done!\"\n else\n redirect_to todoo_index_path, :notice => \"We are unable to mark the todo item as done!\" \n end\nend", "def mark_todo_item_finished(item_id, list_id)\n rest(\"put\", \"lists/#{list_id}/items/#{item_id}/finish\")\n end", "def find_by_title(string)\n @todos.each do |todo|\n return todo if (todo.title =~ /#{string}/)\n end\n nil\n end", "def mark_done(db, id)\n db.execute(\"UPDATE todolist SET done=? WHERE id=?\", [\"true\", id])\nend", "def todo() \n if $active\n $active=ask(\"Already Active ?!\") \n return if $active\n end\n $todo=eval File.read($todoName) if File.exists?($todoName)\n $active=true\n todo1()\n end", "def complete(to_do_item)\n response = to_do_item\n response[:complete] = true\n response\n end", "def check(id_string)\n set_done(id_string, true)\n #checking all other tasks with same name/description as the newly checked task which id is id_string\n id = id_string.to_i\n @tasks.each { |project_name, project_tasks|\n project_tasks.each { |task|\n if task.id == id\n @tasks.each do |project_name, project_tasks|\n project_tasks.each do |t|\n if t.description == task.description\n set_done(t.id.to_s, true)\n end\n end\n end\n end\n }\n }\n end", "def mark_all_done\n self.each { |todo| todo.done! }\n end", "def set_done(id)\n task = Task.find(id)\n task.done = true\n task.save\nend", "def todo_tag(text); end", "def task_case(task, todo)\n system \"clear\"\n case task\n when '-c'\n toggle_complete(todo, true)\n when '-u'\n toggle_complete(todo, false)\n when '-d'\n system \"clear\"\n puts \"Deleted Todo: #{todo.content}\"\n todo.delete\n edit_menu\n when '-e'\n system \"clear\"\n puts \"Please submit your changes: \"\n todo.content = check_for_exit(gets.chomp)\n todo.save\n\n system \"clear\"\n puts \"Updated todo to #{todo.content}\"\n edit_menu\n\n when '-da'\n system \"clear\"\n puts \"Deleted all todos\".red\n Todo.delete_all\n main_menu\n when '-m'\n system \"clear\"\n main_menu\n when 'q'\n system \"clear\"\n exit\n end\nend", "def mark_as_done!\n @done = true\n end", "def complete!(index)\n todo = find_by_index(index)\n todo.complete! # modify memory that just happens to be in @todos\n end", "def test_todo_already_on_list_message\n goal = \"\\\"#{@todo1}\\\" is already on this list.\"\n assert_equal(goal, @list.add(@todo1))\n end", "def delete_finished\n Rutodo::Database::Todo.where(done: true).delete\n end", "def change_to_done\n @task = Task.find(params[:id])\n @task.done = true\n @task.save\n redirect_to root_path\nend", "def venue_marktodo(id, options = {})\n post(\"venues/#{id}/marktodo\").todo\n end", "def set_done\n @done = Done.find(params[:id])\n end", "def uncheck(id_string)\n set_done(id_string, false)\n #checking all other tasks with same name/description as the newly unchecked task which id is 'id_string'\n id = id_string.to_i\n @tasks.each { |project_name, project_tasks|\n project_tasks.each { |task|\n if task.id == id\n # puts 'here1'\n @tasks.each do |project_name, project_tasks|\n project_tasks.each do |t|\n if t.description == task.description\n set_done(t.id.to_s, false)\n # puts 'here2'\n # puts task.done\n # puts t.done\n end\n end\n end\n end\n }\n\n }\n end", "def mark_done\n @done = true\n end", "def update\n @todo = Todo.find(params[:id])\n \n if params[:todo][:done]\n \n if params[:todo][:done].to_s == \"true\" \n res = \"done\"\n params[:todo][:done_at] = Time.now\n else \n res = \"undone\"\n params[:todo][:done_at] = nil\n end\n tl(\"Todo\",@todo.id,'This todo has been marked ' + res,\n (@todo.topic.name rescue nil),'todo',@todo.assigned_by)\n else\n tl(\"Todo\",@todo.id,'This todo has been updated',\n (@todo.topic.name rescue nil),'todo',@todo.assigned_to)\n end\n \n respond_to do |format|\n if @todo.update_attributes(params[:todo])\n format.html { redirect_to @todo, notice: 'Todo was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @todo.errors, status: :unprocessable_entity }\n end\n end\n end", "def mark_done\n self.done_at = Time.now\n end", "def todo?\n self.status == Task.todo_status\n end", "def mark_as_completed\n completed_at.nil? ? self.completed = true : errors.add(:completed, '- This task has already been completed!')\n end", "def mark_tip_done tip_id\n response = post(\"/tips/#{tip_id}/markdone\")[\"response\"]\n Foursquared::Response::Tip.new(self, response[\"tip\"])\n end", "def complete\n if @todo_item.update_attribute(:completed, 1)\n flash[:success] = \"todo item marked as completed\"\n redirect_to todo_path(@todo)\n else\n flash[:error] = \"failed to mark item as completed\"\n render 'todos/show'\n end\n end", "def mark_as_done\n @is_done = true\n end", "def done?\n @todos.all? {|todo| todo.done? }\n end", "def new_task(task)\n loop do\n puts \"What do you need to do in order to #{task}?\"\n input = gets.chomp\n if input == \"nothing\" || input == \"done\" || input == \"next\"\n break\n else\n new_task(input)\n end\n end\nend", "def selectComplete\n @to_do_items.select {|item| item.done? == 'Item complete'}\n end", "def find_by_title(todo_title)\n select { |todo| todo.title == todo_title }.first\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def delete_todo(todo)\n response = Logan::Client.delete \"/projects/#{@project_id}/todos/#{todo.id}.json\"\n end", "def mark_as_done!\n @status = :finished\n end", "def set_todo\n @todo = Todo.global.find(params[:id])\n end", "def start name\n TodoRunner.start = name\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def set_todo_task\n @todo_task = Todo::Task.find(params[:id])\n end", "def toggle_check\n item = Todo.find(params[\"id\"])\n\n # change the done flag. ActiveRecord\n # will automatically do the boolean/int\n # conversion. \n item.done = !item.done?\n\n if item.save\n redirect_to(:action => \"list\")\n else\n render :text => \"Couldn't update item\" \n end\nend", "def test_mark_all_done\n @list.mark_all_done\n assert(@todos.all? { |todo| todo.done? }) # this assertion was tested in #test_done!\n end", "def done(index)\n item = @items[index.to_i-1]\n item.context = '@done'\n save\n item\n end", "def set_not_done(id)\n task = Task.find(id)\n task.done=false\n task.save\nend", "def set_todo\n @todo = Todo.find(params[:id])\n end", "def done?\n done == 'Y'\n end", "def test_all_done# #all_done returns an new TodoList object (meets criteria)\r\n @todo1.done!\r\n new_obj = @list.all_done\r\n assert_equal([@todo1], new_obj.to_a)\r\n end", "def save\n todo = { 'content' => @content, 'id' => @id, 'is_completed' => @is_completed }\n found_todo = Todo.findTodo(@id)\n\n if found_todo.empty?\n @@allTodos.push(todo)\n return Todo.presist_data\n end\n Todo.edit(todo)\n Todo.presist_data\n end", "def update(todo)\n todo = Rutodo::Database::Todo[todo.id].set(\n title: todo.title,\n description: todo.description,\n done: todo.status == :finished\n )\n\n todo.save_changes\n\n todo.as_entity\n end", "def task_complete?(str, create_if_nil = false)\n task(str, create_if_nil).nil? ? false : task(str, create_if_nil).complete?\n end", "def set_todo\n @todo = @project.todos.find(params[:id])\n end", "def stop_start(target_tag, opt)\n opt ||= {}\n tag = target_tag.dup\n opt[:section] ||= Doing.setting('current_section')\n opt[:archive] ||= false\n opt[:back] ||= Time.now\n opt[:new_item] ||= false\n opt[:note] ||= false\n\n opt[:section] = guess_section(opt[:section])\n\n tag.sub!(/^@/, '')\n\n found_items = 0\n\n @content.each_with_index do |item, i|\n old_item = i.clone\n next unless item.section == opt[:section] || opt[:section] =~ /all/i\n\n next unless item.title =~ /@#{tag}/\n\n item.title.add_tags!([tag, 'done'], remove: true)\n item.tag('done', value: opt[:back].strftime('%F %R'))\n\n found_items += 1\n\n if opt[:archive] && opt[:section] != 'Archive'\n item.title = item.title.sub(/(?:@from\\(.*?\\))?(.*)$/, \"\\\\1 @from(#{item.section})\")\n item.move_to('Archive', label: false, log: false)\n logger.count(:completed_archived)\n logger.info('Completed/archived:', item.title)\n else\n logger.count(:completed)\n logger.info('Completed:', item.title)\n end\n Hooks.trigger :post_entry_updated, self, item, old_item\n end\n\n\n logger.debug('Skipped:', \"No active @#{tag} tasks found.\") if found_items.zero?\n\n if opt[:new_item]\n date, title, note = format_input(opt[:new_item])\n opt[:back] = date unless date.nil?\n note.add(opt[:note]) if opt[:note]\n title.tag!(tag)\n add_item(title.cap_first, opt[:section], { note: note, back: opt[:back] })\n end\n\n write(@doing_file)\n end" ]

[ "0.78871566", "0.7128225", "0.64186907", "0.6344688", "0.62784827", "0.62169224", "0.6200314", "0.59818006", "0.59785736", "0.59520334", "0.5876329", "0.5861583", "0.581879", "0.57727945", "0.57180214", "0.5662999", "0.56130207", "0.5593954", "0.55824095", "0.55468065", "0.55411136", "0.55313665", "0.55259824", "0.5510124", "0.55048156", "0.54711694", "0.5449192", "0.54232085", "0.5422988", "0.5414705", "0.53961116", "0.53706634", "0.5364445", "0.53534275", "0.5341151", "0.53118193", "0.5300048", "0.5284484", "0.5284427", "0.52754104", "0.5270313", "0.5270186", "0.52669835", "0.5263771", "0.5252364", "0.522527", "0.52205044", "0.5202488", "0.5193241", "0.5179408", "0.51792294", "0.5165054", "0.51439977", "0.5143936", "0.5114985", "0.5106977", "0.50819963", "0.5072762", "0.5072762", "0.5072762", "0.5072762", "0.5072762", "0.5072762", "0.5072762", "0.5072762", "0.5072762", "0.5072762", "0.5072762", "0.5072762", "0.5072762", "0.5072762", "0.5072762", "0.5072762", "0.5072762", "0.5072762", "0.5072762", "0.5072762", "0.5072762", "0.507038", "0.50699586", "0.50533617", "0.5049355", "0.5041754", "0.5041754", "0.5041754", "0.5041754", "0.5041754", "0.50376767", "0.50269425", "0.50234216", "0.50200725", "0.5012934", "0.50046134", "0.500302", "0.500203", "0.49885157", "0.49869335", "0.4977716", "0.4974633", "0.49698672" ]

[ "def done!\n @todos.each {|todo| todo.done! }\n end", "def mark_as_done(todo)\n @data_object.aff_to_do &= ~todo\n end", "def mark_todo\n puts \"Which todo have you finished?\"\n action = get_input.to_i\n arr_index = 0\n @todos.each do |x|\n if x[\"completed\"] == \"no\"\n arr_index = arr_index + 1\n if arr_index == action\n x[\"completed\"] = \"yes\"\n save!\n break\n end\n end\n end\n end", "def mark_done\n self.done_at = Time.now\n end", "def test_mark_all_done\n @list.mark_all_done\n assert(@todos.all? { |todo| todo.done? }) # this assertion was tested in #test_done!\n end", "def mark_done\n @done = true\n end", "def mark_done(str)\n todo = self.find_by_title(str)\n todo.done! if todo\n # find_by_title(str) && find_by_title(str).done! # alt from solution\n end", "def mark_done(string)\n @todos.each do |todo|\n todo.done! if (todo.title =~ /#{string}/)\n end\n end", "def mark_as_done!\n @done = true\n end", "def complete_todo\n cli.die \"That task is already completed!\" if @todo.completed?\n @todo.complete!\n puts \"#{@todo.label}: '#{@todo.todo}' marked as completed at #{@todo.stop}\"\n end", "def markDone(id)\n item = Todo.find(id)\n item.done = true\n item.save\nend", "def done(item)\n @todo_list.each { |todo| todo.update_status if todo.description == item }\n end", "def all_done\n self.select { |todo| todo.done? }\n end", "def mark_as_done\n @is_done = true\n end", "def mark_all_todos_as_completed(list_id)\n sql = \"UPDATE todos SET completed = true WHERE list_id = $1\"\n query(sql, list_id)\n end", "def all_done\n select{ |todo| todo.done? }\n end", "def mark_as_done!\n @status = :finished\n end", "def delete_finished\n Rutodo::Database::Todo.where(done: true).delete\n end", "def change_to_todo\n @task = Task.find(params[:id])\n @task.done = false\n @task.save\n redirect_to root_path\nend", "def setDone\n @done = Time.now\n end", "def delete_all_completed!\n @todos = @todos.reject { |todo| todo.completed == true }\n end", "def mark_todo_item_finished(item_id, list_id)\n rest(\"put\", \"lists/#{list_id}/items/#{item_id}/finish\")\n end", "def mark_all_undone\n self.each { |todo| todo.undone! }\n end", "def markDone\n if @complete == \"Item incomplete\"\n @complete = \"Item complete\"\n else\n @complete = \"Item complete\"\n end\n end", "def setDone(id)\n new_item = List.find(id)\n new_item.done = true\n new_item.save\n end", "def mark_as_done # a writer, i overwrote the one by default\n @done = true\n end", "def done?\n @todos.all? {|todo| todo.done? }\n end", "def done\n ::Taxi::Status.list_by_status(status: 'done', format: options[:format], agency: options[:agency])\n end", "def printDone\n doneList = \"\"\n @toDoListArray.each do |e|\n if e.status\n doneList = doneList + e.printItem + \" \"\n end\n end\n doneList\n end", "def mask_as_done!\n @completed = true\n end", "def set_done(id)\n task = Task.find(id)\n task.done = true\n task.save\nend", "def mark_complete(task)\n users = Project.find_by_id(@task.projectid).allshares.split(\",\")\n task.datecomplete = DateTime.now\n task.save!\n users.each do |user|\n us = User.find_by_id(user)\n if us && us.id != session[:userid]\n message = \"The task \" + task.name + \" has been marked complete.\"\n subject = task.name + \" is complete\"\n Notification.send_notifications_to_user(subject, message, @task.projectid, us.id)\n\n end\n end\n end", "def mark_as_completed\n completed_at.nil? ? self.completed = true : errors.add(:completed, '- This task has already been completed!')\n end", "def mark_task_complete\n system \"clear\"\n # If task was set\n\n loop do\n task = get_task_choice(\"mark complete\")\n if task && task != :back\n task.status = :completed\n\n system \"clear\"\n display_tasks(:completed)\n display_tasks(:failed)\n\n # Cancel notifications\n task.cancel_reminder_notification\n task.cancel_failed_notification\n\n puts \"Congratulations on completing this task!\".light_white\n break unless CLI.agree(\"\\nMark another task complete? (y/n)\".light_white)\n else\n break\n end\n end\n end", "def set_done\n @done = true\n end", "def test_all_done# #all_done returns an new TodoList object (meets criteria)\r\n @todo1.done!\r\n new_obj = @list.all_done\r\n assert_equal([@todo1], new_obj.to_a)\r\n end", "def update\n @todo = Todoo.find(params[:id])\n if @todo.update_attribute(:done, true)\n redirect_to todoo_index_path, :notice => \"Your todo item was marked as done!\"\n else\n redirect_to todoo_index_path, :notice => \"We are unable to mark the todo item as done!\" \n end\nend", "def update_completed\n uncompleted_items = todo_list_items.select { |e| !e.completed? }\n update(completed: true) if uncompleted_items.zero?\n end", "def all_not_done\n self.select { |todo| !todo.done? }\n end", "def complete_children\n if self.category.eql?('todo') and self.completed\n if self.children\n children = self.get_all_children\n children.each do |child|\n if child.completed.blank? or !child.completed\n child.update_attributes(:completed => true, :completed_at => self.completed_at, :zimbra_task_status => true)\n # MatterTask.update_all({:completed => true, :completed_at => self.completed_at}, {:id => child.id})\n end\n end\n end\n end\n end", "def set_not_done(id)\n task = Task.find(id)\n task.done=false\n task.save\nend", "def mark_task\n # ASK REPO for tasks\n tasks = @task_repository.all\n # ASK VIEW to display tasks\n @tasks_view.display(tasks)\n # ASK VIEW for a number to mark as done\n task_index = @tasks_view.ask_for_index\n # ASK REPO for the given task\n task = @task_repository.find(task_index)\n # ASK task intance to mark itself as done\n task.mark_as_completed!\n end", "def mark_completed\n puts 'Enter task number(ID), please'\n\n entered_id = get_id_input\n\n if @tasks[entered_id]\n\n @tasks[entered_id].status = 'completed'\n\n else\n\n no_entry_message\n\n end\n\n end", "def todos\n remaining_todos + completed_todos\n end", "def mark_done(db, id)\n db.execute(\"UPDATE todolist SET done=? WHERE id=?\", [\"true\", id])\nend", "def set_complete(name)\n\t\tif index = find_index(name)\n\t\t\ttodo_items[index].set_complete!\n\t\t\treturn true\n\t\telse\n\t\t\treturn false\n\t\tend\n\tend", "def test_finish_list_item\n list = Todo::List.new\n list.add(name: 'do this')\n list.finish('do this')\n assert_equal(true, list.tasks.first.finished?)\n end", "def done(index)\n save do\n items[index-1].context = '@done'\n items[index-1]\n end\n end", "def venue_marktodo(id, options = {})\n post(\"venues/#{id}/marktodo\").todo\n end", "def complete\n if @todo_item.update_attribute(:completed, 1)\n flash[:success] = \"todo item marked as completed\"\n redirect_to todo_path(@todo)\n else\n flash[:error] = \"failed to mark item as completed\"\n render 'todos/show'\n end\n end", "def clear_todo\n @todo = nil\n end", "def change_to_done\n @task = Task.find(params[:id])\n @task.done = true\n @task.save\n redirect_to root_path\nend", "def handle_todos\n yield\n\n if has_todo\n existing_todo_user_ids = todos.pluck(:user_id)\n course_users = CourseUser.where(course_id: course_id).where.not(user_id: existing_todo_user_ids)\n Course::LessonPlan::Todo.create_for!(self, course_users)\n else\n todos.not_started.not_ignored.delete_all\n end\n end", "def mark_finished\n if view_context.signed_in?\n task = Task.find(params[:task][:id])\n if task.nil?\n render :json => {:errors => \"Invalid task\"}, :status => 400\n else\n task_actor = task.task_actors.find_by_user_id(current_user[:id])\n if task_actor.nil?\n render :json => {:errors => \"Unauthorized action\"}, :status => 400\n else\n task.update(finished: true, finished_date: Date.today)\n result = {}\n result[:details] = task\n result[:due] = {}\n task.task_actors.each do |a|\n result[:members][a[:user_id]] = a[:order]\n end\n render :json => result.to_json, :status => 200\n end\n end\n else\n redirect_to '/'\n end\n end", "def all_complete\n self.tasks.count == self.tasks.done.count\n end", "def finish!\n Todoable.client.put(\"#{path}/finish\")\n true\n end", "def done(index)\n item = @items[index.to_i-1]\n item.context = '@done'\n save\n item\n end", "def done\n @done.each &:call\n end", "def divide_done_todos\n done = []\n notDone = ToDo.ordered_position_done(self.id)\n self.to_dos.each do |todo|\n done << todo if todo.done? \n end\n \n return {:done => done, :notDone => notDone}\n end", "def done\n completed + dead\n end", "def clear_completed!\n update\n [@@logs[:todo], @@logs[:metrics]].each do |file|\n\tputs \"FILE: #{file.inspect}\"\n FileUtils.rm(file)\n FileUtils.touch(file)\n end\n @@todo.each do |line|\n add_todo(line)\n end\n end", "def update\n @item = Todo.find(params[:id])\n @item.update(:done => !@item.done, :done_at => (@item.done ? nil : DateTime.now)) \n render :json => @item.to_json\n end", "def todo_reset\n @generated_todo = false\n @downloaded_a_page = false\n end", "def update_done\n self.done = true if COMPLETE_STATUSES.include? self.detailed_status\n end", "def done!\n @done = true\n end", "def update\n @todo = Todo.find(params[:id])\n \n if params[:todo][:done]\n \n if params[:todo][:done].to_s == \"true\" \n res = \"done\"\n params[:todo][:done_at] = Time.now\n else \n res = \"undone\"\n params[:todo][:done_at] = nil\n end\n tl(\"Todo\",@todo.id,'This todo has been marked ' + res,\n (@todo.topic.name rescue nil),'todo',@todo.assigned_by)\n else\n tl(\"Todo\",@todo.id,'This todo has been updated',\n (@todo.topic.name rescue nil),'todo',@todo.assigned_to)\n end\n \n respond_to do |format|\n if @todo.update_attributes(params[:todo])\n format.html { redirect_to @todo, notice: 'Todo was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @todo.errors, status: :unprocessable_entity }\n end\n end\n end", "def set_done\n @task = Task.find params[:id]\n respond_to do |format|\n if @task.done == true\n @task.update_attributes(:done => false)\n format.html { redirect_to tasks_url }\n format.json { head :no_content }\n format.js\n @message = \"false\"\n else\n @task.update_attributes(:done => true)\n format.html { redirect_to tasks_url }\n format.json { hehead :no_contentad }\n format.js\n @message = \"true\"\n end\n end\n end", "def complete\n @todo_item.update_attribute(:completed_at, Time.now)\n redirect_to @todo_list, notice: \"Todo item completed\"\n end", "def done\r\n @done = true\r\n end", "def all_completed_todos\n (global_completed_todos + local_completed_todos).uniq\n end", "def done\n done_ids = @tasks.keys.find_all do |id|\n @tasks[id].done?\n end\n done_tasks = done_ids.inject({}) do |map, id|\n map[id] = @tasks[id]\n map\n end\n done_ids.each do |id|\n @tasks.delete(id)\n end\n return done_tasks\n end", "def set_done\n @done = Done.find(params[:id])\n end", "def done\n @done = true\n end", "def complete(to_do_item)\n response = to_do_item\n response[:complete] = true\n response\n end", "def complete!(index)\n todo = find_by_index(index)\n todo.complete! # modify memory that just happens to be in @todos\n end", "def mark_as_completed!\n mark_state_complete!\n end", "def tasks_complete(list)\n completed = list[:todos].select do |item|\n item[:completed] == true\n end.size\n end", "def done\n @done\n end", "def get_finished\n Rutodo::Database::Todo.where(done: true).map(&:as_entity)\n end", "def manual_add\n self.metadata[:todos] ||= []\n end", "def todo?\n self.status == Task.todo_status\n end", "def destroy\n @todoa.update_attribute(:done, true)\n respond_to do |format|\n format.html { redirect_to todoas_url }\n format.json { head :no_content }\n end\n end", "def set_mission_as_done\n mission = Mission.find(params[:id].to_i)\n entr_missions = mission.entr_mission_users\n\n # No users attached to the mission\n if entr_missions.empty?\n flash[:success] = \"<h2>La mission < #{mission.title} > <span style='color:red'>ne peut pas être terminée (aucun utilisateur)</span></h2>\".html_safe\n redirect_to :back\n return\n end\n \n # Set each user link as done\n entr_missions.each do |entr|\n # If the user was doing the mission\n if entr.state == EntrMissionUser::Status::CONFIRMED\n # Credit him\n entr.user.credit_user mission\n MissionMailer.delay.mission_finished(entr.user, mission)\n end\n entr.state = EntrMissionUser::Status::DONE\n entr.save\n end\n \n # Set mission state as finished\n mission.state = Mission::Status::FINISHED\n mission.save\n\n # End\n flash[:success] = \"<h2>La mission < #{mission.title} > a bien été terminée</h2>\".html_safe\n redirect_to :back\n end", "def set_complete_incomplete\n @tasks_incomplete = @tasks.where(\"completed = 'f'\").order('tasks.created_at DESC')\n @tasks_complete = @tasks.where(\"completed = 't'\").order('tasks.created_at DESC')\n end", "def mark_as_doing_food\n # for performance reasons, we update directly into the DB without passing by the models\n @tasks.update_all(doing: true, user_doing_id: current_user.id)\n\n # Needed because update_all calls directly the DB.\n # Hence the objects are not updated.\n @tasks.reload\n\n respond_to do |format|\n format.html { redirect_to tasks_index_path }\n format.js\n end\n end", "def done(done = true, date = Date.today)\n key = Habit.get_progress_key_from(date)\n initialize_progress_hash_from(key)\n update_progress_for(key, date.day, done)\n end", "def completed_todos\n if @completed_todos.empty? && @completed_count > 0\n refresh\n end\n \n return @completed_todos\n end", "def done\n end", "def done\n end", "def to_do_list_completed?\n return @to_do_list.all? {|item| item.completion_status == true}\n end", "def done!\n self.update! done: true\n end", "def find_and_mark_done(name)\n item = items.find{|e| e.name == name}\n puts \"finding |#{name}|\"\n if item\n item.mark_done!\n else\n puts \"item not found: #{name}\"\n end\n end", "def update\n params = task_params\n mark_done = params.delete(:mark_done) == \"1\"\n if mark_done\n @task.mark_done\n else \n @task.mark_undone\n end\n respond_to do |format|\n if @task.update(params)\n \n format.html { redirect_to @task, notice: 'Task was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @task.errors, status: :unprocessable_entity }\n end\n end\n end", "def done!(status = 0)\n @completed_at = Time.now\n @exitstatus = status\n save\n end", "def allDone\n Todo.where(\"done = true\")\nend", "def printNotDone\n notDoneList = \"\"\n @toDoListArray.each do |e|\n if !e.status\n notDoneList = notDoneList + e.printItem + \" \"\n end\n end\n notDoneList\n end", "def complete(actor)\n Event.create(\n actor_id: actor.id,\n todo_id: id,\n project_id: project.id,\n event_type: Event::TYPE_TODO_COMPLETE\n ) if update(completed: true)\n\n self\n end", "def get_unfinished_todos\n return Todo.where({\"user_id\" => self.id, \"completed\" => false})\n end", "def done\n update_attribute(:finished_at, Time.now) if finished_at.blank?\n end", "def get_completed_todos\n return Todo.where({\"user_id\" => self.id, \"completed\" => true})\n end" ]

[ "0.7927046", "0.7835611", "0.7511289", "0.72529584", "0.7136976", "0.70940804", "0.70915896", "0.70643324", "0.7044478", "0.70238686", "0.70120925", "0.69323087", "0.6931281", "0.68638426", "0.68568313", "0.6724465", "0.6660171", "0.66105545", "0.65963537", "0.6596016", "0.6569192", "0.6568508", "0.6558183", "0.6556494", "0.6527375", "0.64735204", "0.6454316", "0.6407362", "0.636076", "0.6348264", "0.6337119", "0.63266397", "0.631863", "0.62941164", "0.6291277", "0.62556666", "0.62399787", "0.6222865", "0.61939406", "0.6189449", "0.61809105", "0.61692077", "0.61376196", "0.61192894", "0.61052084", "0.6095389", "0.6081971", "0.6077703", "0.607505", "0.6041302", "0.60370535", "0.6032327", "0.6025257", "0.60180056", "0.60030365", "0.59846467", "0.5970524", "0.5949385", "0.59482825", "0.5944813", "0.5939929", "0.5929651", "0.5920896", "0.58987087", "0.5885322", "0.5885021", "0.58839625", "0.586722", "0.585062", "0.58307016", "0.5821776", "0.58169067", "0.5812873", "0.5810273", "0.58031297", "0.57823426", "0.57498366", "0.5724337", "0.57205653", "0.57178015", "0.57068664", "0.57043344", "0.57002926", "0.56956804", "0.5691539", "0.5677915", "0.5677442", "0.56562454", "0.56562454", "0.5648277", "0.56394863", "0.5631793", "0.5627197", "0.56146926", "0.5613651", "0.56021315", "0.56011295", "0.5577362", "0.55772406", "0.5570378" ]

[ "def mark_as_done(todo)\n @data_object.aff_to_do &= ~todo\n end", "def all_not_done\n self.select { |todo| !todo.done? }\n end", "def mark_all_done\n self.each { |todo| todo.done! }\n end", "def all_done\n self.select { |todo| todo.done? }\n end", "def delete_all_completed!\n @todos = @todos.reject { |todo| todo.completed == true }\n end", "def mark_todo\n puts \"Which todo have you finished?\"\n action = get_input.to_i\n arr_index = 0\n @todos.each do |x|\n if x[\"completed\"] == \"no\"\n arr_index = arr_index + 1\n if arr_index == action\n x[\"completed\"] = \"yes\"\n save!\n break\n end\n end\n end\n end", "def all_done\n select{ |todo| todo.done? }\n end", "def printNotDone\n notDoneList = \"\"\n @toDoListArray.each do |e|\n if !e.status\n notDoneList = notDoneList + e.printItem + \" \"\n end\n end\n notDoneList\n end", "def set_not_done(id)\n task = Task.find(id)\n task.done=false\n task.save\nend", "def todo_reset\n @generated_todo = false\n @downloaded_a_page = false\n end", "def show_not_completed_items\n return @to_do_item.select { |x| x.is_done? == false }\n end", "def show_not_completed_date_items\n return @to_do_with_date.select { |x| x.is_done? == false }\n end", "def test_mark_all_done\n @list.mark_all_done\n assert(@todos.all? { |todo| todo.done? }) # this assertion was tested in #test_done!\n end", "def mark_done\n self.done_at = Time.now\n end", "def incomplete_tasks\n\t\ttasks.select{ |t| !t.completed? }\n\tend", "def done!\n @todos.each {|todo| todo.done! }\n end", "def mark_done(str)\n todo = self.find_by_title(str)\n todo.done! if todo\n # find_by_title(str) && find_by_title(str).done! # alt from solution\n end", "def all_incomplete_todos\n (global_incomplete_todos + local_incomplete_todos).uniq\n end", "def update_completed\n uncompleted_items = todo_list_items.select { |e| !e.completed? }\n update(completed: true) if uncompleted_items.zero?\n end", "def get_unfinished_todos\n return Todo.where({\"user_id\" => self.id, \"completed\" => false})\n end", "def not_completed_due_today\n @not_done = @to_do_with_date.select { |x| x.is_done? == false }\n return @not_done.select { |x| x.due_date == Date.today }\n end", "def undone?\n !done?\n end", "def change_to_todo\n @task = Task.find(params[:id])\n @task.done = false\n @task.save\n redirect_to root_path\nend", "def markDone(id)\n item = Todo.find(id)\n item.done = true\n item.save\nend", "def mark_done(string)\n @todos.each do |todo|\n todo.done! if (todo.title =~ /#{string}/)\n end\n end", "def notDone\n Todo.where(\"done = false\")\nend", "def clear_todo\n @todo = nil\n end", "def done(item)\n @todo_list.each { |todo| todo.update_status if todo.description == item }\n end", "def mask_as_done!\n @completed = true\n end", "def handle_todos\n yield\n\n if has_todo\n existing_todo_user_ids = todos.pluck(:user_id)\n course_users = CourseUser.where(course_id: course_id).where.not(user_id: existing_todo_user_ids)\n Course::LessonPlan::Todo.create_for!(self, course_users)\n else\n todos.not_started.not_ignored.delete_all\n end\n end", "def selectIncomplete\n @to_do_items.select {|item| item.done? == 'Item incomplete'}\n end", "def add_items!(items)\n add_items_to_queue!(:todo, items)\n end", "def all_completed_todos\n (global_completed_todos + local_completed_todos).uniq\n end", "def mark_all_todos_as_completed(list_id)\n sql = \"UPDATE todos SET completed = true WHERE list_id = $1\"\n query(sql, list_id)\n end", "def set_complete_incomplete\n @tasks_incomplete = @tasks.where(\"completed = 'f'\").order('tasks.created_at DESC')\n @tasks_complete = @tasks.where(\"completed = 't'\").order('tasks.created_at DESC')\n end", "def listNotDue\n Todo.where(\"duedate is null\")\nend", "def todo?\n self.status == Task.todo_status\n end", "def mark_done\n @done = true\n end", "def incomplete_tasks\n sublist { |task| task.incomplete? }.sort_by { |task| task.created_at }\n end", "def uncheck(id_string)\n set_done(id_string, false)\n #checking all other tasks with same name/description as the newly unchecked task which id is 'id_string'\n id = id_string.to_i\n @tasks.each { |project_name, project_tasks|\n project_tasks.each { |task|\n if task.id == id\n # puts 'here1'\n @tasks.each do |project_name, project_tasks|\n project_tasks.each do |t|\n if t.description == task.description\n set_done(t.id.to_s, false)\n # puts 'here2'\n # puts task.done\n # puts t.done\n end\n end\n end\n end\n }\n\n }\n end", "def show_not_done\n task = Task.where(done: false).all\nend", "def incomplete_tasks\n # Give me all the tasks such that the task is incomplete\n @tasks.select { |task| task.incomplete? }.sort_by { |task| task.created_at }\n end", "def markDone\n if @complete == \"Item incomplete\"\n @complete = \"Item complete\"\n else\n @complete = \"Item complete\"\n end\n end", "def setDone(id)\n new_item = List.find(id)\n new_item.done = true\n new_item.save\n end", "def get_pending\n Rutodo::Database::Todo.where(done: false).map(&:as_entity)\n end", "def incompleteItemsWithAndWithoutDates\n @due_items.sort!{|x,y| x.dueDate <=> y.dueDate}\n @due_items.select!{|item| item.done? == 'Item incomplete'}\n @to_do_items.select!{|item| item.done? == 'Item incomplete'}\n @incomplete_array = @due_items.concat(@to_do_items)\n end", "def mark_as_done!\n @done = true\n end", "def delete(category,task_index)\n @todo_container[category].each do |task_item|\n if task_item.index == task_index\n task_item.flag = false\n end\n end\n end", "def todos\n remaining_todos + completed_todos\n end", "def mark_as_done\n @is_done = true\n end", "def update\n @item = Todo.find(params[:id])\n @item.update(:done => !@item.done, :done_at => (@item.done ? nil : DateTime.now)) \n render :json => @item.to_json\n end", "def do_not\n redirect_to(workout_path(@workout), alert: t('.already_done')) if @workout.done?\n redirect_to(workout_path(@workout), alert: t('.already_skipped')) if @workout.skipped?\n @workout.skipped = true\n @workout.weight_before = current_user.latest_weight_before\n end", "def manual_add\n self.metadata[:todos] ||= []\n end", "def divide_done_todos\n done = []\n notDone = ToDo.ordered_position_done(self.id)\n self.to_dos.each do |todo|\n done << todo if todo.done? \n end\n \n return {:done => done, :notDone => notDone}\n end", "def mark_outdated_items\n # Unmark everything\n @items.each { |i| i.outdated_due_to_dependencies = false }\n\n # Mark new items as outdated\n added_items = @items - @previous_items\n added_items.each { |i| i.outdated_due_to_dependencies = true }\n\n # Mark successors of nil as outdated\n self.successors_of(nil).each do |i|\n i.outdated_due_to_dependencies = true\n end\n\n # For each outdated item...\n @items.select { |i| i.outdated? }.each do |outdated_item|\n # ... mark all its successors as outdated\n self.successors_of(outdated_item).each do |i|\n i.outdated_due_to_dependencies = true\n end\n end\n end", "def create_or_delete_todos\n return unless draft_changed?\n if draft_changed? from: true, to: false\n Course::LessonPlan::Todo.create_for(self, course.course_users)\n elsif draft_changed? from: false, to: true\n Course::LessonPlan::Todo.delete_for(self)\n end\n end", "def client_tasks_overdue\n self.find_all {|e| (e.completed.nil? or !e.completed) and e.complete_by < Time.zone.now }\n end", "def listAllDue\n Todo.where(\"duedate is not null\")\nend", "def done?\n @todos.all? {|todo| todo.done? }\n end", "def suspend_todo\n cli.die \"That task is already suspended!\" if @todo.suspended?\n @todo.suspend!\n puts \"#{@todo.label}: '#{@todo.todo}' marked as suspended at #{@todo.stop}\"\n end", "def markToDelete\n #N Without this it won't be marked for deletion\n @toBeDeleted = true\n end", "def test_all_done# #all_done returns an new TodoList object (meets criteria)\r\n @todo1.done!\r\n new_obj = @list.all_done\r\n assert_equal([@todo1], new_obj.to_a)\r\n end", "def not_completed_all_by_month\n #calls the not_completed function to hopefully set a not_completed_with_date list containing a sorted list of tasks that HAVE dates\n not_completed\n return_list = []\n #check if each item in the list is in the current month\n @not_completed_with_date.each do |a|\n b = Date.strptime(\"#{a.date}\")\n if b.mon == Date.today.mon\n return_list << a\n end\n end\n return_list\n end", "def todos_remaining(list)\n list[:todos].count { |todo| !todo[:complete] }\n end", "def show_completed_items\n return @to_do_item.select { |x| x.is_done? == true }\n end", "def venue_marktodo(id, options = {})\n post(\"venues/#{id}/marktodo\").todo\n end", "def mark_as_completed\n completed_at.nil? ? self.completed = true : errors.add(:completed, '- This task has already been completed!')\n end", "def mark_task\n # ASK REPO for tasks\n tasks = @task_repository.all\n # ASK VIEW to display tasks\n @tasks_view.display(tasks)\n # ASK VIEW for a number to mark as done\n task_index = @tasks_view.ask_for_index\n # ASK REPO for the given task\n task = @task_repository.find(task_index)\n # ASK task intance to mark itself as done\n task.mark_as_completed!\n end", "def due_later\n TodosList.new(@todos.filter { |todo| todo.due_later? })\n end", "def complete_todo\n cli.die \"That task is already completed!\" if @todo.completed?\n @todo.complete!\n puts \"#{@todo.label}: '#{@todo.todo}' marked as completed at #{@todo.stop}\"\n end", "def delete_finished\n Rutodo::Database::Todo.where(done: true).delete\n end", "def allDone\n Todo.where(\"done = true\")\nend", "def show_due_tasks\n task = Task.where.not(due_date: nil).all\nend", "def incomplete!\n self.update_attribute(:is_completed, false)\n # TODO: send an email to teacher about tasks reopening\n end", "def skip_week\n for item in action_items\n item.skip! unless item.complete?\n end\n\n end", "def get_tasks_from_todoist\n return Todoist::Task.uncompleted(PROGRAMMING_PROJECT_ID)\n end", "def task_in_todo (nb)\n t = get_todo (nb)\n if t\n task_in t.chomp\n else\n puts \"No task specified\"\n end\n end", "def not_complete_by_date\n @not_done = show_not_completed_date_items\n return @not_done.sort_by {|x| x.due_date }\n end", "def all_complete\n self.tasks.count == self.tasks.done.count\n end", "def mark_no_progress(*params)\n\t\tself.each{|x| safe{x.mark(*params)} if x.respond_to?('mark')}\n\tend", "def printDone\n doneList = \"\"\n @toDoListArray.each do |e|\n if e.status\n doneList = doneList + e.printItem + \" \"\n end\n end\n doneList\n end", "def can_undo?; @last_done >= 0; end", "def inactive_tasks\n @tasks.select { | task | ! task.active }\n end", "def complete_children\n if self.category.eql?('todo') and self.completed\n if self.children\n children = self.get_all_children\n children.each do |child|\n if child.completed.blank? or !child.completed\n child.update_attributes(:completed => true, :completed_at => self.completed_at, :zimbra_task_status => true)\n # MatterTask.update_all({:completed => true, :completed_at => self.completed_at}, {:id => child.id})\n end\n end\n end\n end\n end", "def clean_up_tags\n self.tags.each do |tag|\n if tag.todos.count == 1\n tag.destroy\n end\n end\n end", "def index\n @todoas = Todoa.where(user_id: current_user.id,done: false).order(\"due, created_at DESC\")\n end", "def update\n @todo = Todoo.find(params[:id])\n if @todo.update_attribute(:done, true)\n redirect_to todoo_index_path, :notice => \"Your todo item was marked as done!\"\n else\n redirect_to todoo_index_path, :notice => \"We are unable to mark the todo item as done!\" \n end\nend", "def set_complete(name)\n\t\tif index = find_index(name)\n\t\t\ttodo_items[index].set_complete!\n\t\t\treturn true\n\t\telse\n\t\t\treturn false\n\t\tend\n\tend", "def toggle_check\n item = Todo.find(params[\"id\"])\n\n # change the done flag. ActiveRecord\n # will automatically do the boolean/int\n # conversion. \n item.done = !item.done?\n\n if item.save\n redirect_to(:action => \"list\")\n else\n render :text => \"Couldn't update item\" \n end\nend", "def filtered_todos # return the current filtered todos\n TodoItem.all.select { |todo| !(todo.destroyed? or (filter == :completed and !todo.complete) or (filter == :uncompleted and todo.complete))}\n end", "def my_todos\r\n\t\t\t\t\tself.authored_todos | self.assigned_todos\r\n\t\t\t\tend", "def all_available_todos\n (global_available_todos + local_available_todos).uniq\n end", "def overdue\n TodosList.new(@todos.filter { |todo| todo.overdue? })\n end", "def status\n TodoStatus::PENDING\n end", "def set_done(id)\n task = Task.find(id)\n task.done = true\n task.save\nend", "def reset\n @tasks_have_failed = false\n @tasks_are_finished = false\n @tasks_are_successful = false\n end", "def done\n done_ids = @tasks.keys.find_all do |id|\n @tasks[id].done?\n end\n done_tasks = done_ids.inject({}) do |map, id|\n map[id] = @tasks[id]\n map\n end\n done_ids.each do |id|\n @tasks.delete(id)\n end\n return done_tasks\n end", "def mark_as_not_deleted\n update_attributes(deleted: false)\n end", "def done\n ::Taxi::Status.list_by_status(status: 'done', format: options[:format], agency: options[:agency])\n end", "def delete\n newTodos = []\n\n @@allTodos.each { |item|\n if item['id'] != @id\n newTodos.push(item)\n end\n }\n\n @@allTodos = newTodos\n Todo.presist_data\n end" ]

[ "0.7688036", "0.7572862", "0.745425", "0.672193", "0.6645638", "0.65415275", "0.65254736", "0.64674604", "0.64041317", "0.63934124", "0.6383882", "0.63385856", "0.6308985", "0.6276067", "0.62734413", "0.62730885", "0.624406", "0.62223315", "0.6206861", "0.6178516", "0.61365086", "0.6100526", "0.6096044", "0.60936266", "0.6060776", "0.6038457", "0.59915656", "0.59901714", "0.59875095", "0.5963769", "0.5949365", "0.58613336", "0.5860089", "0.58586735", "0.5855457", "0.5837521", "0.5795156", "0.5791392", "0.57692385", "0.57602555", "0.5742493", "0.5735794", "0.57308877", "0.5706722", "0.57040054", "0.57036406", "0.56818223", "0.56660277", "0.5664886", "0.564642", "0.56439674", "0.56402665", "0.56358975", "0.56301457", "0.5627043", "0.5624131", "0.55991066", "0.55905676", "0.55904", "0.5589577", "0.5586715", "0.5551276", "0.55444205", "0.55443484", "0.55394155", "0.5526583", "0.55125237", "0.55085963", "0.5503051", "0.55009514", "0.5496323", "0.549212", "0.54850256", "0.54730034", "0.54545826", "0.54499435", "0.54496837", "0.54454345", "0.5440524", "0.543535", "0.54241544", "0.54233927", "0.54152805", "0.54091704", "0.54070914", "0.54063845", "0.5401615", "0.539448", "0.5393627", "0.5386441", "0.53580284", "0.53570074", "0.53525203", "0.53423166", "0.53402114", "0.53375524", "0.5330192", "0.53155744", "0.53110373", "0.52977574" ]

[ "def tile_board\n @board_array.each_with_index do |row_array, row|\n 10.times{|column| row_array << Tile.new(row,column)}\n end\n end", "def tiles\n return @tiles\n end", "def tiles\n return @tiles\n end", "def create_tiles\n # Screen fits exactly 15x10 tiles (for 480x320), but it has a buffer around it\n # so the game has time to refresh without showing a black border during movement.\n tiles = []\n (TOTALSIZE).times { tiles << TileSprite.new($visuals.viewport) }\n @array = tiles\n startx = $visuals.map.real_x / -32 - 1\n starty = $visuals.map.real_y / -32 - 1\n for y in 0...YSIZE\n for x in 0...XSIZE\n mapx = startx + x\n mapy = starty + y\n idx = x + y * XSIZE\n @array[idx].real_x = $visuals.map.real_x + mapx * 32\n @array[idx].real_y = $visuals.map.real_y + mapy * 32\n draw_tile(@array[idx], mapx, mapy)\n end\n end\n $temp_bitmaps = nil\n # Don't dispose the bitmaps hash because tiles reference these instances; they're not clones.\n end", "def initialize\n @tiles = []\n 1.upto(15) { |i| @tiles[i] = Array.new }\n end", "def tile(y, x, matrix)\n matrix[y - 1 .. y + 1].map {|line| line[x - 1 .. x + 1]}\n end", "def to_list\n retval = []\n 1.upto(@tiles.length - 1) do |row|\n 1.upto(@tiles[row].length - 1) do |col|\n retval << @tiles[row][col]\n end\n end\n retval\n end", "def tiles_at(x, y)\n @layers[:tile_layers].map { |_, tiles| tiles[y][x] }.compact\n end", "def tiles\n @tiles\n end", "def visible_tiles\n frame_x = (((@width - Config::TileWidth) / Config::TileWidth) ).to_i\n frame_y = (((@height - Config::TileHeight) / Config::TileHeight) ).to_i\n \n \n start_x = player.location.x - (frame_x / 2).to_i\n start_y = player.location.y - (frame_y / 2).to_i\n \n if start_x < 0\n start_x = 0\n end\n if start_y < 0\n start_y = 0\n end\n \n tiles = Array.new\n \n frame_x.times do |i|\n frame_y.times do |j|\n if (start_x + i < game.map.width ) && (start_y + j < game.map.height )\n # puts(\"start_x is #{start_x} and start_y is #{start_y} and i is #{i} and j is #{j}\")\n tiles << game.map.locations[start_x + i, start_y + j]\n end\n end\n end\n \n tiles\n \n end", "def get_tiles\n tiles = []\n accuracy_pixels_config = AppConfig.gmap_accuracy\n (0...AppConfig.gmap_max_zoom).reverse_each do |zoom|\n tiles_across = 2**zoom\n # the accuracy will go down by half at each zoom level with a floor of 1 i.e. 8 => 4, 7 => 2, 6 => 1, 5 => 1, 4 => 1\n accuracy_pixels = (accuracy_pixels_config.to_f / 2**(AppConfig.gmap_max_zoom - zoom).to_f ).ceil\n tiles_at_zoom = (0...tiles_across).map { |x| (0...tiles_across).map { |y| OpenStruct.new(:x => x, :y => y, :zoom => zoom, :accuracy_pixels => accuracy_pixels) } }.flatten(1)\n tiles.concat tiles_at_zoom\n end\n tiles\n end", "def tiles\n @shape.values.map { |v| v.values }.flatten.select {|x| x != :empty}\n end", "def draw_tiles(tile_bag)\n tiles = []\n tiles << Scrabble::TileBag.draw_tiles(7)\n end", "def load_tiles(zombie_setting)\n tiles = Gosu::Image.load_tiles(zombie_setting[\"image_tile_dir\"], 32, 32)\n tile_no = zombie_setting[\"tile_loc\"]\n \n start = (tile_no - 1) * 3\n\n @image_tiles = Array.new\n for x in 0..3 do\n for y in 0..2 do\n @image_tiles << tiles[start + y]\n end\n start +=12\n end \n end", "def tile(x, y)\n\n @tiles[x][y]\n end", "def initialize(width, height)\n\n\t\t# Initialise the tileset\n\t\t@tiles = []\n\t\t(0...width).each do |x|\n\t\t\t@tiles[x] = []\n\t\t\t(0...height).each do |y|\n\t\t\t\t@tiles[x][y] = Tile.new(x, y, self)\n\t\t\tend\n\t\tend\n\tend", "def map_board\n\t\t@cell_at = []\n\t\t@height.times do |row|\n\t\t\t@cell_at[row] = []\n\t\t\t@width.times do |col|\n\t\t\t\t@cell_at[row][col] = Cell.new\n\t\t\tend\n\t\tend\n\tend", "def to_2d_array(tile_hash)\n min_x = tile_hash.min_by{|v|v[:x]}[:x]\n min_y = tile_hash.min_by{|v|v[:y]}[:y]\n map = []\n tile_hash.each do |cell|\n rel_x = cell[:x] - min_x\n rel_y = cell[:y] - min_y\n if map.length < rel_y + 1 || map[rel_y] == nil\n map[rel_y] = []\n end\n map[rel_y][rel_x] = cell[:index]\n end\n map\nend", "def draw_tiles(tile_bag)\n until tiles.length == 7\n tiles.concat(tile_bag.draw_tiles(1)) #because draw_tiles returns an array\n\n end\n end", "def create_grid(board_array)\n\t# split into triplets\n\ttriplets_array = []\n board_array.each { |array| triplets_array << array.each_slice(3).to_a }\n\n # shuffle the triplets\n shuffle_container = [[], [], []]\n 9.times do |row|\n 3.times do |column|\n current_array = triplets_array[row][column]\n shuffle_container[column] << current_array\n end\n end\n\n # flatten and re-split\n final_array = []\n shuffle_container.flatten.each_slice(9) { |array| final_array << array }\n\n return final_array\nend", "def build_grid size\n self.tiles.clear\n size.to_i.times do |row|\n size.to_i.times do |column|\n self.tiles.build({\n x: column,\n y: row\n })\n end\n end\n end", "def square(idx)\n tiles = []\n x = (idx / 3) *3\n y = (idx % 3) * 3\n\n (x...x+3).each do |i|\n (y...y+3).each do |j|\n tiles << self[[i,j]]\n end\n end\n tiles\n end", "def cells_grid_1by1\n [\n [\n MazeMagic::Maze::Edge.instance,\n MazeMagic::Maze::HorizontalWall.instance,\n MazeMagic::Maze::Edge.instance\n ],\n [\n MazeMagic::Maze::VerticalWall.instance,\n MazeMagic::Maze::HorizontalWall.instance,\n MazeMagic::Maze::VerticalWall.instance\n ]\n ]\n end", "def grid\n rows = []\n (1..self.height).to_a.each do |h|\n rows << row(h)\n end\n rows.reverse\n end", "def board_2d\n # slice the array into groups of 4 to create 2d-array\n @board.enum_slice(4).to_a\n end", "def load_cutters tiles\r\n i = 0\r\n height = tiles.length\r\n width = tiles[i].length\r\n cutters = Array.new()\r\n\r\n while i < height\r\n j=0\r\n while j < width\r\n if(tiles[i][j]==2)\r\n tiles[i][j]=0\r\n cutters << Cutter.new(j*20,i*20)\r\n end\r\n j+=1\r\n end\r\n i+=1\r\n end\r\n\r\n puts \"total cutters : \" + cutters.length.to_s\r\n cutters\r\nend", "def draw_tiles(num)\n random_tiles = @tiles.sample(num)\n random_tiles.each do |letter|\n @tiles.slice!(@tiles.index(letter))\n end\n return random_tiles\n end", "def tiles\n return @players_plaque\n end", "def display_all_tiles\n array = []\n @default_tiles.each do |key, value|\n array << (key * value).split(\"\")\n end\n return array.flatten\n end", "def initialize(width, height, tile_width, tile_height)\n @max_tile_x = width/tile_width\n @max_tile_y = height/tile_height\n @max_subgrid_x = (width/tile_width)*3\n @max_subgrid_y = (height/tile_height)*3\n @tiles = Array.new(max_tile_y) {|i| Array.new(max_tile_x)}\n end", "def split_tile_set_into_tiles\n number_of_tiles = @tile_set[0].columns/32\n\n number_of_tiles.times do |i|\n image = @tile_set[0].crop((i*32), 0, 32, 32)\n image.write(\"media/tmp/tile#{i}.png\")\n end\n end", "def nest_array(board)\n nested_board = []\n 9.times { nested_board << board.slice!(0..8)}\n return nested_board\nend", "def draw_tiles (num)\n tiles_drawn = @bag_of_tiles.sample(num)\n tiles_drawn.each do | tile |\n @bag_of_tiles.slice!(@bag_of_tiles.index(tile))\n end\n return tiles_drawn\n end", "def grid(n, m)\n Array.new(n) { Array.new(n) } # If you attempted to write this as Array.new(n, Array.new(m)) the contents would be repeated for each array rather\nend", "def tiles(include_palette=false)\n result = @draggables.dup\n if include_palette\n result += @palette\n end\n result.keep_if {|draggable| draggable.kind_of?(Tile)}\n end", "def all_tiles(x, y)\n newTilePoint = map_tile_adjust_xy(x, y)\n tile_events_xy(newTilePoint.x, newTilePoint.y).collect {|ev| ev.tile_id } + layered_tiles(x, y)\n end", "def each_tile level\n\t\t\tsize = tile_size level\n\t\t\t(0...size).each do |y|\n\t\t\t\t(0...size).each do |x|\n\t\t\t\t\tyield(x, y) if block_given?\n\t\t\t\tend\n\t\t\tend\n\t\tend", "def generate_grid\n grid = []\n @y.times do\n row = []\n @x.times do\n row << nil\n end\n grid << row\n end\n grid\n end", "def initialize\n @board_array = [[],[],[],[],[],[],[],[],[],[]]\n # tile_board\n # set_mines\n end", "def generate_tile()\n @i = do_generate_tile(@i)\n end", "def refresh_tiles\n return if empty?\n xdiff = @array[0].real_x.round / -32 - 1\n ydiff = @array[0].real_y.round / -32 - 1\n if ydiff > 0\n ydiff.times do\n move_up do |sprite|\n sprite.mapy += YSIZE\n sprite.real_y += 32 * YSIZE\n draw_tile(sprite, sprite.mapx, sprite.mapy)\n end\n end\n $temp_bitmaps = nil\n elsif ydiff < 0\n ydiff.abs.times do\n move_down do |sprite|\n sprite.mapy -= YSIZE\n sprite.real_y -= 32 * YSIZE\n draw_tile(sprite, sprite.mapx, sprite.mapy)\n end\n end\n $temp_bitmaps = nil\n end\n if xdiff > 0\n xdiff.times do\n move_left do |sprite|\n sprite.mapx += XSIZE\n sprite.real_x += 32 * XSIZE\n draw_tile(sprite, sprite.mapx, sprite.mapy)\n end\n end\n $temp_bitmaps = nil\n elsif xdiff < 0\n xdiff.abs.times do\n move_right do |sprite|\n sprite.mapx -= XSIZE\n sprite.real_x -= 32 * XSIZE\n draw_tile(sprite, sprite.mapx, sprite.mapy)\n end\n end\n temp_bitmaps = nil\n end\n end", "def create_grid\n grid = Array.new(6, Array.new(7, BLANK))\n end", "def tile\n tile_at(@position)\n end", "def draw_tiles(num)\n raise ArgumentError.new \"Specify only numbers\" if num.class != Integer\n player_hand = []\n\n num.times do |letter|\n player_hand << @collection.shuffle!.pop\n end\n\n return player_hand\n end", "def create_board\n cols = Array.new(7) { Array.new(6, 0) }\n cols\n end", "def generate_grid x = @x, y = @y\n new_grid = []\n\n y.times { new_grid << [] }\n new_grid.each do |array|\n x.times do\n array << []\n end\n end\n end", "def generate_tile_heights(map_size)\n # USE SUPER SIMPLIFIED VERSION FOR NOW\n return Array.new(map_size, 1)\n\n # STUFF BELOW FOR MORE COMPLEX IMPLEMENTATION IN THE FUTURE\n # I RAN OUT OF TIME :(\n tiles = [\n Array.new((map_size*0.5).floor, 1), \n Array.new((map_size*0.4).floor, 2), \n Array.new((map_size*0.1).floor, 3) \n ].flatten\n\n # Compensate for imperfect percentage rounding \n (map_size - tiles.size).times do |i|\n tiles.push([1, 2, 3].sample)\n end\n\n # Shuffle the tiles to randomly assign them\n tiles = tiles.shuffle\n\n return tiles\n end", "def grid(n, m)\n arr = Array.new(n) { Array.new(m, :N) }\n arr\nend", "def board_generator\r\n y = Array.new(8)\r\n y.each_index {|i| y[i] = Array.new(8)}\r\n end", "def square_arrays\n squares = []\n org_row = 0\n org_col = 0\n (0..8).each do |i|\n squares[i] = []\n (org_row..org_row+2).each do |k|\n (org_col..org_col+2).each do |j|\n squares[i].push(@board[k][j])\n end \n end\n if org_row == 6\n org_col += 3 \n org_row = 0\n else\n org_row += 3 \n end\n end \n squares\n end", "def tile(*coords)\n (coords.size == 1) ? tile_map[coords.first] : tile_map[coords]\n end", "def make_grid\n @grid = Array.new(4){Array.new(4)}\n end", "def layered_tiles(x, y)\n newTilePoint = map_tile_adjust_xy(x, y)\n [2, 1, 0].collect {|z| tile_id(newTilePoint.x, newTilePoint.y, z) }\n end", "def draw_board\n\t\tfor i in 0..9\n\t\t\t@tile_Array[i].draw\n\t\tend\n\tend", "def rows\n 3.times.map{|n| board_state[n * 3, 3]}\n end", "def initiate_grid\n new_grid = []\n @width.times do |x|\n new_grid[x] = []\n @height.times do |y|\n new_grid[x][y] = 0\n end\n end\n new_grid\n end", "def board_creator()\n board = []\n 10.times do |x|\n board << Array.new\n 10.times do |y|\n board[x] << \"sea #{x} #{y}\"\n end\n end\n return board\nend", "def make_board\n board = Array.new(8) { Array.new(8) { Array.new(2) } }\n board.each_with_index do |row, row_i|\n row.each_with_index { |column, column_i| column[0], column[1] = row_i, column_i }\n end\n end", "def get_grids(x, y, width, height)\n x = (x*10)-5\n y = (y*10)-5\n end_x= x+(width*10)-1\n end_y= y+(height*10) -1\n return [[y, x], [end_y, end_x]]\n end", "def get_grids(x, y, width, height)\n x = (x*10)-5\n y = (y*10)-5\n end_x= x+(width*10)-1\n end_y= y+(height*10) -1\n return [[y, x], [end_y, end_x]]\n end", "def grid\n Matrix.build(@row_count, @column_count) { Cell.new }.to_a\n end", "def image_board\n\t\t(0...@width).map do |i|\n\t\t\t(0...@height).map do |j|\n\t\t\t\t# ([1]*3+[0]*7)[rand 10]\n\t\t\t\trand 2\n\n\n\t\t\t\t# rand 2\n\t\t\tend\n\t\tend\n\tend", "def board_generator\n ref_array = ref_array_generator().shuffle(random: Random.new(self.seed))\n board = []\n count = 0\n row = -1\n area = self.height * self.width\n \n while count < area do\n if count % self.width == 0\n board.push([0,ref_array.pop(),0])\n row += 1\n else\n board[row].insert(1,ref_array.pop())\n end\n count += 1\n end\n \n border = [0,0]\n self.width.times do\n border.push(0)\n end\n board.unshift(border)\n board.push(border)\n\n board = border_slicer(tile_number_generator(board))\n \n return board\n end", "def initialise_cell_array\n @cells = []\n @room_map = {}\n @corridor_map = {}\n @corridor_seeds = []\n (0..width).each do |i|\n @cells[i] = []\n (0..height).each do |j|\n @cells[i][j] = Cell.new(i, j, Cell::UNALLOCATED)\n end\n end\n end", "def tile(x, y)\r\n row, col = get_row_col x, y\r\n return nil if out_of_range? row, col\r\n @tiles[row][col]\r\n end", "def initialise_cell_array\n\t\t@cells = []\n\t\t@room_map = {}\n\t\t@corridor_map = {}\n\t\t@corridor_seeds = []\n\t\t(0..width).each do |i|\n\t\t\t@cells[i] = []\n\t\t\t(0..height).each do |j|\n\t\t\t\t@cells[i][j] = Cell.new(i,j, Cell::UNALLOCATED)\n\t\t\tend\n\t\tend\n\tend", "def all_tiles\n\t\t@entities.sort!\n\t\t\n\t\tall_tiles = @map_tiles + @entities\n\t\tall_tiles\n\tend", "def get_board(width, height)\n # Create a new 2D array\n board = Array.new($board_height) {Array.new($board_width)}\n # Each element will be assigned a random value from 'colours'\n # That is done by choosing a random index of the 'colours' array\n (0...$board_height).each do |row| \n (0...$board_width).each do |cell|\n board[row][cell] = $colours[rand(6)] \n end\n end\n # Return board\n return board\nend", "def board\n @board ||= Array.new(HEIGHT) { Array.new(WIDTH) { [true, false].sample } }\n end", "def generate_solved_array(dim)\n tiles = dim.times.map {|i| dim.times.map {|j| (j+1)+dim*(i)}}\n tiles[dim-1][dim-1] = nil\n tiles\n end", "def default_grid\n array = Array.new(8) { Array.new(8) }\n\n array[0][0] = Rook.new('white', [0,0], 'slide')\n array[1][0] = Knight.new('white', [1,0], 'step')\n array[2][0] = Bishop.new('white', [2,0], 'slide')\n array[3][0] = Queen.new('white', [3,0], 'slide')\n array[4][0] = King.new('white', [4,0], 'step')\n array[5][0] = Bishop.new('white', [5,0], 'slide')\n array[6][0] = Knight.new('white', [6,0], 'step')\n array[7][0] = Rook.new('white', [7,0], 'slide')\n array[0..7].each_with_index { |column, index| \n column[1] = Pawn.new('white', [index,1], 'step') }\n\n array[0][7] = Rook.new('black', [0,7], 'slide')\n array[1][7] = Knight.new('black', [1,7], 'step')\n array[2][7] = Bishop.new('black', [2,7], 'slide')\n array[3][7] = Queen.new('black', [3,7], 'slide')\n array[4][7] = King.new('black', [4,7], 'step')\n array[5][7] = Bishop.new('black', [5,7], 'slide')\n array[6][7] = Knight.new('black', [6,7], 'step')\n array[7][7] = Rook.new('black', [7,7], 'slide')\n array[0..7].each_with_index { |column, index| \n column[6] = Pawn.new('black', [index,6], 'step') }\n\n array\n end", "def draw_tiles(num)\n player_hand = []\n # array will return tiles to player. Needs much refactoring.\n return nil if num > tiles_remaining\n #to account for test, returns nil if more tiles are drawn than tiles remain.\n while player_hand.length != num\n new_tile = rand(@default_set.size)\n starting_hand = 0\n\n @default_set.each do |letter, letter_quantity|\n #Need to continue working on, this is becoming harder to read. TODO: REFACTOR!\n # if the amount of tiles drawn(starting at 0) is the same as the amount of new tiles drawn,\n if starting_hand == new_tile && letter_quantity != 0\n #if the condition above, and the total tiles isnt 0, add the new tile (letter), to all of the tiles (player_hand array)\n # if letter_quantity != 0\n player_hand << letter\n #Then subtract the letter from the tilebag, reducing the total amount of tiles by 1, and reducing the letter by one specifically from the letters.\n @default_set[letter] = letter_quantity - 1\n else\n new_tile = rand(@default_set.size)\n \n end\n #increases the amount of tiles had by player plus one, each time a tile is drawn\n starting_hand += 1\n end\n end\n #returns array of all tiles to player\n return player_hand\n end", "def google_tile(tx, ty, zoom)\n [tx, (2**zoom - 1) - ty]\n end", "def create_matrix\n (0...@height).to_a.map {|element| [0]*@width}\n end", "def tiles_array_to_hash(array)\n tiles = Hash.new\n i = 0\n until i == array.length\n tiles[array[i]] = i\n i += 1\n end\n tiles\nend", "def tile(r,c)\r\n \ttiles[r,c]\r\n end", "def grids\n [grid].compact\n end", "def squares_by_tile(layer, tile_id)\n @tile_mapper[layer][tile_id] || []\n end", "def tile(input, multiples, name: nil)\n _op(:tile, input, multiples, name: name)\n end", "def serialize\n {\n tiles: @tiles\n }\n end", "def make_board\n @grid = Array.new(9) { | row | Array.new(9) { | col | Tile.new(self, [row, col]) } }\n self.place_bombs\n @grid.map.with_index do | row, rowIndx |\n row.map.with_index { | tile, colIndx | tile.neighbors_bomb_count if !(self.is_a_bomb?([rowIndx, colIndx])) }\n end\n end", "def initialize\n @board = Array.new(3) { Array.new(3) }\n end", "def initialize\n @board = Array.new(3) { Array.new(3) }\n end", "def get_board(width, height)\n #array with all possible colors\n colors = [:red, :blue, :green, :yellow, :cyan, :magenta]\n\n board = Array.new(height)\n (0..height-1).each do |i|\n board[i] = Array.new(width)\n (0..width-1).each do |j|\n board[i][j] = colors.sample\n end\n end\n\n return board\nend", "def import_tileset(array)\n index = 0\n tileset_array = Array.new\n @tilesets = Array.new\n while index < array.length\n current_line = array[index].strip\n if assert_tag(\"tileset\", current_line)\n tileset_values = extract_body(array[index...array.length],\"tileset\")\n index = array.length\n end\n index = index.next\n end\n tileset_values.each do |tileset|\n tileset = Tileset.where(source: tileset).first_or_create!\n @tilesets.push(tileset)\n tileset_array.push(tileset)\n end\n tileset_array\n end", "def children\n emptyTiles = []\n children = []\n for row in 0...3\n for col in 0...3\n if @board.empty?([row,col])\n emptyTiles << [row, col]\n end\n end\n end\n emptyTiles.each do |tile|\n newBoard = self.board.dup\n nextMark = ((self.next_mover_mark == :x) ? :o : :x)\n newBoard[tile] = self.next_mover_mark\n newNode = TicTacToeNode.new(newBoard, nextMark, tile)\n children << newNode\n end\n return children\n end", "def new_board\n board = []\n 8.times do |row|\n board << case row\n when 0\n add_back_row(\"white\", row)\n when 1\n add_pawn_row(\"white\", row)\n when 6\n add_pawn_row(\"black\", row)\n when 7\n add_back_row(\"black\", row)\n else\n Array.new(8)\n end\n end \n board\n end", "def index\n @tiles = Tile.all\n end", "def index\n @tiles = Tile.all\n end", "def draw_tiles(tile_bag)\n tile_bag = Scrabble::TileBag.new\n @tiles = tile_bag.draw_tiles(7)\n end", "def visited_board\n Array.new(@size) { Array.new(@size, false) }\n end", "def rows\n r = []\n cells.group_by {|cell| cell.coordinate.x}.each_pair do |key,value|\n r << Row.new(position: key,cells: value)\n end\n r\n end", "def initialize\n @map = []\n 8.times do |x|\n row = []\n 8.times { |y| row << nil }\n @map << row\n end\n end", "def create_grid\n grid = Array.new(8) { Array.new(8) { [] } }\n grid.map! do |row|\n if grid.index(row).even?\n row.each { |space| row.index(space).even? ? space << 'white' : space << 'black' }\n else\n row.each { |space| row.index(space).even? ? space << 'black' : space << 'white' }\n end\n row.map! do |space|\n space << [grid.index(row), row.index(space)]\n end\n end\n grid.reverse\n end", "def three_row_grid\n grid = []\n grid << [\n Cell.new(:alive, 0, 0),\n Cell.new(:alive, 0, 1),\n Cell.new(:dead, 0, 2)\n ]\n grid << [\n Cell.new(:alive, 1, 0),\n Cell.new(:dead, 1, 1),\n Cell.new(:dead, 1, 2)\n ]\n grid << [\n Cell.new(:dead, 2, 0),\n Cell.new(:dead, 2, 1),\n Cell.new(:dead, 2, 2)\n ]\n grid\nend", "def adjacent_tiles(dx, dy)\n tiles = []\n @tiles.size.times do |x|\n @tiles.size.times do |y|\n if ((x+1 == dx || x-1 == dx) && y == dy) || \n ((y+1 == dy || y-1 == dy) && x == dx)\n tiles << [x, y]\n end\n end\n end\n tiles\n end", "def create_image_list\n @image_list = []\n\n iterate_over_each_character_in_array_of_lines(@maps[:background]) do |y,x|\n @map_image_key.each do |key, value|\n if @maps[:background][y][x] == key\n @image_list.push(\"media/tmp/tile#{value}.png\")\n end\n end\n end\n end", "def create_board(size)\n return (0...size).map{|b| (0...size).map{|bb| 0}}\n end", "def make_grid()\n grid = Array.new(GRID_SIZE) { Array.new(GRID_SIZE) }\n ## Build init grid\n x = 1\n y = 1\n File.readlines(FILENAME).each do |line|\n x = 1\n line.chars.each do |char|\n grid[y][x] = char\n x += 1\n end\n y += 1\n end\n grid\nend", "def flatten_grid\n height = grid.row_size\n width = grid.column_size\n for i in 0...height\n for j in 0...width\n @grid[i,j].flatten!\n end\n end\n end" ]

[ "0.7683736", "0.75369674", "0.75369674", "0.7233205", "0.72004014", "0.7059862", "0.69200015", "0.6895728", "0.68954366", "0.6832786", "0.68026274", "0.6753374", "0.671673", "0.66449666", "0.663908", "0.662022", "0.6562069", "0.6543913", "0.6542496", "0.65320766", "0.64748", "0.6455646", "0.64541924", "0.6414646", "0.6399434", "0.6398479", "0.6392183", "0.63696086", "0.6369085", "0.6347204", "0.6339867", "0.6296438", "0.62916434", "0.6281476", "0.6271319", "0.6262433", "0.62249595", "0.61640906", "0.6106761", "0.6098844", "0.60806274", "0.60760874", "0.6075953", "0.60597694", "0.605535", "0.6051813", "0.6019845", "0.6009066", "0.6006182", "0.5998773", "0.59916186", "0.598835", "0.59779614", "0.59761757", "0.5969639", "0.59661955", "0.5943357", "0.5937661", "0.59359044", "0.59359044", "0.59247386", "0.5920305", "0.59105164", "0.5906712", "0.5893715", "0.5889789", "0.5888888", "0.5887652", "0.5879034", "0.5864579", "0.5860685", "0.5852877", "0.5846682", "0.5835419", "0.5816137", "0.58077115", "0.57970685", "0.5795721", "0.5790852", "0.57889116", "0.57806784", "0.5777624", "0.5777624", "0.57745653", "0.5770478", "0.57667667", "0.57632685", "0.57387793", "0.57387793", "0.57323825", "0.5731825", "0.5716217", "0.57157725", "0.5704831", "0.5702549", "0.569685", "0.5690707", "0.5690275", "0.5689033", "0.5684103" ]

[ "def move_if_needed\n positions.each {|dir, pos|\n t = tile_at(pos)\n if t\n @direction, @position = directions.invert[dir], pos\n # Update the image so that the user actually sees the bug\n # turning if it did.\n update_image\n t.on\n return true\n end\n }\n return false\n end", "def move_direction(direction)\n\n #Convert the direction to a change in x and y coordinates. \n #Also set the direction we are leaving the current tile and the direction\n #we are entering the new tile (e.g. going north we leave the current tile\n #in the north direction and enter the next tile from the south \n dx, dy = 0, 0\n leave_dir, enterDir = nil, nil\n if direction == 'north' then\n dx, dy = 0, 1\n leave_dir, enter_dir = 'n', 's'\n self.facing = 0\n elsif direction == 'south'\n dx, dy = 0, -1\n leave_dir, enter_dir = 's', 'n'\n self.facing = 2\n elsif direction == 'east'\n dx, dy = 1, 0\n leave_dir, enter_dir = 'e', 'w'\n self.facing = 1\n elsif direction == 'west'\n dx, dy = -1, 0\n leave_dir, enter_dir = 'w', 'e'\n self.facing = 3\n end\n self.save!\n\n #The direction given was not one of the 4 cardinal directions\n if dx == 0 and dy == 0 then\n return false\n end\n\n #find the tile to be moved to\n x = self.tile.x + dx\n y = self.tile.y + dy\n target_tile = Tile.tile_at(x, y)\n\n if target_tile == nil then\n return false\n end\n\n #Make sure it is valid to walk over the tile\n target_tile_props = TILE_PROPERTIES[target_tile.tile_type.to_s]\n current_tile_props = TILE_PROPERTIES[self.tile.tile_type.to_s]\n leaving_traversable = current_tile_props[\"traversable\"][leave_dir]\n entering_traversable = target_tile_props[\"traversable\"][enter_dir]\n if leaving_traversable == 1 or leaving_traversable == 3 or\n entering_traversable == 1 or entering_traversable == 2 then\n return false\n end\n\n #update direction facing\n if y > self.tile.y then\n self.facing = 0\n elsif y < self.tile.y then\n self.facing = 2\n elsif x > self.tile.x then\n self.facing = 1\n elsif x < self.tile.x then\n self.facing = 3\n end\n\n\n # update battery & health according to tile property\n self.battery += TILE_PROPERTIES[target_tile.tile_type.to_s][\"batteffect\"][enter_dir]\n self.health += TILE_PROPERTIES[target_tile.tile_type.to_s][\"healtheffect\"][enter_dir]\n self.save!\n\n self.move_to(x, y)\n return true\n end", "def move_to(coordinates, map = @map)\n # Prevents operations on nil.\n return if map.nil?\n \n system(\"clear\") unless ENV['TEST']\n\n y = coordinates.first; x = coordinates.second\n\n # Prevents moving onto nonexistent and impassable tiles.\n if (!map.in_bounds(y,x) || (!map.tiles[y][x].passable))\n describe_tile(self)\n return\n end\n\n @map = map\n @location = coordinates\n tile = @map.tiles[y][x]\n\n update_map\n\n if !(tile.monsters.empty?)\n # 50% chance of monster appearing\n monster_outcome = Random.rand(0..99)\n\n if (monster_outcome < 50)\n clone = tile.monsters[Random.rand(0..(tile.monsters.size-1))].clone\n battle(clone)\n end\n\n end\n\n describe_tile(self)\n end", "def move\n if inside_table?(next_move_x_y(next_move))\n update_position!(next_move_x_y(next_move))\n else\n almost_die\n end\n end", "def move (fortress, game_map)\n return if die?\n return if exploded?\n \n if game_map and game_map.tiles[@grid_x][@grid_y].obstacle_type == Obstacle_type::Tower\n if (Gosu.milliseconds - @last_attack_time) > 100\n attack!(game_map, game_map.tiles[@grid_x][@grid_y])\n end\n next_tile_img()\n return\n end\n\n @x += (@next_tile_x - @x).abs > @speed - 1 ? @speed : 1 if @next_tile_x > @x\n @x -= (@next_tile_x - @x).abs > @speed - 1 ? @speed : 1 if @next_tile_x < @x\n @y += (@next_tile_y - @y).abs > @speed - 1 ? @speed : 1 if @next_tile_y > @y\n @y -= (@next_tile_y - @y).abs > @speed - 1 ? @speed : 1 if @next_tile_y < @y\n next_tile_img()\n if [@x, @y] == [@next_tile_x,@next_tile_y]\n next_move = @moves.shift\n # attack the fortress\n if next_move.nil?\n fortress.health = fortress.health - @damage < 0? 0 : fortress.health - @damage\n explode!\n else\n @next_tile_x, @next_tile_y = next_tile(next_move)\n end\n end\n end", "def update_player_map\n @map.tiles[@location.first][location.second].seen = true\n #corners\n @map.tiles[@location.first + 1][@location.second - 1].seen = true\n @map.tiles[@location.first - 1][@location.second - 1].seen = true\n @map.tiles[@location.first + 1][@location.second + 1].seen = true\n @map.tiles[@location.first - 1][@location.second + 1].seen = true\n #cardinal directions\n @map.tiles[@location.first][@location.second + 1].seen = true\n @map.tiles[@location.first][@location.second - 1].seen = true\n @map.tiles[@location.first - 1][@location.second].seen = true\n @map.tiles[@location.first + 1][@location.second].seen = true\n\n #TODO Uncomment\n if !(@map.tiles[@location.first][location.second].monsters.empty?)\n here = @map.tiles[@location.first][location.second]\n #20% chance of monster appearing\n monster_outcome = Random.rand(here.monsters.size * 5)\n if (monster_outcome < here.monsters.size)\n system(\"clear\")\n battle(self, here.monsters[monster_outcome])\n end\n end\n end", "def move(from, to)\n if !towers.include?(from)\n puts \"Tower #{from} does not exist.\"\n elsif !towers.include?(to)\n puts \"Tower #{to} does not exist.\"\n elsif from.equal?(to)\n puts \"You can't put the same disc where you got it from!\"\n elsif tower(to).any? && tower(to).last < tower(from).last\n puts \"Invalid move. You can't place a bigger tile on top of a smaller one.\"\n else\n tower(to) << tower(from).pop\n self.moves += 1\n end\n end", "def turn!(x, y)\n\n # Policy pesimistis lock... but simple to implement. The best option to solve this problem \n # is force the thread wait only in the locks that represents de selected adjacent tile.\n @mutex.synchronize do\n\n tile = @tiles[x][y]\n location = Location.new(@n, @m, x, y)\n\n return if(tile.is_a?(Water) || tile.is_a_plant?())\n\n if tile.is_a_vegetarian?()\n\n if Utils.generate_random_percentage() <= Configurator[:vegetarian_move_probability]\n \n @tiles = VegetarianBehaviour.move(@tiles, location)\n end\n elsif tile.is_a_predator?()\n \n if Utils.generate_random_percentage() <= Configurator[:predator_move_probability]\n\n @tiles = PredatorBehaviour.move(@tiles, location)\n end\n else\n\n @tiles = GroundBehaviour.grow(@tiles, location)\n end\n end\n end", "def move_to(coordinates, map = @map)\n # Prevents operations on nil.\n return if map.nil?\n\n y = coordinates.first; x = coordinates.second\n\n # Save the map.\n @saved_maps[@map.name] = @map if @map\n\n # Even if the player hasn't moved, we still change to true.\n # This is because we want to re-display the minimap anyway.\n @moved = true\n\n # Prevents moving onto nonexistent and impassable tiles.\n return if !(map.in_bounds(y, x) && map.tiles[y][x].passable)\n\n @map = @saved_maps[map.name] ? @saved_maps[map.name] : map\n @location = coordinates\n tile = @map.tiles[y][x]\n\n update_map\n\n unless tile.monsters.empty?\n # 50% chance to encounter monster.\n if [true, false].sample\n clone = tile.monsters[Random.rand(0..(tile.monsters.size-1))].clone\n battle(clone)\n end\n end\n end", "def move_one begTile\n @maze.get_adjacent_tiles(begTile).each do |tile|\n if (tile.is_floor) && (!@tiles.include? tile)\n @tiles.push tile\n self.move_one tile\n end\n end\n end", "def update_movement\n #p \"Unit Z = #{self.z}\"\n # Skip if the unit is carrying out movement\n if !@running\n # If there is a hidden unit at the next spot, prompt TRAP and stop processing\n if @move_route.size > 0\n case @directions[0]\n when 2 #down\n @h_unit = $game_map.get_unit(@unit.x, @unit.y+1) if ($game_map.get_unit(@unit.x, @unit.y+1).is_a?(Unit) and $game_map.get_unit(@unit.x, @unit.y+1).army != @unit.army)\n when 4 #left\n @h_unit = $game_map.get_unit(@unit.x-1, @unit.y) if ($game_map.get_unit(@unit.x-1, @unit.y).is_a?(Unit) and $game_map.get_unit(@unit.x-1, @unit.y).army != @unit.army)\n when 6 #right\n @h_unit = $game_map.get_unit(@unit.x+1, @unit.y) if ($game_map.get_unit(@unit.x+1, @unit.y).is_a?(Unit) and $game_map.get_unit(@unit.x+1, @unit.y).army != @unit.army)\n when 8 #up\n @h_unit = $game_map.get_unit(@unit.x, @unit.y-1) if ($game_map.get_unit(@unit.x, @unit.y-1).is_a?(Unit) and $game_map.get_unit(@unit.x, @unit.y-1).army != @unit.army)\n end\n end\n # The unit's direction unless there is a hidden unit at the next spot\n @dir = (@h_unit.nil? and !@move_route[0].nil? ? @directions.shift : 0)\n # Reduce unit's fuel based on terrain cost unless it encountered hidden unit\n # OR if route is a series of integers\n if @dir != 0 && @move_route[0].is_a?(MoveTile)\n @unit.fuel -= @move_route.shift.cost\n end\n \n @counter = 1\n case @dir\n when 2 then @real_y += 16\n when 4 then @real_x -= 16\n when 6 then @real_x += 16\n when 8 then @real_y -= 16\n else # when zero (TRAP or not moving)\n @counter = 7\n end\n @running = true\n else\n # Move the sprite to its destination slowly (4 frames per tile)\n @counter += 1\n case @dir\n when 2 then @real_y += 16\n when 4 then @real_x -= 16\n when 6 then @real_x += 16\n when 8 then @real_y -= 16\n end\n # Change the unit's (x,y) values since it reached the tile\n if @counter == 8\n @running = false\n case @dir\n when 2 then @unit.y+=1\n when 4 then @unit.x-=1\n when 6 then @unit.x+=1\n when 8 then @unit.y-=1\n end\n # Slide the cursor with the unit\n unless @unit.loaded or (@dir == 0 and @h_unit.nil?)\n #$game_player.slide_to(@unit.x, @unit.y)\n $game_player.add_move_action(@unit.x, @unit.y, nil,0,nil,true)\n #$game_player.x = @unit.x\n #$game_player.y = @unit.y\n #$game_player.real_x = @unit.x * 128\n #$game_player.real_y = @unit.y * 128\n end\n \n # When done moving the unit or encounter hidden unit\n if @move_route.size == 0 or !@h_unit.nil?\n # Play TRAP animation if hidden unit\n @h_unit.sprite.play_animation('trap') unless @h_unit.nil?\n @unit.trap = (!@h_unit.nil?)\n # Fade the movement SE\n #Audio.bgs_fade(300)\n Audio.bgs_stop\n # Turn off flags\n @is_moving = false\n $spriteset.unit_moving = false\n # Unload the unit\n @unit.loaded = false if @unit.loaded\n # Update the FOW\n $spriteset.update_fow\n end\n end # if @counter != 4\n end # end of if !@running\n end", "def move_down\n down_tile = Couple.new(@location.first + 1, @location.second)\n move_to(down_tile)\n end", "def move_type_toward_player\n # Get difference in player coordinates\n sx = @x - $player.x\n sy = @y - $player.y\n # Get absolute value of difference\n abs_sx = sx > 0 ? sx : -sx\n abs_sy = sy > 0 ? sy : -sy\n # If separated by 20 or more tiles matching up horizontally and vertically\n if sx + sy >= 20\n # Random\n move_random\n return\n end\n\n # What if they follow more aggressively on harder difficulty?\n\n # Branch by random numbers 0-5\n case rand(6)\n when 0..3 # Approach player\n move_toward_player\n when 4 # random\n move_random\n when 5 # 1 step forward\n move_forward\n end\n\n end", "def move_type_avoid_player\n # Get difference in player coordinates\n sx = @x - $player.x\n sy = @y - $player.y\n # Get absolute value of difference\n abs_sx = sx > 0 ? sx : -sx\n abs_sy = sy > 0 ? sy : -sy\n # If separated by 20 or more tiles matching up horizontally and vertically\n if sx + sy >= 20\n # Random\n move_random\n return\n end\n\n # What if they follow more aggressively on harder difficulty?\n # Branch by random numbers 0-5\n case rand(6)\n when 0..3 # Approach player\n move_away_from_player\n when 4 # random\n move_random\n when 5 # 1 step forward\n move_forward\n end\n end", "def move(direction, map)\n x = @x_location\n y = @y_location\n \n case direction\n when :north then y -= 1\n when :south then y += 1 \n when :west then x -= 1\n when :east then x += 1 \n end\n \n unless map[y][x].is_a_wall?\n @x_location = x\n @y_location = y\n end \n end", "def move\n return false unless on_the_table?\n\n next_x, next_y = facing.next_move_position(x, y)\n unless falls_off?(next_x, next_y)\n self.x = next_x\n self.y = next_y\n true\n else\n false\n end\n end", "def move_type_toward_player\n # Get difference in player coordinates\n sx = @x - $game_player.x\n sy = @y - $game_player.y\n # Get absolute value of difference\n abs_sx = sx > 0 ? sx : -sx\n abs_sy = sy > 0 ? sy : -sy\n # If separated by 20 or more tiles matching up horizontally and vertically\n if sx + sy >= 20\n # Random\n move_random\n return\n end\n # Branch by random numbers 0-5\n case rand(6)\n when 0..3 # Approach player\n move_toward_player\n when 4 # random\n move_random\n when 5 # 1 step forward\n move_forward\n end\n end", "def moves\n directions = MOVE_DIRECTIONS[self.piece_type]\n directions.map do |(dx, dy)|\n x, y = self.position\n [x + dx, y + dy]\n end.select { |coord| on_board?(coord) && not_blocked?(coord) }\n\n # cond = board[[coord]].nil? || board[[coord]].color != self.color\n # opp_cond = !(board[coord].color == self.color)\n # coord = [2,4]\n # [[2,3], nil, [3,4]]\n #(self.board[coord].color != self.color)\n end", "def update_player_route\n #@passed_positions = []\n ### The cursor was located outside of the highlighted tiles\n if @outside_of_range\n @outside_of_range = false\n # The cursor moves back into the range, and over a spot where arrow was drawn\n result = false\n @passed_positions.each_index{|index|\n path = @passed_positions[index]\n if [path.x,path.y] == [cursor.x,cursor.y]\n result = index\n break\n end\n }\n # It found the spot where the arrow was drawn\n if result\n @passed_positions = @passed_positions[0, result+1]\n # If moved back into range and over the unit's location\n elsif [cursor.x,cursor.y] == [@unit.x, @unit.y]\n @passed_positions = []\n # If the cursor moves back into range but not where an arrow was drawn\n elsif @positions[cursor.x][cursor.y].is_a?(MoveTile)\n # See if can extend current path to here\n added_path = extend_path(@unit, @passed_positions, [cursor.x,cursor.y])\n # If possible to extend path, do so\n if added_path != false\n @passed_positions += added_path\n else \n # Generate new path\n @passed_positions = find_path(@positions, \n @positions[@unit.x][@unit.y],\n @positions[cursor.x][cursor.y])\n end\n # Did not move back in range; still outside \n else\n @outside_of_range = true\n end\n \n \n else\n ### If position player moves over was already passed over\n result = false\n @passed_positions.each_index{|index|\n path = @passed_positions[index]\n if [path.x,path.y] == [cursor.x,cursor.y]\n result = index\n break\n end\n }\n if result\n @passed_positions = @passed_positions[0, result+1]\n ### If position is outside of available positions...\n elsif !@positions[cursor.x][cursor.y].is_a?(MoveTile)\n # Activate switch to tell game player is out of move range\n @outside_of_range = true\n ### If the cursor is anywhere in the range EXCEPT on the selected unit\n elsif [cursor.x,cursor.y] != [@unit.x, @unit.y]\n # See if can extend current path to here\n added_path = extend_path(@unit, @passed_positions, [cursor.x,cursor.y])\n # If possible to extend path, do so\n if added_path != false\n @passed_positions += added_path\n else \n # Generate new path\n @passed_positions = find_path(@positions, \n @positions[@unit.x][@unit.y],\n @positions[cursor.x][cursor.y])\n end\n ### Else player is back to the unit's position\n else\n # Reset all stored values (starting fresh)\n @passed_positions = []\n end\n end\n draw_route unless @outside_of_range\n end", "def move(all_units)\n all_units.each do |char|\n next unless char.alive\n\n targets = []\n\n queue = []\n queue.push([1, char.pos])\n\n distances = Hash.new\n previous = Hash.new\n\n while queue.length > 0\n curr = queue.shift\n # puts \"Q: #{curr[0]} POS: #{curr[1]}\"\n new_round = curr[0] + 1\n next if targets.length > 0 # Skip branches if we've found targets.\n\n DIRS.each do |dir| # For each potential neighbor...\n f_pos = curr[1] + dir\n # puts \"\\tCHECKING: #{f_pos} LINE: #{LINES[f_pos[0]][f_pos[1]]}\"\n if LINES[f_pos[0]][f_pos[1]] == '.' # Check map for wall\n skip_add = false\n all_units.each do |check|\n next if check == char || !check.alive\n if check.pos == f_pos\n if char.type != check.type # If enemy...\n # targets.push([check, curr[2]]) # Using state path\n targets.push([check, curr[0], curr[1]]) # Using previous hash\n end\n skip_add = true # Can't walk through units.\n end\n end\n # puts \"\\tSKIP CHECK: #{skip_add} PAST: #{curr[2]} EXISTS: #{curr[2].include?(f_pos)}\"\n # if !skip_add && !curr[2].include?(f_pos)\n # # puts \"\\tADDING: #{f_pos}\"\n # new_path = Marshal.load(Marshal.dump(curr[2]))\n # not_queued = queue.index {|q| q[1] == f_pos}.nil?\n # queue.push([new_round, f_pos, new_path.push(f_pos)]) if not_queued\n # end\n if (!skip_add && (distances[f_pos].nil? || new_round < distances[f_pos]))\n distances[f_pos] = new_round\n previous[f_pos] = curr[1]\n queue.push([new_round, f_pos])\n end\n end\n end\n end\n\n targets.each_with_index do |target, i|\n # puts \"#{char} #{i}: #{target[0]} PATH:#{target[1]}\"\n # puts \"#{char} #{i}: #{target[0]} NUM_STEPS:#{target[1]}\"\n end\n if targets.length > 0\n # Move\n nearest_target = targets[0] # Only interested in nearest enemy.\n # if nearest_target[1].length > 1 # More than 1 step away?\n # char.pos = nearest_target[1][1] # Step towards nearest enemy.\n # end\n if nearest_target[1] > 1 # More than 1 step away?\n next_pos = nearest_target[2]\n next_pos = previous[next_pos] while previous[next_pos] != char.pos\n # char.pos = nearest_target[1][1] # Step towards nearest enemy.\n # puts \"#{char} GOES TO #{next_pos}\"\n char.pos = next_pos # Step towards nearest enemy.\n end\n\n d_to_closest = (nearest_target[0].pos - char.pos).to_a.collect!{|v| v.abs}.sum\n # puts \"\\tC:#{char} T:#{nearest_target[0]} D_TO_T: #{d_to_closest}\"\n if d_to_closest == 1 # In melee range!\n targets_by_hp = targets.select {|t| (t[0].pos - char.pos).to_a.collect!{|t| t.abs}.sum == 1}.sort_by {|t| t[0].hp}\n target = targets_by_hp[0] # Lowest hp in melee range.\n target[0].hp -= char.attack\n # puts \"#{char} HITS #{target[0]}\"\n\n if target[0].hp <= 0\n puts \"#{char} KILLS #{target[0]}\"\n target[0].hp = 0\n target[0].alive = false\n end\n end\n else\n all_alive = all_units.select {|unit| unit.alive }\n all_elves = all_alive.select {|unit| unit.type == 'E'}\n return false if all_elves.length == 0 || all_elves.length == all_alive.length\n end\n end\n\n return true\nend", "def update\n\n # Check if the player is colliding with a deadly tile. If so: Lose!\n if Position.collide?(@active_tile, @player)\n timer = Time.new\n until Time.now - timer > 3\n @player.move(:none)\n end\n Game.lose_level\n Game.lose_life\n new_level\n end\n\n # Periodically activate a deadly tile in order of decreasing rarity\n if @player.direction != :none\n if Time.now - @enemy_timer > Settings.enemy_spawn_rate\n eligable_tiles = []\n Grid.tiles.each do |tile|\n if !@target.include?(tile.contents) &&\n tile.is_deadly == false &&\n tile.contents != :empty &&\n tile.contents != \" \"\n eligable_tiles << tile.contents\n end\n end\n @enemy_tile = Grid.characters.detect{|tile| eligable_tiles.include? (tile)}\n Grid.tiles.each do |tile|\n tile.is_deadly = true if tile.contents == @enemy_tile\n end\n @enemy_timer = Time.new\n end\n end\n\n # Align the player's position to the closest tile on the grid\n if Position.within_bounds?(@player)\n @player.x, @player.y = @player.x.round_to(Settings.tile_size), @player.y.round_to(Settings.tile_size)\n end\n\n # Wrap the player around the screen if they reach the edge\n Position.wrap(@player)\n\n # Respond to Keypresses\n if button_down? KbEscape\n close\n puts \"You reached level #{Game.current_level}. Goodbye!\"\n exit\n end\n Moving.parts.each {|part| part.move :none if button_down? KbSpace}\n @player.move(:left) if button_down?(KbLeft) && Position.within_bounds?(@player) && (@player.direction != :right)\n @player.move(:right) if button_down?(KbRight) && Position.within_bounds?(@player) && (@player.direction != :left)\n @player.move(:up) if button_down?(KbUp) && Position.within_bounds?(@player) && (@player.direction != :down)\n @player.move(:down) if button_down?(KbDown) && Position.within_bounds?(@player) && (@player.direction != :up)\n\n # Move all the movable objects in the game\n @player.move(@player.direction)\n Moving.all_move\n \n # Update the player's location on the grid\n if Position.within_bounds?(@player)\n @active_tile = Grid.tiles\n .find {|tile| tile.x == @player.x\n .round_to(Settings.tile_size) && tile.y == @player.y\n .round_to(Settings.tile_size)}\n end\n\n # Have the invisible spacer tile track the player's position\n @head.x, @head.y, @head.direction = @player.path.last[0], @player.path.last[1], @player.path.last[2] \n \n # Update all the tail sections so the previous location of the section in front\n # becomes their current location\n Moving.parts.each_with_index do |section, index|\n section.path << [section.x.round_to(Settings.tile_size), section.y.round_to(Settings.tile_size), section.direction]\n leader = Moving.parts[index-1].path.last if index > 0\n section.x, section.y, section.direction = leader[0], leader[1], leader[2] if index > 0\n section.path.drop(1) if section.path.size > @message.size + 1\n end\n \n # If the player moves over a target tile create a new tail section\n if @active_tile.is_edible\n lastpath = Moving.parts.last.path.last\n image = Image.from_text(@active_tile.contents, Settings.tile_size, options={font: Settings.font, bold: true})\n Tail.new(lastpath[0], lastpath[1], lastpath[2], image)\n @completed << @active_tile.contents.to_s\n Grid.subtract_character(@active_tile.contents)\n @active_tile.contents = :empty\n @target = @target.drop(1)\n Grid.tiles.each {|tile| tile.is_edible = false}\n end\n\n # Set the target letter\n Grid.tiles.each {|tile| tile.is_edible = true if tile.contents == @target[0]}\n\n # Check if the player has collected all the target letters and in the case that\n # they have, check if they have arrived at the mailbox. If so: Level up!\n if @message.join(\"\") == @completed\n if @active_tile.y.between?(Settings.margin_bottom + Settings.tile_size / 2, Settings.margin_bottom + Settings.tile_size * 2) &&\n @active_tile.x.between?(Settings.margin_left, Settings.margin_left + Settings.tile_size)\n @player.move(:none)\n sleep 2\n Game.add_life\n new_level\n end\n end\n end", "def perform_move(move)\n start_location = move[0]\n destination = move[1]\n i,j = start_location\n a,b = destination\n jumped = false\n #unless on_board?(destination)\n #raise error\n\n piece = @rows[i][j]\n all_possible_moves = piece.slide_moves(@rows) + piece.jump_moves(@rows)\n\n unless !all_possible_moves.include?(destination)#change to throw error\n\n jump = piece.jump_moves(@rows)\n if jump.include?(destination)\n jumped = true\n #removes jumped piece from board\n add = (piece.color == :white ? -1 : 1)\n if destination[1] > start_location[1]\n middle_b = destination[1] - 1\n middle_a = destination[0] + add\n delete_piece = @rows[middle_a][middle_b]\n delete_piece.location = nil\n @rows[middle_a][middle_b] = nil\n else\n middle_b = destination[1] + 1\n middle_a = destination[0] + add\n delete_piece = @rows[middle_a][middle_b]\n delete_piece.location = nil\n @rows[middle_a][middle_b] = nil\n end\n end\n\n @rows[i][j] = nil\n piece.location = [a,b]\n @rows[a][b] = piece\n end\n #checks if moved piece should be kinged, if so sets king to true\n piece.make_king\n if jumped\n #go_again unless (@rows[a][b]).jump_moves(@rows).nil?\n end\n end", "def move_type_custom\n # Interrupt if not stopping\n return if jumping? or moving?\n\n # Loop until finally arriving at move command list\n while @move_route_index < @move_route.list.size\n\n # Acquiring move command\n command = @move_route.list[@move_route_index]\n\n # If command code is 0 (last part of list)\n if command.code == 0\n\n # Restart\n @move_route_index = 0 if @move_route.repeat\n\n # If [repeat action] option is OFF\n if !@move_route.repeat\n # If move route is forcing\n if @move_route_forcing\n\n # Release forced move route\n @move_route_forcing = false\n\n # Restore original move route\n @move_route = @original_move_route\n @move_route_index = @original_move_route_index\n @original_move_route = nil\n end\n # Clear stop count\n @stop_count = 0\n end\n return\n end\n\n # COL 1\n\n # During move command (from move down to jump)\n if command.code <= 14\n # Branch by command code\n case command.code\n when 1; move_down\n when 2 # Move left\n move_left\n when 3 # Move right\n move_right\n when 4 # Move up\n move_up\n when 5 # Move lower left\n move_lower_left\n when 6 # Move lower right\n move_lower_right\n when 7 # Move upper left\n move_upper_left\n when 8 # Move upper right\n move_upper_right\n when 9 # Move at random\n move_random\n when 10 # Move toward player\n move_toward_player\n when 11 # Move away from player\n move_away_from_player\n when 12 # 1 step forward\n move_forward\n when 13 # 1 step backward\n move_backward\n when 14 # Jump\n jump(command.parameters[0], command.parameters[1])\n end\n # If movement failure occurs when [Ignore if can't move] option is OFF\n if not @move_route.skippable and not moving? and not jumping?\n return\n end\n @move_route_index += 1\n return\n end\n\n # If waiting\n if command.code == 15\n # Set wait count\n @wait_count = command.parameters[0] * 2 - 1\n @move_route_index += 1\n return\n end\n\n # COL 2\n\n # If direction change command\n if command.code >= 16 and command.code <= 26\n # Branch by command code\n case command.code\n when 16 # Turn down\n turn_down\n when 17 # Turn left\n turn_left\n when 18 # Turn right\n turn_right\n when 19 # Turn up\n turn_up\n when 20 # Turn 90° right\n turn_right_90\n when 21 # Turn 90° left\n turn_left_90\n when 22 # Turn 180°\n turn_180\n when 23 # Turn 90° right or left\n turn_right_or_left_90\n when 24 # Turn at Random\n turn_random\n when 25 # Turn toward player\n turn_toward_player\n when 26 # Turn away from player\n turn_away_from_player\n end\n @move_route_index += 1\n return\n end\n\n # COL 3\n\n # If other command\n if command.code >= 27\n # Branch by command code\n case command.code\n \n when 29 # Change speed\n self.move_speed = command.parameters[0]\n when 30 # Change freq\n @move_frequency = command.parameters[0]\n when 31 # Move animation ON\n @walk_anime = true\n when 32 # Move animation OFF\n @walk_anime = false\n when 33 # Stop animation ON\n @step_anime = true\n when 34 # Stop animation OFF\n @step_anime = false\n when 35 # Direction fix ON\n @direction_fix = true\n when 36 # Direction fix OFF\n @direction_fix = false\n when 37 # Through ON\n @through = true\n when 38 # Through OFF\n @through = false\n when 39 # Always on top ON\n @always_on_top = true\n when 40 # Always on top OFF\n @always_on_top = false\n when 41 # Change Graphic\n @character_name = command.parameters[0]\n if @original_direction != command.parameters[2]\n @direction = command.parameters[2]\n @original_direction = @direction\n @prelock_direction = 0\n end\n if @original_pattern != command.parameters[3]\n @pattern = command.parameters[3]\n @original_pattern = @pattern\n end\n when 42 # Change Opacity\n @opacity = command.parameters[0]\n when 43 # Change Blending\n @blend_type = command.parameters[0]\n when 44 # Play SE\n $game_system.se_play(command.parameters[0])\n when 45 # Script\n result = eval(command.parameters[0])\n end\n @move_route_index += 1\n end\n\n\n end\n\n\n end", "def movement(row1, col1, board)\n\n possible_moves=Array.new\n if @color==\"white\"\n # checking square in front\n if row1+1<8 && board.get_square(row1+1,col1).occupied==false\n possible_moves <<[row1+1,col1]\n\n #checking 2 squares forward\n if @position==\"initial\" && !board.get_square(row1+2,col1).occupied\n possible_moves <<[row1+2,col1]\n end\n end\n\n # checking attacking squares\n if row1+1<8 && col1-1>=0\n atk_sq1 = board.get_square(row1+1,col1-1)\n\n if atk_sq1.occupied && atk_sq1.piece.color != @color || !atk_sq1.occupied && atk_sq1.en_passanted\n possible_moves <<[row1+1,col1-1]\n end\n end\n if row1+1<8 && col1+1<8\n atk_sq2 = board.get_square(row1+1,col1+1)\n if atk_sq2.occupied && atk_sq2.piece.color != @color || !atk_sq2.occupied && atk_sq2.en_passanted\n possible_moves <<[row1+1,col1+1]\n end\n end\n\n elsif @color==\"black\"\n # checking square in front\n if row1-1>=0 && board.get_square(row1-1,col1).occupied==false\n possible_moves <<[row1-1,col1]\n\n # checking for 2 squares forward\n if @position==\"initial\" && board.get_square(row1-2,col1).occupied==false\n possible_moves <<[row1-2,col1]\n end\n end\n\n # checking attacking squares\n if row1-1>=0 && col1-1>=0\n atk_sq1 = board.get_square(row1-1,col1-1)\n if (atk_sq1.occupied && atk_sq1.piece.color != @color) || (!atk_sq1.occupied && atk_sq1.en_passanted)\n possible_moves <<[row1-1,col1-1]\n end\n end\n if row1-1>=0 && col1+1<8\n atk_sq2 = board.get_square(row1-1,col1+1)\n if (atk_sq2.occupied && atk_sq2.piece.color != @color) || (!atk_sq2.occupied && atk_sq2.en_passanted)\n possible_moves <<[row1-1,col1+1]\n end\n end\n end\n\n #removing moves that go off the board\n possible_moves = possible_moves.select do |a|\n a[0]>=0 && a[0]<8 && a[1]>=0 && a[1]<8\n end\n\n return possible_moves\n\n end", "def move(route)\n @move_route = route\n # Get path directions\n @directions = []\n\n if route.size > 0\n # If actually moving a unit via player command\n if route[0].is_a?(MoveTile)\n case [route[0].x - unit.x, route[0].y - unit.y]\n when [0, 1] then @directions.push(2)\n when [-1,0] then @directions.push(4)\n when [1, 0] then @directions.push(6)\n when [0,-1] then @directions.push(8)\n end\n route.each_index{|i| \n break if i == route.size-1\n movetile = route[i]\n nexttile = route[i+1]\n case [nexttile.x - movetile.x, nexttile.y - movetile.y]\n when [0, 1] then @directions.push(2)\n when [-1,0] then @directions.push(4)\n when [1, 0] then @directions.push(6)\n when [0,-1] then @directions.push(8)\n end\n }\n # Moving unit through eventing or dropping (array of ints)\n else\n @directions = route\n end\n end\n\n @h_unit = nil\n # Play moving sound effect if moving\n Config.play_se(@unit.move_se) if route.size != 0\n # Flags for graphic purposes\n @is_moving = true\n $spriteset.unit_moving = true\n end", "def move_type_custom\n # Interrupt if not stopping\n if jumping? or moving?\n return\n end\n # Loop until finally arriving at move command list\n while @move_route_index < @move_route.list.size\n # Acquiring move command\n command = @move_route.list[@move_route_index]\n # If command code is 0 (last part of list)\n if command.code == 0\n # If [repeat action] option is ON\n if @move_route.repeat\n # First return to the move route index\n @move_route_index = 0\n end\n # If [repeat action] option is OFF\n unless @move_route.repeat\n # If move route is forcing\n if @move_route_forcing and not @move_route.repeat\n # Release forced move route\n @move_route_forcing = false\n # Restore original move route\n @move_route = @original_move_route\n @move_route_index = @original_move_route_index\n @original_move_route = nil\n end\n # Clear stop count\n @stop_count = 0\n end\n return\n end\n # During move command (from move down to jump)\n if command.code <= 14\n # Branch by command code\n case command.code\n when 1 # Move down\n move_down\n when 2 # Move left\n move_left\n when 3 # Move right\n move_right\n when 4 # Move up\n move_up\n when 5 # Move lower left\n move_lower_left\n when 6 # Move lower right\n move_lower_right\n when 7 # Move upper left\n move_upper_left\n when 8 # Move upper right\n move_upper_right\n when 9 # Move at random\n move_random\n when 10 # Move toward player\n move_toward_player\n when 11 # Move away from player\n move_away_from_player\n when 12 # 1 step forward\n move_forward\n when 13 # 1 step backward\n move_backward\n when 14 # Jump\n jump(command.parameters[0], command.parameters[1])\n end\n # If movement failure occurs when [Ignore if can't move] option is OFF\n if not @move_route.skippable and not moving? and not jumping?\n return\n end\n @move_route_index += 1\n return\n end\n # If waiting\n if command.code == 15\n # Set wait count\n @wait_count = command.parameters[0] * 2 - 1\n @move_route_index += 1\n return\n end\n # If direction change command\n if command.code >= 16 and command.code <= 26\n # Branch by command code\n case command.code\n when 16 # Turn down\n turn_down\n when 17 # Turn left\n turn_left\n when 18 # Turn right\n turn_right\n when 19 # Turn up\n turn_up\n when 20 # Turn 90° right\n turn_right_90\n when 21 # Turn 90° left\n turn_left_90\n when 22 # Turn 180°\n turn_180\n when 23 # Turn 90° right or left\n turn_right_or_left_90\n when 24 # Turn at Random\n turn_random\n when 25 # Turn toward player\n turn_toward_player\n when 26 # Turn away from player\n turn_away_from_player\n end\n @move_route_index += 1\n return\n end\n # If other command\n if command.code >= 27\n # Branch by command code\n case command.code\n when 27 # Switch ON\n $game_switches[command.parameters[0]] = true\n $game_map.need_refresh = true\n when 28 # Switch OFF\n $game_switches[command.parameters[0]] = false\n $game_map.need_refresh = true\n when 29 # Change speed\n @move_speed = command.parameters[0]\n when 30 # Change freq\n @move_frequency = command.parameters[0]\n when 31 # Move animation ON\n @walk_anime = true\n when 32 # Move animation OFF\n @walk_anime = false\n when 33 # Stop animation ON\n @step_anime = true\n when 34 # Stop animation OFF\n @step_anime = false\n when 35 # Direction fix ON\n @direction_fix = true\n when 36 # Direction fix OFF\n @direction_fix = false\n when 37 # Through ON\n @through = true\n when 38 # Through OFF\n @through = false\n when 39 # Always on top ON\n @always_on_top = true\n when 40 # Always on top OFF\n @always_on_top = false\n when 41 # Change Graphic\n @tile_id = 0\n @character_name = command.parameters[0]\n @character_hue = command.parameters[1]\n if @original_direction != command.parameters[2]\n @direction = command.parameters[2]\n @original_direction = @direction\n @prelock_direction = 0\n end\n if @original_pattern != command.parameters[3]\n @pattern = command.parameters[3]\n @original_pattern = @pattern\n end\n when 42 # Change Opacity\n @opacity = command.parameters[0]\n when 43 # Change Blending\n @blend_type = command.parameters[0]\n when 44 # Play SE\n $game_system.se_play(command.parameters[0])\n when 45 # Script\n result = eval(command.parameters[0])\n end\n @move_route_index += 1\n end\n end\n end", "def update_player_route\n @passed_positions ||= []\n @starting_position = [@selected_unit.x, @selected_unit.y]\n ### The cursor was located outside of the highlighted tiles\n if @outside_of_range\n @outside_of_range = false\n # The cursor moves back into the range, and over a spot where arrow was drawn\n result = false\n @passed_positions.each_index{|index|\n path = @passed_positions[index]\n if [path.x,path.y] == [cursor.x,cursor.y]\n result = index\n break\n end\n }\n # It found the spot where the arrow was drawn\n if result\n @passed_positions = @passed_positions[0, result+1]\n # If moved back into range and over the unit's location\n elsif [cursor.x,cursor.y] == [@selected_unit.x, @selected_unit.y]\n @passed_positions = []\n # If the cursor moves back into range but not where an arrow was drawn\n elsif @positions[cursor.x][cursor.y].is_a?(MoveTile)\n # See if can extend current path to here\n added_path = extend_path(@selected_unit, @passed_positions, [cursor.x,cursor.y])\n # If possible to extend path, do so\n if added_path != false\n @passed_positions += added_path\n else \n # Generate new path\n @passed_positions = find_path(@positions, \n @positions[@selected_unit.x][@selected_unit.y],\n @positions[cursor.x][cursor.y])\n end\n # Did not move back in range; still outside \n else\n @outside_of_range = true\n end\n \n \n else\n ### If position player moves over was already passed over\n result = false\n @passed_positions.each_index{|index|\n path = @passed_positions[index]\n if [path.x,path.y] == [cursor.x,cursor.y]\n result = index\n break\n end\n }\n if result\n @passed_positions = @passed_positions[0, result+1]\n ### If position is outside of available positions...\n elsif !@positions[cursor.x][cursor.y].is_a?(MoveTile)\n # Activate switch to tell game player is out of move range\n @outside_of_range = true\n ### If the cursor is anywhere in the range EXCEPT on the selected unit\n elsif [cursor.x,cursor.y] != [@selected_unit.x, @selected_unit.y]\n # See if can extend current path to here\n added_path = extend_path(@selected_unit, @passed_positions, [cursor.x,cursor.y])\n # If possible to extend path, do so\n if added_path != false\n @passed_positions += added_path\n else \n # Generate new path\n @passed_positions = find_path(@positions, \n @positions[@selected_unit.x][@selected_unit.y],\n @positions[cursor.x][cursor.y])\n end\n ### Else player is back to the unit's position\n else\n # Reset all stored values (starting fresh)\n @passed_positions = []\n end\n end\n draw_route unless @outside_of_range\n end", "def move\n # Choose a random cell\n # JAVI: Extend this part of the method to choose cell with lower number of surveys (on average)\n cell = cells_around(@loc).rand\n \n # possibly a good location\n # first look ahead \n if !touches_path? cell, @path, @loc \n \n # do 1 more look ahead for each further possible step to avoid this:\n #\n # . . . . .\n # v < < . .\n # v . ^ . .\n # v . ^ < .\n # v . x o .\n # v x ? x .\n # > > ^ . .\n # . . . . . \n #\n # ^v<> = path\n # o = start\n # ? = possible good looking next move\n # x = shows that this is a dead end. All further steps are not allowed.\n #\n # Therefore, if any further step from cell is possible, then we're good to go\n \n # Configure future\n future_path = @path.dup\n future_path << cell\n second_steps = cells_around(cell)\n \n # If at least one of the future steps is valid, go for it\n second_steps.each do |ss|\n if !touches_path? ss, future_path, cell\n @path << cell\n @loc = cell\n @distance -= 1 \n return true\n end\n end \n end \n \n Rails.logger.debug \"*****************\"\n Rails.logger.debug \"Location: #{@loc.to_s}, New move: #{cell.to_s}.\"\n Rails.logger.debug \"Path: #{@path.to_s}\" \n \n false \n #cells = Cell.all :conditions => \"(x = #{@x-1} AND y = #{@y}) OR (x = #{@x+1} AND y = #{@y}) OR (x = #{@x} AND y = #{@y-1}) OR (x = #{@x} AND y = #{@y+1})\",\n # :order => \"positive_count + negative_count ASC\"\n \n # if all the cells have already been surveyed, weight index to those with few surveys \n #if cells.size == 4\n # i = rand(3)\n # i = (i - (i * 0.1)).floor \n # @x = cells[i].x\n # @y = cells[i].y\n # return\n #end\n \n # if there are empty cells, make a new cell where there's a gap and use that \n #[@x, @y-1] *<-- ALWAYS GOING DOWN\n #existing_cells = cells.map {|c| [c.x, c.y]}\n #survey_cell = (possible_cells - existing_cells).rand\n end", "def fast_dance(direction, tiles_hash)\n raise \"You can't move like that, oct :(\" if tiles_hash[direction] == nil\n tiles_hash[direction]\nend", "def jump_moves\n moves = [] # initializes empty move array\n\n # choses \"forward\" y direction based on piece team\n if @team == \"l\"\n dir = 1\n else\n dir = -1\n end\n\n # looks at the two forward far diagonal positions and adds them to moves array if there are no pieces there and an opponent piece in between\n pos1 = [@x_pos + 2, @y_pos + 2*dir]\n moves << pos1 if Piece.all.find{|p| p.x_pos == @x_pos + 1 && p.y_pos == @y_pos + dir && p.team != @team} && Piece.all.none?{|p| [p.x_pos, p.y_pos] == pos1}\n pos2 = [@x_pos - 2, @y_pos + 2*dir]\n moves << pos2 if Piece.all.find{|p| p.x_pos == @x_pos - 1 && p.y_pos == @y_pos + dir && p.team != @team} && Piece.all.none?{|p| [p.x_pos, p.y_pos] == pos2}\n \n\n # deletes any moves with coordinates that aren't on the board\n moves.delete_if{|move| move.find{|n| n < 0 || n > 7}}\n return moves\n end", "def try_move row, column, path\n if row >= 0 and row < @level.size and\n column >= 0 and column < @level.last.size and\n @level[row] and @level[row][column] and\n path.is_not_yet_explored?(row, column)\n @moves_queue << [row, column, path]\n end\n end", "def move_neighbours()\n # Make sure to check for doorways that can't be passed through diagonally!\n # Start with the current list from neighbours()\n # foreach cell in that list, remove that cell if either of the conditions are met:\n # it is not passable\n # it is diagonal, and either it or this square is a doorway\n end", "def tryMove\n #Resets the angle continuously to provide accurate data.\n @angle = Math.atan2(@y - @map.player.y, @x - @map.player.x) - Math::PI / 2\n #Sets axis of acceleration with relation to the direction.\n if @direction == 1\n @aceY = Math.sin(@angle - Math::PI / 2) / 4\n else\n @aceX = Math.cos(@angle - Math::PI / 2) / 4\n end\n #Adds acceleration to velocity.\n @velX += @aceX\n @velY += @aceY\n #Terminal velocity is 3.\n if @velX > 3\n velX = 3\n elsif @velX < -3\n velX = -3\n end\n #Checks for collision and moves the missile.\n collidesWithPlayer\n detectCollision\n end", "def determine_moves(loc)\n\n piece = @spaces[loc]\n\n moveset = []\n attackset = []\n new_moves = []\n\n x = loc[0]\n y = loc[1]\n\n enemy_king_checked = false\n\n\n case piece.type\n\n when \"pawn\"\n\n if piece.color == \"white\"\n\n new_moves << [x, y+1]\n new_moves << [x,y+2] if y == 1\n\n if @spaces[new_moves[0]].nil?\n\n moveset << new_moves[0]\n moveset << new_moves[1] if y == 1\n\n end\n\n atk_moves = [[x+1, y+1], [x-1, y+1]]\n atk_moves.each do |move|\n attackset << move if @spaces[move].nil?.! and @spaces[move].color == \"black\"\n if @spaces[move].nil?.!\n enemy_king_checked = true if @spaces[move].color == \"black\" and @spaces[move].type == \"king\"\n end\n end\n \n\n elsif piece.color == \"black\"\n\n new_moves = [[x, y-1]]\n new_moves << [x,y-2] if y == 6\n\n if @spaces[new_moves[0]].nil?\n\n moveset << new_moves[0]\n moveset << new_moves[1] if loc[1] == 6\n\n end\n\n atk_moves = [[x+1, y-1], [x-1, y-1]]\n atk_moves.each do |move|\n attackset << move if @spaces[move].nil?.! and @spaces[move].color == \"white\"\n if @spaces[move].nil?.!\n enemy_king_checked = true if @spaces[move].color == \"white\" and @spaces[move].type == \"king\"\n end\n end\n end\n\n @spaces[loc].moveset = moveset\n @spaces[loc].attackset = attackset\n \n\n when \"rook\"\n\n runner(loc, :north)\n runner(loc, :east)\n runner(loc, :south)\n runner(loc, :west)\n\n when \"knight\"\n\n possible_directions =\n [ [x+1, y+2],\n [x+1, y-2],\n [x-1, y+2],\n [x-1, y-2],\n [x+2, y+1],\n [x+2, y-1],\n [x-2, y+1],\n [x-2, y-1] ]\n\n moveset = possible_directions.select do |d|\n (d[0].between?(0,7) & d[1].between?(0,7)) and @spaces[d].nil?\n end\n\n attackset = possible_directions.select do |d|\n (d[0].between?(0,7) & d[1].between?(0,7)) and (@spaces[d].nil?.! and @spaces[d].color != @spaces[loc].color)\n end\n\n @spaces[loc].moveset = moveset\n @spaces[loc].attackset = attackset\n\n\n when \"bishop\"\n\n runner(loc, :northeast)\n runner(loc, :southeast)\n runner(loc, :northwest)\n runner(loc, :southwest)\n\n\n when \"queen\"\n\n runner(loc, :north)\n runner(loc, :northeast)\n runner(loc, :east)\n runner(loc, :southeast)\n runner(loc, :south)\n runner(loc, :southwest)\n runner(loc, :west)\n runner(loc, :northwest)\n\n\n when \"king\"\n\n runner(loc, :north, 1)\n runner(loc, :northeast, 1)\n runner(loc, :east, 1)\n runner(loc, :southeast, 1)\n runner(loc, :south, 1)\n runner(loc, :southwest, 1)\n runner(loc, :west, 1)\n runner(loc, :northwest, 1)\n\n end\n\n\n end", "def move_down\n down_tile = C[@location.first + 1, @location.second]\n move_to(down_tile)\n end", "def move(dx, dy)\n unless adjacent_tiles(dx, dy).include?(@hole)\n raise InvalidMove, \"#{dx},#{dy} -> #{@hole[0]},#{@hole[1]}\"\n end\n @tiles[dy][dx], @tiles[@hole[1]][@hole[0]] = @tiles[@hole[1]][@hole[0]], @tiles[dy][dx]\n @hole = [dx, dy]\n @moves << @hole\n self\n end", "def moves\n # All pieces can stay in place\n [[0,0]]\n end", "def walk_to_tile(x, y, options = {})\n x_delta = x - @x\n y_delta = y - @y\n\n if x_delta > y_delta\n @cur_dir = x_delta > 0 ? \"right\" : \"left\"\n else\n @cur_dir = y_delta > 0 ? \"down\" : \"up\"\n end\n\n if options[\"duration\"]\n time_to_walk = options[\"duration\"]\n else\n speed = options[\"speed\"] || 1.0\n distance = Math.sqrt(x_delta ** 2 + y_delta ** 2)\n time_to_walk = distance / speed\n end\n\n send_animation \"walk_#{@cur_dir}\"\n cur_anim_counter = @anim_counter\n\n pan_x, pan_y = pan_offset_for_center_tile(x, y)\n send_pan_to_pixel_offset pan_x, pan_y, \"duration\" => time_to_walk\n move_to_tile x, y, \"duration\" => time_to_walk\n\n EM.add_timer(time_to_walk) do\n # Still walking as a result of this call? If so, now stop.\n if @anim_counter == cur_anim_counter\n send_animation \"stand_#{@cur_dir}\"\n end\n end\n end", "def move_piece(from_row, from_column, to_row, to_column)\n piece = @state[from_row][from_column] \n new_location = [to_row, to_column]\n @state[to_row][to_column] = piece.class.new(piece.color, new_location)\n @state[from_row][from_column] = nil\n \n moved_piece = @state[to_row][to_column]\n if moved_piece.class == Pawn\n special_pawn_rules(moved_piece, from_row, to_column)\n end\n # Once a move has been made, disallow\n disallow_all_en_passant(piece.color) # taking en_passant on enemy pawns \n end", "def explore\n rover_bay.each do |r|\n if pass_path_check?(r)\n move(r)\n else\n raise \"There is a collision\\nin placement #{r.coordinate.inspect}, please revise instruction set #{r.command.inspect}\"\n end\n end\n end", "def play_move!( m )\n self.delete_if { |pos, piece| pos == m.to_coord || pos == m.captured_piece_coord }\n\n piece_moved = self.delete(m.from_coord)\n self[m.to_coord] = piece_moved\n\n if m.castled==1\n castling_rank = m.to_coord.rank.to_s\n [['g', 'f', 'h'], ['c', 'd', 'a']].each do |king_file, new_rook_file, orig_rook_file|\n #update the position of the rook corresponding to the square the king landed on\n\tif m.to_coord.file == king_file \n\t rook = self.delete(\"#{orig_rook_file}#{castling_rank}\")\n\t self[\"#{new_rook_file}#{castling_rank}\"] = rook\n\tend\n end\n end\n \n #TODO investigate why this method is getting called multiply per moves << Move.new\n return unless piece_moved\n ep_from_rank, ep_to_rank, ep_rank = EN_PASSANT_CONFIG[ piece_moved.side ]\n @en_passant_square = ( piece_moved.function == :pawn &&\n m.from_coord.rank == ep_from_rank && \n m.to_coord.rank == ep_to_rank ) ? m.from_coord.file + ep_rank.to_s : nil\n\n #reflect promotion\n if piece_moved && piece_moved.function == :pawn && m.to_coord.to_s.rank == piece_moved.promotion_rank\n self.delete(m.to_coord)\n self[m.to_coord] = Queen.new(piece_moved.side, :promoted)\n #puts self.to_s if m.to_coord == 'a8'\n #debugger if m.to_coord == 'a8'\n end\n \n self\n end", "def available_moves\n adjacent_tiles(*@hole)\n end", "def changing_tiles(x, y, d)\n # get pixel movement rate\n pix = $BlizzABS.pixel\n # if not changing the tile (up/down)\n if (y / pix != (y + pix - 1) / pix || x / pix == (x + pix - 1) / pix) &&\n (d == 2 || d == 8)\n # not changing \n return false\n end\n # if not changing the tile (left/right)\n if (x / pix != (x + pix - 1) / pix || y / pix == (y + pix - 1) / pix) &&\n (d == 4 || d == 6)\n # not changing \n return false\n end\n # changing\n return true\n end", "def move_lateral(index, limit = 8)\n row = get_row_from_index(index)\n col = get_col_from_index(index)\n left, right = [col-1, limit].min, [8-col, limit].min\n up, down = [row-1, limit].min, [8-row, limit].min\n valid = []\n\n # Move down N places until board limit, piece in the way, or specified limit\n down.times do |i|\n next_pos = index + (i+1)*8\n # Valid move if position is unoccupied\n if unoccupied?(next_pos)\n valid << next_pos\n else\n # Valid move is piece is an enemy, but then no subsequent tiles are attackable\n # if the piece is not an enemy, it's not added as a valid move, and no subsequent tiles are attackable\n # This function doesn't filter out the king from a valid enemy, but the Board class will drop King indexes\n if piece_color(next_pos) == @@enemy_color\n valid << next_pos\n end\n break\n end\n end\n\n # Move up N places until board limit, piece in the way, or specified limit\n up.times do |i|\n next_pos = index - (i+1)*8\n if unoccupied?(next_pos)\n valid << next_pos\n else\n #puts \"PC #{piece_color(next_pos)} #{enemy_color}\" #INCOMEPSDFJDSLFJDKLFJDASKLF\n if piece_color(next_pos) == @@enemy_color\n valid << next_pos\n end\n break\n end\n end\n\n # Move right N places until board limit, piece in the way, or specified limit\n right.times do |i|\n next_pos = index + (i+1)\n if unoccupied?(next_pos)\n valid << next_pos\n else\n if piece_color(next_pos) == @@enemy_color\n valid << next_pos\n end\n break\n end\n end\n\n # Move left N places until board limit, piece in the way, or specified limit\n left.times do |i|\n next_pos = index - (i+1)\n if unoccupied?(next_pos)\n valid << next_pos\n else\n if piece_color(next_pos) == @@enemy_color\n valid << next_pos\n end\n break\n end\n end\n return valid\n end", "def reachable? begTile, endTile\n x = begTile.x\n y = begTile.y\n self.move_one begTile if @tiles.empty?\n return @tiles.include? endTile\n end", "def move\n origin = @table.find(self)\n\n # Check if the robot can move without falling off the table\n case @direction\n when Direction::NORTH\n movement = Coordinate.new(0, 1)\n when Direction::EAST\n movement = Coordinate.new(1, 0)\n when Direction::SOUTH\n movement = Coordinate.new(0, -1)\n when Direction::WEST\n movement = Coordinate.new(-1, 0)\n end\n destination = origin + movement\n return unless @table.contain? destination\n\n # Safe to move\n @table.place origin, nil\n @table.place destination, self\n end", "def calc_pos(unit, type = \"move\", x = nil, y = nil)\n # If parameters x and y are not set up, use unit's x and y variables\n if x.nil? or y.nil?\n x = unit.x\n y = unit.y\n end\n # Stores all the x-y coordinates of possible spots\n positions = Array2D.new($game_map.width, $game_map.height)\n # If want move range OR requesting attack range of direct combat\n if type == \"move\" or \n ((type == \"attack\" or type == \"ai\") and unit.max_range == 1)\n # Sets maximum move range based on remaining fuel\n range_max = (unit.fuel < unit.move ? unit.fuel : unit.move )\n # Adds starting position\n positions[x][y] = MoveTile.new(x,y,0,0)\n # If can move further (not immobile)\n if range_max > 0\n # New hash that stores move costs and locations to be checked. Format:\n # Current Move Cost => Array of tile coordinates that need to be checked\n need_evaluation = {}\n # Set starting position to cost of zero\n need_evaluation[0] = [[x,y]]\n # Create all the move costs possible by this unit (i.e. max movement - 1)\n for i in 1...range_max\n need_evaluation[i] = []\n end\n \n # While tiles still need to be evaluated for potential move spaces\n while need_evaluation.size > 0\n # Get key corresponding to the tile with the lowest cost so far to be evaluated\n lowest_cost_key = need_evaluation.keys.sort.shift\n # Get next evaluated tile x/y\n t_x, t_y = need_evaluation[lowest_cost_key].shift\n # No spaces to evaluate for this move cost?\n if t_x.nil?\n # Remove this move cost key\n need_evaluation.delete(lowest_cost_key)\n # Jump back to start of loop for next available move cost\n next\n end\n \n # If tile south can be moved to\n if positions[t_x,t_y+1].nil? && unit.passable?(t_x, t_y+1)\n # Get move cost of tile\n c = $game_map.terrain_cost(unit, t_x,t_y+1)\n # Add onto this cost with the total cost it takes to get there\n c_total = lowest_cost_key + c\n # If cost is less than move range\n if c_total <= range_max\n # Add tile as possible move spot\n positions[t_x,t_y+1] = MoveTile.new(t_x, t_y+1, c, c_total)\n # If not expend all movement, add this tile to be evaluated later\n if c_total < range_max\n need_evaluation[c_total].push([t_x, t_y+1])\n end\n end\n end\n \n # If tile north can be moved to\n if positions[t_x,t_y-1].nil? && unit.passable?(t_x, t_y-1)\n # Get move cost of tile\n c = $game_map.terrain_cost(unit, t_x,t_y-1)\n # Add onto this cost with the total cost it takes to get there\n c_total = lowest_cost_key + c\n # If cost is less than move range\n if c_total <= range_max\n # Add tile as possible move spot\n positions[t_x,t_y-1] = MoveTile.new(t_x, t_y-1, c, c_total)\n # If not expend all movement, add this tile to be evaluated later\n if c_total < range_max\n need_evaluation[c_total].push([t_x, t_y-1])\n end\n end\n end\n \n # If tile east can be moved to\n if positions[t_x+1,t_y].nil? && unit.passable?(t_x+1, t_y)\n # Get move cost of tile\n c = $game_map.terrain_cost(unit, t_x+1,t_y)\n # Add onto this cost with the total cost it takes to get there\n c_total = lowest_cost_key + c\n # If cost is less than move range\n if c_total <= range_max\n # Add tile as possible move spot\n positions[t_x+1,t_y] = MoveTile.new(t_x+1, t_y, c, c_total)\n # If not expend all movement, add this tile to be evaluated later\n if c_total < range_max\n need_evaluation[c_total].push([t_x+1, t_y])\n end\n end\n end\n \n # If tile west can be moved to\n if positions[t_x-1,t_y].nil? && unit.passable?(t_x-1, t_y)\n # Get move cost of tile\n c = $game_map.terrain_cost(unit, t_x-1,t_y)\n # Add onto this cost with the total cost it takes to get there\n c_total = lowest_cost_key + c\n # If cost is less than move range\n if c_total <= range_max\n # Add tile as possible move spot\n positions[t_x-1,t_y] = MoveTile.new(t_x-1, t_y, c, c_total)\n # If not expend all movement, add this tile to be evaluated later\n if c_total < range_max\n need_evaluation[c_total].push([t_x-1, t_y])\n end\n end\n end\n \n # If this move cost no longer has any tiles left to evaluate, remove it\n if need_evaluation[lowest_cost_key] == []\n need_evaluation.delete(lowest_cost_key)\n end\n \n end\n ### END of *** while need_evaluation.size > 0 ***\n end\n ### END of *** if range_max > 0 ***\n \n # If we only wanted move ranges, we are done and can stop here\n if type == \"move\"\n return positions\n end\n end\n ######### END OF DEFINING MOVEMENT RANGE ##########\n \n # If we want attack, AI, or vision ranges\n if type == \"attack\" or type == \"ai\" or type == \"vision\"\n # Get min and max ranges of unit based on whether we want attack or vision\n range_max = (type == \"attack\" || type == \"ai\" ? unit.max_range : unit.vision)\n range_min = (type == \"attack\" || type == \"ai\" ? unit.min_range : 0)\n ##### If want attack range and unit is direct type\n if (type == \"attack\" or type == \"ai\") and range_max == 1\n # Make copy of possible move positions\n move_positions = positions.clone\n # If we do not want to get AI range\n if type != \"ai\"\n # Reset positions list into empty 2D array\n positions = Array2D.new($game_map.width, $game_map.height)\n end\n # For each possible move position\n for p in move_positions.flatten.compact\n # Unit exists at this spot, so cannot attack surrounding tiles here\n next unless ($game_map.get_unit(p.x,p.y,false).nil? || type == \"ai\")\n # Add attack ranges to list if it is a valid spot and doesn't already\n # exist in the list\n positions[p.x - 1,p.y] = MoveTile.new(p.x - 1, p.y) if (valid?(p.x - 1, p.y) && positions[p.x - 1,p.y].nil?)\n positions[p.x + 1,p.y] = MoveTile.new(p.x + 1, p.y) if (valid?(p.x + 1, p.y) && positions[p.x + 1,p.y].nil?)\n positions[p.x,p.y - 1] = MoveTile.new(p.x, p.y - 1) if (valid?(p.x, p.y - 1) && positions[p.x,p.y - 1].nil?)\n positions[p.x,p.y + 1] = MoveTile.new(p.x, p.y + 1) if (valid?(p.x, p.y + 1) && positions[p.x,p.y + 1].nil?)\n end\n # Don't include the spot this unit is on as attackable, unless this is AI\n positions[x][y] = nil if type != \"ai\"\n ##### If unit is indirect type or we want vision ranges\n else\n # If want vision range, consider unit's spot as seen\n if type == \"vision\"\n positions[x, y] = MoveTile.new(x, y)\n range_min = 1\n end\n # Calculate ranges in a clockwise direction, radiating outwards\n for r in range_min..range_max\n origin = [unit.x, unit.y-r]\n positions[origin[0],origin[1]] = MoveTile.new(origin[0], origin[1]) if valid?(origin[0], origin[1])\n loop do\n origin[0] += 1\n origin[1] += 1\n positions[origin[0],origin[1]] = MoveTile.new(origin[0], origin[1]) if valid?(origin[0], origin[1])\n break if origin[1] == unit.y\n end\n loop do\n origin[0] -= 1\n origin[1] += 1\n positions[origin[0],origin[1]] = MoveTile.new(origin[0], origin[1]) if valid?(origin[0], origin[1])\n break if origin[0] == unit.x\n end\n loop do\n origin[0] -= 1\n origin[1] -= 1\n positions[origin[0],origin[1]] = MoveTile.new(origin[0], origin[1]) if valid?(origin[0], origin[1])\n break if origin[1] == unit.y\n end\n loop do\n origin[0] += 1\n origin[1] -= 1\n break if origin[0] == unit.x\n positions[origin[0],origin[1]] = MoveTile.new(origin[0], origin[1]) if valid?(origin[0], origin[1])\n end\n end\n end\n # Gets the spots directly next to this unit\n elsif type == \"direct\"\n locations = [[x, y-1], [x+1, y], [x, y+1], [x-1, y]]\n for spot in locations\n positions[spot[0],spot[1]] = MoveTile.new(spot[0],spot[1]) if valid?(spot[0], spot[1])\n end\n end\n \n return positions\n end", "def move_away_from_character(character)\r\r\n sx = distance_x_from(character.x)\r\r\n sy = distance_y_from(character.y)\r\r\n if sx.abs > sy.abs\r\r\n if passable?(@x, @y, (sx > 0 ? 6 : 4))\r\r\n @move_poll+= [[sx > 0 ? 6 : 4, true]] * (32.0 / CXJ::FREE_MOVEMENT::PIXELS_PER_STEP).ceil\r\r\n else\r\r\n @move_poll+= [[sy > 0 ? 2 : 8, true]] * (32.0 / CXJ::FREE_MOVEMENT::PIXELS_PER_STEP).ceil\r\r\n end\r\r\n elsif sy != 0\r\r\n if passable?(@x, @y, (sy > 0 ? 2 : 8))\r\r\n @move_poll+= [[sy > 0 ? 2 : 8, true]] * (32.0 / CXJ::FREE_MOVEMENT::PIXELS_PER_STEP).ceil\r\r\n else\r\r\n @move_poll+= [[sx > 0 ? 6 : 4, true]] * (32.0 / CXJ::FREE_MOVEMENT::PIXELS_PER_STEP).ceil\r\r\n end\r\r\n end\r\r\n end", "def move_up\n up_tile = Couple.new(@location.first - 1, @location.second)\n move_to(up_tile)\n end", "def calc_pos(unit, type = \"move\", x = nil, y = nil)\n # If parameters x and y are not set up, use unit's x and y variables\n if x.nil? or y.nil?\n x = unit.x\n y = unit.y\n end\n # Stores all the x-y coordinates of possible spots\n positions = Array2D.new($game_map.width, $game_map.height)\n # If want move range OR requesting attack range of direct combat\n if type == \"move\" or \n ((type == \"attack\" or type == \"ai\") and unit.max_range == 1)\n # Sets maximum move range based on remaining fuel\n range_max = (unit.fuel < unit.move ? unit.fuel : unit.move )\n # Adds starting position\n positions[x][y] = MoveTile.new(x,y,0)\n # If can move further (not immobile)\n if range_max > 0\n # New hash that stores move costs and locations to be checked. Format:\n # Current Move Cost => Array of tile coordinates that need to be checked\n need_evaluation = {}\n # Set starting position to cost of zero\n need_evaluation[0] = [[x,y]]\n # Create all the move costs possible by this unit (i.e. max movement - 1)\n for i in 1...range_max\n need_evaluation[i] = []\n end\n \n # While tiles still need to be evaluated for potential move spaces\n while need_evaluation.size > 0\n # Get key corresponding to the tile with the lowest cost so far to be evaluated\n lowest_cost_key = need_evaluation.keys.sort.shift\n # Get next evaluated tile x/y\n t_x, t_y = need_evaluation[lowest_cost_key].shift\n # No spaces to evaluate for this move cost?\n if t_x.nil?\n # Remove this move cost key\n need_evaluation.delete(lowest_cost_key)\n # Jump back to start of loop for next available move cost\n next\n end\n \n # If tile south can be moved to\n if unit.passable?(t_x, t_y+1) && positions[t_x][t_y+1].nil?\n # Get move cost of tile\n c = (unit.army.officer.perfect_movement ? 1 : $game_map.get_tile(t_x,t_y+1).move_cost(unit))\n # Add onto this cost with the total cost it takes to get there\n c_total = lowest_cost_key + c\n # If cost is less than move range\n if c_total <= range_max\n # Add tile as possible move spot\n positions[t_x][t_y+1] = MoveTile.new(t_x, t_y+1, c, c_total)\n # If not expend all movement, add this tile to be evaluated later\n if c_total < range_max\n need_evaluation[c_total].push([t_x, t_y+1])\n end\n end\n end\n \n # If tile north can be moved to\n if unit.passable?(t_x, t_y-1) && positions[t_x][t_y-1].nil?\n # Get move cost of tile\n c = (unit.army.officer.perfect_movement ? 1 : $game_map.get_tile(t_x,t_y-1).move_cost(unit))\n # Add onto this cost with the total cost it takes to get there\n c_total = lowest_cost_key + c\n # If cost is less than move range\n if c_total <= range_max\n # Add tile as possible move spot\n positions[t_x][t_y-1] = MoveTile.new(t_x, t_y-1, c, c_total)\n # If not expend all movement, add this tile to be evaluated later\n if c_total < range_max\n need_evaluation[c_total].push([t_x, t_y-1])\n end\n end\n end\n \n # If tile east can be moved to\n if unit.passable?(t_x+1, t_y) && positions[t_x+1][t_y].nil?\n # Get move cost of tile\n c = (unit.army.officer.perfect_movement ? 1 : $game_map.get_tile(t_x+1,t_y).move_cost(unit))\n # Add onto this cost with the total cost it takes to get there\n c_total = lowest_cost_key + c\n # If cost is less than move range\n if c_total <= range_max\n # Add tile as possible move spot\n positions[t_x+1][t_y] = MoveTile.new(t_x+1, t_y, c, c_total)\n # If not expend all movement, add this tile to be evaluated later\n if c_total < range_max\n need_evaluation[c_total].push([t_x+1, t_y])\n end\n end\n end\n \n # If tile west can be moved to\n if unit.passable?(t_x-1, t_y) && positions[t_x-1][t_y].nil?\n # Get move cost of tile\n c = (unit.army.officer.perfect_movement ? 1 : $game_map.get_tile(t_x-1,t_y).move_cost(unit))\n # Add onto this cost with the total cost it takes to get there\n c_total = lowest_cost_key + c\n # If cost is less than move range\n if c_total <= range_max\n # Add tile as possible move spot\n positions[t_x-1][t_y] = MoveTile.new(t_x-1, t_y, c, c_total)\n # If not expend all movement, add this tile to be evaluated later\n if c_total < range_max\n need_evaluation[c_total].push([t_x-1, t_y])\n end\n end\n end\n \n # If this move cost no longer has any tiles left to evaluate, remove it\n if need_evaluation[lowest_cost_key] == []\n need_evaluation.delete(lowest_cost_key)\n end\n \n end\n ### END of *** while need_evaluation.size > 0 ***\n end\n ### END of *** if range_max > 0 ***\n \n # If we only wanted move ranges, we are done and can stop here\n if type == \"move\"\n return positions\n end\n end\n ######### END OF DEFINING MOVEMENT RANGE ##########\n \n # If we want attack, AI, or vision ranges\n if type == \"attack\" or type == \"ai\" or type == \"vision\"\n # Get min and max ranges of unit based on whether we want attack or vision\n range_max = (type == \"attack\" || type == \"ai\" ? unit.max_range : unit.vision)\n range_min = (type == \"attack\" || type == \"ai\" ? unit.min_range : 0)\n ##### If want attack range and unit is direct type\n if (type == \"attack\" or type == \"ai\") and range_max == 1\n # Make copy of possible move positions\n move_positions = positions.clone\n # If we do not want to get AI range\n if type != \"ai\"\n # We must remove points that cannot be stopped on\n need_del = []\n # For each move spot the unit can move to\n for pos in positions.flatten.compact\n # If a unit exists at this spot, but it's not THIS unit\n if occupied?(pos.x, pos.y) and [x, y] != [pos.x, pos.y]\n #need_del.push([pos.x,pos.y])\n pos = nil\n end\n end\n # Reset positions list into empty 2D array\n positions = Array2D.new($game_map.width, $game_map.height)\n end\n # For each possible move position\n for p in move_positions.flatten.compact\n # Not sure why I had this before, but I guess it radiates outward?\n # I'll need to look at this later KK20\n for ox in 1..1#range_min..range_max\n # Add attack ranges to list if it is a valid spot and doesn't already\n # exist in the list\n positions[p.x - ox][p.y] = MoveTile.new(p.x - ox, p.y) unless !valid?(p.x - ox, p.y) or !positions[p.x - ox][p.y].nil?\n positions[p.x + ox][p.y] = MoveTile.new(p.x + ox, p.y) unless !valid?(p.x + ox, p.y) or !positions[p.x + ox][p.y].nil?\n positions[p.x][p.y - ox] = MoveTile.new(p.x, p.y - ox) unless !valid?(p.x, p.y - ox) or !positions[p.x][p.y - ox].nil?\n positions[p.x][p.y + ox] = MoveTile.new(p.x, p.y + ox) unless !valid?(p.x, p.y + ox) or !positions[p.x][p.y + ox].nil?\n end\n end\n # Don't include the spot this unit is on as attackable, unless this is AI\n positions[x][y] = nil if type != \"ai\"\n ##### If unit is indirect type or we want vision ranges\n else\n # If want vision range, consider unit's spot as seen\n if type == \"vision\"\n positions[x, y] = MoveTile.new(x, y)\n range_min = 1\n end\n # Calculate ranges in a clockwise direction, radiating outwards\n for r in range_min..range_max\n origin = [unit.x, unit.y-r]\n positions[origin[0]][origin[1]] = MoveTile.new(origin[0], origin[1]) if valid?(origin[0], origin[1])\n loop do\n origin[0] += 1\n origin[1] += 1\n positions[origin[0]][origin[1]] = MoveTile.new(origin[0], origin[1]) if valid?(origin[0], origin[1])\n break if origin[1] == unit.y\n end\n loop do\n origin[0] -= 1\n origin[1] += 1\n positions[origin[0]][origin[1]] = MoveTile.new(origin[0], origin[1]) if valid?(origin[0], origin[1])\n break if origin[0] == unit.x\n end\n loop do\n origin[0] -= 1\n origin[1] -= 1\n positions[origin[0]][origin[1]] = MoveTile.new(origin[0], origin[1]) if valid?(origin[0], origin[1])\n break if origin[1] == unit.y\n end\n loop do\n origin[0] += 1\n origin[1] -= 1\n break if origin[0] == unit.x\n positions[origin[0]][origin[1]] = MoveTile.new(origin[0], origin[1]) if valid?(origin[0], origin[1])\n end\n end\n end\n # Gets the spots directly next to this unit\n elsif type == \"direct\"\n # if !x.nil? and !y.nil?\n locations = [[x, y-1], [x+1, y], [x, y+1], [x-1, y]]\n for spot in locations\n positions[spot[0]][spot[1]] = MoveTile.new(spot[0],spot[1]) if valid?(spot[0], spot[1])\n end\n # else\n # locations = [[unit.x, unit.y-1], [unit.x+1, unit.y], [unit.x, unit.y+1], [unit.x-1, unit.y]]\n # for spot in locations\n # positions[spot[0]][spot[1]] = MoveTile.new(spot[0],spot[1]) if valid?(spot[0], spot[1])\n # end\n # end\n end\n return positions\n end", "def move()\n case @mov_dir\n when :right\n if @coord_x == @max_x\n @max_x += 1 # Moving out of bounds. No need to do anything because Ruby rocks! :P\n end\n @coord_x += 1\n \n when :up\n if @coord_y == 0\n @map.unshift [] # Moving out of bounds. Adds a new line to the top\n @max_y += 1\n else\n @coord_y -= 1\n end\n \n when :down\n if @coord_y == @max_y\n @max_y += 1\n @map.push [] # Moving out of bounds. Adds a new line to the bottom\n end\n @coord_y += 1\n \n when :left\n if @coord_x == 0\n @map.each do |a| # Moving out of bounds. Adds a new line to the left\n a.unshift ' ' \n end\n @max_x += 1\n else\n @coord_x -= 1\n end\n end\n end", "def perform_move(move)\n @board[*move] = self\n @board[*@location] = nil\n @location = move\n @king = true if in_end_row?\n move\n end", "def primary()\n while true\n moves = []\n map = $network.frame\n\n (0...map.height).each do |y|\n (0...map.width).each do |x|\n loc = Location.new(x, y)\n site = map.site(loc)\n\n next if site.owner != $tag\n\n next if should_wait(map, site)\n\n valid = valid_moves(map, loc)\n if valid.empty?\n opts = $directions\n #opts = site.strength == 255 ? directions : ([GameMap::DIRECTIONS[0] ] + directions\n moves << Move.new(loc, opts.shuffle.first)\n else\n moves << Move.new(loc, valid.shuffle.first)\n end\n\n end\n end\n\n $network.send_moves(moves)\n end\nend", "def update\n # Can't update anything if the ox and oy have not yet been set\n return if @ox_oy_set != [true, true]\n # If the tilemap sprites have not been initialized, GO DO IT\n if !@tilemap_drawn\n init_tiles\n end\n \n # If made any changes to $game_map.data, the proper graphics will be drawn\n if @map_data.updated\n @map_data.updates.each{|item|\n x,y,z,tile_id = item\n # If this changed tile is visible on screen\n if x.between?(@corner_tile_loc[0], @corner_tile_loc[0]+(SCREEN[0]/32 + 1)) and\n y.between?(@corner_tile_loc[1], @corner_tile_loc[1]+(SCREEN[1]/32 + 1))\n \n x_dif = x - @corner_tile_loc[0]\n y_dif = y - @corner_tile_loc[1]\n \n id = @corner_index + x_dif\n id -= SCREEN[0]/32+2 if id/(SCREEN[0]/32+2) > @corner_index/(SCREEN[0]/32+2)\n \n id += y_dif * (SCREEN[0]/32+2)\n id -= (SCREEN[0]/32+2)*(SCREEN[1]/32+2) if id >= (SCREEN[0]/32+2)*(SCREEN[1]/32+2)\n \n tile = @tile_sprites[id][z]\n @animating_tiles.delete(tile.tile_sprite_id)\n #Figure out its z-coordinate based on priority\n if @priorities[tile_id] == 0\n tile.z = 0\n else\n tile.z = 32 + (tile.y/32) * 32 + @priorities[tile_id] * 32\n end\n # If empty tile\n if tile_id == 0\n tile.bitmap = RPG::Cache.picture('')\n tile.src_rect.set(0,0,0,0)\n # If not an autotile\n elsif tile_id >= 384\n tile.bitmap = @tileset\n tile.src_rect.set(((tile_id - 384) % 8) * 32,((tile_id - 384) / 8) *32, 32, 32)\n else # Autotile\n auto_id = tile_id/48-1\n tile.bitmap = @autotiles[auto_id]\n tile.src_rect.set(((tile_id % 48) % 8)*32 + @current_frame[auto_id] * 256,((tile_id % 48) / 8)*32, 32, 32)\n @animating_tiles[tile.tile_sprite_id] = tile if @total_frames[auto_id] > 1\n end\n end\n }\n @map_data.updates = []\n end\n \n # Update the sprites.\n if Graphics.frame_count % $game_map.autotile_speed == 0\n # Increase current frame of tile by one, looping by width.\n for i in 0..6\n @current_frame[i] = (@current_frame[i] + 1) % @total_frames[i]\n end\n @animating_tiles.each_value{|tile|\n frames = tile.bitmap.width\n tile.src_rect.set((tile.src_rect.x + 256) % frames, tile.src_rect.y, 32, 32)\n }\n end\n end", "def moves\n # warn \"Explorer: #{explorer.last}\"\n # warn @robots.map(&:last)\n # warn @items.map(&:last)\n\n clear_tasks\n assign_tasks\n\n @my_bots.map(&:next_command)\n end", "def perform_jump(move)\n raise IllegalMoveError.new unless jumps.include? move\n jumped_loc = move.dup\n jumped_loc[0] = jumped_loc[0] > @location[0] ? jumped_loc[0] - 1 : \n jumped_loc[0] + 1\n jumped_loc[1] = jumped_loc[1] > @location[1] ? jumped_loc[1] - 1 :\n jumped_loc[1] + 1\n @board.remove_piece(jumped_loc)\n perform_move(move)\n end", "def move_hero\n #get next square\n next_x = @cur_x + DIRECTION[@hero_direction][0]\n next_y = @cur_y + DIRECTION[@hero_direction][1]\n next_x = 0 if next_x < 0\n next_x = 14 if next_x > 14\n next_y = 0 if next_y < 0\n next_y = 14 if next_y > 14\n #look at new square in room\n next_square = @room[next_x][next_y]\n draw_map(next_x,next_y)\n #don't move onto it if next square is an object that can't be walked over\n if next_square == CHAR_FLOOR || next_square == CHAR_IN || next_square == CHAR_OUT ||\n next_square == CHAR_TRAP || next_square == CHAR_SAFE\n #walked into trap, keep on trap unless strong and lucky\n if @room[@cur_x][@cur_y] == CHAR_TRAP &&\n @stats[:strength] <= (@orig_stats[:strength] * 0.8) &&\n @stats[:luck] <= Random.rand(15)\n next_x = @cur_x\n next_y = @cur_y\n end\n #increase health on any move\n @stats[:strength] += (@stats[:vitality] / 200.0) if @stats[:strength] < @orig_stats[:strength]\n #move the character\n if next_x != @cur_x || next_y != @cur_y\n draw_map(@cur_x, @cur_y)\n @cur_x = next_x\n @cur_y = next_y\n draw_map(@cur_x, @cur_y)\n end\n #if on exit door then decend to next level if have enough experience\n if next_square == CHAR_OUT\n load_dungeon_file(@current_level+1)\n end\n end\n #cause damage if walked into wall\n if next_square == CHAR_WALL\n @stats[:strength] -= 0.3\n end\n\n #dead\n end", "def retutn_map_postions\n $game_temp.battle_move = true\n pos = $game_temp.battle_result == 1 ? $game_temp.escape_pos : $game_temp.end_pos\n @moving_actors = []\n for i in 0...$game_party.actors.size\n @moving_actors[i] = i == 0 ? $game_player : $game_player.caterpillar[i-1]\n @moving_actors[i].move_update.clear if i > 0\n end\n started_moving = false\n loop do\n if started_moving == true\n for i in 0...$game_party.actors.size\n set_battle_position(@moving_actors[i], @actors_pos[i])\n end\n else\n for i in 0...$game_party.actors.size\n set_battle_position(@moving_actors[i], pos)\n end\n @actors_pos = set_end_postion(pos)\n end\n started_moving = true\n update_basic(false, true, true)\n break if all_in_postion(@actors_pos)\n end\n set_plus_postion\n $game_temp.battle_move = false\n wait(10)\n end", "def move_player (start, stop, piece)\r\n $board[stop[0]][stop[1]] = piece\r\n $board[start[0]][start[1]] = nil \r\n $board[stop[0]][stop[1]].turn += 1\r\n @prev_coord= [stop[0], stop[1]]\r\n @prev_delta_y = (stop[1] - start[1]).abs\r\n if piece.class == Pawn and (stop[1] == 7 or stop[1] == 0)\r\n promotion(stop, piece)\r\n end \r\n end", "def move_piece(move)\n curr_piece = @board[move[0]]\n if curr_piece.non_check_moves.include?(move[1])\n #if en passant, remove captured piece\n if curr_piece.class == Pawn\n #puts curr_piece.can_en_passant?\n #puts \"HELKFDSJLFKD\"\n if curr_piece.can_en_passant?\n #puts \"HOMFDMSKFDFLSJFKDSLFJSDKLF JDSFKLSJFKLEJ FE FJSKLF\"\n rank = move[0][0]\n col = move[1][1]\n captured_pawn_pos = [rank,col]\n #puts captured_pawn_pos.inspect\n @board[captured_pawn_pos] = nil\n end\n end\n @board[move[1]] = curr_piece\n @board[move[0]] = nil\n curr_piece.move_history << move\n curr_piece.pos = move[1]\n #if castling, move rook too\n if curr_piece.class == King && (move[0][1] - move[1][1]).abs == 2\n #find the appropriate rook to move\n start_rank = move[0][0]\n start_file = move[1][1] == 2 ? 0 : 7\n start_pos = [start_rank, start_file]\n rook = @board[start_pos]\n #determine its final location, then move it.\n end_file = start_file == 0 ? 3 : 5\n end_pos = [start_rank, end_file]\n @board[end_pos] = rook\n @board[start_pos] = nil\n rook.move_history << end_pos\n rook.pos = end_pos\n end\n return true\n else\n puts \"Your king is still in check!\" if @board.in_check?(curr_piece.color)\n puts \"Not a legal move for this #{curr_piece.color} #{curr_piece.class}!\"\n puts\n return false\n end\n end", "def move()\n if @direction == \"up\"\n move_up()\n elsif @direction == \"down\"\n move_down()\n else\n #check if anyone is on current floor- which way do majority want to go from here?\n @direction = people_on_current_floor()\n if @direction == \"up\" #were more ppl on this floor wanting to go up\n move_up()\n elsif @direction == \"down\"\n move_down()\n else #no one on this floor, decide direction based on pending rqsts above and below...\n decide_direction()\n end\n end\n end", "def move(start, finish)\n\t\ta, b = start\n\t\tx, y = finish\n\t\tif @board[a][b].piece.class.name == \"Pawn\"\n\t\t\t@board[a][b].piece.double = \"false\"\n\t\t\tif y - b == 2 || y - b == -2\n\t\t\t\t@board[a][b].piece.en_passant = true\n\t\t\tend\n\t\tend\n\t\tif @board[a][b].piece.class.name == \"King\" || @board[a][b].piece.class.name == \"Rook\"\n\t\t\t@board[a][b].piece.castling = false\n\t\tend\n\t\tif @board[a][b].piece.class.name == \"King\" && (x - a >= 2 || x - a <= 2)\n\t\t\tif (x - a >= 2)\n\t\t\t\tcastle_right(a, b, x, y)\n\t\t\telse\n\t\t\t\tcastle_left(a, b, x, y)\n\t\t\tend\n\t\t\treturn\n\t\tend\n\t\t@board[x][y].piece = @board[a][b].piece\n\t\t@board[a][b].piece = nil\n\t\tremove_en_passant(x, y)\n\t\tif @board[x][y].piece.class.name == \"Pawn\"\n\t\t\tcheck_promotion(x, y)\n\t\tend\n\tend", "def move(start_pos, end_pos)\n return false unless valid_move?(start_pos, end_pos)\n\n moving_piece = piece_at(start_pos)\n\n @grid[end_pos[0]][end_pos[1]] = moving_piece\n @grid[start_pos[0]][start_pos[1]] = nil\n\n moving_piece.moved = true if moving_piece.is_a?(Pawn)\n true\n end", "def fast_dance(direction, tiles)\n\nend", "def calculate_moves(piece, location)\n @x = location[0].to_i\n @y = location[1].to_i\n @possible_moves = []\n\n def add_straight_line_moves(index)\n move = \"#{@x + (index + 1)}#{@y}\" # Right\n @possible_moves << move unless path_blocked?(move) || out_of_bounds?(move) ||\n friendly_piece?(move)\n move = \"#{@x}#{@y + (index + 1)}\" # Up\n @possible_moves << move unless path_blocked?(move) || out_of_bounds?(move) ||\n friendly_piece?(move)\n move = \"#{@x - (index + 1)}#{@y}\" # Left\n @possible_moves << move unless path_blocked?(move) || out_of_bounds?(move) ||\n friendly_piece?(move)\n move = \"#{@x}#{@y - (index + 1)}\" # Down\n @possible_moves << move unless path_blocked?(move) || out_of_bounds?(move) ||\n friendly_piece?(move)\n end\n\n def add_diagonal_moves(index)\n move = \"#{@x + (index + 1)}#{@y + (index + 1)}\" # Up right\n @possible_moves << move unless path_blocked?(move) || out_of_bounds?(move) ||\n friendly_piece?(move)\n move = \"#{@x - (index + 1)}#{@y - (index + 1)}\" # Down left\n @possible_moves << move unless path_blocked?(move) || out_of_bounds?(move) ||\n friendly_piece?(move)\n move = \"#{@x + (index + 1)}#{@y - (index + 1)}\" # Down right\n @possible_moves << move unless path_blocked?(move) || out_of_bounds?(move) ||\n friendly_piece?(move)\n move = \"#{@x - (index + 1)}#{@y + (index + 1)}\" # Up left\n @possible_moves << move unless path_blocked?(move) || out_of_bounds?(move) ||\n friendly_piece?(move)\n end\n\n case piece\n\n when \"WhitePawn\"\n # 1 step forward\n move = \"#{@x}#{@y + 1}\"\n @possible_moves << move unless @board[move] != nil \n # Attack forward right\n move = \"#{@x + 1}#{@y + 1}\"\n if @board[move] != nil && @board[move].team == @current_opponent \n @possible_moves << move \n end \n # Attack forward left\n move = \"#{@x - 1}#{@y + 1}\"\n if @board[move] != nil && @board[move].team == @current_opponent \n @possible_moves << move \n end \n # 2 steps forward if its in the starting point\n move = \"#{@x}#{@y + 2}\"\n @possible_moves << move unless @y != 2 || path_blocked?(move) ||\n @board[move] != nil\n\n when \"BlackPawn\"\n # Same moves of the WhitePawn but reversed\n move = \"#{@x}#{@y - 1}\"\n @possible_moves << move unless @board[move] != nil \n \n move = \"#{@x + 1}#{@y - 1}\"\n if @board[move] != nil && @board[move].team == @current_opponent\n @possible_moves << move \n end\n \n move = \"#{@x - 1}#{@y - 1}\"\n if @board[move] != nil && @board[move].team == @current_opponent\n @possible_moves << move\n end\n \n move = \"#{@x}#{@y - 2}\"\n @possible_moves << move unless @y != 7 || path_blocked?(move) || @board[move]\n\n when \"Rook\"\n # 7 is the max distance between squares\n # The method is called 7 times to have a list of all possible targets ready\n 7.times { |index| add_straight_line_moves(index) }\n\n when \"Knight\"\n knight_moves = [[@x + 1, @y + 2], [@x + 2, @y + 1], \n [@x + 2, @y - 1], [@x + 1, @y - 2], \n [@x - 1, @y - 2], [@x - 2, @y - 1], \n [@x - 2, @y + 1], [@x - 1, @y + 2]]\n \n knight_moves.each do |move|\n move = \"#{move[0]}#{move[1]}\" \n @possible_moves << move unless out_of_bounds?(move) || friendly_piece?(move)\n end\n\n when \"Bishop\"\n 7.times { |index| add_diagonal_moves(index) }\n \n when \"Queen\"\n 7.times do |index|\n add_straight_line_moves(index)\n add_diagonal_moves(index)\n end\n \n when \"King\"\n # The King can move only 1 square away so the methods are called just once\n add_straight_line_moves(0)\n add_diagonal_moves(0)\n else\n\n end\n end", "def update_move\n if !@ch.moving? && @moves.size > 0\n @moves.shift if proccess_move(@moves[0])\n end\n end", "def make_move\n\n\n candidates = []\n surface_level.each do |pos|\n\n row, col = pos\n\n # if placing this tile leads the ai to win then thats good\n score = evaluate_position_as @ai, row, col, @ai.win_conditions[0], 2\n\n # if placing tile, enables the player to place a tile above us and win, then bad\n score += evaluate_position_as @player, row + 1, col, @player.win_conditions[0], -1\n @board.data[row][col] = nil\n\n if row + 1 != @row\n @board.data[row + 1][col] = nil\n end\n\n # if player places this position and enables him to win, dont let him.\n score += evaluate_position_as @player, row, col, @player.win_conditions[0], 0.8\n @board.data[row][col] = nil\n\n\n # if ai places at this tile and causes player to win, dont palce it there\n score += evaluate_position_as @ai, row, col, @player.win_conditions[0], -2\n\n # if player plays it there and causes him to get close to win conditon, dont palce it there\n score += evaluate_position_as @player, row, col, @player.win_conditions[0][1..-1], 0.3\n @board.data[row][col] = nil\n\n\n score += evaluate_position_as @player, row, col, @player.win_conditions[0][0..-2], 0.3\n @board.data[row][col] = nil\n\n candidates << [row, col, score]\n\n end\n\n # signals that it cannot make a move, the ai\n if candidates == []\n return -1\n end\n\n # sort by best candidate\n sorted = candidates.sort {|a,b| b[2] <=> a[2]}\n\n return select_candidate sorted\n\n end", "def move!(start, end_pos)\n if self[start].moves.include?(end_pos)\n self[end_pos] = self[start]\n self[end_pos].pos = end_pos\n self[start] = NullPiece.new\n else\n puts \"Invalid Move! Try again.\"\n sleep(2)\n end\n end", "def move\n puts \"The computer is playing...\".cyan\n sleep(0.5) #computer \"thinks\" for half a second, this seemed more realistic\n return if @game.game_over?\n space = (@game.available_moves & [1,3,5,7,9]).first\n if space.nil? \n space = @game.available_moves.first\n end\n @game.place_piece(space, @piece)\n end", "def move_away_from_character(character)\n sx = distance_x_from(character.x)\n sy = distance_y_from(character.y)\n if sx.abs > sy.abs\n move_straight(sx > 0 ? 6 : 4)\n move_straight(sy > 0 ? 2 : 8) if !@move_succeed && sy != 0\n elsif sy != 0\n move_straight(sy > 0 ? 2 : 8)\n move_straight(sx > 0 ? 6 : 4) if !@move_succeed && sx != 0\n end\n end", "def pawn_move\n position_index = Generic.find_square_index(en_passant_move, board)\n\n colour == 'White' ? pawn_move_white(position_index) : pawn_move_black(position_index)\n end", "def move(direction) \n # Exit map check\n if direction == 'up' && @pos_y == 2 && @pos_x == 1\n ProfBirchHome.new(@player, 'top').begin\n # If interacting with Prof Birch Child in first time instance, do a speech & animation\n elsif @player.profbirchhomeupstairs == 'first' \n if (direction == 'up' && @pos_y == 8 && @pos_x == 3) || (direction == 'right' && @pos_y ==7 && @pos_x == 2) || (direction == 'left' && @pos_x == 2 && @pos_y == 9)\n slowly(\"POKEMON fully restored!\\nItems ready, and... Huh?\")\n reset_map\n slowly(\"Huh? Who... Who are you?\")\n reset_map\n slowly(\"... ... ... ... ... ... ... ...\\n... ... ... ... ... ... ... ...\")\n reset_map\n slowly(\"Oh, you're #{ @player.name }.\\nSo your move was today.\")\n reset_map\n slowly(\"Um... I'm #{ @player.other_name }.\\nGlad to meet you!\")\n reset_map\n slowly(\"I...\\nI have this dream of becoming friends\")\n slowly(\"with POKEMON all over the world.\")\n reset_map\n slowly(\"I... I heard about you, #{ @player.name }, from\\nmy dad, PROF. BIRCH.\")\n reset_map\n slowly(\"I was hoping that you would be nice,\\n#{ @player.name }, and that we could be friends.\")\n reset_map\n slowly(\"On, this is silly, isn't it?\\nI... I've just met you, #{ @player.name }.\")\n reset_map\n slowly(\"Eheheh...\")\n reset_map\n slowly(\"Oh, no! I forgot!\")\n reset_map\n slowly(\"I was supposed to go help Dad catch\\nsome wild POKEMON!\")\n reset_map\n slowly(\"#{ @player.name }, I'll catch you later!\")\n @map[2][8] = 'S'\n if @pos_y != 7\n print_map\n @map[2][7] = 'other_icon'\n reset_map 0.5\n @map[2][7] = 'S'\n @map[2][6] = 'other_icon'\n reset_map 0.5\n else\n @map[3][8] = 'other_icon'\n reset_map 0.5\n @map[3][8] = 'S'\n @map[3][7] = 'other_icon'\n reset_map 0.5\n @map[3][7] = 'S'\n @map[3][6] = 'other_icon'\n reset_map 0.5\n @map[3][6] = 'S'\n @map[2][6] = 'other_icon'\n reset_map 0.5\n end\n @map[2][6] = 'S'\n @map[2][5] = 'other_icon'\n reset_map 0.5\n @map[2][5] = 'S'\n @map[2][4] = 'other_icon'\n reset_map 0.5\n @map[2][4] = 'S'\n @map[2][3] = 'other_icon'\n reset_map 0.5\n @map[2][3] = 'S'\n @map[2][2] = 'other_icon'\n reset_map 0.5\n @map[2][2] = 'S'\n @map[1][2] = 'other_icon'\n reset_map 0.5\n @map[1][2] = 'S'\n reset_map 0.5\n @player.profbirchhomeupstairs = 'second'\n @player.littleroot = 'third'\n end\n end\n super\n end", "def setup_move\n return unless PONY::ERRNO.check_sequence(current_act)\n stop_all_movements\n mx = @map_char.real_x + @acts[1]\n my = @map_char.real_y + @acts[2]\n goto(mx, my, @acts[3], @acts[4], @acts[5] || 0)\n end", "def get_moves_2(piece, board)\n valid_col = case piece.name\n when ?A then 3\n when ?B then 5\n when ?C then 7\n when ?D then 9\n else 11\n end\n moves = []\n\n # If in hallway\n if piece.row == 1\n cols = valid_col < piece.col ? (valid_col...piece.col).to_a : (piece.col+1..valid_col).to_a\n if cols.count{|c| board[[1, c]] == ?.} == cols.length\n if board[[2, valid_col]] == ?. && board[[3, valid_col]] == piece.name && board[[4, valid_col]] == piece.name && board[[5, valid_col]] == piece.name\n moves << [[2, valid_col], (cols.count + 1) * piece.cost]\n elsif board[[2, valid_col]] == ?. && board[[3, valid_col]] == ?. && board[[4, valid_col]] == piece.name && board[[5, valid_col]] == piece.name\n moves << [[3, valid_col], (cols.count + 2) * piece.cost]\n elsif board[[2, valid_col]] == ?. && board[[3, valid_col]] == ?. && board[[4, valid_col]] == ?. && board[[5, valid_col]] == piece.name\n moves << [[4, valid_col], (cols.count + 3) * piece.cost]\n elsif board[[2, valid_col]] == ?. && board[[3, valid_col]] == ?. && board[[4, valid_col]] == ?. && board[[5, valid_col]] == ?.\n moves << [[5, valid_col], (cols.count + 4) * piece.cost]\n end\n end\n # If right column and something is underneath and nothing above\n # If in wrong column completely and nothing above\n elsif piece.row >= 2\n below = (piece.row+1..5).to_a\n above = (2..piece.row-1).to_a\n if ((piece.col == valid_col && below.count{|c| board[[c, piece.col]] != piece.name} != 0 && below.length != 0) || (piece.col != valid_col)) && (above.count{|c| board[[c, piece.col]] == ?.} == above.length)\n 2.times do |t|\n dir = t == 0 ? -1 : 1\n curr = piece.col\n steps = 1 + above.length\n while board[[1, curr]] == ?.\n moves << [[1, curr], steps * piece.cost] if ![3, 5, 7, 9].include?(curr)\n steps += 1\n curr += dir\n end\n end\n end\n end\n moves\nend", "def perform_moves! move_sequence\n move_sequence.each do |target_position| \n if valid_jump?(target_position) \n perform_jump(target_position)\n else\n raise InvalidMoveError, 'Move sequence in invalid'\n end\n end\n end", "def grow_unblocked_moves_in_dir(dx,dy)\n start_x, start_y = self.pos\n #start for rook white === [7,0]\n # [6,0]\n # [5,0]\n # [4,0]\n # [3,0]\n # [2,0]\n\n dx = -1 #first iteration UP\n dy = 0\n\n\n 1.step do |i|\n start_x += dx\n start_y += dy\n if self.board.rows[start_x][start_y].empty? #[6,0]\n\n end\n # create an array to collect moves\n\n # get the piece's current row and current column\n\n\n # in a loop:\n # continually increment the piece's current row and current column to \n # generate a new position\n # stop looping if the new position is invalid (not on the board); the piece \n # can't move in this direction\n # if the new position is empty, the piece can move here, so add the new \n # position to the moves array\n # if the new position is occupied with a piece of the opposite color, the \n # piece can move here (to capture the opposing piece), so add the new \n # position to the moves array\n # but, the piece cannot continue to move past this piece, so stop looping\n # if the new position is occupied with a piece of the same color, stop looping\n\n # return the final moves array\n end\n \nend", "def generate_moves\n @delta.each do |step|\n (1..7).each do |i|\n new_pos = [@pos[0] + step[0] * i, @pos[1] + step[1] * i]\n if valid_coord?(new_pos)\n @move_list << new_pos\n break if @board[new_pos]\n else\n break\n end\n end\n end\n end", "def move\n return unless placed?\n # We know place() will already ignore invalid placements, so just advance\n # the robot and let it fail silently if those positions are not on the board\n place(*next_position, direction)\n end", "def move\n return unless placed?\n # no need to use a loop since the length is only 2\n new_x = @pos_x + @direction[:x]\n new_y = @pos_y + @direction[:y]\n\n return unless valid_position?(new_x, new_y)\n set_position(new_x, new_y)\n end", "def place\n next_move = {x: command.arguments[:x], y: command.arguments[:y]}\n if inside_table?(next_move_x_y(next_move, false))\n update_position!(next_move_x_y(next_move, false))\n update_direction!\n else\n almost_die\n end\n end", "def move(args)\n return if !@is_robot_availabe\n case @direction\n when \"NORTH\"\n if @pos_y + STEP <= TABLE_Y\n @pos_y += STEP\n return\n end\n \n when \"EAST\"\n if @pos_x + STEP <= TABLE_X\n @pos_x += STEP\n return\n end\n \n when \"SOUTH\"\n if @pos_y - STEP >= 0\n @pos_y -= STEP\n return\n end\n \n when \"WEST\"\n if @pos_x - STEP >= 0\n @pos_x -= STEP\n return\n end\n \n end\n puts \"Warning: Robot cannot move towards #{@direction} anymore. \"\n # return \"MOVE\" #for test\n end", "def move\n position_after_move = @position.new_coordinates_for_step_size(@direction.step_size_for_x_axis, @direction.step_size_for_y_axis)\n\n #ignore the command if robot is being out off tabletop\n if(@table_top.has_within_bounds?(position_after_move))\n @position = @position.new_coordinates_for(@direction.step_size_for_x_axis, @direction.step_size_for_y_axis)\n\n end\n end", "def move_piece(move, color) \n squares = find_start_and_end(move) # [start, end]\n\n return false if @display[squares[0][0]][squares[0][1]].guest == ' '\n\n start_piece = @display[squares[0][0]][squares[0][1]].guest\n\n return false if start_piece.color != color \n\n moves = get_legal_moves(squares[0], start_piece, start_piece.poss_moves(squares[0]))\n\n\n if moves.include?(squares[1])\n\n # castling\n if start_piece.id == 'king' && start_piece.color == 'white' && squares[1] == [7, 1] \n make_move(squares[0], squares[1], start_piece)\n make_move([7, 0], [7, 2], @display[0][0].guest)\n elsif start_piece.id == 'king' && start_piece.color == 'black' && squares[1] == []\n make_move(squares[0], squares[1], start_piece)\n make_move([0, 0], [0, 2], @display[7][0].guest)\n\n # pawn -> queen upgrade\n elsif start_piece.id == 'pawn' && start_piece.color == 'white' && squares[1][0].zero?\n make_move(squares[0], squares[1], Queen.new('white'))\n elsif start_piece.id == 'pawn' && start_piece.color == 'black' && squares[1][0] == 7\n make_move(squares[0], squares[1], Queen.new('black'))\n\n else\n make_move(squares[0], squares[1], start_piece)\n end\n else\n false\n end\n end", "def move\n\t\treturn \"INVALID COMMANDS, YOU CAN NOT MAKE THE ROBOT FALL OFF THE TABLE\" unless is_valid_move?\n\t\tcase @direction\n\t\twhen \"east\"\n\t\t\t@x_coordinate += 1\n\t\twhen \"west\"\n\t\t\t@x_coordinate -= 1\n\t\twhen \"south\"\n\t\t\t@y_coordinate -= 1\n\t\twhen \"north\"\n\t\t\t@y_coordinate += 1\n\t\telse\n\t\tend\n\t\ttrue\n\tend", "def move (player, direction)\n @players.each { |x| player_object = x if x.name == player}\n @exits.each {|x| x.move player_object << player_object if exit.direction == direction}\n @players.delete player_object\n end", "def move_castling(short, color)\n\n if short\n if color == 'black'\n board[0][5].piece, board[0][6].piece = board[0][7].piece, board[0][4].piece\n board[0][7].piece, board[0][4].piece = nil, nil\n board[0][5].piece.position, board[0][6].piece.position = [0,5], [0,6]\n update_possible_movement_all_pieces()\n turns[board[0][5].piece.COLOR.to_sym] += 1\n board[0][5].piece.number_of_move += 1 if board[0][5].piece.instance_of?(Rook)\n board[0][6].piece.number_of_move += 1 if board[0][6].piece.instance_of?(King)\n \n return board[0][5].piece\n else\n board[7][5].piece, board[7][6].piece = board[7][7].piece, board[7][4].piece\n board[7][7].piece, board[7][4].piece = nil, nil\n board[7][5].piece.position, board[7][6].piece.position = [7,5], [7,6]\n update_possible_movement_all_pieces()\n turns[board[7][5].piece.COLOR.to_sym] += 1\n board[7][5].piece.number_of_move += 1 if board[7][5].piece.instance_of?(Rook)\n board[7][6].piece.number_of_move += 1 if board[7][6].piece.instance_of?(King)\n \n return board[7][5].piece\n end\n else\n if color == 'black'\n board[0][3].piece, board[0][2].piece = board[0][0].piece, board[0][4].piece\n board[0][0].piece, board[0][4].piece = nil, nil\n board[0][3].piece.position, board[0][2].piece.position = [0,3], [0,2]\n update_possible_movement_all_pieces()\n\n turns[board[0][3].piece.COLOR.to_sym] += 1\n board[0][3].piece.number_of_move += 1 if board[0][3].piece.instance_of?(Rook)\n board[0][2].piece.number_of_move += 1 if board[0][2].piece.instance_of?(King)\n\n return board[0][3].piece\n else\n board[7][3].piece, board[7][2].piece = board[7][0].piece, board[7][4].piece\n board[7][0].piece, board[7][4].piece = nil, nil\n board[7][3].piece.position, board[7][2].piece.position = [7,3], [7,2]\n update_possible_movement_all_pieces()\n \n turns[board[7][3].piece.COLOR.to_sym] += 1\n board[7][3].piece.number_of_move += 1 if board[7][3].piece.instance_of?(Rook)\n board[7][2].piece.number_of_move += 1 if board[7][2].piece.instance_of?(King)\n\n return board[7][3].piece\n end\n end\n\n end", "def legal_move?(board,from,to)\n\t\treturn false unless super(board,to)\n\t\tfrom_y = from[1]\n\t\tfrom_x = from[0]\n\t\tto_y = to[1]\n\t\tto_x = to[0]\n\t\t#when trying to move diagonally\n\t\tif from_x != to_x\n\t\t\t#checks colour of pawn\n\t\t\tif colour == \"white\"\n\t\t\t\t#checks only 1 vertical move away\n\t\t\t\tif (from_y-to_y) == 1\n\t\t\t\t\treturn true\n\t\t\t\telse\n\t\t\t\t\tputs \"No enemy pawn there\"\n\t\t\t\t\treturn false\n\t\t\t\tend\n\t\t\telse\n\t\t\t\tif (to_y-from_y) == 1\n\t\t\t\t\treturn true\n\t\t\t\telse\n\t\t\t\t\tputs \"No enemy pawn there\"\n\t\t\t\t\treturn false\n\t\t\t\tend\n\t\t\tend\n\t\tend\n\t\t#when trying to move straight\n\t\tif colour == \"white\"\n\t\t\tif from_y == 6\n\t\t\t\tif (from_y-to_y) <= 2 && board.get_piece(to) == \"_\"\n\t\t\t\t\treturn true\n\t\t\t\telse\n\t\t\t\t\tputs \"Can only move 1 or 2 spaces from here and or another piece already there\"\n\t\t\t\t\treturn false\n\t\t\t\tend\t\t\t\t\t\n\t\t\telse\n\t\t\t\tif (from_y-to_y) == 1 && board.get_piece(to) == \"_\"\n\t\t\t\t\treturn true\n\t\t\t\telse\n\t\t\t\t\tputs \"Can only move 1 space from here and or another piece already there\"\n\t\t\t\t\treturn false\n\t\t\t\tend\n\t\t\tend\n\t\telse\n\t\t\tif from_y == 1\n\t\t\t\tif (to_y-from_y) <= 2 && board.get_piece(to) == \"_\"\n\t\t\t\t\treturn true\n\t\t\t\telse\n\t\t\t\t\tputs \"Can only move 1 or 2 spaces from here and or another piece already there\"\n\t\t\t\t\treturn false\n\t\t\t\tend\n\t\t\telse\n\t\t\t\tif (to_y-from_y) == 1 && board.get_piece(to) == \"_\"\n\t\t\t\t\treturn true\n\t\t\t\telse\n\t\t\t\t\tputs \"Can only move 1 space from here and or another piece already there\"\n\t\t\t\t\treturn false\n\t\t\t\tend\n\t\t\tend\n\t\tend\n\tend", "def each_move\n SQ.select { |i| @colors[i] == @mx }.each do |f|\n if @pieces[f] == PAWN\n t = f + UP[@mx]\n yield(f, t + 1) if @colors[t + 1] == @mn && SQ120[SQ64[t] + 1] != NULL\n yield(f, t - 1) if @colors[t - 1] == @mn && SQ120[SQ64[t] - 1] != NULL\n next unless @colors[t] == EMPTY\n yield(f, t)\n yield(f, t + UP[@mx]) if @colors[t + UP[@mx]] == EMPTY && (f >> 3) == (SIDE[@mx] - 1).abs\n next\n end\n STEPS[@pieces[f]].each do |s|\n t = SQ120[SQ64[f] + s]\n while t != NULL\n yield(f, t) if @colors[t] != @mx\n break if @pieces[f] == KING || @pieces[f] == KNIGHT || @colors[t] != EMPTY\n t = SQ120[SQ64[t] + s]\n end\n end\n end\n end", "def move_up\n up_tile = C[@location.first - 1, @location.second]\n move_to(up_tile)\n end", "def move_piece(start_pos,end_pos)\n begin \n raise \"No piece here to move\" if grid[start_pos[0]][start_pos[1]].nil?\n raise \"Can't move to this spot\" if end_pos[0] > 7 || end_pos[0] < 0 || end_pos[1] > 7 || end_pos[1] < 0 \n self[start_pos], self[end_pos] = self[end_pos],self[start_pos]\n end\n end", "def move_lateral(index, limit = 8)\n row = get_row_from_index(index)\n col = get_col_from_index(index)\n\n left = [col - 1, limit].min\n right = [8 - col, limit].min\n up = [row - 1, limit].min\n down = [8 - row, limit].min\n\n valid = []\n\n # Move down N places until board limit, piece in the way, or specified limit\n down.times do |i|\n next_pos = index + (i + 1) * 8\n # Valid move if position is unoccupied\n if unoccupied?(next_pos)\n valid << next_pos\n else\n # Valid move is piece is an enemy, but then no subsequent tiles are attackable\n # if the piece is not an enemy, it's not added as a valid move, and no subsequent tiles are attackable\n # This function doesn't filter out the king from a valid enemy, but the Board class will drop King indexes\n valid << next_pos if piece_color(next_pos) == Move.enemy_color\n\n break\n end\n end\n\n # Move up N places until board limit, piece in the way, or specified limit\n up.times do |i|\n next_pos = index - (i + 1) * 8\n if unoccupied?(next_pos)\n valid << next_pos\n else\n valid << next_pos if piece_color(next_pos) == Move.enemy_color\n break\n end\n end\n\n # Move right N places until board limit, piece in the way, or specified limit\n right.times do |i|\n next_pos = index + (i + 1)\n if unoccupied?(next_pos)\n valid << next_pos\n else\n valid << next_pos if piece_color(next_pos) == Move.enemy_color\n break\n end\n end\n\n # Move left N places until board limit, piece in the way, or specified limit\n left.times do |i|\n next_pos = index - (i + 1)\n if unoccupied?(next_pos)\n valid << next_pos\n else\n valid << next_pos if piece_color(next_pos) == Move.enemy_color\n break\n end\n end\n\n valid\n end", "def test_move\n map = create_towns\n p1 = Prospector::new map[0]\n test_i = move p1, map, 2\n assert test_i, -1\n end", "def move(dest, crown?) # called in :turn > active_piece.move()\n # updates dest in board array\n # updates piece with new coordinates\n # updates jumped pieces?\nend", "def jumpto_tile(x, y)\n jumpto(0, [x, y])\n end", "def move_piece(start, dest)\n\n determine_moves(start)\n\n #puts \"dest movem valid?: #{@spaces[start].moveset.include?(dest)}\"\n\n #puts \"dest atack valid?: #{@spaces[start].attackset.include?(dest)}\"\n return false if @spaces[start].color != @player || \n @spaces[start].moveset.include?(dest).! and @spaces[start].attackset.include?(dest).!\n\n #TODO #return false if in_check\n\n @spaces[dest] = @spaces[start]\n\n @spaces[dest].location = dest\n\n @spaces[start] = nil\n\n return true\n\n end", "def possible_moves\n possible_moves = []\n\n # move up\n up_right = [start[X] + 1, start[Y] + 2]\n possible_moves << up_right\n\n up_left = [start[X] - 1, start[Y] + 2]\n possible_moves << up_left\n\n # move right\n right_up = [start[X] + 2, start[Y] + 1]\n possible_moves << right_up\n\n right_down = [start[X] + 2, start[Y] - 1]\n possible_moves << right_down\n\n # move down\n down_right = [start[X] + 1, start[Y] - 2]\n possible_moves << down_right\n\n down_left = [start[X] - 1, start[Y] - 2]\n possible_moves << down_left\n\n # move left\n left_up = [start[X] - 2, start[Y] + 1]\n possible_moves << left_up\n\n left_down = [start[X] - 2, start[Y] - 1]\n possible_moves << left_down\n\n possible_moves.select { |move| @board.valid_position?(move) }\n\n end", "def tile_exception(x, y, d)\n # get pixel movement rate\n pix = $BlizzABS.pixel\n # check direction and return map passability depending on direction\n return case d\n when 2\n (($game_map.virtual_passability[x / pix, (y + pix) / pix] & 0x04 == 0x04) &&\n ($game_map.virtual_passability[(x + pix) / pix, (y + pix) / pix] & 0x02 == 0x02))\n when 4\n (($game_map.virtual_passability[(x - pix) / pix, y / pix] & 0x01 == 0x01) &&\n ($game_map.virtual_passability[(x - pix) / pix, (y + pix) / pix] & 0x08 == 0x08))\n when 6\n (($game_map.virtual_passability[(x + pix) / pix, y / pix] & 0x01 == 0x01) &&\n ($game_map.virtual_passability[(x + pix) / pix, (y + pix) / pix] & 0x08 == 0x08))\n when 8\n (($game_map.virtual_passability[x / pix, (y - pix) / pix] & 0x04 == 0x04) &&\n ($game_map.virtual_passability[(x + pix) / pix, (y - pix) / pix] & 0x02 == 0x02))\n end\n end", "def get_move\n #puts \"get_move for #{self}\"\n return [] if goal == nil or goal == []\n while(1)\n rv = []\n g = goal.shift\n return [] if g == nil\n puts g.join('---')\n case g[0]\n when KILL\n e = g[1] # get the ennemy\n if(not $map.exists?(e) or e.life<=0)\n puts 'this ant does not exists anymore or is dead, next goal'\n next \n end\n \n dist = distance(self,e)\n #puts \"I am #{self}\"\n #puts \"goal: kill this enneny: #{e}\"\n i = 0\n if dist > 1 # move\n # by doing this we are finding subgoals\n # TODO: add_sub_goal ?\n\n path = find_best_way(e.x,e.y)# we have to move next to it\n #puts ppath(path)\n if path==nil\n # TODO: no path, find something else to do\n puts 'no path ! , next goal'\n next\n end\n \n # we have a path to it\n # so now we have to move smartly\n # if we are at 3 cases, we can move and attack\n # more than that we have to move at 4 cases and wait the next turn\n # TODO: do not wait at a position where we can be attacked\n if(path.size-2 <= 3) # minus two because the path include our case\n i = path.size-2 # 0 based minus one, so -2 \n #puts 's1'\n elsif(path.size-2 >= 6) # we are far away\n i = 6\n #puts 's2'\n else\n i = (path.size-2)\n #puts 's3'\n end\n #puts i\n #sleep(1)\n if i <= 0\n puts \"i <= 0 (#{i}), #{ppath(path)}\"\n sleep(5)\n else\n a,b = path[i][0]\n #puts \"I am moving to (#{[a,b].join(',')})\"\n self.x,self.y = a,b\n rv << \"Cb#{object_id}~\"+[a,b].pack('cc')\n #puts x\n end\n end\n return rv if i > 3 # return if we can not attack at the same round\n #puts i\n dist = distance(self,e)\n if dist == 1\n puts 'Attack'\n rv << \"Cc#{object_id}~#{e.object_id}\"\n e.life -= 5\n end\n return rv\n else\n puts 'unknown goal, next goal'\n end # case\n end #while\n puts \"no goal ? find something else to do !\"\n rv\n end", "def move_piece!(from_pos, to_pos)\n piece = self[from_pos]\n raise 'piece cannot move like that' unless piece.moves.include?(to_pos)\n\n piece.prev_pos = from_pos\n piece.moved_during_match ||= true\n\n self[to_pos] = piece\n self[from_pos] = nil\n piece.pos = to_pos\n\n nil\n end", "def possible_moves(starting_position, actual_piece, turn = @turn, board = @board)\n row = starting_position[0]\n column = starting_position[1]\n potential_moves = []\n\n active_pieces = []\n enemy_pieces = []\n\n if turn == 1\n active_pieces = @w_pieces\n enemy_pieces = @b_pieces\n else\n active_pieces = @b_pieces\n enemy_pieces = @w_pieces\n end\n\n # moves available for white pawns\n if actual_piece == $w_pawn\n # if the white pawn is in its original spot, then it can move two spots or one spot\n return if row == 7\n\n if row == 1\n potential_moves << [row+1, column] if board[row+1][column] == ' '\n potential_moves << [row+2, column] if board[row+2][column] == ' '\n else\n potential_moves << [row+1, column] if board[row+1][column] == ' '\n end\n\n # can take black pieces, but only if they are available diagonally\n potential_moves << [row+1, column+1] if @b_pieces.include?(board[row+1][column+1])\n potential_moves << [row+1, column-1] if @b_pieces.include?(board[row+1][column-1])\n\n # can take black pawns under special en-passant rule\n if @en_passant_piece != []\n passant_row = invert_position_converter(@en_passant_piece)[0]\n passant_col = invert_position_converter(@en_passant_piece)[1]\n if passant_row == row && (passant_col == column + 1 || passant_col == column - 1)\n # it must be empty in order for us to do en-passant (otherwise the pawn can just take)\n if @board[passant_row+1][passant_col] = ' '\n potential_moves << [passant_row+1, passant_col]\n end\n end\n end\n end \n\n # moves available for black pawns\n if actual_piece == $b_pawn\n # if the black pawn is in its original spot, then it can move two spots or one spot\n return if row == 0\n\n if row == 6\n potential_moves << [row-1, column] if board[row-1][column] == ' '\n potential_moves << [row-2, column] if board[row-2][column] == ' '\n else\n potential_moves << [row-1, column] if board[row-1][column] == ' '\n end\n\n # can take white pieces\n potential_moves << [row-1, column+1] if @b_pieces.include?(board[row-1][column+1])\n potential_moves << [row-1, column-1] if @b_pieces.include?(board[row-1][column-1])\n\n # can take white pawns under special en-passant rule\n\n if @en_passant_piece != []\n passant_row = invert_position_converter(@en_passant_piece)[0]\n passant_col = invert_position_converter(@en_passant_piece)[1]\n if passant_row == row && (passant_col == column + 1 || passant_col == column - 1)\n if @board[passant_row-1][passant_col] = ' '\n potential_moves << [passant_row-1, passant_col]\n end\n end\n end\n end\n\n # moves available for rooks\n if actual_piece == $w_rook || actual_piece == $b_rook\n\n i_row = row\n i_col = column\n\n # returns all potential moves north of the starting position\n until i_row+1 == 8 || active_pieces.include?(board[i_row+1][i_col])\n if enemy_pieces.include?(board[i_row+1][i_col])\n potential_moves << [i_row+1,i_col]\n break\n else\n potential_moves << [i_row+1,i_col]\n end\n i_row += 1\n end\n \n i_row = row\n i_col = column \n\n # returns all potential moves south of the starting position\n until active_pieces.include?(board[i_row-1][i_col]) || i_row-1 == -1\n if enemy_pieces.include?(board[i_row-1][i_col])\n potential_moves << [i_row-1,i_col]\n break\n else\n potential_moves << [i_row-1,i_col]\n end\n i_row -= 1\n end\n\n i_row = row\n i_col = column\n \n\n # returns all potential moves right of the starting position\n until active_pieces.include?(board[i_row][i_col+1]) || i_col+1 == 8\n if enemy_pieces.include?(board[i_row][i_col+1])\n potential_moves << [i_row,i_col+1]\n break\n else\n potential_moves << [i_row,i_col+1]\n end\n i_col += 1\n end\n\n i_row = row\n i_col = column\n \n # returns all potential moves left of the starting position\n until active_pieces.include?(board[i_row][i_col-1]) || i_col-1 == -1\n if enemy_pieces.include?(board[i_row][i_col-1])\n potential_moves << [i_row,i_col-1]\n break\n else\n potential_moves << [i_row,i_col-1]\n end\n i_col -= 1\n end\n\n i_row = row\n i_col = column\n\n end\n\n # moves available for knights\n if actual_piece == $w_knig || actual_piece == $b_knig\n\n # returns all potential moves\n potential_moves << [row+2, column+1]\n potential_moves << [row+1, column+2]\n potential_moves << [row-1, column+2]\n potential_moves << [row-2, column+1]\n potential_moves << [row-2, column-1]\n potential_moves << [row-1, column-2]\n potential_moves << [row+1, column-2]\n potential_moves << [row+2, column-1]\n\n end\n\n # moves available for bishops\n if actual_piece == $w_bish || actual_piece == $b_bish\n\n i_row = row\n i_col = column\n\n # returns all potential moving north-east of the starting position\n\n until i_row+1 == 8 || i_col+1 == 8 || active_pieces.include?(board[i_row+1][i_col+1])\n if enemy_pieces.include?(board[i_row+1][i_col+1])\n potential_moves << [i_row+1,i_col+1]\n break\n else\n potential_moves << [i_row+1,i_col+1]\n end\n i_row += 1\n i_col += 1\n end\n \n i_row = row\n i_col = column \n\n # returns all potential moving south-east of the starting position\n until i_row-1 == -1 || i_col+1 ==8 || active_pieces.include?(board[i_row-1][i_col+1])\n if enemy_pieces.include?(board[i_row-1][i_col+1])\n potential_moves << [i_row-1,i_col+1]\n break\n else\n potential_moves << [i_row-1,i_col+1]\n end\n i_row -= 1\n i_col += 1\n end\n \n i_row = row\n i_col = column \n\n # returns all potential moving south-west of the starting position\n until i_row-1 == -1 || i_col-1 == -1 || active_pieces.include?(board[i_row-1][i_col-1])\n if enemy_pieces.include?(board[i_row-1][i_col-1])\n potential_moves << [i_row-1,i_col-1]\n break\n else\n potential_moves << [i_row-1,i_col-1]\n end\n i_row -= 1\n i_col -= 1\n end\n \n i_row = row\n i_col = column \n \n # returns all potential moving north-east of the starting position\n until i_row+1 == 8 || i_col-1 == -1 || active_pieces.include?(board[i_row+1][i_col-1])\n if enemy_pieces.include?(board[i_row+1][i_col-1])\n potential_moves << [i_row+1,i_col-1]\n break\n else\n potential_moves << [i_row+1,i_col-1]\n end\n i_row += 1\n i_col -= 1\n end\n \n i_row = row\n i_col = column \n\n end\n\n # moves available for queens\n if actual_piece == $w_quee || actual_piece == $b_quee\n if actual_piece == $w_quee\n potential_moves.concat(possible_moves(starting_position, $w_rook, turn = 1))\n potential_moves.concat(possible_moves(starting_position, $w_bish, turn = 1))\n end\n if actual_piece == $b_quee\n potential_moves.concat(possible_moves(starting_position, $b_rook, turn = 2))\n potential_moves.concat(possible_moves(starting_position, $b_bish, turn = 2))\n end\n end\n\n # moves available for kings\n if actual_piece == $w_king || actual_piece == $b_king\n i_row = row\n i_col = column\n\n potential_moves << [i_row+1, i_col]\n potential_moves << [i_row+1, i_col+1]\n potential_moves << [i_row, i_col+1]\n potential_moves << [i_row-1, i_col-1]\n potential_moves << [i_row-1, i_col]\n potential_moves << [i_row-1, i_col+1]\n potential_moves << [i_row, i_col-1]\n potential_moves << [i_row+1, i_col-1]\n\n # castling conditions\n # The king does not move over a square that is attacked by an enemy piece during the castling move, i.e., when castling, there may not be an enemy piece that can move (in case of pawns: by diagonal movement) to a square that is moved over by the king.\n\n # The king cannot be in check if they are trying to castle\n if !@check_condition\n if actual_piece == $w_king\n # checks for left rook potential\n if board[0][1] == ' ' && board[0][2] == ' ' && board[0][3] == ' '\n binding.pry\n if @w_king_move == \"not moved\" && @w_rook_left == \"not moved\"\n if !enemy_positions.include?([0, 3])\n potential_moves << [0, 2]\n end\n end\n #checks for right rook potential\n elsif board[0][5] == ' ' && board[0][6] == ' '\n if @w_king_move == \"not moved\" && @w_rook_right == \"not moved\"\n if !enemy_positions.include?([0, 5])\n potential_moves << [0, 6]\n end\n end\n end\n end\n if actual_piece == $b_king\n # checks for left rook potential\n if board[7][1] == ' ' && board[7][2] == ' ' && board[7][3] == ' '\n if @b_king_move == \"not moved\" && @b_rook_left == \"not moved\"\n if !enemy_positions.include?([7, 3])\n potential_moves << [7, 2]\n end \n end\n #checks for right rook potential\n elsif board[7][5] == ' ' && board[7][6] == ' '\n if @b_king_move == \"not moved\" && @b_rook_right == \"not moved\"\n if !enemy_positions.include?([7, 5])\n potential_moves << [7, 6] \n end\n end\n end\n end\n end\n\n end\n\n potential_moves = potential_moves.select { |pos| valid_move?(pos, turn)}\n\n potential_moves\n\n end" ]

[ "0.66526705", "0.66092914", "0.6592572", "0.65756977", "0.6566913", "0.6489996", "0.6418296", "0.6296263", "0.62415653", "0.6214329", "0.6149912", "0.61496544", "0.6126512", "0.61131924", "0.61026967", "0.6080054", "0.60781395", "0.6068451", "0.60475737", "0.604509", "0.6004925", "0.59943837", "0.5992415", "0.5978693", "0.5950145", "0.5920017", "0.5910033", "0.5902844", "0.59014285", "0.5870663", "0.5869655", "0.5865187", "0.58578897", "0.5857793", "0.5856936", "0.58425176", "0.58367527", "0.583465", "0.582443", "0.5824285", "0.58131427", "0.5805184", "0.5804238", "0.58012736", "0.57905763", "0.5783181", "0.5782004", "0.577899", "0.5762354", "0.5748897", "0.5743957", "0.57395625", "0.572838", "0.5724074", "0.57200533", "0.57194346", "0.57188183", "0.5713476", "0.5704091", "0.56885916", "0.56761026", "0.56760633", "0.56695515", "0.5668963", "0.5663255", "0.565939", "0.5657195", "0.5647538", "0.5636126", "0.5635228", "0.56347656", "0.5624932", "0.5617826", "0.5617789", "0.5613436", "0.56106275", "0.5606563", "0.55993587", "0.55976444", "0.5595966", "0.55948013", "0.55916715", "0.55909365", "0.55865896", "0.5575538", "0.55708486", "0.55665296", "0.55625963", "0.5559576", "0.5554695", "0.5554426", "0.5551582", "0.55452704", "0.5544627", "0.5544505", "0.55432904", "0.554271", "0.5541493", "0.5534489", "0.55326587" ]

[ "def shortest_route_by_distance_to!(place_or_object_place_was_built_from)\n routes_for!(place_or_object_place_was_built_from).min_by(&:distance_in_meters)\n end", "def shortest_route_by_distance_to(place_or_object_place_was_built_from)\n routes = routes_for place_or_object_place_was_built_from\n select_ok_routes(routes).min_by(&:distance_in_meters)\n end", "def nearest_mine\n src = @pos\n shortest_dst = 63\n nearest = [0,0]\n unowned_mines = @game.mines_locs.reject { |pos, hero_id| hero_id == @hero_id }\n unowned_mines.each do |pos, hero_id|\n build_branching_paths(src, pos)\n path = find_path(pos)\n if path.length < shortest_dst\n shortest_dst = path.length\n nearest = pos\n end\n end\n nearest\n end", "def closest_point_to(target, min_distance=3)\n angle_rad = target.calculate_rad_angle_between(self)\n radius = target.radius + min_distance\n x = target.x + radius * Math.cos(angle_rad)\n y = target.y + radius * Math.sin(angle_rad)\n\n Position.new(x, y)\n end", "def shortest_route_by_duration_in_traffic_to!(place_or_object_place_was_built_from)\n ensure_driving_and_departure_time_or_fail!\n\n routes_for!(place_or_object_place_was_built_from).min_by(&:duration_in_traffic_in_seconds)\n end", "def nearest_driver(coord_from)\n queue = Queue.new\n queue << [coord_from]\n seen = Set.new([coord_from])\n while queue\n begin\n path = queue.pop(non_block = true)\n rescue ThreadError\n return nil\n end\n x, y = path[-1]\n if @map[y][x].instance_of?(Driver) && [x, y] != coord_from\n return { \"coord\" => [x, y], \"route\" => path, \"object\" => @map[y][x] }\n end\n for x2, y2 in [[x + 1, y], [x - 1, y], [x, y + 1], [x, y - 1]]\n if (0 <= x2 && x2 < @map[0].length) && (0 <= y2 && y2 < @map.length) && (@map[y2][x2] != @WALL && @map[y2][x2] != @PERMANENT_WALL) && !seen.include?([x2, y2])\n queue << (path + [[x2, y2]])\n seen.add([x2, y2])\n end\n end\n end\n end", "def find_nearest_route(path)\n\t\t\tpath_parts = path.parts.dup\n\t\t\tloop do\n\t\t\t\troute = routes.navigate(*path_parts)&.first_route\n\t\t\t\tbreak route if route || path_parts.pop.nil?\n\t\t\tend\n\t\tend", "def find_closest(env)\n # Grab the x and y coordinates of the agent's position.\n x, y = @position.values\n # A hash to store DIST=>GOAL pairs.\n hash = {}\n\n # Iterate over env, populating hash with pairs containing the\n # distance to a goal as keys and the goal itself as values.\n env.each do |o|\n hash[Params::distance_to(x, y, o.x, o.y)] = o if o.kind_of? Goal\n end\n # Take the goal corresponding to the minimum key (closest distance)\n # in the hash.\n @closest_goal = hash[hash.keys.min]\n\n # Return a vector to the closest goal if one exists.\n # (The only reason one wouldn't exist is if the environment had no\n # goals.)\n return @closest_goal.x - x, @closest_goal.y - y if @closest_goal\n return @closest_goal # Will be nil if it ever gets here.\n end", "def hit_the_road(route, previous_positions)\n route.detect { |point| previous_positions.include?(point) }\nend", "def _closest_pair(px, py)\n nx, ny = px.length, py.length\n return [px[0], py[0]] if nx == 1 and ny == 1\n return best([px[0], px[1]], [py[0], py[1]]) if nx == 2 and ny == 2\n qx, rx, qy, ry = px[0...nx/2], px[nx/2...nx], py[0...ny/2], py[ny/2...ny]\n qpair = _closest_pair(qx, qy)\n rpair = _closest_pair(rx, ry)\n min_dist = [distance(qpair[0], qpair[1]), distance(rpair[0], rpair[1])].min\n split_pair = closest_split_pair(px, py, min_dist)\n best(qpair, rpair, split_pair)\nend", "def shortest_route_by_duration_to(place_or_object_place_was_built_from)\n routes = routes_for place_or_object_place_was_built_from\n select_ok_routes(routes).min_by(&:duration_in_seconds)\n end", "def closest_planet\n finder = self.class.select(\"id, name, location, planets.location<->POINT('#{self.location}') as distance\")\n self.class.my_planets.each do |p|\n finder = finder.where(\"NOT location ~= POINT(?)\", p.location)\n end\n finder.order(\"distance ASC\").first\n end", "def shortest_route_by_duration_in_traffic_to(place_or_object_place_was_built_from)\n ensure_driving_and_departure_time_or_fail!\n\n routes = routes_for place_or_object_place_was_built_from\n select_ok_routes(routes).min_by(&:duration_in_traffic_in_seconds)\n end", "def find_closest\n find_target_coordinates\n location = build_query.geo_near(@target_cord).first\n\n return nil if location.nil?\n [(location.phone_numbers & customer_numbers).first, location.geo_name]\n end", "def shortest_route_by_duration_to!(place_or_object_place_was_built_from)\n routes_for!(place_or_object_place_was_built_from).min_by(&:duration_in_seconds)\n end", "def find_path(source, target, map)\n @main_loop_count = 0\n\n max_y = map.size - 1\n max_x = map[0].size - 1\n target_x = target[0]\n target_y = target[1]\n # target heuristic is 0\n target = [target_x, target_y, 0]\n\n # Sets up the search to begin from the source\n source = source.dup.push((target_x - source[0]).abs + (target_y - source[1]).abs)\n came_from = {}\n came_from[source] = nil\n frontier = [source]\n\n # Until the target is found or there are no more cells to explore from\n until came_from.has_key?(target) || frontier.empty?\n @main_loop_count += 1\n\n # Take the next frontier cell\n new_frontier = frontier.shift\n\n # Find the adjacent neighbors\n adjacent_neighbors = []\n\n # Gets all the valid adjacent_neighbors into the array\n # From southern neighbor, clockwise\n nfx = new_frontier[0]\n nfy = new_frontier[1]\n adjacent_neighbors << [nfx , nfy - 1, (target_x - nfx).abs + (target_y - nfy + 1).abs] unless nfy == 0\n adjacent_neighbors << [nfx - 1, nfy - 1, (target_x - nfx + 1).abs + (target_y - nfy + 1).abs] unless nfx == 0 || nfy == 0\n adjacent_neighbors << [nfx - 1, nfy , (target_x - nfx + 1).abs + (target_y - nfy).abs] unless nfx == 0\n adjacent_neighbors << [nfx - 1, nfy + 1, (target_x - nfx + 1).abs + (target_y - nfy - 1).abs] unless nfx == 0 || nfy == max_y\n adjacent_neighbors << [nfx , nfy + 1, (target_x - nfx).abs + (target_y - nfy - 1).abs] unless nfy == max_y\n adjacent_neighbors << [nfx + 1, nfy + 1, (target_x - nfx - 1).abs + (target_y - nfy - 1).abs] unless nfx == max_x || nfy == max_y\n adjacent_neighbors << [nfx + 1, nfy , (target_x - nfx - 1).abs + (target_y - nfy).abs] unless nfx == max_x\n adjacent_neighbors << [nfx + 1, nfy - 1, (target_x - nfx - 1).abs + (target_y - nfy + 1).abs] unless nfx == max_x || nfy == 0\n\n new_neighbors = adjacent_neighbors.select do |neighbor|\n # That have not been visited and are not walls\n unless came_from.has_key?(neighbor) || map[neighbor[1]][neighbor[0]] != '.'\n # Add them to the frontier and mark them as visited\n # frontier << neighbor\n came_from[neighbor] = new_frontier\n end\n end\n\n # Sort the frontier so cells that are close to the target are then prioritized\n if new_neighbors.length > 0\n new_neighbors = merge_sort(new_neighbors)\n if frontier.length > 0 && new_neighbors[0][2] >= frontier[0][2]\n frontier = merge_sort(new_neighbors.concat(frontier))\n else\n frontier = new_neighbors.concat(frontier)\n end\n end\n end\n\n # If the search found the target\n if came_from.has_key?(target)\n # Calculates the path between the target and star for the greedy search\n # Only called when the greedy search finds the target\n path = []\n next_endpoint = came_from[target]\n while next_endpoint\n path << [next_endpoint[0], next_endpoint[1]]\n next_endpoint = came_from[next_endpoint]\n end\n path\n else\n return nil\n end\n end", "def closest(obj)\n zombie = @zombies.first\n\n min_dist = MAX_DIST\n\n @zombies.each do |z|\n dist = z.distance(obj)\n if dist < min_dist\n zombie = z\n min_dist = dist\n end\n end\n\n zombie\n end", "def pathfind begTile, endTile\n @traveled_tiles = [begTile]\n @current_tiles = [begTile]\n @next_tiles = Array.new\n #iterate through the maze one movement at a time, hard stop when all tiles have been exhausted\n while (!@current_tiles.include? endTile) && @traveled_tiles.length < @maze.size\n @current_tiles.each do |tile|\n (get_adjacent_floors tile).each do |next_tile|\n #makes sure no tiles are double counted, the first to hit will always be the shortest\n if (next_tile.is_floor) && (!@next_tiles.include? next_tile) && (!@traveled_tiles.include? next_tile)\n @next_tiles.push next_tile\n next_tile.previous_tile tile\n end\n end\n end\n @traveled_tiles.concat @next_tiles\n @current_tiles = @next_tiles.dup\n @next_tiles.clear\n end\n endTile.get_path\n end", "def closest_match(new_model, crucial_params, match_params)\n best_matches = []\n # for an increasing number of parameters, look for matches with all combinations of that number of match params\n # looks for the match fitting the highest number of parameters and chooses that one\n # TODO: can be optimized since certain possibilities can be nipped out of future iterations if their descendants did not have matches\n 1.upto(match_params.count - 1) do |count|\n match_found = false\n CombinatorialIterator.new(count, match_params).mapCombinations do |params|\n cur_params = crucial_params.merge(params)\n matches = new_model.class.where(cur_params)\n # logger.info \"found #{matches.count} matches for cur_params: #{cur_params.keys}\"\n if matches.any?\n match_found = true\n # logger.info \"new_model: #{new_model.inspect}\\nmatch: #{matches.first.inspect}\"\n best_matches = matches\n end\n end\n break unless match_found # stop the iteration is no matches were found for this humber of parameters\n end\n best_matches.first\n end", "def shortest_path(from_x, from_y, to_x, to_y)\n @visited = Array.new(@matrix.size) { Array.new(@matrix.first.size) { false } }\n @farthest_node = nil\n queue = Queue.new\n queue << Node.new(from_x, from_y, 0)\n\n while !queue.empty? do\n node = queue.pop\n\n if !@farthest_node || node.dist > @farthest_node.dist\n @farthest_node =node\n end\n\n if node.x == to_x && node.y == to_y\n # We pathed to the target\n target_node = node\n break\n end\n [[-1,0],[1,0],[0,1],[0,-1]].each do |dir|\n x = node.x + dir[0]\n y = node.y + dir[1]\n if is_valid?(x, y)\n @visited[y][x] = true\n queue.push(Node.new(x, y, node.dist + 1, node))\n end\n end\n end\n\n # We didn't find a path to the target\n return nil unless target_node\n\n # Trace back the journey\n journey = []\n journey.push [node.x,node.y]\n while !node.parent.nil? do\n node = node.parent\n journey.push [node.x,node.y]\n end\n journey.reverse.drop(1)\n end", "def grab_nearest_by_location(distance, loc)\n\n end", "def getTargetLocation(sourceRow, sourceCol, desiredRow, desiredCol)\n visited = Set.new()\n toVisit = []\n\n toVisit << {:row => desiredRow, :col => desiredCol}\n\n while (!toVisit.empty?)\n current = toVisit.shift()\n visited.add(current)\n\n if (!@board.occupied?(current[:row], current[:col]))\n return current\n end\n\n # TODO(eriq): Ideally, locations closer to the player will be\n # chosen/examined first.\n toVisit.concat(getNeighbors(@board, current))\n end\n\n # There is nowhere to move :(\n return nil\n end", "def closest(obj)\n zombie = @zombies.first\n\n min_dist = 19000 ** 2 + 6000 ** 2\n\n @zombies.each do |z|\n dist = z.distance(obj)\n if dist < min_dist\n zombie = z\n min_dist = dist\n end\n end\n\n zombie\n end", "def best_path(start, target)\n queue = []\n path = []\n targetX = target[0]\n targetY = target[1] \n update_possible_moves(start)\n path << [@x, @y]\n until @x == targetX && @y == targetY\n @moves.each do |valid_move|\n queue << valid_move unless out_of_bounds?(valid_move) \n end\n #shift because we want bread-first search\n next_move = queue.shift\n update_possible_moves(next_move)\n path << [@x, @y] \n end\n # Filter out the best path and present it\n best_possible_path = filter_path(path)\n puts \"You made it in #{best_possible_path.length} moves! The path is:\\n#{best_possible_path}\"\n end", "def closest_s(v)\n @nodes_s.map { |s| [s, v.distance_to(s)] }.min_by { |a| a[1] }.first\n end", "def closest_ant_view l, ai \n\tants = ai.my_ants \n\n\tcur_best = nil\n\tcur_dist = nil\n\n\tants.each do |ant|\n\t\td = Distance.get ant, l\n\t\tdist = d.dist\n\n\t\tif !cur_dist || dist < cur_dist\n\t\t\tcur_dist = dist\n\t\t\tcur_best = ant\n\t\tend\n\tend\n\n\tcur_best\nend", "def closest_to(*args)\n if args.length == 1\n if args.first.respond_to?(:distance_to)\n closest_to_coordinates(args.first)\n elsif %w(first last).all? { |m| args.first.respond_to?(m) }\n closest_to_lat_lng(args.first)\n else\n raise ArgumentError, \"expected two-element Array or GeoKit::LatLng\"\n end\n elsif args.length == 2\n closest_to_lat_lng(args)\n else\n raise ArgumentError, \"closest_to() will accept one Array argument, one GeoKit::LatLng argument, or two FixNum arguments\"\n end\n end", "def relative(reference_point, distance)\n return if reference_point.nil? # there is no cell\n return if (reference_point + distance) >= board_size # out of bound +\n return if (reference_point + distance).negative? # out of bound -\n\n # calculate possible move\n reference_point/columns == (reference_point + distance)/columns ? (reference_point + distance) : nil\n end", "def find_path(tile_a, tile_b)\n if rand(0..1).floor() === 1\n # start horizontal\n x, y = tile_a.x, tile_b.y\n else\n # start vertical\n x, y = tile_b.x, tile_a.y\n end\n\n turn_point = tile_by_coordinates(x, y)\n\n [tile_a, turn_point, tile_b]\n\n # if (x2 > x1)\n # delta_x = x2 - x1\n # delta_y = y2 - y1\n # else\n # delta_x = x1 - x2\n # delta_y = y1 - y2\n # end\n end", "def find_solution\n open = [{:cell => @start_cell, :parent => nil, :distance => 0}]\n closed = []\n\n while !open.empty?\n # Find the lowest movement cost\n current_node = open.min{ |a,b| a[:distance] <=> b[:distance]}\n\n # Check if we reached the end cell\n if is_end?(current_node[:cell])\n return current_node[:distance]\n end\n\n # Find immediate neighbors\n current_neighbors = find_neighbors(current_node[:cell])\n current_neighbors.each { | neighbor |\n if closed.find { | node | node[:cell].eql?(neighbor[:cell])}.nil?\n # Find if the cell is already in the open list\n existing_open = open.find { |node | node[:cell].eql?(neighbor[:cell])}\n if existing_open\n # Find the shorter distance to the cell\n current_distance = existing_open[:distance]\n new_distance = current_node[:distance] + neighbor[:distance]\n existing_opened[:distance] = new_distance if current_distance > new_distance\n else\n # Add the new visited cell to the open list\n neighbor[:distance] = neighbor[:distance] + current_node[:distance]\n open << neighbor\n end\n end\n }\n closed << current_node\n open.delete(current_node)\n end\n 0\n end", "def find_best_way(xx,yy)\n pf = Pathfinder.new($map)\n pf.ignore_obs_target = true # permit to calculate a path to a case with an ennemy on it\n path = pf.find([x,y],[xx,yy])\n end", "def closest(num = 8)\n opts = {\n order: {\n _geo_distance: {\n 'location' => \"#{latitude},#{longitude}\",\n 'order' => 'asc',\n 'unit' => 'mi'\n }\n },\n limit: num,\n where: {\n id: { not: id }\n }\n }\n Location.search('*', opts).results\n end", "def closest(object)\n\t\treturn nil if empty? # edgecase\n\t\tfirst_index(object)[1]\n\tend", "def findnearest( coords, targetx, targety )\n # find nearest coordinate\n nearest = 0\n targetcounter = 0\n target = -1\n coords.each do |neighborx,neighbory|\n d = Math::sqrt( ( neighborx - targetx ) ** 2 + ( neighbory - targety ) ** 2 )\n if d < 0.2\n target = targetcounter\n end\n targetcounter += 1\n end\n return target\nend", "def closest(obj)\n human = @humans.first\n\n min_dist = MAX_DIST\n\n @humans.each do |h|\n dist = h.distance(obj)\n if dist < min_dist\n human = h\n min_dist = dist\n end\n end\n\n human\n end", "def find_closest(vertex)\n closest = @vertices.first\n closest_distance = Vertex.euclidean_distance(vertex, closest)\n @vertices.each do |v|\n distance = Vertex.euclidean_distance(vertex, v)\n if distance < closest_distance\n closest_distance = distance\n closest = v\n end\n end\n return closest\n end", "def nearest(element_id)\n nearest(element_id, from: target)\n end", "def shortest_path\n initial_position_obj = { position: start_position, source: {} }\n\n knights_path = [initial_position_obj]\n\n while knights_path.present?\n current_position = knights_path.shift\n\n position = current_position[:position]\n\n if position == end_position\n return path_to_destination(current_position, initial_position_obj)\n end\n\n add_possible_destination(position, current_position, knights_path)\n end\n end", "def closest_pt_segment_segment\n pp1 = @p1.curr\n pq1 = @p2.curr\n pp2 = @rca\n pq2 = @rcb\n\n d1 = pq1 - pp1\n d2 = pq2 - pp2\n r = pp1 - pp2\n\n a = d1.dot(d1)\n e = d2.dot(d2)\n f = d2.dot(r)\n\n c = d1.dot(r)\n b = d1.dot(d2)\n denom = a * e - b * b\n\n s = denom != 0.0 ? MathUtil.clamp((b * f - c * e) / denom, 0.0, 1.0) : 0.5\n t = (b * s + f) / e\n\n t, s = t < 0 \\\n ? [0.0, MathUtil.clamp(-c / a, 0.0, 1.0)] \\\n : [1.0, MathUtil.clamp((b - c) / a, 0.0, 1.0)]\n\n c1 = pp1 + (d1 * s)\n c2 = pp2 + (d2 * t)\n c1mc2 = c1 - c2\n c1mc2.dot(c1mc2)\n end", "def index_of_next_closest(q, from = 0)\n index_of_closest(1, q, from)\n end", "def find_one_closest_point(reference_point, guess, geometric_resolution)\n do_find_one_closest_point(reference_point.to_a, guess, geometric_resolution)\n end", "def nearest_neighbor(target_vector)\n find_nearest_neighbors(target_vector, :results => 1).first\n end", "def find_moves(start, target)\n visited = breadth_first_search(start, target)\n moves = []\n find_coordinate = target\n visited.reverse.each do |vertex|\n vertex.neighbors.each do |coordinate|\n if coordinate == find_coordinate\n moves << vertex.key\n find_coordinate = vertex.key\n end\n end\n end\n moves.reverse << target\n end", "def find_closest!\n 1000.times { @particles.values.map(&:tick) }\n closest = @particles.values.min { |p1, p2| p1.manhattan_distance <=> p2.manhattan_distance }\n end", "def knight_path(from, to)\n\topen_queue = [PositionPath.new( from, [copy(from)] )]\n\tdiscovered = [from]\n\n\tuntil open_queue.empty?\n\t\tcurrent = open_queue.shift\n\n\t\treturn current.path if current.position == to\n\t\tvalid_moves(current.position).each do |move|\n\t\t\tunless discovered.include?(move)\n\t\t\t\tdiscovered << move\n\t\t\t\topen_queue.push(make_position_path(current, move)) \n\t\t\tend\n\t\tend\n\tend\n\t\nend", "def find_nearest_place_id max_dist\n\t#byebug\n\tphot=self.class.find(@id) #returns instance of photo\n\tphot_loc=phot.location #gets location from photo (point where photo was taken)\n\tphot_place=Place.near(phot_loc,max_dist).projection(:_id=>1).first #find closest place to point\n\tphot_place.nil? ? nil : phot_place[:_id] #return the id of the closest place to that point\nend", "def Knight_long_path(position, target)\n possible_moves = []\n moves = ['move_down', 'move_up', 'move_right', 'move_left']\n chessercise = Chessercise.new\n for i in moves do\n for j in moves do\n now = getposition(position)\n if i != j\n if @directions_flag[i.to_sym] != @directions_flag[j.to_sym]\n if chessercise.send(i.to_sym, now) != nil\n mv_now = chessercise.send(i.to_sym, now)\n now = getposition(mv_now)\n if chessercise.send(j.to_sym, now) != nil\n mv_now = chessercise.send(j.to_sym, now)\n now = getposition(mv_now)\n if chessercise.send(j.to_sym, now) != nil\n mv_now = chessercise.send(j.to_sym, now)\n possible_moves.push(mv_now)\n end\n end\n end\n end\n end\n end\n end\n return possible_moves\n # print Knight_long_path('d2')\n end", "def find_path(start, goal)\n raise \"loc1 must not be the same as loc2\" if start == goal\n\n # Using A* path-finding algorithm\n # See pseudocode here: https://en.wikipedia.org/wiki/A*_search_algorithm\n # https://www.redblobgames.com/pathfinding/a-star/introduction.html\n # NOTE that this is overkill for this problem...\n open_set = Set.new([start])\n came_from = {}\n\n # Default value of \"Infinity\", but we can just use nil\n g_score = {}\n g_score[start] = 0\n\n # f_score = g_score[node] + h_score[node]\n # This uses both current best path (g score) aka similar to Djikstra's algorithm,\n # plus the heuristic score.\n f_score = {}\n # g_score[start] is 0, so not included here\n f_score[start] = h_score(start, goal)\n\n # Note that we add d_score as the weight of the edge, but in our\n # case, we consider all edges equally, so hardcode 1\n d_score = 1\n\n until open_set.empty? do\n # Node in open set with lowest f score (would ideally use PriorityQueue)\n current = open_set.min_by { |node| f_score[node] }\n\n if current == goal\n return reconstruct_path(came_from, current)\n end\n\n open_set.delete(current)\n\n valid_neighbours(current).each do |neighbour_loc|\n tentative_g_score = g_score[current] + d_score\n if g_score[neighbour_loc].nil? || tentative_g_score < g_score[neighbour_loc]\n # This path to neighbor is better than any previous one. Record it!\n came_from[neighbour_loc] = current\n g_score[neighbour_loc] = tentative_g_score\n f_score[neighbour_loc] = g_score[neighbour_loc] + h_score(neighbour_loc, goal)\n if !open_set.include?(neighbour_loc)\n open_set << neighbour_loc\n end\n end\n end\n end\n\n raise \"error, no path found!\"\n end", "def track_route root_coords, target_coords\n root = Square.new(root_coords[0], root_coords[1])\n target = Square.new(target_coords[0], target_coords[1])\n result = search(root, target)\n\n # initializes route array with target square's coordinates\n route = []\n route << [result.x, result.y]\n \n # backtraces through parents of search items, tracking their coordinates along the way\n current = result.parent\n until current.nil?\n route << [current.x, current.y]\n current = current.parent\n end\n # reverse route to put in 'playing' order for knight moves\n route.reverse!\n\n puts \"You made it in #{route.length - 1} moves! Here is your route:\"\n route.each { |square| p square}\n return nil\nend", "def traverse (from, to, points_visited_so_far = [])\n \n return points_visited_so_far if from.eql?(to)\n\n # Select those adjacent points that that has not been already traversed\n # and that do not represent walls\n possible_steps = adjacent_traversible_points(from).select { |point| \n (not points_visited_so_far.include?(point))\n }\n\n # For each possible step, take that step, and find out the list of points\n # that need to be traversed to reach \"to\" point. In case there were more\n # than one possible steps, pick the one that has smaller number of steps\n # to destination\n points_to_destination_from_here = []\n possible_steps.each do |point|\n traversal_result = traverse(point, to, points_visited_so_far + [point])\n if not traversal_result.empty?\n points_to_destination_from_here = traversal_result if \n (points_to_destination_from_here.empty? or\n traversal_result.size < points_to_destination_from_here.size)\n end\n end\n \n return points_to_destination_from_here\n\n end", "def find_path_brute_force( board, start_point )\n options = get_options( start_point, board )\n\n # Bottom right corner\n if options.length == 0\n return { points: [start_point], best_value: get_value( start_point, board ) }\n end\n\n # If there's only one option, this works fine still.\n first_result = find_path_brute_force( board, options.first )\n second_result = find_path_brute_force( board, options.last )\n if first_result[:best_value] > second_result[:best_value]\n return {\n points: [start_point] + first_result[:points],\n best_value: first_result[:best_value] + get_value( start_point, board )\n }\n else\n return {\n points: [start_point] + second_result[:points],\n best_value: second_result[:best_value] + get_value( start_point, board )\n }\n end\nend", "def closest_point(pt)\n if pt.is_valid?\n vect = GeoFunctions.point_minus_point(pt, @origin)\n dist = GeoFunctions.vector_dot_product(vect, @z_axis)\n delta = GeoFunctions.vector_times(@z_axis, dist)\n GeoFunctions.point_minus_vector(pt, delta)\n else\n GeoFunctions.invalid_a_point\n end\n end", "def find_destination_position\n @d_pos = @to_be_pathed.find_index do |i|\n i[1] == @destination\n end\n end", "def get_route(start_arr, end_arr)\n root = Position.new(start_arr[0], start_arr[1])\n target = Position.new(end_arr[0], end_arr[1])\n solution = get_target_value(target, root)\n\n route = []\n route.unshift([target.x, target.y])\n location = solution.parent\n until location == nil\n route.unshift [location.x, location.y]\n location = location.parent\n end\n return route\nend", "def find_path(positions, start, finish)\n # Will hold MoveTiles that form a path from start to finish\n path = [finish]\n # Get finish tile first so that we can work backwards in making the path\n chosen = finish\n movetile = chosen\n # Endless loop ZOMG\n while true\n t_x, t_y = movetile.x, movetile.y\n # Generate list of tiles surrounding this tile\n surrounding = []\n surrounding.push(positions[t_x][t_y+1]) if valid?(t_x, t_y+1)\n surrounding.push(positions[t_x][t_y-1]) if valid?(t_x, t_y-1)\n surrounding.push(positions[t_x+1][t_y]) if valid?(t_x+1, t_y)\n surrounding.push(positions[t_x-1][t_y]) if valid?(t_x-1, t_y)\n \n surrounding.compact!\n surrounding.delete(0)\n consider = []\n lowest_cost = 99\n # Evaluate surrounding tiles to find lowest cost\n surrounding.each{|tile|\n # If tile has a total move cost that is at least equal to the current best\n if tile.total_cost <= lowest_cost\n # If even lower, remove previous considerations and set new best\n if tile.total_cost < lowest_cost\n consider.clear\n lowest_cost = tile.total_cost\n end\n # Add this tile to be considered\n consider.push(tile)\n end\n }\n # Choose a tile from list\n chosen = consider[rand(consider.size)]\n # Return path if that last tile was the final one\n return path.reverse! if [chosen.x, chosen.y] == [start.x, start.y]\n # Add chosen tile to path\n path.push(chosen)\n # Evaluate this tile next\n movetile = chosen\n end\n end", "def find_path(positions, start, finish)\n # Will hold MoveTiles that form a path from start to finish\n path = [finish]\n # Get finish tile first so that we can work backwards in making the path\n chosen = finish\n movetile = chosen\n # Endless loop ZOMG\n while true\n t_x, t_y = movetile.x, movetile.y\n # Generate list of tiles surrounding this tile\n surrounding = []\n surrounding.push(positions[t_x][t_y+1]) if valid?(t_x, t_y+1)\n surrounding.push(positions[t_x][t_y-1]) if valid?(t_x, t_y-1)\n surrounding.push(positions[t_x+1][t_y]) if valid?(t_x+1, t_y)\n surrounding.push(positions[t_x-1][t_y]) if valid?(t_x-1, t_y)\n \n surrounding.compact!\n surrounding.delete(0)\n consider = []\n lowest_cost = 99\n # Evaluate surrounding tiles to find lowest cost\n surrounding.each{|tile|\n # If tile has a total move cost that is at least equal to the current best\n if tile.total_cost <= lowest_cost\n # If even lower, remove previous considerations and set new best\n if tile.total_cost < lowest_cost\n consider.clear\n lowest_cost = tile.total_cost\n end\n # Add this tile to be considered\n consider.push(tile)\n end\n }\n # Choose a tile from list\n chosen = consider[rand(consider.size)]\n # Return path if that last tile was the final one\n return path.reverse! if [chosen.x, chosen.y] == [start.x, start.y]\n # Add chosen tile to path\n path.push(chosen)\n # Evaluate this tile next\n movetile = chosen\n end\n end", "def find_shortest_path(exclude_path_with_tile = nil)\n node = find_end_tile(exclude_path_with_tile)\n return [@start_tile, @end_tile] if node.nil?\n expand_path(node)\n end", "def solve(from_word, to_word)\n return @word_graph.shortest_path(from_word, to_word)\n end", "def guide(from, to, unit_type=nil, max_depth=400)\n return nil if @map.blocked?(from, unit_type) || @map.blocked?(to, unit_type)\n from_element = PathElement.new(from)\n from_element.dist_from = @map.distance(from,to)\n open = PriorityQueue.new { |x, y| (x <=> y) == -1 }\n open.push from_element, from_element.rating\n closed = SplayTreeMap.new\n step = 0\n \n until open.empty? || step > max_depth\n step += 1\n \n current_element = open.pop\n @nodes_considered += 1\n \n loc = current_element.location\n if @map.cost(loc,to) == 0\n path = []\n until current_element.parent.nil?\n path.unshift current_element\n current_element = current_element.parent\n end\n\n return path\n else\n closed.push loc, current_element\n @map.neighbors(loc).each do |next_door|\n next if closed.has_key? next_door\n\n el = PathElement.new(next_door,current_element)\n\n if @map.blocked? next_door, unit_type\n closed.push el.location, el\n else\n current_rating = current_element.cost_to + @map.cost(loc, next_door)\n\n # add to open\n el.cost_to = current_rating\n el.dist_from = @map.distance(next_door,to)\n \n open.push el, el.rating\n end\n end\n end\n end\n nil\n end", "def find_path()\n visited = Array.new(8) {Array.new(8)}\n return [] if @destination == @currentPosition\n paths = [[@currentPosition]]\n visited[@currentPosition[0]][@currentPosition[1]] = true\n\n until paths.empty?\n new_paths = []\n paths.each do |path|\n next_positions = possibleMoves(path.last, visited)\n next_positions.each do |move|\n newpath = path.dup << move\n if move == @destination #if we reached our destination stop and return the path\n return newpath\n end\n visited[move[0]][move[1]] = true\n new_paths.push(newpath)\n end\n end\n paths = new_paths\n end\n end", "def get_new_pos_direct\n # We assume in this method that we're not at the target yet, since we check for the goal state elsewhere\n # Determine if we need to move sideways or up-down\n new_pos = Point.new(@pos.x, @pos.y)\n if (@target.pos.x-@pos.x).abs >= (@target.pos.y-@pos.y).abs\n # move sideways\n if @target.pos.x > @pos.x\n new_pos.x += @move_amount\n else\n new_pos.x -= @move_amount\n end\n else\n # move up-down\n if @target.pos.y > @pos.y\n new_pos.y += @move_amount\n else\n new_pos.y -= @move_amount\n end\n end\n \n if @wall.blocked? (new_pos)\n @pos\n else\n new_pos\n end\n end", "def nearest_fortress_exit_point(point)\n nearest_fortress_exit_cell = nil\n nearest_distance = MAX_DISTANCE\n fortress_exit_cells.each do |exit_cell|\n distance = Tools.calc_distance(point, exit_cell)\n if distance < nearest_distance\n nearest_distance = distance\n nearest_fortress_exit_cell = exit_cell\n end\n end\n return Point.new(nearest_fortress_exit_cell.x, nearest_fortress_exit_cell.y)\n end", "def move_somewhere(bram, dead_space, astar, params)\n x = bram.head[0]\n y = bram.head[1]\n open_spot = []\n surrounding_cells_within_grid(x, y, params).each do |c|\n next if dead_space.include?(c) # do not under any circumstances move there\n open_spot.push(c)\n return c unless path_is_deadend?(bram, [bram.head, c], astar, dead_space)\n end\n open_spot.first # all are dead-ends so just pick an open spot\nend", "def get_closest_node(id, num = 1)\n @link_table.closest_peers(id, num)\n end", "def rclosest(object)\n\t\treturn nil if empty? # edgecase\n\t\tlast_index(object)[1]\n\tend", "def closest_arrow_and_tile(row, x, y)\n all_coord = []\n\n @game_board.board[row].each do |tile|\n all_coord << tile.center_top\n all_coord << tile.center_bottom\n all_coord << tile.center_right\n all_coord << tile.center_left\n end\n\n closest_arrow = all_coord.inject do |sum, value|\n distance_sum = Gosu::distance(x, y, sum[0], sum[1])\n distance_val = Gosu::distance(x, y, value[0], value[1])\n distance_sum < distance_val ? sum : value\n end\n\n column = find_col_in_row(all_coord, closest_arrow)\n\n tile = @game_board.board[row][column]\n tile_position = [row, column]\n [tile, closest_arrow, tile_position]\n end", "def next_step_to_shortest_path(from_x, from_y, to_x, to_y)\n move = shortest_path(from_x, from_y, to_x, to_y)&.first\n return nil unless move\n if move[0] == from_x && move[1] == from_y + 1\n return 'S'\n elsif move[0] == from_x && move[1] == from_y - 1\n return 'N'\n elsif move[0] == from_x + 1 && move[1] == from_y\n return 'E'\n elsif move[0] == from_x - 1 && move[1] == from_y\n return 'W'\n end\n raise 'This should not happen'\n end", "def pos\n\t\tif not moved_to.nil? and moved?\n\t\t\tsquare.neighbor( moved_to )\n\t\telse\n\t\t\tsquare\n\t\tend\n\tend", "def shortest_path_to(other, options = {:method => :djikstra})\n latch = options[:method] == :breadth_first ? 2 : 1\n self.class.shortest_path(latch, id, other.id)\n end", "def assignClosest(parr)\n self.dims[0].times do |i|\n self.dims[1].times do |j|\n distances = Array.new\n parr.each do |point|\n distances << point.distance(i, j)\n end\n mins = distances.min(2)\n if mins[0] == mins[1]\n @grid[i][j] = -1\n else\n @grid[i][j] = distances.index(mins[0])\n end\n end\n end\n end", "def return_shortest_path(from)\r\n\r\n queue = Queue.new\r\n queue << from\r\n from.distance = 0\r\n while(!queue.empty?)\r\n v= queue.pop\r\n count=0\r\n adjDir = find_adjacent_rooms(v.roomObject)\r\n while(count < adjDir.length)\r\n w = @vertices[v.roomObject.return_title(adjDir[count])]\r\n\r\n if(w.distance==Float::INFINITY)\r\n w.distance = v.distance + 1\r\n w.path = v.path + \" \" + adjDir[count].to_s()\r\n queue << w\r\n end\r\n count = count + 1\r\n end\r\n count=0\r\n end\r\n\r\n end", "def find_closest_distance\n closest_distance = 1\n closest_clusters = [nil, nil]\n\n @clusters.combination(2) do |c|\n dist = c[0].distance_to(c[1])\n if dist < closest_distance\n closest_distance = dist\n closest_clusters = [c[0], c[1]]\n end\n end\n\n return closest_distance, closest_clusters[0], closest_clusters[1]\n end", "def distance_to(other)\n pyth(self.x, self.y, other.x, other.y)\n \n# Math.sqrt((other.x - self.x) ** 2 + (other.y - self.y) ** 2)\n end", "def shortest_way(source, dest)\n\t\t@source = source\n dijkstra source\n \n if @distances[dest] != @infinity\n return @distances[dest]\n end\n\tend", "def closest_pair1(points)\n min_distance = Float::MAX\n best_pair = nil\n (0...points.length).each do |i|\n (i...points.length).each do |j|\n if i != j\n curr_distance = distance1(points[i], points[j])\n if curr_distance < min_distance\n min_distance = curr_distance\n best_pair = [points[i], points[j]]\n end\n end\n end\n end\n best_pair\nend", "def optimal_town(routes, current)\n\t\troutes = remove_visited(routes, current)\n\n\t\tif routes.length == 0 then \n\t\t\tputs \"Stuck at: #{current.name}\" \n\t\t\tputs \"Can't get to: #{Place.find_by_id(@to_visit_ids[0]).name}\"\n\t\tend\n\n\t\toptimal = routes[0]\n\t\tlow_method = optimal_method(routes[0])\n\t\tlow_time = method_time(low_method, routes[0])\n\t\tother = routes[0].other_town(current.id)\n\n\n\t\troutes.each do |r|\n\t\t\tr_low_method = optimal_method(r)\n\t\t\tr_low_time = method_time(r_low_method, r)\n\n\t\t\tif r_low_time < low_time then \n\t\t\t\tlow_time = r_low_time\n\t\t\t\tlow_method = optimal_method(r)\n\n\t\t\t\tother = r.other_town(current.id)\n\t\t\t\tif not @visited_ids.include?(other.id) then\n\t\t\t\t \tif @to_visit_ids.include?(other.id) then \n\t\t\t\t \t\toptimal = r \n\t\t\t\t\tend\n\t\t\t\tend\n\t\t\tend\n\t\tend\n\n\t\tif @to_visit_ids.include?(other.id) then\n\t\t\t[optimal.other_town(current.id), optimal, low_method]\n\t\telse \n\t\t\tputs \"Journey broken\"\n\t\t\tnil\n\t\tend\n\tend", "def find_nearest_parent(target_class)\n columns = ['id', 'parent_id', 'construct_id', 'construct_type']\n columns_joined = columns.join(',')\n sql =\n <<-SQL\n WITH RECURSIVE control_constructs_tree (#{columns_joined}, level)\n AS (\n SELECT\n #{columns_joined},\n 0\n FROM control_constructs\n WHERE construct_id = #{id}\n AND construct_type = '#{self.class.name}'\n\n UNION ALL\n SELECT\n #{columns.map { |col| 'cat.' + col }.join(',')},\n ct.level + 1\n FROM control_constructs cat, control_constructs_tree ct\n WHERE cat.id = ct.parent_id\n )\n SELECT #{target_class.table_name}.*\n FROM control_constructs_tree\n INNER JOIN #{target_class.table_name} ON #{target_class.table_name}.id = control_constructs_tree.construct_id\n WHERE level > 0\n AND construct_type = '#{target_class.name}'\n ORDER BY level, control_constructs_tree.id, construct_id, construct_type\n LIMIT 1;\n SQL\n target_class.find_by_sql(sql.chomp).first\n end", "def search root, target\n queue = [root]\n\n until queue.empty?\n current = queue.shift\n return current if current.x == target.x && current.y == target.y\n\n current.make_children.each { |child| queue << child }\n end\nend", "def nextHop(target_id)\n m = 0\n n = -1\n while @guid[m] == target_id[m] && m < @m_max\n m += 1\n end\n n = target_id[m]\n n = n.to_s\n n = n.hex\n\n # Checking routing table at that location to see if has an entry\n # If has,the entry will be a digit closer than the current nodes GUID\n if @routing_table[[0, m, n]] != nil\n return InetAddr.new(@routing_table[[0, m, n]][:ip_address], @routing_table[[0, m, n]][:port]), m, n\n\n # If not,searching the entire routing table for the entry with the GUID closest to the target_id\n else\n shortestDistance = distancing(target_id, @guid)\n # Sending message on if there is a closer address\n nh = InetAddr.new()\n @routing_table.each do |key, array| # Accessing each element of routing table\n if distancing(target_id, array[:node_id]) < shortestDistance && distancing(target_id, array[:node_id]) != 0\n shortestDistance = distancing(target_id, array[:node_id])\n nh.ip = array[:ip_address]\n nh.port = array[:port]\n end\n end\n return nh, m, n\n end\n end", "def closest_match(tokenstream, preference=:none)\n token_locs=self.apply_to(tokenstream)\n return find_closest_match(token_locs, tokenstream.label_index)\n end", "def guide(from, to, unit_type=nil, max_depth=400)\n return nil if @map.blocked?(from, unit_type) || @map.blocked?(to, unit_type)\n from_element = PathElement.new(from)\n from_element.dist_from = @map.distance(from,to)\n open = PrioritySet.new\n open.push from_element, from_element.rating\n closed = SplayTreeMap.new\n step = 0\n\n until open.empty? || step > max_depth\n step += 1\n\n current_element = open.pop\n @nodes_considered += 1\n\n loc = current_element.location\n if @map.cost(loc,to) == 0\n path = []\n until current_element.parent.nil?\n path.unshift current_element\n current_element = current_element.parent\n end\n\n return path\n else\n closed.push loc, current_element\n @map.neighbors(loc).each do |next_door|\n if closed.has_key? next_door\n next\n end\n \n el = PathElement.new(next_door,current_element)\n\n if @map.blocked? next_door, unit_type\n closed.push el.location, el\n else\n current_rating = current_element.cost_to + @map.cost(loc, next_door)\n\n # add to open\n el.cost_to = current_rating\n el.dist_from = @map.distance(next_door,to)\n el.reset_rating\n\n open.push el, el.rating\n end\n end\n end\n end\n nil\n end", "def move to_move\r\n\t\tif to_move == 0\r\n\t\t\tvia_road = driver.location.west_road\r\n\t\t\tdriver.location = driver.location.west_location\r\n\t\t\treturn via_road\r\n\t\telsif to_move == 1\r\n\t\t\tvia_road = driver.location.north_road\r\n\t\t\tdriver.location = driver.location.north_location\r\n\t\t\treturn via_road\r\n\t\telsif to_move == 2\r\n\t\t\tvia_road = driver.location.east_road\r\n\t\t\tdriver.location = driver.location.east_location\r\n\t\t\treturn via_road\r\n\t\telsif to_move == 3\r\n\t\t\tvia_road = driver.location.south_road\r\n\t\t\tdriver.location = driver.location.south_location\r\n\t\t\treturn via_road\r\n\t\tend\r\n\t\t\r\n\tend", "def cell_closest_to_mouse2\n # Closest cell grid to the mouse in the second\n x = (inputs.mouse.point.x / grid.cell_size).to_i\n y = (inputs.mouse.point.y / grid.cell_size).to_i\n # Translate the cell to the first grid\n x -= grid.width + 1\n # Bound x and y to the first grid\n x = 0 if x < 0\n y = 0 if y < 0\n x = grid.width - 1 if x > grid.width - 1\n y = grid.height - 1 if y > grid.height - 1\n # Return closest cell\n [x, y]\n end", "def neighbor()\n m1 = random_match\n m2 = random_match\n find_best_permutation([:permutation_one, :permutation_two,\n :permutation_three, :permutation_four],\n m1, m2)\n self\n end", "def find_target(root, target)\n\t\ttree = Tree.new\n\t\ttree.root = Node.new(root)\n\t\tque = [tree.root]\n\t\tuntil que[0].value==target\n\t\t\tpossible_moves(que[0].value).each do |move|\n\t\t\t\tnew_node = Node.new(move)\n\t\t\t\tque[0].children << move\n\t\t\t\tnew_node.parent = que[0]\n\t\t\t\tque << new_node\n\t\t\tend\n\t\t\tque.shift\n\t\tend\n\t\treturn que[0] #Returns the node at the position we want the knight to move to, which has the parent data we are looking for.\n\tend", "def nextHop( target_id )\n m = 0\n n = -1\n while @guid[m] == target_id[m] && m < @m_max\n m += 1\n end\n n = target_id[m]\n n = n.to_s\n n = n.hex\n # Once we have M and N we check the routing table at that location to see if we have an entry\n # This entry will be once digit closer than the current nodes GUID\n if @routing_table[[0,m,n]] != nil\n return InetAddr.new( @routing_table[[0,m,n]][:ip_address], @routing_table[[0,m,n]][:port] ), m, n\n # If not we search the entire routing table for the entry with the GUID closest to the target_id\n else\n shortestDistance = dist( target_id, @guid ) # distance between ourself and target\n # we will only send message on if there is a closer address\n nh = InetAddr.new()\n @routing_table.each do |key, array| # Access each element of routing table\n # IF it is less than out distance to target set it as shortest\n if dist( target_id, array[:node_id] ) < shortestDistance && dist( target_id, array[:node_id] ) != 0\n shortestDistance = dist( target_id, array[:node_id] )\n nh.ip = array[:ip_address]\n nh.port = array[:port]\n end\n end\n return nh, m, n\n # Function returns an InetAddr struct as well as M and N\n end\n end", "def nearest_neighbor(direction)\n case direction\n when :above\n return if row.first?\n\n adjacent = nil\n adj_distance = nil\n # find closest on next row\n previous_row = row.layout.rows[row.number-1]\n return unless previous_row\n # p1 = {\n # x: row_offset+(width/2),\n # y: number.to_f-(height/2)+height\n # }\n\n previous_row.keys.each_with_index do |key|\n # p2 = {\n # x: (key.row_offset)+(key.width/2),\n # y: next_row.number.to_f-(key.height/2)+key.height\n # }\n\n # len = Math.sqrt( ((p1[:x]-p2[:x]).to_i**2) + ((p1[:y]-p2[:y]).to_i**2) )\n len = distance_to(key)\n if !adj_distance || len < adj_distance\n adjacent = key\n adj_distance = len\n end\n end\n return adjacent\n\n when :below\n return if row.last?\n\n adjacent = nil\n adj_distance = nil\n # find closest on next row\n next_row = row.layout.rows[row.number+1]\n return unless next_row\n # p1 = {\n # x: row_offset+(width/2),\n # y: number.to_f-(height/2)+height\n # }\n\n next_row.keys.each_with_index do |key|\n # p2 = {\n # x: (key.row_offset)+(key.width/2),\n # y: next_row.number.to_f-(key.height/2)+key.height\n # }\n\n # len = Math.sqrt( ((p1[:x]-p2[:x]).to_i**2) + ((p1[:y]-p2[:y]).to_i**2) )\n len = distance_to(key)\n if !adj_distance || len < adj_distance\n adjacent = key\n adj_distance = len\n end\n end\n return adjacent\n\n when :side\n raise NotImplementedError\n else\n raise ArgumentError, \"Unknown direction #{direction.inspect}\"\n end\n end", "def move_away_from_xy(x, y)\n sx = distance_x_from(x)\n sy = distance_y_from(y)\n if sx.abs > sy.abs\n move_straight(sx > 0 ? 6 : 4)\n move_straight(sy > 0 ? 2 : 8) if !@move_succeed && sy != 0\n elsif sy != 0\n move_straight(sy > 0 ? 2 : 8)\n move_straight(sx > 0 ? 6 : 4) if !@move_succeed && sx != 0\n end\n end", "def find_distance(point)\n p_x, p_y = point\n final_x, final_y = @maze.find_end\n ((p_x - final_x) + (p_y - final_y)).abs\n end", "def closest_vertex_on_obb(point, rect)\n d = point - rect.samp\n q = rect.samp.dup\n\n 2.times do |i|\n dist = d.dot(rect.axes[i])\n if dist >= 0; dist = rect.extents[i] \n elsif dist < 0; dist = -rect.extents[i]\n end\n\n q.plus!(rect.axes[i] * dist)\n end\n q\n end", "def choose_next_waypoint(current_waypoint, destination, min_search_radius, max_search_radius)\n current_waypoint.find_potential_next_waypoints(destination, min_search_radius, max_search_radius).sample\n end", "def closest_point_index(*other)\n other = Point.new(*other)\n 0.upto(n - 1).sort_by { |i| Line.new(points[i], other).length }.first\n end", "def shortest_path(start_coord, destination_coord)\n queue = Queue.new\n queue << [start_coord]\n seen = Set.new([start_coord])\n while queue\n begin\n path = queue.pop(non_block = true)\n rescue ThreadError\n return nil\n end\n x, y = path[-1]\n if [x, y] == destination_coord\n return path\n end\n for x2, y2 in [[x + 1, y], [x - 1, y], [x, y + 1], [x, y - 1]]\n if (0 <= x2 && x2 < @map[0].length) && (0 <= y2 && y2 < @map.length) && (@map[y2][x2] != @WALL && @map[y2][x2] != @PERMANENT_WALL) && !seen.include?([x2, y2])\n queue << (path + [[x2, y2]])\n seen.add([x2, y2])\n end\n end\n end\n end", "def find_path(goal = @maze.find_end)\n path = [goal]\n spot = goal\n until @branching_paths[spot] == nil\n path << @branching_paths[spot]\n spot = @branching_paths[spot]\n end\n path\n end", "def findClosestValHelper(tree,target,closest)\n return closest if tree.nil?\n if (target-closest).abs > (target-tree.value).abs\n closest = tree.value\n end\n if target < tree.value\n return findClosestValHelper(tree.left,target,closest)\n elsif target > tree.value\n return findClosestValHelper(tree.right,target,closest)\n else\n return closest\n end\nend", "def index_of_prev_closest(q, from = 0)\n index_of_closest(-1, q, from)\n end", "def find_nearest_node(key) #:nodoc:\n x = anchor\n level = node_level(x)\n while level > 0\n level -= 1\n xnext = node_next(x, level)\n while node_compare(xnext, key) <= 0\n x = xnext\n xnext = node_next(x, level)\n end\n end\n x\n end", "def astar_search(origin:, target:)\n costs = {}\n seen = {}\n path = {}\n initial_estimate = heuristic(current: origin, target: target)\n costs[origin] = 0\n\n pq = PriorityQueue.new\n\n pq.push(origin, initial_estimate)\n\n loop do\n current = pq.delete_min_return_key\n\n # made it\n return path if current == target\n\n seen[current] = true\n\n # get moves and estimate costs\n moves(current).each do |move|\n move_pair = move[0]\n cost = move[1]\n\n next if seen[move_pair]\n\n new_cost = costs[current] + cost\n\n # skip if more costly\n next if pq.has_key?(move_pair) && !costs[move_pair].nil? && new_cost >= costs[move_pair]\n\n path[move_pair] = current\n costs[move_pair] = new_cost\n estimate = new_cost + heuristic(current: move_pair, target: target)\n\n if pq.has_key?(move_pair)\n pq.change_priority(move_pair, estimate)\n else\n pq.push(move_pair, estimate)\n end\n end\n end\nend", "def next_down_the_street_from(x)\n map.east_neighbor_of x\n end", "def closest_pair vector_array\n\tby_x = vector_array.sort_by { |e| e.x }\n\tby_y = vector_array.sort_by { |e| e.y }\n\n\tarray, best = recursive_split by_x\n\tp \"Da #{best.distance}\"\nend" ]

[ "0.6891812", "0.67298645", "0.63228613", "0.6309622", "0.5961141", "0.59474003", "0.58396345", "0.583783", "0.5817197", "0.5792247", "0.57533145", "0.57428867", "0.5729735", "0.5692398", "0.56858134", "0.5654979", "0.56526756", "0.5630149", "0.5624555", "0.5594418", "0.55903316", "0.55862355", "0.55569786", "0.55214447", "0.55202353", "0.5504522", "0.5488511", "0.5487938", "0.5472617", "0.547031", "0.54671", "0.5444615", "0.54141283", "0.540507", "0.54019445", "0.5385969", "0.53811485", "0.5380349", "0.535871", "0.5349729", "0.5340634", "0.5340436", "0.53215164", "0.53105825", "0.5280104", "0.52401483", "0.5240025", "0.5239154", "0.52321595", "0.52244467", "0.5217834", "0.5211764", "0.52099556", "0.52090013", "0.5205968", "0.5205968", "0.5196234", "0.518856", "0.5183598", "0.5182408", "0.51608944", "0.5159616", "0.51554894", "0.5153354", "0.5152156", "0.5150241", "0.5147822", "0.51465154", "0.5134971", "0.51240844", "0.5106915", "0.51000845", "0.509758", "0.5090603", "0.5084044", "0.5069595", "0.5057953", "0.5057623", "0.5053712", "0.5051187", "0.505064", "0.5042942", "0.5036428", "0.5035155", "0.50345296", "0.5024392", "0.50178546", "0.50092554", "0.5008881", "0.50061154", "0.49983194", "0.4993362", "0.49902847", "0.4988056", "0.49825415", "0.49749893", "0.497293", "0.49705142", "0.49699613", "0.4969736" ]

[ "def find_dublicate(array)\n sum = 1000000*(1000000+1)/2 # (n*(n+1))/2\n array.each do |el| \n sum -= el\n end\n return sum\nend", "def solution(a)\r\n n=a.size\r\n i=1\r\n for k in a.sort do\r\n\tif k!=i \r\n\t then \r\n\t return 0\r\n\t break;\r\n\tend\r\n i+=1;\r\n end\t\r\n return 1 if a.inject(:+) ==n*(n+1)/2;\r\nend", "def largest_subsum(list)\n max = list[0] # O(1)\n current_sum = list[0] # O(1)\n\n (1...list.length).each do |i| # O(n)\n # debugger\n if current_sum < 0 # O(1)\n current_sum = 0 # O(1)\n end \n current_sum += list[i] # O(1)\n if current_sum > max # O(1)\n max = current_sum # O(1)\n end\n end\n\n max # O(1)\n\nend", "def three_sum_fastest(arr)\n count = 0\n\n (0..arr.length - 2).each { |i|\n set = Set.new\n\n (i + 1..arr.length - 1).each { |j|\n if set.include?(-arr[i] - arr[j])\n count += 1\n end\n\n set.add(arr[j])\n }\n }\n count\nend", "def largest_contiguous_subsum_2(list)# [2, 3, -6, 7, -6, 7]\n largest_num = list[0]#2 O(1)\n running_sum = list[0]#2 - 5 after entering loop. O(1)\n\n (1...list.length).each do |i| #O(n) \n running_sum = 0 if running_sum < 0 #O(1)\n running_sum += list[i] #O(1)\n largest_num = running_sum if running_sum > largest_num #O(1)\n end\n return largest_num #O(1)\nend", "def solution(a)\n n = a.size\n return 0 unless n > 2\n a.sort!\n\n (2..n - 1).each do |i|\n return 1 if a[i - 2] + a[i - 1] > a[i]\n end\n\n return 0\nend", "def my_min_2(list)\r\n min = 0 # O(1)\r\n \r\n list.each do |ele| # O(n) \r\n if ele < min # O(1)\r\n min = ele # O(1)\r\n end\r\n end\r\n min # O(1) \r\nend", "def solution(m, a)\n n = a.count\n result = 0\n front = 0\n numbers = Array.new(m + 1, false)\n n.times { |back|\n while front < n and not numbers[a[front] - 1]\n numbers[a[front] - 1] = true\n front += 1\n result += front - back\n return 1_000_000_000 if result >= 1_000_000_000\n end\n numbers[a[back] - 1] = false\n }\n result\nend", "def solution(a)\n n = a.size\n a.sort!\n\n count = 0\n for i in 0...n-2 do\n k = i+2\n for j in i+1...n-1 do\n while k < n and a[i] + a[j] > a[k] do\n k += 1\n end\n count += k - j - 1\n end\n end\n count\nend", "def sub_sum(list)\n sub_arr = []\n (0...list.length).each do |i| #O(n)\n (i...list.length).each do |j| #O(n)\n sub_arr << list[i..j] if i <= j\n end\n end\n largest_continuous_sub_sum1(sub_arr)\nend", "def sorted_squares(nums)\n # This takes O(n)\n nums.map! { |num| num**2 }\n # This can take Ο(n logn)\n bubble_sort(nums)\nend", "def solution(a)\n n = a.size\n passing_cars = 0\n\n suffix_sums = Array.new(n + 1, 0)\n\n a.reverse.each_with_index do |elem, i|\n suffix_sums[i + 1] = suffix_sums[i] + elem\n end\n suffix_sums.reverse!\n\n a.each_with_index do |car, i|\n if car == 0\n passing_cars += suffix_sums[i]\n end\n end\n\n passing_cars > 1_000_000_000 ? -1 : passing_cars\nend", "def okay_two_sum?(arr, target)\n arr = arr.sort #n log n\n (0...arr.length).each do |i| #n\n search = bsearch(arr, target-arr[i]) # log n\n return true unless search.nil?\n end #n log n\n false\nend", "def solution(a)\n # In production environment this will be my solution:\n # a.uniq.size\n #\n # But since this is a coding challenge, my assumption\n # is that you're looking for a by-hand O(N*logN) solution\n\n return 0 if a.empty?\n\n n = a.size\n ary = a.sort\n uniques = 1\n (1...n).each do |i|\n uniques += 1 if ary[i] != ary[i - 1]\n end\n uniques\nend", "def largest_contiguous_subsum(arr) #BigO of O(n)\n max = 0 \n current_sum = 0\n arr.each_with_index do |el,idx|\n if current_sum + el >= el \n current_sum += el \n else \n current_sum = el \n end \n max = current_sum if current_sum > max \n end \n max\nend", "def sum_upon_sums(array)\n # Step 0: initialize variables => O(1)\n max = -1\n sum = 0\n\n # Step 1: Get Max and Sum => O(n)\n array.each do |num|\n max = num if num >= max\n sum += num\n end\n\n # Step 2: Get summation => O(1)\n summation = max * (max + 1) / 2\n\n # Step 3: Return Missing value by subtracting summation and sum => O(1)\n summation - sum\nend", "def findDiffSquares(n)\n sum = 0\n (1..n).each { |i|\n (1..n).each { |j|\n sum += i*j unless i == j\n }\n }\n sum\nend", "def fibonacci(n)\n return fib_helper([0, 1], 2, n)\n # if you'd like to test what i THINK is an O(1) space complexity solution.....\n # i did run this through the tests and it SHOULD work:\n # return faster_fib_helper([0, 1], 2, n)\nend", "def seesaw?(arr)\n left_sum = 0\n arr.each_index do |i| #O(n)\n if i > 0\n left_sum = arr[0...i].reduce(:+) #O(n)\n end\n if i < arr.size-1\n right_sum = arr[i+1..-1].reduce(:+); #O(n)\n else\n right_sum = 0\n end\n if left_sum == right_sum\n return true\n end\n end\n return false\nend", "def largest_contiguous_sub_sum2(arr)\n #one varable tracks largest sum\n #one variable tracks current sum\n #O(n) + O(1)\n # list = [2, 3, -6, 7, -6, 7]\n\n # largest_sum= arr.first\n\n # i = 0\n # arr_end = true\n\n # while arr_end\n # current_sum = arr[i]\n # if arr[i+1] == nil\n # arr_end = false\n # puts \"This is current sum: #{current_sum}\"\n # else\n # if current_sum > largest_sum\n # current_sum += arr[i+1]\n # largest_sum = current_sum\n # end\n # end\n # if i < arr.length\n # arr_end = true\n # i += 1\n # end\n # end\n # largest_sum\n \n\n\n # arr.each_with_index do |ele, idx|\n # if ele > largest_sum\n # largest_sum = ele\n # end\n\n # i = idx\n # sum = ele\n # while i < arr.length - 1\n # if sum <= sum + arr[i+1]\n # largest_sum = sum + arr[i+1]\n # end\n # sum = sum + arr[i+1]\n # i+=1\n # end\n # end\n # largest_sum\n\nend", "def solution(a)\n return 1 if a.empty?\n a.sort!\n return 1 if a.first > 1\n return a.first + 1 if a.length <2\n (0..(a.length)).each do |index|\n return a[index] + 1 if a[index] + 1 != a[index + 1]\n end\n return a.last + 1\nend", "def main\n\n sum = 0\n\n (0..999).each do |i|\n sum += check(i)\n end\n\n puts \"Total - O(n) #{sum}\"\n\n # Needed to refresh following: https://en.wikipedia.org/wiki/Arithmetic_progression\n sum2 = sum_multiples(3, 1000) + sum_multiples(5, 1000) - sum_multiples(15, 1000)\n\n # Refreshed Big O too : http://stackoverflow.com/questions/487258/plain-english-explanation-of-big-o \n puts \"Total - O(1) #{sum2}\"\n\nend", "def my_min(list) \n\n list.each_with_index do |ele, i| #O(n)\n compare_arr = list[0...i] + list[i+1..-1] # O(2n) \n return ele if compare_arr.all? { |ele2| ele < ele2 } #O(n)\n end\n\n #time complexity = O(n^2) + O(2n)\n\nend", "def my_min_2(arr)\n\n smallest_value = arr[0] # O(1)\n\n arr.each do |ele1| # [ 0, 3, 5, 4, -5, 10, 1, 90 ] O(n)\n smallest_value = ele1 if ele1 <= smallest_value #O(1)\n end\n\n smallest_value #O(1)\n\nend", "def largest_contiguous_subsum1(list)\n p Time.now\n sub_arrays = []\n list.each_index do |i|\n list.each_index do |j|\n next if j < i\n sub_arrays << list[i..j]\n end\n end\n sub_arrays.map{|numbers| numbers.inject(:+)}.max\n p Time.now\nend", "def solution(a)\n min_val = 10_000\n min_pos = 0\n \n sums = [0]\n for i in (0..a.count - 1) \n sums << sums.last + a[i] \n end\n for p in (0..a.count - 2)\n for q in (p + 1..[p + 2, a.count - 1].min)\n s = (sums[q + 1] - sums[p]).to_f / (q - p + 1)\n if s < min_val\n min_val = s\n min_pos = p\n end\n end\n end\n min_pos\nend", "def largest_cont_subsum_fast(list)\n # for constant size to be true, you cant create any variables\n # whose memory size depends on the size of the input\n curr_sum = list[0]\n largest_sum = list[0]\n\n # we know there are n^2 potential, so if we ever check all of them\n # it must be n^2\n\n # there must be a way to find the max without checking every subarray\n list[1..-1].each do |ele|\n # debugger\n if curr_sum > largest_sum\n largest_sum = curr_sum\n end\n\n if curr_sum < 0\n curr_sum = 0\n end\n\n curr_sum += ele\n\n end\n\n # debugger\n return [largest_sum, curr_sum].max\n\nend", "def solution(a)\n s= a.sort\n 0.step(s.size - 1).inject(0) do |result, x|\n z= x+2\n (x+1).step(s.size - 1).inject(result) do |acc, y|\n z+=1 while z < s.size && s[x] + s[y] > s[z]\n acc += z-y-1\n end\n end\nend", "def slow_solution(a)\n m = 0\n a.size.times do |i|\n a[i] = a[i].abs\n m = [a[i], m].max\n end\n maxsum = a.sum # sum of absolute val of all nums in array\n # maxsum = a.map(&:abs).sum <- Ruby shortcut\n\n # If dp = 1 at an index, it means some combo of elements in a add up to that index\n dp = [0] * (maxsum + 1)\n dp[0] = 1\n\n a.size.times do |j|\n maxsum.downto(0).each do |possible_sum|\n puts \"a[j]: #{a[j]}, possible sum: #{possible_sum}\"\n if (dp[possible_sum] == 1) and (possible_sum + a[j] <= maxsum)\n\n # if possible_sum + new element a[j] is possible sum, dp = 1!\n dp[possible_sum + a[j]] = 1\n puts \"Mark #{possible_sum + a[j]} as possible sum in dp\"\n end\n end\n puts \"row: #{j}, a[j]: #{a[j]}, dp: #{dp}\"\n puts\n end\n\n min_q_minus_p = maxsum\n\n # Divide array a into 2 parts, where P = sum of part 1 and Q = sum of part 2,\n # P + Q = maxsum, and P <= maxsum / 2 <= Q.\n # We want largest possible P to get smallest possible Q-P.\n\n # loop from 0 to maxsum / 2, covering every possible P, Q division\n (maxsum / 2 + 1).times do |possible_half_sum|\n # puts \"possible_half_sum: #{possible_half_sum}\"\n if dp[possible_half_sum] == 1 # means P or Q = possible_half_sum\n q_minus_p = maxsum - 2 * possible_half_sum\n # puts \"Q - P: #{q_minus_p}\"\n min_q_minus_p = [min_q_minus_p, q_minus_p].min\n # puts \"min Q - P: #{min_q_minus_p}\"\n end\n end\n\n min_q_minus_p\nend", "def solution(a)\n counter = Hash.new(0)\n a.each do |elem|\n counter[elem] += 1\n end\n\n (1..a.size).each do |number|\n return 0 if counter[number] != 1\n end\n\n 1\nend", "def naive(array)\n max = -10000\n for i in (0..array.length - 1)\n for j in (i..array.length - 1)\n total = array[i..j].inject { |m,k| m + k }\n max = total if total > max\n end\n end\n max\nend", "def find_amicables(n)\n pairs = []\n sum = 0\n for i in 0..n do \n next if pairs.include? i\n d = sum_proper_divisors(i)\n next if d == i\n p = sum_proper_divisors(d)\n if p == i \n pairs << d\n pairs << i\n sum += d + i\n end\n end\n return sum\nend", "def find_duplicate(nums)\n if !nums or nums.size == 0\n return nil\n else\n fast = nums[ 0 ]\n slow = nums[ 0 ]\n while true\n fast = nums[ fast ]\n fast = nums[ fast ]\n slow = nums[ slow ]\n if fast == slow\n new_node = nums[ 0 ]\n while new_node != slow\n new_node = nums[ new_node ]\n slow = nums[ slow ]\n end\n return slow\n end\n end\n end\nend", "def efficient_contiguous_subsum(list)\n current_sum = list[0] #0\n largest_sum = list[0] #5\n # debugger\n (1...list.length).each do |i| \n if current_sum + list[i] > 0 \n current_sum += list[i] \n largest_sum = current_sum if current_sum > largest_sum\n else \n current_sum = 0\n end \n end \n largest_sum\nend", "def okay_two_sum?(arr, target)\n sorted = arr.sort # n log n => quicksort => is nlogn DOMINANT\n sorted.each_with_index do |num, i| # => O(n)\n # return true if sorted[i] + sorted[-1 - i] == target\n return true if sorted[i + 1 .. - 1].bsearch {|number| target - num <=> number} # => O(log(n))\n # ASK TA ABOUT BSEARCH\n # bsearch {|ele| pivot <=> ele}\n end\n false\nend", "def largest_contiguous_subsum_1(list) \n subs = [] #O(1)\n (0...list.length).each do |start_num| #O(n)\n (start_num...list.length).each do |end_num| #O(n)\n subs << list[start_num..end_num] #O(n)\n end\n end\n subs_sum = [] #O(1)\n subs.each do |sub| #O(n**2)\n sub_sum = 0 #O(1)\n sub.each {|s| sub_sum += s} #O(n)\n subs_sum << sub_sum #O(1)\n end\n subs_sum.inject do |acc,el| #O(n)\n if acc > el #O(1)\n acc #O(1)\n else\n el #O(1)\n end\n end\n end", "def solve( n = 10_000 )\n (1..n).select {|i| i.amicable?}.reduce( :+ )\n end", "def largest_contiguous_subsum2(list)\n # O(N) ==> Time\n # O(1) ==> Space\n largest = list.first\n curr = list.first\n\n len = list.length\n (1...len).each do |i|\n curr = 0 if curr < 0 \n curr += list[i]\n largest = curr if curr > largest\n end\n largest\nend", "def two_sum?(arr, target_sum) # O(N)\n hash = Hash.new(0)\n count = Hash.new(0)\n\n arr.each do |num|\n hash[num] = target_sum - num\n count[num] += 1\n end\n\n hash.each do |key, value|\n if hash.has_key?(value) \n if key == value \n if count[value] > 1\n return true\n end\n else\n return true\n end\n end\n end\n\n false\nend", "def my_min_2(array)#O(n)\n array.inject do |acc, ele|#O(n)\n if acc < ele\n acc\n else\n ele\n end\n end\nend", "def sub_sum_better(list)\n largest_sum = list.first\n\n #iterate over once.\n # as you iterate keep a tally of the sum.\n # indexing into an array is O(1)\n # [2, 3, -6, 7, -6, 7]\n\n sub_sum = 0\n list.each do |el|\n sub_sum += el\n largest_sum = sub_sum if sub_sum > largest_sum\n\n sub_sum = 0 if sub_sum < 0\n end\n\n largest_sum\nend", "def naive_algorithm(arr)\n\tproduct = 0\n\tarr.each do |i|\n\t arr.each do |j|\n\t \tp = arr[i] * arr[j]\n\t \tproduct = p if product < p\n\t end\t\n\tend\t\t\n\tproduct\nend", "def largest_contiguous_subsum_fast(list)\n start = Time.now\n max_sum = list[0]\n cur_sum = list[0]\n list[1..-1].each do |el|\n if el >= cur_sum && cur_sum < 0\n cur_sum = el\n else\n cur_sum += el\n end\n max_sum = cur_sum if cur_sum > max_sum\n end\n finish = Time.now\n puts \"Runtime: #{finish - start}\"\n return max_sum\nend", "def better_subsum(arr) # o(n)\n largest = 0 \n sum = 0 \n i = 0 \n j = 0\n\n while i != arr.length-1\n largest += arr[j]\n sum = largest if largest > sum \n if j == arr.length-1 \n i+=1 \n j = i \n largest = 0 \n else\n j+=1\n end \n end \n sum \n end", "def solution(a)\n # write your code in Ruby 2.2\n num_of_elements=a.length\n num_of_zeros=0\n tot_num_car_pairs=0\n a.each do |element|\n if element == 0\n num_of_zeros+=1\n else\n tot_num_car_pairs+=num_of_zeros\n end\n end\n return tot_num_car_pairs>1_000_000_000?-1:tot_num_car_pairs\nend", "def solution(a)\n # write your code in Ruby 2.2\n sum = a.inject(:+)\n acc = 0\n\n min = 99999999\n a[0..-2].each do |n|\n sum -= n\n acc += n\n\n min = [(acc - sum).abs, min].min\n end\n min\nend", "def solution(a)\n len = a.size\n unique = {}\n i = 0\n while i < len\n item = a[i]\n if unique.has_key?(item)\n unique[item] += 1\n else\n unique[item] = 1\n end\n i += 1\n end\n pairs = 0\n unique.each do |key,count|\n (1...count).step {|n| pairs += n }\n end\n return pairs > 1_000_000_000 ? 1_000_000_000 : pairs\nend", "def find_duplicate_space(nums)\n # sort nums first (lgn), then check for dups by iterate over (n)\n last_seen = 0\n nums.sort!.each do |num|\n return num if last_seen == num\n last_seen = num\n end\nend", "def two_sum?(array, target)\n #O(n)\n hash = Hash.new(0)\n i = 1\n array.each do |ele|\n hash[ele] = i \n i += 1\n end\n hash.each_key do |k|\n return true if hash.has_key?(target - k) && hash[k] != hash[target - k]\n end\n false \nend", "def fds(n)\n\n # arr = []\n # (n + 1).times.each{|e| arr << e if e > 0}\n # arr.flat_map.reduce(:*)\n # arr.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n (1..n).to_a.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n\nend", "def running_time(array)\n cnt = 0\n (1...(array.length)).each do |x|\n y = x\n while y.positive?\n break unless array[y - 1] > array[y]\n\n temp_num = array[y]\n array[y] = array[y - 1]\n array[y - 1] = temp_num\n cnt += 1\n y -= 1\n end\n end\n cnt\nend", "def solution(a)\n a.sort!\n a.each_with_index do |element, index|\n return 0 if element != index + 1\n end\n 1\nend", "def canBeSum(n, array, cache)\n\ti = 0\n\twhile array[i] <= n / 2\n\t\tif cache[n-array[i]] # array.include?(n-array[i]) is OK, but very slow\n\t\t\treturn true\n\t\tend\n\n\t\ti += 1\n\tend\n\n\treturn false\nend", "def solution(a)\r\n # write your code in Ruby 2.2\r\n #trangular\r\n # a[0] = 10\r\n # a[2] = 5\r\n # a[4] = 8\r\n # 10 + 5 > 8\r\n # 5 + 8 > 10\r\n #8 + 10 > 5\r\n \r\n \r\n l=a.count\r\n \r\n i=0\r\n while(i<l) do\r\n j=i+1\r\n while(j<l) do\r\n k=j+1\r\n \r\n \r\n while(k<l) do\r\n if((a[i] + a[j] > a[k]) && (a[j] +a[k] > a[i]) && (a[k] + a[i] >a[j]))\r\n return 1\r\n end\r\n k+=1 \r\n end \r\n \r\n j+=1 \r\n end\r\n i+=1\r\n end\r\n \r\n return 0\r\n \r\nend", "def solution(a)\n # write your code in Ruby 2.2\n seen = {}\n\n a.each do |number|\n seen[number] = true\n end\n\n max = a.max\n\n for i in 1..(max + 1)\n return i unless seen[i]\n end\n\n 1\nend", "def dp_possible_trees(n)\n array = Array.new(n+2) { Array.new(n+1) { 0 } }\n (0...n+2).to_a.each do |i|\n array[i][0] = 1\n end\n\n sum = 0\n (1...n+1).to_a.each do |i|\n sum = 0\n (1..i).to_a.each do |j|\n array[j][i] = array[n+1][i-j] * array[n+1][j-1]\n sum += array[j][i]\n end\n array[n+1][i] = sum\n end\n array[n+1].last\nend", "def bad_two_sum?(arr, target)\n arr.each_with_index do |num1, idx1| #O(n)\n arr.each_with_index do |num2, idx2| #O(n)\n return true if idx2 > idx1 && num1 + num2 == target #O(1)\n end\n end\n false\nend", "def solution(a)\n\traise ArgumentError.new(\"a has to be non empty array of max size #{MAX_LEN}\") if !a.is_a? Array or a.empty? or a.length > MAX_LEN\n\tret = 0\n\t#puts a.inspect\n\tmy_h = Hash.new\n\ta.each do |e|\n\t\tif my_h.include? e\n\t\t\tmy_h[e] += 1\n\t\telse\n\t\t\tmy_h[e] = 1\n\t\tend\n\tend\n\n\tmy_h_sort = my_h.sort_by {|k, v| -v}\n\t# -> my_h_sort[value][occurances]\n\treturn 0 if my_h_sort.first[1] < a.size/2\n\tleader_val = my_h_sort.first[0]\n\n\tocc_array = Array.new\n\toccurances = 0\n\ta.each do |e|\n\t\toccurances += 1 if e == leader_val\n\t\tocc_array.push(occurances)\n\tend\n\t#puts occ_array.inspect\n\n\tfor idx in (0...a.length-1) do\n\t\tsum1 = occ_array[idx]\n\t\tsum2 = occ_array.last - occ_array[idx]\n\n\t\t# puts \"#{idx}+1 < #{sum1*2}\"\n\t\t# puts \"#{(a.length - idx -1)} < #{(sum2*2 )} \"\n\n\t\tif (idx+1) < sum1 * 2 && (a.length - idx - 1 ) < sum2 * 2\n\t\t\t## we have a leader\n\t\t\t#puts \"YEAH #{idx}\"\n\t\t\tret += 1\n\t\tend\n\t\t\t#puts \"-------- ret: #{ret}\"\n\tend\n\treturn ret\nend", "def solution(a)\n n = a.size\n starting = Array.new(n, 0)\n ending = Array.new(n, 0)\n\n (1..n - 2).each {|i| starting[i] = [starting[i - 1] + a[i], 0].max}\n (1..n - 2).reverse_each {|i| ending[i] = [ending[i + 1] + a[i], 0].max}\n\n sum = 0\n (1..n - 2).each {|i| sum = [sum, starting[i - 1] + ending[i + 1]].max}\n sum\nend", "def three_sum(nums)\n n = nums.length\n result = []\n for i in 0...n-2\n req_sum = 0\n hsh = Hash.new\n curr_sum = req_sum - nums[i]\n \n for j in (i+1)...n\n num = curr_sum - nums[j]\n if hsh[num]\n elements = [nums[i], num, nums[j]].sort\n result << elements unless result.include?(elements)\n end\n hsh[nums[j]] = true\n end \n end\n result\nend", "def fast_lcss(arr)\n i_arr = []\n biggest = 0\n max_sub_arr = []\n arr.length.times do |x|\n arr.map do |ele1|\n i_arr += [ele1]\n sum = i_arr.inject(0) do |a, b|\n a + b\n end\n max_sub_arr = i_arr if sum > biggest\n biggest = sum if sum > biggest \n end\n i_arr = []\n arr.shift\n end\n max_sub_arr\nend", "def third_anagram?(str1, str2)\n beginning_time = Time.now\n str1.split(\"\").sort == str2.split(\"\").sort #O(nlogn)\n \"Time complexity of first_anagram: #{(Time.now - beginning_time)}\"\nend", "def largest_contiguous_subsum(list) # O(n^2)\n array = []\n list.each_with_index do |ele1, i1| # O(n^2)\n (i1...list.length).each do |i2|\n array << list[i1..i2]\n end\n end\n\n max_sum = array.first.sum\n array[1..-1].each do |subarr| # O(n^2)\n sum = subarr.sum\n if sum > max_sum\n max_sum = sum\n end\n end\n\n max_sum\n\nend", "def problem_57\n ret,n,d = 0,1,1\n 1000.times do |i|\n n,d = (n+2*d),(n+d)\n ret += 1 if n.to_s.length > d.to_s.length\n end\n ret\nend", "def solve_again_with_issues(array, sum)\n result = {}\n freq = {}\n count = 0\n\n array.each do |el|\n freq[el] ? freq[el] += 1 : freq[el] = 1\n end\n\n array.each do |el|\n if freq[sum - el] && !result[sum - el]\n count += freq[sum - el]\n end\n end\n count/2\nend", "def solution(n, a)\n counters = Array.new(n, 0)\n max = 0\n a.each do |item|\n if item >= 1 && item <= n\n counters[item - 1] += 1\n max = counters[item - 1] if counters[item - 1] > max\n elsif item == n + 1\n counters = Array.new(n, max)\n end\n end\n\n counters\nend", "def sum_to_n? arr, n\n #arr.product(arr).any? {|c| sum(c) == n && c[0] != c[1] } ----1.3\n arr = arr.sort\n low = 0\n high = arr.length - 1\n while low < high\n if arr[low] + arr[high] == n\n return true\n end\n arr[low] + arr[high] < n ? low += 1 : high -= 1 \n end\n return false\nend", "def solve( n = 100_000_000 )\n # Assuming the largest valid sum of squares is S = a^2 + (a - 1)^2 < n,\n # first find a and set aside space to cache that many running sums.\n len = (1 + Math.sqrt( 2*n )) / 2\n sos = Array.new( len )\n\n seen = []\n sos[0] = 1\n\n (1...len).each do |i|\n # Precompute the ∑ i^2 for all i <= a. \n ds = i*i + 2*i + 1\n sos[i] = sos[i - 1] + ds\n\n seen << sos[i] if sos[i].palindrome?\n\n # Most of the sum of square values will exceed n, so subtract lower sums\n # to check shorter runs.\n (i - 2).downto( 0 ) do |j|\n diff = sos[i] - sos[j]\n break unless diff < n\n\n # Update our total if the shorter run a[j] + a[j + 1] + ... + a[i] is\n # a palindrome.\n seen << diff if diff.palindrome?\n end\n end\n\n seen.uniq.reduce( :+ )\n end", "def solution(a)\n # write your code in Ruby 2.2\n n = a.length\n \n counter = Array.new(n+1, 0)\n \n a.each do |x|\n counter[x-1] += 1\n end\n \n return counter.index { |x| x == 0 } + 1\nend", "def three_sum_fast(arr)\n arr = merge_sort(arr)\n count = 0\n\n (0..arr.length - 1).each { |i|\n (i + 1..arr.length - 1).each { |j|\n if bin_search(arr, -arr[i] - arr[j]) > j\n count += 1\n end\n }\n }\n count\nend", "def stones(n, a, b)\n ar=[0]\n (n-1).times do |val|\n tmp=[]\n ar.each do |v|\n tmp << v+a if !tmp.include?(v+a)\n tmp << v+b if !tmp.include?(v+b)\n end\n ar=tmp\n end\n ar.sort\nend", "def largest_contiguous_subsum(list)\n new_arr = []\n\n (0...list.length).each do |idx1| #O(n)\n (0...list.length).each do |idx2| #O(n)\n if idx2 >= idx1 #O(1)\n new_arr << list[idx1..idx2].sum #O(1)\n end \n end \n \n end \n \n return new_arr.max #O(n)\nend", "def largest_contiguous_subsum_2(list)\n largest_sum = 0\n current_sum = 0\n\n list.each do |el|\n largest_sum = current_sum \n current_sum += el \n if current_sum < el \n current_sum = el \n end \n largest_sum = current_sum if largest_sum < current_sum\n end\n\n largest_sum\nend", "def hash_two_sum(arr,target_sum)\n #creates a new hash with each element that is satisfying the target_sum\n hash = Hash.new(0) #{|h,k| h[k] = []}\n (0...arr.length).each { |i| hash[i] = arr[i]} #O(n)\nend", "def okay_two_sum?(arr, target)\r\n arr = arr.sort #n log n\r\n i, j = 0, arr.length - 1 #2\r\n\r\n while j > i #n\r\n curr_sum = arr[i] + arr[j]\r\n if curr_sum > target\r\n j -= 1\r\n elsif curr_sum < target\r\n i += 1\r\n else\r\n return true\r\n end\r\n end\r\n false\r\nend", "def solution(a)\n result = 0\n tmp_count = 0\n a.each_with_index do |val, idx|\n if val.zero?\n tmp_count += 1\n else\n result += tmp_count\n end\n end\n return result > 1000000000 ? -1 : result\nend", "def f(n)\n # your code here\n result = []\n possibles = (2..n).flat_map{ |s| [*2..n].combination(s).map(&:join).to_a }\n p possibles\n possibles.each do |i|\n x = 0\n temp_arr = []\n temp = i.split('').map { |j| j.to_i }\n p temp\n while x < temp.length do \n if i[x + 1] != i[x] + 1 || i[x + 1] == nil\n temp_arr << i[x]\n end\n x += 1\n end\n result << temp_arr\n end\n result.length\nend", "def isSumOfTwoAbundantNumbers n\n\n # we'll cycle over all abundant numbers less than n / 2\n if n / 2 < @@listOfAbundants.first\n return false\n end\n\n if @@listOfAbundants.last < n / 2\n for i in ((@@listOfAbundants.last + 1)..n)\n if isAbundant i\n @@listOfAbundants.push i\n end\n end\n end\n\n for a in @@listOfAbundants\n if a > n /2 \n return false\n end\n \n pair = n - a\n if @@listOfAbundants.include? pair\n return true\n end\n end\n\nend", "def solution(a)\n accessed = Array.new(a.size + 1, nil)\n caterpillar_back = 0\n count = 0\n\n a.each_with_index do |x, caterpillar_front|\n if accessed[x] == nil\n accessed[x] = caterpillar_front\n else\n new_caterpillar_back = accessed[x] + 1\n first_part_size = caterpillar_front - caterpillar_back\n second_part_size = caterpillar_front - new_caterpillar_back\n count += first_part_size * (first_part_size + 1) / 2\n count -= (second_part_size) * (second_part_size + 1) / 2\n caterpillar_back.upto(new_caterpillar_back - 1) { |n| accessed[a[n]] = nil}\n accessed[x] = caterpillar_front\n caterpillar_back = new_caterpillar_back\n end\n end\n\n remaining_size = a.size - caterpillar_back\n count += (remaining_size) * (remaining_size + 1) / 2\n end", "def okay_two_sum(arr, target)\n #O(n)\n arr.sort!\n i = 0\n j = arr.length - 1\n while i < j\n sum = arr[i] + arr[j]\n return true if sum == target\n if sum < target\n i += 1\n else\n j -= 1\n end\n end\n false\nend", "def seesaw2?(arr)\n left_sum = 0\n right_sum = arr.size > 1 ? arr[1..-1].reduce(:+) : 0\n\n arr.each_index do |i| #O(n)\n return true if left_sum == right_sum\n left_sum += arr[i]\n i < arr.size-1 ? right_sum -= arr[i+1] : right_sum = 0\n end\n return false\nend", "def largest_contiguous_subsum2(list)\n result = list.first\n sum = list.first\n\n list.each_with_index do |n, i|\n next if i == 0\n\n sum = 0 if sum < 0\n\n sum += n\n\n result = sum if sum > result\n end\n\n result\nend", "def euler29(n)\n terms = []\n 2.upto(n) do |i|\n 2.upto(n) do |j|\n if terms.include?(i ** j) == false\n terms << i ** j\n end\n end\n end\n \n terms.length\nend", "def largest_contiguous_subsum_once(arr)\n largest_subsum = 0\n current = 0\n\n arr.each do |elm|\n current += elm\n if largest_subsum < current\n largest_subsum = current\n elsif current < 0\n current = 0 \n end \n end \n\n # (0...arr.count).each do |i|\n # current_subsum = (largest_subsum + arr[i])\n # if current_subsum > largest_subsum \n # largest_subsum = current_subsum \n # elsif current_subsum < 0 \n # largest_subsum = 0 \n # end\n # end \n\n largest_subsum \nend", "def solution(a)\n left = 0\n right = a.sum\n a.each_with_index do |element, index|\n right -= element\n return index if left == right\n left += element\n end\n -1\nend", "def solution(a)\n length = a.length\n sum = (length + 1) * (length + 1 + 1) / 2\n\n sum - a.inject(0) { |acc, e| acc += e }\nend", "def solution(n, a)\n # write your code in Ruby 2.2\n arr = [0] * n\n max_c = 0\n \n a.each_with_index do |value,index|\n if value == n + 1\n arr = [max_c] * n\n else\n arr[value - 1] = arr[value - 1] + 1\n max_c = (arr[value -1] > max_c ? arr[value -1] : max_c)\n end\n end\n arr\nend", "def two_sum(arr) #o(ns)\n set = Set.new\n arr.each{|el| set << el}\n arr.select{|el| set.include?(-1 * el)}\nend", "def solution(a)\n # write your code in Ruby 2.2\n binding.pry\n trips = Hash.new {|h,k| h[k]=0}\n start = 0\n ending = 0\n min = nil\n a.each_with_index do |trip,i|\n ending = i\n\n if trips[trip] == 0\n min = ending - start\n end\n trips[trip] += 1\n\n while start < ending\n break if trips[a[start]] - 1 == 0\n trips[start] -= 1\n start += 1\n min = ending - start if ending-start < min\n end\n end\n min\nend", "def solution_slow_2(n, p, q)\n sieve = sieve_of_erathosteneses(n)\n # puts \"sieve:#{sieve}\"\n semi = semiprimes(n, sieve)\n # puts \"sp:#{semi}\"\n prefix = [0,0,0,0,1]\n 5.upto(n) do |x|\n if semi.include? x \n prefix << prefix.last + 1\n else\n prefix << prefix.last\n end\n end\n # puts \"prefix:#{prefix}\"\n\n queries = [p,q].transpose\n\n\n res = queries.map do |query|\n prefix[query.last] - prefix[query.first - 1]\n end\n\n # puts \"res:#{res}\"\n\n res\n end", "def solution(a)\n return 0 if a.uniq.size != a.size\n \n max = a.size \n sum = (1 + max) * max / 2\n \n array_sum = a.inject(0, &:+) \n sum == array_sum ? 1 : 0 \nend", "def my_min_2(nums) # O(n)\n smallest = 0\n nums.each do |num|\n smallest = num if num < smallest\n end\n smallest\nend", "def my_min1(arr)\n arr.each do |el1| #O(n)\n if arr.all? {|el2| el1 <= el2 } #O(n + 1)\n return el1\n end\n end \nend", "def solution(n, a)\n max = 0\n counters = Array.new(n, max)\n a.each do |counter|\n if counter == n + 1\n counters.fill(max)\n else\n counters[counter - 1] += 1\n max = counters[counter - 1] if counters[counter - 1] > max\n end\n end\n counters\nend", "def solution(a)\n a.uniq.count\nend", "def equal(arr)\n size = arr.size\n hash = Hash.new{|h,k| h[k] = []}\n (0...size).each do |i|\n (i + 1...size - 1).each do |j|\n sum = arr[i] + arr[j]\n if hash.has_key?(sum)\n values = hash[sum]\n values << i\n values << j\n return values\n else\n hash[sum] = [i, j]\n end\n end\n end\nend", "def sub_sum(list)\n array = []\n (0...list.length).each do |idx1|\n (idx1...list.length).each do |idx2|\n array << list[idx1..idx2] #O(n)\n end\n end \n array.map {|sub| sub.length > 1 ? sub.sum : sub.first}.max\nend", "def solution(a)\n # we could do radix sort and then loop over all the items in order to find the missing element\n # in the ordered list or use the Gauss theorem: https://study.com/academy/lesson/finding-the-sum-of-consecutive-numbers.html\n #\n # if we use the Gauss theorem we can do:\n # sum = (1 + N+1) * ( N / 2 )\n #\n # if (1 + N+1) % 2 == 1 we need to sum also (n+1+1)/2 + 1\n #\n # then remove every item from the sum: the remainder is the missing number\n len = a.length\n sum = (1 + len + 1) * ((len + 1) / 2)\n sum += ((len + 1) / 2.0).ceil unless (len + 1) % 2 == 0\n\n a.reduce(sum) do |sum, i|\n sum - i\n end\nend", "def solution(a)\n first_sum = a[0]\n second_sum = a.inject(&:+) - a.first\n result = (first_sum - second_sum).abs\n\n a[1..-2].each do |elem|\n first_sum = first_sum + elem\n second_sum = second_sum - elem\n tmp_result = (first_sum - second_sum).abs\n result = tmp_result if tmp_result < result\n end\n\n result\nend", "def largest_contiguous_subsum1(list)\n greatest_sum = -1.0/0.0\n (0...list.length).each do |i|\n (i...list.length).each do |j|\n greatest_sum = list[i..j].sum if greatest_sum < list[i..j].sum\n end\n end\n greatest_sum\nend", "def largest_contiguous_subsum(list)\r\n sub_arr = []\r\n list.each_with_index do |ele1,idx1|\r\n list.each_with_index do |ele2,idx2|\r\n sub_arr<< list[idx1..idx2] if idx2>=idx1\r\n end\r\n end\r\n p sub_arr.size\r\n sub_arr.map{ |sub| sub.sum}.max\r\n #(O(n^2 + m)\r\nend" ]

[ "0.7053476", "0.6980185", "0.679534", "0.64903593", "0.6485889", "0.64576155", "0.6457308", "0.6428459", "0.6427262", "0.6410083", "0.635387", "0.6349556", "0.6292801", "0.6231402", "0.621655", "0.62068087", "0.6200745", "0.61991835", "0.618588", "0.61676466", "0.6149772", "0.61384666", "0.6136877", "0.6136733", "0.6129206", "0.6121664", "0.6120636", "0.61176217", "0.6115348", "0.6112284", "0.61013716", "0.60967475", "0.60850054", "0.60814726", "0.6072266", "0.60567254", "0.6055324", "0.604802", "0.60387105", "0.60276484", "0.6021766", "0.60170525", "0.6013813", "0.6013192", "0.60068494", "0.59910744", "0.5983672", "0.59826803", "0.59823537", "0.5971299", "0.5969912", "0.59696674", "0.5969566", "0.59679204", "0.59645593", "0.59548044", "0.5954088", "0.5943989", "0.5939705", "0.59374225", "0.59346735", "0.5931824", "0.5926379", "0.59257007", "0.5925312", "0.5922375", "0.5922021", "0.5920381", "0.5916733", "0.5911724", "0.59083325", "0.5906084", "0.590351", "0.5900307", "0.59002346", "0.5900202", "0.58995634", "0.5895487", "0.5894436", "0.58877265", "0.58855695", "0.58832586", "0.5875491", "0.5873083", "0.5871976", "0.5871492", "0.58627766", "0.5852291", "0.58487356", "0.5842562", "0.5841581", "0.58395606", "0.5838418", "0.5835196", "0.58322656", "0.5830828", "0.5830419", "0.5826034", "0.58250046", "0.5822586", "0.5818508" ]

[ "def solution(a)\r\n n=a.size\r\n i=1\r\n for k in a.sort do\r\n\tif k!=i \r\n\t then \r\n\t return 0\r\n\t break;\r\n\tend\r\n i+=1;\r\n end\t\r\n return 1 if a.inject(:+) ==n*(n+1)/2;\r\nend", "def find_dublicate(array)\n sum = 1000000*(1000000+1)/2 # (n*(n+1))/2\n array.each do |el| \n sum -= el\n end\n return sum\nend", "def largest_subsum(list)\n max = list[0] # O(1)\n current_sum = list[0] # O(1)\n\n (1...list.length).each do |i| # O(n)\n # debugger\n if current_sum < 0 # O(1)\n current_sum = 0 # O(1)\n end \n current_sum += list[i] # O(1)\n if current_sum > max # O(1)\n max = current_sum # O(1)\n end\n end\n\n max # O(1)\n\nend", "def solution(a)\n n = a.size\n return 0 unless n > 2\n a.sort!\n\n (2..n - 1).each do |i|\n return 1 if a[i - 2] + a[i - 1] > a[i]\n end\n\n return 0\nend", "def okay_two_sum?(arr, target)\n arr = arr.sort #n log n\n (0...arr.length).each do |i| #n\n search = bsearch(arr, target-arr[i]) # log n\n return true unless search.nil?\n end #n log n\n false\nend", "def my_min_2(list)\r\n min = 0 # O(1)\r\n \r\n list.each do |ele| # O(n) \r\n if ele < min # O(1)\r\n min = ele # O(1)\r\n end\r\n end\r\n min # O(1) \r\nend", "def solution(a)\n n = a.size\n a.sort!\n\n count = 0\n for i in 0...n-2 do\n k = i+2\n for j in i+1...n-1 do\n while k < n and a[i] + a[j] > a[k] do\n k += 1\n end\n count += k - j - 1\n end\n end\n count\nend", "def three_sum_fastest(arr)\n count = 0\n\n (0..arr.length - 2).each { |i|\n set = Set.new\n\n (i + 1..arr.length - 1).each { |j|\n if set.include?(-arr[i] - arr[j])\n count += 1\n end\n\n set.add(arr[j])\n }\n }\n count\nend", "def largest_contiguous_subsum_2(list)# [2, 3, -6, 7, -6, 7]\n largest_num = list[0]#2 O(1)\n running_sum = list[0]#2 - 5 after entering loop. O(1)\n\n (1...list.length).each do |i| #O(n) \n running_sum = 0 if running_sum < 0 #O(1)\n running_sum += list[i] #O(1)\n largest_num = running_sum if running_sum > largest_num #O(1)\n end\n return largest_num #O(1)\nend", "def sub_sum(list)\n sub_arr = []\n (0...list.length).each do |i| #O(n)\n (i...list.length).each do |j| #O(n)\n sub_arr << list[i..j] if i <= j\n end\n end\n largest_continuous_sub_sum1(sub_arr)\nend", "def fibonacci(n)\n return fib_helper([0, 1], 2, n)\n # if you'd like to test what i THINK is an O(1) space complexity solution.....\n # i did run this through the tests and it SHOULD work:\n # return faster_fib_helper([0, 1], 2, n)\nend", "def sorted_squares(nums)\n # This takes O(n)\n nums.map! { |num| num**2 }\n # This can take Ο(n logn)\n bubble_sort(nums)\nend", "def sum_upon_sums(array)\n # Step 0: initialize variables => O(1)\n max = -1\n sum = 0\n\n # Step 1: Get Max and Sum => O(n)\n array.each do |num|\n max = num if num >= max\n sum += num\n end\n\n # Step 2: Get summation => O(1)\n summation = max * (max + 1) / 2\n\n # Step 3: Return Missing value by subtracting summation and sum => O(1)\n summation - sum\nend", "def solution(m, a)\n n = a.count\n result = 0\n front = 0\n numbers = Array.new(m + 1, false)\n n.times { |back|\n while front < n and not numbers[a[front] - 1]\n numbers[a[front] - 1] = true\n front += 1\n result += front - back\n return 1_000_000_000 if result >= 1_000_000_000\n end\n numbers[a[back] - 1] = false\n }\n result\nend", "def okay_two_sum?(arr, target)\n sorted = arr.sort # n log n => quicksort => is nlogn DOMINANT\n sorted.each_with_index do |num, i| # => O(n)\n # return true if sorted[i] + sorted[-1 - i] == target\n return true if sorted[i + 1 .. - 1].bsearch {|number| target - num <=> number} # => O(log(n))\n # ASK TA ABOUT BSEARCH\n # bsearch {|ele| pivot <=> ele}\n end\n false\nend", "def solution(a)\n n = a.size\n passing_cars = 0\n\n suffix_sums = Array.new(n + 1, 0)\n\n a.reverse.each_with_index do |elem, i|\n suffix_sums[i + 1] = suffix_sums[i] + elem\n end\n suffix_sums.reverse!\n\n a.each_with_index do |car, i|\n if car == 0\n passing_cars += suffix_sums[i]\n end\n end\n\n passing_cars > 1_000_000_000 ? -1 : passing_cars\nend", "def solution(a)\n s= a.sort\n 0.step(s.size - 1).inject(0) do |result, x|\n z= x+2\n (x+1).step(s.size - 1).inject(result) do |acc, y|\n z+=1 while z < s.size && s[x] + s[y] > s[z]\n acc += z-y-1\n end\n end\nend", "def slow_solution(a)\n m = 0\n a.size.times do |i|\n a[i] = a[i].abs\n m = [a[i], m].max\n end\n maxsum = a.sum # sum of absolute val of all nums in array\n # maxsum = a.map(&:abs).sum <- Ruby shortcut\n\n # If dp = 1 at an index, it means some combo of elements in a add up to that index\n dp = [0] * (maxsum + 1)\n dp[0] = 1\n\n a.size.times do |j|\n maxsum.downto(0).each do |possible_sum|\n puts \"a[j]: #{a[j]}, possible sum: #{possible_sum}\"\n if (dp[possible_sum] == 1) and (possible_sum + a[j] <= maxsum)\n\n # if possible_sum + new element a[j] is possible sum, dp = 1!\n dp[possible_sum + a[j]] = 1\n puts \"Mark #{possible_sum + a[j]} as possible sum in dp\"\n end\n end\n puts \"row: #{j}, a[j]: #{a[j]}, dp: #{dp}\"\n puts\n end\n\n min_q_minus_p = maxsum\n\n # Divide array a into 2 parts, where P = sum of part 1 and Q = sum of part 2,\n # P + Q = maxsum, and P <= maxsum / 2 <= Q.\n # We want largest possible P to get smallest possible Q-P.\n\n # loop from 0 to maxsum / 2, covering every possible P, Q division\n (maxsum / 2 + 1).times do |possible_half_sum|\n # puts \"possible_half_sum: #{possible_half_sum}\"\n if dp[possible_half_sum] == 1 # means P or Q = possible_half_sum\n q_minus_p = maxsum - 2 * possible_half_sum\n # puts \"Q - P: #{q_minus_p}\"\n min_q_minus_p = [min_q_minus_p, q_minus_p].min\n # puts \"min Q - P: #{min_q_minus_p}\"\n end\n end\n\n min_q_minus_p\nend", "def solution(a)\n min_val = 10_000\n min_pos = 0\n \n sums = [0]\n for i in (0..a.count - 1) \n sums << sums.last + a[i] \n end\n for p in (0..a.count - 2)\n for q in (p + 1..[p + 2, a.count - 1].min)\n s = (sums[q + 1] - sums[p]).to_f / (q - p + 1)\n if s < min_val\n min_val = s\n min_pos = p\n end\n end\n end\n min_pos\nend", "def my_min(list) \n\n list.each_with_index do |ele, i| #O(n)\n compare_arr = list[0...i] + list[i+1..-1] # O(2n) \n return ele if compare_arr.all? { |ele2| ele < ele2 } #O(n)\n end\n\n #time complexity = O(n^2) + O(2n)\n\nend", "def my_min_2(arr)\n\n smallest_value = arr[0] # O(1)\n\n arr.each do |ele1| # [ 0, 3, 5, 4, -5, 10, 1, 90 ] O(n)\n smallest_value = ele1 if ele1 <= smallest_value #O(1)\n end\n\n smallest_value #O(1)\n\nend", "def main\n\n sum = 0\n\n (0..999).each do |i|\n sum += check(i)\n end\n\n puts \"Total - O(n) #{sum}\"\n\n # Needed to refresh following: https://en.wikipedia.org/wiki/Arithmetic_progression\n sum2 = sum_multiples(3, 1000) + sum_multiples(5, 1000) - sum_multiples(15, 1000)\n\n # Refreshed Big O too : http://stackoverflow.com/questions/487258/plain-english-explanation-of-big-o \n puts \"Total - O(1) #{sum2}\"\n\nend", "def largest_cont_subsum_fast(list)\n # for constant size to be true, you cant create any variables\n # whose memory size depends on the size of the input\n curr_sum = list[0]\n largest_sum = list[0]\n\n # we know there are n^2 potential, so if we ever check all of them\n # it must be n^2\n\n # there must be a way to find the max without checking every subarray\n list[1..-1].each do |ele|\n # debugger\n if curr_sum > largest_sum\n largest_sum = curr_sum\n end\n\n if curr_sum < 0\n curr_sum = 0\n end\n\n curr_sum += ele\n\n end\n\n # debugger\n return [largest_sum, curr_sum].max\n\nend", "def largest_contiguous_subsum(arr) #BigO of O(n)\n max = 0 \n current_sum = 0\n arr.each_with_index do |el,idx|\n if current_sum + el >= el \n current_sum += el \n else \n current_sum = el \n end \n max = current_sum if current_sum > max \n end \n max\nend", "def naive(array)\n max = -10000\n for i in (0..array.length - 1)\n for j in (i..array.length - 1)\n total = array[i..j].inject { |m,k| m + k }\n max = total if total > max\n end\n end\n max\nend", "def solve( n = 10_000 )\n (1..n).select {|i| i.amicable?}.reduce( :+ )\n end", "def my_min_2(array)#O(n)\n array.inject do |acc, ele|#O(n)\n if acc < ele\n acc\n else\n ele\n end\n end\nend", "def largest_contiguous_sub_sum2(arr)\n #one varable tracks largest sum\n #one variable tracks current sum\n #O(n) + O(1)\n # list = [2, 3, -6, 7, -6, 7]\n\n # largest_sum= arr.first\n\n # i = 0\n # arr_end = true\n\n # while arr_end\n # current_sum = arr[i]\n # if arr[i+1] == nil\n # arr_end = false\n # puts \"This is current sum: #{current_sum}\"\n # else\n # if current_sum > largest_sum\n # current_sum += arr[i+1]\n # largest_sum = current_sum\n # end\n # end\n # if i < arr.length\n # arr_end = true\n # i += 1\n # end\n # end\n # largest_sum\n \n\n\n # arr.each_with_index do |ele, idx|\n # if ele > largest_sum\n # largest_sum = ele\n # end\n\n # i = idx\n # sum = ele\n # while i < arr.length - 1\n # if sum <= sum + arr[i+1]\n # largest_sum = sum + arr[i+1]\n # end\n # sum = sum + arr[i+1]\n # i+=1\n # end\n # end\n # largest_sum\n\nend", "def find_amicables(n)\n pairs = []\n sum = 0\n for i in 0..n do \n next if pairs.include? i\n d = sum_proper_divisors(i)\n next if d == i\n p = sum_proper_divisors(d)\n if p == i \n pairs << d\n pairs << i\n sum += d + i\n end\n end\n return sum\nend", "def solution(a)\n return 1 if a.empty?\n a.sort!\n return 1 if a.first > 1\n return a.first + 1 if a.length <2\n (0..(a.length)).each do |index|\n return a[index] + 1 if a[index] + 1 != a[index + 1]\n end\n return a.last + 1\nend", "def solution(n, a)\n counters = Array.new(n, 0)\n max = 0\n a.each do |item|\n if item >= 1 && item <= n\n counters[item - 1] += 1\n max = counters[item - 1] if counters[item - 1] > max\n elsif item == n + 1\n counters = Array.new(n, max)\n end\n end\n\n counters\nend", "def dp_possible_trees(n)\n array = Array.new(n+2) { Array.new(n+1) { 0 } }\n (0...n+2).to_a.each do |i|\n array[i][0] = 1\n end\n\n sum = 0\n (1...n+1).to_a.each do |i|\n sum = 0\n (1..i).to_a.each do |j|\n array[j][i] = array[n+1][i-j] * array[n+1][j-1]\n sum += array[j][i]\n end\n array[n+1][i] = sum\n end\n array[n+1].last\nend", "def solution(a)\n # In production environment this will be my solution:\n # a.uniq.size\n #\n # But since this is a coding challenge, my assumption\n # is that you're looking for a by-hand O(N*logN) solution\n\n return 0 if a.empty?\n\n n = a.size\n ary = a.sort\n uniques = 1\n (1...n).each do |i|\n uniques += 1 if ary[i] != ary[i - 1]\n end\n uniques\nend", "def seesaw?(arr)\n left_sum = 0\n arr.each_index do |i| #O(n)\n if i > 0\n left_sum = arr[0...i].reduce(:+) #O(n)\n end\n if i < arr.size-1\n right_sum = arr[i+1..-1].reduce(:+); #O(n)\n else\n right_sum = 0\n end\n if left_sum == right_sum\n return true\n end\n end\n return false\nend", "def solution(a)\n # write your code in Ruby 2.2\n sum = a.inject(:+)\n acc = 0\n\n min = 99999999\n a[0..-2].each do |n|\n sum -= n\n acc += n\n\n min = [(acc - sum).abs, min].min\n end\n min\nend", "def two_sum?(arr, target_sum) # O(N)\n hash = Hash.new(0)\n count = Hash.new(0)\n\n arr.each do |num|\n hash[num] = target_sum - num\n count[num] += 1\n end\n\n hash.each do |key, value|\n if hash.has_key?(value) \n if key == value \n if count[value] > 1\n return true\n end\n else\n return true\n end\n end\n end\n\n false\nend", "def largest_contiguous_subsum_fast(list)\n start = Time.now\n max_sum = list[0]\n cur_sum = list[0]\n list[1..-1].each do |el|\n if el >= cur_sum && cur_sum < 0\n cur_sum = el\n else\n cur_sum += el\n end\n max_sum = cur_sum if cur_sum > max_sum\n end\n finish = Time.now\n puts \"Runtime: #{finish - start}\"\n return max_sum\nend", "def findDiffSquares(n)\n sum = 0\n (1..n).each { |i|\n (1..n).each { |j|\n sum += i*j unless i == j\n }\n }\n sum\nend", "def largest_contiguous_subsum1(list)\n p Time.now\n sub_arrays = []\n list.each_index do |i|\n list.each_index do |j|\n next if j < i\n sub_arrays << list[i..j]\n end\n end\n sub_arrays.map{|numbers| numbers.inject(:+)}.max\n p Time.now\nend", "def sub_sum_better(list)\n largest_sum = list.first\n\n #iterate over once.\n # as you iterate keep a tally of the sum.\n # indexing into an array is O(1)\n # [2, 3, -6, 7, -6, 7]\n\n sub_sum = 0\n list.each do |el|\n sub_sum += el\n largest_sum = sub_sum if sub_sum > largest_sum\n\n sub_sum = 0 if sub_sum < 0\n end\n\n largest_sum\nend", "def solution(a)\n\traise ArgumentError.new(\"a has to be non empty array of max size #{MAX_LEN}\") if !a.is_a? Array or a.empty? or a.length > MAX_LEN\n\tret = 0\n\t#puts a.inspect\n\tmy_h = Hash.new\n\ta.each do |e|\n\t\tif my_h.include? e\n\t\t\tmy_h[e] += 1\n\t\telse\n\t\t\tmy_h[e] = 1\n\t\tend\n\tend\n\n\tmy_h_sort = my_h.sort_by {|k, v| -v}\n\t# -> my_h_sort[value][occurances]\n\treturn 0 if my_h_sort.first[1] < a.size/2\n\tleader_val = my_h_sort.first[0]\n\n\tocc_array = Array.new\n\toccurances = 0\n\ta.each do |e|\n\t\toccurances += 1 if e == leader_val\n\t\tocc_array.push(occurances)\n\tend\n\t#puts occ_array.inspect\n\n\tfor idx in (0...a.length-1) do\n\t\tsum1 = occ_array[idx]\n\t\tsum2 = occ_array.last - occ_array[idx]\n\n\t\t# puts \"#{idx}+1 < #{sum1*2}\"\n\t\t# puts \"#{(a.length - idx -1)} < #{(sum2*2 )} \"\n\n\t\tif (idx+1) < sum1 * 2 && (a.length - idx - 1 ) < sum2 * 2\n\t\t\t## we have a leader\n\t\t\t#puts \"YEAH #{idx}\"\n\t\t\tret += 1\n\t\tend\n\t\t\t#puts \"-------- ret: #{ret}\"\n\tend\n\treturn ret\nend", "def solution(n, a)\n max = 0\n counters = Array.new(n, max)\n a.each do |counter|\n if counter == n + 1\n counters.fill(max)\n else\n counters[counter - 1] += 1\n max = counters[counter - 1] if counters[counter - 1] > max\n end\n end\n counters\nend", "def largest_contiguous_subsum_1(list) \n subs = [] #O(1)\n (0...list.length).each do |start_num| #O(n)\n (start_num...list.length).each do |end_num| #O(n)\n subs << list[start_num..end_num] #O(n)\n end\n end\n subs_sum = [] #O(1)\n subs.each do |sub| #O(n**2)\n sub_sum = 0 #O(1)\n sub.each {|s| sub_sum += s} #O(n)\n subs_sum << sub_sum #O(1)\n end\n subs_sum.inject do |acc,el| #O(n)\n if acc > el #O(1)\n acc #O(1)\n else\n el #O(1)\n end\n end\n end", "def find_duplicate(nums)\n if !nums or nums.size == 0\n return nil\n else\n fast = nums[ 0 ]\n slow = nums[ 0 ]\n while true\n fast = nums[ fast ]\n fast = nums[ fast ]\n slow = nums[ slow ]\n if fast == slow\n new_node = nums[ 0 ]\n while new_node != slow\n new_node = nums[ new_node ]\n slow = nums[ slow ]\n end\n return slow\n end\n end\n end\nend", "def naive_algorithm(arr)\n\tproduct = 0\n\tarr.each do |i|\n\t arr.each do |j|\n\t \tp = arr[i] * arr[j]\n\t \tproduct = p if product < p\n\t end\t\n\tend\t\t\n\tproduct\nend", "def solution(n, a)\n # write your code in Ruby 2.2\n arr = [0] * n\n max_c = 0\n \n a.each_with_index do |value,index|\n if value == n + 1\n arr = [max_c] * n\n else\n arr[value - 1] = arr[value - 1] + 1\n max_c = (arr[value -1] > max_c ? arr[value -1] : max_c)\n end\n end\n arr\nend", "def solution(n)\n x = (n**0.5).floor\n (1..x).reduce(0) { |s, i| n % i == 0 ? s += (i * i == n ? 1 : 2) : s }\nend", "def linear_search(n)\n\t(1..100).to_a.shuffle.each do |x|\n\t\tif x == n\n\t\t\tbreak\n\t\tend\n\tend\nend", "def fast_lcss(arr)\n i_arr = []\n biggest = 0\n max_sub_arr = []\n arr.length.times do |x|\n arr.map do |ele1|\n i_arr += [ele1]\n sum = i_arr.inject(0) do |a, b|\n a + b\n end\n max_sub_arr = i_arr if sum > biggest\n biggest = sum if sum > biggest \n end\n i_arr = []\n arr.shift\n end\n max_sub_arr\nend", "def okay_two_sum?(arr, target)\r\n arr = arr.sort #n log n\r\n i, j = 0, arr.length - 1 #2\r\n\r\n while j > i #n\r\n curr_sum = arr[i] + arr[j]\r\n if curr_sum > target\r\n j -= 1\r\n elsif curr_sum < target\r\n i += 1\r\n else\r\n return true\r\n end\r\n end\r\n false\r\nend", "def solution(a)\n # write your code in Ruby 2.2\n seen = {}\n\n a.each do |number|\n seen[number] = true\n end\n\n max = a.max\n\n for i in 1..(max + 1)\n return i unless seen[i]\n end\n\n 1\nend", "def solve_again_with_issues(array, sum)\n result = {}\n freq = {}\n count = 0\n\n array.each do |el|\n freq[el] ? freq[el] += 1 : freq[el] = 1\n end\n\n array.each do |el|\n if freq[sum - el] && !result[sum - el]\n count += freq[sum - el]\n end\n end\n count/2\nend", "def nth_ugly_number(n, a, b, c)\n# a-b, a-c, b-c, ab-c\n ab_lcm = a.lcm(b) # there are some a present in b\n ac_lcm = a.lcm(c) # there are some a present in c\n bc_lcm = b.lcm(c) # there are some b present in c\n abc_lcm = ab_lcm.lcm(c) # there are some a*b in c (because c is the biggest)\n \n # using set theory for binary search\n # a + b + c - ab_lcm - ac_lcm - bc_lcm + abc_lcm\n (1..2*10**9).bsearch{|x| x/a + x/b + x/c - x/ab_lcm - x/ac_lcm - x/bc_lcm + x/abc_lcm >= n}\nend", "def solve( n = 100_000_000 )\n # Assuming the largest valid sum of squares is S = a^2 + (a - 1)^2 < n,\n # first find a and set aside space to cache that many running sums.\n len = (1 + Math.sqrt( 2*n )) / 2\n sos = Array.new( len )\n\n seen = []\n sos[0] = 1\n\n (1...len).each do |i|\n # Precompute the ∑ i^2 for all i <= a. \n ds = i*i + 2*i + 1\n sos[i] = sos[i - 1] + ds\n\n seen << sos[i] if sos[i].palindrome?\n\n # Most of the sum of square values will exceed n, so subtract lower sums\n # to check shorter runs.\n (i - 2).downto( 0 ) do |j|\n diff = sos[i] - sos[j]\n break unless diff < n\n\n # Update our total if the shorter run a[j] + a[j + 1] + ... + a[i] is\n # a palindrome.\n seen << diff if diff.palindrome?\n end\n end\n\n seen.uniq.reduce( :+ )\n end", "def best_two_sum?(arr, target)\n fastest = {}\n arr.each_with_index {|ele, i| fastest[ele] = i }\n arr.each_with_index do |ele, i|\n return true if fastest.has_key?(target - ele) && fastest[target - ele] != i\n end\n false\nend", "def solve2( n = 150_000_000 )\n # Brute force.\n sum = 10\n i = 20\n\n while i < n\n if 0 != i % 3\n i2 = i*i\n\n # Must verify that the primes are consecutive (i.e. there aren't any\n # primes hiding between entries).\n if (i2 + 1).miller_rabin? &&\n (i2 + 3).miller_rabin? &&\n (i2 + 7).miller_rabin? &&\n (i2 + 9).miller_rabin? &&\n !(i2 + 11).miller_rabin? &&\n (i2 + 13).miller_rabin? &&\n !(i2 + 17).miller_rabin? &&\n !(i2 + 19).miller_rabin? &&\n !(i2 + 21).miller_rabin? &&\n !(i2 + 23).miller_rabin? &&\n (i2 + 27).miller_rabin?\n \n sum += i\n i += 315410\n end\n end\n\n # From observation that 10 | a_n in similar sequences.\n i += 10\n end\n\n sum\n end", "def fds(n)\n\n # arr = []\n # (n + 1).times.each{|e| arr << e if e > 0}\n # arr.flat_map.reduce(:*)\n # arr.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n (1..n).to_a.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n\nend", "def efficient_contiguous_subsum(list)\n current_sum = list[0] #0\n largest_sum = list[0] #5\n # debugger\n (1...list.length).each do |i| \n if current_sum + list[i] > 0 \n current_sum += list[i] \n largest_sum = current_sum if current_sum > largest_sum\n else \n current_sum = 0\n end \n end \n largest_sum\nend", "def solution(a)\n n = a.size\n starting = Array.new(n, 0)\n ending = Array.new(n, 0)\n\n (1..n - 2).each {|i| starting[i] = [starting[i - 1] + a[i], 0].max}\n (1..n - 2).reverse_each {|i| ending[i] = [ending[i + 1] + a[i], 0].max}\n\n sum = 0\n (1..n - 2).each {|i| sum = [sum, starting[i - 1] + ending[i + 1]].max}\n sum\nend", "def okay_two_sum?(arr, target_sum) # worst case O(N^2), average case O(n log n)\n sorted = arr.sort\n\n arr2 = []\n sorted.each do |num|\n arr2 << target_sum - num\n end\n\n arr2.each_with_index do |num, i| # O(n log n)\n result = sorted.bsearch { |x| x == num }\n if sorted.index(num) == i\n next\n end\n return true if result\n end\n\n false\nend", "def two_sum?(array, target)\n #O(n)\n hash = Hash.new(0)\n i = 1\n array.each do |ele|\n hash[ele] = i \n i += 1\n end\n hash.each_key do |k|\n return true if hash.has_key?(target - k) && hash[k] != hash[target - k]\n end\n false \nend", "def largest_contiguous_subsum2(list)\n # O(N) ==> Time\n # O(1) ==> Space\n largest = list.first\n curr = list.first\n\n len = list.length\n (1...len).each do |i|\n curr = 0 if curr < 0 \n curr += list[i]\n largest = curr if curr > largest\n end\n largest\nend", "def largest_contiguous_subsum(list) # O(n^2)\n array = []\n list.each_with_index do |ele1, i1| # O(n^2)\n (i1...list.length).each do |i2|\n array << list[i1..i2]\n end\n end\n\n max_sum = array.first.sum\n array[1..-1].each do |subarr| # O(n^2)\n sum = subarr.sum\n if sum > max_sum\n max_sum = sum\n end\n end\n\n max_sum\n\nend", "def third_anagram?(str1, str2)\n beginning_time = Time.now\n str1.split(\"\").sort == str2.split(\"\").sort #O(nlogn)\n \"Time complexity of first_anagram: #{(Time.now - beginning_time)}\"\nend", "def hash_two_sum(arr,target_sum)\n #creates a new hash with each element that is satisfying the target_sum\n hash = Hash.new(0) #{|h,k| h[k] = []}\n (0...arr.length).each { |i| hash[i] = arr[i]} #O(n)\nend", "def solve( n = 1_000_000 )\n # Compute the sum of all factors for each number less than n.\n s = n.factorsum_sieve\n longest = []\n\n # For each value, count the chain links.\n (2...n).each do |x|\n cur, chain = x, []\n\n # Follow the chain until the sum exceeds the limit, or until we see a\n # value more than once.\n begin\n chain << cur\n cur = s[cur]\n end while cur < n && !chain.include?( cur )\n\n # If we stopped because we saw the starting value again, it's a chain\n # satisfying our criteria. Keep track of the longest one seen so far.\n longest = chain if cur == x && chain.length > longest.length \n end\n\n longest[0]\n end", "def problem_57\n ret,n,d = 0,1,1\n 1000.times do |i|\n n,d = (n+2*d),(n+d)\n ret += 1 if n.to_s.length > d.to_s.length\n end\n ret\nend", "def canBeSum(n, array, cache)\n\ti = 0\n\twhile array[i] <= n / 2\n\t\tif cache[n-array[i]] # array.include?(n-array[i]) is OK, but very slow\n\t\t\treturn true\n\t\tend\n\n\t\ti += 1\n\tend\n\n\treturn false\nend", "def sum_to_n? arr, n\n #arr.product(arr).any? {|c| sum(c) == n && c[0] != c[1] } ----1.3\n arr = arr.sort\n low = 0\n high = arr.length - 1\n while low < high\n if arr[low] + arr[high] == n\n return true\n end\n arr[low] + arr[high] < n ? low += 1 : high -= 1 \n end\n return false\nend", "def better_subsum(arr) # o(n)\n largest = 0 \n sum = 0 \n i = 0 \n j = 0\n\n while i != arr.length-1\n largest += arr[j]\n sum = largest if largest > sum \n if j == arr.length-1 \n i+=1 \n j = i \n largest = 0 \n else\n j+=1\n end \n end \n sum \n end", "def my_min_2(nums) # O(n)\n smallest = 0\n nums.each do |num|\n smallest = num if num < smallest\n end\n smallest\nend", "def three_sum(nums)\n n = nums.length\n result = []\n for i in 0...n-2\n req_sum = 0\n hsh = Hash.new\n curr_sum = req_sum - nums[i]\n \n for j in (i+1)...n\n num = curr_sum - nums[j]\n if hsh[num]\n elements = [nums[i], num, nums[j]].sort\n result << elements unless result.include?(elements)\n end\n hsh[nums[j]] = true\n end \n end\n result\nend", "def bad_two_sum?(arr, target)\n arr.each_with_index do |num1, idx1| #O(n)\n arr.each_with_index do |num2, idx2| #O(n)\n return true if idx2 > idx1 && num1 + num2 == target #O(1)\n end\n end\n false\nend", "def linear_search_complexity(n, file=nil)\n if file\n file.puts(\"#{n},#{n}\")\n else\n puts(\"worst case for #{n} elements: #{n}\")\n end\n \nend", "def solution(a)\n len = a.size\n unique = {}\n i = 0\n while i < len\n item = a[i]\n if unique.has_key?(item)\n unique[item] += 1\n else\n unique[item] = 1\n end\n i += 1\n end\n pairs = 0\n unique.each do |key,count|\n (1...count).step {|n| pairs += n }\n end\n return pairs > 1_000_000_000 ? 1_000_000_000 : pairs\nend", "def okay_two_sum(arr, target)\n #O(n)\n arr.sort!\n i = 0\n j = arr.length - 1\n while i < j\n sum = arr[i] + arr[j]\n return true if sum == target\n if sum < target\n i += 1\n else\n j -= 1\n end\n end\n false\nend", "def corgi_golden_age(arr)\n\tmax_subset_sum = 0\n\tmax_i = 0\n\tmax_j = 0\n\tsum = 0\n\ti = 0\n\tj=i+1\n\twhile i < arr.length\n\t\twhile j < arr.length\n\t\t\tsum = arr[i]+arr[j]\n\t\t\tif sum > max_subset_sum\n\t\t\t\tmax_subset_sum = sum\n\t\t\t\tmax_i = i\n\t\t\t\tmax_j = j\n\t\t\tend\n\t\t\tj+=1\n\t\tend\n\t\ti+=1\n\tend\n\treturn [max_i, max_j]\n\nend", "def solution(a)\n counter = Hash.new(0)\n a.each do |elem|\n counter[elem] += 1\n end\n\n (1..a.size).each do |number|\n return 0 if counter[number] != 1\n end\n\n 1\nend", "def my_min1(arr)\n arr.each do |el1| #O(n)\n if arr.all? {|el2| el1 <= el2 } #O(n + 1)\n return el1\n end\n end \nend", "def ideal_numbers(n)\n # perfects = []\n # factors = proper_factors(n)\n\n # while perfects.length <= n \n # factors.each do |factor|\n # sum = aliquot_sum(n)\n \n # if factor == perfect_number?(factor)\n # perfects << factor\n # end \n # end \n # end\n\n perfect_nums = []\n\n i = 1\n while perfect_nums.length < n \n perfect_nums << i if perfect_number?(i)\n i += 1\n end \n\n perfect_nums\nend", "def calculate_optimal_k\n k=0\n @k_optimal = Array.new(@size)\n (3..@size).each{|n|\n k+=1 while(cost(n,k)<cost(n,k+1))\n @k_optimal[n]=k\n }\n end", "def solution(a)\n a.sort!\n a.each_with_index do |element, index|\n return 0 if element != index + 1\n end\n 1\nend", "def isSumOfTwoAbundantNumbers n\n\n # we'll cycle over all abundant numbers less than n / 2\n if n / 2 < @@listOfAbundants.first\n return false\n end\n\n if @@listOfAbundants.last < n / 2\n for i in ((@@listOfAbundants.last + 1)..n)\n if isAbundant i\n @@listOfAbundants.push i\n end\n end\n end\n\n for a in @@listOfAbundants\n if a > n /2 \n return false\n end\n \n pair = n - a\n if @@listOfAbundants.include? pair\n return true\n end\n end\n\nend", "def solve( n = 100 )\n n.partition_sieve[-1] - 1\n end", "def f(n)\n # your code here\n result = []\n possibles = (2..n).flat_map{ |s| [*2..n].combination(s).map(&:join).to_a }\n p possibles\n possibles.each do |i|\n x = 0\n temp_arr = []\n temp = i.split('').map { |j| j.to_i }\n p temp\n while x < temp.length do \n if i[x + 1] != i[x] + 1 || i[x + 1] == nil\n temp_arr << i[x]\n end\n x += 1\n end\n result << temp_arr\n end\n result.length\nend", "def largest_contiguous_subsum1(list)\n greatest_sum = -1.0/0.0\n (0...list.length).each do |i|\n (i...list.length).each do |j|\n greatest_sum = list[i..j].sum if greatest_sum < list[i..j].sum\n end\n end\n greatest_sum\nend", "def euler29(n)\n terms = []\n 2.upto(n) do |i|\n 2.upto(n) do |j|\n if terms.include?(i ** j) == false\n terms << i ** j\n end\n end\n end\n \n terms.length\nend", "def sturges\n len = array.length\n return 1.0 if len == 0\n\n # return (long)(ceil(Math.log2(n)) + 1);\n return Math.log2(len).ceil + 1\n end", "def solution(a)\n # write your code in Ruby 2.2\n num_of_elements=a.length\n num_of_zeros=0\n tot_num_car_pairs=0\n a.each do |element|\n if element == 0\n num_of_zeros+=1\n else\n tot_num_car_pairs+=num_of_zeros\n end\n end\n return tot_num_car_pairs>1_000_000_000?-1:tot_num_car_pairs\nend", "def solution(a)\r\n # write your code in Ruby 2.2\r\n #trangular\r\n # a[0] = 10\r\n # a[2] = 5\r\n # a[4] = 8\r\n # 10 + 5 > 8\r\n # 5 + 8 > 10\r\n #8 + 10 > 5\r\n \r\n \r\n l=a.count\r\n \r\n i=0\r\n while(i<l) do\r\n j=i+1\r\n while(j<l) do\r\n k=j+1\r\n \r\n \r\n while(k<l) do\r\n if((a[i] + a[j] > a[k]) && (a[j] +a[k] > a[i]) && (a[k] + a[i] >a[j]))\r\n return 1\r\n end\r\n k+=1 \r\n end \r\n \r\n j+=1 \r\n end\r\n i+=1\r\n end\r\n \r\n return 0\r\n \r\nend", "def sorted_squared_array_n_nlogn(values)\n values.collect!{|val| val*val}\n merge_sort(values)\nend", "def three_sum_fast(arr)\n arr = merge_sort(arr)\n count = 0\n\n (0..arr.length - 1).each { |i|\n (i + 1..arr.length - 1).each { |j|\n if bin_search(arr, -arr[i] - arr[j]) > j\n count += 1\n end\n }\n }\n count\nend", "def solution_slow_2(n, p, q)\n sieve = sieve_of_erathosteneses(n)\n # puts \"sieve:#{sieve}\"\n semi = semiprimes(n, sieve)\n # puts \"sp:#{semi}\"\n prefix = [0,0,0,0,1]\n 5.upto(n) do |x|\n if semi.include? x \n prefix << prefix.last + 1\n else\n prefix << prefix.last\n end\n end\n # puts \"prefix:#{prefix}\"\n\n queries = [p,q].transpose\n\n\n res = queries.map do |query|\n prefix[query.last] - prefix[query.first - 1]\n end\n\n # puts \"res:#{res}\"\n\n res\n end", "def solution(a)\n # write your code in Ruby 2.2\n binding.pry\n trips = Hash.new {|h,k| h[k]=0}\n start = 0\n ending = 0\n min = nil\n a.each_with_index do |trip,i|\n ending = i\n\n if trips[trip] == 0\n min = ending - start\n end\n trips[trip] += 1\n\n while start < ending\n break if trips[a[start]] - 1 == 0\n trips[start] -= 1\n start += 1\n min = ending - start if ending-start < min\n end\n end\n min\nend", "def largest_contiguous_subsum(list)\n new_arr = []\n\n (0...list.length).each do |idx1| #O(n)\n (0...list.length).each do |idx2| #O(n)\n if idx2 >= idx1 #O(1)\n new_arr << list[idx1..idx2].sum #O(1)\n end \n end \n \n end \n \n return new_arr.max #O(n)\nend", "def okay_two_sum?(arr, target_sum) #bsearch = log n => n * log n\n sorted_arr = arr.sort #.sort => n * log n\n sorted_arr.each_index do |i|\n j = sorted_arr.bsearch_index { |n| n + sorted_arr[i] == target_sum }\n return true if !j.nil? && j != i\n end\n false\nend", "def solution(a)\n stack = []\n\n a.each_with_index do |n, i|\n if stack.empty?\n stack << [i, n]\n next\n end\n\n last_value = stack.last[1]\n\n if n == last_value\n stack << [i, n]\n else\n stack.pop\n end\n end\n\n return -1 if stack.empty?\n\n i, cd = stack.last\n\n count = a.inject(0) do |acc, n|\n cd == n ? acc + 1 : acc\n end\n\n count > a.length / 2 ? i : -1\nend", "def largest_contiguous_subsum2(list)\n result = list.first\n sum = list.first\n\n list.each_with_index do |n, i|\n next if i == 0\n\n sum = 0 if sum < 0\n\n sum += n\n\n result = sum if sum > result\n end\n\n result\nend", "def solution(k, m, a)\n from = a.max\n to = a.inject(:+)\n min = from\n while from <= to\n mid = (from + to) / 2\n if check(mid, k, m, a)\n min = mid\n to = mid - 1\n else\n from = mid + 1\n end\n end\n min\nend", "def solution(x, a)\n perm = (1..x).to_a\n return -1 unless (perm - a).empty?\n a.index(a.uniq.last)\nend", "def sub_sum(list)\n array = []\n (0...list.length).each do |idx1|\n (idx1...list.length).each do |idx2|\n array << list[idx1..idx2] #O(n)\n end\n end \n array.map {|sub| sub.length > 1 ? sub.sum : sub.first}.max\nend" ]

[ "0.6938055", "0.68753237", "0.6814082", "0.6536662", "0.64856493", "0.64549804", "0.6440837", "0.64024115", "0.63703656", "0.63429147", "0.6340236", "0.6323656", "0.627925", "0.6276311", "0.6235396", "0.6218242", "0.62176555", "0.6195478", "0.6183377", "0.6171723", "0.61679083", "0.6145006", "0.613089", "0.6130179", "0.61241996", "0.6120434", "0.6099735", "0.6092857", "0.6089517", "0.60859984", "0.6061303", "0.60578036", "0.6051189", "0.6040891", "0.60320556", "0.60110366", "0.6007281", "0.60043174", "0.60019666", "0.6000844", "0.5998646", "0.5992272", "0.5991036", "0.59890366", "0.5979947", "0.59730536", "0.5970905", "0.59684944", "0.59654474", "0.5954987", "0.595229", "0.594562", "0.5940412", "0.59402364", "0.5938821", "0.59322274", "0.59302765", "0.5925743", "0.5924491", "0.591583", "0.5908932", "0.59073067", "0.59008664", "0.5892756", "0.58918095", "0.5890688", "0.5873275", "0.5871743", "0.58705723", "0.5870571", "0.5869742", "0.5869365", "0.5863181", "0.58620393", "0.58570695", "0.58565736", "0.58543724", "0.58468217", "0.58438396", "0.58432925", "0.58382267", "0.583766", "0.5835813", "0.58329004", "0.5831432", "0.58307016", "0.5829568", "0.58285344", "0.5828289", "0.5827517", "0.5824508", "0.582283", "0.58204764", "0.5820224", "0.581902", "0.58153945", "0.58014953", "0.5801462", "0.5800333", "0.57956564", "0.57900006" ]

[ "def find_dublicate(array)\n sum = 1000000*(1000000+1)/2 # (n*(n+1))/2\n array.each do |el| \n sum -= el\n end\n return sum\nend", "def solution(a)\r\n n=a.size\r\n i=1\r\n for k in a.sort do\r\n\tif k!=i \r\n\t then \r\n\t return 0\r\n\t break;\r\n\tend\r\n i+=1;\r\n end\t\r\n return 1 if a.inject(:+) ==n*(n+1)/2;\r\nend", "def my_min_2(list)\r\n min = 0 # O(1)\r\n \r\n list.each do |ele| # O(n) \r\n if ele < min # O(1)\r\n min = ele # O(1)\r\n end\r\n end\r\n min # O(1) \r\nend", "def largest_subsum(list)\n max = list[0] # O(1)\n current_sum = list[0] # O(1)\n\n (1...list.length).each do |i| # O(n)\n # debugger\n if current_sum < 0 # O(1)\n current_sum = 0 # O(1)\n end \n current_sum += list[i] # O(1)\n if current_sum > max # O(1)\n max = current_sum # O(1)\n end\n end\n\n max # O(1)\n\nend", "def sorted_squares(nums)\n # This takes O(n)\n nums.map! { |num| num**2 }\n # This can take Ο(n logn)\n bubble_sort(nums)\nend", "def three_sum_fastest(arr)\n count = 0\n\n (0..arr.length - 2).each { |i|\n set = Set.new\n\n (i + 1..arr.length - 1).each { |j|\n if set.include?(-arr[i] - arr[j])\n count += 1\n end\n\n set.add(arr[j])\n }\n }\n count\nend", "def solution(a)\n n = a.size\n passing_cars = 0\n\n suffix_sums = Array.new(n + 1, 0)\n\n a.reverse.each_with_index do |elem, i|\n suffix_sums[i + 1] = suffix_sums[i] + elem\n end\n suffix_sums.reverse!\n\n a.each_with_index do |car, i|\n if car == 0\n passing_cars += suffix_sums[i]\n end\n end\n\n passing_cars > 1_000_000_000 ? -1 : passing_cars\nend", "def largest_contiguous_subsum_2(list)# [2, 3, -6, 7, -6, 7]\n largest_num = list[0]#2 O(1)\n running_sum = list[0]#2 - 5 after entering loop. O(1)\n\n (1...list.length).each do |i| #O(n) \n running_sum = 0 if running_sum < 0 #O(1)\n running_sum += list[i] #O(1)\n largest_num = running_sum if running_sum > largest_num #O(1)\n end\n return largest_num #O(1)\nend", "def my_min(list) \n\n list.each_with_index do |ele, i| #O(n)\n compare_arr = list[0...i] + list[i+1..-1] # O(2n) \n return ele if compare_arr.all? { |ele2| ele < ele2 } #O(n)\n end\n\n #time complexity = O(n^2) + O(2n)\n\nend", "def solution(a)\n # In production environment this will be my solution:\n # a.uniq.size\n #\n # But since this is a coding challenge, my assumption\n # is that you're looking for a by-hand O(N*logN) solution\n\n return 0 if a.empty?\n\n n = a.size\n ary = a.sort\n uniques = 1\n (1...n).each do |i|\n uniques += 1 if ary[i] != ary[i - 1]\n end\n uniques\nend", "def sub_sum(list)\n sub_arr = []\n (0...list.length).each do |i| #O(n)\n (i...list.length).each do |j| #O(n)\n sub_arr << list[i..j] if i <= j\n end\n end\n largest_continuous_sub_sum1(sub_arr)\nend", "def solution(m, a)\n n = a.count\n result = 0\n front = 0\n numbers = Array.new(m + 1, false)\n n.times { |back|\n while front < n and not numbers[a[front] - 1]\n numbers[a[front] - 1] = true\n front += 1\n result += front - back\n return 1_000_000_000 if result >= 1_000_000_000\n end\n numbers[a[back] - 1] = false\n }\n result\nend", "def my_min_2(arr)\n\n smallest_value = arr[0] # O(1)\n\n arr.each do |ele1| # [ 0, 3, 5, 4, -5, 10, 1, 90 ] O(n)\n smallest_value = ele1 if ele1 <= smallest_value #O(1)\n end\n\n smallest_value #O(1)\n\nend", "def solution(a)\n n = a.size\n a.sort!\n\n count = 0\n for i in 0...n-2 do\n k = i+2\n for j in i+1...n-1 do\n while k < n and a[i] + a[j] > a[k] do\n k += 1\n end\n count += k - j - 1\n end\n end\n count\nend", "def find_duplicate(nums)\n if !nums or nums.size == 0\n return nil\n else\n fast = nums[ 0 ]\n slow = nums[ 0 ]\n while true\n fast = nums[ fast ]\n fast = nums[ fast ]\n slow = nums[ slow ]\n if fast == slow\n new_node = nums[ 0 ]\n while new_node != slow\n new_node = nums[ new_node ]\n slow = nums[ slow ]\n end\n return slow\n end\n end\n end\nend", "def hash_two_sum(arr,target_sum)\n #creates a new hash with each element that is satisfying the target_sum\n hash = Hash.new(0) #{|h,k| h[k] = []}\n (0...arr.length).each { |i| hash[i] = arr[i]} #O(n)\nend", "def find_duplicate_space(nums)\n # sort nums first (lgn), then check for dups by iterate over (n)\n last_seen = 0\n nums.sort!.each do |num|\n return num if last_seen == num\n last_seen = num\n end\nend", "def okay_two_sum?(arr, target)\n arr = arr.sort #n log n\n (0...arr.length).each do |i| #n\n search = bsearch(arr, target-arr[i]) # log n\n return true unless search.nil?\n end #n log n\n false\nend", "def equal(arr)\n size = arr.size\n hash = Hash.new{|h,k| h[k] = []}\n (0...size).each do |i|\n (i + 1...size - 1).each do |j|\n sum = arr[i] + arr[j]\n if hash.has_key?(sum)\n values = hash[sum]\n values << i\n values << j\n return values\n else\n hash[sum] = [i, j]\n end\n end\n end\nend", "def two_sum?(array, target)\n #O(n)\n hash = Hash.new(0)\n i = 1\n array.each do |ele|\n hash[ele] = i \n i += 1\n end\n hash.each_key do |k|\n return true if hash.has_key?(target - k) && hash[k] != hash[target - k]\n end\n false \nend", "def findDiffSquares(n)\n sum = 0\n (1..n).each { |i|\n (1..n).each { |j|\n sum += i*j unless i == j\n }\n }\n sum\nend", "def solution(a)\n n = a.size\n return 0 unless n > 2\n a.sort!\n\n (2..n - 1).each do |i|\n return 1 if a[i - 2] + a[i - 1] > a[i]\n end\n\n return 0\nend", "def solution(a)\n counter = Hash.new(0)\n a.each do |elem|\n counter[elem] += 1\n end\n\n (1..a.size).each do |number|\n return 0 if counter[number] != 1\n end\n\n 1\nend", "def largest_contiguous_subsum(arr) #BigO of O(n)\n max = 0 \n current_sum = 0\n arr.each_with_index do |el,idx|\n if current_sum + el >= el \n current_sum += el \n else \n current_sum = el \n end \n max = current_sum if current_sum > max \n end \n max\nend", "def my_min_2(array)#O(n)\n array.inject do |acc, ele|#O(n)\n if acc < ele\n acc\n else\n ele\n end\n end\nend", "def efficient_contiguous_subsum(list)\n current_sum = list[0] #0\n largest_sum = list[0] #5\n # debugger\n (1...list.length).each do |i| \n if current_sum + list[i] > 0 \n current_sum += list[i] \n largest_sum = current_sum if current_sum > largest_sum\n else \n current_sum = 0\n end \n end \n largest_sum\nend", "def seesaw?(arr)\n left_sum = 0\n arr.each_index do |i| #O(n)\n if i > 0\n left_sum = arr[0...i].reduce(:+) #O(n)\n end\n if i < arr.size-1\n right_sum = arr[i+1..-1].reduce(:+); #O(n)\n else\n right_sum = 0\n end\n if left_sum == right_sum\n return true\n end\n end\n return false\nend", "def solution(a)\n len = a.size\n unique = {}\n i = 0\n while i < len\n item = a[i]\n if unique.has_key?(item)\n unique[item] += 1\n else\n unique[item] = 1\n end\n i += 1\n end\n pairs = 0\n unique.each do |key,count|\n (1...count).step {|n| pairs += n }\n end\n return pairs > 1_000_000_000 ? 1_000_000_000 : pairs\nend", "def two_sum?(arr, target_sum) # O(N)\n hash = Hash.new(0)\n count = Hash.new(0)\n\n arr.each do |num|\n hash[num] = target_sum - num\n count[num] += 1\n end\n\n hash.each do |key, value|\n if hash.has_key?(value) \n if key == value \n if count[value] > 1\n return true\n end\n else\n return true\n end\n end\n end\n\n false\nend", "def two_sum(arr) #o(ns)\n set = Set.new\n arr.each{|el| set << el}\n arr.select{|el| set.include?(-1 * el)}\nend", "def solution(a)\n # write your code in Ruby 2.2\n num_of_elements=a.length\n num_of_zeros=0\n tot_num_car_pairs=0\n a.each do |element|\n if element == 0\n num_of_zeros+=1\n else\n tot_num_car_pairs+=num_of_zeros\n end\n end\n return tot_num_car_pairs>1_000_000_000?-1:tot_num_car_pairs\nend", "def fibonacci(n)\n return fib_helper([0, 1], 2, n)\n # if you'd like to test what i THINK is an O(1) space complexity solution.....\n # i did run this through the tests and it SHOULD work:\n # return faster_fib_helper([0, 1], 2, n)\nend", "def largest_contiguous_subsum1(list)\n p Time.now\n sub_arrays = []\n list.each_index do |i|\n list.each_index do |j|\n next if j < i\n sub_arrays << list[i..j]\n end\n end\n sub_arrays.map{|numbers| numbers.inject(:+)}.max\n p Time.now\nend", "def stones(n, a, b)\n ar=[0]\n (n-1).times do |val|\n tmp=[]\n ar.each do |v|\n tmp << v+a if !tmp.include?(v+a)\n tmp << v+b if !tmp.include?(v+b)\n end\n ar=tmp\n end\n ar.sort\nend", "def find_amicables(n)\n pairs = []\n sum = 0\n for i in 0..n do \n next if pairs.include? i\n d = sum_proper_divisors(i)\n next if d == i\n p = sum_proper_divisors(d)\n if p == i \n pairs << d\n pairs << i\n sum += d + i\n end\n end\n return sum\nend", "def third_anagram?(str1, str2)\n beginning_time = Time.now\n str1.split(\"\").sort == str2.split(\"\").sort #O(nlogn)\n \"Time complexity of first_anagram: #{(Time.now - beginning_time)}\"\nend", "def better_sum1(arr, target) # this one is going to return true or false\n pairs = Set.new\n\n arr.each do |ele|\n if pairs.include?(ele)\n return true\n else\n pairs << target - ele\n end\n end\n false\nend", "def largest_contiguous_subsum2(list)\n # O(N) ==> Time\n # O(1) ==> Space\n largest = list.first\n curr = list.first\n\n len = list.length\n (1...len).each do |i|\n curr = 0 if curr < 0 \n curr += list[i]\n largest = curr if curr > largest\n end\n largest\nend", "def largest_contiguous_sub_sum2(arr)\n #one varable tracks largest sum\n #one variable tracks current sum\n #O(n) + O(1)\n # list = [2, 3, -6, 7, -6, 7]\n\n # largest_sum= arr.first\n\n # i = 0\n # arr_end = true\n\n # while arr_end\n # current_sum = arr[i]\n # if arr[i+1] == nil\n # arr_end = false\n # puts \"This is current sum: #{current_sum}\"\n # else\n # if current_sum > largest_sum\n # current_sum += arr[i+1]\n # largest_sum = current_sum\n # end\n # end\n # if i < arr.length\n # arr_end = true\n # i += 1\n # end\n # end\n # largest_sum\n \n\n\n # arr.each_with_index do |ele, idx|\n # if ele > largest_sum\n # largest_sum = ele\n # end\n\n # i = idx\n # sum = ele\n # while i < arr.length - 1\n # if sum <= sum + arr[i+1]\n # largest_sum = sum + arr[i+1]\n # end\n # sum = sum + arr[i+1]\n # i+=1\n # end\n # end\n # largest_sum\n\nend", "def find3(a, X)\n # scan through array\n # build hash storing complement in each key\n complements = {}\n a.each_with_index do |val, ind|\n if complements[X - val]\n complements[X - val].push(ind)\n else\n complements[X - val] = [ind]\n end\n end\n\n # scan through the array again\n # get complement\n # for each value scan the remainder of the arrray\n # for a value such taht a + b = the complement\n\n # for each character we have built a dictionary such that, we can find\n # x = a + complement\n\n # [1, 2, 3]\n # 1 + 2 = 3\n # 1 + 3 = 4 =>\n\n # for each value in the array (a) look at all following values (b) and see if a + b\n # is in the dictionary, if it is, check that their indices do not collide with the index\n # stored at dict(a+b)\n\n a.each_with_index do |va, i|\n a.each_with_index do |vb, j|\n break if i == j\n\n complement = va + vb\n indices = complements[complement]\n\n indices.each do |z|\n # every index is unique\n return [i, j, z] unless z == i || z == j\n end\n end\n end\n\n return nil\nend", "def three_sum(nums)\n n = nums.length\n result = []\n for i in 0...n-2\n req_sum = 0\n hsh = Hash.new\n curr_sum = req_sum - nums[i]\n \n for j in (i+1)...n\n num = curr_sum - nums[j]\n if hsh[num]\n elements = [nums[i], num, nums[j]].sort\n result << elements unless result.include?(elements)\n end\n hsh[nums[j]] = true\n end \n end\n result\nend", "def three_sum_fast(arr)\n arr = merge_sort(arr)\n count = 0\n\n (0..arr.length - 1).each { |i|\n (i + 1..arr.length - 1).each { |j|\n if bin_search(arr, -arr[i] - arr[j]) > j\n count += 1\n end\n }\n }\n count\nend", "def sum_upon_sums(array)\n # Step 0: initialize variables => O(1)\n max = -1\n sum = 0\n\n # Step 1: Get Max and Sum => O(n)\n array.each do |num|\n max = num if num >= max\n sum += num\n end\n\n # Step 2: Get summation => O(1)\n summation = max * (max + 1) / 2\n\n # Step 3: Return Missing value by subtracting summation and sum => O(1)\n summation - sum\nend", "def main\n\n sum = 0\n\n (0..999).each do |i|\n sum += check(i)\n end\n\n puts \"Total - O(n) #{sum}\"\n\n # Needed to refresh following: https://en.wikipedia.org/wiki/Arithmetic_progression\n sum2 = sum_multiples(3, 1000) + sum_multiples(5, 1000) - sum_multiples(15, 1000)\n\n # Refreshed Big O too : http://stackoverflow.com/questions/487258/plain-english-explanation-of-big-o \n puts \"Total - O(1) #{sum2}\"\n\nend", "def largest_contiguous_subsum_1(list) \n subs = [] #O(1)\n (0...list.length).each do |start_num| #O(n)\n (start_num...list.length).each do |end_num| #O(n)\n subs << list[start_num..end_num] #O(n)\n end\n end\n subs_sum = [] #O(1)\n subs.each do |sub| #O(n**2)\n sub_sum = 0 #O(1)\n sub.each {|s| sub_sum += s} #O(n)\n subs_sum << sub_sum #O(1)\n end\n subs_sum.inject do |acc,el| #O(n)\n if acc > el #O(1)\n acc #O(1)\n else\n el #O(1)\n end\n end\n end", "def running_time(array)\n cnt = 0\n (1...(array.length)).each do |x|\n y = x\n while y.positive?\n break unless array[y - 1] > array[y]\n\n temp_num = array[y]\n array[y] = array[y - 1]\n array[y - 1] = temp_num\n cnt += 1\n y -= 1\n end\n end\n cnt\nend", "def two_sum_v3?(arr, target) \n hash = Hash.new\n arr.each { |ele| hash[ele] = ele } #o(n)\n arr.each do |ele| #o(n)\n search_value = target - ele\n return true if !hash[search_value].nil? && hash[search_value] != ele\n end\n false\nend", "def naive_algorithm(arr)\n\tproduct = 0\n\tarr.each do |i|\n\t arr.each do |j|\n\t \tp = arr[i] * arr[j]\n\t \tproduct = p if product < p\n\t end\t\n\tend\t\t\n\tproduct\nend", "def remove_duplicates(nums)\n record_leng = 0\n uniq_arr = nums.uniq\n uniq_arr.each do |i|\n record_leng += 1 if count_great_two?(nums, i)\n end\n return (record_leng + uniq_arr.size)\nend", "def solution(a)\n a.uniq.count\nend", "def naive(array)\n max = -10000\n for i in (0..array.length - 1)\n for j in (i..array.length - 1)\n total = array[i..j].inject { |m,k| m + k }\n max = total if total > max\n end\n end\n max\nend", "def intersect nums1, nums2\n result = []\n return result if nums1.size == 0 or nums2.size == 0\n\n counter_cache = {}\n counter_cache = nums1.inject({}) { |result, n|\n result[n] ||= 0\n result[n] += 1\n result\n }\n\n nums2.each do |n|\n if counter_cache[n] and counter_cache[n] > 0\n result << n\n counter_cache[n] -= 1\n end\n end\n result\nend", "def fifth_anagram?(word1, word2) # O(n)\n \n p \"Running fifth_anagram...\" \n\n start = Time.now\n \n hash1 = Hash.new(0)\n # hash2 = Hash.new(0)\n\n word1.each_char {|char| hash1[char] += 1}\n word2.each_char {|char| hash1[char] += 1}\n\n hash1.values.all? {|v| v.even?}\n\n\n # puts \"Took #{Time.now - start} seconds\"\n\n \nend", "def fds(n)\n\n # arr = []\n # (n + 1).times.each{|e| arr << e if e > 0}\n # arr.flat_map.reduce(:*)\n # arr.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n (1..n).to_a.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n\nend", "def my_min_2(nums) # O(n)\n smallest = 0\n nums.each do |num|\n smallest = num if num < smallest\n end\n smallest\nend", "def my_min2 # O(n) time complexity\n smallest = self.first\n self.each do |num|\n sleep(1)\n smallest = num if num < smallest \n end\n smallest\n end", "def solution(a)\r\n # write your code in Ruby 2.2\r\n \r\n arr =[]\r\n a.each_with_index{|el,i|\r\n \r\n if !arr.index(el) \r\n arr << el\r\n end\r\n \r\n }\r\n arr.count\r\nend", "def solution_slow_2(n, p, q)\n sieve = sieve_of_erathosteneses(n)\n # puts \"sieve:#{sieve}\"\n semi = semiprimes(n, sieve)\n # puts \"sp:#{semi}\"\n prefix = [0,0,0,0,1]\n 5.upto(n) do |x|\n if semi.include? x \n prefix << prefix.last + 1\n else\n prefix << prefix.last\n end\n end\n # puts \"prefix:#{prefix}\"\n\n queries = [p,q].transpose\n\n\n res = queries.map do |query|\n prefix[query.last] - prefix[query.first - 1]\n end\n\n # puts \"res:#{res}\"\n\n res\n end", "def two_sum?(arr, target_sum)\n hash = {}\n arr.each do |ele|\n diff = target_sum - ele\n return true if hash.has_key?(diff) # O(1), or constant time\n hash[ele] = 0\n end\n false\nend", "def amicable_numbers(n)\r\n numbers = Array.new\r\n 2.upto(n) do |x|\r\n y = d(x)\r\n if !numbers.include?(y)\r\n numbers.push(x,y) if d(y) == x && y != x\r\n end\r\n end\r\n return numbers\r\nend", "def lAS(n: 0)\n array = [1]\n puts \"#{array.inspect}\"\n previous = array.first\n new_array = []\n counter = 0\n \n n.times do\n previous = array.first\n counter = 0\n new_array = []\n \n array.each do |element|\n if(element == previous)\n counter = counter + 1\n else\n new_array << counter\n new_array << previous\n counter = 1\n previous = element\n end\n end\n \n new_array << counter\n new_array << previous\n array = new_array.dup\n puts \"#{array.inspect}\"\n end\nend", "def sub_sum_better(list)\n largest_sum = list.first\n\n #iterate over once.\n # as you iterate keep a tally of the sum.\n # indexing into an array is O(1)\n # [2, 3, -6, 7, -6, 7]\n\n sub_sum = 0\n list.each do |el|\n sub_sum += el\n largest_sum = sub_sum if sub_sum > largest_sum\n\n sub_sum = 0 if sub_sum < 0\n end\n\n largest_sum\nend", "def bad_two_sum?(arr, target)\n arr.each_with_index do |num1, idx1| #O(n)\n arr.each_with_index do |num2, idx2| #O(n)\n return true if idx2 > idx1 && num1 + num2 == target #O(1)\n end\n end\n false\nend", "def okay_two_sum?(arr, target)\n sorted = arr.sort # n log n => quicksort => is nlogn DOMINANT\n sorted.each_with_index do |num, i| # => O(n)\n # return true if sorted[i] + sorted[-1 - i] == target\n return true if sorted[i + 1 .. - 1].bsearch {|number| target - num <=> number} # => O(log(n))\n # ASK TA ABOUT BSEARCH\n # bsearch {|ele| pivot <=> ele}\n end\n false\nend", "def canBeSum(n, array, cache)\n\ti = 0\n\twhile array[i] <= n / 2\n\t\tif cache[n-array[i]] # array.include?(n-array[i]) is OK, but very slow\n\t\t\treturn true\n\t\tend\n\n\t\ti += 1\n\tend\n\n\treturn false\nend", "def better_subsum(arr) # o(n)\n largest = 0 \n sum = 0 \n i = 0 \n j = 0\n\n while i != arr.length-1\n largest += arr[j]\n sum = largest if largest > sum \n if j == arr.length-1 \n i+=1 \n j = i \n largest = 0 \n else\n j+=1\n end \n end \n sum \n end", "def solution(a)\n s= a.sort\n 0.step(s.size - 1).inject(0) do |result, x|\n z= x+2\n (x+1).step(s.size - 1).inject(result) do |acc, y|\n z+=1 while z < s.size && s[x] + s[y] > s[z]\n acc += z-y-1\n end\n end\nend", "def solution(a)\n return 1 if a.empty?\n a.sort!\n return 1 if a.first > 1\n return a.first + 1 if a.length <2\n (0..(a.length)).each do |index|\n return a[index] + 1 if a[index] + 1 != a[index + 1]\n end\n return a.last + 1\nend", "def solution(a)\n # write your code in Ruby 2.2\n n = a.length\n \n counter = Array.new(n+1, 0)\n \n a.each do |x|\n counter[x-1] += 1\n end\n \n return counter.index { |x| x == 0 } + 1\nend", "def solution(a)\n min_val = 10_000\n min_pos = 0\n \n sums = [0]\n for i in (0..a.count - 1) \n sums << sums.last + a[i] \n end\n for p in (0..a.count - 2)\n for q in (p + 1..[p + 2, a.count - 1].min)\n s = (sums[q + 1] - sums[p]).to_f / (q - p + 1)\n if s < min_val\n min_val = s\n min_pos = p\n end\n end\n end\n min_pos\nend", "def fast_hash_additive_find(arr, target)\n lookup_table = Hash.new\n\n arr.each do |element|\n return true if lookup_table[target - element]\n if lookup_table[element]\n lookup_table[element] += 1\n else\n lookup_table[element] = 1\n end\n end\n\n return false\n end", "def move_zeros(array)\n zero_count = 0\n # O(n)\n array.each do |num|\n\n zero_count += 1 if num == 0\n end\n\n # O(n)\n array = array.select { |num| num != 0 }\n \n # O(1)\n zero_count.times do\n array += [0]\n end\n\n array\nend", "def largest_cont_subsum_fast(list)\n # for constant size to be true, you cant create any variables\n # whose memory size depends on the size of the input\n curr_sum = list[0]\n largest_sum = list[0]\n\n # we know there are n^2 potential, so if we ever check all of them\n # it must be n^2\n\n # there must be a way to find the max without checking every subarray\n list[1..-1].each do |ele|\n # debugger\n if curr_sum > largest_sum\n largest_sum = curr_sum\n end\n\n if curr_sum < 0\n curr_sum = 0\n end\n\n curr_sum += ele\n\n end\n\n # debugger\n return [largest_sum, curr_sum].max\n\nend", "def my_min1(arr)\n arr.each do |el1| #O(n)\n if arr.all? {|el2| el1 <= el2 } #O(n + 1)\n return el1\n end\n end \nend", "def find_duplicates(a)\n len=a.length\n n=len-2\n xor= 0\n x,y=0,0 #variables to store duplicates\n \n #xor of all numbers from 1 to n\n for i in 1..n \n xor^=i\n end\n #xor of all array elements\n for i in 0...len \n xor^=a[i]\n end\n #Rightmost set bit\n set_bit_pos= xor & ~(xor-1)\n #Divinding array in two sets ,one with set bit at set_bit_pos and other with 0.\n for i in 0...len\n if (a[i] & set_bit_pos == 0)\n x^=a[i] # XOR of first-set(with 0 at set_bit_pos) in array\n else\n y^=a[i] # XOR of second-set(with 1 at set_bit_pos) in array\n end\n end\n \n for i in 0..n\n if (i & set_bit_pos == 0)\n x^=i # XOR of first-set(with 0 at set_bit_pos) in range\n else\n y^=i # XOR of second-set(with 1 at set_bit_pos) in range\n end\n end\n print \"#{x} #{y}\"\n\treturn\nend", "def second_anagram?(word_1, word_2) #O(n^2)\n matching_word = word_2.split(\"\")\n\n word_1.each_char do |ele|\n if matching_word.index(ele) #evaluating the conditional\n matching_word.delete_at(matching_word.index(ele)) #n many times, do this\n end\n end\n\n matching_word.empty? #constant O(1)\nend", "def my_min_2(arr) #O(N)\n min_num = arr.first\n \n arr.each { |num| min_num = num if num < min_num }\n \n min_num\n end", "def largest_contiguous_subsum_2(list)\n largest_sum = 0\n current_sum = 0\n\n list.each do |el|\n largest_sum = current_sum \n current_sum += el \n if current_sum < el \n current_sum = el \n end \n largest_sum = current_sum if largest_sum < current_sum\n end\n\n largest_sum\nend", "def solution(a)\n # write your code in Ruby 2.2\n seen = {}\n\n a.each do |number|\n seen[number] = true\n end\n\n max = a.max\n\n for i in 1..(max + 1)\n return i unless seen[i]\n end\n\n 1\nend", "def solution(a)\n accessed = Array.new(a.size + 1, nil)\n caterpillar_back = 0\n count = 0\n\n a.each_with_index do |x, caterpillar_front|\n if accessed[x] == nil\n accessed[x] = caterpillar_front\n else\n new_caterpillar_back = accessed[x] + 1\n first_part_size = caterpillar_front - caterpillar_back\n second_part_size = caterpillar_front - new_caterpillar_back\n count += first_part_size * (first_part_size + 1) / 2\n count -= (second_part_size) * (second_part_size + 1) / 2\n caterpillar_back.upto(new_caterpillar_back - 1) { |n| accessed[a[n]] = nil}\n accessed[x] = caterpillar_front\n caterpillar_back = new_caterpillar_back\n end\n end\n\n remaining_size = a.size - caterpillar_back\n count += (remaining_size) * (remaining_size + 1) / 2\n end", "def solution(a)\n a.sort!\n a.each_with_index do |element, index|\n return 0 if element != index + 1\n end\n 1\nend", "def two_sum?(arr, target)\r\n hash = {}\r\n arr.each_with_index do |ele, i| #n\r\n hash[i] = ele\r\n end\r\n arr.each_with_index do |ele, i| #n \r\n value = target - ele\r\n if hash.has_value?(value) && hash.key(value) != i\r\n return true\r\n end\r\n # all the keys in has except i\r\n # if any of the value = value\r\n end\r\n false\r\nend", "def seesaw2?(arr)\n left_sum = 0\n right_sum = arr.size > 1 ? arr[1..-1].reduce(:+) : 0\n\n arr.each_index do |i| #O(n)\n return true if left_sum == right_sum\n left_sum += arr[i]\n i < arr.size-1 ? right_sum -= arr[i+1] : right_sum = 0\n end\n return false\nend", "def solve( n = 10_000 )\n (1..n).select {|i| i.amicable?}.reduce( :+ )\n end", "def pairSumSequence(n)\n sum = 0\n\n for i in 0..n\n # pairSum calls do not exist simultabeously on\n # the call stack, so you only need O(1) space\n sum += pairSum(i, i + 1)\n puts \"sum += (#{i + i + 1}) #{i} + #{i} + 1 \"\n end\n\n return sum\nend", "def my_min(arr) # Find\n min = arr[0]\n\n arr.each do |el| # Go through array once O(n)\n min = el if el < min # update min while going through if found min\n end\n min\nend", "def better_sum?(arr, target)\n pair_set = Set.new\n\n arr.each do |ele|\n if pair_set.include?(ele)\n return true\n else\n pair_set << target - ele\n end\n end\n\n false\n\nend", "def arrayManipulation(n, queries)\n nums = Array.new(n+1, 0)\n queries.each do |query|\n nums[query[0]-1] += query[2]\n nums[query[1]] -= query[2]\n end\n\n max = nums.first\n (1..nums.length-1).each do |i|\n nums[i] += nums[i - 1]\n max = nums[i] if nums[i] > max && i < (nums.size - 1)\n end\n\n max\nend", "def solution(a)\n # write your code in Ruby 2.2\n sum = a.inject(:+)\n acc = 0\n\n min = 99999999\n a[0..-2].each do |n|\n sum -= n\n acc += n\n\n min = [(acc - sum).abs, min].min\n end\n min\nend", "def solution(a)\r\n # write your code in Ruby 2.2\r\n #trangular\r\n # a[0] = 10\r\n # a[2] = 5\r\n # a[4] = 8\r\n # 10 + 5 > 8\r\n # 5 + 8 > 10\r\n #8 + 10 > 5\r\n \r\n \r\n l=a.count\r\n \r\n i=0\r\n while(i<l) do\r\n j=i+1\r\n while(j<l) do\r\n k=j+1\r\n \r\n \r\n while(k<l) do\r\n if((a[i] + a[j] > a[k]) && (a[j] +a[k] > a[i]) && (a[k] + a[i] >a[j]))\r\n return 1\r\n end\r\n k+=1 \r\n end \r\n \r\n j+=1 \r\n end\r\n i+=1\r\n end\r\n \r\n return 0\r\n \r\nend", "def find_it(seq)\n uniqueInts=seq.uniq\n\n uniqueInts.each do |value|\n k=0\n seq.each do |mainSeq|\n k+=1 if mainSeq==value\n end\n return value if k%2==1\n end\nend", "def largest_contiguous_subsum(list)\n new_arr = []\n\n (0...list.length).each do |idx1| #O(n)\n (0...list.length).each do |idx2| #O(n)\n if idx2 >= idx1 #O(1)\n new_arr << list[idx1..idx2].sum #O(1)\n end \n end \n \n end \n \n return new_arr.max #O(n)\nend", "def unique_items(arr) #O(n)\n hash = Hash.new(0)\n results = []\n arr.each do |el|\n hash[el] += 1\n end\n hash.select { |k, v| k if v == 1 }.keys\nend", "def largest_contiguous_subsum_fast(list)\n start = Time.now\n max_sum = list[0]\n cur_sum = list[0]\n list[1..-1].each do |el|\n if el >= cur_sum && cur_sum < 0\n cur_sum = el\n else\n cur_sum += el\n end\n max_sum = cur_sum if cur_sum > max_sum\n end\n finish = Time.now\n puts \"Runtime: #{finish - start}\"\n return max_sum\nend", "def fast_lcss(arr)\n i_arr = []\n biggest = 0\n max_sub_arr = []\n arr.length.times do |x|\n arr.map do |ele1|\n i_arr += [ele1]\n sum = i_arr.inject(0) do |a, b|\n a + b\n end\n max_sub_arr = i_arr if sum > biggest\n biggest = sum if sum > biggest \n end\n i_arr = []\n arr.shift\n end\n max_sub_arr\nend", "def sum_to_n? arr, n\n #arr.product(arr).any? {|c| sum(c) == n && c[0] != c[1] } ----1.3\n arr = arr.sort\n low = 0\n high = arr.length - 1\n while low < high\n if arr[low] + arr[high] == n\n return true\n end\n arr[low] + arr[high] < n ? low += 1 : high -= 1 \n end\n return false\nend", "def two_sum(nums, target)\n table = {}\n i = 0\n while i < nums.length\n table[target - nums[i]] = i\n i += 1\n end\n \n j = 0\n while j < nums.length\n if table.key?(nums[j]) && j != table[nums[j]]\n return [j, table[nums[j]]] \n end\n j += 1\n end\nend", "def josephus_survivor(n,k)\n arr = (1..n).to_a\n\n while arr.length > 1\n idx = k % arr.length\n\n if arr.length > k\n arr = arr.drop(k) + arr.take(k - 1)\n elsif arr.length == k \n arr = arr[0...-1]\n else\n arr = arr.drop(idx) + arr.take(idx - 1)\n end\n end\n \n arr[0]\nend", "def fourth_anagram?(str1, str2)\n hash1 = Hash.new(0)#O(1)\n beginning_time = Time.now\n str1.each_char {|char| hash1[char]+=1}#O(n)\n str2.each_char {|char| hash1[char]-=1}#O(n)\n hash1.all? {|_, v| v.zero?}#O(n)\n \"Time complexity of first_anagram: #{(Time.now - beginning_time)}\"\nend", "def largest_contiguous_subsum(list) # O(n^2)\n array = []\n list.each_with_index do |ele1, i1| # O(n^2)\n (i1...list.length).each do |i2|\n array << list[i1..i2]\n end\n end\n\n max_sum = array.first.sum\n array[1..-1].each do |subarr| # O(n^2)\n sum = subarr.sum\n if sum > max_sum\n max_sum = sum\n end\n end\n\n max_sum\n\nend", "def slow_solution(a)\n m = 0\n a.size.times do |i|\n a[i] = a[i].abs\n m = [a[i], m].max\n end\n maxsum = a.sum # sum of absolute val of all nums in array\n # maxsum = a.map(&:abs).sum <- Ruby shortcut\n\n # If dp = 1 at an index, it means some combo of elements in a add up to that index\n dp = [0] * (maxsum + 1)\n dp[0] = 1\n\n a.size.times do |j|\n maxsum.downto(0).each do |possible_sum|\n puts \"a[j]: #{a[j]}, possible sum: #{possible_sum}\"\n if (dp[possible_sum] == 1) and (possible_sum + a[j] <= maxsum)\n\n # if possible_sum + new element a[j] is possible sum, dp = 1!\n dp[possible_sum + a[j]] = 1\n puts \"Mark #{possible_sum + a[j]} as possible sum in dp\"\n end\n end\n puts \"row: #{j}, a[j]: #{a[j]}, dp: #{dp}\"\n puts\n end\n\n min_q_minus_p = maxsum\n\n # Divide array a into 2 parts, where P = sum of part 1 and Q = sum of part 2,\n # P + Q = maxsum, and P <= maxsum / 2 <= Q.\n # We want largest possible P to get smallest possible Q-P.\n\n # loop from 0 to maxsum / 2, covering every possible P, Q division\n (maxsum / 2 + 1).times do |possible_half_sum|\n # puts \"possible_half_sum: #{possible_half_sum}\"\n if dp[possible_half_sum] == 1 # means P or Q = possible_half_sum\n q_minus_p = maxsum - 2 * possible_half_sum\n # puts \"Q - P: #{q_minus_p}\"\n min_q_minus_p = [min_q_minus_p, q_minus_p].min\n # puts \"min Q - P: #{min_q_minus_p}\"\n end\n end\n\n min_q_minus_p\nend" ]

[ "0.6914348", "0.6609048", "0.6416534", "0.63194925", "0.62016535", "0.61871785", "0.60697335", "0.6059072", "0.6053246", "0.6047552", "0.6037029", "0.5990324", "0.5985229", "0.5983502", "0.59483737", "0.5907289", "0.58986485", "0.5894127", "0.589302", "0.5891029", "0.5862035", "0.58598244", "0.5858714", "0.5855247", "0.5843146", "0.58418566", "0.58414876", "0.5833874", "0.5817489", "0.5815855", "0.5806325", "0.580488", "0.5772253", "0.5772051", "0.57717395", "0.5765617", "0.57646245", "0.57498574", "0.5738152", "0.5717594", "0.5713044", "0.57074326", "0.5705395", "0.5694224", "0.56867945", "0.5683187", "0.5679512", "0.5672323", "0.5669691", "0.56692356", "0.56663734", "0.56610006", "0.5658108", "0.565659", "0.56565076", "0.56472635", "0.56471044", "0.5646928", "0.564319", "0.5639335", "0.5632905", "0.5631649", "0.56315875", "0.5626763", "0.5620871", "0.5610765", "0.56105435", "0.56097084", "0.5607952", "0.5605864", "0.5603876", "0.5602009", "0.559539", "0.5590729", "0.55905277", "0.5582398", "0.5571507", "0.55680686", "0.5566327", "0.55646074", "0.5564035", "0.55635667", "0.555963", "0.5559094", "0.5558474", "0.55533934", "0.5552461", "0.5547638", "0.55440915", "0.55439085", "0.5540858", "0.55365527", "0.5531126", "0.55287385", "0.55236286", "0.55215394", "0.55211776", "0.5519715", "0.5519587", "0.55128413", "0.5511962" ]

[ "def find_dublicate(array)\n sum = 1000000*(1000000+1)/2 # (n*(n+1))/2\n array.each do |el| \n sum -= el\n end\n return sum\nend", "def solution(a)\r\n n=a.size\r\n i=1\r\n for k in a.sort do\r\n\tif k!=i \r\n\t then \r\n\t return 0\r\n\t break;\r\n\tend\r\n i+=1;\r\n end\t\r\n return 1 if a.inject(:+) ==n*(n+1)/2;\r\nend", "def my_min_2(list)\r\n min = 0 # O(1)\r\n \r\n list.each do |ele| # O(n) \r\n if ele < min # O(1)\r\n min = ele # O(1)\r\n end\r\n end\r\n min # O(1) \r\nend", "def largest_subsum(list)\n max = list[0] # O(1)\n current_sum = list[0] # O(1)\n\n (1...list.length).each do |i| # O(n)\n # debugger\n if current_sum < 0 # O(1)\n current_sum = 0 # O(1)\n end \n current_sum += list[i] # O(1)\n if current_sum > max # O(1)\n max = current_sum # O(1)\n end\n end\n\n max # O(1)\n\nend", "def sorted_squares(nums)\n # This takes O(n)\n nums.map! { |num| num**2 }\n # This can take Ο(n logn)\n bubble_sort(nums)\nend", "def three_sum_fastest(arr)\n count = 0\n\n (0..arr.length - 2).each { |i|\n set = Set.new\n\n (i + 1..arr.length - 1).each { |j|\n if set.include?(-arr[i] - arr[j])\n count += 1\n end\n\n set.add(arr[j])\n }\n }\n count\nend", "def solution(a)\n n = a.size\n passing_cars = 0\n\n suffix_sums = Array.new(n + 1, 0)\n\n a.reverse.each_with_index do |elem, i|\n suffix_sums[i + 1] = suffix_sums[i] + elem\n end\n suffix_sums.reverse!\n\n a.each_with_index do |car, i|\n if car == 0\n passing_cars += suffix_sums[i]\n end\n end\n\n passing_cars > 1_000_000_000 ? -1 : passing_cars\nend", "def largest_contiguous_subsum_2(list)# [2, 3, -6, 7, -6, 7]\n largest_num = list[0]#2 O(1)\n running_sum = list[0]#2 - 5 after entering loop. O(1)\n\n (1...list.length).each do |i| #O(n) \n running_sum = 0 if running_sum < 0 #O(1)\n running_sum += list[i] #O(1)\n largest_num = running_sum if running_sum > largest_num #O(1)\n end\n return largest_num #O(1)\nend", "def my_min(list) \n\n list.each_with_index do |ele, i| #O(n)\n compare_arr = list[0...i] + list[i+1..-1] # O(2n) \n return ele if compare_arr.all? { |ele2| ele < ele2 } #O(n)\n end\n\n #time complexity = O(n^2) + O(2n)\n\nend", "def solution(a)\n # In production environment this will be my solution:\n # a.uniq.size\n #\n # But since this is a coding challenge, my assumption\n # is that you're looking for a by-hand O(N*logN) solution\n\n return 0 if a.empty?\n\n n = a.size\n ary = a.sort\n uniques = 1\n (1...n).each do |i|\n uniques += 1 if ary[i] != ary[i - 1]\n end\n uniques\nend", "def sub_sum(list)\n sub_arr = []\n (0...list.length).each do |i| #O(n)\n (i...list.length).each do |j| #O(n)\n sub_arr << list[i..j] if i <= j\n end\n end\n largest_continuous_sub_sum1(sub_arr)\nend", "def solution(m, a)\n n = a.count\n result = 0\n front = 0\n numbers = Array.new(m + 1, false)\n n.times { |back|\n while front < n and not numbers[a[front] - 1]\n numbers[a[front] - 1] = true\n front += 1\n result += front - back\n return 1_000_000_000 if result >= 1_000_000_000\n end\n numbers[a[back] - 1] = false\n }\n result\nend", "def my_min_2(arr)\n\n smallest_value = arr[0] # O(1)\n\n arr.each do |ele1| # [ 0, 3, 5, 4, -5, 10, 1, 90 ] O(n)\n smallest_value = ele1 if ele1 <= smallest_value #O(1)\n end\n\n smallest_value #O(1)\n\nend", "def solution(a)\n n = a.size\n a.sort!\n\n count = 0\n for i in 0...n-2 do\n k = i+2\n for j in i+1...n-1 do\n while k < n and a[i] + a[j] > a[k] do\n k += 1\n end\n count += k - j - 1\n end\n end\n count\nend", "def find_duplicate(nums)\n if !nums or nums.size == 0\n return nil\n else\n fast = nums[ 0 ]\n slow = nums[ 0 ]\n while true\n fast = nums[ fast ]\n fast = nums[ fast ]\n slow = nums[ slow ]\n if fast == slow\n new_node = nums[ 0 ]\n while new_node != slow\n new_node = nums[ new_node ]\n slow = nums[ slow ]\n end\n return slow\n end\n end\n end\nend", "def hash_two_sum(arr,target_sum)\n #creates a new hash with each element that is satisfying the target_sum\n hash = Hash.new(0) #{|h,k| h[k] = []}\n (0...arr.length).each { |i| hash[i] = arr[i]} #O(n)\nend", "def find_duplicate_space(nums)\n # sort nums first (lgn), then check for dups by iterate over (n)\n last_seen = 0\n nums.sort!.each do |num|\n return num if last_seen == num\n last_seen = num\n end\nend", "def okay_two_sum?(arr, target)\n arr = arr.sort #n log n\n (0...arr.length).each do |i| #n\n search = bsearch(arr, target-arr[i]) # log n\n return true unless search.nil?\n end #n log n\n false\nend", "def equal(arr)\n size = arr.size\n hash = Hash.new{|h,k| h[k] = []}\n (0...size).each do |i|\n (i + 1...size - 1).each do |j|\n sum = arr[i] + arr[j]\n if hash.has_key?(sum)\n values = hash[sum]\n values << i\n values << j\n return values\n else\n hash[sum] = [i, j]\n end\n end\n end\nend", "def two_sum?(array, target)\n #O(n)\n hash = Hash.new(0)\n i = 1\n array.each do |ele|\n hash[ele] = i \n i += 1\n end\n hash.each_key do |k|\n return true if hash.has_key?(target - k) && hash[k] != hash[target - k]\n end\n false \nend", "def findDiffSquares(n)\n sum = 0\n (1..n).each { |i|\n (1..n).each { |j|\n sum += i*j unless i == j\n }\n }\n sum\nend", "def solution(a)\n n = a.size\n return 0 unless n > 2\n a.sort!\n\n (2..n - 1).each do |i|\n return 1 if a[i - 2] + a[i - 1] > a[i]\n end\n\n return 0\nend", "def solution(a)\n counter = Hash.new(0)\n a.each do |elem|\n counter[elem] += 1\n end\n\n (1..a.size).each do |number|\n return 0 if counter[number] != 1\n end\n\n 1\nend", "def largest_contiguous_subsum(arr) #BigO of O(n)\n max = 0 \n current_sum = 0\n arr.each_with_index do |el,idx|\n if current_sum + el >= el \n current_sum += el \n else \n current_sum = el \n end \n max = current_sum if current_sum > max \n end \n max\nend", "def my_min_2(array)#O(n)\n array.inject do |acc, ele|#O(n)\n if acc < ele\n acc\n else\n ele\n end\n end\nend", "def efficient_contiguous_subsum(list)\n current_sum = list[0] #0\n largest_sum = list[0] #5\n # debugger\n (1...list.length).each do |i| \n if current_sum + list[i] > 0 \n current_sum += list[i] \n largest_sum = current_sum if current_sum > largest_sum\n else \n current_sum = 0\n end \n end \n largest_sum\nend", "def seesaw?(arr)\n left_sum = 0\n arr.each_index do |i| #O(n)\n if i > 0\n left_sum = arr[0...i].reduce(:+) #O(n)\n end\n if i < arr.size-1\n right_sum = arr[i+1..-1].reduce(:+); #O(n)\n else\n right_sum = 0\n end\n if left_sum == right_sum\n return true\n end\n end\n return false\nend", "def solution(a)\n len = a.size\n unique = {}\n i = 0\n while i < len\n item = a[i]\n if unique.has_key?(item)\n unique[item] += 1\n else\n unique[item] = 1\n end\n i += 1\n end\n pairs = 0\n unique.each do |key,count|\n (1...count).step {|n| pairs += n }\n end\n return pairs > 1_000_000_000 ? 1_000_000_000 : pairs\nend", "def two_sum?(arr, target_sum) # O(N)\n hash = Hash.new(0)\n count = Hash.new(0)\n\n arr.each do |num|\n hash[num] = target_sum - num\n count[num] += 1\n end\n\n hash.each do |key, value|\n if hash.has_key?(value) \n if key == value \n if count[value] > 1\n return true\n end\n else\n return true\n end\n end\n end\n\n false\nend", "def two_sum(arr) #o(ns)\n set = Set.new\n arr.each{|el| set << el}\n arr.select{|el| set.include?(-1 * el)}\nend", "def fibonacci(n)\n return fib_helper([0, 1], 2, n)\n # if you'd like to test what i THINK is an O(1) space complexity solution.....\n # i did run this through the tests and it SHOULD work:\n # return faster_fib_helper([0, 1], 2, n)\nend", "def solution(a)\n # write your code in Ruby 2.2\n num_of_elements=a.length\n num_of_zeros=0\n tot_num_car_pairs=0\n a.each do |element|\n if element == 0\n num_of_zeros+=1\n else\n tot_num_car_pairs+=num_of_zeros\n end\n end\n return tot_num_car_pairs>1_000_000_000?-1:tot_num_car_pairs\nend", "def largest_contiguous_subsum1(list)\n p Time.now\n sub_arrays = []\n list.each_index do |i|\n list.each_index do |j|\n next if j < i\n sub_arrays << list[i..j]\n end\n end\n sub_arrays.map{|numbers| numbers.inject(:+)}.max\n p Time.now\nend", "def stones(n, a, b)\n ar=[0]\n (n-1).times do |val|\n tmp=[]\n ar.each do |v|\n tmp << v+a if !tmp.include?(v+a)\n tmp << v+b if !tmp.include?(v+b)\n end\n ar=tmp\n end\n ar.sort\nend", "def find_amicables(n)\n pairs = []\n sum = 0\n for i in 0..n do \n next if pairs.include? i\n d = sum_proper_divisors(i)\n next if d == i\n p = sum_proper_divisors(d)\n if p == i \n pairs << d\n pairs << i\n sum += d + i\n end\n end\n return sum\nend", "def third_anagram?(str1, str2)\n beginning_time = Time.now\n str1.split(\"\").sort == str2.split(\"\").sort #O(nlogn)\n \"Time complexity of first_anagram: #{(Time.now - beginning_time)}\"\nend", "def better_sum1(arr, target) # this one is going to return true or false\n pairs = Set.new\n\n arr.each do |ele|\n if pairs.include?(ele)\n return true\n else\n pairs << target - ele\n end\n end\n false\nend", "def largest_contiguous_subsum2(list)\n # O(N) ==> Time\n # O(1) ==> Space\n largest = list.first\n curr = list.first\n\n len = list.length\n (1...len).each do |i|\n curr = 0 if curr < 0 \n curr += list[i]\n largest = curr if curr > largest\n end\n largest\nend", "def largest_contiguous_sub_sum2(arr)\n #one varable tracks largest sum\n #one variable tracks current sum\n #O(n) + O(1)\n # list = [2, 3, -6, 7, -6, 7]\n\n # largest_sum= arr.first\n\n # i = 0\n # arr_end = true\n\n # while arr_end\n # current_sum = arr[i]\n # if arr[i+1] == nil\n # arr_end = false\n # puts \"This is current sum: #{current_sum}\"\n # else\n # if current_sum > largest_sum\n # current_sum += arr[i+1]\n # largest_sum = current_sum\n # end\n # end\n # if i < arr.length\n # arr_end = true\n # i += 1\n # end\n # end\n # largest_sum\n \n\n\n # arr.each_with_index do |ele, idx|\n # if ele > largest_sum\n # largest_sum = ele\n # end\n\n # i = idx\n # sum = ele\n # while i < arr.length - 1\n # if sum <= sum + arr[i+1]\n # largest_sum = sum + arr[i+1]\n # end\n # sum = sum + arr[i+1]\n # i+=1\n # end\n # end\n # largest_sum\n\nend", "def find3(a, X)\n # scan through array\n # build hash storing complement in each key\n complements = {}\n a.each_with_index do |val, ind|\n if complements[X - val]\n complements[X - val].push(ind)\n else\n complements[X - val] = [ind]\n end\n end\n\n # scan through the array again\n # get complement\n # for each value scan the remainder of the arrray\n # for a value such taht a + b = the complement\n\n # for each character we have built a dictionary such that, we can find\n # x = a + complement\n\n # [1, 2, 3]\n # 1 + 2 = 3\n # 1 + 3 = 4 =>\n\n # for each value in the array (a) look at all following values (b) and see if a + b\n # is in the dictionary, if it is, check that their indices do not collide with the index\n # stored at dict(a+b)\n\n a.each_with_index do |va, i|\n a.each_with_index do |vb, j|\n break if i == j\n\n complement = va + vb\n indices = complements[complement]\n\n indices.each do |z|\n # every index is unique\n return [i, j, z] unless z == i || z == j\n end\n end\n end\n\n return nil\nend", "def three_sum(nums)\n n = nums.length\n result = []\n for i in 0...n-2\n req_sum = 0\n hsh = Hash.new\n curr_sum = req_sum - nums[i]\n \n for j in (i+1)...n\n num = curr_sum - nums[j]\n if hsh[num]\n elements = [nums[i], num, nums[j]].sort\n result << elements unless result.include?(elements)\n end\n hsh[nums[j]] = true\n end \n end\n result\nend", "def three_sum_fast(arr)\n arr = merge_sort(arr)\n count = 0\n\n (0..arr.length - 1).each { |i|\n (i + 1..arr.length - 1).each { |j|\n if bin_search(arr, -arr[i] - arr[j]) > j\n count += 1\n end\n }\n }\n count\nend", "def sum_upon_sums(array)\n # Step 0: initialize variables => O(1)\n max = -1\n sum = 0\n\n # Step 1: Get Max and Sum => O(n)\n array.each do |num|\n max = num if num >= max\n sum += num\n end\n\n # Step 2: Get summation => O(1)\n summation = max * (max + 1) / 2\n\n # Step 3: Return Missing value by subtracting summation and sum => O(1)\n summation - sum\nend", "def main\n\n sum = 0\n\n (0..999).each do |i|\n sum += check(i)\n end\n\n puts \"Total - O(n) #{sum}\"\n\n # Needed to refresh following: https://en.wikipedia.org/wiki/Arithmetic_progression\n sum2 = sum_multiples(3, 1000) + sum_multiples(5, 1000) - sum_multiples(15, 1000)\n\n # Refreshed Big O too : http://stackoverflow.com/questions/487258/plain-english-explanation-of-big-o \n puts \"Total - O(1) #{sum2}\"\n\nend", "def largest_contiguous_subsum_1(list) \n subs = [] #O(1)\n (0...list.length).each do |start_num| #O(n)\n (start_num...list.length).each do |end_num| #O(n)\n subs << list[start_num..end_num] #O(n)\n end\n end\n subs_sum = [] #O(1)\n subs.each do |sub| #O(n**2)\n sub_sum = 0 #O(1)\n sub.each {|s| sub_sum += s} #O(n)\n subs_sum << sub_sum #O(1)\n end\n subs_sum.inject do |acc,el| #O(n)\n if acc > el #O(1)\n acc #O(1)\n else\n el #O(1)\n end\n end\n end", "def running_time(array)\n cnt = 0\n (1...(array.length)).each do |x|\n y = x\n while y.positive?\n break unless array[y - 1] > array[y]\n\n temp_num = array[y]\n array[y] = array[y - 1]\n array[y - 1] = temp_num\n cnt += 1\n y -= 1\n end\n end\n cnt\nend", "def two_sum_v3?(arr, target) \n hash = Hash.new\n arr.each { |ele| hash[ele] = ele } #o(n)\n arr.each do |ele| #o(n)\n search_value = target - ele\n return true if !hash[search_value].nil? && hash[search_value] != ele\n end\n false\nend", "def naive_algorithm(arr)\n\tproduct = 0\n\tarr.each do |i|\n\t arr.each do |j|\n\t \tp = arr[i] * arr[j]\n\t \tproduct = p if product < p\n\t end\t\n\tend\t\t\n\tproduct\nend", "def solution(a)\n a.uniq.count\nend", "def remove_duplicates(nums)\n record_leng = 0\n uniq_arr = nums.uniq\n uniq_arr.each do |i|\n record_leng += 1 if count_great_two?(nums, i)\n end\n return (record_leng + uniq_arr.size)\nend", "def naive(array)\n max = -10000\n for i in (0..array.length - 1)\n for j in (i..array.length - 1)\n total = array[i..j].inject { |m,k| m + k }\n max = total if total > max\n end\n end\n max\nend", "def intersect nums1, nums2\n result = []\n return result if nums1.size == 0 or nums2.size == 0\n\n counter_cache = {}\n counter_cache = nums1.inject({}) { |result, n|\n result[n] ||= 0\n result[n] += 1\n result\n }\n\n nums2.each do |n|\n if counter_cache[n] and counter_cache[n] > 0\n result << n\n counter_cache[n] -= 1\n end\n end\n result\nend", "def fifth_anagram?(word1, word2) # O(n)\n \n p \"Running fifth_anagram...\" \n\n start = Time.now\n \n hash1 = Hash.new(0)\n # hash2 = Hash.new(0)\n\n word1.each_char {|char| hash1[char] += 1}\n word2.each_char {|char| hash1[char] += 1}\n\n hash1.values.all? {|v| v.even?}\n\n\n # puts \"Took #{Time.now - start} seconds\"\n\n \nend", "def my_min_2(nums) # O(n)\n smallest = 0\n nums.each do |num|\n smallest = num if num < smallest\n end\n smallest\nend", "def fds(n)\n\n # arr = []\n # (n + 1).times.each{|e| arr << e if e > 0}\n # arr.flat_map.reduce(:*)\n # arr.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n (1..n).to_a.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n\nend", "def solution(a)\r\n # write your code in Ruby 2.2\r\n \r\n arr =[]\r\n a.each_with_index{|el,i|\r\n \r\n if !arr.index(el) \r\n arr << el\r\n end\r\n \r\n }\r\n arr.count\r\nend", "def my_min2 # O(n) time complexity\n smallest = self.first\n self.each do |num|\n sleep(1)\n smallest = num if num < smallest \n end\n smallest\n end", "def solution_slow_2(n, p, q)\n sieve = sieve_of_erathosteneses(n)\n # puts \"sieve:#{sieve}\"\n semi = semiprimes(n, sieve)\n # puts \"sp:#{semi}\"\n prefix = [0,0,0,0,1]\n 5.upto(n) do |x|\n if semi.include? x \n prefix << prefix.last + 1\n else\n prefix << prefix.last\n end\n end\n # puts \"prefix:#{prefix}\"\n\n queries = [p,q].transpose\n\n\n res = queries.map do |query|\n prefix[query.last] - prefix[query.first - 1]\n end\n\n # puts \"res:#{res}\"\n\n res\n end", "def two_sum?(arr, target_sum)\n hash = {}\n arr.each do |ele|\n diff = target_sum - ele\n return true if hash.has_key?(diff) # O(1), or constant time\n hash[ele] = 0\n end\n false\nend", "def amicable_numbers(n)\r\n numbers = Array.new\r\n 2.upto(n) do |x|\r\n y = d(x)\r\n if !numbers.include?(y)\r\n numbers.push(x,y) if d(y) == x && y != x\r\n end\r\n end\r\n return numbers\r\nend", "def lAS(n: 0)\n array = [1]\n puts \"#{array.inspect}\"\n previous = array.first\n new_array = []\n counter = 0\n \n n.times do\n previous = array.first\n counter = 0\n new_array = []\n \n array.each do |element|\n if(element == previous)\n counter = counter + 1\n else\n new_array << counter\n new_array << previous\n counter = 1\n previous = element\n end\n end\n \n new_array << counter\n new_array << previous\n array = new_array.dup\n puts \"#{array.inspect}\"\n end\nend", "def bad_two_sum?(arr, target)\n arr.each_with_index do |num1, idx1| #O(n)\n arr.each_with_index do |num2, idx2| #O(n)\n return true if idx2 > idx1 && num1 + num2 == target #O(1)\n end\n end\n false\nend", "def sub_sum_better(list)\n largest_sum = list.first\n\n #iterate over once.\n # as you iterate keep a tally of the sum.\n # indexing into an array is O(1)\n # [2, 3, -6, 7, -6, 7]\n\n sub_sum = 0\n list.each do |el|\n sub_sum += el\n largest_sum = sub_sum if sub_sum > largest_sum\n\n sub_sum = 0 if sub_sum < 0\n end\n\n largest_sum\nend", "def okay_two_sum?(arr, target)\n sorted = arr.sort # n log n => quicksort => is nlogn DOMINANT\n sorted.each_with_index do |num, i| # => O(n)\n # return true if sorted[i] + sorted[-1 - i] == target\n return true if sorted[i + 1 .. - 1].bsearch {|number| target - num <=> number} # => O(log(n))\n # ASK TA ABOUT BSEARCH\n # bsearch {|ele| pivot <=> ele}\n end\n false\nend", "def canBeSum(n, array, cache)\n\ti = 0\n\twhile array[i] <= n / 2\n\t\tif cache[n-array[i]] # array.include?(n-array[i]) is OK, but very slow\n\t\t\treturn true\n\t\tend\n\n\t\ti += 1\n\tend\n\n\treturn false\nend", "def solution(a)\n s= a.sort\n 0.step(s.size - 1).inject(0) do |result, x|\n z= x+2\n (x+1).step(s.size - 1).inject(result) do |acc, y|\n z+=1 while z < s.size && s[x] + s[y] > s[z]\n acc += z-y-1\n end\n end\nend", "def better_subsum(arr) # o(n)\n largest = 0 \n sum = 0 \n i = 0 \n j = 0\n\n while i != arr.length-1\n largest += arr[j]\n sum = largest if largest > sum \n if j == arr.length-1 \n i+=1 \n j = i \n largest = 0 \n else\n j+=1\n end \n end \n sum \n end", "def solution(a)\n return 1 if a.empty?\n a.sort!\n return 1 if a.first > 1\n return a.first + 1 if a.length <2\n (0..(a.length)).each do |index|\n return a[index] + 1 if a[index] + 1 != a[index + 1]\n end\n return a.last + 1\nend", "def solution(a)\n # write your code in Ruby 2.2\n n = a.length\n \n counter = Array.new(n+1, 0)\n \n a.each do |x|\n counter[x-1] += 1\n end\n \n return counter.index { |x| x == 0 } + 1\nend", "def solution(a)\n min_val = 10_000\n min_pos = 0\n \n sums = [0]\n for i in (0..a.count - 1) \n sums << sums.last + a[i] \n end\n for p in (0..a.count - 2)\n for q in (p + 1..[p + 2, a.count - 1].min)\n s = (sums[q + 1] - sums[p]).to_f / (q - p + 1)\n if s < min_val\n min_val = s\n min_pos = p\n end\n end\n end\n min_pos\nend", "def fast_hash_additive_find(arr, target)\n lookup_table = Hash.new\n\n arr.each do |element|\n return true if lookup_table[target - element]\n if lookup_table[element]\n lookup_table[element] += 1\n else\n lookup_table[element] = 1\n end\n end\n\n return false\n end", "def move_zeros(array)\n zero_count = 0\n # O(n)\n array.each do |num|\n\n zero_count += 1 if num == 0\n end\n\n # O(n)\n array = array.select { |num| num != 0 }\n \n # O(1)\n zero_count.times do\n array += [0]\n end\n\n array\nend", "def largest_cont_subsum_fast(list)\n # for constant size to be true, you cant create any variables\n # whose memory size depends on the size of the input\n curr_sum = list[0]\n largest_sum = list[0]\n\n # we know there are n^2 potential, so if we ever check all of them\n # it must be n^2\n\n # there must be a way to find the max without checking every subarray\n list[1..-1].each do |ele|\n # debugger\n if curr_sum > largest_sum\n largest_sum = curr_sum\n end\n\n if curr_sum < 0\n curr_sum = 0\n end\n\n curr_sum += ele\n\n end\n\n # debugger\n return [largest_sum, curr_sum].max\n\nend", "def my_min1(arr)\n arr.each do |el1| #O(n)\n if arr.all? {|el2| el1 <= el2 } #O(n + 1)\n return el1\n end\n end \nend", "def find_duplicates(a)\n len=a.length\n n=len-2\n xor= 0\n x,y=0,0 #variables to store duplicates\n \n #xor of all numbers from 1 to n\n for i in 1..n \n xor^=i\n end\n #xor of all array elements\n for i in 0...len \n xor^=a[i]\n end\n #Rightmost set bit\n set_bit_pos= xor & ~(xor-1)\n #Divinding array in two sets ,one with set bit at set_bit_pos and other with 0.\n for i in 0...len\n if (a[i] & set_bit_pos == 0)\n x^=a[i] # XOR of first-set(with 0 at set_bit_pos) in array\n else\n y^=a[i] # XOR of second-set(with 1 at set_bit_pos) in array\n end\n end\n \n for i in 0..n\n if (i & set_bit_pos == 0)\n x^=i # XOR of first-set(with 0 at set_bit_pos) in range\n else\n y^=i # XOR of second-set(with 1 at set_bit_pos) in range\n end\n end\n print \"#{x} #{y}\"\n\treturn\nend", "def second_anagram?(word_1, word_2) #O(n^2)\n matching_word = word_2.split(\"\")\n\n word_1.each_char do |ele|\n if matching_word.index(ele) #evaluating the conditional\n matching_word.delete_at(matching_word.index(ele)) #n many times, do this\n end\n end\n\n matching_word.empty? #constant O(1)\nend", "def my_min_2(arr) #O(N)\n min_num = arr.first\n \n arr.each { |num| min_num = num if num < min_num }\n \n min_num\n end", "def largest_contiguous_subsum_2(list)\n largest_sum = 0\n current_sum = 0\n\n list.each do |el|\n largest_sum = current_sum \n current_sum += el \n if current_sum < el \n current_sum = el \n end \n largest_sum = current_sum if largest_sum < current_sum\n end\n\n largest_sum\nend", "def solution(a)\n # write your code in Ruby 2.2\n seen = {}\n\n a.each do |number|\n seen[number] = true\n end\n\n max = a.max\n\n for i in 1..(max + 1)\n return i unless seen[i]\n end\n\n 1\nend", "def solution(a)\n accessed = Array.new(a.size + 1, nil)\n caterpillar_back = 0\n count = 0\n\n a.each_with_index do |x, caterpillar_front|\n if accessed[x] == nil\n accessed[x] = caterpillar_front\n else\n new_caterpillar_back = accessed[x] + 1\n first_part_size = caterpillar_front - caterpillar_back\n second_part_size = caterpillar_front - new_caterpillar_back\n count += first_part_size * (first_part_size + 1) / 2\n count -= (second_part_size) * (second_part_size + 1) / 2\n caterpillar_back.upto(new_caterpillar_back - 1) { |n| accessed[a[n]] = nil}\n accessed[x] = caterpillar_front\n caterpillar_back = new_caterpillar_back\n end\n end\n\n remaining_size = a.size - caterpillar_back\n count += (remaining_size) * (remaining_size + 1) / 2\n end", "def solution(a)\n a.sort!\n a.each_with_index do |element, index|\n return 0 if element != index + 1\n end\n 1\nend", "def two_sum?(arr, target)\r\n hash = {}\r\n arr.each_with_index do |ele, i| #n\r\n hash[i] = ele\r\n end\r\n arr.each_with_index do |ele, i| #n \r\n value = target - ele\r\n if hash.has_value?(value) && hash.key(value) != i\r\n return true\r\n end\r\n # all the keys in has except i\r\n # if any of the value = value\r\n end\r\n false\r\nend", "def solve( n = 10_000 )\n (1..n).select {|i| i.amicable?}.reduce( :+ )\n end", "def pairSumSequence(n)\n sum = 0\n\n for i in 0..n\n # pairSum calls do not exist simultabeously on\n # the call stack, so you only need O(1) space\n sum += pairSum(i, i + 1)\n puts \"sum += (#{i + i + 1}) #{i} + #{i} + 1 \"\n end\n\n return sum\nend", "def seesaw2?(arr)\n left_sum = 0\n right_sum = arr.size > 1 ? arr[1..-1].reduce(:+) : 0\n\n arr.each_index do |i| #O(n)\n return true if left_sum == right_sum\n left_sum += arr[i]\n i < arr.size-1 ? right_sum -= arr[i+1] : right_sum = 0\n end\n return false\nend", "def my_min(arr) # Find\n min = arr[0]\n\n arr.each do |el| # Go through array once O(n)\n min = el if el < min # update min while going through if found min\n end\n min\nend", "def better_sum?(arr, target)\n pair_set = Set.new\n\n arr.each do |ele|\n if pair_set.include?(ele)\n return true\n else\n pair_set << target - ele\n end\n end\n\n false\n\nend", "def arrayManipulation(n, queries)\n nums = Array.new(n+1, 0)\n queries.each do |query|\n nums[query[0]-1] += query[2]\n nums[query[1]] -= query[2]\n end\n\n max = nums.first\n (1..nums.length-1).each do |i|\n nums[i] += nums[i - 1]\n max = nums[i] if nums[i] > max && i < (nums.size - 1)\n end\n\n max\nend", "def solution(a)\n # write your code in Ruby 2.2\n sum = a.inject(:+)\n acc = 0\n\n min = 99999999\n a[0..-2].each do |n|\n sum -= n\n acc += n\n\n min = [(acc - sum).abs, min].min\n end\n min\nend", "def solution(a)\r\n # write your code in Ruby 2.2\r\n #trangular\r\n # a[0] = 10\r\n # a[2] = 5\r\n # a[4] = 8\r\n # 10 + 5 > 8\r\n # 5 + 8 > 10\r\n #8 + 10 > 5\r\n \r\n \r\n l=a.count\r\n \r\n i=0\r\n while(i<l) do\r\n j=i+1\r\n while(j<l) do\r\n k=j+1\r\n \r\n \r\n while(k<l) do\r\n if((a[i] + a[j] > a[k]) && (a[j] +a[k] > a[i]) && (a[k] + a[i] >a[j]))\r\n return 1\r\n end\r\n k+=1 \r\n end \r\n \r\n j+=1 \r\n end\r\n i+=1\r\n end\r\n \r\n return 0\r\n \r\nend", "def find_it(seq)\n uniqueInts=seq.uniq\n\n uniqueInts.each do |value|\n k=0\n seq.each do |mainSeq|\n k+=1 if mainSeq==value\n end\n return value if k%2==1\n end\nend", "def largest_contiguous_subsum(list)\n new_arr = []\n\n (0...list.length).each do |idx1| #O(n)\n (0...list.length).each do |idx2| #O(n)\n if idx2 >= idx1 #O(1)\n new_arr << list[idx1..idx2].sum #O(1)\n end \n end \n \n end \n \n return new_arr.max #O(n)\nend", "def unique_items(arr) #O(n)\n hash = Hash.new(0)\n results = []\n arr.each do |el|\n hash[el] += 1\n end\n hash.select { |k, v| k if v == 1 }.keys\nend", "def largest_contiguous_subsum_fast(list)\n start = Time.now\n max_sum = list[0]\n cur_sum = list[0]\n list[1..-1].each do |el|\n if el >= cur_sum && cur_sum < 0\n cur_sum = el\n else\n cur_sum += el\n end\n max_sum = cur_sum if cur_sum > max_sum\n end\n finish = Time.now\n puts \"Runtime: #{finish - start}\"\n return max_sum\nend", "def fast_lcss(arr)\n i_arr = []\n biggest = 0\n max_sub_arr = []\n arr.length.times do |x|\n arr.map do |ele1|\n i_arr += [ele1]\n sum = i_arr.inject(0) do |a, b|\n a + b\n end\n max_sub_arr = i_arr if sum > biggest\n biggest = sum if sum > biggest \n end\n i_arr = []\n arr.shift\n end\n max_sub_arr\nend", "def sum_to_n? arr, n\n #arr.product(arr).any? {|c| sum(c) == n && c[0] != c[1] } ----1.3\n arr = arr.sort\n low = 0\n high = arr.length - 1\n while low < high\n if arr[low] + arr[high] == n\n return true\n end\n arr[low] + arr[high] < n ? low += 1 : high -= 1 \n end\n return false\nend", "def two_sum(nums, target)\n table = {}\n i = 0\n while i < nums.length\n table[target - nums[i]] = i\n i += 1\n end\n \n j = 0\n while j < nums.length\n if table.key?(nums[j]) && j != table[nums[j]]\n return [j, table[nums[j]]] \n end\n j += 1\n end\nend", "def josephus_survivor(n,k)\n arr = (1..n).to_a\n\n while arr.length > 1\n idx = k % arr.length\n\n if arr.length > k\n arr = arr.drop(k) + arr.take(k - 1)\n elsif arr.length == k \n arr = arr[0...-1]\n else\n arr = arr.drop(idx) + arr.take(idx - 1)\n end\n end\n \n arr[0]\nend", "def fourth_anagram?(str1, str2)\n hash1 = Hash.new(0)#O(1)\n beginning_time = Time.now\n str1.each_char {|char| hash1[char]+=1}#O(n)\n str2.each_char {|char| hash1[char]-=1}#O(n)\n hash1.all? {|_, v| v.zero?}#O(n)\n \"Time complexity of first_anagram: #{(Time.now - beginning_time)}\"\nend", "def largest_contiguous_subsum(list) # O(n^2)\n array = []\n list.each_with_index do |ele1, i1| # O(n^2)\n (i1...list.length).each do |i2|\n array << list[i1..i2]\n end\n end\n\n max_sum = array.first.sum\n array[1..-1].each do |subarr| # O(n^2)\n sum = subarr.sum\n if sum > max_sum\n max_sum = sum\n end\n end\n\n max_sum\n\nend", "def slow_solution(a)\n m = 0\n a.size.times do |i|\n a[i] = a[i].abs\n m = [a[i], m].max\n end\n maxsum = a.sum # sum of absolute val of all nums in array\n # maxsum = a.map(&:abs).sum <- Ruby shortcut\n\n # If dp = 1 at an index, it means some combo of elements in a add up to that index\n dp = [0] * (maxsum + 1)\n dp[0] = 1\n\n a.size.times do |j|\n maxsum.downto(0).each do |possible_sum|\n puts \"a[j]: #{a[j]}, possible sum: #{possible_sum}\"\n if (dp[possible_sum] == 1) and (possible_sum + a[j] <= maxsum)\n\n # if possible_sum + new element a[j] is possible sum, dp = 1!\n dp[possible_sum + a[j]] = 1\n puts \"Mark #{possible_sum + a[j]} as possible sum in dp\"\n end\n end\n puts \"row: #{j}, a[j]: #{a[j]}, dp: #{dp}\"\n puts\n end\n\n min_q_minus_p = maxsum\n\n # Divide array a into 2 parts, where P = sum of part 1 and Q = sum of part 2,\n # P + Q = maxsum, and P <= maxsum / 2 <= Q.\n # We want largest possible P to get smallest possible Q-P.\n\n # loop from 0 to maxsum / 2, covering every possible P, Q division\n (maxsum / 2 + 1).times do |possible_half_sum|\n # puts \"possible_half_sum: #{possible_half_sum}\"\n if dp[possible_half_sum] == 1 # means P or Q = possible_half_sum\n q_minus_p = maxsum - 2 * possible_half_sum\n # puts \"Q - P: #{q_minus_p}\"\n min_q_minus_p = [min_q_minus_p, q_minus_p].min\n # puts \"min Q - P: #{min_q_minus_p}\"\n end\n end\n\n min_q_minus_p\nend" ]

[ "0.6913405", "0.66083884", "0.64167774", "0.6319656", "0.62015754", "0.6185741", "0.6069121", "0.60587454", "0.6052126", "0.604728", "0.60361445", "0.5989489", "0.59843206", "0.5983099", "0.59470034", "0.590678", "0.58972865", "0.58927476", "0.5891501", "0.5890075", "0.58596104", "0.5858981", "0.5858051", "0.58548504", "0.584249", "0.58413404", "0.5840222", "0.5833777", "0.5816466", "0.58139163", "0.5806265", "0.5805875", "0.57723105", "0.5770664", "0.57704335", "0.57657343", "0.57631576", "0.57491153", "0.57378995", "0.57162964", "0.57119524", "0.57061803", "0.57049215", "0.5694651", "0.5687499", "0.56824887", "0.5678411", "0.5670973", "0.56685364", "0.56678647", "0.5665536", "0.56606364", "0.5657987", "0.5655579", "0.5655446", "0.5646625", "0.56462735", "0.56457126", "0.56422067", "0.5638287", "0.56319946", "0.56307954", "0.5630225", "0.5625815", "0.56203806", "0.56102645", "0.5609514", "0.5608729", "0.5607054", "0.5604759", "0.56035286", "0.560157", "0.5594785", "0.55894154", "0.55892223", "0.5581489", "0.55701435", "0.5567204", "0.55655915", "0.5564164", "0.5562935", "0.55616474", "0.5559265", "0.55582696", "0.5557982", "0.5552183", "0.5550769", "0.5546689", "0.5543097", "0.5543026", "0.5538874", "0.5536357", "0.55302227", "0.55289066", "0.55227315", "0.55203813", "0.55199", "0.5519744", "0.5519541", "0.5512613", "0.5511031" ]

[ "def find_dublicate(array)\n sum = 1000000*(1000000+1)/2 # (n*(n+1))/2\n array.each do |el| \n sum -= el\n end\n return sum\nend", "def solution(a)\r\n n=a.size\r\n i=1\r\n for k in a.sort do\r\n\tif k!=i \r\n\t then \r\n\t return 0\r\n\t break;\r\n\tend\r\n i+=1;\r\n end\t\r\n return 1 if a.inject(:+) ==n*(n+1)/2;\r\nend", "def my_min_2(list)\r\n min = 0 # O(1)\r\n \r\n list.each do |ele| # O(n) \r\n if ele < min # O(1)\r\n min = ele # O(1)\r\n end\r\n end\r\n min # O(1) \r\nend", "def largest_subsum(list)\n max = list[0] # O(1)\n current_sum = list[0] # O(1)\n\n (1...list.length).each do |i| # O(n)\n # debugger\n if current_sum < 0 # O(1)\n current_sum = 0 # O(1)\n end \n current_sum += list[i] # O(1)\n if current_sum > max # O(1)\n max = current_sum # O(1)\n end\n end\n\n max # O(1)\n\nend", "def sorted_squares(nums)\n # This takes O(n)\n nums.map! { |num| num**2 }\n # This can take Ο(n logn)\n bubble_sort(nums)\nend", "def three_sum_fastest(arr)\n count = 0\n\n (0..arr.length - 2).each { |i|\n set = Set.new\n\n (i + 1..arr.length - 1).each { |j|\n if set.include?(-arr[i] - arr[j])\n count += 1\n end\n\n set.add(arr[j])\n }\n }\n count\nend", "def solution(a)\n n = a.size\n passing_cars = 0\n\n suffix_sums = Array.new(n + 1, 0)\n\n a.reverse.each_with_index do |elem, i|\n suffix_sums[i + 1] = suffix_sums[i] + elem\n end\n suffix_sums.reverse!\n\n a.each_with_index do |car, i|\n if car == 0\n passing_cars += suffix_sums[i]\n end\n end\n\n passing_cars > 1_000_000_000 ? -1 : passing_cars\nend", "def largest_contiguous_subsum_2(list)# [2, 3, -6, 7, -6, 7]\n largest_num = list[0]#2 O(1)\n running_sum = list[0]#2 - 5 after entering loop. O(1)\n\n (1...list.length).each do |i| #O(n) \n running_sum = 0 if running_sum < 0 #O(1)\n running_sum += list[i] #O(1)\n largest_num = running_sum if running_sum > largest_num #O(1)\n end\n return largest_num #O(1)\nend", "def my_min(list) \n\n list.each_with_index do |ele, i| #O(n)\n compare_arr = list[0...i] + list[i+1..-1] # O(2n) \n return ele if compare_arr.all? { |ele2| ele < ele2 } #O(n)\n end\n\n #time complexity = O(n^2) + O(2n)\n\nend", "def solution(a)\n # In production environment this will be my solution:\n # a.uniq.size\n #\n # But since this is a coding challenge, my assumption\n # is that you're looking for a by-hand O(N*logN) solution\n\n return 0 if a.empty?\n\n n = a.size\n ary = a.sort\n uniques = 1\n (1...n).each do |i|\n uniques += 1 if ary[i] != ary[i - 1]\n end\n uniques\nend", "def sub_sum(list)\n sub_arr = []\n (0...list.length).each do |i| #O(n)\n (i...list.length).each do |j| #O(n)\n sub_arr << list[i..j] if i <= j\n end\n end\n largest_continuous_sub_sum1(sub_arr)\nend", "def solution(m, a)\n n = a.count\n result = 0\n front = 0\n numbers = Array.new(m + 1, false)\n n.times { |back|\n while front < n and not numbers[a[front] - 1]\n numbers[a[front] - 1] = true\n front += 1\n result += front - back\n return 1_000_000_000 if result >= 1_000_000_000\n end\n numbers[a[back] - 1] = false\n }\n result\nend", "def my_min_2(arr)\n\n smallest_value = arr[0] # O(1)\n\n arr.each do |ele1| # [ 0, 3, 5, 4, -5, 10, 1, 90 ] O(n)\n smallest_value = ele1 if ele1 <= smallest_value #O(1)\n end\n\n smallest_value #O(1)\n\nend", "def solution(a)\n n = a.size\n a.sort!\n\n count = 0\n for i in 0...n-2 do\n k = i+2\n for j in i+1...n-1 do\n while k < n and a[i] + a[j] > a[k] do\n k += 1\n end\n count += k - j - 1\n end\n end\n count\nend", "def find_duplicate(nums)\n if !nums or nums.size == 0\n return nil\n else\n fast = nums[ 0 ]\n slow = nums[ 0 ]\n while true\n fast = nums[ fast ]\n fast = nums[ fast ]\n slow = nums[ slow ]\n if fast == slow\n new_node = nums[ 0 ]\n while new_node != slow\n new_node = nums[ new_node ]\n slow = nums[ slow ]\n end\n return slow\n end\n end\n end\nend", "def hash_two_sum(arr,target_sum)\n #creates a new hash with each element that is satisfying the target_sum\n hash = Hash.new(0) #{|h,k| h[k] = []}\n (0...arr.length).each { |i| hash[i] = arr[i]} #O(n)\nend", "def find_duplicate_space(nums)\n # sort nums first (lgn), then check for dups by iterate over (n)\n last_seen = 0\n nums.sort!.each do |num|\n return num if last_seen == num\n last_seen = num\n end\nend", "def okay_two_sum?(arr, target)\n arr = arr.sort #n log n\n (0...arr.length).each do |i| #n\n search = bsearch(arr, target-arr[i]) # log n\n return true unless search.nil?\n end #n log n\n false\nend", "def equal(arr)\n size = arr.size\n hash = Hash.new{|h,k| h[k] = []}\n (0...size).each do |i|\n (i + 1...size - 1).each do |j|\n sum = arr[i] + arr[j]\n if hash.has_key?(sum)\n values = hash[sum]\n values << i\n values << j\n return values\n else\n hash[sum] = [i, j]\n end\n end\n end\nend", "def two_sum?(array, target)\n #O(n)\n hash = Hash.new(0)\n i = 1\n array.each do |ele|\n hash[ele] = i \n i += 1\n end\n hash.each_key do |k|\n return true if hash.has_key?(target - k) && hash[k] != hash[target - k]\n end\n false \nend", "def findDiffSquares(n)\n sum = 0\n (1..n).each { |i|\n (1..n).each { |j|\n sum += i*j unless i == j\n }\n }\n sum\nend", "def solution(a)\n n = a.size\n return 0 unless n > 2\n a.sort!\n\n (2..n - 1).each do |i|\n return 1 if a[i - 2] + a[i - 1] > a[i]\n end\n\n return 0\nend", "def solution(a)\n counter = Hash.new(0)\n a.each do |elem|\n counter[elem] += 1\n end\n\n (1..a.size).each do |number|\n return 0 if counter[number] != 1\n end\n\n 1\nend", "def largest_contiguous_subsum(arr) #BigO of O(n)\n max = 0 \n current_sum = 0\n arr.each_with_index do |el,idx|\n if current_sum + el >= el \n current_sum += el \n else \n current_sum = el \n end \n max = current_sum if current_sum > max \n end \n max\nend", "def my_min_2(array)#O(n)\n array.inject do |acc, ele|#O(n)\n if acc < ele\n acc\n else\n ele\n end\n end\nend", "def efficient_contiguous_subsum(list)\n current_sum = list[0] #0\n largest_sum = list[0] #5\n # debugger\n (1...list.length).each do |i| \n if current_sum + list[i] > 0 \n current_sum += list[i] \n largest_sum = current_sum if current_sum > largest_sum\n else \n current_sum = 0\n end \n end \n largest_sum\nend", "def seesaw?(arr)\n left_sum = 0\n arr.each_index do |i| #O(n)\n if i > 0\n left_sum = arr[0...i].reduce(:+) #O(n)\n end\n if i < arr.size-1\n right_sum = arr[i+1..-1].reduce(:+); #O(n)\n else\n right_sum = 0\n end\n if left_sum == right_sum\n return true\n end\n end\n return false\nend", "def solution(a)\n len = a.size\n unique = {}\n i = 0\n while i < len\n item = a[i]\n if unique.has_key?(item)\n unique[item] += 1\n else\n unique[item] = 1\n end\n i += 1\n end\n pairs = 0\n unique.each do |key,count|\n (1...count).step {|n| pairs += n }\n end\n return pairs > 1_000_000_000 ? 1_000_000_000 : pairs\nend", "def two_sum?(arr, target_sum) # O(N)\n hash = Hash.new(0)\n count = Hash.new(0)\n\n arr.each do |num|\n hash[num] = target_sum - num\n count[num] += 1\n end\n\n hash.each do |key, value|\n if hash.has_key?(value) \n if key == value \n if count[value] > 1\n return true\n end\n else\n return true\n end\n end\n end\n\n false\nend", "def two_sum(arr) #o(ns)\n set = Set.new\n arr.each{|el| set << el}\n arr.select{|el| set.include?(-1 * el)}\nend", "def solution(a)\n # write your code in Ruby 2.2\n num_of_elements=a.length\n num_of_zeros=0\n tot_num_car_pairs=0\n a.each do |element|\n if element == 0\n num_of_zeros+=1\n else\n tot_num_car_pairs+=num_of_zeros\n end\n end\n return tot_num_car_pairs>1_000_000_000?-1:tot_num_car_pairs\nend", "def fibonacci(n)\n return fib_helper([0, 1], 2, n)\n # if you'd like to test what i THINK is an O(1) space complexity solution.....\n # i did run this through the tests and it SHOULD work:\n # return faster_fib_helper([0, 1], 2, n)\nend", "def largest_contiguous_subsum1(list)\n p Time.now\n sub_arrays = []\n list.each_index do |i|\n list.each_index do |j|\n next if j < i\n sub_arrays << list[i..j]\n end\n end\n sub_arrays.map{|numbers| numbers.inject(:+)}.max\n p Time.now\nend", "def stones(n, a, b)\n ar=[0]\n (n-1).times do |val|\n tmp=[]\n ar.each do |v|\n tmp << v+a if !tmp.include?(v+a)\n tmp << v+b if !tmp.include?(v+b)\n end\n ar=tmp\n end\n ar.sort\nend", "def find_amicables(n)\n pairs = []\n sum = 0\n for i in 0..n do \n next if pairs.include? i\n d = sum_proper_divisors(i)\n next if d == i\n p = sum_proper_divisors(d)\n if p == i \n pairs << d\n pairs << i\n sum += d + i\n end\n end\n return sum\nend", "def third_anagram?(str1, str2)\n beginning_time = Time.now\n str1.split(\"\").sort == str2.split(\"\").sort #O(nlogn)\n \"Time complexity of first_anagram: #{(Time.now - beginning_time)}\"\nend", "def better_sum1(arr, target) # this one is going to return true or false\n pairs = Set.new\n\n arr.each do |ele|\n if pairs.include?(ele)\n return true\n else\n pairs << target - ele\n end\n end\n false\nend", "def largest_contiguous_subsum2(list)\n # O(N) ==> Time\n # O(1) ==> Space\n largest = list.first\n curr = list.first\n\n len = list.length\n (1...len).each do |i|\n curr = 0 if curr < 0 \n curr += list[i]\n largest = curr if curr > largest\n end\n largest\nend", "def largest_contiguous_sub_sum2(arr)\n #one varable tracks largest sum\n #one variable tracks current sum\n #O(n) + O(1)\n # list = [2, 3, -6, 7, -6, 7]\n\n # largest_sum= arr.first\n\n # i = 0\n # arr_end = true\n\n # while arr_end\n # current_sum = arr[i]\n # if arr[i+1] == nil\n # arr_end = false\n # puts \"This is current sum: #{current_sum}\"\n # else\n # if current_sum > largest_sum\n # current_sum += arr[i+1]\n # largest_sum = current_sum\n # end\n # end\n # if i < arr.length\n # arr_end = true\n # i += 1\n # end\n # end\n # largest_sum\n \n\n\n # arr.each_with_index do |ele, idx|\n # if ele > largest_sum\n # largest_sum = ele\n # end\n\n # i = idx\n # sum = ele\n # while i < arr.length - 1\n # if sum <= sum + arr[i+1]\n # largest_sum = sum + arr[i+1]\n # end\n # sum = sum + arr[i+1]\n # i+=1\n # end\n # end\n # largest_sum\n\nend", "def find3(a, X)\n # scan through array\n # build hash storing complement in each key\n complements = {}\n a.each_with_index do |val, ind|\n if complements[X - val]\n complements[X - val].push(ind)\n else\n complements[X - val] = [ind]\n end\n end\n\n # scan through the array again\n # get complement\n # for each value scan the remainder of the arrray\n # for a value such taht a + b = the complement\n\n # for each character we have built a dictionary such that, we can find\n # x = a + complement\n\n # [1, 2, 3]\n # 1 + 2 = 3\n # 1 + 3 = 4 =>\n\n # for each value in the array (a) look at all following values (b) and see if a + b\n # is in the dictionary, if it is, check that their indices do not collide with the index\n # stored at dict(a+b)\n\n a.each_with_index do |va, i|\n a.each_with_index do |vb, j|\n break if i == j\n\n complement = va + vb\n indices = complements[complement]\n\n indices.each do |z|\n # every index is unique\n return [i, j, z] unless z == i || z == j\n end\n end\n end\n\n return nil\nend", "def three_sum(nums)\n n = nums.length\n result = []\n for i in 0...n-2\n req_sum = 0\n hsh = Hash.new\n curr_sum = req_sum - nums[i]\n \n for j in (i+1)...n\n num = curr_sum - nums[j]\n if hsh[num]\n elements = [nums[i], num, nums[j]].sort\n result << elements unless result.include?(elements)\n end\n hsh[nums[j]] = true\n end \n end\n result\nend", "def three_sum_fast(arr)\n arr = merge_sort(arr)\n count = 0\n\n (0..arr.length - 1).each { |i|\n (i + 1..arr.length - 1).each { |j|\n if bin_search(arr, -arr[i] - arr[j]) > j\n count += 1\n end\n }\n }\n count\nend", "def sum_upon_sums(array)\n # Step 0: initialize variables => O(1)\n max = -1\n sum = 0\n\n # Step 1: Get Max and Sum => O(n)\n array.each do |num|\n max = num if num >= max\n sum += num\n end\n\n # Step 2: Get summation => O(1)\n summation = max * (max + 1) / 2\n\n # Step 3: Return Missing value by subtracting summation and sum => O(1)\n summation - sum\nend", "def main\n\n sum = 0\n\n (0..999).each do |i|\n sum += check(i)\n end\n\n puts \"Total - O(n) #{sum}\"\n\n # Needed to refresh following: https://en.wikipedia.org/wiki/Arithmetic_progression\n sum2 = sum_multiples(3, 1000) + sum_multiples(5, 1000) - sum_multiples(15, 1000)\n\n # Refreshed Big O too : http://stackoverflow.com/questions/487258/plain-english-explanation-of-big-o \n puts \"Total - O(1) #{sum2}\"\n\nend", "def largest_contiguous_subsum_1(list) \n subs = [] #O(1)\n (0...list.length).each do |start_num| #O(n)\n (start_num...list.length).each do |end_num| #O(n)\n subs << list[start_num..end_num] #O(n)\n end\n end\n subs_sum = [] #O(1)\n subs.each do |sub| #O(n**2)\n sub_sum = 0 #O(1)\n sub.each {|s| sub_sum += s} #O(n)\n subs_sum << sub_sum #O(1)\n end\n subs_sum.inject do |acc,el| #O(n)\n if acc > el #O(1)\n acc #O(1)\n else\n el #O(1)\n end\n end\n end", "def running_time(array)\n cnt = 0\n (1...(array.length)).each do |x|\n y = x\n while y.positive?\n break unless array[y - 1] > array[y]\n\n temp_num = array[y]\n array[y] = array[y - 1]\n array[y - 1] = temp_num\n cnt += 1\n y -= 1\n end\n end\n cnt\nend", "def two_sum_v3?(arr, target) \n hash = Hash.new\n arr.each { |ele| hash[ele] = ele } #o(n)\n arr.each do |ele| #o(n)\n search_value = target - ele\n return true if !hash[search_value].nil? && hash[search_value] != ele\n end\n false\nend", "def naive_algorithm(arr)\n\tproduct = 0\n\tarr.each do |i|\n\t arr.each do |j|\n\t \tp = arr[i] * arr[j]\n\t \tproduct = p if product < p\n\t end\t\n\tend\t\t\n\tproduct\nend", "def remove_duplicates(nums)\n record_leng = 0\n uniq_arr = nums.uniq\n uniq_arr.each do |i|\n record_leng += 1 if count_great_two?(nums, i)\n end\n return (record_leng + uniq_arr.size)\nend", "def solution(a)\n a.uniq.count\nend", "def naive(array)\n max = -10000\n for i in (0..array.length - 1)\n for j in (i..array.length - 1)\n total = array[i..j].inject { |m,k| m + k }\n max = total if total > max\n end\n end\n max\nend", "def intersect nums1, nums2\n result = []\n return result if nums1.size == 0 or nums2.size == 0\n\n counter_cache = {}\n counter_cache = nums1.inject({}) { |result, n|\n result[n] ||= 0\n result[n] += 1\n result\n }\n\n nums2.each do |n|\n if counter_cache[n] and counter_cache[n] > 0\n result << n\n counter_cache[n] -= 1\n end\n end\n result\nend", "def fifth_anagram?(word1, word2) # O(n)\n \n p \"Running fifth_anagram...\" \n\n start = Time.now\n \n hash1 = Hash.new(0)\n # hash2 = Hash.new(0)\n\n word1.each_char {|char| hash1[char] += 1}\n word2.each_char {|char| hash1[char] += 1}\n\n hash1.values.all? {|v| v.even?}\n\n\n # puts \"Took #{Time.now - start} seconds\"\n\n \nend", "def fds(n)\n\n # arr = []\n # (n + 1).times.each{|e| arr << e if e > 0}\n # arr.flat_map.reduce(:*)\n # arr.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n (1..n).to_a.flat_map.reduce(:*).to_s.split(//).map(&:to_i).reduce(:+)\n\nend", "def my_min_2(nums) # O(n)\n smallest = 0\n nums.each do |num|\n smallest = num if num < smallest\n end\n smallest\nend", "def my_min2 # O(n) time complexity\n smallest = self.first\n self.each do |num|\n sleep(1)\n smallest = num if num < smallest \n end\n smallest\n end", "def solution(a)\r\n # write your code in Ruby 2.2\r\n \r\n arr =[]\r\n a.each_with_index{|el,i|\r\n \r\n if !arr.index(el) \r\n arr << el\r\n end\r\n \r\n }\r\n arr.count\r\nend", "def solution_slow_2(n, p, q)\n sieve = sieve_of_erathosteneses(n)\n # puts \"sieve:#{sieve}\"\n semi = semiprimes(n, sieve)\n # puts \"sp:#{semi}\"\n prefix = [0,0,0,0,1]\n 5.upto(n) do |x|\n if semi.include? x \n prefix << prefix.last + 1\n else\n prefix << prefix.last\n end\n end\n # puts \"prefix:#{prefix}\"\n\n queries = [p,q].transpose\n\n\n res = queries.map do |query|\n prefix[query.last] - prefix[query.first - 1]\n end\n\n # puts \"res:#{res}\"\n\n res\n end", "def two_sum?(arr, target_sum)\n hash = {}\n arr.each do |ele|\n diff = target_sum - ele\n return true if hash.has_key?(diff) # O(1), or constant time\n hash[ele] = 0\n end\n false\nend", "def amicable_numbers(n)\r\n numbers = Array.new\r\n 2.upto(n) do |x|\r\n y = d(x)\r\n if !numbers.include?(y)\r\n numbers.push(x,y) if d(y) == x && y != x\r\n end\r\n end\r\n return numbers\r\nend", "def lAS(n: 0)\n array = [1]\n puts \"#{array.inspect}\"\n previous = array.first\n new_array = []\n counter = 0\n \n n.times do\n previous = array.first\n counter = 0\n new_array = []\n \n array.each do |element|\n if(element == previous)\n counter = counter + 1\n else\n new_array << counter\n new_array << previous\n counter = 1\n previous = element\n end\n end\n \n new_array << counter\n new_array << previous\n array = new_array.dup\n puts \"#{array.inspect}\"\n end\nend", "def sub_sum_better(list)\n largest_sum = list.first\n\n #iterate over once.\n # as you iterate keep a tally of the sum.\n # indexing into an array is O(1)\n # [2, 3, -6, 7, -6, 7]\n\n sub_sum = 0\n list.each do |el|\n sub_sum += el\n largest_sum = sub_sum if sub_sum > largest_sum\n\n sub_sum = 0 if sub_sum < 0\n end\n\n largest_sum\nend", "def bad_two_sum?(arr, target)\n arr.each_with_index do |num1, idx1| #O(n)\n arr.each_with_index do |num2, idx2| #O(n)\n return true if idx2 > idx1 && num1 + num2 == target #O(1)\n end\n end\n false\nend", "def okay_two_sum?(arr, target)\n sorted = arr.sort # n log n => quicksort => is nlogn DOMINANT\n sorted.each_with_index do |num, i| # => O(n)\n # return true if sorted[i] + sorted[-1 - i] == target\n return true if sorted[i + 1 .. - 1].bsearch {|number| target - num <=> number} # => O(log(n))\n # ASK TA ABOUT BSEARCH\n # bsearch {|ele| pivot <=> ele}\n end\n false\nend", "def canBeSum(n, array, cache)\n\ti = 0\n\twhile array[i] <= n / 2\n\t\tif cache[n-array[i]] # array.include?(n-array[i]) is OK, but very slow\n\t\t\treturn true\n\t\tend\n\n\t\ti += 1\n\tend\n\n\treturn false\nend", "def better_subsum(arr) # o(n)\n largest = 0 \n sum = 0 \n i = 0 \n j = 0\n\n while i != arr.length-1\n largest += arr[j]\n sum = largest if largest > sum \n if j == arr.length-1 \n i+=1 \n j = i \n largest = 0 \n else\n j+=1\n end \n end \n sum \n end", "def solution(a)\n s= a.sort\n 0.step(s.size - 1).inject(0) do |result, x|\n z= x+2\n (x+1).step(s.size - 1).inject(result) do |acc, y|\n z+=1 while z < s.size && s[x] + s[y] > s[z]\n acc += z-y-1\n end\n end\nend", "def solution(a)\n return 1 if a.empty?\n a.sort!\n return 1 if a.first > 1\n return a.first + 1 if a.length <2\n (0..(a.length)).each do |index|\n return a[index] + 1 if a[index] + 1 != a[index + 1]\n end\n return a.last + 1\nend", "def solution(a)\n # write your code in Ruby 2.2\n n = a.length\n \n counter = Array.new(n+1, 0)\n \n a.each do |x|\n counter[x-1] += 1\n end\n \n return counter.index { |x| x == 0 } + 1\nend", "def solution(a)\n min_val = 10_000\n min_pos = 0\n \n sums = [0]\n for i in (0..a.count - 1) \n sums << sums.last + a[i] \n end\n for p in (0..a.count - 2)\n for q in (p + 1..[p + 2, a.count - 1].min)\n s = (sums[q + 1] - sums[p]).to_f / (q - p + 1)\n if s < min_val\n min_val = s\n min_pos = p\n end\n end\n end\n min_pos\nend", "def fast_hash_additive_find(arr, target)\n lookup_table = Hash.new\n\n arr.each do |element|\n return true if lookup_table[target - element]\n if lookup_table[element]\n lookup_table[element] += 1\n else\n lookup_table[element] = 1\n end\n end\n\n return false\n end", "def move_zeros(array)\n zero_count = 0\n # O(n)\n array.each do |num|\n\n zero_count += 1 if num == 0\n end\n\n # O(n)\n array = array.select { |num| num != 0 }\n \n # O(1)\n zero_count.times do\n array += [0]\n end\n\n array\nend", "def largest_cont_subsum_fast(list)\n # for constant size to be true, you cant create any variables\n # whose memory size depends on the size of the input\n curr_sum = list[0]\n largest_sum = list[0]\n\n # we know there are n^2 potential, so if we ever check all of them\n # it must be n^2\n\n # there must be a way to find the max without checking every subarray\n list[1..-1].each do |ele|\n # debugger\n if curr_sum > largest_sum\n largest_sum = curr_sum\n end\n\n if curr_sum < 0\n curr_sum = 0\n end\n\n curr_sum += ele\n\n end\n\n # debugger\n return [largest_sum, curr_sum].max\n\nend", "def my_min1(arr)\n arr.each do |el1| #O(n)\n if arr.all? {|el2| el1 <= el2 } #O(n + 1)\n return el1\n end\n end \nend", "def find_duplicates(a)\n len=a.length\n n=len-2\n xor= 0\n x,y=0,0 #variables to store duplicates\n \n #xor of all numbers from 1 to n\n for i in 1..n \n xor^=i\n end\n #xor of all array elements\n for i in 0...len \n xor^=a[i]\n end\n #Rightmost set bit\n set_bit_pos= xor & ~(xor-1)\n #Divinding array in two sets ,one with set bit at set_bit_pos and other with 0.\n for i in 0...len\n if (a[i] & set_bit_pos == 0)\n x^=a[i] # XOR of first-set(with 0 at set_bit_pos) in array\n else\n y^=a[i] # XOR of second-set(with 1 at set_bit_pos) in array\n end\n end\n \n for i in 0..n\n if (i & set_bit_pos == 0)\n x^=i # XOR of first-set(with 0 at set_bit_pos) in range\n else\n y^=i # XOR of second-set(with 1 at set_bit_pos) in range\n end\n end\n print \"#{x} #{y}\"\n\treturn\nend", "def second_anagram?(word_1, word_2) #O(n^2)\n matching_word = word_2.split(\"\")\n\n word_1.each_char do |ele|\n if matching_word.index(ele) #evaluating the conditional\n matching_word.delete_at(matching_word.index(ele)) #n many times, do this\n end\n end\n\n matching_word.empty? #constant O(1)\nend", "def my_min_2(arr) #O(N)\n min_num = arr.first\n \n arr.each { |num| min_num = num if num < min_num }\n \n min_num\n end", "def largest_contiguous_subsum_2(list)\n largest_sum = 0\n current_sum = 0\n\n list.each do |el|\n largest_sum = current_sum \n current_sum += el \n if current_sum < el \n current_sum = el \n end \n largest_sum = current_sum if largest_sum < current_sum\n end\n\n largest_sum\nend", "def solution(a)\n # write your code in Ruby 2.2\n seen = {}\n\n a.each do |number|\n seen[number] = true\n end\n\n max = a.max\n\n for i in 1..(max + 1)\n return i unless seen[i]\n end\n\n 1\nend", "def solution(a)\n accessed = Array.new(a.size + 1, nil)\n caterpillar_back = 0\n count = 0\n\n a.each_with_index do |x, caterpillar_front|\n if accessed[x] == nil\n accessed[x] = caterpillar_front\n else\n new_caterpillar_back = accessed[x] + 1\n first_part_size = caterpillar_front - caterpillar_back\n second_part_size = caterpillar_front - new_caterpillar_back\n count += first_part_size * (first_part_size + 1) / 2\n count -= (second_part_size) * (second_part_size + 1) / 2\n caterpillar_back.upto(new_caterpillar_back - 1) { |n| accessed[a[n]] = nil}\n accessed[x] = caterpillar_front\n caterpillar_back = new_caterpillar_back\n end\n end\n\n remaining_size = a.size - caterpillar_back\n count += (remaining_size) * (remaining_size + 1) / 2\n end", "def solution(a)\n a.sort!\n a.each_with_index do |element, index|\n return 0 if element != index + 1\n end\n 1\nend", "def two_sum?(arr, target)\r\n hash = {}\r\n arr.each_with_index do |ele, i| #n\r\n hash[i] = ele\r\n end\r\n arr.each_with_index do |ele, i| #n \r\n value = target - ele\r\n if hash.has_value?(value) && hash.key(value) != i\r\n return true\r\n end\r\n # all the keys in has except i\r\n # if any of the value = value\r\n end\r\n false\r\nend", "def seesaw2?(arr)\n left_sum = 0\n right_sum = arr.size > 1 ? arr[1..-1].reduce(:+) : 0\n\n arr.each_index do |i| #O(n)\n return true if left_sum == right_sum\n left_sum += arr[i]\n i < arr.size-1 ? right_sum -= arr[i+1] : right_sum = 0\n end\n return false\nend", "def solve( n = 10_000 )\n (1..n).select {|i| i.amicable?}.reduce( :+ )\n end", "def pairSumSequence(n)\n sum = 0\n\n for i in 0..n\n # pairSum calls do not exist simultabeously on\n # the call stack, so you only need O(1) space\n sum += pairSum(i, i + 1)\n puts \"sum += (#{i + i + 1}) #{i} + #{i} + 1 \"\n end\n\n return sum\nend", "def my_min(arr) # Find\n min = arr[0]\n\n arr.each do |el| # Go through array once O(n)\n min = el if el < min # update min while going through if found min\n end\n min\nend", "def better_sum?(arr, target)\n pair_set = Set.new\n\n arr.each do |ele|\n if pair_set.include?(ele)\n return true\n else\n pair_set << target - ele\n end\n end\n\n false\n\nend", "def arrayManipulation(n, queries)\n nums = Array.new(n+1, 0)\n queries.each do |query|\n nums[query[0]-1] += query[2]\n nums[query[1]] -= query[2]\n end\n\n max = nums.first\n (1..nums.length-1).each do |i|\n nums[i] += nums[i - 1]\n max = nums[i] if nums[i] > max && i < (nums.size - 1)\n end\n\n max\nend", "def solution(a)\n # write your code in Ruby 2.2\n sum = a.inject(:+)\n acc = 0\n\n min = 99999999\n a[0..-2].each do |n|\n sum -= n\n acc += n\n\n min = [(acc - sum).abs, min].min\n end\n min\nend", "def solution(a)\r\n # write your code in Ruby 2.2\r\n #trangular\r\n # a[0] = 10\r\n # a[2] = 5\r\n # a[4] = 8\r\n # 10 + 5 > 8\r\n # 5 + 8 > 10\r\n #8 + 10 > 5\r\n \r\n \r\n l=a.count\r\n \r\n i=0\r\n while(i<l) do\r\n j=i+1\r\n while(j<l) do\r\n k=j+1\r\n \r\n \r\n while(k<l) do\r\n if((a[i] + a[j] > a[k]) && (a[j] +a[k] > a[i]) && (a[k] + a[i] >a[j]))\r\n return 1\r\n end\r\n k+=1 \r\n end \r\n \r\n j+=1 \r\n end\r\n i+=1\r\n end\r\n \r\n return 0\r\n \r\nend", "def find_it(seq)\n uniqueInts=seq.uniq\n\n uniqueInts.each do |value|\n k=0\n seq.each do |mainSeq|\n k+=1 if mainSeq==value\n end\n return value if k%2==1\n end\nend", "def largest_contiguous_subsum(list)\n new_arr = []\n\n (0...list.length).each do |idx1| #O(n)\n (0...list.length).each do |idx2| #O(n)\n if idx2 >= idx1 #O(1)\n new_arr << list[idx1..idx2].sum #O(1)\n end \n end \n \n end \n \n return new_arr.max #O(n)\nend", "def unique_items(arr) #O(n)\n hash = Hash.new(0)\n results = []\n arr.each do |el|\n hash[el] += 1\n end\n hash.select { |k, v| k if v == 1 }.keys\nend", "def largest_contiguous_subsum_fast(list)\n start = Time.now\n max_sum = list[0]\n cur_sum = list[0]\n list[1..-1].each do |el|\n if el >= cur_sum && cur_sum < 0\n cur_sum = el\n else\n cur_sum += el\n end\n max_sum = cur_sum if cur_sum > max_sum\n end\n finish = Time.now\n puts \"Runtime: #{finish - start}\"\n return max_sum\nend", "def fast_lcss(arr)\n i_arr = []\n biggest = 0\n max_sub_arr = []\n arr.length.times do |x|\n arr.map do |ele1|\n i_arr += [ele1]\n sum = i_arr.inject(0) do |a, b|\n a + b\n end\n max_sub_arr = i_arr if sum > biggest\n biggest = sum if sum > biggest \n end\n i_arr = []\n arr.shift\n end\n max_sub_arr\nend", "def sum_to_n? arr, n\n #arr.product(arr).any? {|c| sum(c) == n && c[0] != c[1] } ----1.3\n arr = arr.sort\n low = 0\n high = arr.length - 1\n while low < high\n if arr[low] + arr[high] == n\n return true\n end\n arr[low] + arr[high] < n ? low += 1 : high -= 1 \n end\n return false\nend", "def two_sum(nums, target)\n table = {}\n i = 0\n while i < nums.length\n table[target - nums[i]] = i\n i += 1\n end\n \n j = 0\n while j < nums.length\n if table.key?(nums[j]) && j != table[nums[j]]\n return [j, table[nums[j]]] \n end\n j += 1\n end\nend", "def josephus_survivor(n,k)\n arr = (1..n).to_a\n\n while arr.length > 1\n idx = k % arr.length\n\n if arr.length > k\n arr = arr.drop(k) + arr.take(k - 1)\n elsif arr.length == k \n arr = arr[0...-1]\n else\n arr = arr.drop(idx) + arr.take(idx - 1)\n end\n end\n \n arr[0]\nend", "def fourth_anagram?(str1, str2)\n hash1 = Hash.new(0)#O(1)\n beginning_time = Time.now\n str1.each_char {|char| hash1[char]+=1}#O(n)\n str2.each_char {|char| hash1[char]-=1}#O(n)\n hash1.all? {|_, v| v.zero?}#O(n)\n \"Time complexity of first_anagram: #{(Time.now - beginning_time)}\"\nend", "def largest_contiguous_subsum(list) # O(n^2)\n array = []\n list.each_with_index do |ele1, i1| # O(n^2)\n (i1...list.length).each do |i2|\n array << list[i1..i2]\n end\n end\n\n max_sum = array.first.sum\n array[1..-1].each do |subarr| # O(n^2)\n sum = subarr.sum\n if sum > max_sum\n max_sum = sum\n end\n end\n\n max_sum\n\nend", "def slow_solution(a)\n m = 0\n a.size.times do |i|\n a[i] = a[i].abs\n m = [a[i], m].max\n end\n maxsum = a.sum # sum of absolute val of all nums in array\n # maxsum = a.map(&:abs).sum <- Ruby shortcut\n\n # If dp = 1 at an index, it means some combo of elements in a add up to that index\n dp = [0] * (maxsum + 1)\n dp[0] = 1\n\n a.size.times do |j|\n maxsum.downto(0).each do |possible_sum|\n puts \"a[j]: #{a[j]}, possible sum: #{possible_sum}\"\n if (dp[possible_sum] == 1) and (possible_sum + a[j] <= maxsum)\n\n # if possible_sum + new element a[j] is possible sum, dp = 1!\n dp[possible_sum + a[j]] = 1\n puts \"Mark #{possible_sum + a[j]} as possible sum in dp\"\n end\n end\n puts \"row: #{j}, a[j]: #{a[j]}, dp: #{dp}\"\n puts\n end\n\n min_q_minus_p = maxsum\n\n # Divide array a into 2 parts, where P = sum of part 1 and Q = sum of part 2,\n # P + Q = maxsum, and P <= maxsum / 2 <= Q.\n # We want largest possible P to get smallest possible Q-P.\n\n # loop from 0 to maxsum / 2, covering every possible P, Q division\n (maxsum / 2 + 1).times do |possible_half_sum|\n # puts \"possible_half_sum: #{possible_half_sum}\"\n if dp[possible_half_sum] == 1 # means P or Q = possible_half_sum\n q_minus_p = maxsum - 2 * possible_half_sum\n # puts \"Q - P: #{q_minus_p}\"\n min_q_minus_p = [min_q_minus_p, q_minus_p].min\n # puts \"min Q - P: #{min_q_minus_p}\"\n end\n end\n\n min_q_minus_p\nend" ]

[ "0.6914348", "0.6609048", "0.6416534", "0.63194925", "0.62016535", "0.61871785", "0.60697335", "0.6059072", "0.6053246", "0.6047552", "0.6037029", "0.5990324", "0.5985229", "0.5983502", "0.59483737", "0.5907289", "0.58986485", "0.5894127", "0.589302", "0.5891029", "0.5862035", "0.58598244", "0.5858714", "0.5855247", "0.5843146", "0.58418566", "0.58414876", "0.5833874", "0.5817489", "0.5815855", "0.5806325", "0.580488", "0.5772253", "0.5772051", "0.57717395", "0.5765617", "0.57646245", "0.57498574", "0.5738152", "0.5717594", "0.5713044", "0.57074326", "0.5705395", "0.5694224", "0.56867945", "0.5683187", "0.5679512", "0.5672323", "0.5669691", "0.56692356", "0.56663734", "0.56610006", "0.5658108", "0.565659", "0.56565076", "0.56472635", "0.56471044", "0.5646928", "0.564319", "0.5639335", "0.5632905", "0.5631649", "0.56315875", "0.5626763", "0.5620871", "0.5610765", "0.56105435", "0.56097084", "0.5607952", "0.5605864", "0.5603876", "0.5602009", "0.559539", "0.5590729", "0.55905277", "0.5582398", "0.5571507", "0.55680686", "0.5566327", "0.55646074", "0.5564035", "0.55635667", "0.555963", "0.5559094", "0.5558474", "0.55533934", "0.5552461", "0.5547638", "0.55440915", "0.55439085", "0.5540858", "0.55365527", "0.5531126", "0.55287385", "0.55236286", "0.55215394", "0.55211776", "0.5519715", "0.5519587", "0.55128413", "0.5511962" ]

[ "def stack; end", "def stack; end", "def inorder_traversal_i(root)\n # declare a queue (Stack)'\n # declare an array variable\n # until root.value.nil? \n # push all the left nodes to the stack\n # once reach to root.value, push stack value to array \n arr = []\n stack = Queue.new \n currentNode = root\n while (!currentNode.nil? || !stack.empty?)\n while !currentNode.nil?\n stack.push(currentNode)\n currentNode = root.left\n end \n currentNode = stack.pop \n arr.push(currentNode.val)\n currentNode = currentNode.right \n end \n return arr\n\nend", "def push(val)\n if @stacks.empty?\n @stacks[0] = [val]\n if @capacity > 1\n @left[0] = 0\n else\n @right[0] = 0\n end\n else\n @left << @stacks.size if @left.empty?\n index = @left[0]\n @stacks[index] ||= []\n @stacks[index] << val\n if @stacks[index].size == @capacity\n @left.shift\n i = @right.bsearch_index { |j| j >= index } || @right.size\n @right.insert(i, index)\n end\n end\n end", "def to_stack; end", "def sort_stack(a)\n if a.empty?\n return\n end\n \n b = Stack.new\n \n until a.empty?\n \n temp = a.pop\n popped = 0\n \n until b.empty? || temp >= b.peek\n a.push(b.pop)\n popped +=1\n end\n \n b.push(temp)\n\n popped.times do\n a.push(a.pop)\n end\n end\n \n return b\nend", "def solution(a)\n stones = 0\n stack = []\n a.each do |height|\n stack.pop while stack.any? && stack.last > height\n next if stack.any? && stack.last == height\n stack << height\n stones += 1\n end\n stones\nend", "def push(ele)\n \n if(@stk.size == nil)\n\t p \"Stack full\"\n\telse\n @count = @count + 1\n\t @stk[@count] = ele\t \n\tend\n end", "def sort_stack(stack)\n return stack\nend", "def solution(h)\n h.inject([1, [h.first]]) do |(blocks, stack), n|\n next [blocks+1, stack.push(n)] if stack.last < n\n stack.pop while stack.any? && stack.last > n\n next [blocks, stack] if stack.last == n\n \n [blocks+1, stack.push(n)]\n end.first\nend", "def push(element)\n #if the stack is already full or the element is nil, do nothing\n if full? or element.nil?\n nil\n else\n #Add 1 to the value of @top\n @top = @top.succ\n #sets the value at the top of the stack to element\n @store[@top] = element\n #returns it self\n self\n end\n end", "def push(element)\n # we can't put nil onto the stack, and we can't add to the stack if it is full\n if full? or element.nil?\n nil\n else\n # we need to move our top marker to the new element, which is now the top\n @top = @top.succ\n # and we actually put that element here, in our new top index\n @store[@top] = element\n # explicit return of the stack, i think\n self\n end\n end", "def reverse(stack)\n if !stack.is_empty?\n temp = stack.pop\n reverse(stack)\n insert_at_bottom(stack, temp)\n end\nend", "def push(element)\n #if the stack is full or the element is nil don't add it to the stack\n if full? or element.nil?\n nil\n else\n #increment top by one\n @top = @top.succ\n #store the element in the new top's position\n @store[@top] = element\n #return the instance of the stack\n self\n end\n end", "def push(element)\n #if the stack is full or the element is nil don't add it to the stack\n if full? or element.nil?\n nil\n else\n #increment top by one\n @top = @top.succ\n #store the element in the new top's position\n @store[@top] = element\n #return the instance of the stack\n self\n end\n end", "def question_one\n stack = Stack.new\n stack.push(3)\n stack.push(5)\n stack.push(2)\n stack.push(4)\n stack.push(1)\n stack.pop\n stack.pop\n stack.pop\n stack.min\nend", "def inorder(node,stack)\n\tif node == nil\n\t\treturn\n\tend\t\n\tinorder(node.left,stack)\n\tstack.push(node.val)\n\tinorder(node.right,stack)\nend", "def solution(a, b)\n stack = [[a[0], b[0]]]\n if a.size > 1\n (1..a.size - 1).each do |i|\n if stack.last[1] <= b[i]\n stack << [a[i], b[i]] # no one dies\n next\n end\n while stack.size > 0 && stack.last[0] < a[i] && stack.last[1] > b[i] # fish to left dies\n stack.pop\n end\n if stack.size == 0 || stack.last[1] == b[i]\n stack << [a[i], b[i]]\n end\n end\n end\n stack.size\nend", "def test_orderOfElements\n @stack.push( 42 )\n assert_equal(@stack.top, 42)\n @stack.push( 84 )\n assert_equal(@stack.top, 84)\n @stack.pop\n assert_equal(@stack.top, 42)\n @stack.pop\n assert_nil(@stack.top)\n end", "def build_stack\n stack = Stack.new\n rand(1..10).times do |i| \n stack.push(i)\n end\n return stack\nend", "def solution(h)\n n = h.size\n return 0 if n == 0\n stack = [h.first]\n blocks = 0\n (1...n).each { |y|\n if h[y] != stack.last\n while !stack.empty? && h[y] < stack.last\n stack.pop\n blocks += 1\n end\n stack << h[y] unless stack.last == h[y]\n end # != last\n }\n blocks += stack.count\nend", "def push_stack\n bb = {:black => get_black,:white => get_white}\n @stack.push(Marshal.load(Marshal.dump(bb)))\n @stack.shift if @stack.size > @options[:stack_limit]\n end", "def push(item)\n @mini_stack.push(item)\n @maxx_stack.push(item)\n @stak.push(item)\n end", "def pick #ø\n a = pop\n raise StandardError, \"stack is not that big\" if size <= a\n b = self[-a]\n push a\n push b\n end", "def stack(*args); end", "def push(x)\n @stack.push(x)\n @min_stack.push(x) if @min_stack.empty? || @min_stack[-1] >= x\n end", "def is_valid_stack_sequence?(pushed, popped)\n return false if pushed.length != popped.length\n\n debug = false\n puts \"pushed: #{pushed}, popped: #{popped}\" if debug\n\n working_stack = []\n \n popped_index = 0\n pushed_index = 0\n \n while (pushed_index < pushed.length)\n puts \"pop_i: #{popped_index}, push_i: #{pushed_index}\" if debug\n \n # check the stack for matches\n while working_stack[-1] && working_stack[-1] == popped[popped_index]\n pop = working_stack.pop\n popped_index += 1\n puts \"popped #{pop}, pop_i incr. to #{popped_index} in 1st while loop\" if debug\n end\n \n # increment pushed index until we find a match with current popped\n if (pushed[pushed_index] == popped[popped_index])\n pushed_index += 1\n popped_index += 1\n else \n # add pushed entry to stack for later comparison\n working_stack.push pushed[pushed_index]\n pushed_index += 1\n end\n end\n puts \"working_stack: #{working_stack}, pop_i: #{popped_index}, push_i: #{pushed_index}\" if debug\n while popped_index < popped.length \n if popped[popped_index] == working_stack[-1]\n # we found a match\n pop = working_stack.pop\n popped_index += 1\n puts \"popped #{pop}, pop_i incr. to #{popped_index}\" if debug\n else\n puts \"No match at end of stack. returning false\" if debug\n return false\n end\n end \n \n # if we're off the end of the popped array, we're done\n if working_stack.size > 0 || popped_index < popped.length\n puts \"stack: #{working_stack}, pop_i: #{popped_index}, returning false\" if debug\n return false\n end\n puts \"returning true\" if debug\n return true \n\nend", "def dfs(root)\n return if root.nil?\n @stack << root\n @hash[root] = [root.val]\n @stack.each do |node|\n @hash[node] << root.left&.val\n @hash[node] << root.right&.val\n end\n dfs(root.left)\n dfs(root.right)\n @stack.pop\nend", "def push(element)\n # if Stack is full or the element you're trying to add = nil, cannot add anything\n if full? or element.nil?\n nil\n else\n # +1 added to @top because there is one more item in the Stack\n @top = @top.succ\n # new item actually added to @store array\n @store[@top] = element\n # returns Stack\n self\n end\n end", "def stack_as_array\n puts \"Stack as array: \"\n arr = [1,3,4,5,6,7]\n print arr\n puts\n\n puts \"Pop top element (7):\"\n puts arr.pop\n print arr\n puts\n\n puts \"Push element (8):\"\n arr.push(8)\n print arr\n puts\n puts\nend", "def stack\n @stack\n end", "def calc_stacks(n, stack_size=64)\n [stacks = (n / stack_size).floor, n - (stacks * stack_size)]\nend", "def stack_sort(stack)\n min = 1.0/0.0\n count = 0\n length = stack.length\n to_sort = stack\n storage = Stack.new\n until count == length\n sorted = true\n until to_sort.is_empty?\n test_el = to_sort.pop\n min = test_el < min ? test_el : min\n storage.push(test_el)\n end\n count += 1\n until storage.length < count\n test_el = storage.pop\n if test_el == min\n temp_var = test_el\n until storage.length < count\n to_sort.push(storage.pop)\n end\n else\n to_sort.push(test_el)\n end\n end\n storage.push(temp_var)\n min = 1.0/0.0\n end\n storage.length.times do\n to_sort.push(storage.pop)\n end\n to_sort\nend", "def zig_zag(node)\n\tcurrent_stack = [] # Stack to store elements of current level\n\tnext_stack = [] # Stack to store elements of next level\n\tleft_or_right = 1 # Flag to maintain direction\n\tcurrent_stack.push(node)\n\t# Traverse till current stack is not empty\n\twhile !current_stack.empty? do\n\t\tpopped_item = current_stack.pop\n\t\tprint popped_item.val\n\t\tif left_or_right # Based on direction boolean insert item in stack to attain zigzag order\n\t\t\tif popped_item.left\n\t\t\t\tnext_stack.push(popped_item.left)\n\t\t\tend\t\n\t\t\tif popped_item.right\n\t\t\t\tnext_stack.push(popped_item.right)\n\t\t\tend\n\t\telse\t\t\t\t\t\t\n\t\t\tif popped_item.right\n\t\t\t\tnext_stack.push(popped_item.right)\n\t\t\tend\t\n\t\t\tif popped_item.left\n\t\t\t\tnext_stack.push(popped_item.left)\n\t\t\tend\t\n\t\tend\n\t\t# After one level has been traversed, swap current stack with next stack and reverse direction boolean \n\t\tif current_stack.empty?\n\t\t\tleft_or_right = !left_or_right\n\t\t\tcurrent_stack = next_stack\n\t\t\tnext_stack = []\n\t\tend\t\n\tend\t\nend", "def __stack\n @stack ||= []\n end", "def dfs_rec(target,current,array_length,stack,visited)\n left = current.find_left_child[0]\n right = current.find_right_child[0]\n parent = current.find_parent[0]\n if current.value == target\n return current\n elsif visited.length == array_length\n return nil\n elsif !left.nil? && !visited.include?(left)\n stack.push(left)\n visited.push(left)\n dfs_rec(target,left,array_length,stack,visited)\n elsif !right.nil? && !visited.include?(right)\n stack.push(right)\n visited.push(right)\n dfs_rec(target,right,array_length,stack,visited)\n else\n stack.pop\n dfs_rec(target,parent,array_length,stack,visited)\n end\nend", "def push(x)\n @stack.push(x)\n @min_stack.push(x) if @min_stack.empty? || @min_stack[-1] >= x\n end", "def take_from_stack\n stack.pop\n end", "def push(element)\n # beginnig of if statement\n # if the method full? returns true or the value of the local var element is nil\n if full? or element.nil?\n # return nil\n nil\n # if the method full? returns false or the value of the local var element is not nil\n else\n # take the value of the variable @top and add one to it\n # assign this new value back to the var @top\n @top = @top.succ\n # assign the value of the local var element\n # to the position in the array @store at the value of @top\n @store[@top] = element\n # return self\n self\n # end if/else statement\n end\n # end push method\n end", "def test_full_stack_push_and_pop\n puts \"test_full_stack_push_and_pop\"\n (rand(10) + 2).times do\n expects = []\n 100.times do\n expects << random_string\n pr = push(expects[-1])\n assert_equal(0, pr, \"expected 0, got #{pr}\")\n end\n\n 100.times do\n r = pop\n s = expects.pop\n assert_equal(s, r, \"expected #{s}, got #{r}\")\n end\n end\n end", "def stack\n return (@stack&.stack || [])\n end", "def push(element)\n # get the current length of array\n # because we will be using it several times\n current_length = @items.length\n\n # check if stack is empty\n if @count == 0\n # if so create array with size 1\n @items = Array.new(1)\n elsif @count == current_length\n # if stack is not empty then double size of array\n new_array = Array.new(current_length * 2)\n\n # copy old array onto new array\n @items.each_with_index do |item, i|\n new_array[i] = item\n end\n\n # set items to new_array\n @items = new_array\n end\n\n # set last element to element added\n @items[@count] = element\n\n # add 1 to the count\n @count += 1\n end", "def bs_push(graph, stack, ignore, action, fullpath, label=nil)\n\n # bs_push might be called before there is a graph, stack, or ignore\n graph ||= {}\n stack ||= []\n ignore ||= []\n\n # short circuit if we should ignore this action\n if ignore.include?(action)\n return stack\n end\n\n element = [action, fullpath, label]\n\n # if action closes to what's on top of stack, build stack up\n if graph[action] && stack.last && graph[action].include?(stack.last.first)\n stack.push element\n return stack\n end\n\n # if action already in stack rewind *past* it and place on stack\n # (we rewind past it and push because the path part might be\n # different)\n if i = stack.find_index {|x| x.first == action}\n stack = stack.slice(0,i)\n stack.push element\n return stack\n end\n\n # if none of the clever stuff above happened then just replace top\n # of stack\n if stack.empty?\n return [element]\n else\n stack[-1] = element\n return stack\n end\n\n end", "def stack_list(stack)\n i = 1\n stack.each do |c|\n puts \"#{i}. #{c}\"\n i += 1\n end\nend", "def dfs_stack(graph, v)\n @visited[v] = true\n w = nil\n @stack.push(v)\n graph.adj(v).each do |e|\n w = e.to\n dfs_stack(graph, w) if not @visited[w]\n end\n end", "def handle_stack(arr)\n\t\tmerges = Array.new(NUMBER_OF_SQUARES, :default)\n\t\tfor i in 0..arr.length - 1\n\t\t\tif arr[i] == 0\n\t\t\t\tfor j in i+1..arr.length-1 do\n\t\t\t \tif arr[j] != 0\n \t\t\t\tarr[i],arr[j] = arr[j], arr[i]\n \t\t\t\tif merges[j] == :merge\n \t\t\t\t\tmerges[i] = :merge\n \t\t\t\t\tmerges[j] = :default\n \t\t\t\tend\n \t\t\t\tbreak\n \t\t\t\tend\n \t\t\tend\n \t\t\tend\n \t\t\tif arr[i] != 0\n \t\t\tfor j in i+1..arr.length-1 do\n \t\t\t\tif arr[j] == 1 and arr[i] == 1\n \t\t\t\t\tarr[i] = 2\n \t\t\t\t\tarr[j] = 0\n \t\t\t\t\tmerges[i] = :merge\n \t\t\t\t\tbreak\n \t\t\t\telsif @@values.index(arr[j]) != @@values.index(arr[i]) + 1 and @@values.index(arr[j]) != @@values.index(arr[i]) - 1 and arr[j] != 0\n \t\t\t\tbreak\n \t\t\t\telsif @@values.index(arr[j]) == @@values.index(arr[i]) + 1 or @@values.index(arr[j]) == @@values.index(arr[i]) - 1 \n \t\t\t\t\tarr[i] = arr[i] + arr[j]\n \t\t\t\t\tif arr[i] > @@values[-1]\n \t\t\t\t\t\t@@values.push arr[i]\n \t\t\t\t\tend\n \t\t\t\t\tmerges[i] = :merge\n \t\t\t\t\tif arr[i] == 2584 and @already_won == false\n \t\t\t\t\t\t@win = true\n \t\t\t\t\t\t@already_won = true\n \t\t\t\t\tend\n \t\t\t\t\tarr[j] = 0\n \t\t\t\t\tbreak\n \t\t\t\tend\n \t\t\tend\n \t\t\tend\n\t\tend\n\t\treturn arr, merges\n\tend", "def shift_stacks\n if @stack_oldest.top.data == nil\n while @stack_newest.top.data != nil\n value = @stack_newest.pop.data\n @stack_oldest.push(value) if value != nil\n end\n end\n end", "def question_two\n set = SetOfStacks.new(5)\n set.push(3)\n set.push(2)\n set.push(5)\n set.push(1)\n set.push(7)\n set.push(4)\n set.push(2)\n set.push(8)\n set.push(2)\n set.push(1)\n set.push(3)\n set.push(5)\n set.pop\n set.pop_at(1)\n set\nend", "def push(x)\n @stack.push(x)\n end", "def dup\n push @stack.last unless @stack.last.nil?\n end", "def push_array\n <<-CODE\n t1 = stack_pop();\n j = N2I(array_get_total(t1));\n for(j--; j >= 0; j--) {\n stack_push(array_get(state, t1, j));\n }\n CODE\n end", "def pop()\n @min_stack.pop if @min_stack[-1] == @stack[-1]\n @stack.pop; nil \n end", "def sort_stack(stack)\n temp_stack = Stack.new\n\n until stack.empty?\n temp = stack.pop\n\n # while the top element in the temp_stack is greater than temp we push\n # those elements to the stack and push the temp to the temp stack, so\n # temp is always gets to the right place\n while !temp_stack.empty? && temp_stack.peek > temp\n stack.push(temp_stack.pop)\n end\n\n temp_stack.push(temp)\n end\n\n stack.push(temp_stack.pop) until temp_stack.empty?\n\n stack\n end", "def push(x)\n @stack << x \n end", "def inorder_traversal(root)\n return [] if root.nil?\n result = []\n stack = []\n\n while root || !stack.empty?\n while root\n stack.push(root)\n root = root.left\n end\n\n root = stack.pop\n result.push(root.val)\n root = root.right\n end\n\n result\nend", "def sort_stack(stack)\n\n secondary_stack = Stack.new\n sorted = false\n until sorted\n sorted = true\n\n until stack.isEmpty\n popped = stack.pop\n if secondary_stack.isEmpty ||\n popped > secondary_stack.peek ||\n popped == secondary_stack.peek\n secondary_stack.push(popped)\n else\n sorted = false\n # BETTER SOLUTION IS TO KEEP POPPING FROM THE SECONDARY STACK\n # that way you do it all in one pass\n stack.push(secondary_stack.pop)\n secondary_stack.push(popped)\n secondary_stack.push(stack.pop)\n end\n end\n\n until secondary_stack.isEmpty\n stack.push(secondary_stack.pop)\n end\n end\n\n stack.display\n\nend", "def pop()\n @min_stack.pop() if @min_stack[-1] == @stack[-1]\n @stack.pop()\n end", "def build_stack(graph)\n require 'set'\n\n terminals = graph.filter_map { |(from, to)| to.nil? && from }\n stack = [terminals]\n seen = Set.new(terminals)\n deps = []\n\n loop do\n stack[-1].each do |e|\n deps = graph.select { |(from, to)| to == e && !seen.include?(from) }.map do |from, _to|\n seen << from\n from\n end\n stack << deps if deps.any?\n end\n\n break if deps.empty?\n end\n\n stack\n end", "def index\n push stack[-(pop + 1)]\n end", "def do_plus s; a = mega_pop(s); b = mega_pop(s); s[:stack].push(a+b); end", "def push(x)\n @stack1 << x\n end", "def stack_size()\n #This is a stub, used for indexing\n end", "def push(x)\n @stack << x\n end", "def pop_at_stack(index)\n \n end", "def pop\n #if the stack is already empty do nothing\n if empty?\n nil\n else\n #set popped equal to the element at index @top, which isthe top of the stack\n popped = @store[@top]\n #set the value at the top of the stack to nil\n @store[@top] = nil\n # subtract 1 from the value of @top\n @top = @top.pred #@top--\n #returns the value that was popped\n popped\n end\n end", "def push(x)\n stack.push(x)\n end", "def push(element)\n# If the array is too capacity, or if we try to push in nil, return nil.\n if full? or element.nil?\n nil\n# Otherwise, put the element in the array.\n else\n # why do we want @top to be @top + 1?\n @top = @top.succ\n # The element is the next item in the array. I guess if we keep taking the\n # element at index -1, it will be nil. I used pry to investigate:\n # @store=[3, 2, 6, 5, nil, nil]\n # The positions will be occupied by nil if we don't have an element there.\n @store[@top] = element\n # The instance of push will be returned??\n self\n end\n end", "def push(value)\n return \"Stack is full\" if is_full\n\n @stack.push(value)\n @current_size += 1\n end", "def push(x)\n max = @max_stack.empty? ? x : [x, @max_stack[-1]].max\n @max_stack.push(max)\n @stack.push(x)\n end", "def find_unsorted_subarray3(nums)\n left = nums.length\n right = 0\n\n stack = []\n\n nums.each_with_index do |num, index|\n left = [left, stack.pop].min while !stack.empty? && nums[stack.last] > num\n stack.push index\n end\n\n stack.clear\n\n (nums.size - 1).downto(0) do |index|\n right = [right, stack.pop].max while !stack.empty? && nums[stack.last] < nums[index]\n stack.push index\n end\n\n right > left ? right - left + 1 : 0\nend", "def dig\n @stack.push(@stack.slice!(-3))\n end", "def middle_element(stack)\n @middle = nil\n @depth ||= 1 # Creates a counter instance variable to keep track of depth of recursion\n @fold ||= 0 # creates a down instance to keep track when recursion is folding up\n return if stack.is_stack_bottom? # Base case - to stop recursion when stack is empty\n element = stack.pop\n puts \"popped element #{element}\"\n @depth += 1\n middle_element(stack)\n @fold += 1\n if @fold == @depth/2\n puts \"middle element is #{element}\" \n @middle = element\n end\n return @middle\nend", "def question_1(root, target)\n return false if root.nil?\n stack = [root]\n until stack.empty?\n current = stack.pop\n return true if current.value == target.value\n stack << current.right if !current.right.nil?\n stack << current.left if !current.left.nil?\n end\n false\nend", "def inorder\n list = []\n stack = []\n \n current = @root\n while current\n stack << current \n current = current.left\n end\n \n while !stack.empty?\n top = stack.pop\n list << {key: top.key, value: top.value}\n \n if top.right\n stack << top.right\n \n current = top.right.left\n while current\n stack << current\n current = current.left\n end \n end\n end\n \n return list\n end", "def stack\n @values.fetch('stack') { \n @values['stack'] = nil\n }\n end", "def push(node)\n if left.nil? && node.data < @data\n @left = node\n elsif right.nil? && node.data > @data\n @right = node\n elsif node.data < @data\n left.push(node)\n elsif node.data > @data\n right.push(node)\n else\n puts \"Input contains duplicate entry!\"\n exit\n end\n end", "def pop()\n (@stack1.size-1).times { @stack2.push(@stack1.pop) }\n result = @stack1.pop\n @stack2.times { @stack1.push(@stack2.pop) }\n\n result\n end", "def push(x)\n if @stack.length == 0 or x <= @min\n @stack.push @min\n @min = x\n end\n @stack.push x\n \n end", "def pop\n self.top = @stack[1]\n @stack.shift\n end", "def stack_top\n self # okay maybe I'll implement this\n end", "def reverse_copy_stack\n self.arr[0...self.curr].dup\n end", "def dfs(tree)\n # Return the tree if the root value matches the search value\n if @stack[-1].nil?\n return nil\n elsif @stack[-1]['value'] == @value || @stack[-1] == @value\n return @stack[-1]\n end\n \n # Add left tree to the stack if it exists, otherwise the right branch if it exists\n if @stack[-1]['branches']['left'].nil? == false\n @stack << tree['branches']['left']\n dfs(@stack[-1])\n elsif @stack[-1]['branches']['right'].nil? == false\n @stack << tree['branches']['right']\n elsif @stack[-1]['branches']['left'].nil? == false && @stack[-1]['branches']['right'].nil? == false\n @stack.pop\n end\n \n end", "def push(item)\n @items.push(item)\n if @max_stack.empty?\n @max_stack.push(item)\n else\n @max_stack.push(item) if @max_stack.last < item\n end\n end", "def push\n CGContextSaveGState(@ctx)\n @stacksize = @stacksize + 1\n end", "def push(x)\n @stack.push(x)\n end", "def push(x)\n \n end", "def push(x)\n \n end", "def stack_current_size()\n if(@stack == nil)\n return 0\n end\n return @stack.length\n end", "def longest_increasing_subsequence n\n\n pileTops = []\n # sort into piles\n for x in n\n # binary search]\n low, high = 0, pileTops.size-1\n while low <= high\n mid = low + (high - low) / 2\n if pileTops[mid][:val] >= x\n high = mid - 1\n else\n low = mid + 1\n end\n end\n i = low\n node = {:val => x} #Node.new(x)\n node[:back] = pileTops[i-1] if i > 0\n pileTops[i] = node\n end\n\n result = []\n node = pileTops.last\n while node\n result.unshift(node)\n node = node[:back]\n end\n result.collect{|r| r[:val]}\n\nend", "def find_unsorted_subarray3(nums)\n left = nums.length\n right = 0\n\n stack = []\n\n nums.each_with_index do |num, index|\n while !stack.empty? && nums[stack.last] > num\n left = [left, stack.pop].min\n end\n stack.push index\n end\n\n stack.clear\n\n (nums.size - 1).downto(0) do |index|\n while !stack.empty? && nums[stack.last] < nums[index]\n right = [right, stack.pop].max\n end\n stack.push index\n end\n\n right > left ? right - left + 1 : 0\nend", "def push(x)\n @stack.unshift(x)\n end", "def push(*a) # utility\n @stack.push(*a); self\n end", "def push(x)\n @stack1.push(x)\n end", "def generate_stack\n VALUES.product(SUITS).map!(&:join)\n\n # stack = []\n # VALUES.each do |value|\n # SUITS.each do |suit|\n # stack << value + suit\n # end\n # end\n # stack\n end", "def dup\n push stack.last\n end", "def __stack\n @stack\n end", "def pop()\n\t\t@stack.pop\n\tend", "def pop\n # if there's nothing on the stack, you can't take anything off\n if empty?\n nil\n else\n # popped is going to take the thing at the index that is the top of our stack\n popped = @store[@top]\n # now we make that index nil\n @store[@top] = nil\n # now we move the @top marker to the index below, because that is our new top\n @top = @top.pred #@top--\n # explicit return of the item from the top of the stack\n popped\n end\n end", "def StartStack\n\n end", "def sort_stack(stack)\n temp = Stack.new\n\n until stack.empty?\n # Move all items to temp stack and track the minimum value\n min = nil\n until stack.empty?\n val = stack.pop\n min = min.nil? ? val : [val, min].min\n temp.push(val)\n end\n\n # Move all back except the minimum value\n min_count = 0\n until temp.empty? || temp.peek < min\n val = temp.pop\n if val == min\n min_count += 1\n else\n stack.push(val)\n end\n end\n\n # Put min back on the second stack\n min_count.times { temp.push(min) }\n end\n\n # The temp stack is in largest -> smallest order. Reverse it back onto stack.\n stack.push(temp.pop) until temp.empty?\nend", "def solution(s)\n stack = []\n s.split(' ').each do |input|\n case input\n when POP_COMMAND\n entry = stack.pop()\n raise InvalidOperation, 'Empty Stack' if entry == nil\n when DUPLICATE_COMMAND\n entry = stack.pop()\n raise InvalidOperation, 'Empty Stack' if entry == nil\n stack.push(entry)\n stack.push(entry)\n when ADDITION_COMMAND\n first = stack.pop()\n second = stack.pop()\n raise InvalidOperation, 'Empty Stack' if first == nil || second == nil\n raise InvalidOperation, 'Overflow Integer' if (first > UNSIGNED_INTEGER_LIMIT - second)\n stack.push(first + second)\n when SUBTRACTION_COMMAND\n first = stack.pop()\n second = stack.pop()\n raise InvalidOperation, 'Empty Stack' if first == nil || second == nil\n raise InvalidOperation, 'Negative value' if (first < second)\n stack.push(first - second)\n else\n stack.push(Integer(input))\n end\n end\n\n raise InvalidOperation, 'Empty Stack' if stack.length == 0\n stack.pop()\nend" ]

[ "0.67709273", "0.67709273", "0.6561325", "0.64280933", "0.6395118", "0.63767564", "0.6375943", "0.63546336", "0.63369316", "0.63240534", "0.6211601", "0.616786", "0.61594373", "0.6137189", "0.6137189", "0.6136442", "0.61349756", "0.6109848", "0.61034876", "0.6102125", "0.6097048", "0.60790735", "0.60147274", "0.60003555", "0.60001856", "0.6000176", "0.5989714", "0.5980439", "0.5964799", "0.5956861", "0.5950894", "0.5948808", "0.5940855", "0.5936697", "0.59005135", "0.58870125", "0.58840024", "0.58546555", "0.58456516", "0.58439493", "0.5839168", "0.5819298", "0.5814295", "0.58117723", "0.58084196", "0.57863104", "0.5784844", "0.5776662", "0.57525206", "0.5752183", "0.5748878", "0.5731607", "0.57314694", "0.5729761", "0.57294464", "0.57087725", "0.5691567", "0.5684761", "0.5679064", "0.56781375", "0.56764233", "0.5675781", "0.56717867", "0.56649876", "0.5664786", "0.5658831", "0.56580704", "0.5653092", "0.56525004", "0.56458354", "0.5642251", "0.5641065", "0.56292397", "0.56266654", "0.5617729", "0.5570548", "0.55705476", "0.55700433", "0.55687654", "0.5567937", "0.55597776", "0.5557596", "0.55550605", "0.5545286", "0.5542502", "0.5537957", "0.5537957", "0.55348885", "0.55274755", "0.55270064", "0.55248314", "0.5518261", "0.5517492", "0.5517366", "0.55151933", "0.5514233", "0.55115634", "0.55082095", "0.55060667", "0.5501214", "0.54996884" ]

[ "def show_by_date\n @city = City.find(params[:city_id])\n @events = @city.events.show_by_date(params[:date])\n d = Date.parse(params[:date])\n @started_at = d\n @date = d\n\n add_breadcrumb @city.name, city_path( @city )\n add_breadcrumb d.strftime(\"%b. %e, %Y\"), \"/show-by-date/\" + d.strftime(\"%Y-%m-%d\")\n end", "def display_date(date = nil)\n case date\n when :published\n date_obj = history[:published]\n when :archived\n date_obj = history[:archived]\n else\n date_obj = created_at\n end\n date_obj&.strftime('%B %-d, %Y')\n end", "def show\n if @widgetStart.nil?\n @widgetStart = 1.month.ago.strftime(\"%d/%m/%Y\")\n @widgetEnd = Date.today.strftime(\"%d/%m/%Y\")\n @period = 30\n end\n end", "def display_date dt, dFlg=true\r\n ListingDataProcessor.new(self).display_date dt, dFlg\r\n end", "def list_date(date)\n if date\n date = date.beginning_of_day\n if @list_date != date\n return content_tag(:h2, date.strftime(\"%m/%d/%Y\"))\n end\n end\n nil\n ensure\n @list_date = date\n end", "def invoice_date_display\n\n end", "def show\n @begin_date = Date.today - 5\n @end_date = Date.today + 5\n end", "def show ; showdate ? showdate.show : nil ; end", "def print_layout_start_date\n return if not_waste_producer_water_discount?\n\n { code: :start_date, # section code\n key: :title, # key for the title translation\n key_scope: %i[applications slft start_date], # scope for the title translation\n divider: true, # should we have a section divider\n display_title: true, # Is the title to be displayed\n type: :list, # type list = the list of attributes to follow\n list_items: [{ code: :start_date, format: :date }] }\n end", "def menu_date\n @month = self.created_at.strftime(\"%_m\")\n @day = self.created_at.strftime(\"%d\")\n @date = @month +\"月\"+@day+\"號\"\n end", "def show\n @month = @event.start\n end", "def show\n render :layout => 'hrmdashboard'\n add_breadcrumb \"Event\"\n end", "def showDate(date)\n puts \"#{date}\"\n items = @logHash[date]\n items.each do |item|\n puts \" #{item.name}\"\n end\n end", "def show_start_date(event)\n if event.start_at - 2.hours<= Time.now ##### - 2 ore per via dell'utc. Brutto - riparare.\n \"<strong><em>Event started</em></strong>\".html_safe\n else\n event.start_at.to_formatted_s(:short)\n #DateTime.now.to_s + '-' +event.start_at.to_s\n end\n end", "def show_date(time)\n\t\tif time > Time.now.beginning_of_day\n\t\t\treturn \"#{time_ago_in_words(time)} ago\"\n\t\telse\n\t\t\treturn time.strftime(\"%b %d, %Y\")\n\t\tend\n\tend", "def list\n handle_start_and_end_date\n @heading = \"Publication Listing by Org \"\n @heading = @heading + \" for #{@year} \" if params[:start_date].blank?\n @heading = @heading + \" from #{@start_date} \" if !params[:start_date].blank?\n @heading = @heading + \" to #{@end_date}\" if !params[:end_date].blank?\n render :layout => 'printable'\n end", "def show;\n @date_opened_string = \"N/A\"\n @date_closed_string = \"N/A\"\n\n if (@item.date_opened != nil)\n @date_opened_string = format('%04d', @item[:date_opened].year) + \"-\" + format('%02d', @item[:date_opened].month) + \"-\" + format('%02d', @item[:date_opened].day)\n end\n if (@item.date_closed != nil)\n @date_closed_string = format('%04d', @item[:date_closed].year) + \"-\" + format('%02d', @item[:date_closed].month) + \"-\" + format('%02d', @item[:date_closed].day)\n end\n end", "def date\n # self.start_time.in_time_zone(self.school.timezone).strftime('%A - %-m/%d/%y')\n \"#{self.start_time.in_time_zone(self.school.timezone).strftime('%A')}</br>#{self.start_time.in_time_zone(self.school.timezone).strftime('%-m/%d/%y')}\".html_safe()\n end", "def show\n @date_specified = params[:date]\n @stylesheet = \"menus\"\n @menu = Menu.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @menu }\n end\n end", "def date_for(date)\n content_tag :time do\n date.strftime(\"%e %b\")\n end\n end", "def dates\n end", "def show_date_condition\n false\n end", "def embargo_date_display(errata, opts={})\n if errata.embargo_date.present?\n if errata.not_embargoed?\n \"<div class='compact'>Embargo<br/>#{errata.embargo_date.to_s(:Y_mmm_d)}</div>\".html_safe\n else\n (\"<div class='compact red bold'>\" +\n (opts[:skip_label] ? \"\" : \"<small>EMBARGOED!</small><br/>\") +\n \"#{errata.embargo_date.to_s(:Y_mmm_d)} #{\"<br/>\" unless opts[:no_br]}\" +\n \"<small>(#{time_ago_future_or_past(errata.embargo_date)})</small>\" +\n \"</div>\").html_safe\n end\n else\n \"<div class='small superlight'>#{opts[:none_text]||'-'}</div>\".html_safe\n end\n end", "def accessibilityLabel\n date = self.view.representedObject\n ACCE_DATE_FORMATER.stringFromDate(date)\n end", "def activate\n admin.page.edit.add('extended_metadata', 'edit_dates')\n end", "def aoc_dates\n \"#{start_date.strftime('%d de %b')} al #{end_date.strftime('%d de %b')} de #{end_date.strftime('%Y')}\"\n end", "def index\n session[:menu] = \"Home\"\n @date_du_jour = Date.today\n @ma_date_du_jour = Madate.new(@date_du_jour.day, @date_du_jour.month, @date_du_jour.year)\n @ecart_retraite = @ma_date_du_jour.ecart(1, 7, 2018)\n @ecart_depart = @ma_date_du_jour.ecart(11, 5, 2019)\n end", "def date; end", "def date; end", "def date; end", "def date; end", "def homepage\n @name ='khaled'\n @day =Time.now.strftime(\"%A\")\n end", "def brief_calendar_outage(outage, date)\n link_to(outage.name, edit_or_show_outage_path(outage))\n end", "def show_events_on_date(date)\n return nil unless events_at?(date)\n\n events = @calendar_events[date]\n puts 'You have following events on this date:'\n print_events(events)\n events\n end", "def display_day_published\r\n \"Published : #{created_at.strftime('%-b %-d, %Y')}\"\r\n end", "def show(date)\n if @log.has_key? date\n @log[date].each do |item|\n puts item.name\n end\n end\n end", "def dateselection\nend", "def more_advanced_date\n \tnil\n end", "def date \n \"date\" \n end", "def display_days_ago(date)\n days_ago = (Date.current - date.to_date).to_i\n case days_ago\n when 0\n 'Today'\n when 1\n 'Yesterday'\n else\n days_ago.to_s + ' days ago'\n end\n end", "def date_view value, meta=nil\n return value.strftime \"%Y-%m-%d\" unless value.nil?\n ''\n end", "def display_day_published\n \"Published : #{created_at.strftime('%-b %-d, %Y')}\"\n end", "def label_start_date\n self.start_date.try(:strftime, '%m/%d/%Y')\n end", "def show\n timeline\n end", "def show_calendar\n\t\tputs @calendar_month\n\tend", "def date_picker(attrs)\n disabled = attrs[:disabled] ? ' disabled' : ''\n\n <<-HTML\n <span class=\"field datepicker#{disabled}\">\n <a href=\"#TODO\" title=\"Open the calendar to choose a date\">\n Choose a date&hellip;\n </a>\n </span>\n HTML\n end", "def showdate(my_date)\n if my_date\n str_date=my_date.to_date.strftime(\"%d-%m-%Y\")\n else\n str_date=\"\"\n end\n return str_date\n end", "def today_header\n system 'clear'\n puts @header.light_blue\n puts \"Check out whats on around Melbourne today!\".center(@header_length)\n puts @header.light_blue\n end", "def show\n @date = params[:date] ? Date.parse(params[:date]) : Date.today\n @date_specific = params['date-specific']\n end", "def show_date_column(*methods)\n return show_header_column(methods) if is_header\n\n content = get_methods_date_value(model, methods)\n content_tag :td, content\n end", "def enter_foundation_date(test_data)\n test_date = test_data[Org::FOUNDING_DATE.name]\n hide_notifications_bar\n enter_simple_date(foundation_date_input, test_date)\n end", "def year_icon\n wrap_with :span, fa_icon(\"calendar\"), class: \"pr-1\"\n end", "def header(start_date,end_date) \n \"Changes between #{start_date} and #{end_date}:\"\nend", "def calendar_month_header date\n \"#{I18n.translate('date.month_names')[date.month]} #{date.year}\"\n end", "def display_date\n text(data.at_xpath(\"#{data_root}/did/unitdate\"))\n end", "def day_header(selected_day, options)\n content_tag :h3 do\n previous_day = selected_day.advance :days => -1\n next_day = selected_day.advance :days => 1\n tags = []\n\n tags << \"#{I18n.t(\"date.day_names\")[selected_day.strftime(\"%w\").to_i]} #{selected_day.day} #{I18n.t(\"date.month_names\")[selected_day.month]}\"\n tags << day_link(options[:next_text], next_day, {:class => \"next-day #{options[:next_nav]}\", :remote => (options[:remote] || false)})\n tags << day_link(options[:prev_text], previous_day, {:class => \"previous-day #{options[:prev_nav]}\", :remote => (options[:remote] || false)})\n #tags << day_link(options[:prev_text], previous_day, {:class => \"previous-day\", :remote => (options[:remote] || false)})\n\n tags.join.html_safe\n end\n end", "def date_filter_for(field)\n res = \"\"\n res += content_tag(:li) do\n name = \"f[created_after]\"\n id = \"f_created_after\"\n res = label_tag(id, \"After\", :class => \"date\")\n res += text_field_tag(name, filter_params[:created_after], \n :class => \"datePopup\")\n end\n res += content_tag(:li) do\n name = \"f[created_before]\"\n id = \"f_created_before\"\n res = label_tag(id, \"Before\", :class => \"date\")\n res += text_field_tag(name, filter_params[:created_before], \n :class => \"datePopup\")\n end\n\n return res.html_safe\n end", "def licence_versions_nav(cur_licence)\n versions = cur_licence.all_versions\n unless versions.empty?\n dd_tags = cur_licence.all_versions.map do |licence|\n content_tag 'dd', class: (licence == cur_licence ? \"active\" : \"inactive\") do\n link_to(licence.version, licence)\n end\n end\n\n dd_tags.join('')\n content_tag 'dl', class: \"sub-nav\" do\n content_tag('dt', \"Versions:\") + dd_tags.join('').html_safe\n end\n end\n end", "def today(sg=nil)\n super()\n end", "def preview_text(foo=nil)\n\t\t\treturn \"\" if date.blank?\n\t\t\t::I18n.l(date, :format => :date)\n\t\tend", "def showToday( foodLog )\n today = Date.today.to_s\n puts \"\\n\" + foodLog.showDate( today ) \nend", "def show_dates\n @layout = \"blog\"\n @widgets = Widget.where(\"? = good_read_active\", true).order(:good_read_order)\n @categories = gather_thine_categories\n @dates = gather_thine_dates\n if params[:year]\n if params[:month]\n @month = \"01 #{params[:month]} #{params[:year]}\".to_date\n @posts = GoodRead.all(:conditions => [\"created_at >= ? AND created_at <= ?\", @month.at_beginning_of_month, @month.at_end_of_month])\n render :show_categories\n else\n @year = \"01 Jan #{params[:year]}\".to_date\n @posts = GoodRead.all(:conditions => [\"created_at >= ? AND created_at <= ?\", @year.at_beginning_of_year, @year.at_end_of_year])\n render :show_categories\n end\n end\n end", "def calendar_date_header date\n \"#{I18n.translate('date.day_names')[date.wday]} #{I18n.localize date, format: :long}\"\n end", "def pretty_date(date, options = {})\n options.reverse_merge! \\\n :title => date.iso8601,\n :format => :standard\n\n format = options.pluck(:format)\n\n content_tag :abbr, options do\n l(date, :format => format)\n end\n end", "def set_service_date\n @service_date = ServiceDate.find(params[:id])\n add_breadcrumb \"Fecha aplicacion\"\n add_breadcrumb @service_date.fecha_servicio, [@client, @place, @service, @service_date]\n end", "def form_partial_locals(args)\n output = super\n output[:date_options] = { \n :start_year => Time.now.year - 70,\n :default => get_datetime_or_today(args[:value])\n }\n return output\n end", "def index\n # @entries = Entry.all\n days_ago = (params[:days_ago] || 0).to_i\n @entries = for_date_offset(days_ago)\n @_date = days_ago.days.ago.to_date\n\n @prev_link = view_context.link_to '<span class=\"tooltiptext\">Previous Day</span><i class=\"fa fa-calendar-minus-o\"></i>'.html_safe, entries_path(:days_ago => days_ago + 1)\n if (days_ago == 0)\n @today_link = view_context.link_to '<i class=\"fa fa-ban\"></i>'.html_safe, entries_path, {:class => \"disabled\"}\n else\n @today_link = view_context.link_to '<span class=\"tooltiptext\">Today</span><i class=\"fa fa-calendar-check-o\"></i>'.html_safe, entries_path\n end\n if (days_ago > 0)\n @next_link = view_context.link_to '<span class=\"tooltiptext\">Next Day</span><i class=\"fa fa-calendar-plus-o\"></i>'.html_safe, entries_path(:days_ago => days_ago - 1)\n else\n @next_link = view_context.link_to '<i class=\"fa fa-ban\"></i>'.html_safe, entries_path, {:class => \"disabled\"}\n end\n\n end", "def show_on_date\n @date = Date.parse(params[:date].gsub!('_','-'))\n @doctor = Doctor.find(params[:doctor_id]).full_name\n @appointments = Appointment.in_clinic(@admin).\n given_date(@date).confirmed.with_doctor(params[:doctor_id]).\n order('appointment_time ASC').load\n 1 == 1\n # render(partial: 'ajax_show_on_date', object: @appointments) if request.xhr?\n end", "def start_date\n date\n end", "def show\n # convert timestamp string to mmddyyyy\n date = @missed_connection.post_date\n yyyy = date[0..3]\n mm = date[5..6]\n dd = date[8..9]\n @display_date = mm+'/'+dd+'/'+yyyy\n end", "def panel\n if completed?\n 'completed'\n elsif due_date && due_date.to_date > Time.zone.today\n 'upcoming'\n else\n 'past_due'\n end\n end", "def show_time\n\n end", "def date_page_format\n '%B %d, %Y'\n end", "def navbar_dropdown(menu)\n name = t(\".menus.#{menu}.name\")\n title = t(\".menus.#{menu}.title\")\n \"<a href='#' class='dropdown-toggle' data-toggle='dropdown' title='#{title}'> #{name} <b class='caret'></b></a>\"\n end", "def active_scaffold_javascripts(frontend = :default)\n super\n #super + [calendar_date_select_javascripts]\n end", "def print_readable_date(date)\n\t\ttime_ago_in_words(date)\n\tend", "def date_select(method, options = {})\n options[:include_blank] ||= false\n options[:start_year] ||= 1801\n options[:end_year] ||= Time.now.year\n options[:label_for] = \"#{object_name}_#{method}_1i\"\n\t\t build_shell(method, options) { super }\n end", "def show\n add_breadcrumb :show, :show\n end", "def index\n todaydate = Time.now.in_time_zone(\"US/Pacific\").to_date\n\n end", "def today\n frm.button(:value=>\"Today\").click\n Calendar.new(@browser)\n end", "def arrival_date; return \"\"; end", "def show\n\tredirect_to new_availability_calendar_path\n end", "def show\n # Date.strptime('03-02-2001', '%d-%m-%Y')\n\n # @donee = Donee.first\n\n\n # @donee_names = []\n #\n # donees = Donee.all\n # donees.each do |n|\n # @donee_names << n.name\n # end\n end", "def navbar\n if logged_in\n render 'layouts/logged_in_navbar'\n else\n render 'layouts/logged_out_navbar'\n end\n end", "def date\n \"#{day} #{month.capitalize} #{year}\"\n end", "def form_date\n \"#{date.month}/#{date.day}/#{date.year - 2000}\"\n end", "def show\n number_of_days = 6\n data_table = GoogleVisualr::DataTable.new\n data_table.new_column('string', 'Year')\n data_table.new_column('number', 'Visits')\n data_table.add_rows(number_of_days+1)\n number_of_days.downto(0) do |i|\n day = Time.now - i.days\n column = number_of_days-i\n activities = @restroom.activities.on_date(day)\n data_table.set_cell(column, 0, day.strftime(\"%-m/%-d\"))\n data_table.set_cell(column, 1, activities.size)\n end\n\n opts = { :width => 800, :height => 480, :title => \"#{@restroom.name} Daily Visits\", :hAxis => { :title => 'Date', :titleTextStyle => {:color => 'red'}} }\n @chart = GoogleVisualr::Interactive::ColumnChart.new(data_table, opts)\n end", "def activate\n Page.send :include, FrenchDatesTags\n end", "def render_navbar(&block)\n action_link = get_action_link\n if !action_link\n action_link = CONFIG[:title_short]\n end\n html = content_tag(:div, id: 'navbar') do\n content_tag(:div, class: 'navbar-inner') do\n if current_lines_user\n content_tag(:span, class: 'buttons', &block) + \"<div class='btn-menu'><div class='stripes'></div></div>\".html_safe +\n \"<div class='submenu'>\n <div class='submenu-inner'>\n <ul>\n <li>#{link_to(\"Dashboard\", admin_articles_path)}</li>\n <li>#{link_to(t('activerecord.models.lines/author', count: 1).html_safe, admin_authors_path)}</li>\n </ul>\n <ul>\n <li class='small'>#{t('lines.logged_in_as').html_safe} #{current_lines_user.email}</li>\n <li>#{link_to(t('lines.buttons.logout').html_safe, logout_path)}</li>\n </ul>\n <ul>\n <li>#{link_to(t('lines.buttons.formating_help').html_safe, \"#\", class: \"btn-cheatsheet\")}</li>\n <li>#{link_to(t('lines.buttons.about').html_safe, \"http://lines.opoloo.com\")}</li>\n </ul>\n </div>\n </div>\".html_safe\n else\n content_tag(:span, link_to('', root_path), class: 'backlink') + content_tag(:span, action_link, class: 'actionlink')\n end\n end\n end\n html\n end", "def index\n\t\t@active_nav = :calendar\n\t\t@page_name = \" - Upcoming Shows\"\n\t\t\n\t\t@shows = Show.on_show_page.future\n\t\t@this_week = @shows.select{|s| s.this_week?}\n\n\t\t@showtime_data = {}\n\t\t@this_week.each {|show| @showtime_data[show.id] = show.showtimes.map {|st| {:id => st.id, :text => st.short_display_time, :cap => show.cap}}}\n\n\t\t@this_semester = (@shows - @this_week).select{|s| s.this_semester?}\n\t\t@other = @shows - @this_week - @this_semester\n\tend", "def form_partial_locals(args)\n output = super\n output[:date_options] = { \n :start_year => Time.now.year - 70,\n :default => get_date_or_today(args[:value])\n }\n return output\n end", "def date\n page.version.authored_date.strftime(\"%B %d, %Y\")\n end", "def objection_name_date\n o = objection ? 'Objection' : 'No Objection'\n o + ' from ' + librarian.short + ' on ' + created_at.strftime('%b-%-d')\n end", "def display_back_start_day\n display_start_day_of_week(period)\n end", "def date_field_enter(date)\n my_date = Date.parse(date)\n year = my_date.year\n month = my_date.strftime('%b')\n day = my_date.strftime('%d')\n\n day_field = @field.all(:css, 'input[id$=\"DayValue\"]').first\n day_field.set \"#{day}\"\n\n month_drop_down = @field.all(:css, 'select[id$=\"MonthLongValue\"]').first[:id]\n select(month, :from => month_drop_down)\n\n year_field = @field.all(:css, 'input[id$=\"YearValue\"]').first\n year_field.set \"#{year}\"\n end", "def print_layout_ads_date_of_sale\n return unless @reason == 'ADS'\n\n { code: :date_of_sale, # section code\n key_value: :translation_prefix,\n key: '#key_value#_title',\n key_scope: %i[claim claim_payments date_of_sale], # scope for the title translation\n divider: true, # should we have a section divider\n display_title: true, # Is the title to be displayed\n type: :list, # type list = the list of attributes to follow\n list_items: [{ code: :date_of_sale, format: :date }] }\n end", "def date_as_label\n date_played.to_s\n end", "def start\n\tself[:date_start].strftime(\"%d.%m.%Y\") || '-'\n end", "def date_select(field, options={}, &block)\n format_with_label(field, options.merge(:field_type => \"date\"), super(field, purge_custom_tags(options)), &block)\n end", "def create_title\n self.title = \"Oficina #{self.start_date} hasta #{self.finish_date}\"\n end" ]

[ "0.6479346", "0.6250476", "0.62121177", "0.6143302", "0.6099917", "0.6030608", "0.5989627", "0.59467703", "0.58439547", "0.58019143", "0.5778906", "0.5742497", "0.5741989", "0.5731145", "0.56853014", "0.56690234", "0.56516856", "0.5637627", "0.5593742", "0.5593128", "0.559308", "0.5591724", "0.55835044", "0.5562751", "0.55279666", "0.55245626", "0.5522978", "0.5512057", "0.5512057", "0.5512057", "0.5512057", "0.5496504", "0.54740894", "0.545836", "0.54561955", "0.5434923", "0.542679", "0.5422082", "0.5417544", "0.540433", "0.540125", "0.53999734", "0.5399246", "0.5397666", "0.5383454", "0.5370121", "0.53631544", "0.5361157", "0.5357483", "0.5315665", "0.5313234", "0.53092676", "0.53057384", "0.52964145", "0.52929366", "0.52923167", "0.5292266", "0.5290034", "0.52718234", "0.5267896", "0.52678657", "0.52661407", "0.5262372", "0.5259548", "0.52531296", "0.52466416", "0.52440023", "0.52403826", "0.5235636", "0.5232556", "0.52298677", "0.5225745", "0.5219877", "0.5219697", "0.5218339", "0.5215274", "0.52115107", "0.5210314", "0.5203774", "0.5203349", "0.5202736", "0.5200579", "0.51998144", "0.5188161", "0.518764", "0.5183896", "0.5183351", "0.51823276", "0.5181925", "0.51742643", "0.51729506", "0.5171108", "0.5170933", "0.5165772", "0.51646656", "0.5164645", "0.51583785", "0.5155344", "0.5154102", "0.5151864" ]

[ "def to_paragraphs(body)\n without_line_breaks = ignore_unnecessary_line_breaks body\n paragraphs = split_body_to_paragraphs without_line_breaks\n paragraphs = remove_blank_spaces paragraphs\n end", "def paragraphs\n raw_content['blocks'].map { |x| x['text'] }\n rescue StandardError\n []\n end", "def paragraphs\n result = []\n paragraph = []\n loop do\n if eof?\n result << paragraph.join(NL)\n return result\n elsif current_line.empty?\n if paragraph.empty?\n # No action\n else\n result << paragraph.join(NL)\n paragraph = []\n end\n else\n paragraph << current_line\n end\n move_on\n end\n end", "def rdoc_paragraphs(rdoc_text)\n paragraphs, current = [], \"\"\n rdoc_text.each_line do |s|\n if s.strip.empty?\n unless current.strip.empty?\n paragraphs << current \n end\n current = \"\"\n else\n current << s\n end\n end\n unless current.strip.empty?\n paragraphs << current \n end\n paragraphs\n end", "def remove_paragraph_tags mytext\n mytext.sub!(/^<p>\\s*<\\/p>/,\"\")\n mytext.sub!(/(<br>)*<p>\\s*<\\/p>$/,\"\")\n mytext.sub!(/^<p>/,'')\n mytext.sub!(/<\\/p>?/,'')\n return mytext\n end", "def paragraphs(\n word_count: rand(DEFAULT_WORD_COUNT_RANGE),\n sentence_count: rand(DEFAULT_SENTENCE_COUNT_RANGE),\n paragraph_count: rand(DEFAULT_PARAGRAPH_COUNT_RANGE),\n fillers: dictionnary.fillers,\n seperator: DEFAULT_PARAGRAPH_SEPARATOR\n )\n paragraph_count = 0 if paragraph_count.negative?\n paragraphs = []\n paragraph_count.times do\n p = paragraph(word_count: word_count, sentence_count: sentence_count, fillers: fillers)\n paragraphs << p unless p.empty?\n end\n paragraphs.join(seperator)\n end", "def add_paragraphs_to_text(text)\n\n # get rid of spaces and newlines-before/after-paragraphs and linebreaks\n # this enables us to avoid converting newlines into paras/breaks where we already have them\n source = text.gsub(/\\s*(<p[^>]*>)\\s*/, '\\1') # replace all whitespace before/after <p>\n source.gsub!(/\\s*(<\\/p>)\\s*/, '\\1') # replace all whitespace before/after </p>\n source.gsub!(/\\s*(<br\\s*?\\/?>)\\s*/, '<br />') # replace all whitespace before/after <br> \n\n # do we have a paragraph to start and end\n source = '<p>' + source unless source.match(/^<p/)\n source = source + \"</p>\" unless source.match(/<\\/p>$/)\n \n # If we have three newlines, assume user wants a blank line\n source.gsub!(/\\n\\s*?\\n\\s*?\\n/, \"\\n\\n&nbsp;\\n\\n\")\n\n # Convert double newlines into single paragraph break\n source.gsub!(/\\n+\\s*?\\n+/, '</p><p>')\n\n # Convert single newlines into br tags\n source.gsub!(/\\n/, '<br />')\n \n # convert double br tags into p tags\n source.gsub!(/<br\\s*?\\/?>\\s*<br\\s*?\\/?>/, '</p><p>')\n \n # if we have closed inline tags that cross a <p> tag, reopen them \n # at the start of each paragraph before the end\n HTML_TAGS_TO_REOPEN.each do |tag| \n source.gsub!(/(<#{tag}>)(.*?)(<\\/#{tag}>)/) { $1 + reopen_tags($2, tag) + $3 }\n end\n \n # reopen paragraph tags that cross a <div> tag\n source.gsub!(/(<p[^>]*>)(.*?)(<\\/p>)/) { $1 + reopen_tags($2, \"p\", \"div\") + $3 }\n \n # swap order of paragraphs around divs\n source.gsub!(/(<p[^>]*>)(<div[^>]*>)/, '\\2\\1')\n\n # Parse in Nokogiri\n parsed = Nokogiri::HTML.parse(source)\n parsed.encoding = 'UTF-8'\n \n # Get out the nice well-formed XHTML\n source = parsed.css(\"body\").to_xhtml\n \n # trash empty paragraphs and leading spaces\n source.gsub!(/\\s*<p[^>]*>\\s*<\\/p>\\s*/, \"\")\n source.gsub!(/^\\s*/, '')\n \n # get rid of the newlines-before/after-paragraphs inserted by to_xhtml,\n # so that when this is loaded up by strip_html_breaks in textarea fields,\n # \n source.gsub!(/\\s*(<p[^>]*>)\\s*/, '\\1')\n source.gsub!(/\\s*(<\\/p>)\\s*/, '\\1')\n \n # trash the body tag\n source.gsub!(/<\\/?body>\\s*/, '')\n \n # return the text\n source\n end", "def cell_paragraphs(cell)\n cell.paragraphs\n .map(&:text) # Extract the text from each paragraph\n .map(&:strip) # Remove leading/trailing spaces from text\n .reject(&:empty?) # Throw away blank paragraphs\n end", "def paragraphs(range = nil)\n if range\n truncated = split(\"\\n\")[range].join(\"\\n\")\n truncated += '...' if truncated.length < length\n truncated\n else\n split(\"\\n\")\n end\n end", "def just_text\r\n return $1 if text =~ /^<p>(.*)<\\/p>$/\r\n text\r\n end", "def add_paragraphs\n lines = seperate_lines\n max_index = lines.size - 1\n (1..(max_index)).each do |index|\n previous_line = lines[index -1]\n current_line = lines[index]\n next_line = lines[index + 1]\n if current_line[0] != (\"#\" || \"\\n\" || \"</p>\")\n if previous_line[0] == \"\\n\"\n lines.insert(index, \"<p>\\n\")\n elsif next_line[0] == \"\\n\"\n lines.insert(index + 1, \"\\n</p>\")\n elsif next_line == nil\n lines << \"\\n</p>\"\n else\n lines\n end\n end\n end\n @doc = lines.join\n end", "def process_full_text(text)\n frag = Nokogiri::HTML::DocumentFragment.parse text.to_html\n clean_text = Nokogiri::HTML::DocumentFragment.parse \"\"\n\n frag.traverse do |node|\n # skip empty <br> elements\n next if node.nil? || node.name == \"br\"\n\n # Construct a new <p> with extracted text\n if node.text?\n new_p = Nokogiri::XML::Node.new(\"p\", clean_text)\n new_p.content = node.text.strip\n clean_text << new_p\n end\n end\n clean_text.to_html\n end", "def commontator_split_paragraphs(text)\n return [] if text.blank?\n\n text.to_str.gsub(/\\r\\n?/, \"\\n\").gsub(/>\\s*</, \">\\n<\").split(/\\s*\\n\\s*/).reject(&:blank?)\n end", "def extract_excerpt(text, divider = \"\\r\\n\\r\\n\")\n text.lines(divider).to_a.each(&:strip!).reject(&:blank?).take(3).join(divider)\n end", "def form_paragraphs( str, rs )\n\t\t\t@log.debug \" Forming paragraphs\"\n\t\t\tgrafs = str.\n\t\t\t\tsub( /\\A\\n+/, '' ).\n\t\t\t\tsub( /\\n+\\z/, '' ).\n\t\t\t\tsplit( /\\n{2,}/ )\n\n\t\t\trval = grafs.collect {|graf|\n\n\t\t\t\t# Unhashify HTML blocks if this is a placeholder\n\t\t\t\tif rs.html_blocks.key?( graf )\n\t\t\t\t\trs.html_blocks[ graf ]\n\n\t\t\t\t# no output if this is block separater\n\t\t\t\telsif graf == '~' then\n\t\t\t\t\t''\n\n\t\t\t\t# Otherwise, wrap in <p> tags\n\t\t\t\telse\n\t\t\t\t\tapply_span_transforms(graf, rs).\n\t\t\t\t\t\tsub( /^[ ]*/, '<p>' ) + '</p>'\n\t\t\t\tend\n\t\t\t}.join( \"\\n\\n\" )\n\n\t\t\t@log.debug \" Formed paragraphs: %p\" % rval\n\t\t\treturn rval\n\t\tend", "def accept_paragraph paragraph\n parts = paragraph.parts.chunk do |part|\n String === part\n end.map do |string, chunk|\n string ? chunk.join.rstrip : chunk\n end.flatten\n\n paragraph.parts.replace parts\n end", "def accept_paragraph paragraph\n tt_sections(paragraph.text)\n end", "def paragraphs(range=nil)\n unless range\n self.split(\"\\n\")\n else\n truncated = self.split(\"\\n\")[range].join(\"\\n\")\n truncated += \"...\" if (truncated.length < self.length)\n truncated\n end\n end", "def paragraphs(total)\n (1..interpret_value(total)).map do\n sentences(3..8).capitalize\n end.join(\"\\n\\n\")\n end", "def get_paragraph\n wo = self.words_from_markov_data\n\n self.paragraph_from_words(wo).strip\n end", "def parse_paragraph; end", "def tail(text)\n\t\t\ttext.split(%r{</p>\\s+}, 2)[1]\n\t\tend", "def excerpt(words_count=50)\n \n HTMLAnalysis.new(body).plain_text.split(%r{\\s+}).take(words_count).join(' ').strip\n\n end", "def clean_article_body\n get_source_selectors.each do |selector|\n if @page.search(selector).present?\n @page = page.search(selector)\n break\n end\n end\n # Strip unwanted spaces and newlines.\n @page.collect {|elt| elt.content.strip.gsub(/\\n|\\r/, '').gsub(/\\ +/, ' ')}.join(' ')\n end", "def paragraphs_of( path, *paragraphs )\n title = String === paragraphs.first ? paragraphs.shift : nil\n ary = File.read(path).delete(\"\\r\").split(/\\n\\n+/)\n\n result = if title\n tmp, matching = [], false\n rgxp = %r/^=+\\s*#{Regexp.escape(title)}/i\n paragraphs << (0..-1) if paragraphs.empty?\n\n ary.each do |val|\n if val =~ rgxp\n break if matching\n matching = true\n rgxp = %r/^=+/i\n elsif matching\n tmp << val\n end\n end\n tmp\n else ary end\n\n result.values_at(*paragraphs)\nend", "def paragraphs(paragraph_count = 3)\n Faker::Lorem.paragraphs(paragraph_count).join('\\n\\n')\n end", "def paragraphs\n @node.xpath('w:p').map {|p_node| Containers::Paragraph.new(p_node) }\n end", "def paragraphs(paragraph_count = 3)\n Faker::Lorem.paragraphs(number: paragraph_count).join('\\n\\n')\n end", "def paragraphs_of( path, *args )\n return [] unless test(?f, path)\n\n title = String === args.first ? args.shift : nil\n paragraphs = File.read(path).delete(\"\\r\").split(%r/\\n\\n+/)\n\n if title.nil? then\n title = '.+'\n single_section = false\n else\n title = Regexp.escape(title)\n single_section = true\n end\n\n start_rgxp = [%r/\\A[=#]+\\s*#{title}/i, %r/\\A#{title}\\n[=-]+\\s*\\Z/i]\n end_rgxp = [%r/\\A[=#]+/i, %r/\\A.+\\n[=-]+\\s*\\Z/i]\n\n result = []\n matching = false\n rgxp = start_rgxp\n\n paragraphs.each do |p|\n if rgxp.any? { |r| p =~ r }\n if matching && single_section\n break\n end\n matching = true\n rgxp = end_rgxp\n next\n end\n\n if matching\n result << p\n end\n end\n\n args.empty? ? result : result.values_at(*args)\n end", "def no_paragraph_tag?(text)\n text !~ /^\\<p/\n end", "def no_paragraph_tag?(text)\n text !~ /^\\<p/\n end", "def paragraph parts\n parts = parts.map do |part|\n if \"\\n\" == part then\n RDoc::Markup::HardBreak.new\n else\n part\n end\n end if break_on_newline?\n\n RDoc::Markup::Paragraph.new(*parts)\n end", "def paragraphs_of( path, *paragraphs )\n title = String === paragraphs.first ? paragraphs.shift : nil\n ary = File.read(path).delete(\"\\r\").split(/\\n\\n+/)\n\n result = if title\n tmp, matching = [], false\n rgxp = %r/^=+\\s*#{Regexp.escape(title)}/i\n paragraphs << (0..-1) if paragraphs.empty?\n\n ary.each do |val|\n if val =~ rgxp\n break if matching\n matching = true\n rgxp = %r/^=+/i\n elsif matching\n tmp << val\n end\n end\n tmp\n else ary end\n\n result.values_at(*paragraphs)\nend", "def split_in_paragraphs(mode)\n paragraphs.each(&:destroy) # delete paragraphs (should delete associated opinions)\n pattern = case mode\n when \"br\" then /<br \\/>|<br\\/>|<br>/\n when \"p_br\" then /<br \\/>|<br\\/>|<br>|<p>|<\\/p>/\n when \"p\" then /<p>|<\\/p>/\n end\n if pattern\n content.split(pattern).each_with_index do |paragraph_content, counter|\n paragraph_content = cleanup_paragraphs(paragraph_content)\n if paragraph_content != \"\"\n self.paragraphs.create(:ranking_number => counter, :content => paragraph_content, :review_id => self.id)\n end\n end\n else\n # 1 paragraph == whole content\n self.paragraphs.create(:ranking_number => 0, :content => cleanup_paragraphs(content))\n end \n end", "def paragraphs(number: 3, supplemental: false)\n [].tap do |paragraphs|\n 1.upto(resolve(number)) do\n paragraphs << paragraph(sentence_count: 3, supplemental: supplemental)\n end\n end\n end", "def paragraphs(total, opts={ })\n default_opts = { start_sep: \"\", end_sep: line_break * 2 }\n merged_opts = default_opts.merge(opts)\n @resource.paragraphs(total, merged_opts)\n end", "def paragraph(sentence_count: T.unsafe(nil), supplemental: T.unsafe(nil), random_sentences_to_add: T.unsafe(nil), exclude_words: T.unsafe(nil)); end", "def strip_paragraphs_from_tables(doc)\n doc.css(\"td p\").each { |node| node.replace(node.children) }\n end", "def extract_text(site, page)\n page.render({}, site.site_payload)\n doc = Nokogiri::HTML(page.output)\n paragraphs = doc.search('p').map {|e| e.text}\n page_text = paragraphs.join(\" \").gsub(\"\\r\",\" \").gsub(\"\\n\",\" \")\n end", "def paragraphs?\n false\n end", "def textilize_without_paragraph(do_object_links=false)\n textilize(do_object_links).sub(/\\A<p[^>]*>(.*?)<\\/p>.*/m, '\\\\1')\n end", "def extract_paragraphs(hash)\n array = []\n hash.keys.each do |key|\n array << hash[key][\"Paragraphs\"]\n end\n new_array = array.flatten.shuffle\n add_line_breaks(new_array)\nend", "def paragraphs_of path, *paragraphs\n File.read_utf(path).delete(\"\\r\").split(/\\n\\n+/).values_at(*paragraphs)\n end", "def content_based_description\n first_long_paragraph = parsed_search('//p[string-length() >= 120]').first\n first_long_paragraph ? first_long_paragraph.text : ''\n end", "def paragraph_from_words( words )\n result = Array.new\n words.each do | word |\n result << word\n end\n result.join( \" \" )\n end", "def textilize_without_paragraphs\n\t\tunless self.nil? or self.empty?\n\t\t string = self.textilize\n\t\t string = string[3..-1]\n\t\t string = string[0..-5]\n\t\telse\n\t\t \"\"\n\t end\n\tend", "def body_clean\n text = \"\"\n\n # Iterate through each line\n body.split(/\\n/).each do |line|\n # Included replies \"> some text\"\n next if line.match(/^>+/) \n next if line.match(/On.*wrote:/)\n # Outlook reply style\n break if line.match(/-{4,}Original Message-{4,}/)\n # Signature break \"--\"\n break if line.match(/^\\s*\\-{2,}\\s*$/)\n # Lines with only whitespace - blank them\n line.gsub(/^\\s+$/, \"\")\n\n text += line + \"\\n\"\n end\n\n # Clean out multiple line breaks throughout (longer than one blank line)\n text.gsub!(/\\n{3,}/, \"\\n\\n\") \n # Clean up multiple line breaks at end (none)\n text.gsub!(/\\n{2,}$/, \"\\n\")\n\n return text\n end", "def paragraph(text, options={})\n cur_page.paragraph(text, options)\n end", "def zh_lorem_paragraphs(total, replacement = nil)\n if replacement\n return replacement\n end\n\n (1..total).map do\n zh_lorem_sentences(random_one(3..7), replacement)\n end.join(\"\\n\\n\")\n end", "def accept_paragraph paragraph\n @res << \"\\n<p>\"\n text = paragraph.text @hard_break\n text = text.gsub(/\\r?\\n/, ' ')\n @res << to_html(text)\n @res << \"</p>\\n\"\n end", "def textilize_without_paragraph(*args)\n textilize(*args).gsub(/^<p>|<\\/p>$/, '').html_safe\n end", "def array_paragraphs fragments\n [fragments]\n end", "def each_paragraph\n paragraphs.each { |p| yield(p) }\n end", "def each_paragraph\n paragraphs.each { |p| yield(p) }\n end", "def remove_empty_paragraphs(env)\n node = env[:node]\n\n node.unlink if node.element? && (node.name == 'p' || node.name == 'span') && node.inner_html.squish.blank?\n end", "def remove_paragraphs_from_tables!\n @document.tree.search('td p').each { |node| node.node_name = 'span' }\n end", "def excerpt(text, phrase, options = T.unsafe(nil)); end", "def secondary_description\n (p = parsed_document.search('//p').map(&:text).select{ |p| p.length > 120 }.first).nil? ? '' : p\n end", "def textilize_without_paragraph(do_object_links=false, sanitize=true)\n textilize(do_object_links, sanitize).sub(/\\A<p[^>]*>(.*?)<\\/p>.*/m, '\\\\1')\n end", "def get_main_body_text_part\n leaves = get_attachment_leaves\n \n # Find first part which is text/plain\n leaves.each do |p|\n if p.content_type == 'text/plain'\n return p\n end\n end\n\n # Otherwise first part which is any sort of text\n leaves.each do |p|\n if p.main_type == 'text'\n return p\n end\n end\n \n # ... or if none, consider first part \n p = leaves[0]\n # if it is a known type then don't use it, return no body (nil)\n if mimetype_to_extension(p.content_type)\n # this is guess of case where there are only attachments, no body text\n # e.g. http://www.whatdotheyknow.com/request/cost_benefit_analysis_for_real_n\n return nil\n end\n # otherwise return it assuming it is text (sometimes you get things\n # like binary/octet-stream, or the like, which are really text - XXX if\n # you find an example, put URL here - perhaps we should be always returning\n # nil in this case)\n return p\n end", "def set_paragraphs\r\n set_default_paragraph_style\r\n paragraph_nodes = @content_xml.xpath('.//w:document//w:body//w:p')\r\n @paragraphs = paragraph_nodes.map { |node| Parchment::DOCX::Paragraph.new(node, self) }\r\n end", "def paragraph(\n word_count: rand(DEFAULT_WORD_COUNT_RANGE),\n sentence_count: rand(DEFAULT_SENTENCE_COUNT_RANGE),\n fillers: dictionnary.fillers\n )\n sentence_count = 0 if sentence_count.negative?\n paragraph = []\n sentence_count.times do\n s = sentence(word_count: word_count, fillers: fillers)\n paragraph << s unless s.empty?\n end\n paragraph.join(' ')\n end", "def extract_content(post_content)\n doc = Hpricot(post_content)\n html = ''\n if (doc % :blockquote)\n parts = (doc % :blockquote).children\n quoting = false\n bcount = 0\n\n if parts.size > 2\n parts[2..-1].each do |child|\n br = child.to_s == '<br />'\n bcount = br ? bcount + 1 : 0\n if bcount > 2\n quoting = !quoting\n html += quoting ? \"<p><blockquote>\" : \"</blockquote></p>\"\n bcount = 0\n else\n html += child.to_s\n end\n end\n\n html += '</blockquote></p>' if quoting\n html = html.gsub('<br /><br /><blockquote>', '<blockquote>')\n html = html.gsub('<br /><br /></p>', '</p>')\n html = html.gsub('<p><br />', '<p>')\n end\n end\n end", "def generate_teaser(text, length=180)\n return '' if text.blank?\n teaser = ''\n\n stripped_body = ActionController::Base.helpers.strip_tags(text)\n .gsub(\"&nbsp;\",\" \").gsub(/\\r/,'').strip\n\n stripped_body.match(/^.+/) do |match|\n first_paragraph = match[0]\n\n if first_paragraph.length <= length\n teaser = first_paragraph\n else\n shortened_paragraph = first_paragraph.match(/\\A.{#{length}}[^\\.]*\\.?/)\n\n teaser = if shortened_paragraph\n \"#{shortened_paragraph[0]}\"\n else\n first_paragraph\n end\n end\n end\n\n teaser\n end", "def get_teaser\n return self.teaser if self.teaser?\n\n # if post doesn't have a defined teaser then we try\n # to create one by grabbing the first couple of sentences\n\n # note that this fails in a lot of edge cases\n # http://stackoverflow.com/questions/1714657/find-some-sentences\n # failure cases so far:\n # * sentence ends with ?\n # * sentence contains URL www.blah.com\n # * markdown should be stripped out\n sentences = self.body.split(\".\")\n if sentences.size >= 2\n sentences[0] + \". \" + sentences[1] + \"...\"\n else\n return self.body\n end\n end", "def split_sentences\n #break text first by paragraph then into chunks delimited by a period\n #but these are not quite sentences yet\n chunks = (self.split(/\\n+/).map { |p| \"#{p}\\n\".split(/\\.(?:[^\\w])/) }).flatten.compact\n \n #if a sentence is split at Mr.|Ms.|Dr.|Mrs. \n #then recombine it with its remaining part and nil it to delete later\n tmp=''\n sentences = chunks.map { |c|\n ss = (tmp != '')? \"#{tmp}. #{c}\" : c\n if c.match(/(?:Dr|Mr|Ms|Mrs)$/) #what about John F. Kennedy ([A-Z])\n tmp = ss\n ss=nil\n else\n tmp = ''\n end\n ss\n } \n sentences.compact #delete nil elements\n end", "def paragraphs\n @paragraphs ||= Array(@grpc.paragraphs).map do |b|\n Paragraph.from_grpc b\n end\n end", "def all_page_part_content\n parts.map(&:body).join \" \"\n end", "def split_paragraphs_largebreak(text)\n return [] if text.blank?\n text.to_str.gsub(/\\r\\n?/, \"\\n\").split(/\\n\\n/).map! do |t|\n t.gsub!(/(^\\n|[^\\n]\\n)(?=[^\\n])/, '\\1<br />') || t\n end\n end", "def stripped_text_blocks\n stripped = []\n text_blocks.each do |tb|\n if \"Boston Police Department\" == tb && %r{^\\d+/\\d+/\\d{4} } =~ stripped.last\n # skip\n stripped.pop\n elsif /, Police Commissioner/ =~ tb\n # skip\n elsif /^Selected & Sorted By:/ =~ tb\n # skip\n elsif /^Record Count:/ =~ tb\n # skip\n stripped.pop if /^\\d+$/ =~ stripped.last\n elsif /^(Date:|Reported|Occurred)$/ =~ tb\n # skip\n else\n stripped << tb\n end\n end\n stripped\n end", "def excerpt(text, phrase, options = {})\n return unless text && phrase\n\n separator = options.fetch(:separator, nil) || \"\"\n case phrase\n when Regexp\n regex = phrase\n else\n regex = /#{Regexp.escape(phrase)}/i\n end\n\n return unless matches = text.match(regex)\n phrase = matches[0]\n\n unless separator.empty?\n text.split(separator).each do |value|\n if value.match?(regex)\n phrase = value\n break\n end\n end\n end\n\n first_part, second_part = text.split(phrase, 2)\n\n prefix, first_part = cut_excerpt_part(:first, first_part, separator, options)\n postfix, second_part = cut_excerpt_part(:second, second_part, separator, options)\n\n affix = [first_part, separator, phrase, separator, second_part].join.strip\n [prefix, affix, postfix].join\n end", "def output_paragraphs\n if @number <= self.class.total_included_paragraphs\n PARAGRAPHS[0, @number].join(\"\\n\\n\")\n else\n repeat = (@number / self.class.total_included_paragraphs.to_f).ceil\n (PARAGRAPHS * repeat)[0, @number].join(\"\\n\\n\")\n end\n end", "def content_summary(**args)\n length = args[:length] ? args[:length] : 50\n # If we can find first paragraph\n reg = Regexp.new(/(^<p>[^<]*<\\/p>)/)\n if !self.content.match(reg).nil?\n return self.content.match(reg).captures[0].gsub(/<[a-z]{1,}[^>]*>|<\\/[a-z]>/,'').truncate(length)\n end\n # Else, strip HTML and truncate\n return self.content.gsub(/<[a-z]{1,}[^>]*>|<\\/[a-z]>/, '').truncate(length)\n end", "def summary\n self.content.gsub(/\\r?\\n\\r?\\n(.*)/m, '') # break after the first paragraph\n end", "def excerpt(length = 255)\n text_blocks = blocks.map { |b| b.specific.body if b.specific.respond_to?(:body) }\n ActionView::Base.full_sanitizer\n .sanitize(text_blocks.try(:first)\n .try(:first, length))\n end", "def plain_text\n _search_parts_keys(/plain/i)\n end", "def to_s\n paragraphs.map(&:text).join('')\n end", "def p_wrap(text, opts={})\n # Actually if opts[:truncate], we might wanna remove the bad tags entirely instead of escaping...\n my_allowed_tags = opts[:tags].is_a?(Array) ? opts[:tags] : (allowed_tags - %w(p))\n # Basically these are types that cannot exist within a P tag. P is not allowed, however.\n # TODO: Style h1-h3 so that they are at greatest the size of an h3.\n block_levels = \"pre|blockquote|h1|h2|h3|h4|h5|h6|ol|ul\"\n res = text.to_s.\n gsub(/(<\\/?(\\w+)[^>]*>)/) {|t| my_allowed_tags.include?($2) ? $1 : h($1)}.\n gsub(/\\r\\n?/, \"\\n\").\n gsub(/\\n\\n+/, \"</p>\\n\\n<p>\")\n res = \"<p>\" + res + \"</p>\"\n\n res.gsub(/(<(?:#{block_levels})>)/, \"</p>\\n\\\\1\").gsub(/(<\\/(?:#{block_levels})>)/, \"\\\\1\\n<p>\").\n gsub(/\\s*<p><\\/p>\\s*/, \"\\n\"). # Fuck. This performs within a PRE tag...\n gsub(/([^\\n|>]\\n)(?!\\n)/, \"\\\\1<br />\\n\").strip\n end", "def get_sentences(html)\n # var html = (typeof el==\"string\") ? el : el.innerHTML;\n\n # exclusion lists\n mrsList = \"Mr,Ms,Mrs,Miss,Msr,Dr,Gov,Pres,Sen,Prof,Gen,Rep,St,Messrs,Col,Sr,Jf,Ph,Sgt,Mgr,Fr,Rev,No,Jr,Snr\"\n topList = \"A,B,C,D,E,F,G,H,I,J,K,L,M,m,N,O,P,Q,R,S,T,U,V,W,X,Y,Z,etc,oz,cf,viz,sc,ca,Ave,St\"\n geoList = \"Calif,Mass,Penn,AK,AL,AR,AS,AZ,CA,CO,CT,DC,DE,FL,FM,GA,GU,HI,IA,ID,IL,IN,KS,KY,LA,MA,MD,ME,MH,MI,MN,MO,MP,MS,MT,NC,ND,NE,NH,NJ,NM,NV,NY,OH,OK,OR,PA,PR,PW,RI,SC,SD,TN,TX,UT,VA,VI,VT,WA,WI,WV,WY,AE,AA,AP,NYC,GB,IRL,IE,UK,GB,FR\"\n numList = \"0,1,2,3,4,5,6,7,8,9\"\n webList = \"aero,asia,biz,cat,com,coop,edu,gov,info,int,jobs,mil,mobi,museum,name,net,org,pro,tel,travel,xxx\"\n extList = \"www\"\n d = \"__DOT__\"\n\n # cleanup \".\" that should not be used for sentence splitting\n list = (topList+\",\"+geoList+\",\"+numList+\",\"+extList)\n # html = html.replace(new RegExp((\" \"+list[i]+\"\\\\.\"), \"g\"), (\" \"+list[i]+d))\n regexp = Regexp.new \" (#{list.gsub(/,/,\"|\")})\\\\.\"\n html = html.gsub(regexp){|match| \" #{match}#{d}\"}\n # puts regexp.inspect\n\n list = (mrsList+\",\"+numList)\n # html = html.replace(new RegExp((list[i]+\"\\\\.\"), \"g\"), (list[i]+d))\n regexp = Regexp.new \"(#{list.gsub(/,/,\"|\")})\\\\.\"\n html = html.gsub(regexp){|match| \"#{match}#{d}\"}\n\n list = webList\n # html = html.replace(new RegExp((\"\\\\.\"+list[i]), \"g\"), (d+list[i]))\n regexp = Regexp.new \"\\\\.(#{list.gsub(/,/,\"|\")})\"\n html = html.gsub(regexp){|match| \"#{d}#{match}\"}\n\n # split sentences\n lines = clean_array(html.split('. '))\n return lines\n end", "def prepare_phrases\n text_array, prepared = @text.split, []\n 3.times do |time|\n prepared << random_phrase(text_array)\n end\n prepared\n end", "def remove_paragraphs_from_list_items!\n @document.tree.search('li p').each { |node| node.node_name = 'span' }\n end", "def parse_paragraph_from(p_node)\n Elements::Containers::Paragraph.new(p_node, document_properties)\n end", "def parse_paragraph_from(p_node)\n Elements::Containers::Paragraph.new(p_node, document_properties)\n end", "def each_paragraph\n paragraphs.each { |tr| yield(tr) }\n end", "def paragraphs(number: T.unsafe(nil), supplemental: T.unsafe(nil)); end", "def fetch_text(article_url)\n\t\trequire 'open-uri'\n\t\ttext = \"\"\n\t\tfile = open(article_url)\n\t\tcontents = file.readlines\n\t\tcontents.each do |line| \n\t\t\tif line =~ /<p[^>]*>/\n\t\t\t\tline.slice!(/<p[^>]*>/)\n\t\t\t\tline.slice!(/<\\/p>/)\n\t\t\t\ttext = text + line + \"<br/>\" + \"<br/>\"\n\t\t\tend\n\t\tend\n\t\treturn text\n\tend", "def _Paragraph\n\n _save = self.pos\n while true # choice\n _tmp = apply(:_ExplicitParagraph)\n break if _tmp\n self.pos = _save\n _tmp = apply(:_ImplicitParagraph)\n break if _tmp\n self.pos = _save\n break\n end # end choice\n\n set_failed_rule :_Paragraph unless _tmp\n return _tmp\n end", "def secondary_description\n first_long_paragraph = parsed_document.search('//p[string-length() >= 120]').first\n first_long_paragraph ? first_long_paragraph.text : ''\n end", "def each_paragraph(contents)\n contents.split(\"\\n\\n\").each_with_index do |paragraph, id|\n yield id, paragraph\n end\nend", "def extract_pages_to_text\n reader.pages.each do |page|\n raw_extracted_pages << page.text.split(\"\\n\")\n end\n end", "def extract_messages\n parse do |part|\n case part[:type]\n when :empty_line\n # ignore\n when :paragraph\n yield(part)\n end\n end\n end", "def possible_texts\n @possible_texts ||= (pages[0, 5] + pages[(page_count / 4)...(page_count / 2)]).sample(5)\n end", "def paragraph(string)\n puts \"No info available...\" if string == \"\" #technically useless now...\n loop do\n puts paragraph_line = string.truncate(80, separator: ' ', omission: '') #prints the first 80 characters, stopping at the nearest space before\n string = string.from (paragraph_line.length + 1) #removes that first line from the original string, and then the loop repeats\n break if string == nil #not entrirely sure why this works, but ends the loop when there is no string left.\n end\nend", "def split_paragraphs(input)\n return input.split(/\\n[ ]*\\n+/)\n end", "def paragraphize(input)\n \"#{input.lstrip.rstrip.gsub(/\\n\\n/, '</p><p>').gsub(/\\n/, '')}\"\n end", "def extract_block_from_paragraph!(element)\n p = element.parent\n return unless node_name?(p, 'p')\n children_after = p.children[p.children.index(element) + 1..-1]\n remove_leading_blanks! children_after\n # Move the element out of and after the paragraph\n p.add_next_sibling element\n # Move all the elements after the onebox to a new paragraph\n unless children_after.empty?\n new_p = Nokogiri::XML::Node.new 'p', doc\n element.add_next_sibling new_p\n children_after.each { |child| new_p.add_child child }\n end\n # The original paragraph might have been split just after a <br> or whitespace, remove them if so:\n remove_leading_blanks! p.children.reverse\n p.remove if p.children.empty?\n end", "def process_description_body(description)\r\n if !description.eql?(\"\") then\r\n description_html = Nokogiri::HTML(description, 'UTF-8') do | config |\r\n config.strict\r\n end\r\n this_html = description_html.search('html').first\r\n this_body = this_html.search('body').first\r\n body_content = this_body.children.to_s.gsub(\"\\n\", \"\")\r\n else\r\n body_content = \"\"\r\n end\r\n return body_content\r\n end", "def to_html\n paragraphs.map(&:to_html).join('\\n')\n end", "def paragraph(sentence_count: 3, supplemental: false, random_sentences_to_add: 3)\n sentences(number: resolve(sentence_count) + rand(random_sentences_to_add.to_i).to_i, supplemental: supplemental).join(' ')\n end", "def paragraph(text)\n add_custom_tags(\"<p>#{text.strip}</p>\\n\")\n end" ]

[ "0.7406742", "0.67261267", "0.6710166", "0.655919", "0.6441846", "0.6341218", "0.63394237", "0.6295219", "0.62396485", "0.6211436", "0.6153675", "0.615007", "0.6016181", "0.597451", "0.593671", "0.5908489", "0.5899642", "0.58964217", "0.5891824", "0.5866849", "0.58635885", "0.58621633", "0.58138645", "0.5813073", "0.5799681", "0.5798242", "0.57800347", "0.5761646", "0.5757426", "0.57547903", "0.57547903", "0.57541335", "0.5752166", "0.57405496", "0.57100165", "0.56885034", "0.5682497", "0.5680226", "0.5651895", "0.5646315", "0.56258374", "0.5612472", "0.5593854", "0.5578305", "0.557336", "0.5542574", "0.5534621", "0.55100715", "0.55093145", "0.54579514", "0.54534996", "0.54391575", "0.54312783", "0.54312783", "0.5428006", "0.54159135", "0.5410068", "0.5393861", "0.5391639", "0.53904223", "0.53833526", "0.5380695", "0.53541154", "0.5353604", "0.5345119", "0.53430676", "0.53333795", "0.5326264", "0.53253424", "0.5320317", "0.53025657", "0.5293171", "0.5292902", "0.5267373", "0.5258855", "0.52584493", "0.5251894", "0.524945", "0.52244055", "0.52103275", "0.52070117", "0.5187505", "0.5187505", "0.5187232", "0.51834923", "0.51785547", "0.5177982", "0.5177839", "0.5171087", "0.5163608", "0.51570857", "0.5149487", "0.5126452", "0.51250464", "0.5115461", "0.51004744", "0.5096679", "0.5092085", "0.5090435", "0.50871813" ]

[ "def access_package=(value)\n @access_package = value\n end", "def access_package=(value)\n @access_package = value\n end", "def access_packages\n return @access_packages\n end", "def access_packages\n return @access_packages\n end", "def access_packages=(value)\n @access_packages = value\n end", "def access_packages=(value)\n @access_packages = value\n end", "def access_package_assignment_approvals\n return @access_package_assignment_approvals\n end", "def package\n return @children['package'][:value]\n end", "def access_package_assignment_approvals=(value)\n @access_package_assignment_approvals = value\n end", "def package_get(ref)\n raise ArgumentError.new(ref.inspect) unless ref.package_id\n\n package_table.get(ref)\n end", "def access_consent\n return @access_consent\n end", "def package_link\n @attributes[:package_link]\n end", "def package_settings\n properties[:package_settings]\n end", "def package_settings\n properties[:package_settings]\n end", "def package\n @options['package']\n end", "def current_package\n @current_package\n end", "def java_package\n if file_descriptor_proto.has_field?(:options) && present?(file_descriptor_proto.options.java_package)\n return file_descriptor_proto.options.java_package\n else\n return file_descriptor_proto.package\n end\n end", "def get_permission_level\n if package_groups.length > 0\n package_groups.order(\"permission_level asc\").first.permission_level\n else\n 0\n end\n end", "def get_permission_level\n if ( package_groups.length > 0)\n package_groups.order(\"permission_level asc\").first.permission_level\n else\n 0\n end\n end", "def current_package\n @cur_pkg = nil\n if self.employee_package_id\n @cur_pkg = EmployeePackage.find(self.employee_package_id)\n end\n if @cur_pkg == nil\n @cur_pkg = self.get_latest_effective_package\n end\n if @cur_pkg == nil\n errors.add(:employee_package_id, \"Error - cannot find current benefit package.\")\n end\n return @cur_pkg\n end", "def [](packagename)\n\t\t\t\treturn(packages()[packagename])\n\t\t\tend", "def access_path\n all_paths.select do |file|\n file if File.basename(file, \".*\") =~ /access/\n end.first\n end", "def billing_permission\n @attributes[:billing_permission]\n end", "def path_from_package(package_name)\n ret = package_from_name package_name\n ret && ret.root_path\n end", "def getAccessInfo()\n @accessInfo\n end", "def provision_dav_permission\n @attributes[:provision_dav_permission]\n end", "def package\n @package ||= path.split('/lib/')[0].split('/').last.split('.js').last\n end", "def permission\n return @children['permission'][:value]\n end", "def provision_attachments_permission\n @attributes[:provision_attachments_permission]\n end", "def access_type\n @access_type\n end", "def package\n @package ||= Package.initialize_from_path(path: \"#{resource_path}/package\",\n client: @client)\n end", "def policy\n self.permissions['policy'].to_sym\n end", "def package=(value)\n @children['package'][:value] = value\n end", "def conditional_access\n return @conditional_access\n end", "def access_file_name\n return @access_file_name\n end", "def required_minimum_access_level_for_private_project(feature)\n feature = ensure_feature!(feature)\n\n PRIVATE_FEATURES_MIN_ACCESS_LEVEL_FOR_PRIVATE_PROJECT.fetch(feature) do\n required_minimum_access_level(feature)\n end\n end", "def access_level\n config[:access] || 'private'\n end", "def your_project_access_type policy = nil, resource = nil\n unless policy.nil? or resource.nil? or !(policy.sharing_scope == Policy::ALL_SYSMO_USERS)\n unless policy.permissions.empty?\n my_project_ids = if resource.class == Project then [resource.id] else resource.project_ids end\n my_project_perms = policy.permissions.select {|p| p.contributor_type == 'Project' and my_project_ids.include? p.contributor_id}\n access_types = my_project_perms.map(&:access_type)\n return access_types.first if access_types.all?{|acc| acc == access_types.first}\n else\n policy.access_type\n end\n end\n end", "def package_group(val = NULL)\n if null?(val)\n @package_group || Ohai[\"root_group\"] || \"root\"\n else\n @package_group = val\n end\n end", "def package_group(val = NULL)\n if null?(val)\n @package_group || Ohai['root_group'] || 'root'\n else\n @package_group = val\n end\n end", "def provision_ftp_permission\n @attributes[:provision_ftp_permission]\n end", "def provision_sftp_permission\n @attributes[:provision_sftp_permission]\n end", "def access_level(force = false)\n if not force and self.mapping.present? and self.mapping.access_level.present?\n return self.mapping.access_level\n else\n retrieve_meta!\n\n return self.meta.nil? ? false : self.meta['access_level'].to_s\n end\n end", "def getsfLma__PackageObjName\r\n\t\t\treturn \"sfLma__Package__c\"\r\n\t\tend", "def license\n return @license\n end", "def visibility\n if read_groups.include? Hydra::AccessControls::AccessRight::PERMISSION_TEXT_VALUE_PUBLIC\n Hydra::AccessControls::AccessRight::VISIBILITY_TEXT_VALUE_PUBLIC\n elsif read_groups.include? Hydra::AccessControls::AccessRight::PERMISSION_TEXT_VALUE_AUTHENTICATED\n Hydra::AccessControls::AccessRight::VISIBILITY_TEXT_VALUE_AUTHENTICATED\n else\n VISIBILITY_TEXT_VALUE_DEPARTMENT\n end\n end", "def native_release_packages\n @attributes[:native_release_packages]\n end", "def permission_set\n @attributes[:permission_set]\n end", "def resource_access\n return @resource_access\n end", "def resource_access\n return @resource_access\n end", "def protected_access?(perm_symbol)\n obj = find_permission_object(perm_symbol)\n obj.nil? ? false : obj.protected_access?\n end", "def access_text()\n result = case access\n when Codegen::Access::RW then \"read/write\"\n when Codegen::Access::RO then \"read only\"\n when Codegen::Access::IA then \"inaccessible\"\n end\n result = \"open\" if public\n result\n end", "def gpg\n @attributes[:gpg]\n end", "def package_name(val = NULL)\n if null?(val)\n @package_name || name\n else\n @package_name = val\n end\n end", "def get_package(opts = {})\n data, _status_code, _headers = get_package_with_http_info(opts)\n return data\n end", "def gr_is_visible?\n eval_policy(:read_access)\n end", "def source_access_path\n _access_path(source_annotations)\n end", "def display_access\n return _('Unspecified') if @research_output.access.blank?\n\n @research_output.access.capitalize\n end", "def package\n bs_request.bs_request_actions.first.target_package\n end", "def sftp_permission\n @attributes[:sftp_permission]\n end", "def sftp_permission\n @attributes[:sftp_permission]\n end", "def attachments_permission\n @attributes[:attachments_permission]\n end", "def attachments_permission\n @attributes[:attachments_permission]\n end", "def deposit_package_subtype\n 'https://jats.nlm.nih.gov/publishing/'\n end", "def lookup(package_name)\n pkgs = @rpms[package_name]\n if pkgs\n pkgs.sort.reverse\n else\n nil\n end\n end", "def access\n if self.read_users.present?\n \"limited\"\n elsif self.read_groups.empty?\n \"private\"\n elsif self.read_groups.include? \"public\"\n \"public\"\n elsif self.read_groups.include? \"registered\"\n \"restricted\" \n else \n \"limited\"\n end\n end", "def [](name)\n packages[name]\n end", "def visibility_for(group:)\n @map.find { |_, v| v[:permission] == group }&.first\n end", "def public_access?(perm_symbol)\n obj = find_permission_object(perm_symbol)\n obj.nil? ? false : obj.public_access? \n end", "def variable_get(ref)\n variable_table.get(self, setup_package_id(ref))\n end", "def grant_permission\n @attributes[:grant_permission]\n end", "def deposit_package_type\n 'https://sagepub.com'\n end", "def folder_permissions_groups_only\n @attributes[:folder_permissions_groups_only]\n end", "def dav_permission\n @attributes[:dav_permission]\n end", "def dav_permission\n @attributes[:dav_permission]\n end", "def groups_access(access)\n group_ids = group_ids_access(access)\n Group.where(id: group_ids)\n end", "def get_access_policy request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_get_access_policy_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Identity::AccessContextManager::V1::AccessPolicy.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def package\n p = Package.where(:id => self.package_id).first\n p ||= package_branch.latest(manifest) if package_branch.present?\n p\n end", "def get_gcp_user_access_binding request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_get_gcp_user_access_binding_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Identity::AccessContextManager::V1::GcpUserAccessBinding.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def get_access_binding request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_get_access_binding_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Analytics::Admin::V1alpha::AccessBinding.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def extended_folder_permissions\n @attributes[:extended_folder_permissions]\n end", "def user_id_and_access_level_for_project_group_shares(link)\n least_access_level_among_group_membership_and_project_share =\n smallest_value_arel([link.group_access, GroupMember.arel_table[:access_level]], 'access_level')\n\n [\n :user_id,\n least_access_level_among_group_membership_and_project_share\n ]\n end", "def access!\n val = access\n if any? { |b| b.access != val }\n fail 'Not all bits the collection have the same access value!'\n end\n\n val\n end", "def access_in_perm?(name)\n if perm = Lockdown::Configuration.permission(name)\n return session_access_rights.include?(perm.regex_pattern)\n end\n false\n end", "def dependencies_as_permissions\n @dependencies_as_permissions ||= dependencies.map do |path|\n @group.schema.root_group.find_permissions_from_path(path)\n end.flatten\n end", "def license\n read_property 'License'\n end", "def permission_assigned_automatically?(permmision_symbol)\n public_access?(permmision_symbol) || protected_access?(permmision_symbol)\n end", "def resource_access=(value)\n @resource_access = value\n end", "def resource_access=(value)\n @resource_access = value\n end", "def permission_classification\n return @permission_classification\n end", "def deposit_package_subtype\n 'ProQuest'\n end", "def provision_group_required\n @attributes[:provision_group_required]\n end", "def ftp_permission\n @attributes[:ftp_permission]\n end", "def ftp_permission\n @attributes[:ftp_permission]\n end", "def set_package\n @package = @product.packages.friendly.find(params[:id])\n end", "def access_file_name\n @hash[\"AccessFileName\"]\n end", "def access_consent=(value)\n @access_consent = value\n end", "def package_selected?(name)\n Autoproj.workspace.manifest.package_selected?(name, false)\nend", "def package_name\n # TODO: verify renamed packages\n resource['title']\n end" ]

[ "0.72808987", "0.72808987", "0.6381779", "0.6381779", "0.63023806", "0.63023806", "0.6206695", "0.5798183", "0.57096916", "0.50586104", "0.49319774", "0.49246022", "0.4918219", "0.4918219", "0.49067923", "0.49056503", "0.48911703", "0.48806414", "0.48778886", "0.48398876", "0.48034617", "0.4754757", "0.47351435", "0.47215366", "0.4711518", "0.46616638", "0.4646788", "0.45900193", "0.4575356", "0.45721573", "0.4545138", "0.4535574", "0.45203242", "0.45166117", "0.4498388", "0.44604692", "0.44487292", "0.44466335", "0.443514", "0.4434849", "0.44340283", "0.4428473", "0.43988508", "0.43969113", "0.43924975", "0.43816304", "0.43798426", "0.43449003", "0.43421704", "0.43421704", "0.43351075", "0.43321434", "0.4329213", "0.4313603", "0.43078524", "0.4306125", "0.4300961", "0.4294848", "0.42825466", "0.42746294", "0.42746294", "0.42735985", "0.42735985", "0.4258272", "0.42551157", "0.42525807", "0.42482203", "0.42463684", "0.42326078", "0.423014", "0.42166188", "0.42121866", "0.42115298", "0.41931382", "0.41931382", "0.41879612", "0.41845822", "0.41752824", "0.4167842", "0.41635975", "0.41622335", "0.41550064", "0.41519955", "0.41502768", "0.4147378", "0.41424072", "0.41361985", "0.41150755", "0.41150755", "0.4114121", "0.4113349", "0.41122496", "0.40926918", "0.40926918", "0.40906927", "0.40898955", "0.40681532", "0.40588263", "0.40517536" ]

[ "def access_packages=(value)\n @access_packages = value\n end", "def access_packages=(value)\n @access_packages = value\n end", "def access_package_assignment_approvals=(value)\n @access_package_assignment_approvals = value\n end", "def access_package\n return @access_package\n end", "def access_package\n return @access_package\n end", "def package=(value)\n @children['package'][:value] = value\n end", "def package_set(ref, val)\n raise ArgumentError.new(ref.inspect) unless ref.package_id\n\n package_table.set(ref, val)\n end", "def release_access_node=(new_doc)\n if(new_doc.root.name != 'releaseAccess')\n raise \"Trying to replace releaseAccess with a non-releaseAccess document\"\n end\n\n term_value_delete(:select => '//embargoMetadata/releaseAccess')\n ng_xml.root.add_child(new_doc.root.clone)\n end", "def set_package\n @package = Package.find(params[:package_id])\n end", "def package(pkg)\n @pkg = pkg\n end", "def access_package_assignment_approvals\n return @access_package_assignment_approvals\n end", "def set_package\n @package = @product.packages.friendly.find(params[:id])\n end", "def access_packages\n return @access_packages\n end", "def access_packages\n return @access_packages\n end", "def set_package\n @package = Package.find(params[:id])\n end", "def set_package\n @package = Package.find(params[:id])\n end", "def set_package\n @package = Package.find(params[:id])\n end", "def set_package\n @package = Package.find(params[:id])\n end", "def set_package\n @package = Package.find(params[:id])\n end", "def set_package\n @package = Package.find(params[:id])\n end", "def set_package\n @package = Package.find(params[:id])\n end", "def set_package\n @package = Package.find(params[:id])\n end", "def set_package\n @package = Package.find(params[:id])\n end", "def set_access_group\n @access_group = AccessGroup.find(params[:id])\n end", "def enable(package)\n wait_until(\"Enabling package\") do\n get \"/invoke/wm.server.packages/packageEnable?package=#{CGI.escape package.to_s}\"\n end\n end", "def setGroupFileAccess(adminSettingPerms, groupName, filePath, grantAccess)\n\n #filePath = GlobalSettings.changeFilePathToMatchSystem(filePath)\n fAccess = filePath+\".access\"\n\n access = Hash.new\n if !File.exist?(fAccess)\n\n if grantAccess\n access[\"groups\"] = \";#{groupName}\"\n else\n access[\"groups\"] = \"\"\n end\n\n #access[\"groups\"] <= \";#{(grantAccess?groupName+\";\":\"\")}\"\n access[\"users\"] = \";guest;\"\n access[\"adminUsers\"] = \";root(rwp);#{adminSettingPerms}(rw);\"\n access[\"adminGroups\"] = \"\"\n else\n access = YAML.load_file(fAccess)\n groups = access[\"groups\"]\n if groups.index(groupName) == nil && grantAccess\n groups.concat( groupName+\";\" )\n elsif groups.index(groupName) != nil && !grantAccess\n\n beginning = groups[0..groups.index(groupName)]\n gend = groups[groups.index(\";\", groups.index(groupName)+groupName.size())+1]\n groups = beginning+gend;\n end\n access[\"groups\"] <= groups\n end\n File.write(fAccess, access.to_yaml)\n\n end", "def sgx_package_info_in_band_access=(sgx_package_info_in_band_access)\n validator = EnumAttributeValidator.new('String', [\"platform-default\", \"enabled\", \"disabled\"])\n unless validator.valid?(sgx_package_info_in_band_access)\n fail ArgumentError, \"invalid value for \\\"sgx_package_info_in_band_access\\\", must be one of #{validator.allowable_values}.\"\n end\n @sgx_package_info_in_band_access = sgx_package_info_in_band_access\n end", "def root_package_alias=(value)\n @root_package_alias = value\n end", "def set_product_discount_package\n @product_discount_package = ProductDiscountPackage.find(params[:id])\n end", "def resource_access=(value)\n @resource_access = value\n end", "def resource_access=(value)\n @resource_access = value\n end", "def setAccessInfo(accessInfo)\n if accessInfo\n @accessInfo = accessInfo\n else\n @accessInfo = nil\n end\n end", "def set_package\n if @package = Package.find(params[:id])\n else \n record_not_found(error)\n end\n end", "def set_access(access_level)\n changes = {:access => PENDING}\n changes[:publish_at] = nil if PUBLIC_LEVELS.include? access_level\n update_attributes changes\n background_update_asset_access access_level\n end", "def set_package\n @package = Package.find(params[:id])\n end", "def access_consent=(value)\n @access_consent = value\n end", "def add_package_to_layout(package)\n package_name = validate_package_name_argument(package)\n @has_layout = true\n normalized_layout[package_name] = \"/\"\n end", "def set_package_filename\n if @package_name.nil?\n @package_name = get_package_name\n end\n end", "def set_institute_package\n @institute_package = InstitutePackage.find(params[:id])\n end", "def assign_access_scope(scope)\n ACCESS_SCOPES.include?(scope.to_s) or raise \"'#{ scope }' is not a valid scope.\"\n self.access_scope = scope.to_s\n end", "def required_resource_access=(value)\n @required_resource_access = value\n end", "def set_protected_access(*perms)\n perms.each do |perm_symbol|\n perm = find_permission_object(perm_symbol)\n if perm\n perm.set_as_protected_access \n else\n msg = \"Permission not found: #{perm_symbol}\"\n raise Lockdown::InvalidRuleAssignment, msg\n end\n end\n end", "def policy_group=(policy_group)\n policy_group(policy_group)\n end", "def set_permission(name)\n @permission_objects[name] = Lockdown::Permission.new(name)\n end", "def declare_owner_access_control_key( ack )\n self.sg_owner_access_control_key = ack\n end", "def set_course_package\n @course_package = CoursePackage.find(params[:id])\n end", "def set_order_pack_package\n @order_pack_package = OrderPackPackage.find(params[:id])\n end", "def set_public_access(*perms)\n perms.each do |perm_symbol|\n perm = find_permission_object(perm_symbol)\n if perm\n perm.set_as_public_access \n else\n msg = \"Permission not found: #{perm_symbol}\"\n raise Lockdown::InvalidRuleAssignment, msg\n end\n end\n end", "def set_mathematica_package\n @mathematica_package = MathematicaPackage.find(params[:id])\n end", "def set_viewing_group\n @viewing_group = @pcp_subject.viewing_group_map( current_user )\n render_no_permission if @viewing_group == 0 \n end", "def set_file_package\n @file_package = FilePackage.find(params[:id])\n end", "def set_access\n @access = Access.find(params[:id])\n end", "def set_access\n @access = Access.find(params[:id])\n end", "def set_access\n @access = Access.find(params[:id])\n end", "def set_access\n @access = Access.find(params[:id])\n end", "def set_access\n @access = Access.find(params[:id])\n end", "def set_access\n @access = Access.find(params[:id])\n end", "def set_access\n @access = Access.find(params[:id])\n end", "def group=(group)\n debug \"#{self.artifactid}: Changing group to '#{self.artifactGroup}'.\"\n begin\n File.chown(nil,Etc.getgrnam(self.group).gid,self.artifact)\n rescue => detail\n raise Puppet::Error, \"Failed to set group to '#{self.group}': #{detail}\"\n end\n end", "def access_type= new_access_type\n @access_type = new_access_type\n end", "def package(package_name)\n raise RuntimeError, \"#{self.class} needs to overwrite package\"\n end", "def update!(**args)\n @access = args[:access] if args.key?(:access)\n end", "def package(group_name, package_name, package_version)\n RubyAem::Resources::Package.new(@client, group_name, package_name, package_version)\n end", "def package\n @package ||= Package.initialize_from_path(path: \"#{resource_path}/package\",\n client: @client)\n end", "def update_access_binding request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_update_access_binding_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Analytics::Admin::V1alpha::AccessBinding.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def conditional_access=(value)\n @conditional_access = value\n end", "def privateuse=(value)\n subtags = Array(value).flatten\n if subtags.empty?\n self.privateuse_sequence = nil\n else\n self.privateuse_sequence = subtags.unshift(PRIVATEUSE).join(HYPHEN)\n @privateuse = subtags\n end\n end", "def set_sub_package\n @sub_package = SubPackage.find(params[:id])\n end", "def remote_package=(remote_package)\n validator = EnumAttributeValidator.new('String', [\"LogMeIn\", \"NTR\"])\n unless validator.valid?(remote_package)\n fail ArgumentError, \"invalid value for 'remote_package', must be one of #{validator.allowable_values}.\"\n end\n @remote_package = remote_package\n end", "def set_access_level(access_level)\n if access_level >= 1\n self.commenter = true\n else\n self.commenter = false\n end\n if access_level >= 2\n self.editor = true\n else\n self.editor = false\n end\n if access_level >= 3\n self.administrator = true\n else\n self.administrator = false\n end\n end", "def set_package_request\n @package_request = PackageRequest.find(params[:id])\n end", "def update\n authorize! :manage, @packages , :message => \"Access denied.\"\n respond_to do |format|\n if @package.update(package_params)\n format.html { redirect_to [@package.product, @package], notice: 'Package was successfully updated.' }\n format.json { render :show, status: :ok, location: @package }\n else\n format.html { render :edit }\n format.json { render json: @package.errors, status: :unprocessable_entity }\n end\n end\n end", "def set_dpkg_package_name(name)\n dpkg_package.name name\n dpkg_package.package_name name\n end", "def disable(package)\n wait_until(\"Disabling package\") do\n get \"/invoke/wm.server.packages/packageDisable?package=#{CGI.escape package.to_s}\"\n end\n end", "def set_data_package\n @data_package = DataPackage.find(params[:id])\n end", "def package_group(val = NULL)\n if null?(val)\n @package_group || Ohai['root_group'] || 'root'\n else\n @package_group = val\n end\n end", "def update_gcp_user_access_binding request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_update_gcp_user_access_binding_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Longrunning::Operation.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def set_access_request\n @access_request = AccessRequest.find(params[:id])\n end", "def package_group(val = NULL)\n if null?(val)\n @package_group || Ohai[\"root_group\"] || \"root\"\n else\n @package_group = val\n end\n end", "def setUserFileAccess(adminSettingPerms, userName, filePath, grantAccess)\n\n #filePath = GlobalSettings.changeFilePathToMatchSystem(filePath)\n fAccess = filePath.concat \".access\"\n access = Hash.new {}\n if !File.exist?(fAccess)\n if grantAccess\n access[\"users\"] = \";#{userName};\"\n else\n access[\"users\"] = \"\"\n end\n access[\"groups\"] = \"\"\n if(adminSettingPerms == \"root\")\n access[\"adminUsers\"] = \";root(rwp);\"\n else\n access[\"adminUsers\"] = \";root(rwp);\"+adminSettingPerms+\"(rw);\"\n end\n access[\"adminGroups\"] = \"\"\n else\n access = YAML.load_file(fAccess)\n users = access[\"users\"]\n if users.index(userName) == nil && grantAccess\n users.concat( userName+\";\")\n elsif users.index(userName) != nil && !grantAccess\n\n beginning = users[0..users.index(userName)]\n gend = users[users.index(\";\", users.index(userName)+userName.size)]\n users = beginning.concat gend\n end\n access[\"users\"] = users\n end\n File.write(fAccess, access.to_yaml)\n\n end", "def set_AllowDownload(value)\n set_input(\"AllowDownload\", value)\n end", "def set_readonly_access(grant_access=true, manual_set=false)\n unless Rails.env.test? || self.queued_for_deletion || self.detached\n if manual_set || self.public_changed? || self.new_record?\n if self.firecloud_workspace.present? && self.firecloud_project.present? && ApplicationController.read_only_firecloud_client.present?\n access_level = self.public? ? 'READER' : 'NO ACCESS'\n if !grant_access # revoke all access\n access_level = 'NO ACCESS'\n end\n Rails.logger.info \"#{Time.zone.now}: setting readonly access on #{self.name} to #{access_level}\"\n readonly_acl = ApplicationController.firecloud_client.create_workspace_acl(ApplicationController.read_only_firecloud_client.issuer, access_level, false, false)\n ApplicationController.firecloud_client.update_workspace_acl(self.firecloud_project, self.firecloud_workspace, readonly_acl)\n end\n end\n end\n end", "def set_PackageCount(value)\n set_input(\"PackageCount\", value)\n end", "def package_override(project, var)\n fail \"I don't know how to set package overrides for #{name}, teach me?\"\n end", "def setPermissionView( other_user )\n return setPermission( other_user, Dfile::PP_MAYVIEW )\n end", "def set_supplier_package\n @supplier_package = SupplierPackage.find(params[:id])\n end", "def set_package_catering\n @package_catering = PackageCatering.find(params[:id])\n end", "def set_access(username, password, access_level)\n options = { :body => { \n :Username => username, \n :Password => password, \n :AccessLevel => access_level }.to_json }\n put 'setaccess', options\n end", "def set_study_accession\n self.study_accession = self.study.accession\n end", "def set_group_repo_permission\n @group_repo_permission = GroupRepoPermission.find(params[:id])\n end", "def set_package_version\n @package_version = PackageVersion.find(params[:id])\n end", "def give_access_to(access, login)\n raise UnknownSite, \"Site not existent in Piwik yet, call 'save' first\" if new?\n xml = call('UsersManager.setUserAccess', :idSites => id, :access => access.to_s, :userLogin => login.to_s)\n result = XmlSimple.xml_in(xml, {'ForceArray' => false})\n result['success'] ? true : false\n end", "def set_package_description\n @package_description = PackageDescription.find(params[:id])\n end", "def group=(new_group)\n if @group != new_group\n @dacl.reassign!(@group, new_group)\n @group = new_group\n end\n end", "def acl=(_acl)\n fail Dav::Exception::Forbidden, 'Setting ACL is not allowed here'\n end", "def create_package( package_name, is_public=true )\n page = \"/frs/admin/\"\n\n form = {\n \"func\" => \"add_package\",\n \"group_id\" => group_id,\n \"package_name\" => package_name,\n \"is_public\" => (is_public ? 1 : 0),\n \"submit\" => \"Create This Package\"\n }\n\n http_post(page, form)\n end", "def install(package)\n wait_until(\"Installing package\") do\n get \"/invoke/wm.server.packages/packageInstall?activateOnInstall=true&file=#{CGI.escape package.to_s}\"\n end\n end", "def update_direct_access(module_model_name, val)\n direct_access_col = direct_access_col(module_model_name)\n update(direct_access_col => val)\n self[direct_access_col] = val\n self\n end", "def master_access=(master_access)\n validator = EnumAttributeValidator.new('String', [\"none\", \"temporary\"])\n unless validator.valid?(master_access)\n fail ArgumentError, \"invalid value for \\\"master_access\\\", must be one of #{validator.allowable_values}.\"\n end\n @master_access = master_access\n end" ]

[ "0.72447586", "0.72447586", "0.64238185", "0.5963689", "0.5963689", "0.56943214", "0.54830503", "0.5214372", "0.5178155", "0.5079735", "0.4995955", "0.49955738", "0.4914539", "0.4914539", "0.48534617", "0.48534617", "0.48534617", "0.48534617", "0.48534617", "0.48534617", "0.48534617", "0.48534617", "0.48534617", "0.4850201", "0.47777957", "0.47568026", "0.4749888", "0.4719656", "0.47090635", "0.4672002", "0.4672002", "0.46718583", "0.46068513", "0.46046522", "0.45954975", "0.45709315", "0.4544466", "0.4540918", "0.4532009", "0.45286924", "0.44989341", "0.4498854", "0.44808322", "0.44713527", "0.44687214", "0.44683483", "0.4456868", "0.44507194", "0.44506896", "0.44408834", "0.44343743", "0.44328442", "0.44328442", "0.44328442", "0.44328442", "0.44328442", "0.44328442", "0.44328442", "0.44102737", "0.438094", "0.43732426", "0.43591022", "0.435898", "0.4348217", "0.43397933", "0.4320047", "0.43158862", "0.43158287", "0.42959443", "0.4281447", "0.42548963", "0.42522636", "0.42460012", "0.42296314", "0.42280662", "0.42229697", "0.4215559", "0.4214895", "0.42035025", "0.41883326", "0.4187392", "0.41777766", "0.41710496", "0.41597039", "0.41541716", "0.41498077", "0.4149439", "0.41317743", "0.41303834", "0.4130024", "0.41245914", "0.40996933", "0.40985566", "0.40983567", "0.40945944", "0.40926117", "0.40883878", "0.40797493", "0.40747648" ]

[ "def allowed_target_scope=(value)\n @allowed_target_scope = value\n end", "def policy_scope(target, options={})\n policy(target, options).scope\n end", "def specific_allowed_targets\n return @specific_allowed_targets\n end", "def authorization_scope_type_for(policy, target)\n policy.resolve_scope_type(target)\n end", "def allowable\n return @allowable if @allowable\n\n @allowable = parent_allowables\n end", "def permissions_supplied?\n !!(self.target_mode || self.target_user || self.target_group)\n end", "def apply_scopes_if_available(target_object) #:nodoc:\n respond_to?(:apply_scopes, true) ? apply_scopes(target_object) : target_object\n end", "def application_enforced_restrictions\n return @application_enforced_restrictions\n end", "def scopes\n env['HTTP_X_AUTHENTICATED_SCOPE'].to_s.split(',')\n end", "def specific_allowed_targets=(value)\n @specific_allowed_targets = value\n end", "def user_scoped\n @_user_scoped ||= model.respond_to?(:user_scoped) ?\n model.user_scoped(current_user, scope_context, params[:id_target]) :\n model\n end", "def privacy_scope\r\n\t\t\tif @privacy_scope.nil?\r\n\t\t\t\t@privacy_scope = privacy_owner.get_privacy_scope(self.class.privacy_rule_name, privacy_object_id)\r\n\t\t\tend\r\n\t\t\treturn @privacy_scope\r\n\t\tend", "def query_target_permission\n @attributes[:query_target_permission]\n end", "def current_user_scope\n current_user\n end", "def allow?(user, target)\n @condition.call(user, target)\n end", "def allowed_by(rack_env)\n Env.new(rack_env).allowed_by\n end", "def acceptable?(scopes)\n accessible? && includes_scope?(*scopes)\n end", "def permission_role_for(target, context, proles=nil)\n auth_scope do\n proles ||= roles_for(context)\n return permission_role_class.find_by(role_foreign_key.to_sym => proles.map(&:id), permission_foreign_key.to_sym => target.id, :context_type => context.class_name, :context_id => context.id)\n end\n end", "def scope(*scopes)\n return if scopes.empty?\n\n unauthorized message: 'User must me authorized' unless current_user\n forbidden messages: 'Not all scope expectations are matched' unless\n current_user.grants_scope?(*scopes)\n end", "def target_audience\n @target_audience\n end", "def allowed?\n if params[:environment]\n Ability.allowed?(current_user, :read_environment, project)\n elsif params[:cluster]\n true # Authorization handled at controller level\n else\n false\n end\n end", "def query_target_permission_set\n @attributes[:query_target_permission_set]\n end", "def current_tenant_permissions\n if current_or_guest_user\n current_or_guest_user.tenant_ids\n else\n nil\n end\n end", "def implicit_authorization_target!\n implicit_authorization_target || Kernel.raise(\n NotFound,\n [\n self,\n \"Couldn't find implicit authorization target \" \\\n \"for #{self.class}. \" \\\n \"Please, provide policy class explicitly using `with` option or \" \\\n \"define the `implicit_authorization_target` method.\"\n ]\n )\n end", "def target_in_privileges?\n @privileges.key?(@target)\n end", "def phi_allowed_by\n phi_context[:user_id]\n end", "def allowed?\n allowed\n end", "def scope=(value)\n @scope = value\n end", "def scope=(value)\n @scope = value\n end", "def scope=(value)\n @scope = value\n end", "def scope=(value)\n @scope = value\n end", "def scope=(value)\n @scope = value\n end", "def scope=(value)\n @scope = value\n end", "def directory_scope=(value)\n @directory_scope = value\n end", "def available_target_options\n [:email, :email_allowed, :batch_email_allowed, :subscription_allowed, :action_cable_enabled, :action_cable_with_devise, :devise_resource, :printable_notification_target_name, :printable_name].freeze\n end", "def effective_permissions\n source = self\n\n while source.inherit && source.forum.parent\n source = source.forum.parent.forum_permissions.find_by(group: group)\n end\n\n source = group if source.inherit\n\n source\n end", "def available?\n restrictions.all? {|restriction| restriction.permitted?}\n end", "def target_scope\n AssociationRelation.create(klass, self).merge!(klass.scope_for_association)\n end", "def available_scopes\n (default_scopes << Doorkeeper.config.optional_scopes.to_a).flatten.uniq\n end", "def oauth2_scope(value = nil)\n rw_config(:oauth2_scope, value, '')\n end", "def blocked?(favoritable, options = {})\n if options.key?(:multiple_scopes) == false\n options[:parameter] = favoritable\n validate_scopes(__method__, options)\n elsif options[:multiple_scopes]\n results = {}\n options[:scope].each do |scope|\n results[scope] = Favorite.blocked.send(scope + '_list')\n .for_favoritor(self)\n .for_favoritable(favoritable).count\n .positive?\n end\n results\n else\n Favorite.blocked.send(options[:scope] + '_list').for_favoritor(self)\n .for_favoritable(favoritable).count.positive?\n end\n end", "def allowed_approvers\n return @allowed_approvers unless @allowed_approvers.nil?\n\n owners = owners_contents.flatten.uniq\n\n if self.author =~ /<(.+?)@amiestreet.com>/\n author_username = $1\n owners.reject! { |u| u == author_username }\n end\n @allowed_approvers = owners\n\n @allowed_approvers\n end", "def draft_target_associations\n targets = if const_defined?(:CREATES_NESTED_DRAFTS_FOR) && const_get(:CREATES_NESTED_DRAFTS_FOR).is_a?(Array)\n const_get(:CREATES_NESTED_DRAFTS_FOR).compact\n else\n default_draft_target_associations\n end.map(&:to_sym)\n end", "def accessible_scopes\n [uid, shared_space.try(:uid)].compact\n end", "def global_privilege_permitted? privilege\n resource(GLOBAL_PRIVILEGE_RESOURCE).permitted? privilege\n end", "def read_allowed?(user)\n return true unless self.group_restrictions.any? || (user.nil? && self.categories.detect { |c| !c.public })\n return false unless user\n group_restrictions.each do |r|\n unless user.group_memberships.find_by_usergroup_id(r.usergroup.id).nil? \n logger.info(\"\\n**** GRANT ACCESS TO GROUP #{r.usergroup.name}\")\n return true\n end\n end\n return false\n end", "def allowed_to_read_other_users\n return @allowed_to_read_other_users\n end", "def allowed_accounts\n return @allowed_accounts\n end", "def allowedonly()\n merge(gaallowedonly: 'true')\n end", "def allowed_users\n @permissions.keys.sort.select {|unix| allowed?(unix) }\n end", "def scoped_privileges(user_or_attribute, object_or_attribute, options = {})\n # Get an initial set of privileges and prohibitions without filtering. Prohibition checks should be\n # filter-agnostic since prohibitions are meant to be blocking.\n options_without_filters = options.except(:filters)\n privs_and_prohibs = get_all_scoped_privileges_and_prohibitions(user_or_attribute, object_or_attribute, options_without_filters)\n\n prohibitions, privileges = privs_and_prohibs.partition { |_,op,_| op.prohibition? }\n\n if options[:filters]\n # Replace unfiltered privileges with the privileges derived from a given set of filters\n privileges = policy_machine_storage_adapter.scoped_privileges(user_or_attribute.stored_pe, object_or_attribute.stored_pe, options).map do |op|\n operation = PM::Operation.convert_stored_pe_to_pe(op, policy_machine_storage_adapter, PM::Operation)\n [user_or_attribute, operation, object_or_attribute]\n end\n end\n\n if options[:ignore_prohibitions]\n privileges\n elsif options[:include_prohibitions]\n privileges | prohibitions\n else\n prohibited_operations = prohibitions.map { |_,prohibition,_| prohibition.operation }\n privileges.reject { |_,op,_| prohibited_operations.include?(op.unique_identifier) }\n end\n end", "def move_possible?(target)\n same_scope?(target) && !is_or_is_ancestor_of?(target)\n end", "def sufficent_scope?(req_scopes)\n if req_scopes.blank?\n # if no any scopes required, the scopes of token is sufficient.\n true\n else\n # If there are scopes required, then check whether\n # the set of authorized scopes is a superset of the set of required scopes\n required_scopes = Set.new(req_scopes)\n authorized_scopes = Set.new(scopes)\n\n authorized_scopes >= required_scopes\n end\n end", "def windows_restriction\n return @windows_restriction\n end", "def allowed_to_read_other_users=(value)\n @allowed_to_read_other_users = value\n end", "def restriction_level\n return 0 # only user itself is allowed\n end", "def permitted?\n appctrl_not_permitted() unless ( @current_user.privileged? )\n end", "def read_allowed?(user)\n return false if self.draft && self.user != user\n all_categories_public = (self.categories.detect { |c| !c.public }).nil?\n return true unless self.group_restrictions.any? || (user.nil? && !all_categories_public)\n return true if self.group_restrictions.empty? && user && all_categories_public\n return false unless user\n group_restrictions.each do |r|\n unless user.group_memberships.find_by_usergroup_id(r.usergroup.id).nil?\n logger.info(\"\\n**** GRANT ACCESS TO GROUP #{r.usergroup.name}\")\n return true\n end\n end\n return false \n end", "def project_permissions\n user.project_permissions(rule.project)\n end", "def permitted?\n appctrl_not_permitted() unless( @current_user.privileged? )\n end", "def resource_role_scopes=(value)\n @resource_role_scopes = value\n end", "def allowed_user_kinds\n if self.user_kinds\n self.user_kinds.split(\",\").collect(&:strip).collect(&:constantize)\n elsif self.parent_group\n self.parent_group.allowed_user_kinds\n else\n nil\n end\n end", "def permissions_assignable_for_user(usr)\n return [] if usr.nil?\n if administrator?(usr)\n get_permissions.collect{|k| Permission.find_by_name(Lockdown.get_string(k)) }.compact\n else\n user_groups_assignable_for_user(usr).collect{|g| g.permissions}.flatten.compact\n end\n end", "def application_enforced_restrictions=(value)\n @application_enforced_restrictions = value\n end", "def scope\n Pundit.policy_scope!(user, record.class)\n end", "def enforce_configured_scopes\n @config.instance_variable_set(:@enforce_configured_scopes, true)\n end", "def insecure\n @scope\n end", "def target_types\n return @target_types\n end", "def can?(user, action, target)\n @permissions.select { |cls, _| target.is_a?(cls) || target == cls }\n .collect { |_, perms| perms }\n .flatten\n .select { |perm| perm.has_action? action }\n .any? { |perm| perm.allow? user, target }\n end", "def policy_scope(scope, policy_scope_class: nil)\n api_scope = self.class.inherited_pundit_api_scope || []\n\n super(api_scope + [scope], policy_scope_class: policy_scope_class)\n end", "def allowed_to_create_security_groups\n return @allowed_to_create_security_groups\n end", "def permitted?\n appctrl_not_permitted() if ( @current_user.restricted? )\n end", "def directory_scope\n return @directory_scope\n end", "def projects_visible_to_current_user\n ::Project\n .in_namespace(group.self_and_descendants.select(:id))\n .public_or_visible_to_user(current_user)\n end", "def roles_without_assigned_role( target_role ) # :nodoc:\n\n other_roles = []\n\n collect_role = lambda do |role|\n unless role.nil? || other_roles.include?( role )\n other_roles << role\n collect_role.call( role.parent_role )\n end\n end\n\n self.role_assignments.select(&:current?).each do |ra|\n base_role = ra.role\n collect_role.call( base_role ) unless base_role == target_role\n end\n\n return other_roles\n\n end", "def policy_scopes; end", "def get_current_permissions()\n\t\t\tkparams = {}\n\t\t\tclient.queue_service_action_call('permission', 'getCurrentPermissions', kparams);\n\t\t\tif (client.is_multirequest)\n\t\t\t\treturn nil;\n\t\t\tend\n\t\t\treturn client.do_queue();\n\t\tend", "def device_sharing_allowed\n return @device_sharing_allowed\n end", "def pundit_scope\n base_scope = object ? object.send(parent_association_name) : self.class.model_klass\n\n # Enforce Pundit control if the gem is present\n # This current user must be injected in context inside the GraphqlController.\n if defined?(Pundit)\n self.class.pundit_scope_klass.new(current_user, base_scope.graphql_scope).resolve\n else\n base_scope.graphql_scope\n end\n end", "def scope\n parameter[:scope]\n end", "def disallowable\n return @disallowable if @disallowable\n\n @disallowable = parent_disallowables\n end", "def sharing_domain_restriction_mode\n return @sharing_domain_restriction_mode\n end", "def access_whitelist\n current_user.try(:admin?) || current_user.try(:editor?) || current_user.try(:door_super?)\n end", "def permissions_assignable_for_user(usr)\n return [] if usr.nil?\n if administrator?(usr)\n get_permissions.collect do |k| \n ::Permission.find_by_name(Lockdown.get_string(k))\n end.compact\n else\n user_groups_assignable_for_user(usr).collect do |g| \n g.permissions\n end.flatten.compact\n end\n end", "def reduce_scope_by_authorization(scope)\n return scope unless must_match_user_roles?\n scope.scoped_by_user_roles allowed_roles, match_roles_on\n end", "def scopes\n read_inheritable_attribute(:scopes) || write_inheritable_attribute(:scopes, {})\n end", "def is_permitted_for?( user )\n ( user.id == self.user.id ) or ( user.privileged? )\n end", "def could_without_role?( target_role, privilege, obj )\n\n other_roles = roles_without_assigned_role( target_role )\n\n perms = self.all_permissions( privilege, obj.class )\n other_perms = perms.select{ |perm| other_roles.include?( perm.role )}\n return other_perms.any?{ |perm| perm.allows?( obj, privilege, self ) }\n\n end", "def grant_controls\n return @grant_controls\n end", "def default_param_group_scope\n @scope\n end", "def sync_workspace_permissions(source_user_id, target_user_id)\n source_user = find_user(source_user_id)\n target_user = find_user(target_user_id)\n if source_user.nil? then\n @logger.warn \" Source user: #{source_user_id} Not found. Skipping sync of permissions to #{target_user_id}.\"\n return\n elsif target_user.nil then\n @logger.warn \" Target user: #{target_user_id} Not found. Skipping sync of permissions for #{target_user_id}.\"\n return\n end\n\n # Check to make sure source user has permissions\n permissions_existing = target_user.UserPermissions\n source_permissions = source_user.UserPermissions\n\n if source_permissions.nil? then\n @logger.warn \" Source user: #{source_user_id} does not have any permissions assigned. Skipping sync of permissions to #{target_user_id}.\"\n return\n end \n\n # build permission hashes by Workspace ObjectID\n source_permissions_by_workspace = {}\n source_permissions.each do | this_source_permission |\n if this_source_permission._type == \"WorkspacePermission\" then\n source_permissions_by_workspace[this_source_permission.Workspace.ObjectID.to_s] = this_source_permission\n end\n end\n\n permissions_existing_by_workspace = {}\n permissions_existing.each do | this_permission |\n if this_permission._type == \"WorkspacePermission\" then\n permissions_existing_by_workspace[this_permission.Workspace.ObjectID.to_s] = this_permission\n end\n end\n\n # Prepare arrays of permissions to update, create, or delete\n permissions_to_update = []\n permissions_to_create = []\n permissions_to_delete = []\n\n # Check target permissions list for permissions to create and/or update\n source_permissions_by_workspace.each_pair do | this_source_workspace_oid, this_source_permission |\n\n # If target hash doesn't contain the OID referenced in the source permission set, it's a new\n # permission we need to create\n if !permissions_existing_by_workspace.has_key?(this_source_workspace_oid) then\n permissions_to_create.push(this_source_permission)\n\n # We found the OID key, so there is an existing permission for this Workspace. Is it different\n # from the target permission?\n else\n this_source_role = this_source_permission.Role\n this_source_workspace = find_workspace(this_source_workspace_oid)\n this_source_workspace_name = this_source_workspace[\"Name\"]\n\n if workspace_permissions_different?(this_source_workspace, target_user, this_source_role) then\n existing_permission = permissions_existing_by_workspace[this_source_workspace_oid]\n this_existing_workspace = existing_permission.Workspace\n this_existing_workspace_name = this_existing_workspace[\"Name\"]\n this_existing_role = existing_permission.Role\n @logger.info \"Existing Permission: #{this_existing_workspace_name}: #{this_existing_role}\"\n @logger.info \"Updated Permission: #{this_source_workspace_name}: #{this_source_role}\"\n permissions_to_update.push(this_source_permission)\n end\n end\n end\n\n # Loop through target permissions list and check for Workspace Permissions that don't exist\n # in source permissions template, indicating they need to be removed\n permissions_existing_by_workspace.each_pair do | this_existing_workspace_oid, this_existing_permission |\n if !source_permissions_by_workspace.has_key?(this_existing_workspace_oid) then\n permissions_to_delete.push(this_existing_permission)\n end\n end\n\n # Process creates\n number_new_permissions = 0\n permissions_to_create.each do | this_new_permission |\n this_workspace = find_workspace(this_new_permission.Workspace.ObjectID.to_s)\n if !this_workspace.nil? then\n this_workspace_name = this_workspace[\"Name\"]\n this_role = this_new_permission.Role\n\n @logger.info \"Workspace: #{this_workspace_name}\"\n @logger.info \"Creating #{this_role} permission on #{this_workspace_name} from #{source_user_id} to: #{target_user_id}.\"\n create_workspace_permission(target_user, this_workspace, this_role)\n number_new_permissions += 1\n end\n end\n\n # Process updates\n number_updated_permissions = 0\n permissions_to_update.each do | this_new_permission |\n this_workspace = find_workspace(this_new_permission.Workspace.ObjectID.to_s)\n if !this_workspace.nil? then\n this_workspace_name = this_workspace[\"Name\"]\n this_role = this_new_permission.Role\n\n @logger.info \"Workspace: #{this_workspace_name}\"\n @logger.info \"Updating #{this_role} permission on #{this_workspace_name} from #{source_user_id} to: #{target_user_id}.\"\n create_workspace_permission(target_user, this_workspace, this_role)\n number_updated_permissions += 1\n end\n end\n\n # Process deletes\n number_removed_permissions = 0\n permissions_to_delete.each do | this_deleted_permission |\n this_workspace = find_workspace(this_deleted_permission.Workspace.ObjectID.to_s)\n if !this_workspace.nil? then\n this_workspace_name = this_workspace[\"Name\"]\n this_role = this_deleted_permission.Role\n\n @logger.info \"Workspace: #{this_workspace_name}\"\n @logger.info \"Removing #{this_role} permission to #{this_workspace_name} from #{target_user_id} since it is not present on source: #{source_user_id}.\"\n if !@upgrade_only_mode then\n delete_workspace_permission(target_user, this_workspace)\n number_removed_permissions += 1\n else\n @logger.info \" #{target_user_id} - upgrade_only_mode == true.\"\n @logger.info \" Proposed Permission removal would downgrade permissions. No permission removal applied.\"\n end\n end\n end\n @logger.info \"#{number_new_permissions} Permissions Created; #{number_updated_permissions} Permissions Updated; #{number_removed_permissions} Permissions Removed.\"\n end", "def valid?\n target_in_privileges? && has_privilege?\n end", "def current_scope\n params[:scope].try(:to_sym) || railgun_resource.default_scope.try(:key)\n end", "def can_approve?(target)\n is_staff? && target && target.active? && !target.approved?\n end", "def denied\n return @denied\n end", "def default_scopes\n Doorkeeper.config.default_scopes.to_a\n end", "def users_that_can_read_group(users, group)\n DeclarativePolicy.subject_scope do\n users.select { |u| allowed?(u, :read_group, group) }\n end\n end", "def allowed_members\n return @allowed_members\n end", "def implicit_authorization_target\n # no-op\n end", "def authorize_manageable\n unless @project_group.is_child_of?(@project)\n deny_access\n end\n true\n end" ]

[ "0.7413168", "0.565327", "0.5066602", "0.49834818", "0.48791662", "0.4832463", "0.4775261", "0.46609005", "0.4629174", "0.46046853", "0.4589094", "0.45679033", "0.45487618", "0.45356905", "0.4510491", "0.45086253", "0.44844607", "0.44803149", "0.44548732", "0.4438318", "0.44137233", "0.44078627", "0.44045168", "0.44009662", "0.43998006", "0.43826953", "0.43785897", "0.43600127", "0.43600127", "0.43600127", "0.43600127", "0.43600127", "0.43600127", "0.43360966", "0.43229347", "0.43132293", "0.428946", "0.42809996", "0.4277878", "0.4259807", "0.4258319", "0.4242992", "0.4240606", "0.42337802", "0.42301103", "0.42299977", "0.42226171", "0.42197102", "0.42163944", "0.42131156", "0.42005187", "0.41985604", "0.4189926", "0.41839576", "0.4177274", "0.41675657", "0.41669893", "0.416358", "0.41551003", "0.41503015", "0.41460025", "0.41449144", "0.41417405", "0.4137584", "0.4137195", "0.41341144", "0.41310006", "0.41183415", "0.41049588", "0.4104351", "0.41013265", "0.4096251", "0.40934658", "0.40933755", "0.40895048", "0.40888733", "0.4088286", "0.40880778", "0.40859452", "0.40811664", "0.4078837", "0.40749234", "0.40747833", "0.40736455", "0.40725413", "0.4059977", "0.4052131", "0.4051659", "0.40506557", "0.4048512", "0.40474162", "0.40449437", "0.40445396", "0.40438965", "0.40407678", "0.40395728", "0.4038876", "0.4037487", "0.4037129", "0.402733" ]

[ "def allowed_target_scope\n return @allowed_target_scope\n end", "def policy_scope(target, options={})\n policy(target, options).scope\n end", "def apply_scopes_if_available(target_object) #:nodoc:\n respond_to?(:apply_scopes, true) ? apply_scopes(target_object) : target_object\n end", "def specific_allowed_targets=(value)\n @specific_allowed_targets = value\n end", "def target_scope\n AssociationRelation.create(klass, self).merge!(klass.scope_for_association)\n end", "def scope=(value)\n @scope = value\n end", "def scope=(value)\n @scope = value\n end", "def scope=(value)\n @scope = value\n end", "def scope=(value)\n @scope = value\n end", "def scope=(value)\n @scope = value\n end", "def scope=(value)\n @scope = value\n end", "def authorization_scope_type_for(policy, target)\n policy.resolve_scope_type(target)\n end", "def set_scope\n if (scope = params[:scope])\n if @resource.respond_to?(scope)\n @resource = @resource.send(scope)\n else\n not_allowed\n end\n end\n end", "def directory_scope=(value)\n @directory_scope = value\n end", "def apply_scopes(target, scopie: default_scopie, hash: params)\n Scopie.apply_scopes(target, hash, method: hash[:action], scopie: scopie)\n end", "def apply_scope(target, type:, name: :default, scope_options: nil)\n raise ActionPolicy::UnknownScopeType.new(self.class, type) unless\n self.class.scoping_handlers.key?(type)\n\n raise ActionPolicy::UnknownNamedScope.new(self.class, type, name) unless\n self.class.scoping_handlers[type].key?(name)\n\n mid = :\"__scoping__#{type}__#{name}\"\n scope_options ? send(mid, target, **scope_options) : send(mid, target)\n end", "def application_enforced_restrictions=(value)\n @application_enforced_restrictions = value\n end", "def allow?(user, target)\n @condition.call(user, target)\n end", "def user_scoped\n @_user_scoped ||= model.respond_to?(:user_scoped) ?\n model.user_scoped(current_user, scope_context, params[:id_target]) :\n model\n end", "def enforce_configured_scopes\n @config.instance_variable_set(:@enforce_configured_scopes, true)\n end", "def set_Scope(value)\n set_input(\"Scope\", value)\n end", "def set_Scope(value)\n set_input(\"Scope\", value)\n end", "def set_Scope(value)\n set_input(\"Scope\", value)\n end", "def set_Scope(value)\n set_input(\"Scope\", value)\n end", "def set_Scope(value)\n set_input(\"Scope\", value)\n end", "def set_Scope(value)\n set_input(\"Scope\", value)\n end", "def set_Scope(value)\n set_input(\"Scope\", value)\n end", "def set_Scope(value)\n set_input(\"Scope\", value)\n end", "def set_Scope(value)\n set_input(\"Scope\", value)\n end", "def set_Scope(value)\n set_input(\"Scope\", value)\n end", "def set_Scope(value)\n set_input(\"Scope\", value)\n end", "def set_Scope(value)\n set_input(\"Scope\", value)\n end", "def set_Scope(value)\n set_input(\"Scope\", value)\n end", "def allowable\n return @allowable if @allowable\n\n @allowable = parent_allowables\n end", "def policy_scope(scope, policy_scope_class: nil)\n api_scope = self.class.inherited_pundit_api_scope || []\n\n super(api_scope + [scope], policy_scope_class: policy_scope_class)\n end", "def implicit_authorization_target!\n implicit_authorization_target || Kernel.raise(\n NotFound,\n [\n self,\n \"Couldn't find implicit authorization target \" \\\n \"for #{self.class}. \" \\\n \"Please, provide policy class explicitly using `with` option or \" \\\n \"define the `implicit_authorization_target` method.\"\n ]\n )\n end", "def permissions_supplied?\n !!(self.target_mode || self.target_user || self.target_group)\n end", "def set_allowed_by(rack_env, allowed_by)\n Env.new(rack_env).tap do |env|\n env.allowed_by = allowed_by\n end.to_rack\n end", "def sync_workspace_permissions(source_user_id, target_user_id)\n source_user = find_user(source_user_id)\n target_user = find_user(target_user_id)\n if source_user.nil? then\n @logger.warn \" Source user: #{source_user_id} Not found. Skipping sync of permissions to #{target_user_id}.\"\n return\n elsif target_user.nil then\n @logger.warn \" Target user: #{target_user_id} Not found. Skipping sync of permissions for #{target_user_id}.\"\n return\n end\n\n # Check to make sure source user has permissions\n permissions_existing = target_user.UserPermissions\n source_permissions = source_user.UserPermissions\n\n if source_permissions.nil? then\n @logger.warn \" Source user: #{source_user_id} does not have any permissions assigned. Skipping sync of permissions to #{target_user_id}.\"\n return\n end \n\n # build permission hashes by Workspace ObjectID\n source_permissions_by_workspace = {}\n source_permissions.each do | this_source_permission |\n if this_source_permission._type == \"WorkspacePermission\" then\n source_permissions_by_workspace[this_source_permission.Workspace.ObjectID.to_s] = this_source_permission\n end\n end\n\n permissions_existing_by_workspace = {}\n permissions_existing.each do | this_permission |\n if this_permission._type == \"WorkspacePermission\" then\n permissions_existing_by_workspace[this_permission.Workspace.ObjectID.to_s] = this_permission\n end\n end\n\n # Prepare arrays of permissions to update, create, or delete\n permissions_to_update = []\n permissions_to_create = []\n permissions_to_delete = []\n\n # Check target permissions list for permissions to create and/or update\n source_permissions_by_workspace.each_pair do | this_source_workspace_oid, this_source_permission |\n\n # If target hash doesn't contain the OID referenced in the source permission set, it's a new\n # permission we need to create\n if !permissions_existing_by_workspace.has_key?(this_source_workspace_oid) then\n permissions_to_create.push(this_source_permission)\n\n # We found the OID key, so there is an existing permission for this Workspace. Is it different\n # from the target permission?\n else\n this_source_role = this_source_permission.Role\n this_source_workspace = find_workspace(this_source_workspace_oid)\n this_source_workspace_name = this_source_workspace[\"Name\"]\n\n if workspace_permissions_different?(this_source_workspace, target_user, this_source_role) then\n existing_permission = permissions_existing_by_workspace[this_source_workspace_oid]\n this_existing_workspace = existing_permission.Workspace\n this_existing_workspace_name = this_existing_workspace[\"Name\"]\n this_existing_role = existing_permission.Role\n @logger.info \"Existing Permission: #{this_existing_workspace_name}: #{this_existing_role}\"\n @logger.info \"Updated Permission: #{this_source_workspace_name}: #{this_source_role}\"\n permissions_to_update.push(this_source_permission)\n end\n end\n end\n\n # Loop through target permissions list and check for Workspace Permissions that don't exist\n # in source permissions template, indicating they need to be removed\n permissions_existing_by_workspace.each_pair do | this_existing_workspace_oid, this_existing_permission |\n if !source_permissions_by_workspace.has_key?(this_existing_workspace_oid) then\n permissions_to_delete.push(this_existing_permission)\n end\n end\n\n # Process creates\n number_new_permissions = 0\n permissions_to_create.each do | this_new_permission |\n this_workspace = find_workspace(this_new_permission.Workspace.ObjectID.to_s)\n if !this_workspace.nil? then\n this_workspace_name = this_workspace[\"Name\"]\n this_role = this_new_permission.Role\n\n @logger.info \"Workspace: #{this_workspace_name}\"\n @logger.info \"Creating #{this_role} permission on #{this_workspace_name} from #{source_user_id} to: #{target_user_id}.\"\n create_workspace_permission(target_user, this_workspace, this_role)\n number_new_permissions += 1\n end\n end\n\n # Process updates\n number_updated_permissions = 0\n permissions_to_update.each do | this_new_permission |\n this_workspace = find_workspace(this_new_permission.Workspace.ObjectID.to_s)\n if !this_workspace.nil? then\n this_workspace_name = this_workspace[\"Name\"]\n this_role = this_new_permission.Role\n\n @logger.info \"Workspace: #{this_workspace_name}\"\n @logger.info \"Updating #{this_role} permission on #{this_workspace_name} from #{source_user_id} to: #{target_user_id}.\"\n create_workspace_permission(target_user, this_workspace, this_role)\n number_updated_permissions += 1\n end\n end\n\n # Process deletes\n number_removed_permissions = 0\n permissions_to_delete.each do | this_deleted_permission |\n this_workspace = find_workspace(this_deleted_permission.Workspace.ObjectID.to_s)\n if !this_workspace.nil? then\n this_workspace_name = this_workspace[\"Name\"]\n this_role = this_deleted_permission.Role\n\n @logger.info \"Workspace: #{this_workspace_name}\"\n @logger.info \"Removing #{this_role} permission to #{this_workspace_name} from #{target_user_id} since it is not present on source: #{source_user_id}.\"\n if !@upgrade_only_mode then\n delete_workspace_permission(target_user, this_workspace)\n number_removed_permissions += 1\n else\n @logger.info \" #{target_user_id} - upgrade_only_mode == true.\"\n @logger.info \" Proposed Permission removal would downgrade permissions. No permission removal applied.\"\n end\n end\n end\n @logger.info \"#{number_new_permissions} Permissions Created; #{number_updated_permissions} Permissions Updated; #{number_removed_permissions} Permissions Removed.\"\n end", "def target_loudness_mode=(target_loudness_mode)\n validator = EnumAttributeValidator.new('String', [\"loudness\", \"rms\", \"peak\", \"youtube_loudness\"])\n unless validator.valid?(target_loudness_mode)\n fail ArgumentError, \"invalid value for 'target_loudness_mode', must be one of #{validator.allowable_values}.\"\n end\n @target_loudness_mode = target_loudness_mode\n end", "def oauth2_permission_scopes=(value)\n @oauth2_permission_scopes = value\n end", "def specific_allowed_targets\n return @specific_allowed_targets\n end", "def device_sharing_allowed=(value)\n @device_sharing_allowed = value\n end", "def air_drop_force_unmanaged_drop_target=(value)\n @air_drop_force_unmanaged_drop_target = value\n end", "def set_scope(val)\n @scope = val\n build_path_query\n @scope\n end", "def sync_project_permissions(source_user_id, target_user_id)\n source_user = find_user(source_user_id)\n target_user = find_user(target_user_id)\n\n # Check to make sure source and target users exist\n if source_user.nil? then\n @logger.warn \" Source user: #{source_user_id} Not found. Skipping sync of permissions to #{target_user_id}.\"\n return\n elsif target_user.nil then\n @logger.warn \" Target user: #{target_user_id} Not found. Skipping sync of permissions for #{target_user_id}.\"\n return\n end\n\n # Check to make sure source user has permissions\n permissions_existing = target_user.UserPermissions\n source_permissions = source_user.UserPermissions\n\n if source_permissions.nil? then\n @logger.warn \" Source user: #{source_user_id} does not have any permissions assigned. Skipping sync of permissions to #{target_user_id}.\"\n return\n end\n\n # build permission hashes by Project ObjectID\n source_permissions_by_project = {}\n source_permissions.each do | this_source_permission |\n if this_source_permission._type == \"ProjectPermission\" then\n source_permissions_by_project[this_source_permission.Project.ObjectID.to_s] = this_source_permission\n end\n end\n\n permissions_existing_by_project = {}\n permissions_existing.each do | this_permission |\n if this_permission._type == \"ProjectPermission\" then\n permissions_existing_by_project[this_permission.Project.ObjectID.to_s] = this_permission\n end\n end\n\n # Prepare arrays of permissions to update, create, or delete\n permissions_to_update = []\n permissions_to_create = []\n permissions_to_delete = []\n\n # Check target permissions list for permissions to create and/or update\n source_permissions_by_project.each_pair do | this_source_project_oid, this_source_permission |\n\n # If target hash doesn't contain the OID referenced in the source permission set, it's a new\n # permission we need to create\n if !permissions_existing_by_project.has_key?(this_source_project_oid) then\n permissions_to_create.push(this_source_permission)\n\n # We found the OID key, so there is an existing permission for this Project. Is it different\n # from the target permission?\n else\n this_source_role = this_source_permission.Role\n this_source_project = find_project(this_source_project_oid)\n this_source_project_name = this_source_project[\"Name\"]\n\n if project_permissions_different?(this_source_project, target_user, this_source_role) then\n existing_permission = permissions_existing_by_project[this_source_project_oid]\n this_existing_project = existing_permission.Project\n this_existing_project_name = this_existing_project[\"Name\"]\n this_existing_role = existing_permission.Role\n @logger.info \"Existing Permission: #{this_existing_project_name}: #{this_existing_role}\"\n @logger.info \"Updated Permission: #{this_source_project_name}: #{this_source_role}\"\n permissions_to_update.push(this_source_permission)\n end\n end\n end\n\n # Loop through target permissions list and check for Project Permissions that don't exist\n # in source permissions template, indicating they need to be removed\n permissions_existing_by_project.each_pair do | this_existing_project_oid, this_existing_permission |\n if !source_permissions_by_project.has_key?(this_existing_project_oid) then\n permissions_to_delete.push(this_existing_permission)\n end\n end\n\n # Process creates\n number_new_permissions = 0\n permissions_to_create.each do | this_new_permission |\n this_project = find_project(this_new_permission.Project.ObjectID.to_s)\n if !this_project.nil? then\n\n this_project = this_new_permission.Project\n this_workspace = this_project.Workspace\n this_workspace.read\n\n this_project_name = this_new_permission.Project.Name\n this_workspace_name = this_workspace.Name\n\n this_role = this_new_permission.Role\n\n @logger.info \"Workspace: #{this_workspace_name}\"\n @logger.info \"Creating #{this_role} permission on #{this_project_name} from #{source_user_id} to: #{target_user_id}.\"\n create_project_permission(target_user, this_project, this_role)\n number_new_permissions += 1\n end\n end\n\n # Process updates\n number_updated_permissions = 0\n permissions_to_update.each do | this_new_permission |\n this_project = find_project(this_new_permission.Project.ObjectID.to_s)\n if !this_project.nil? then\n this_project = this_new_permission.Project\n this_workspace = this_project.Workspace\n this_workspace.read\n\n this_project_name = this_new_permission.Project.Name\n this_workspace_name = this_workspace.Name\n\n this_role = this_new_permission.Role\n\n @logger.info \"Workspace: #{this_workspace_name}\"\n @logger.info \"Updating #{this_role} permission on #{this_project_name} from #{source_user_id} to: #{target_user_id}.\"\n create_project_permission(target_user, this_project, this_role)\n number_updated_permissions += 1\n end\n end\n\n # Process deletes\n number_removed_permissions = 0\n permissions_to_delete.each do | this_deleted_permission |\n this_project = find_project(this_deleted_permission.Project.ObjectID.to_s)\n if !this_project.nil? then\n this_project = this_deleted_permission.Project\n this_workspace = this_project.Workspace\n this_workspace.read\n\n this_project_name = this_deleted_permission.Project.Name\n this_workspace_name = this_workspace.Name\n\n this_role = this_deleted_permission.Role\n\n @logger.info \"Workspace: #{this_workspace_name}\"\n @logger.info \"Removing #{this_role} permission to #{this_project_name} from #{target_user_id} since it is not present on source: #{source_user_id}.\"\n if !@upgrade_only_mode then\n delete_project_permission(target_user, this_project)\n number_removed_permissions += 1\n else\n @logger.info \" #{target_user_id} - upgrade_only_mode == true.\"\n @logger.info \" Proposed Permission removal would downgrade permissions. No permission removal applied.\"\n end\n end\n end\n @logger.info \"#{number_new_permissions} Permissions Created; #{number_updated_permissions} Permissions Updated; #{number_removed_permissions} Permissions Removed.\"\n end", "def implicit_authorization_target\n # no-op\n end", "def app_scope=(value)\n @app_scope = value\n end", "def set_routable_scope(router_class, routable_scope)\n scope router_class.scope_name, routable_scope || -> {}\n end", "def scope(*scopes)\n return if scopes.empty?\n\n unauthorized message: 'User must me authorized' unless current_user\n forbidden messages: 'Not all scope expectations are matched' unless\n current_user.grants_scope?(*scopes)\n end", "def target_types=(value)\n @target_types = value\n end", "def target_audience= new_target_audience\n @target_audience = new_target_audience\n end", "def resource_scopes=(value)\n @resource_scopes = value\n end", "def resource_scopes=(value)\n @resource_scopes = value\n end", "def defender_guarded_folders_allowed_app_paths=(value)\n @defender_guarded_folders_allowed_app_paths = value\n end", "def scoped\n self.default_scopable = true\n apply_default_scope\n end", "def move_possible?(target)\n same_scope?(target) && !is_or_is_ancestor_of?(target)\n end", "def resource_role_scopes=(value)\n @resource_role_scopes = value\n end", "def scope=(val)\n set_scope(val)\n val\n end", "def allowed_accounts=(value)\n @allowed_accounts = value\n end", "def target_audience\n @target_audience\n end", "def privacy_scope=(scope)\r\n\t\t\t@privacy_scope = scope\r\n\t\tend", "def apply_authz_scopes(on:)\n ScopingManager.apply_scopes_for_user(on, authz_user)\n end", "def grant_controls=(value)\n @grant_controls = value\n end", "def allowedonly()\n merge(gaallowedonly: 'true')\n end", "def apply_scopes(*)\n relation = super\n relation = relation.accessible_by(current_ability) if scope_accessible?\n relation\n end", "def implicit_grant_settings=(value)\n @implicit_grant_settings = value\n end", "def allowed_to_read_other_users=(value)\n @allowed_to_read_other_users = value\n end", "def pundit_scope(*scope)\n @pundit_api_scope ||= scope\n end", "def device_block_enable_restrictions=(value)\n @device_block_enable_restrictions = value\n end", "def available_target_options\n [:email, :email_allowed, :batch_email_allowed, :subscription_allowed, :action_cable_enabled, :action_cable_with_devise, :devise_resource, :printable_notification_target_name, :printable_name].freeze\n end", "def oauth2_scope(value = nil)\n rw_config(:oauth2_scope, value, '')\n end", "def notification_recipient_scope=(value)\n @notification_recipient_scope = value\n end", "def can(*actions, target, &condition)\n perm = Permissions.new(*actions, &condition)\n @permissions[target].push perm\n end", "def target_group_params\n params.require(:target_group).permit(:references, :name, :external_id, :parent_id, :secret_code)\n end", "def compliance_policy=(value)\n @compliance_policy = value\n end", "def set_and_authorize_sdgtarget_recommendation\n @sdgtarget_recommendation = policy_scope(base_object).find(params[:id])\n authorize @sdgtarget_recommendation\n end", "def assign_access_scope(scope)\n ACCESS_SCOPES.include?(scope.to_s) or raise \"'#{ scope }' is not a valid scope.\"\n self.access_scope = scope.to_s\n end", "def scope=(sc)\n raise ArgumentError, \"A Rule's scope can only be 'public' or 'private'\" unless %w{public private}.include?(sc.to_s)\n self[:scope] = sc\n end", "def delete_overwrite(target, reason = nil)\n raise 'Tried deleting a overwrite for an invalid target' unless target.is_a?(Member) || target.is_a?(User) || target.is_a?(Role) || target.is_a?(Profile) || target.is_a?(Recipient) || target.respond_to?(:resolve_id)\n\n API::Channel.delete_permission(@bot.token, @id, target.resolve_id, reason)\n end", "def permission_role_for(target, context, proles=nil)\n auth_scope do\n proles ||= roles_for(context)\n return permission_role_class.find_by(role_foreign_key.to_sym => proles.map(&:id), permission_foreign_key.to_sym => target.id, :context_type => context.class_name, :context_id => context.id)\n end\n end", "def puppet_scope=(value)\n @puppet_scope = value\n end", "def reduce_scope_by_authorization(scope)\n return scope unless must_match_user_roles?\n scope.scoped_by_user_roles allowed_roles, match_roles_on\n end", "def allowed_approvers\n return @allowed_approvers unless @allowed_approvers.nil?\n\n owners = owners_contents.flatten.uniq\n\n if self.author =~ /<(.+?)@amiestreet.com>/\n author_username = $1\n owners.reject! { |u| u == author_username }\n end\n @allowed_approvers = owners\n\n @allowed_approvers\n end", "def update_authorized?(target)\n @from_member.roles_include?(:moderator) || target == @from_member\n end", "def can_approve?(target)\n is_staff? && target && target.active? && !target.approved?\n end", "def acceptable?(scopes)\n accessible? && includes_scope?(*scopes)\n end", "def denied=(value)\n @denied = value\n end", "def sharing_domain_restriction_mode=(value)\n @sharing_domain_restriction_mode = value\n end", "def target_params\n params.require(:target).permit(:wb_uid, :user_id)\n end", "def enforced_settings=(value)\n @enforced_settings = value\n end", "def target_params\n params.permit(:project_id,\n :action_state_id,\n target: {\n targets: [:id, :value],\n new_targets: [:value],\n })\n end", "def applied_policies=(value)\n @applied_policies = value\n end", "def allowed_by(rack_env)\n Env.new(rack_env).allowed_by\n end", "def target=(value)\n @target = value\n end", "def apply_to_scope(scope)\n scope\n end", "def set_owner\n @goal.owner = current_user\n end", "def set_allowed_user\n unless request.format.json?\n @user = current_account if @user.nil? || !current_account.admin?\n end\n end", "def disallowable\n return @disallowable if @disallowable\n\n @disallowable = parent_disallowables\n end", "def target_objects=(value)\n @target_objects = value\n end" ]

[ "0.70541763", "0.57116973", "0.55637753", "0.55198485", "0.51172066", "0.5087534", "0.5087534", "0.5087534", "0.5087534", "0.5087534", "0.5087534", "0.4944643", "0.48839843", "0.48804262", "0.48154005", "0.48098823", "0.48083642", "0.4790291", "0.47869527", "0.47424296", "0.4718218", "0.4718218", "0.4718218", "0.4718218", "0.4718218", "0.4718218", "0.4718218", "0.4718218", "0.4718218", "0.4718218", "0.4718218", "0.471603", "0.471603", "0.470179", "0.46925935", "0.46924487", "0.46576944", "0.46322688", "0.44979146", "0.44970068", "0.44926822", "0.44640258", "0.4444446", "0.4428948", "0.44144475", "0.4412886", "0.4394824", "0.43946877", "0.43922412", "0.4390514", "0.43901297", "0.4383873", "0.4373539", "0.4373539", "0.43700513", "0.43578553", "0.43387", "0.43315986", "0.43238598", "0.43031105", "0.43025824", "0.4285941", "0.42808685", "0.42805633", "0.42790627", "0.4277615", "0.42725173", "0.42559", "0.4244936", "0.42445004", "0.42357644", "0.4224408", "0.42093644", "0.42076245", "0.42055953", "0.42048386", "0.42005366", "0.41839343", "0.41750354", "0.41620284", "0.4150371", "0.414271", "0.4139863", "0.4134264", "0.4130814", "0.41204324", "0.41150877", "0.41045913", "0.410338", "0.4101372", "0.4098206", "0.40877303", "0.40843785", "0.40794277", "0.4078588", "0.4062455", "0.40559345", "0.40463006", "0.40440148", "0.4040289" ]

[ "def automatic_request_settings=(value)\n @automatic_request_settings = value\n end", "def automatic_user_consent_settings\n return @automatic_user_consent_settings\n end", "def request_approval_settings\n return @request_approval_settings\n end", "def enforced_settings\n return @enforced_settings\n end", "def automatic_replies_setting\n return @automatic_replies_setting\n end", "def requestor_settings\n return @requestor_settings\n end", "def get_request_settings(opts = {})\n data, _status_code, _headers = get_request_settings_with_http_info(opts)\n data\n end", "def request_approval_settings=(value)\n @request_approval_settings = value\n end", "def automatic_user_consent_settings=(value)\n @automatic_user_consent_settings = value\n end", "def get_auto_approve_setting\n service_response = ClientManagement::GetAutoApproveSetting.new(params).perform\n render_api_response(service_response)\n end", "def is_sites_storage_limit_automatic\n return @is_sites_storage_limit_automatic\n end", "def requestor_settings=(value)\n @requestor_settings = value\n end", "def implicit_grant_settings\n return @implicit_grant_settings\n end", "def automatic_replies_setting=(value)\n @automatic_replies_setting = value\n end", "def is_sites_storage_limit_automatic=(value)\n @is_sites_storage_limit_automatic = value\n end", "def list_request_settings(opts = {})\n data, _status_code, _headers = list_request_settings_with_http_info(opts)\n data\n end", "def activation_policy\n settings[:activation_policy]\n end", "def enforced_settings=(value)\n @enforced_settings = value\n end", "def get_settings\n settings.get\n end", "def get_settings\n request :get, \"_settings\"\n end", "def get_settings\n request :get, \"_settings\"\n end", "def implicit_grant_settings=(value)\n @implicit_grant_settings = value\n end", "def get_request_log_settings()\n data, _status_code, _headers = get_request_log_settings_with_http_info()\n return data\n end", "def settings\n @settings ||= get('/settings')['settings']\n end", "def create_request_settings(opts = {})\n data, _status_code, _headers = create_request_settings_with_http_info(opts)\n data\n end", "def is_automatic_reply\n return @is_automatic_reply\n end", "def settings\n attributes.fetch(:settings)\n end", "def settings\n # JSONSettingDataSource.file_semaphore.synchronize do\n return @settings\n # end\n end", "def synchronization_job_settings\n return @synchronization_job_settings\n end", "def get()\n\t\t\tkparams = {}\n\t\t\tclient.queue_service_action_call('notificationspartnersettings', 'get', 'KalturaNotificationsPartnerSettings', kparams)\n\t\t\tif (client.is_multirequest)\n\t\t\t\treturn nil\n\t\t\tend\n\t\t\treturn client.do_queue()\n\t\tend", "def automatic?\r\n\t\t\t@automatic ||= json['auto'] == 'Y'\r\n\t\tend", "def get_settings\n return @client.raw(\"get\", \"/config/settings\")\n end", "def min_size()\n ACCOUNTING_REQUEST_MIN_SIZE\n end", "def is_approval_request\n return @is_approval_request\n end", "def enabled?\n return policy_setting.enabled\n end", "def settings\n return @settings\n end", "def settings\n return @settings\n end", "def settings\n @scope.settings\n end", "def update_request_settings(opts = {})\n data, _status_code, _headers = update_request_settings_with_http_info(opts)\n data\n end", "def netflow_settings\r\n NetflowSettingsController.instance\r\n end", "def is_automatic_reply=(value)\n @is_automatic_reply = value\n end", "def auto_approve_type\n 'auto'\n end", "def work_profile_default_app_permission_policy\n return @work_profile_default_app_permission_policy\n end", "def mode\n request.mode\n end", "def parental_control_settings\n return @parental_control_settings\n end", "def active_directory_settings\n MsRestAzure::ActiveDirectoryServiceSettings.get_azure_settings\n end", "def user_mailer_auto_params\n params[:user_mailer_auto]\n end", "def client_webhook_settings\n @client_webhook_settings ||= ClientWebhookSetting.get_active_from_memcache(@client_id)\n end", "def settings\n request(Resources::RESOURCE_SETTINGS, HTTP_METHOD_POST)\n end", "def available_settings\n instance.available_settings\n end", "def settings\n self.class.settings\n end", "def settings\n settings_name = self.class.settings_name\n unless settings_name\n raise Exception.new(\"settings_name undefined for #{self.class}\")\n end\n if Settings.instance[settings_name].nil?\n Settings.instance[settings_name] = self.class.default_settings\n end\n return Settings.instance[settings_name]\n end", "def setting\n return @setting\n end", "def get_settings\n get_uri = @data['uri'] + '/settings'\n response = @client.rest_get(get_uri, {}, @api_version)\n @client.response_handler(response)\n end", "def client_webhook_setting\n @client_webhook_setting ||= ClientWebhookSetting.is_active.where(id: @client_webhook_setting_id).first\n end", "def available_settings\n return @@settings_by_type[self.resource_type]\n end", "def settings\n @settings ||= {}\n end", "def settings\n @settings ||= {}\n end", "def ad_settings\n case environment.downcase\n when \"azureusgovernment\"\n ::MsRestAzure::ActiveDirectoryServiceSettings.get_azure_us_government_settings\n when \"azurechina\"\n ::MsRestAzure::ActiveDirectoryServiceSettings.get_azure_china_settings\n when \"azuregermancloud\"\n ::MsRestAzure::ActiveDirectoryServiceSettings.get_azure_german_settings\n when \"azure\"\n ::MsRestAzure::ActiveDirectoryServiceSettings.get_azure_settings\n end\n end", "def get_default_settings\n get_uri = self.class::BASE_URI + '/defaultSettings'\n response = @client.rest_get(get_uri, @api_version)\n @client.response_handler(response)\n end", "def setting_count\n return @setting_count\n end", "def get_sender_settings(opts = {})\n data, _status_code, _headers = get_sender_settings_with_http_info(opts)\n data\n end", "def settings\r\n @@settings\r\n end", "def get_http_config\n http_conf = @opts['http'] || {}\n return http_conf\n end", "def get_settings(options = {}, request_options = {})\n options['getVersion'] = 2 if !options[:getVersion] && !options['getVersion']\n client.get(Protocol.settings_uri(name, options).to_s, :read, request_options)\n end", "def settings\n @settings ||= self.class.settings.dup\n end", "def kiosk_mode_allow_auto_lock\n return @kiosk_mode_allow_auto_lock\n end", "def get_access_approval_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_get_access_approval_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Cloud::AccessApproval::V1::AccessApprovalSettings.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def ad_settings\n case environment.downcase\n when \"azureusgovernment\"\n ::MsRestAzure2::ActiveDirectoryServiceSettings.get_azure_us_government_settings\n when \"azurechina\"\n ::MsRestAzure2::ActiveDirectoryServiceSettings.get_azure_china_settings\n when \"azuregermancloud\"\n ::MsRestAzure2::ActiveDirectoryServiceSettings.get_azure_german_settings\n when \"azure\"\n ::MsRestAzure2::ActiveDirectoryServiceSettings.get_azure_settings\n end\n end", "def recommendation_insight_settings\n return @recommendation_insight_settings\n end", "def get_default_settings\n return INTERNAL_DEFAULT_SETTINGS.merge @@default_settings if (@@default_settings)\n return INTERNAL_DEFAULT_SETTINGS\n end", "def get_default_settings\n return INTERNAL_DEFAULT_SETTINGS.merge @@default_settings if (@@default_settings)\n return INTERNAL_DEFAULT_SETTINGS\n end", "def settings\n @settings ||= Settings.new\n end", "def settings\n @settings ||= Settings.new\n end", "def determine_requested\n # param is usually set from the convention. when set from convention stack name takes higher precedence\n config_key = @config.singularize.to_sym # param or variable\n @options[config_key] || @options[:config] || @options[:stack]\n end", "def default_settings\n {\n 'strategy' => 'any'\n }\n end", "def get_inbound_messages_notification_settings(opts = {})\n data, _status_code, _headers = get_inbound_messages_notification_settings_with_http_info(opts)\n data\n end", "def inheritable_settings\n return @inheritable_settings\n end", "def settings\n @settings ||= {}\n end", "def config\n requester.config \n end", "def get_request_settings_with_http_info(opts = {})\n if @api_client.config.debugging\n @api_client.config.logger.debug 'Calling API: RequestSettingsApi.get_request_settings ...'\n end\n # unbox the parameters from the hash\n service_id = opts[:'service_id']\n version_id = opts[:'version_id']\n request_settings_name = opts[:'request_settings_name']\n # verify the required parameter 'service_id' is set\n if @api_client.config.client_side_validation && service_id.nil?\n fail ArgumentError, \"Missing the required parameter 'service_id' when calling RequestSettingsApi.get_request_settings\"\n end\n # verify the required parameter 'version_id' is set\n if @api_client.config.client_side_validation && version_id.nil?\n fail ArgumentError, \"Missing the required parameter 'version_id' when calling RequestSettingsApi.get_request_settings\"\n end\n # verify the required parameter 'request_settings_name' is set\n if @api_client.config.client_side_validation && request_settings_name.nil?\n fail ArgumentError, \"Missing the required parameter 'request_settings_name' when calling RequestSettingsApi.get_request_settings\"\n end\n # resource path\n local_var_path = '/service/{service_id}/version/{version_id}/request_settings/{request_settings_name}'.sub('{' + 'service_id' + '}', CGI.escape(service_id.to_s)).sub('{' + 'version_id' + '}', CGI.escape(version_id.to_s)).sub('{' + 'request_settings_name' + '}', CGI.escape(request_settings_name.to_s))\n\n # query parameters\n query_params = opts[:query_params] || {}\n\n # header parameters\n header_params = opts[:header_params] || {}\n # HTTP header 'Accept' (if needed)\n header_params['Accept'] = @api_client.select_header_accept(['application/json'])\n\n # form parameters\n form_params = opts[:form_params] || {}\n\n # http body (model)\n post_body = opts[:debug_body]\n\n # return_type\n return_type = opts[:debug_return_type] || 'RequestSettingsResponse'\n\n # auth_names\n auth_names = opts[:debug_auth_names] || ['token']\n\n new_options = opts.merge(\n :operation => :\"RequestSettingsApi.get_request_settings\",\n :header_params => header_params,\n :query_params => query_params,\n :form_params => form_params,\n :body => post_body,\n :auth_names => auth_names,\n :return_type => return_type\n )\n\n data, status_code, headers = @api_client.call_api(:GET, local_var_path, new_options)\n if @api_client.config.debugging\n @api_client.config.logger.debug \"API called: RequestSettingsApi#get_request_settings\\nData: #{data.inspect}\\nStatus code: #{status_code}\\nHeaders: #{headers}\"\n end\n return data, status_code, headers\n end", "def settings\n @settings_manager\n end", "def request_type\n return @request_type\n end", "def settings_params\n params[:settings]\n end", "def kiosk_mode_allow_zoom_settings\n return @kiosk_mode_allow_zoom_settings\n end", "def settings\n @settings ||= settings_class&.new(self)\n end", "def auto_config\n @auto_config ||= {}\n end", "def auto_config\n @auto_config ||= {}\n end", "def req\n return @req\n end", "def runner_settings\n\t\t\treturn {\n\t\t\t\tmax_concurrency: Arborist::Monitor::Webservice.max_concurrency,\n\t\t\t}\n\t\tend", "def default_settings()\n @default_settings ||= {}\n end", "def is_approval_request=(value)\n @is_approval_request = value\n end", "def get_routing_settings(opts = {})\n data, _status_code, _headers = get_routing_settings_with_http_info(opts)\n return data\n end", "def settings\n\t\tif setting = params[\"settings\"]\n\t\t\tsetting.each do |k,v|\n\t\t\t\tv = v == \"1\" if v == \"1\" or v == \"0\"\n\t\t\t\tlogger.debug \"Setting #{k} to #{v.inspect}\"\n\t\t\t\tSettings[k] = v\n\t\t\tend\n\t\tend\n\t\thead :ok\n\tend", "def get_settings(opts = {})\n data, _status_code, _headers = get_settings_with_http_info(opts)\n data\n end", "def auto_renew_status\n read_integer('auto_renew_status')\n end", "def account_manager_policy\n return @account_manager_policy\n end", "def review_settings\n return @review_settings\n end", "def max_size()\n ACCOUNTING_REQUEST_MAX_SIZE\n end", "def requests_get\n @attributes[:requests_get]\n end" ]

[ "0.77007043", "0.63104504", "0.6288458", "0.62032455", "0.6085594", "0.59338486", "0.5910752", "0.5715669", "0.551615", "0.5428545", "0.53918755", "0.5382438", "0.5346777", "0.53011143", "0.52262855", "0.512753", "0.5082034", "0.5025978", "0.49699062", "0.49638557", "0.49638557", "0.49610803", "0.49128866", "0.49090385", "0.48679167", "0.4845276", "0.48226902", "0.48145193", "0.48117474", "0.47961804", "0.4769472", "0.47599876", "0.47055405", "0.46990034", "0.46804756", "0.4652388", "0.4652388", "0.46481928", "0.46347997", "0.46248502", "0.45944086", "0.45683846", "0.4564451", "0.45624986", "0.45593223", "0.45540616", "0.45483327", "0.45448703", "0.45441994", "0.45391256", "0.45054185", "0.45050257", "0.44994444", "0.4496676", "0.44925466", "0.44816732", "0.44709122", "0.44709122", "0.4469643", "0.44634798", "0.4462415", "0.44594568", "0.4449216", "0.44429815", "0.4439136", "0.4430375", "0.4426882", "0.44249484", "0.44185096", "0.44172972", "0.4409076", "0.44089478", "0.44084024", "0.44084024", "0.43982977", "0.4396683", "0.4396007", "0.43928942", "0.43920946", "0.43864062", "0.4379483", "0.43736744", "0.43540853", "0.43536183", "0.43510973", "0.43491724", "0.43446323", "0.43446323", "0.4342267", "0.43379202", "0.4336645", "0.43294707", "0.4329063", "0.4320532", "0.43142676", "0.43080363", "0.43065435", "0.43003803", "0.42953017", "0.42942497" ]

[ "def automatic_request_settings\n return @automatic_request_settings\n end", "def automatic_user_consent_settings=(value)\n @automatic_user_consent_settings = value\n end", "def automatic_replies_setting=(value)\n @automatic_replies_setting = value\n end", "def request_approval_settings=(value)\n @request_approval_settings = value\n end", "def enforced_settings=(value)\n @enforced_settings = value\n end", "def requestor_settings=(value)\n @requestor_settings = value\n end", "def is_sites_storage_limit_automatic=(value)\n @is_sites_storage_limit_automatic = value\n end", "def implicit_grant_settings=(value)\n @implicit_grant_settings = value\n end", "def update_request_settings(opts = {})\n data, _status_code, _headers = update_request_settings_with_http_info(opts)\n data\n end", "def create_request_settings(opts = {})\n data, _status_code, _headers = create_request_settings_with_http_info(opts)\n data\n end", "def is_automatic_reply=(value)\n @is_automatic_reply = value\n end", "def update_auto_approve_setting\n service_response = ClientManagement::UpdateAutoApproveSetting.new(params).perform\n render_api_response(service_response)\n end", "def set_automatic\n @automatic = Automatic.find(params[:id])\n end", "def automatic_replies_setting\n return @automatic_replies_setting\n end", "def set_settings!(new_settings, options = {}, request_options = {})\n res = set_settings(new_settings, options, request_options)\n wait_task(res['taskID'], WAIT_TASK_DEFAULT_TIME_BEFORE_RETRY, request_options)\n res\n end", "def assignment_requests=(value)\n @assignment_requests = value\n end", "def automatic_params\n params.require(:automatic).permit(:organ, :title, :auto_type, :user_id)\n end", "def conditional_requests= enabled\n @agent.conditional_requests = enabled\n end", "def automatic_restart=(value)\n @automatic_restart = value\n end", "def kiosk_mode_allow_auto_lock=(value)\n @kiosk_mode_allow_auto_lock = value\n end", "def automatic_user_consent_settings\n return @automatic_user_consent_settings\n end", "def app_store_block_automatic_downloads=(value)\n @app_store_block_automatic_downloads = value\n end", "def set_auto_caching\n self.vdo_caching = 0\n self.auto_caching = 1\n end", "def get_request_settings(opts = {})\n data, _status_code, _headers = get_request_settings_with_http_info(opts)\n data\n end", "def kiosk_mode_allow_zoom_settings=(value)\n @kiosk_mode_allow_zoom_settings = value\n end", "def autoping=val\n\t\t\t@autoping = 45\n\t\tend", "def set_auto_mode\n @auto_mode = AutoMode.find(params[:id])\n end", "def update_request_settings_with_http_info(opts = {})\n if @api_client.config.debugging\n @api_client.config.logger.debug 'Calling API: RequestSettingsApi.update_request_settings ...'\n end\n # unbox the parameters from the hash\n service_id = opts[:'service_id']\n version_id = opts[:'version_id']\n request_settings_name = opts[:'request_settings_name']\n # verify the required parameter 'service_id' is set\n if @api_client.config.client_side_validation && service_id.nil?\n fail ArgumentError, \"Missing the required parameter 'service_id' when calling RequestSettingsApi.update_request_settings\"\n end\n # verify the required parameter 'version_id' is set\n if @api_client.config.client_side_validation && version_id.nil?\n fail ArgumentError, \"Missing the required parameter 'version_id' when calling RequestSettingsApi.update_request_settings\"\n end\n # verify the required parameter 'request_settings_name' is set\n if @api_client.config.client_side_validation && request_settings_name.nil?\n fail ArgumentError, \"Missing the required parameter 'request_settings_name' when calling RequestSettingsApi.update_request_settings\"\n end\n allowable_values = [\"lookup\", \"pass\"]\n if @api_client.config.client_side_validation && opts[:'action'] && !allowable_values.include?(opts[:'action'])\n fail ArgumentError, \"invalid value for \\\"action\\\", must be one of #{allowable_values}\"\n end\n allowable_values = [\"clear\", \"leave\", \"append\", \"append_all\", \"overwrite\"]\n if @api_client.config.client_side_validation && opts[:'xff'] && !allowable_values.include?(opts[:'xff'])\n fail ArgumentError, \"invalid value for \\\"xff\\\", must be one of #{allowable_values}\"\n end\n # resource path\n local_var_path = '/service/{service_id}/version/{version_id}/request_settings/{request_settings_name}'.sub('{' + 'service_id' + '}', CGI.escape(service_id.to_s)).sub('{' + 'version_id' + '}', CGI.escape(version_id.to_s)).sub('{' + 'request_settings_name' + '}', CGI.escape(request_settings_name.to_s))\n\n # query parameters\n query_params = opts[:query_params] || {}\n\n # header parameters\n header_params = opts[:header_params] || {}\n # HTTP header 'Accept' (if needed)\n header_params['Accept'] = @api_client.select_header_accept(['application/json'])\n # HTTP header 'Content-Type'\n content_type = @api_client.select_header_content_type(['application/x-www-form-urlencoded'])\n if !content_type.nil?\n header_params['Content-Type'] = content_type\n end\n\n # form parameters\n form_params = opts[:form_params] || {}\n form_params['action'] = opts[:'action'] if !opts[:'action'].nil?\n form_params['default_host'] = opts[:'default_host'] if !opts[:'default_host'].nil?\n form_params['hash_keys'] = opts[:'hash_keys'] if !opts[:'hash_keys'].nil?\n form_params['name'] = opts[:'name'] if !opts[:'name'].nil?\n form_params['request_condition'] = opts[:'request_condition'] if !opts[:'request_condition'].nil?\n form_params['xff'] = opts[:'xff'] if !opts[:'xff'].nil?\n form_params['bypass_busy_wait'] = opts[:'bypass_busy_wait'] if !opts[:'bypass_busy_wait'].nil?\n form_params['force_miss'] = opts[:'force_miss'] if !opts[:'force_miss'].nil?\n form_params['force_ssl'] = opts[:'force_ssl'] if !opts[:'force_ssl'].nil?\n form_params['geo_headers'] = opts[:'geo_headers'] if !opts[:'geo_headers'].nil?\n form_params['max_stale_age'] = opts[:'max_stale_age'] if !opts[:'max_stale_age'].nil?\n form_params['timer_support'] = opts[:'timer_support'] if !opts[:'timer_support'].nil?\n\n # http body (model)\n post_body = opts[:debug_body]\n\n # return_type\n return_type = opts[:debug_return_type] || 'RequestSettingsResponse'\n\n # auth_names\n auth_names = opts[:debug_auth_names] || ['token']\n\n new_options = opts.merge(\n :operation => :\"RequestSettingsApi.update_request_settings\",\n :header_params => header_params,\n :query_params => query_params,\n :form_params => form_params,\n :body => post_body,\n :auth_names => auth_names,\n :return_type => return_type\n )\n\n data, status_code, headers = @api_client.call_api(:PUT, local_var_path, new_options)\n if @api_client.config.debugging\n @api_client.config.logger.debug \"API called: RequestSettingsApi#update_request_settings\\nData: #{data.inspect}\\nStatus code: #{status_code}\\nHeaders: #{headers}\"\n end\n return data, status_code, headers\n end", "def list_request_settings(opts = {})\n data, _status_code, _headers = list_request_settings_with_http_info(opts)\n data\n end", "def conditional_requests=(enabled); end", "def enforced_settings\n return @enforced_settings\n end", "def google_account_block_auto_sync=(value)\n @google_account_block_auto_sync = value\n end", "def set_settings_will_change\n self.settings_will_change!\n end", "def set_settings(new_settings, options = {}, request_options = {})\n client.put(Protocol.settings_uri(name, options), new_settings.to_json, :write, request_options)\n end", "def enable_auto_save(auto_save)\n self.auto_save = auto_save\n end", "def settings=(value)\n @settings = value\n end", "def settings=(value)\n @settings = value\n end", "def recommendation_insight_settings=(value)\n @recommendation_insight_settings = value\n end", "def settings\n request(Resources::RESOURCE_SETTINGS, HTTP_METHOD_POST)\n end", "def synchronization_job_settings=(value)\n @synchronization_job_settings = value\n end", "def customrequest=(value)\n Curl.set_option(:customrequest, value_for(value, :string), handle)\n end", "def set_settings(settings, opts = {})\n data, _status_code, _headers = set_settings_with_http_info(settings, opts)\n data\n end", "def SetAutoPageBreak(auto, margin=0)\n\t\t#Set auto page break mode and triggering margin\n\t\t@auto_page_break = auto\n\t\t@b_margin = margin\n\t\t@page_break_trigger = @h - margin\n\tend", "def setting_params\n params.require(:setting).permit(:autoopen, :autoopen_interval, :guard_time)\n end", "def set_manual_caching\n self.vdo_caching = 0\n self.auto_caching = 0\n end", "def is_automated=(value)\n @is_automated = value\n end", "def explicitly_set_value=(value)\n @explicitly_set_value = value\n end", "def set_automatic_managed\n converge_by(\"Set pagefile to Automatic Managed\") do\n logger.trace(\"Running Set-CimInstance -InputObject $sys -Property @{AutomaticManagedPagefile=$true} -PassThru\")\n powershell_exec! <<~EOH\n $sys = Get-CimInstance Win32_ComputerSystem -Property *\n Set-CimInstance -InputObject $sys -Property @{AutomaticManagedPagefile=$true} -PassThru\n EOH\n end\n end", "def get_auto_approve_setting\n service_response = ClientManagement::GetAutoApproveSetting.new(params).perform\n render_api_response(service_response)\n end", "def is_approval_request=(value)\n @is_approval_request = value\n end", "def is_automatic_forward=(value)\n @is_automatic_forward = value\n end", "def kiosk_mode_allow_assistive_touch_settings=(value)\n @kiosk_mode_allow_assistive_touch_settings = value\n end", "def enable_on_behalf_requestors_to_update_access=(value)\n @enable_on_behalf_requestors_to_update_access = value\n end", "def set_maximum_requests(opts)\n opts = check_params(opts,[:maximum_requests])\n super(opts)\n end", "def request_approval_settings\n return @request_approval_settings\n end", "def is_sites_storage_limit_automatic\n return @is_sites_storage_limit_automatic\n end", "def default_settings\n {\n 'strategy' => 'any'\n }\n end", "def enable_auto_approve\n add option: \"-auto-approve=true\"\n end", "def set_request_property\n @request_property = RequestProperty.find(params[:id])\n end", "def apply_admin_policy_defaults\n resp = connection.post do |req|\n req.url \"#{object_path}/apply_admin_policy_defaults\"\n end\n\n raise_exception_based_on_response!(resp) unless resp.success?\n\n true\n end", "def autosign\n return unless auto = autosign?\n\n store = nil\n if auto != true\n store = autosign_store(auto)\n end\n\n Puppet::SSL::CertificateRequest.search(\"*\").each do |csr|\n sign(csr.name) if auto == true or store.allowed?(csr.name, \"127.1.1.1\")\n end\n end", "def update_settings(settings)\n request :put, \"_settings\", nil, settings\n end", "def update_settings(settings)\n request :put, \"_settings\", nil, settings\n end", "def retry_change_requests= retry_change_requests\n @agent.retry_change_requests = retry_change_requests\n end", "def auto_approve_type\n 'auto'\n end", "def set_snat_automap\n super\n end", "def update_access_approval_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_update_access_approval_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Cloud::AccessApproval::V1::AccessApprovalSettings.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def change_renewal_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_change_renewal_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Longrunning::Operation.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def application_enforced_restrictions=(value)\n @application_enforced_restrictions = value\n end", "def explicit=(new_explicit)\n @explicit = (new_explicit ? true : false)\n end", "def requestAs=(value)\n\t\t\t@requestAs = value\n\t\tend", "def requestAs=(value)\n\t\t\t@requestAs = value\n\t\tend", "def update!(**args)\n @automatic_traffic_control = args[:automatic_traffic_control] if args.key?(:automatic_traffic_control)\n end", "def create_request_settings_with_http_info(opts = {})\n if @api_client.config.debugging\n @api_client.config.logger.debug 'Calling API: RequestSettingsApi.create_request_settings ...'\n end\n # unbox the parameters from the hash\n service_id = opts[:'service_id']\n version_id = opts[:'version_id']\n # verify the required parameter 'service_id' is set\n if @api_client.config.client_side_validation && service_id.nil?\n fail ArgumentError, \"Missing the required parameter 'service_id' when calling RequestSettingsApi.create_request_settings\"\n end\n # verify the required parameter 'version_id' is set\n if @api_client.config.client_side_validation && version_id.nil?\n fail ArgumentError, \"Missing the required parameter 'version_id' when calling RequestSettingsApi.create_request_settings\"\n end\n # resource path\n local_var_path = '/service/{service_id}/version/{version_id}/request_settings'.sub('{' + 'service_id' + '}', CGI.escape(service_id.to_s)).sub('{' + 'version_id' + '}', CGI.escape(version_id.to_s))\n\n # query parameters\n query_params = opts[:query_params] || {}\n\n # header parameters\n header_params = opts[:header_params] || {}\n # HTTP header 'Accept' (if needed)\n header_params['Accept'] = @api_client.select_header_accept(['application/json'])\n # HTTP header 'Content-Type'\n content_type = @api_client.select_header_content_type(['application/x-www-form-urlencoded'])\n if !content_type.nil?\n header_params['Content-Type'] = content_type\n end\n\n # form parameters\n form_params = opts[:form_params] || {}\n\n # http body (model)\n post_body = opts[:debug_body]\n\n # return_type\n return_type = opts[:debug_return_type] || 'RequestSettingsResponse'\n\n # auth_names\n auth_names = opts[:debug_auth_names] || ['token']\n\n new_options = opts.merge(\n :operation => :\"RequestSettingsApi.create_request_settings\",\n :header_params => header_params,\n :query_params => query_params,\n :form_params => form_params,\n :body => post_body,\n :auth_names => auth_names,\n :return_type => return_type\n )\n\n data, status_code, headers = @api_client.call_api(:POST, local_var_path, new_options)\n if @api_client.config.debugging\n @api_client.config.logger.debug \"API called: RequestSettingsApi#create_request_settings\\nData: #{data.inspect}\\nStatus code: #{status_code}\\nHeaders: #{headers}\"\n end\n return data, status_code, headers\n end", "def autoping\n\t\t\t@autoping ||= 45\n\t\tend", "def force_aggressive=(val)\n if val > 15\n @force_aggressive = 15\n elsif val < 0\n @force_aggressive = 0\n else\n @force_aggressive = val\n end\n end", "def set_settings_with_http_info(settings, opts = {})\n if @api_client.config.debugging\n @api_client.config.logger.debug 'Calling API: Class1InstanceApi.set_settings ...'\n end\n # verify the required parameter 'settings' is set\n if @api_client.config.client_side_validation && settings.nil?\n fail ArgumentError, \"Missing the required parameter 'settings' when calling Class1InstanceApi.set_settings\"\n end\n # resource path\n local_var_path = '/settings'\n\n # query parameters\n query_params = opts[:query_params] || {}\n\n # header parameters\n header_params = opts[:header_params] || {}\n # HTTP header 'Accept' (if needed)\n header_params['Accept'] = @api_client.select_header_accept(['application/json'])\n # HTTP header 'Content-Type'\n header_params['Content-Type'] = @api_client.select_header_content_type(['application/json', 'application/x-www-form-urlencoded'])\n\n # form parameters\n form_params = opts[:form_params] || {}\n\n # http body (model)\n post_body = opts[:debug_body] || @api_client.object_to_http_body(settings)\n\n # return_type\n return_type = opts[:debug_return_type] || 'InlineResponse2005'\n\n # auth_names\n auth_names = opts[:debug_auth_names] || ['instanceId', 'token']\n\n new_options = opts.merge(\n :operation => :\"Class1InstanceApi.set_settings\",\n :header_params => header_params,\n :query_params => query_params,\n :form_params => form_params,\n :body => post_body,\n :auth_names => auth_names,\n :return_type => return_type\n )\n\n data, status_code, headers = @api_client.call_api(:POST, local_var_path, new_options)\n if @api_client.config.debugging\n @api_client.config.logger.debug \"API called: Class1InstanceApi#set_settings\\nData: #{data.inspect}\\nStatus code: #{status_code}\\nHeaders: #{headers}\"\n end\n return data, status_code, headers\n end", "def mode=(_)\n update('--auto', @resource.value(:name))\n end", "def review_settings=(value)\n @review_settings = value\n end", "def autostart=(boolean)\n wrapped_object.autostart = boolean\n end", "def delete_request_settings(opts = {})\n data, _status_code, _headers = delete_request_settings_with_http_info(opts)\n data\n end", "def work_profile_default_app_permission_policy=(value)\n @work_profile_default_app_permission_policy = value\n end", "def set_request\n power = Power.new current_user\n if action_name == 'update'\n @requests = power.patchable_requests\n else\n @requests = power.requests\n end\n\n if @requests && params[:id]\n @request = @requests.find(params[:id])\n end\n end", "def maybe_update_payment_settings(community_id, automatic_confirmation_after_days)\n return unless automatic_confirmation_after_days\n\n p_set = Maybe(payment_settings_api.get(\n community_id: community_id,\n payment_gateway: :paypal,\n payment_process: :preauthorize))\n .map {|res| res[:success] ? res[:data] : nil}\n .or_else(nil)\n\n payment_settings_api.update(p_set.merge({confirmation_after_days: automatic_confirmation_after_days.to_i})) if p_set\n end", "def automatic_restart\n @automatic_restart = true if @automatic_restart.nil?\n @automatic_restart\n end", "def kiosk_mode_allow_voice_over_settings=(value)\n @kiosk_mode_allow_voice_over_settings = value\n end", "def auto_flushing=(period)\n @auto_flushing =\n case period\n when true; 1\n when false, nil, 0; MAX_BUFFER_SIZE\n when Integer; period\n else raise ArgumentError, \"Unrecognized auto_flushing period: #{period.inspect}\"\n end\n end", "def default_client_settings(settings = nil)\n if default_client.nil?\n raise ArgumentError, 'default_client must be set before setting default_client_settings'\n end\n\n default_client.settings.merge!(settings) if settings\n default_client.settings\n end", "def auto_config\n @auto_config ||= {}\n end", "def auto_config\n @auto_config ||= {}\n end", "def auto_flushing=(period)\r\n @auto_flushing =\r\n case period\r\n when true; 1\r\n when false, nil, 0; MAX_BUFFER_SIZE\r\n when Integer; period\r\n else raise ArgumentError, \"Unrecognized auto_flushing period: #{period.inspect}\"\r\n end\r\n end", "def secure_by_default=(value)\n @secure_by_default = value\n end", "def autoupdate=(value)\n if value\n @source.headers[:update] = \"now\"\n else\n @source.headers.delete(:update)\n end\n\n headers_changed!\n end", "def auto_approve\n if !self.auto_approved && self.approval_status.nil?\n UserMailer.auto_approved_email(self).deliver\n self.auto_approved = true\n self.approval_status = true\n self.save\n end\n end", "def default_settings=(hash)\n @default_settings = hash\n end", "def auto_flushing=( period )\n @auto_flushing =\n case period\n when true; 1\n when false, nil, 0; DEFAULT_BUFFER_SIZE\n when Integer; period\n when String; Integer(period)\n else\n raise ArgumentError,\n \"unrecognized auto_flushing period: #{period.inspect}\"\n end\n\n if @auto_flushing < 0\n raise ArgumentError,\n \"auto_flushing period cannot be negative: #{period.inspect}\"\n end\n end", "def set_dictionary_settings!(dictionary_settings, opts = {})\n response = set_dictionary_settings(dictionary_settings, opts)\n\n response.wait(opts)\n end", "def set_security_preference(optional={})\n\t\targs = self.class.new_params\n\t\targs[:query]['Action'] = 'SetSecurityPreference'\n\t\targs[:region] = optional[:_region] if (optional.key? :_region)\n\t\targs[:scheme] = 'https'\n\t\tif optional.key? :_method\n\t\t\traise ArgumentError, '_method must be GET|POST' unless 'GET|POST'.split('|').include? optional[:_method]\n\t\t\targs[:method] = optional[:_method]\n\t\tend\n\t\tif optional.key? :enable_save_m_f_a_ticket\n\t\t\targs[:query]['EnableSaveMFATicket'] = optional[:enable_save_m_f_a_ticket]\n\t\tend\n\t\tself.run(args)\n\tend", "def app_consent_requests=(value)\n @app_consent_requests = value\n end", "def set_user_setting\n @current_user.create_default_user_setting unless @current_user.user_setting\n @user_setting = @current_user.user_setting\n end" ]

[ "0.67025477", "0.6361373", "0.61569047", "0.60746825", "0.5946907", "0.5942239", "0.5506444", "0.5435651", "0.53962266", "0.5353729", "0.5124269", "0.5030916", "0.4955568", "0.491338", "0.48835823", "0.48016283", "0.47961512", "0.47801524", "0.4768167", "0.47270432", "0.47060177", "0.4703731", "0.46290287", "0.4628144", "0.46137896", "0.4588413", "0.4582679", "0.45496422", "0.45408988", "0.45345604", "0.45207226", "0.45102745", "0.45073754", "0.4502611", "0.44997725", "0.4496928", "0.4496928", "0.44872642", "0.44819462", "0.44560182", "0.44312292", "0.4426037", "0.44209415", "0.44095004", "0.4396574", "0.4396504", "0.43634737", "0.4352817", "0.43519393", "0.43168256", "0.43103454", "0.43004784", "0.42894498", "0.42875975", "0.42870376", "0.42850226", "0.42846066", "0.4282689", "0.42804268", "0.42746186", "0.42742616", "0.42698002", "0.42698002", "0.42651877", "0.426225", "0.42568487", "0.42526367", "0.4246039", "0.4238114", "0.42305464", "0.42302495", "0.42302495", "0.42264745", "0.4216265", "0.4210999", "0.42054316", "0.41906095", "0.41852954", "0.41808674", "0.4171472", "0.41712332", "0.41602492", "0.41574544", "0.41557848", "0.41333932", "0.4130985", "0.4123696", "0.4119873", "0.41187376", "0.41187376", "0.41056636", "0.41041467", "0.41017866", "0.40993738", "0.40957645", "0.40874988", "0.40798315", "0.40773863", "0.40716335", "0.40704903" ]

[ "def catalog=(value)\n @catalog = value\n end", "def catalogs\n return @catalogs\n end", "def catalog_type\n return @catalog_type\n end", "def catalog\n puts \"library.catalog\"\n ap self.inspect\n end", "def catalogs=(value)\n @catalogs = value\n end", "def access_package\n return @access_package\n end", "def access_package\n return @access_package\n end", "def access_package=(value)\n @access_package = value\n end", "def access_package=(value)\n @access_package = value\n end", "def catalog_type=(value)\n @catalog_type = value\n end", "def catalog application\n type=CatalogType.find :first , :conditions => { :application => application}\n catalog=nil\n if type\n catalog=type.active_catalog\n end\n catalog\n end", "def catalog?\n @resource_name == \"catalog\" && @actions[0] == \"*\"\n end", "def catalog_info(opts = {})\n data, _status_code, _headers = catalog_info_with_http_info(opts)\n return data\n end", "def set_catalog\n @catalog = present(Catalog::Show).model\n end", "def services()\n return @data[\"access\"][\"serviceCatalog\"]\n end", "def catalog\n\t\tget_call = Curl::Easy.http_get(\"#{@ip_address}:#{@port_2}/v2.0/tokens/#{@token}\"\n\t\t) do |curl| curl.headers['x-auth-token'] = @token end\n\t\t\n\t\tputs \"Here is the catalog for this tenant... \\n\\n\"\n\t\tparsed_json = JSON.parse(get_call.body_str)\n\t\t\n\t\tputs parsed_json\n\t\treturn parsed_json\n\tend", "def set_panel_catalog\n @panel_catalog = ::Catalog.find(params[:id])\n end", "def set_catalog\n @catalog = Catalog.friendly.find(params[:id])\n end", "def access_packages\n return @access_packages\n end", "def access_packages\n return @access_packages\n end", "def set_catalog\n @catalog = Catalog.find(params[:id])\n end", "def set_catalog\n @catalog = Catalog.find(params[:id])\n end", "def has_catalog?\n false\n end", "def catalog(opts = {})\n return nil unless catalog?\n\n opts[:replace] = true unless opts.key?(:replace)\n\n cat = Systemd::Journal.catalog_for(self[:message_id])\n # catalog_for does not do field substitution for us, so we do it here\n # if requested\n opts[:replace] ? field_substitute(cat) : cat\n end", "def access_packages=(value)\n @access_packages = value\n end", "def access_packages=(value)\n @access_packages = value\n end", "def catalogjanitor_enabled\n @admin.isCatalogJanitorEnabled\n end", "def set_admin_catalog\n @admin_catalog = catalog_model.find(params[:id])\n end", "def catalog; end", "def authority_info_access\n extensions[R509::Cert::Extensions::AuthorityInfoAccess]\n end", "def catalogue\n @catalogue ||= [\n Product.new( \"001\", \"Lavender heart\", 9.25 ),\n Product.new( \"002\", \"Personalised cufflinks\", 45.00 ),\n Product.new( \"003\", \"Kids T-shirt\", 19.95 )\n ]\n end", "def catalogue\n @catalogue ||= [\n Product.new( \"001\", \"Lavender heart\", 9.25 ),\n Product.new( \"002\", \"Personalised cufflinks\", 45.00 ),\n Product.new( \"003\", \"Kids T-shirt\", 19.95 )\n ]\n end", "def set_catalog\n @catalog = Catalog.find(params[:catalog_id])\n end", "def catalog_environment(certname)\n Puppet.debug(\"Querying PuppetDB for Environment using: #{certname}\")\n pql = ['from', 'nodes',\n ['extract', ['certname', 'catalog_environment'],\n ['and',\n ['=', 'certname', certname],\n ]\n ]\n ]\n results = query_puppetdb(pql)\n return nil if results.nil?\n Puppet.debug(results)\n results[0]['catalog_environment']\n end", "def license\n return @license\n end", "def catalog_scoped?\n false\n end", "def license\n read_property 'License'\n end", "def acl\n attribute_prop(9)\n end", "def set_product_catalog\n @product_catalog = ProductCatalog.find(params[:id])\n end", "def access_package_assignment_approvals\n return @access_package_assignment_approvals\n end", "def fetch_catalog(logger)\n api_version = @options[:puppet_master_api_version] || DEFAULT_PUPPET_SERVER_API\n api = puppet_catalog_api[api_version]\n raise ArgumentError, \"Unsupported or invalid API version #{api_version}\" unless api.is_a?(Hash)\n\n logger.debug \"Retrieve catalog from #{api[:url]} environment #{@options[:branch]}\"\n\n more_options = { headers: { 'Accept' => 'text/pson' }, timeout: @timeout }\n post_hash = api[:parameters]\n response = OctocatalogDiff::Util::HTTParty.post(api[:url], @options.merge(more_options), post_hash, 'puppet_master')\n\n logger.debug \"Response from #{api[:url]} environment #{@options[:branch]} was #{response[:code]}\"\n\n unless response[:code] == 200\n @error_message = \"Failed to retrieve catalog from #{api[:url]}: #{response[:code]} #{response[:body]}\"\n @catalog = nil\n @catalog_json = nil\n return\n end\n\n @catalog = response[:parsed]\n @catalog_json = ::JSON.generate(@catalog)\n @error_message = nil\n end", "def set_catalog\n id = params[:id].nil? ? params[:catalog_id] : params[:id]\n @catalog = Catalog.find(id)\n end", "def list_catalog(opts = {})\n data, _status_code, _headers = list_catalog_with_http_info(opts)\n return data\n end", "def access_consent\n return @access_consent\n end", "def arn\n cloud_desc.role_arn\n end", "def set_catalogs_course\n @catalogs_course = Catalogs::Course.find(params[:id])\n end", "def license_info\n self.dig_for_array(\"licenseInfo\")\n end", "def catalog_id\n wrapped_object.id\n end", "def get_catalog_by_name(organization, catalogName)\n result = nil\n\n organization[:catalogs].each do |catalog|\n if catalog[0].downcase == catalogName.downcase\n result = get_catalog(catalog[1])\n end\n end\n\n result\n end", "def arn\n desc = cloud_desc\n if desc[\"role\"]\n desc[\"role\"].arn\n else\n nil\n end\n end", "def getacl\n url = prefix + \"getacl\"\n return response(url)\n end", "def set_catalog\n @catalog = Catalog.find_by(slug: params[:id])\n\n if @catalog.blank?\n @catalog = Catalog.find(params[:id])\n end\n end", "def security\n app = detect_product(DALVIK) || detect_product(MOZILLA)\n\n Security[app.comment[1]] if app\n end", "def picture_catalog_file_path\n if picture\n picture.catalog_file_path\n end\n end", "def get_catalog_by_name(organization, catalogName)\n result = nil\n\n organization[:catalogs].each do |catalog|\n if catalog[0].downcase == catalogName.downcase\n result = get_catalog(catalog[1])\n end\n end\n\n result\n end", "def catalog_resources\n # This method exists to supply a common interface to the puppet catalog\n # for different versions of puppet.\n @catalog.resources.map do |r|\n if r.is_a?(String)\n # puppet 0.25 and older\n resource(r)\n elsif r.is_a?(Puppet::Resource)\n # puppet 2.6 and newer\n r\n else\n raise \"Unknown resource object #{r.class}\"\n end\n end\n end", "def arn\n desc = cloud_desc\n if desc[\"role\"]\n if desc['role'].is_a?(Hash)\n desc[\"role\"][:arn] # why though\n else\n desc[\"role\"].arn\n end\n else\n nil\n end\n end", "def lic_path\n @lic_path ||= Pathname.new(configured_lic_path.path).expand_path(root)\n end", "def default_catalog_controller\n CatalogController\n end", "def package\n return @children['package'][:value]\n end", "def getAccessInfo()\n @accessInfo\n end", "def licenses\n data[:licenses]\n end", "def get_capability_catalog_list(opts = {})\n data, _status_code, _headers = get_capability_catalog_list_with_http_info(opts)\n data\n end", "def provision_dav_permission\n @attributes[:provision_dav_permission]\n end", "def index\n @catalogs = current_user.catalogs.all\n end", "def catalogs\n [\"#{unit.id}-#{environment}.plist\"]\n end", "def certification\n return @certification\n end", "def get_acl_definition\n return @_aclize_acl\n end", "def getacl\n url = prefix + \"getacl\"\n return response(url)\n end", "def cert\n @cert\n end", "def authority_information_access\n @authority_information_access ||= if (node = @node.at('AuthorityInformationAccess'))\n AuthorityInformationAccess.new(node)\n end\n end", "def authorization\n get_privacy_setting.privacy_level\n end", "def cert_file_path\n if path_override = NewRelic::Agent.config[:ca_bundle_path]\n NewRelic::Agent.logger.warn(\"Couldn't find CA bundle from configured ca_bundle_path: #{path_override}\") unless File.exist?(path_override)\n path_override\n end\n end", "def category20\n return @category20\n end", "def license_type\n return @license_type\n end", "def index\n @catalogs = Catalog.list_public()\n end", "def license\n conf['license'] || proj.license\n end", "def arn\n cloud_desc.arn\n end", "def arn\n cloud_desc.arn\n end", "def show\n authorize! :read, @catalogs_headquarter\n end", "def license\n @licenses.first\n end", "def policy\n if resource[:plist]\n return File.readlines(resource[:plist]).to_s\n end \n resource[:content]\n end", "def license\n return self.licenses.first\n end", "def license_url\n get_url(:license)\n end", "def ca_certificate_identifier\n @dbi.ca_certificate_identifier\n end", "def ca_certificate_identifier\n @dbi.ca_certificate_identifier\n end", "def set_catalog_category\n @catalog_category = CatalogCategory.find(params[:id])\n end", "def access_package_assignment_approvals=(value)\n @access_package_assignment_approvals = value\n end", "def catalog_dcat()\n return uri(\"api/dcat.json\")\n end", "def compile_catalog( node = nil )\n Puppet.settings.handlearg(\"--confdir\", @puppetcfg['confdir'])\n begin\n Puppet.initialize_settings unless Puppet.settings.send(:global_defaults_initialized?)\n rescue NameError\n Puppet.parse_config\n end\n # reset confdir in case it got overwritten\n @puppetcfg.each do |option,value|\n Puppet.settings.handlearg(\"--#{option}\", value)\n end\n\n unless node.is_a?(Puppet::Node)\n node = Puppet::Node.new(@facts['hostname'], :classes => @klass)\n node.merge(@facts)\n end\n\n # Compile our catalog\n begin\n @catalog = Puppet::Resource::Catalog.indirection.find(node.name, :use_node => node)\n rescue NameError\n @catalog = Puppet::Node::Catalog.find(node.name, :use_node => node)\n end\n\n # XXX could not find this in puppet\n catalog_resources.each do |resource|\n next unless resource[:alias]\n resource[:alias].each do |a|\n # \"foo\" -> \"Package[foo]\"\n @aliases[\"#{resource.type}[#{a}]\"] = resource\n end\n end\n end", "def catalog_item\n item_unit.catalog_item\n end", "def director_certificate\n @game.initial_offering.certificates_for(@company).find(&:director?)\n end", "def set_catalogue\n @catalogue = Catalogue.friendly.find(params[:id])\n end", "def authenticable?\n Chimps.config[:catalog][:key] && Chimps.config[:catalog][:secret]\n end", "def certificate\n _get_certificate\n end", "def ca_path\n @ca_path ||= ca_path_from_rails_root\n end", "def managed_access\n return I18n.t('hyrax.dashboard.my.collection_list.managed_access.manage') if current_ability.can?(:edit, solr_document)\n return I18n.t('hyrax.dashboard.my.collection_list.managed_access.deposit') if current_ability.can?(:deposit, solr_document)\n return I18n.t('hyrax.dashboard.my.collection_list.managed_access.view') if current_ability.can?(:read, solr_document)\n ''\n end", "def certificate\n return @certificate\n end", "def acl\n 'public-read'\n end", "def set_admin_catalogo\n @admin_catalogo = Admin::Catalogo.find(params[:id])\n end" ]

[ "0.6886362", "0.6348108", "0.62530214", "0.60943", "0.59707475", "0.5828219", "0.5828219", "0.54213417", "0.54213417", "0.5409492", "0.5382642", "0.53472424", "0.5221966", "0.52041954", "0.51092523", "0.50759554", "0.50553364", "0.5006224", "0.500295", "0.500295", "0.49893075", "0.49893075", "0.49890774", "0.49760216", "0.4969302", "0.4969302", "0.49593273", "0.4929766", "0.49264094", "0.49184155", "0.4907454", "0.4907454", "0.48952866", "0.48641044", "0.48508722", "0.48174334", "0.48040324", "0.47482583", "0.47104195", "0.46905118", "0.46494803", "0.46443778", "0.4641068", "0.46368158", "0.46300322", "0.46011212", "0.45979685", "0.4593186", "0.45870548", "0.45743978", "0.45702532", "0.456674", "0.4546643", "0.45449266", "0.45441782", "0.45358375", "0.44899815", "0.44777024", "0.44687542", "0.4468087", "0.44587666", "0.44399035", "0.4433783", "0.44135582", "0.4406815", "0.44055808", "0.440386", "0.44030243", "0.43842176", "0.4376197", "0.43758997", "0.43690428", "0.43690422", "0.43659186", "0.43633857", "0.43544155", "0.4352178", "0.43493462", "0.43493462", "0.4343832", "0.4338276", "0.43174034", "0.43113273", "0.42950013", "0.42915517", "0.42915517", "0.4285816", "0.4280996", "0.42738554", "0.426999", "0.4268087", "0.42670196", "0.4266469", "0.42609665", "0.425683", "0.42565644", "0.42483398", "0.42460638", "0.42401662", "0.42288494" ]

[ "def catalogs=(value)\n @catalogs = value\n end", "def set_catalog\n @catalog = Catalog.find(params[:catalog_id])\n end", "def set_catalog\n @catalog = Catalog.find(params[:id])\n end", "def set_catalog\n @catalog = Catalog.find(params[:id])\n end", "def set_catalog\n id = params[:id].nil? ? params[:catalog_id] : params[:id]\n @catalog = Catalog.find(id)\n end", "def set_catalog\n @catalog = Catalog.friendly.find(params[:id])\n end", "def catalog_type=(value)\n @catalog_type = value\n end", "def set_catalog\n @catalog = present(Catalog::Show).model\n end", "def set_product_catalog\n @product_catalog = ProductCatalog.find(params[:id])\n end", "def set_catalog\n @catalog = Catalog.find_by(slug: params[:id])\n\n if @catalog.blank?\n @catalog = Catalog.find(params[:id])\n end\n end", "def set_panel_catalog\n @panel_catalog = ::Catalog.find(params[:id])\n end", "def set_admin_catalog\n @admin_catalog = catalog_model.find(params[:id])\n end", "def set_catalogs_course\n @catalogs_course = Catalogs::Course.find(params[:id])\n end", "def set_catalog_category\n @catalog_category = CatalogCategory.find(params[:id])\n end", "def access_package=(value)\n @access_package = value\n end", "def access_package=(value)\n @access_package = value\n end", "def update_capability_catalog(moid, capability_catalog, opts = {})\n data, _status_code, _headers = update_capability_catalog_with_http_info(moid, capability_catalog, opts)\n data\n end", "def catalog\n puts \"library.catalog\"\n ap self.inspect\n end", "def initialize(catalog, conf = nil)\n @catalog = catalog\n super conf\n end", "def initialize(catalog, conf = nil)\n @catalog = catalog\n super conf\n end", "def patch_capability_catalog(moid, capability_catalog, opts = {})\n data, _status_code, _headers = patch_capability_catalog_with_http_info(moid, capability_catalog, opts)\n data\n end", "def set_catalogo\n @catalogo = Catalogo.find(params[:id])\n \n if action_name == \"show\" and @catalogo.ctlg_subcategoria.blank? then\n @catalogo.ctlg_subcategoria = \"NINGUNA\"\n end\n end", "def catalog\n return @catalog\n end", "def set_catalogo\n @catalogo = Catalogo.find(params[:id])\n end", "def set_catalogo\n @catalogo = Catalogo.find(params[:id])\n end", "def access_packages=(value)\n @access_packages = value\n end", "def access_packages=(value)\n @access_packages = value\n end", "def set_catalog_device\n @catalog_device = Catalog::Device.find(params[:id])\n end", "def set_catalog_location\n @catalog_location = Catalog::Location.find(params[:id])\n end", "def set_catalogs_level\n @resource = Catalogs::Level.find(params[:id])\n end", "def set_catalogue\n @catalogue = Catalogue.friendly.find(params[:id])\n end", "def set_status_catalog\n @status_catalog = StatusCatalog.find(params[:id])\n end", "def set_catalogs_institution\n @catalogs_institution = Catalogs::Institution.find(params[:id])\n end", "def set_catalog_item\n @catalog_item = CatalogItem.find(params[:id])\n end", "def set_catalogs_location\n @resource = Catalogs::Location.find(params[:id])\n end", "def set_attr(attr, value)\n ret = LibSeccomp.seccomp_attr_set(context, attr, value)\n raise SystemCallError.new(\"seccomp_attr_set(context, #{attr.inspect}, #{value}) failed\", -ret) if ret < 0\n end", "def set_catalogs_location\n @catalogs_location = Catalogs::Location.find(params[:id])\n end", "def set_catalogs_department\n @catalogs_department = Catalogs::Department.find(params[:id])\n end", "def set_admin_catalogo\n @admin_catalogo = Admin::Catalogo.find(params[:id])\n end", "def update\n return false unless authorize(permissions = [\"administer_catalog\"])\n @catalog = Catalog.find(params[:id])\n\n respond_to do |format|\n if @catalog.update_attributes(params[:catalog])\n flash.now[:notice] = t('admin.catalog.flash.updated')\n format.html { redirect_to(@catalog) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @catalog.errors, :status => :unprocessable_entity }\n end\n end\n end", "def catalog_type\n return @catalog_type\n end", "def set_catalogs_status\n @catalogs_status = Catalogs::Status.find(params[:id])\n end", "def catalogs\n return @catalogs\n end", "def catalog(opts = {})\n return nil unless catalog?\n\n opts[:replace] = true unless opts.key?(:replace)\n\n cat = Systemd::Journal.catalog_for(self[:message_id])\n # catalog_for does not do field substitution for us, so we do it here\n # if requested\n opts[:replace] ? field_substitute(cat) : cat\n end", "def catalog; end", "def license=(value)\n @license = value\n end", "def set_institucioncatalogo\n @institucioncatalogo = Institucioncatalogo.find(params[:id])\n end", "def set_catalogs_user_resource\n @catalogs_user_resource = Catalogs::UserResource.find(params[:id])\n end", "def acl=(_acl)\n fail Dav::Exception::Forbidden, 'Setting ACL is not allowed here'\n end", "def set_goods_catalog\n @goods_catalog = GoodsCatalog.find(params[:id])\n end", "def acl=(acl)\n write_attribute :acl, acl.to_hash\n end", "def catalog?\n @resource_name == \"catalog\" && @actions[0] == \"*\"\n end", "def page_mode=(mode)\n @catalog.page_mode = value\n end", "def namespace=(v)\n cfg_set(:namespace, v)\n end", "def set_course_package\n @course_package = CoursePackage.find(params[:id])\n end", "def has_catalog?\n false\n end", "def namespace=(v)\n cfg_set(:namespace, v)\n end", "def acl=(_acl)\n fail Dav::Exception::MethodNotAllowed, 'Changing ACL is not yet supported'\n end", "def resource_access=(value)\n @resource_access = value\n end", "def resource_access=(value)\n @resource_access = value\n end", "def ssl_capath=(capath)\n set_option(:capath, capath)\n end", "def set_catalog_supplier\n @catalog_supplier = Catalog::Supplier.find(params[:id])\n end", "def set_catalogs_siteview\n @catalogs_siteview = Catalogs::Siteview.find(params[:id])\n end", "def set_diriving_license\n @diriving_license = DirivingLicense.friendly.find(params[:id])\n end", "def catalog_scoped?\n false\n end", "def namespace=(value)\n @namespace = value\n end", "def namespace=(value)\n @namespace = value\n end", "def catalogjanitor_enabled\n @admin.isCatalogJanitorEnabled\n end", "def acl=(_acl)\n fail Dav::Exception::MethodNotAllowed, 'You\\'re not allowed to update the ACL'\n end", "def acl=(_acl)\n fail Dav::Exception::MethodNotAllowed, 'You\\'re not allowed to update the ACL'\n end", "def access_package_assignment_approvals=(value)\n @access_package_assignment_approvals = value\n end", "def set_catalogs_supplier\n @catalogs_supplier = Catalogs::Supplier.find(params[:id])\n end", "def set_acl_statement\n super\n end", "def namespace=(value)\n self.namespaces = [value]\n end", "def catalog_params\n params.require(:catalog).permit(:name, :catalog_category_id, :privacy, :image)\n end", "def set_catalog_contract_type\n @catalog_contract_type = Catalog::ContractType.find(params[:id])\n end", "def set_accolade_category\n @accolade_category = AccoladeCategory.find(params[:id])\n end", "def set_catalogo_usuario\n @catalogo_usuario = CatalogoUsuario.find(params[:id])\n end", "def acl=(acl)\n @acl = acl.to_s.gsub(\"_\",\"-\") if acl\n end", "def set_license\n @license = License.find(params[:license_id])\n end", "def acl=(acl)\n @acl = acl.to_s.gsub(\"_\", \"-\") if acl\n end", "def update\n respond_to do |format|\n if @catalog.update(catalog_params)\n format.html { redirect_to @catalog, notice: 'Catalog was successfully updated.' }\n format.json { render :show, status: :ok, location: @catalog }\n else\n format.html { render :edit }\n format.json { render json: @catalog.errors, status: :unprocessable_entity }\n end\n end\n end", "def set_accesory_sale\n @accesory_sale = AccesorySale.find(params[:id])\n end", "def validate_catalog_name(catalog)\n all_catalogs = catalogs['catalogs'].reject { |_, cat| cat['internal'] }.keys.sort\n unless all_catalogs.include?(catalog)\n error = ArgumentError.new(\"#{catalog} is not a valid catalog: #{all_catalogs.join(',')}\")\n api_method = caller_locations[1]&.label # caller will be 2nd in stack, as first will be append_catalog\n ErrorTracker.report_exception(error, nil, { catalog: catalog, method: api_method })\n raise error\n end\n end", "def access_consent=(value)\n @access_consent = value\n end", "def security=(value)\n @security = value\n end", "def compile_catalog( node = nil )\n Puppet.settings.handlearg(\"--confdir\", @puppetcfg['confdir'])\n begin\n Puppet.initialize_settings unless Puppet.settings.send(:global_defaults_initialized?)\n rescue NameError\n Puppet.parse_config\n end\n # reset confdir in case it got overwritten\n @puppetcfg.each do |option,value|\n Puppet.settings.handlearg(\"--#{option}\", value)\n end\n\n unless node.is_a?(Puppet::Node)\n node = Puppet::Node.new(@facts['hostname'], :classes => @klass)\n node.merge(@facts)\n end\n\n # Compile our catalog\n begin\n @catalog = Puppet::Resource::Catalog.indirection.find(node.name, :use_node => node)\n rescue NameError\n @catalog = Puppet::Node::Catalog.find(node.name, :use_node => node)\n end\n\n # XXX could not find this in puppet\n catalog_resources.each do |resource|\n next unless resource[:alias]\n resource[:alias].each do |a|\n # \"foo\" -> \"Package[foo]\"\n @aliases[\"#{resource.type}[#{a}]\"] = resource\n end\n end\n end", "def policy=( val )\n val = val.to_s\n raise \"Invalid policy\" unless val == \"allow\" || val == \"deny\"\n\n self.permissions['policy'] = val\n end", "def set_license\n @license = License.find(params[:id])\n end", "def set_license\n @license = License.find(params[:id])\n end", "def set_license\n @license = License.find(params[:id])\n end", "def update\n respond_to do |format|\n if @catalog.update(catalog_params)\n format.html { redirect_to @catalog }\n format.json { render :show, status: :ok, location: @catalog }\n else\n format.html { render :edit }\n format.json { render json: @catalog.errors, status: :unprocessable_entity }\n end\n end\n end", "def set_resource\n @course = Course.find(params[:id])\n authorize @course\n end", "def default_catalog_controller\n CatalogController\n end", "def catalog application\n type=CatalogType.find :first , :conditions => { :application => application}\n catalog=nil\n if type\n catalog=type.active_catalog\n end\n catalog\n end", "def licenses=(new_licenses)\n @licenses = new_licenses\n end", "def fetch_catalog(logger)\n api_version = @options[:puppet_master_api_version] || DEFAULT_PUPPET_SERVER_API\n api = puppet_catalog_api[api_version]\n raise ArgumentError, \"Unsupported or invalid API version #{api_version}\" unless api.is_a?(Hash)\n\n logger.debug \"Retrieve catalog from #{api[:url]} environment #{@options[:branch]}\"\n\n more_options = { headers: { 'Accept' => 'text/pson' }, timeout: @timeout }\n post_hash = api[:parameters]\n response = OctocatalogDiff::Util::HTTParty.post(api[:url], @options.merge(more_options), post_hash, 'puppet_master')\n\n logger.debug \"Response from #{api[:url]} environment #{@options[:branch]} was #{response[:code]}\"\n\n unless response[:code] == 200\n @error_message = \"Failed to retrieve catalog from #{api[:url]}: #{response[:code]} #{response[:body]}\"\n @catalog = nil\n @catalog_json = nil\n return\n end\n\n @catalog = response[:parsed]\n @catalog_json = ::JSON.generate(@catalog)\n @error_message = nil\n end", "def category20=(value)\n @category20 = value\n end", "def setacl(bucket) # s3://BUCKET[/OBJECT]\n send_command \"setacl\", bucket\n end", "def set_card_access\n @card_access = CardAccess.find(params[:id])\n end" ]

[ "0.6936077", "0.6475803", "0.642271", "0.642271", "0.63700366", "0.62222606", "0.6049683", "0.6042137", "0.6035421", "0.60003555", "0.5932964", "0.5802521", "0.57066476", "0.56293386", "0.549607", "0.549607", "0.53815085", "0.53324425", "0.53214383", "0.53214383", "0.5292925", "0.5264221", "0.5211874", "0.5191137", "0.5191137", "0.5167119", "0.5167119", "0.51589775", "0.51372087", "0.51206243", "0.5110971", "0.51091194", "0.50243676", "0.5003128", "0.493132", "0.4923664", "0.49120304", "0.4865562", "0.48527473", "0.4851035", "0.48370397", "0.4834993", "0.4816653", "0.47843033", "0.47167718", "0.46805346", "0.4676009", "0.46494865", "0.4625739", "0.45507672", "0.4517642", "0.451138", "0.4499827", "0.4493774", "0.4481269", "0.44729435", "0.44662246", "0.44522423", "0.44148406", "0.44148406", "0.4394923", "0.43839797", "0.4368032", "0.4361329", "0.43602663", "0.4346658", "0.4346658", "0.4345427", "0.4335276", "0.4335276", "0.4325889", "0.43252727", "0.42974854", "0.42973563", "0.4281615", "0.42796263", "0.4266908", "0.42655152", "0.42503935", "0.42503124", "0.42391038", "0.42370972", "0.42276046", "0.4218627", "0.42106023", "0.4205517", "0.4204061", "0.42016637", "0.42013106", "0.42013106", "0.42013106", "0.4198258", "0.4192637", "0.41911858", "0.41862848", "0.41685793", "0.416455", "0.41507477", "0.41451073", "0.41445145" ]

[ "def access_package_assignment_approvals=(value)\n @access_package_assignment_approvals = value\n end", "def initialize()\n super\n @odata_type = \"#microsoft.graph.accessPackageAssignmentRequestCallbackData\"\n end", "def initialize()\n super\n @odata_type = \"#microsoft.graph.windowsAppXAppAssignmentSettings\"\n end", "def init_policy\n policy = PolicyConfig.new\n static_statements.each do |statement|\n policy.add_statement(statement)\n end\n template_statements.each do |statement|\n policy.add_statement(statement)\n end\n inline_statements.each do |statement|\n policy.add_statement(statement)\n end\n policy\n end", "def assign_policy(*args)\n target.target.send(\"assign_policy\",*args)\n end", "def access_package=(value)\n @access_package = value\n end", "def access_package=(value)\n @access_package = value\n end", "def access_package_assignment_approvals\n return @access_package_assignment_approvals\n end", "def assignment_policies=(value)\n @assignment_policies = value\n end", "def initialize()\n super\n @odata_type = \"#microsoft.graph.iosVppAppAssignmentSettings\"\n end", "def initialize()\n super\n @odata_type = \"#microsoft.graph.appManagementPolicy\"\n end", "def initialize(owner, group, dacl, protect = false)\n @owner = owner\n @group = group\n @dacl = dacl\n @protect = protect\n end", "def new\n @access = Access.new\n end", "def initialize (apgp, template = nil, options = {})\n raise ArgumentError, \"An anchored PGP needs to be passed\" if apgp.nil?\n\n options ||= {}\n @apgp = apgp\n @template = template || DEFAULT_TEMPLATE\n @ignore_predicates = options[:ignore_predicates] || []\n @sortal_predicates = options[:sortal_predicates] || SORTAL_PREDICATES\n max_hop = options[:max_hop] || 2\n\n @s_var = 0\n @p_var = 0\n @x_var = 0\n\n @bgps = gen_bgps(apgp, max_hop)\n end", "def new\n\t\t@policy = Policy.new\n\tend", "def create_permission_set_assignment(id:, **args)\n params = parameters(args) do\n required_params :user_id\n optional_params :user_id\n end\n request(:post, \"permissionSets/#{id}/assignments\", params)\n end", "def new\n @assignment = Assignment.new\n end", "def access_packages=(value)\n @access_packages = value\n end", "def access_packages=(value)\n @access_packages = value\n end", "def create_access_policy request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_create_access_policy_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Longrunning::Operation.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def dup\n PolicyHelper.new(*policies)\n end", "def create_assignment_override(course_id,assignment_id,opts={})\n query_param_keys = [\n \n ]\n\n form_param_keys = [\n :assignment_override__student_ids__,\n :assignment_override__title__,\n :assignment_override__group_id__,\n :assignment_override__course_section_id__,\n :assignment_override__due_at__,\n :assignment_override__unlock_at__,\n :assignment_override__lock_at__,\n \n ]\n\n # verify existence of params\n raise \"course_id is required\" if course_id.nil?\n raise \"assignment_id is required\" if assignment_id.nil?\n # set default values and merge with input\n options = underscored_merge_opts(opts,\n :course_id => course_id,\n :assignment_id => assignment_id\n )\n\n # resource path\n path = path_replace(\"/v1/courses/{course_id}/assignments/{assignment_id}/overrides\",\n :course_id => course_id,\n :assignment_id => assignment_id)\n headers = nil\n form_params = select_params(options, form_param_keys)\n query_params = select_params(options, query_param_keys)\n if opts[:next_page]\n pagination_params = page_params_load(:post, path)\n query_params.merge! pagination_params if pagination_params\n end\n response = mixed_request(:post, path, query_params, form_params, headers)\n page_params_store(:post, path)\n AssignmentOverride.new(response)\n end", "def policy=(_arg0); end", "def set_policy(node)\n policy_group, policy_name = @name_args[1..]\n node.policy_name = policy_name\n node.policy_group = policy_group\n end", "def work_profile_default_app_permission_policy=(value)\n @work_profile_default_app_permission_policy = value\n end", "def create_access_control\n nil\n end", "def initialize()\n super\n @odata_type = \"#microsoft.graph.macOsLobAppAssignmentSettings\"\n end", "def set_permission_policy\n @permission_policy = PermissionPolicy.find(params[:id])\n end", "def new\n @policy_template = PolicyTemplate.new\n end", "def set_up_assignment_review\n set_up_defaults\n @assignment.directory_path = nil if @assignment.directory_path.empty?\n end", "def policy\n @policy ||= init_policy\n end", "def assign_access_scope(scope)\n ACCESS_SCOPES.include?(scope.to_s) or raise \"'#{ scope }' is not a valid scope.\"\n self.access_scope = scope.to_s\n end", "def set_public_access(*perms)\n perms.each do |perm_symbol|\n perm = find_permission_object(perm_symbol)\n if perm\n perm.set_as_public_access \n else\n msg = \"Permission not found: #{perm_symbol}\"\n raise Lockdown::InvalidRuleAssignment, msg\n end\n end\n end", "def requires_assignment\n _assign if !@_assigned\n end", "def assignment\n # Create assignment\n Relationship.create(assignment_parameters)\n \n # Get human readable assignment values\n @assignment_parts = assign_parts(params)\n end", "def default_acl\n @default_acl ||= Bucket::DefaultAcl.new self\n end", "def initialize(group, key)\n if group.nil?\n raise Error, \"Group must be provided when creating a permission\"\n end\n\n @group = group\n @key = key\n @required_object_types = []\n @dependencies = []\n @contexts = []\n end", "def initialize(app, acl: nil)\n raise ArgumentError, \"no acl given\" unless acl\n\n @app = app\n @acl = acl\n end", "def initialize(presentation,\n source_view_key,\n target_view_key,\n connection_policy)\n @presentation = presentation\n @source_view_key = source_view_key\n @target_view_key = target_view_key\n @connection_policy = connection_policy\n end", "def initialize()\n super\n @odata_type = \"#microsoft.graph.androidWorkProfileCompliancePolicy\"\n end", "def assignment_params\n params.permit(:course_id)\n params.permit(:grade_id)\n params.permit(:assignment_grade => [:credit])\n params.permit(:recent_review)\n params.permit(:page)\n params.require(:assignment).permit(:title, :description, :template, :example, :milestone_list, :due_at, :open_at,\n :review_due_at,\n :rubric_items_attributes=>[\n :id, :title, :short_title, :show_for_feedback, :show_for_final,\n :like_feedback_prompt,\n :_destroy, :answer_attributes_attributes=>[:id, :description, :score, :attribute_type, :example, :_destroy]], :taggings_attributes=>[:id, :open_at, :close_at, :review_open_at, :review_close_at]) #don't allow user id. set to current user\n end", "def create_user_permission_set_assignment(id:, **args)\n params = parameters(args) do\n required_params :permission_set_id\n optional_params :permission_set_id\n end\n request(:post, \"users/#{id}/permissionSetAssignments\", params)\n end", "def at_amazon\n RTurk::Assignment.new(@id)\n end", "def add_default_values\n ensure_license\n ensure_publisher\n ensure_resource_type\n end", "def create_assignment_node\n @assignment.create_node unless @assignment.nil?\n end", "def assign(params, args)\n params.update(get_default_params())\n end", "def assign(order:)\n @order = order\n raise 'Cannot fulfill order' if sites_with_order_items.empty?\n Assignment.new(site: cost_per_site.first, order: order)\n end", "def new(**settings)\n __new_without_defaults__(\n **default_settings.merge(settings)\n )\n end", "def initialize(package_name:, sku:, authorization:)\n @package_name = package_name\n @sku = sku\n @authorization = authorization\n @service = CandyCheck::PlayStore::AndroidPublisherService.new\n @service.authorization = @authorization\n end", "def new\n @assignment_form = AssignmentForm.new\n @assignment_form.assignment.instructor ||= current_user\n @num_submissions_round = 0\n @num_reviews_round = 0\n @default_num_metareviews_required = 3\n end", "def create\n @permission_policy = PermissionPolicy.new(permission_policy_params)\n\n respond_to do |format|\n if @permission_policy.save\n format.html { redirect_to @permission_policy, notice: 'Permission policy was successfully created.' }\n format.json { render :show, status: :created, location: @permission_policy }\n else\n format.html { render :new }\n format.json { render json: @permission_policy.errors, status: :unprocessable_entity }\n end\n end\n end", "def add_assignment(src_policy_element, dst_policy_element)\n assert_policy_element_in_machine(src_policy_element)\n assert_policy_element_in_machine(dst_policy_element)\n\n src_policy_element.assign_to(dst_policy_element)\n end", "def declare_access_control_keys( *ack_list )\n self.sg_access_control_keys = ack_list\n end", "def new\n @loyalty_scheme = LoyaltyScheme.new\n end", "def init_rac_data\n \n if connected_user and (self.permission_owner.nil? or self.permission_owner.empty?)\n self.permission_owner = connected_user.username\n end\n\n if connected_user and connected_user.usergroups.length > 0 and (self.permission_group.nil? or self.permission_group.empty?)\n self.permission_group = connected_user.usergroups.first.group \n end\n\n if self.permission_modifier_owner.nil? \n self.permission_modifier_owner = 6 \n end\n \n if self.permission_modifier_group.nil?\n self.permission_modifier_group = 2 \n end\n \n if self.permission_modifier_all.nil?\n self.permission_modifier_all = 0\n end \n\n end", "def initialize(schema, group, key = nil)\n if group && key.nil?\n raise Error, \"Cannot create a new non-root permission group without a key\"\n elsif group.nil? && key\n raise Error, \"Cannot create a new root permission group with a key\"\n end\n\n @schema = schema\n @group = group\n @key = key.to_sym if key\n @groups = {}\n @permissions = {}\n @defined_rules = {}\n end", "def rule_assignment_params\n params.require(:rule_assignment).permit(:rule_name, :default_rule, :pattern, {optional:[ :field, :operator, values: []]}, assign: {})\n end", "def initialize(package, data = {})\n @package = package\n @data = data.dup.freeze\n end", "def initialize(package_name:, subscription_id:, token:, authorization:)\n @package_name = package_name\n @subscription_id = subscription_id\n @token = token\n @authorization = authorization\n end", "def generate_policy\n {}\n end", "def assignment_params\n params.require(:assignment).permit(:name, :is_done, :deadline, :group_id, user_assignments_attributes: [:user_id])\n end", "def set_resource\n @assignment = Assignment.find(params[:id])\n authorize @assignment\n end", "def initialize(package, data = {})\n @package = package\n @data = data.dup.freeze\n end", "def set_default_values\n self.points_log ||= POINTS_LOG\n self.points_log_first_of_day ||= POINTS_LOG_FIRST_OF_DAY\n self.points_peer_assessment ||= POINTS_PEER_ASSESSMENT\n self.points_peer_assessment_first_of_team ||= POINTS_PEER_ASSESSMENT_FIRST_OF_TEAM\n self.points_project_evaluation ||= POINTS_PROJECT_EVALUATION\n self.points_project_evaluation_first_of_team ||= POINTS_PROJECT_EVALUATION_FIRST_OF_TEAM\n self.max_logs_per_day ||= MAX_LOGS_PER_DAY\n self.points_project_evaluation_submitted_first_day ||= POINTS_PROJECT_EVALUATION_SUBMITTED_FIRST_DAY\n self.points_peer_assessment_submitted_first_day ||= POINTS_PEER_ASSESSMENT_SUBMITTED_FIRST_DAY\n self.marking_algorithm_id ||= MARKING_ALGORITHM_ID\n end", "def set_default_policy_version(optional={})\n\t\targs = self.class.new_params\n\t\targs[:query]['Action'] = 'SetDefaultPolicyVersion'\n\t\targs[:region] = optional[:_region] if (optional.key? :_region)\n\t\targs[:scheme] = 'https'\n\t\tif optional.key? :_method\n\t\t\traise ArgumentError, '_method must be GET|POST' unless 'GET|POST'.split('|').include? optional[:_method]\n\t\t\targs[:method] = optional[:_method]\n\t\tend\n\t\tif optional.key? :policy_name\n\t\t\targs[:query]['PolicyName'] = optional[:policy_name]\n\t\tend\n\t\tif optional.key? :version_id\n\t\t\targs[:query]['VersionId'] = optional[:version_id]\n\t\tend\n\t\tself.run(args)\n\tend", "def assignment_params\n params.require(:assignment).permit(:assignment_id, :assignment_name, :details, :priority, :date_created, :date_due, :is_complete, :grade_received, :select_course)\n end", "def update!(**args)\n @gcp_iam_policy = args[:gcp_iam_policy] if args.key?(:gcp_iam_policy)\n end", "def instantiate_private (student_id, student_view, instructor_id, instructor_view, assignment_details, is_user_instructor)\n\n self.subject = assignment_details[:subject]\n self.technologies = assignment_details[:technologies]\n self.description = assignment_details[:description]\n self.assignment_type = 'private'\n self.status = 'opened'\n self.is_disabled = 0\n\n if SecurityUser.exists?(student_id) and SecurityUser.exists?(instructor_id)\n self.security_users_assignments.build(security_user:SecurityUser.find_by_id(student_id),\n role:'student',\n is_disabled:student_view)\n self.security_users_assignments.build(security_user:SecurityUser.find_by_id(instructor_id),\n role:'instructor',\n is_disabled:instructor_view)\n result = { status: 'ok', message: 'Instantiation completed.'}\n else\n if is_user_instructor\n render_params = { mode: 'instructor', params: SecurityUsersRole.get_users_names_by_role('Student')}\n else\n render_params = { mode: 'student', params: SecurityUsersRole.get_users_names_by_role('Instructor')}\n end\n result = { status: 'error', message: 'No such student or instructor accounts.', render_params:render_params }\n end\n result\n end", "def initialize(namespace = nil)\n raise ArgumentError, '`namespace` is required!' if namespace.nil?\n\n # Set the namespace\n self.my_namespace = namespace\n\n # TODO: maybe add an optional `uuid` attribute so I can do `Jak.constraint_manager.find_by_uuid('some_uuid')` ??\n\n # Set the default actions\n self.my_actions ||= Jak.default_actions\n end", "def set_defaults\n self.min_service_life_months ||= 0\n self.replacement_cost ||= 0\n self.lease_length_months ||= 0\n self.rehabilitation_service_month ||= 0\n self.rehabilitation_labor_cost ||= 0\n self.rehabilitation_parts_cost ||= 0\n self.extended_service_life_months ||= 0\n self.min_used_purchase_service_life_months ||= 0\n self.cost_fy_year ||= current_planning_year_year\n end", "def initialize(permission:, auth:, application_choice:, course_option_id: nil)\n @permission = permission\n @auth = auth\n @application_choice = application_choice\n @course_option_id = course_option_id\n @course_option_id ||= @application_choice.current_course_option.id\n\n @training_provider = application_choice.current_provider\n @ratifying_provider = application_choice.current_accredited_provider\n\n @relationship = ProviderRelationshipPermissions.find_by(\n training_provider: @training_provider,\n ratifying_provider: @ratifying_provider,\n )\n end", "def policy(policy_file)\n Policy.new(policy_file)\n end", "def initialize_rights\n @permissions ||= {}\n @user_groups ||= {}\n\n @public_access ||= []\n @protected_access ||= []\n end", "def set_group_assignment\n @group_assignment = GroupAssignment.find(params[:id])\n end", "def set_group_assignment\n @group_assignment = GroupAssignment.find(params[:id])\n end", "def initialize(path_parameters, request_adapter)\n super(path_parameters, request_adapter, \"{+baseurl}/applications/{application%2Did}/appManagementPolicies/{appManagementPolicy%2Did}\")\n end", "def create_adr_policy(policy, password)\n adr_policy_name_select.select(policy)\n save_adr_policy_btn.click\n password_input.type_text(password)\n submit_adr_policy_btn.click\n if alert_present?\n alert_accept\n Log.debugger \"Input incorrect password and get alert dialog\"\n end\n end", "def initialize(package_name:, product_id:, token:, authorization:)\n @package_name = package_name\n @product_id = product_id\n @token = token\n @authorization = authorization\n end", "def assignment_policies\n return @assignment_policies\n end", "def create_policy_override(opts = {})\n data, _status_code, _headers = create_policy_override_with_http_info(opts)\n data\n end", "def create_policy(optional={})\n\t\targs = self.class.new_params\n\t\targs[:query]['Action'] = 'CreatePolicy'\n\t\targs[:region] = optional[:_region] if (optional.key? :_region)\n\t\targs[:scheme] = 'https'\n\t\tif optional.key? :_method\n\t\t\traise ArgumentError, '_method must be GET|POST' unless 'GET|POST'.split('|').include? optional[:_method]\n\t\t\targs[:method] = optional[:_method]\n\t\tend\n\t\tif optional.key? :description\n\t\t\targs[:query]['Description'] = optional[:description]\n\t\tend\n\t\tif optional.key? :policy_document\n\t\t\targs[:query]['PolicyDocument'] = optional[:policy_document]\n\t\tend\n\t\tif optional.key? :policy_name\n\t\t\targs[:query]['PolicyName'] = optional[:policy_name]\n\t\tend\n\t\tself.run(args)\n\tend", "def access_params\n {\n rights_view: view_access,\n rights_download: download_access,\n rights_location: access_location,\n rights_controlledDigitalLending: ::ActiveModel::Type::Boolean.new.cast(controlled_digital_lending)\n }.tap do |access_params|\n access_params[:download] = \"none\" if %w[dark citation-only].include?(access_params[:view])\n end.compact_blank\n end", "def new\n if !current_user.instructor?(@course)\n return\n end\n\n @assignment = Assignment.new\n @assignment.name = \"New Assignment\"\n @assignment.reviews_required = 4\n\n if @course.get_students.length <= 4\n @assignment.reviews_required = @course.get_students.length - 1\n end\n\n if @assignment.reviews_required <= 0\n @assignment.reviews_required = 0\n end\n\n @assignment.manual_assignment = true\n @assignment.draft = true\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @assignment }\n end\n end", "def policy(resource)\n if authorization_enabled?\n super(resource)\n else\n Authorization::Policy.new(nil, nil, default: true)\n end\n end", "def create_access_binding request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_create_access_binding_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Analytics::Admin::V1alpha::AccessBinding.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def group_assignment_params\n params.require(:group_assignment).permit(:user, :group)\n end", "def initialize(scope: \"https://www.googleapis.com/auth/analytics.readonly\", ga: nil)\n self.scope = scope\n self.ga = ga\n end", "def initialize initial_negatives, total_positives\n raise(ArgumentError, \"total predictions should be greater or equal to total positives\") unless initial_negatives >= total_positives\n @tp, @p, @tn, @n = [0], [0], [initial_negatives - total_positives], [initial_negatives]\n @threshold = { 1.0 => 0 }\n @roc_area = 0.0\n end", "def current_policy\n @current_policy ||= ::AccessPolicy.new(User.find(current_user.id))\n end", "def assignment_form_params\n params.require(:assignment_form).permit!\n end", "def policy_group=(policy_group)\n policy_group(policy_group)\n end", "def initialize(user)\n define_global_privileges\n define_user_privileges(user) if user\n define_admin_privileges(user) if user and user.admin?\n end", "def assignment_params\n params.require(:assignment).permit(:name, :start_date, :end_date, :point, :course_instance_id, :status, :max_attempt)\n end", "def initialize(iConsequences, iPathMinimalImportance, iTaskPaths)\n @Consequences = iConsequences\n @AssignmentInfo = nil\n @PathMinimalImportance = iPathMinimalImportance\n @TaskPaths = iTaskPaths\n end", "def gr_policy_setup\n begin\n # If there are no accessors for the model object's accessors,\n # they need to be defined so we can alias them\n define_attribute_methods\n rescue\n end\n \n if self.respond_to?(\"reflections\")\n\n # Make a dummy instance of the ActiveRecord class\n # so that we can read off its list of attributes\n dummy = eval(\"#{self}.new\")\n attrs = dummy.attribute_names\n\n # We need to override the accessors both for attributes\n # and reflections (i.e belongs_to, has_many, etc.)\n for var in reflections.keys + attrs do\n\n # Setter - \n self.class_eval(\"alias :old_#{var}= :#{var}=\")\n self.class_eval(\"\n define_method(:#{var}=) do |val|\n # We need the old value in order to make judgments \n # about whether or not certain accesses are allowed\n # In particular, the access control policies are attached\n # to the value being edited (unless its frozen) so \n # we need the object itself to decide if it can be changed.\n # In addition, the old object is used for comparisons\n # to distinguish complete edits from simple appends.\n\n\t\t target = old_#{var}\n\n # If the current version of the data is frozen, then\n # we can't judge it by its attached data policy and\n # instead must turn to its owner and its frozen_policy_store\n # then put that in target so it looks no different\n # than if it were not frozen\n\n\t\t if target.nil? || target.frozen?\n target = Object.new\n\t\t if !self.frozen_policy_store[:#{var}].nil?\n \t\t target.assign_policy(:write_access, \n self.frozen_policy_store[:#{var}][:write_access])\t\t\n\t\t end\n\t\t end\n \n # In order for an edit to be allowed, both the object\n # to be edited, and the object that owns the field that\n # is being edited must have edit permissions. The exception\n # to this is if the change is appending to the content and\n # appends are explicity allowed\n\n if gr_can_edit? and target.gr_can_edit?\n return self.send('old_#{var}=',val) #Edits allowed \n elsif target.gr_append_check? val\n if gr_can_append? and target.gr_can_append?\n return self.send('old_#{var}=',val)\n else\n return eval_violation(:append_access) if target.gr_can_append?\n return target.eval_violation(:append_access)\n end\n else\n # Edits not allowed and appends either not applicable\n # or also not allowed\n return eval_violation(:write_access) if target.gr_can_edit?\n return target.eval_violation(:write_access)\n end\n\t end\")\n\n # Getter\n self.class_eval(\"alias :old_#{var} :#{var}\")\n self.class_eval(\"\n define_method(:#{var}) do\n \n # Actually get the value in question, but we only\n # return it if read access is allowed. We also\n # need this value to perform checks against the\n # access control policy\n\n \t target = old_#{var}\n\n # We assume that having a value of nil tells no one\n # any particularly useful information, so if the \n # object is nil, we just skip the rest and return it.\n\n\t return if target.nil?\n \n # If the data being returned is an array, then we need\n # to do some extra checks. First, the array cannot \n # contain any objects which are themselves hidden. \n # Second, we need to check if the Array is wrapped\n # with a Rails proxy that will allow it to make changes\n # to the database after the leaving this function. If\n # this is the case, we must wrap the proxy with one of\n # our proxies (AssociationProxyWrapper) so that methods\n # called on the returned proxied array cannot change\n # the database if not allowed by the access control policies\n\n isproxy = target.respond_to?('proxy_reflection')\n if target.is_a?(Array)\n new_array = visible_array(target)\n if isproxy\n target.target = new_array\n target = AssociationProxyWrapper.new(target,self)\n\n # Pull the appropriate policy from the owner of the\n # field's plural policy store (see GObject.rb)\n\n hsh = self.plural_policy_store[:#{var}]\n if !hsh.nil?\n hsh.each do |policy, func|\n target.assign_policy(policy, func)\n end\n end\n else\n target = new_array\n end\n end\n \n # If the object in question is visible, then we can return it \n\t return target if (target.gr_is_visible? && self.gr_is_visible?)\n\n # If the target is visible, then it must be the owner that\n # is hidden, so evaluate the violation there\n return eval_violation(:read_access) if target.gr_is_visible?\n\n # If this line is reached, then the visibility issue\n # lies with the target, so the violation should be \n # evaluated on it\n return target.eval_violation(:read_access)\n\t end\")\n \n # Our current implementation overrides only the\n # default accessors, however, [var]_before_type_cast\n # offers another route to the raw data that we need \n # to cover. For now, the two accessors are made\n # identical.\n \n # TODO: Distinguish the _before_type_cast accessor from\n # the normal getter so that they both preserve the security\n # policies, and their intended content formatting differences\n self.class_eval(\"alias :#{var}_before_type_cast #{var}\")\n end\n end\n end", "def assignment_params\n params.require(:assignment).permit(:title, :description, :draft_deadline, :final_deadline, :comment_deadline, :description2, :is2group,\n positions_attributes: [:id, :title],\n comment_forms_attributes:[:id, :name, :group_number, :question1, :question2, :question3, :question4, :hint1, :hint2, :hint3, :hint4])\n end", "def set_defaults\n self.published ||= false\n self.archived ||= false\n self.is_default ||= false\n self.version ||= 0\n self.visibility = ((self.org.present? && self.org.funder_only?) || self.is_default?) ? Template.visibilities[:publicly_visible] : Template.visibilities[:organisationally_visible] unless self.id.present?\n self.customization_of ||= nil\n self.family_id ||= new_family_id\n self.archived ||= false\n self.links ||= { funder: [], sample_plan: [] }\n end", "def create_with_http_info(policy_activity_id, opts = {})\n if @api_client.config.debugging\n @api_client.config.logger.debug 'Calling API: DriverAssignmentsApi.create ...'\n end\n # verify the required parameter 'policy_activity_id' is set\n if @api_client.config.client_side_validation && policy_activity_id.nil?\n fail ArgumentError, \"Missing the required parameter 'policy_activity_id' when calling DriverAssignmentsApi.create\"\n end\n # resource path\n local_var_path = '/v1/policy_activities/{policyActivityId}/driverassignments'.sub('{' + 'policyActivityId' + '}', policy_activity_id.to_s)\n\n # query parameters\n query_params = opts[:query_params] || {}\n\n # header parameters\n header_params = opts[:header_params] || {}\n # HTTP header 'Accept' (if needed)\n header_params['Accept'] = @api_client.select_header_accept(['application/json'])\n # HTTP header 'Content-Type'\n header_params['Content-Type'] = @api_client.select_header_content_type(['application/json-patch+json', 'application/json', 'text/json', 'application/*+json'])\n\n # form parameters\n form_params = opts[:form_params] || {}\n\n # http body (model)\n post_body = opts[:body] || @api_client.object_to_http_body(opts[:'driver_assignment'])\n auth_names = opts[:auth_names] || ['Bearer']\n\n # return_type\n return_type = opts[:return_type] || 'DriverAssignment'\n\n data, status_code, headers = @api_client.call_api(:POST, local_var_path,\n :header_params => header_params,\n :query_params => query_params,\n :form_params => form_params,\n :body => post_body,\n :auth_names => auth_names,\n :return_type => return_type)\n\n if @api_client.config.debugging\n @api_client.config.logger.debug \"API called: DriverAssignmentsApi#create\\nData: #{data.inspect}\\nStatus code: #{status_code}\\nHeaders: #{headers}\"\n end\n return data, status_code, headers\n end", "def set_default_values\n if self.price.nil?\n self.price = 0.0\n end\n if self.rating.nil?\n self.rating = 0\n end\n if self.enabled.nil?\n self.enabled = false\n end\n if self.no_of_reviews.nil?\n self.no_of_reviews = 0\n end\n if self.no_of_registrations.nil?\n self.no_of_registrations = 0\n end\n end", "def initialize\n @ballot = Nps.configuration.ballot_adaptor.new\n end", "def initialize(path_parameters, request_adapter)\n super(path_parameters, request_adapter, \"{+baseurl}/identityGovernance/entitlementManagement/accessPackages/{accessPackage%2Did}/incompatibleGroups/{group%2Did}\")\n end" ]

[ "0.58405685", "0.54143614", "0.5349691", "0.51495117", "0.5117663", "0.5052705", "0.5052705", "0.49925572", "0.49772665", "0.4971401", "0.49572372", "0.49499866", "0.48783353", "0.48748434", "0.4850951", "0.48505026", "0.4849028", "0.47583708", "0.47583708", "0.47526658", "0.47501028", "0.47334072", "0.47208512", "0.4717591", "0.46729788", "0.46577042", "0.4656719", "0.4615089", "0.45866868", "0.45846426", "0.45619205", "0.45485717", "0.45432037", "0.45419267", "0.45218745", "0.4521847", "0.45122728", "0.4511513", "0.45113733", "0.449732", "0.44807953", "0.44755748", "0.44688988", "0.44576827", "0.44446528", "0.44372305", "0.44310072", "0.44305897", "0.44276103", "0.4427556", "0.4424944", "0.44232515", "0.4420137", "0.44124195", "0.44097343", "0.44093797", "0.44037274", "0.43867475", "0.43816066", "0.43766084", "0.43762243", "0.43715394", "0.4368365", "0.43598753", "0.43597463", "0.4356111", "0.43494427", "0.43437058", "0.43387237", "0.43378347", "0.43265796", "0.43245685", "0.4323185", "0.4315865", "0.4315865", "0.4312921", "0.43128148", "0.430584", "0.430557", "0.43043834", "0.42999744", "0.42986858", "0.42971352", "0.42960775", "0.4295778", "0.42858115", "0.42785987", "0.42775372", "0.42768925", "0.42746598", "0.4273722", "0.42623237", "0.4261357", "0.4257583", "0.4249701", "0.4248844", "0.42480764", "0.42455107", "0.42446887", "0.42446548", "0.42416716" ]

[ "def created_date_time\n return @created_date_time\n end", "def created_date_time_utc\n return @created_date_time_utc\n end", "def created_at_timestamp\n Time.now.gmtime.strftime(\"%Y-%m-%dT%H:%M:%S.000Z\")\n end", "def created_at\n object.created_at.iso8601\n end", "def timestamp\n self.created_at.to_s(:db)\n end", "def created_at\n attributes.send(:ts_created) rescue nil\n end", "def created_at\n Time.at(created.to_i)\n end", "def created_at\n Time.at(created.to_i)\n end", "def datetime_stamp\n Time.now.utc.iso8601\n end", "def created_at\n if able_to_store_created_at?\n time = instance_read(:created_at)\n time && time.to_f.to_i\n end\n end", "def created_at\n Convert.millis_to_time @gapi.statistics.creation_time\n end", "def created_at\n @gapi[\"timeCreated\"]\n end", "def created_time\n Time.parse(object[\"created_time\"]) if object[\"created_time\"]\n end", "def created_at\n Time.at(created)\n end", "def created_at\n Time.at(created)\n end", "def created_at\n Time.parse(@created_at).utc unless @created_at.nil?\n end", "def createdAt\n self.created_at.to_s(:db)\n end", "def created_at\n object.created_at.in_time_zone.iso8601 if object.created_at\n end", "def getCreatedTime\r\n\t\t\t\t\treturn @createdTime\r\n\t\t\t\tend", "def getCreatedTime\r\n\t\t\t\t\treturn @createdTime\r\n\t\t\t\tend", "def created_at\n ensure_full_data!\n Time.at(@gapi[\"creationTime\"] / 1000.0)\n end", "def created_at\n @created_at ||= self[:created_at] ? Time.parse(self[:created_at]) : nil\n end", "def created_at\n return DateTime.parse(@created_at) if @created_at\n\n @created_at\n end", "def created_at\n data['creationDate'].to_date\n end", "def created_at\n begin\n Time.parse(self.create_date)\n rescue\n nil\n end\n end", "def timestamp\n return result.created_at\n end", "def creation_time\n data[:creation_time]\n end", "def createTimestamp\n result = @@create_date[name]\n result ||= attrs['createTimestamp'][0] rescue nil # in case not loaded\n result ||= ASF.search_one(base, \"uid=#{name}\", 'createTimestamp')[0][0]\n result\n end", "def created_at\n Time.parse(attributes['created_at'])\n end", "def created_at\n @created_at ||= Time.zone.now.utc.to_i\n end", "def created_at\n object.created_at.to_time.to_i\n end", "def creationdate\n if !record.nil? and record.respond_to? :created_at\n record.created_at.httpdate\n end\n end", "def created_at\n @record.created_at\n end", "def creation_date\n self.created_at.iso8601\n end", "def created_at\n\t\tobject.created_at.strftime(\"%A, %B %e\")\n\tend", "def created_time\n ctime\n end", "def created_at\n @attributes[:created_at]\n end", "def created_at\n @attributes[:created_at]\n end", "def created_at\n @attributes[:created_at]\n end", "def created_at\n @attributes[:created_at]\n end", "def created_at\n @attributes[:created_at]\n end", "def created_at\n @attributes[:created_at]\n end", "def created_at\n @attributes[:created_at]\n end", "def created_at\n @attributes[:created_at]\n end", "def created_at\n @attributes[:created_at]\n end", "def date\n Time.at(self.created_utc)\n end", "def date\n Time.at(self.created_utc)\n end", "def date\n Time.at(self.created_utc)\n end", "def created_at\n @created_at ||=\n Utilities.utc_to_localtime(@ldap_entry[:whencreated].first)\n end", "def timestamp\n timestamp_to_datetime(static_data(\"timestamp\"))\n end", "def created_at\n with_type!(Fixnum) { attribute_from_model(:created_at) || attribute_from_model(:created) }\n end", "def created_at\n @created_at ||= Time.now\n end", "def created_at\n @created_at ||= Time.now\n end", "def created_at\n @created_at ||= Time.now\n end", "def created_at\n Time.at(response[\"createdAt\"]) if response[\"createdAt\"]\n end", "def created_at_datetime\n @created_at_datetime ||= DateTime.parse(@created_at)\n end", "def created\n Time.parse(@json['user']['meta']['created'])\n end", "def created_at\n Time.parse @gapi.creation_time\n rescue StandardError\n nil\n end", "def get_time\n created_at.strftime('%H:%M:%S %d %B %Y')\n end", "def created\n DateTime.parse(@json['project']['meta']['created'])\n end", "def timestamp\n TimeStamp.new\n end", "def created_date_time=(value)\n @created_date_time = value\n end", "def created_date_time=(value)\n @created_date_time = value\n end", "def created_date_time=(value)\n @created_date_time = value\n end", "def created_date_time=(value)\n @created_date_time = value\n end", "def created_date_time=(value)\n @created_date_time = value\n end", "def created_date_time=(value)\n @created_date_time = value\n end", "def created_date_time=(value)\n @created_date_time = value\n end", "def created_date_time=(value)\n @created_date_time = value\n end", "def created_date_time=(value)\n @created_date_time = value\n end", "def created_date_time=(value)\n @created_date_time = value\n end", "def created_date_time=(value)\n @created_date_time = value\n end", "def created_date_time=(value)\n @created_date_time = value\n end", "def created_date_time=(value)\n @created_date_time = value\n end" ]

[ "0.76272273", "0.76265085", "0.7532412", "0.74704045", "0.74165946", "0.73928446", "0.7339381", "0.7339381", "0.73193115", "0.7318634", "0.7236681", "0.72077763", "0.71915287", "0.71701336", "0.71701336", "0.71543235", "0.71228206", "0.711236", "0.7109479", "0.7109479", "0.7106253", "0.71042025", "0.7104087", "0.70962685", "0.7093427", "0.7080248", "0.7052217", "0.70171905", "0.7010819", "0.7006102", "0.69768614", "0.69513", "0.69476795", "0.68756706", "0.6861526", "0.6853788", "0.6841355", "0.6841355", "0.6841355", "0.6841355", "0.6841355", "0.6841355", "0.6841355", "0.6841355", "0.6841355", "0.68265456", "0.68265456", "0.68265456", "0.68251675", "0.6806918", "0.67815167", "0.67549276", "0.67549276", "0.67549276", "0.6754858", "0.67444116", "0.67166305", "0.67142045", "0.6707558", "0.6684797", "0.66680014", "0.66559935", "0.66559935", "0.66559935", "0.66559935", "0.66559935", "0.66559935", "0.66559935", "0.66559935", "0.66559935", "0.66559935", "0.66559935", "0.66559935", "0.66559935" ]

[ "def created_date_time=(createdDateTime)\n @created_date_time = createdDateTime\n end", "def created_date_time_utc=(value)\n @created_date_time_utc = value\n end", "def created_at=(value)\n @created_at = DateTime.parse(value)\n end", "def create_timestamp\n self.created_at = Time.now\n end", "def create_timestamp\n self.created_at = Time.now\n end", "def set_record_created_at\n self.record_created_at = Time.current.utc.iso8601(3)\n end", "def set_created_at\n if !timeless? && !created_at\n time = Time.configured.now\n self.updated_at = time if is_a?(Updated) && !updated_at_changed?\n self.created_at = time\n end\n clear_timeless_option\n end", "def created_at=(val)\n if val.is_a?(String)\n @created_at = Time.parse(val)\n else\n @created_at = val\n end\n end", "def setCreatedTime(createdTime)\r\n\t\t\t\t\t@createdTime = createdTime\r\n\t\t\t\tend", "def setCreatedTime(createdTime)\r\n\t\t\t\t\t@createdTime = createdTime\r\n\t\t\t\tend", "def created_date_time_utc\n return @created_date_time_utc\n end", "def created_at\n @created_at ||= self[:created_at] ? Time.parse(self[:created_at]) : nil\n end", "def created_date_time\n return @created_date_time\n end", "def set_created_at\n self.created_at ||= Date.today if new_record?\n end", "def created_at_datetime\n @created_at_datetime ||= DateTime.parse(@created_at)\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_date_time\n return @created_date_time\n end", "def created_at_timestamp\n Time.now.gmtime.strftime(\"%Y-%m-%dT%H:%M:%S.000Z\")\n end", "def created_at\n attributes.send(:ts_created) rescue nil\n end", "def created_at\n @created_at ||= Time.zone.now.utc.to_i\n end", "def created_at\n @created_at ||= Time.now\n end", "def created_at\n @created_at ||= Time.now\n end", "def created_at\n @created_at ||= Time.now\n end", "def created_at\n Time.at(created.to_i)\n end", "def created_at\n Time.at(created.to_i)\n end", "def created_at\n Time.at(created)\n end", "def created_at\n Time.at(created)\n end", "def initialize\n @created_at = Time.now\n end", "def datetime_stamp\n Time.now.utc.iso8601\n end", "def created_at\n ensure_full_data!\n Time.at(@gapi[\"creationTime\"] / 1000.0)\n end", "def created_at\n begin\n Time.parse(self.create_date)\n rescue\n nil\n end\n end", "def create\n self[:created] = Time.now.to_s\n save\n end", "def created_at\n object.created_at.iso8601\n end", "def created_time\n Time.parse(object[\"created_time\"]) if object[\"created_time\"]\n end", "def created_at\n Time.parse(@created_at).utc unless @created_at.nil?\n end", "def date\n Time.at(self.created_utc)\n end", "def date\n Time.at(self.created_utc)\n end", "def date\n Time.at(self.created_utc)\n end", "def createTimestamp\n result = @@create_date[name]\n result ||= attrs['createTimestamp'][0] rescue nil # in case not loaded\n result ||= ASF.search_one(base, \"uid=#{name}\", 'createTimestamp')[0][0]\n result\n end", "def set_timestamps\n self.created_at = Time.now\n #Set updated_at initially before manually setting because column cannot be null.\n self.updated_at = Time.now \n end", "def created_at\n return DateTime.parse(@created_at) if @created_at\n\n @created_at\n end", "def creation_date\n return @creation_date if defined? @creation_date\n return unless metadata['dcterms:created']\n\n @creation_date = Time.parse(metadata['dcterms:created'])\n end", "def created_at\n with_type!(Fixnum) { attribute_from_model(:created_at) || attribute_from_model(:created) }\n end", "def timestamp\n self.created_at.to_s(:db)\n end", "def created_at\n Convert.millis_to_time @gapi.statistics.creation_time\n end", "def getCreatedTime\r\n\t\t\t\t\treturn @createdTime\r\n\t\t\t\tend", "def getCreatedTime\r\n\t\t\t\t\treturn @createdTime\r\n\t\t\t\tend", "def created=(date)\n @date = case date\n when String\n Date.parse(date)\n else\n date\n end\n end", "def creation_date\n self.created_at.iso8601\n end" ]

[ "0.7832844", "0.75716174", "0.7211164", "0.7008633", "0.7008577", "0.69466174", "0.6885678", "0.6842985", "0.6798755", "0.6798755", "0.6562056", "0.6528289", "0.64378583", "0.6410297", "0.64069414", "0.64009416", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.64008987", "0.63715416", "0.6329935", "0.63264954", "0.62998223", "0.62998223", "0.62998223", "0.6258762", "0.6258762", "0.6252625", "0.6252625", "0.6205098", "0.6172759", "0.6150615", "0.61469537", "0.6146333", "0.6142671", "0.6137707", "0.61254954", "0.6111304", "0.6111304", "0.6111304", "0.61111516", "0.6109974", "0.6085711", "0.60758346", "0.6029482", "0.60191137", "0.60012156", "0.5978295", "0.5978295", "0.59769106", "0.597045" ]

[ "def custom_extension_stage_settings=(value)\n @custom_extension_stage_settings = value\n end", "def custom_workflow_extensions\n return @custom_workflow_extensions\n end", "def custom_extension_stage_instance_detail\n return @custom_extension_stage_instance_detail\n end", "def custom_workflow_extensions=(value)\n @custom_workflow_extensions = value\n end", "def custom_extension_stage_instance_id\n return @custom_extension_stage_instance_id\n end", "def extension_properties\n return @extension_properties\n end", "def getSettingsForDash\n\t\tif(!self.customCode)\n\t\t\treturn {}\n\t\telse\n\t\t\tsettings = Hash.new\n\t\t\tcustomSettings.each do |k,v|\n\t\t\t\tsettings[k] = v[:val]\n\t\t\tend\n\n\t\t\treturn settings\n\t\tend\n\tend", "def extension_setting(name)\n extension_settings.find{ |setting| setting.key == name.to_s }\n end", "def extensions\n @config[:extensions]\n end", "def custom_extension_stage_instance_id=(value)\n @custom_extension_stage_instance_id = value\n end", "def extension_item\n return @children['extension-item'][:value]\n end", "def custom_extension_stage_instance_detail=(value)\n @custom_extension_stage_instance_detail = value\n end", "def get_field_deserializers()\n return super.merge({\n \"customExtensionStageInstanceDetail\" => lambda {|n| @custom_extension_stage_instance_detail = n.get_string_value() },\n \"customExtensionStageInstanceId\" => lambda {|n| @custom_extension_stage_instance_id = n.get_string_value() },\n \"stage\" => lambda {|n| @stage = n.get_enum_value(MicrosoftGraph::Models::AccessPackageCustomExtensionStage) },\n \"state\" => lambda {|n| @state = n.get_string_value() },\n })\n end", "def extensions\n return @extensions\n end", "def extensions\n return @extensions\n end", "def extensions\n return @extensions\n end", "def sprockets_helpers_settings\n Helpers.settings\n end", "def get_webhooks_integration_custom_variable(custom_variable_name, opts = {})\n data, _status_code, _headers = get_webhooks_integration_custom_variable_with_http_info(custom_variable_name, opts)\n data\n end", "def payload_extended_options\n opts['Payload'] ? opts['Payload']['ExtendedOptions'] : nil\n end", "def js_framework_settings(additional_settings_hash = {}, override = true)\n settings = @js_framework_settings\n settings.merge!(additional_settings_hash)\n\n if override\n return javascript_tag(\"APPLICATION = #{settings.to_json};\")\n else\n return javascript_tag(\"$.extend(true, APPLICATION, #{settings.to_json});\")\n end\n end", "def extensions\n @@extensions\n end", "def extensions\n @@extensions\n end", "def extension_parameters\n @extension_parameters ||= {}\n end", "def extjs_filterable_options\n read_inheritable_attribute(:extjs_filterable_options)\n end", "def package_settings\n properties[:package_settings]\n end", "def package_settings\n properties[:package_settings]\n end", "def ext_config\n config[:ext_config] || {}\n end", "def extensions\n if wrapper\n (wrapper.extensions + config[:extensions]).uniq\n else\n config[:extensions]\n end\n end", "def extension_properties=(value)\n @extension_properties = value\n end", "def extension_fields\n self.class.extension_fields\n end", "def stages\n return @stages\n end", "def stages\n return @stages\n end", "def multi_value_extended_properties\n return @multi_value_extended_properties\n end", "def multi_value_extended_properties\n return @multi_value_extended_properties\n end", "def multi_value_extended_properties\n return @multi_value_extended_properties\n end", "def extract_custom_settings!(options)\n @heading = options.key?(:heading) ? options.delete(:heading) : default_heading\n @sortable_column = options.delete(:sortable)\n @sortable_start = options.delete(:sortable_start) || 0\n @new_record = options.key?(:new_record) ? options.delete(:new_record) : true\n @destroy_option = options.delete(:allow_destroy)\n options\n end", "def settings\n # JSONSettingDataSource.file_semaphore.synchronize do\n return @settings\n # end\n end", "def single_value_extended_properties\n return @single_value_extended_properties\n end", "def single_value_extended_properties\n return @single_value_extended_properties\n end", "def single_value_extended_properties\n return @single_value_extended_properties\n end", "def settings\n @scope.settings\n end", "def battle_stage_mod\n return data.battle_stage_mod\n end", "def available_settings\n instance.available_settings\n end", "def available_settings\n return @@settings_by_type[self.resource_type]\n end", "def settings\n return @settings\n end", "def settings\n return @settings\n end", "def extension\n return _meta_data['extension'] if _meta_data.has_key? 'extension'\n ext\n end", "def review_settings\n return @review_settings\n end", "def extended_folder_permissions\n @attributes[:extended_folder_permissions]\n end", "def custom_extension_callout_instances\n return @custom_extension_callout_instances\n end", "def extensions\n @extensions.to_a\n end", "def get_settings\n settings.get\n end", "def get_extensions\n get_siteinfo('extensions')['query']['extensions'].collect { |e| e['name'] }\n end", "def active_directory_settings\n MsRestAzure::ActiveDirectoryServiceSettings.get_azure_settings\n end", "def teams_app_settings\n return @teams_app_settings\n end", "def src_extensions(extensions = nil)\n extensions ? @src_extensions = extensions : get_inherited_attribute(\"@src_extensions\")\n end", "def extensions\n self.class.extensions\n end", "def extensions\n self.class.extensions\n end", "def custom_params\n return @custom_params ||= read_custom_params\n end", "def available_settings\n []\n end", "def option_group_option_settings\n data.option_group_option_settings\n end", "def auditing_settings\n return unless exists?\n additional_resource_properties(\n {\n property_name: \"auditing_settings\",\n property_endpoint: \"#{id}/auditingSettings/default\",\n api_version: @opts[:auditing_settings_api_version],\n },\n )\n end", "def extend_options\n options.each do |option|\n klass = Post::Extension.const_get(option.camelize)\n self.extend klass\n end\n end", "def extensions=(value)\n @extensions = value\n end", "def extensions=(value)\n @extensions = value\n end", "def extensions=(value)\n @extensions = value\n end", "def flat_stage_sub_stage_params\n params.fetch(:flat_stage_sub_stage, {})\n end", "def inheritable_settings\n return @inheritable_settings\n end", "def expand_settings(schema, component_settings, context = {}, path = [], last_component)\n components = []\n\n if component_settings.is_a?(Hash)\n expanded_settings = {}\n\n component_settings.each_pair do |key, sub_settings|\n sub_path = path.clone\n sub_path << key\n\n # Get the sub_schema from schema. This only works with simple schema, should really be\n # done with a json-schema-lib that can expand, chose one-of etc.\n if schema.key?('properties') && schema['properties'].key?(key)\n sub_schema = schema['properties'][key]\n elsif schema.key?('additionalProperties')\n sub_schema = schema['additionalProperties']\n else\n @logger.warn(\n \"Could not add setting #{key} to #{last_component} at /#{path.join('/')} \" \\\n 'in ' + JSON.pretty_generate(schema)\n )\n return [components, component_settings]\n end\n\n if sub_schema.key?('format') && sub_schema['format'] == 'diversity'\n # Add componentHTML\n new_components, html = render(sub_settings, context, sub_path)\n components.concat(new_components)\n expanded_settings[key] = { componentHTML: html }\n else\n new_components, expanded_settings[key] =\n expand_settings(sub_schema, sub_settings, context, sub_path, last_component)\n components.concat(new_components)\n end\n end\n elsif component_settings.is_a?(Array)\n expanded_settings = []\n\n # Pick schema for array items from schema items. …this is also simplified…\n sub_schema = schema['items']\n\n # @todo Check additionalItems\n\n component_settings.each_with_index do |sub_settings, index|\n sub_path = path.clone\n sub_path << index\n\n # Ignore bad settings; they are warned about in schema validation.\n next unless sub_schema.is_a?(Hash)\n\n if sub_schema.key?('format') && sub_schema['format'] == 'diversity'\n # Ignore bad settings; they are warned about in schema validation.\n next unless sub_settings.is_a?(Hash)\n\n # Add componentHTML\n new_components, html = render(sub_settings, context, sub_path)\n expanded_settings << { componentHTML: html }\n components.concat(new_components)\n else\n new_components, subsettings =\n expand_settings(sub_schema, sub_settings, context, sub_path)\n expanded_settings << subsettings\n components.concat(new_components)\n end\n end\n else\n expanded_settings = component_settings\n end\n\n [components, expanded_settings]\n end", "def app_options\n # Unsafe to generate these twice, so use the cached version if it exists.\n return @app_options unless @app_options.nil?\n\n if @level.channel_backed?\n view_options(channel: get_channel_for(@level, @user))\n # readonly if viewing another user's channel\n readonly_view_options if @user\n end\n\n # Always pass user age limit\n view_options(is_13_plus: current_user && !current_user.under_13?)\n\n view_options(server_level_id: @level.id)\n if @script_level\n view_options(\n stage_position: @script_level.stage.absolute_position,\n level_position: @script_level.position,\n next_level_url: @script_level.next_level_or_redirect_path_for_user(current_user, @stage)\n )\n end\n\n if @script\n view_options(script_name: @script.name)\n end\n\n unless params[:share]\n # Set videos and callouts.\n view_options(\n autoplay_video: select_and_track_autoplay_video,\n callouts: select_and_remember_callouts(params[:show_callouts])\n )\n end\n\n # External project levels are any levels of type 'external' which use\n # the projects code to save and load the user's progress on that level.\n view_options(is_external_project_level: true) if @level.is_a? Pixelation\n\n if @level.channel_backed?\n view_options(is_channel_backed: true)\n view_options(server_project_level_id: @level.project_template_level.try(:id))\n end\n\n post_milestone = @script ? Gatekeeper.allows('postMilestone', where: {script_name: @script.name}, default: true) : true\n post_failed_run_milestone = @script ? Gatekeeper.allows('postFailedRunMilestone', where: {script_name: @script.name}, default: true) : true\n view_options(post_milestone_mode: post_milestone_mode(post_milestone, post_failed_run_milestone))\n\n @public_caching = @script ? ScriptConfig.allows_public_caching_for_script(@script.name) : false\n view_options(public_caching: @public_caching)\n\n if PuzzleRating.enabled?\n view_options(puzzle_ratings_url: puzzle_ratings_path)\n end\n\n if AuthoredHintViewRequest.enabled?\n view_options(authored_hint_view_requests_url: authored_hint_view_requests_path(format: :json))\n if current_user && @script\n view_options(authored_hints_used_ids: AuthoredHintViewRequest.hints_used(current_user.id, @script.id, @level.id).pluck(:hint_id).uniq)\n end\n end\n\n if @user\n pairing_check_user = @user\n elsif @level.channel_backed?\n pairing_check_user = current_user\n end\n\n if pairing_check_user\n recent_driver, recent_attempt, recent_user = UserLevel.most_recent_driver(@script, @level, pairing_check_user)\n if recent_driver && !recent_user.is_a?(DeletedUser)\n level_view_options(@level.id, pairing_driver: recent_driver)\n if recent_attempt\n level_view_options(@level.id, pairing_attempt: edit_level_source_path(recent_attempt)) if recent_attempt\n elsif @level.channel_backed?\n recent_channel = get_channel_for(@level, recent_user) if recent_user\n level_view_options(@level.id, pairing_channel_id: recent_channel) if recent_channel\n end\n end\n end\n\n @app_options =\n if @level.is_a? Blockly\n blockly_options\n elsif @level.is_a? Weblab\n weblab_options\n elsif @level.is_a?(DSLDefined) || @level.is_a?(FreeResponse) || @level.is_a?(CurriculumReference)\n question_options\n elsif @level.is_a? Widget\n widget_options\n elsif @level.is_a? Scratch\n scratch_options\n elsif @level.unplugged?\n unplugged_options\n else\n # currently, all levels are Blockly or DSLDefined except for Unplugged\n view_options.camelize_keys\n end\n\n # Blockly caches level properties, whereas this field depends on the user\n @app_options['teacherMarkdown'] = @level.properties['teacher_markdown'] if current_user.try(:authorized_teacher?)\n\n @app_options[:dialog] = {\n skipSound: !!(@level.properties['options'].try(:[], 'skip_sound')),\n preTitle: @level.properties['pre_title'],\n fallbackResponse: @fallback_response.to_json,\n callback: @callback,\n sublevelCallback: @sublevel_callback,\n app: @level.type.underscore,\n level: @level.level_num,\n shouldShowDialog: @level.properties['skip_dialog'].blank? && @level.properties['options'].try(:[], 'skip_dialog').blank?\n }\n\n # Sets video options for this level\n if @app_options[:level]\n @app_options[:level][:levelVideos] = @level.related_videos.map(&:summarize)\n end\n\n if current_user\n section =\n if @script\n current_user.sections_as_student.detect {|s| s.script_id == @script.id} ||\n current_user.sections_as_student.first\n else\n current_user.sections_as_student.first\n end\n if section && section.first_activity_at.nil?\n section.first_activity_at = DateTime.now\n section.save(validate: false)\n end\n @app_options[:experiments] =\n Experiment.get_all_enabled(user: current_user, section: section, script: @script).pluck(:name)\n @app_options[:usingTextModePref] = !!current_user.using_text_mode\n @app_options[:userSharingDisabled] = current_user.sharing_disabled?\n end\n\n @app_options\n end", "def stage\n return @stage\n end", "def stage\n return @stage\n end", "def jobs_in_stage(stage)\n array_for_stage(@stages[stage])\n end", "def extensions\n @extensions ||= []\n end", "def extensions\n @extensions ||= []\n end", "def stage_status\n return @stage_status\n end", "def extensions\n @extensions ||= []\n end", "def get_recording_settings(opts = {})\n data, _status_code, _headers = get_recording_settings_with_http_info(opts)\n return data\n end", "def firewall_merge_keying_module_settings\n return @firewall_merge_keying_module_settings\n end", "def flex_options\n self.class.flex_options\n end", "def appl_settings\n @appl_settings\n end", "def settings_list\n setting.list\n end", "def build_extension_configurations\n extension.configurations.each do |ext_configuration|\n extension_settings.new(key: ext_configuration[:key]) unless\n extension_settings.where(key: ext_configuration[:key]).present?\n end\n end", "def ad_settings\n case environment.downcase\n when \"azureusgovernment\"\n ::MsRestAzure::ActiveDirectoryServiceSettings.get_azure_us_government_settings\n when \"azurechina\"\n ::MsRestAzure::ActiveDirectoryServiceSettings.get_azure_china_settings\n when \"azuregermancloud\"\n ::MsRestAzure::ActiveDirectoryServiceSettings.get_azure_german_settings\n when \"azure\"\n ::MsRestAzure::ActiveDirectoryServiceSettings.get_azure_settings\n end\n end", "def automatic_request_settings\n return @automatic_request_settings\n end", "def processCustomSettings\n if File.exists?(::CUSTOM_SETTINGS_FILE)\n customSettings = IO.read(::CUSTOM_SETTINGS_FILE)\n customSettings = customSettings.split(\"\\n\")\n customSettings.each do |customSetting|\n if customSetting =~ /^\\:\\:LOGGING_OPTIONS\\./\n setting, value = customSetting.split('=')\n setting = setting.chomp.strip.sub('::LOGGING_OPTIONS.','')\n value = value.chomp.strip\n if setting == 'logLevel'\n value = value.upcase.gsub(/\\'/,'')\n level = LEVELS_TEXT.index(value.upcase)\n @currentLogLevel = level if level\n elsif setting == 'consoleLogging'\n @consoleLogging = value.downcase == 'true'\n elsif setting == 'logfile'\n @currentFileName = File.expand_path(value)\n end\n end\n end\n end\n end", "def ad_settings\n case environment.downcase\n when \"azureusgovernment\"\n ::MsRestAzure2::ActiveDirectoryServiceSettings.get_azure_us_government_settings\n when \"azurechina\"\n ::MsRestAzure2::ActiveDirectoryServiceSettings.get_azure_china_settings\n when \"azuregermancloud\"\n ::MsRestAzure2::ActiveDirectoryServiceSettings.get_azure_german_settings\n when \"azure\"\n ::MsRestAzure2::ActiveDirectoryServiceSettings.get_azure_settings\n end\n end", "def assessment_item_settings\n @assessment_item_settings ||=\n @item_settings.lesson_plan_item_settings.select do |setting|\n setting[:component] == Course::AssessmentsComponent.key\n end\n end", "def extension_attribute7\n return @extension_attribute7\n end", "def extension_attribute14\n return @extension_attribute14\n end", "def get_extensions\n read_extensions 'storage', @options.model_extensions_dir\n end", "def get_settings\n settings = {}\n settings['sharing_scope'] = self.sharing_scope\n settings['access_type'] = self.access_type\n settings['use_custom_sharing'] = self.use_custom_sharing\n settings['use_whitelist'] = self.use_whitelist\n settings['use_blacklist'] = self.use_blacklist\n return settings\n end", "def getOptions\n rOptions = nil\n\n if (@ConfigPanel != nil)\n rOptions = @ConfigPanel.getData\n end\n\n return rOptions\n end", "def extensions=(val)\n set_extensions(val)\n val\n end", "def payload_extended_options(explicit_target = nil)\n explicit_target ||= target\n\n if explicit_target and explicit_target.payload_extended_options\n explicit_target.payload_extended_options\n else\n payload_info['ExtendedOptions']\n end\n end", "def settings\n @log.debug \"merging settings\"\n setting_sources = [get_override_settings, load_config, default_settings]\n merged_settings = setting_sources.inject({}) { |merged, hash| merged.deep_merge(hash) }\n @log.debug \"using merged settings: \" + merged_settings.to_s\n @log.debug \"validating merged settings\"\n if validate_settings(merged_settings)\n @log.debug \"successfully validated merged settings\"\n return merged_settings\n else\n @log.warn \"validation of merged settings failed\"\n @log.warn \"unable to validate settings in #{self.name} validator\"\n raise \"settings validation error\"\n end\n end", "def set_stage_configuration(config)\n deployment.stage.non_prompt_configurations.each do |effective_conf|\n value = resolve_references(config, effective_conf.value)\n config.set effective_conf.name.to_sym, Deployer.type_cast(value)\n end\n deployment.prompt_config.each do |k, v|\n v = resolve_references(config, v)\n config.set k.to_sym, Deployer.type_cast(v)\n end\n end", "def extension_whitelist\r\n self.class.available_extensions\r\n end", "def custom_extension_callout_instances=(value)\n @custom_extension_callout_instances = value\n end", "def include_extensions\n @included_extensions ||= include_extensions!\n end" ]

[ "0.71281826", "0.57687587", "0.5696145", "0.565536", "0.55297357", "0.5125914", "0.50607264", "0.49756873", "0.49669826", "0.48470446", "0.47110742", "0.46430245", "0.46310404", "0.4630035", "0.4630035", "0.4630035", "0.4608793", "0.45643523", "0.45600885", "0.45335364", "0.4526365", "0.4526365", "0.45106196", "0.44761398", "0.44703805", "0.44703805", "0.4461882", "0.44474638", "0.44455567", "0.44452497", "0.44291696", "0.44291696", "0.44233385", "0.44233385", "0.44233385", "0.44232377", "0.44133353", "0.43729228", "0.43729228", "0.43729228", "0.43692297", "0.4354544", "0.43524447", "0.4336588", "0.43365216", "0.43365216", "0.43327755", "0.4327527", "0.43076968", "0.4300189", "0.42982697", "0.42888936", "0.42869872", "0.42809716", "0.42795375", "0.42729697", "0.4255856", "0.4255856", "0.42550322", "0.4252431", "0.4236899", "0.42274165", "0.4222766", "0.42164826", "0.42164826", "0.42164826", "0.41947854", "0.41871688", "0.41856474", "0.41824958", "0.4172407", "0.4172407", "0.4158163", "0.41438895", "0.41438895", "0.41421622", "0.41117424", "0.411134", "0.41032413", "0.41017026", "0.40893003", "0.408763", "0.4077209", "0.40767553", "0.40721482", "0.40671527", "0.40588093", "0.40510172", "0.40415922", "0.40385213", "0.4037524", "0.40352902", "0.4032707", "0.40154782", "0.40134156", "0.4009234", "0.4006919", "0.40065357", "0.40016273", "0.40003094" ]

[ "def custom_extension_stage_settings\n return @custom_extension_stage_settings\n end", "def custom_workflow_extensions=(value)\n @custom_workflow_extensions = value\n end", "def custom_extension_stage_instance_id=(value)\n @custom_extension_stage_instance_id = value\n end", "def set_stage_configuration(config)\n deployment.stage.non_prompt_configurations.each do |effective_conf|\n value = resolve_references(config, effective_conf.value)\n config.set effective_conf.name.to_sym, Deployer.type_cast(value)\n end\n deployment.prompt_config.each do |k, v|\n v = resolve_references(config, v)\n config.set k.to_sym, Deployer.type_cast(v)\n end\n end", "def extensions=(value)\n @extensions = value\n end", "def extensions=(value)\n @extensions = value\n end", "def extensions=(value)\n @extensions = value\n end", "def custom_extension_stage_instance_detail=(value)\n @custom_extension_stage_instance_detail = value\n end", "def extensions=(extensions)\n @extensions = Array extensions\n end", "def extension=(extension)\n instance_set(:extension, extension)\n end", "def extensions=(val)\n set_extensions(val)\n val\n end", "def extend_options\n options.each do |option|\n klass = Post::Extension.const_get(option.camelize)\n self.extend klass\n end\n end", "def extensions=(extensions); end", "def extension_properties=(value)\n @extension_properties = value\n end", "def set_extensions(val)\n @extensions = val\n build_path_query\n @extensions\n end", "def custom_extension_callout_instances=(value)\n @custom_extension_callout_instances = value\n end", "def src_extensions(extensions = nil)\n extensions ? @src_extensions = extensions : get_inherited_attribute(\"@src_extensions\")\n end", "def custom_workflow_extensions\n return @custom_workflow_extensions\n end", "def js_framework_settings(additional_settings_hash = {}, override = true)\n settings = @js_framework_settings\n settings.merge!(additional_settings_hash)\n\n if override\n return javascript_tag(\"APPLICATION = #{settings.to_json};\")\n else\n return javascript_tag(\"$.extend(true, APPLICATION, #{settings.to_json});\")\n end\n end", "def set_custom_context(custom)\n agent&.set_custom_context(custom)\n end", "def enable_extension(name, **)\n end", "def custom_extension_stage_instance_id\n return @custom_extension_stage_instance_id\n end", "def extensions=(value)\n subtags = Array(value).flatten\n self.extensions_sequence = subtags.empty? ? nil : subtags.join(HYPHEN)\n end", "def add_extensions(*extensions)\n self.extensions += extensions\n end", "def add_extension_to_account(\n client,\n customer_id,\n extension_feed_item_resource_name)\n # Creates a customer extension setting, sets its type to HOTEL_CALLOUT, and\n # attaches the feed item.\n operation = client.operation.create_resource.customer_extension_setting do |s|\n s.extension_type = :HOTEL_CALLOUT\n s.extension_feed_items << extension_feed_item_resource_name\n end\n\n # Issues a mutate request to add the customer extension setting and prints\n # its information.\n response = client.service.customer_extension_setting.mutate_customer_extension_settings(\n customer_id: customer_id,\n operations: [operation],\n )\n puts \"Created a customer extension setting with resource name: \" \\\n \"#{response.results.first.resource_name}\"\nend", "def extension name, enable\n if enable then\n @extensions |= [name]\n else\n @extensions -= [name]\n end\n end", "def register(*extensions, &block)\n start_registering_extension\n result = super\n stop_registering_extension\n result\n end", "def add_extension(mod, options = {})\n self.extend(mod)\n options = mod.send(:prepare_options, options || {}) if mod.respond_to?(:prepare_options)\n extension_options[mod] = options\n self\n end", "def set_extensions_for_student_quiz_submissions(course_id,quiz_id,user_id,opts={})\n query_param_keys = [\n \n ]\n\n form_param_keys = [\n :user_id,\n :extra_attempts,\n :extra_time,\n :manually_unlocked,\n :extend_from_now,\n :extend_from_end_at,\n \n ]\n\n # verify existence of params\n raise \"course_id is required\" if course_id.nil?\n raise \"quiz_id is required\" if quiz_id.nil?\n raise \"user_id is required\" if user_id.nil?\n # set default values and merge with input\n options = underscored_merge_opts(opts,\n :course_id => course_id,\n :quiz_id => quiz_id,\n :user_id => user_id\n )\n\n # resource path\n path = path_replace(\"/v1/courses/{course_id}/quizzes/{quiz_id}/extensions\",\n :course_id => course_id,\n :quiz_id => quiz_id)\n headers = nil\n form_params = select_params(options, form_param_keys)\n query_params = select_params(options, query_param_keys)\n if opts[:next_page]\n pagination_params = page_params_load(:post, path)\n query_params.merge! pagination_params if pagination_params\n end\n response = mixed_request(:post, path, query_params, form_params, headers)\n page_params_store(:post, path)\n response\n \n end", "def extension=(mod)\n mod = Module.new(&mod) if Proc === mod\n @extension = mod\n end", "def extension=(mod)\n if Proc === mod\n mod = Module.new { define_method(:value, &mod) }\n end\n\n raise ArgumentError, \"Extension must be a Module\" unless Module === mod\n\n @extension = mod\n end", "def extension(*extensions)\n if extensions[0].is_a?(Array)\n @_ext = extensions[0]\n else\n @_ext = extensions\n end\n end", "def enable_extension(name)\n end", "def add_extension_to_ad_group(\n client,\n customer_id,\n ad_group_id,\n extension_feed_item_resource_name)\n # Creates a ad group extension setting, sets its type to HOTEL_CALLOUT, and\n # attaches the feed item.\n operation = client.operation.create_resource.ad_group_extension_setting do |s|\n s.ad_group = client.path.ad_group(customer_id, ad_group_id)\n s.extension_type = :HOTEL_CALLOUT\n s.extension_feed_items << extension_feed_item_resource_name\n end\n\n # Issues a mutate request to add the ad group extension setting and prints\n # its information.\n response = client.service.ad_group_extension_setting.mutate_ad_group_extension_settings(\n customer_id: customer_id,\n operations: [operation],\n )\n puts \"Created an ad group extension setting with resource name: \" \\\n \"#{response.results.first.resource_name}\"\nend", "def extension_params\n params.require(:extension).permit(:name, :description, :date_start, :date_end, :state_id, :manager_id, :extension_type_id, :career_id)\n end", "def mobile_extension=(mobile_extension)\n\n if !mobile_extension.nil? && mobile_extension.to_s.length > 10\n fail ArgumentError, \"invalid value for 'mobile_extension', the character length must be smaller than or equal to 10.\"\n end\n\n @mobile_extension = mobile_extension\n end", "def mobile_extension=(mobile_extension)\n\n if !mobile_extension.nil? && mobile_extension.to_s.length > 10\n fail ArgumentError, \"invalid value for 'mobile_extension', the character length must be smaller than or equal to 10.\"\n end\n\n @mobile_extension = mobile_extension\n end", "def firewall_merge_keying_module_settings=(value)\n @firewall_merge_keying_module_settings = value\n end", "def smb_auto_encrypted_file_extensions=(value)\n @smb_auto_encrypted_file_extensions = value\n end", "def add_extension_to_campaign(\n client,\n customer_id,\n campaign_id,\n extension_feed_item_resource_name)\n # Creates a campaign extension setting, sets its type to HOTEL_CALLOUT, and\n # attaches the feed item.\n operation = client.operation.create_resource.campaign_extension_setting do |s|\n s.campaign = client.path.campaign(customer_id, campaign_id)\n s.extension_type = :HOTEL_CALLOUT\n s.extension_feed_items << extension_feed_item_resource_name\n end\n\n # Issues a mutate request to add the campaign extension setting and prints\n # its information.\n response = client.service.campaign_extension_setting.mutate_campaign_extension_settings(\n customer_id: customer_id,\n operations: [operation],\n )\n puts \"Created a campaign extension setting with resource name: \" \\\n \"#{response.results.first.resource_name}\"\nend", "def custom_extension(context={}, element, aspect_model)\n\n app = context[:app]\n \n renderer = ::UI::FieldSetRender.new('location', app)\n renderer.render('viewextension','',{:element => element})\n \n end", "def set_extension\n @extension = Fonelator::Extension.find(params[:id])\n end", "def add_extension(extension)\n extensions.push extension\n end", "def custom_extension_stage_instance_detail\n return @custom_extension_stage_instance_detail\n end", "def set_PotentialStage(value)\n set_input(\"PotentialStage\", value)\n end", "def extensions_json=(value)\n @extensions_json = value.to_s\n @extensions = JSON.parse( File.read(@extensions_json) ) # Ruby raises it's own generic I/O read errors & JSON parse errors\n \n @extensions = {} unless @extensions.is_a?(Hash)\n \n @extensions_json\n end", "def add_extend ext\n add_to @extends, ext\n\n ext\n end", "def settings=(setting_options = [])\n # for arrays, set in raw form \n @settings = if setting_options.is_a?(Array)\n setting_options\n # set optional shortcuts for settings\n # :keyword_match_setting => { :opt_in => false } # =>\n # { :xsi_type => 'KeywordMatchSetting', :opt_in => false }\n elsif setting_options.is_a?(Hash)\n setting_options.map do |key, values|\n { :xsi_type => key.to_s.camelcase }.merge(values).symbolize_keys\n end\n end\n end", "def add_extension_arg(namespace, key, value)\n @message.set_arg(namespace, key, value)\n end", "def stage=(value)\n @stage = value\n end", "def stage=(value)\n @stage = value\n end", "def select_extension_point(point)\n @@extension_points_registry[point]\n end", "def extension_attribute14=(value)\n @extension_attribute14 = value\n end", "def add_extensions(exts)\n if exts.any?\n self.class.wrap(self, extensions + exts.to_a)\n else\n self\n end\n end", "def add_extensions(exts)\n if exts.any?\n self.class.wrap(self, extensions + exts.to_a)\n else\n self\n end\n end", "def contact_phone_extension=(contact_phone_extension)\n\n if !contact_phone_extension.nil? && contact_phone_extension.to_s.length > 15\n fail ArgumentError, \"invalid value for 'contact_phone_extension', the character length must be smaller than or equal to 15.\"\n end\n\n @contact_phone_extension = contact_phone_extension\n end", "def expand_settings(schema, component_settings, context = {}, path = [], last_component)\n components = []\n\n if component_settings.is_a?(Hash)\n expanded_settings = {}\n\n component_settings.each_pair do |key, sub_settings|\n sub_path = path.clone\n sub_path << key\n\n # Get the sub_schema from schema. This only works with simple schema, should really be\n # done with a json-schema-lib that can expand, chose one-of etc.\n if schema.key?('properties') && schema['properties'].key?(key)\n sub_schema = schema['properties'][key]\n elsif schema.key?('additionalProperties')\n sub_schema = schema['additionalProperties']\n else\n @logger.warn(\n \"Could not add setting #{key} to #{last_component} at /#{path.join('/')} \" \\\n 'in ' + JSON.pretty_generate(schema)\n )\n return [components, component_settings]\n end\n\n if sub_schema.key?('format') && sub_schema['format'] == 'diversity'\n # Add componentHTML\n new_components, html = render(sub_settings, context, sub_path)\n components.concat(new_components)\n expanded_settings[key] = { componentHTML: html }\n else\n new_components, expanded_settings[key] =\n expand_settings(sub_schema, sub_settings, context, sub_path, last_component)\n components.concat(new_components)\n end\n end\n elsif component_settings.is_a?(Array)\n expanded_settings = []\n\n # Pick schema for array items from schema items. …this is also simplified…\n sub_schema = schema['items']\n\n # @todo Check additionalItems\n\n component_settings.each_with_index do |sub_settings, index|\n sub_path = path.clone\n sub_path << index\n\n # Ignore bad settings; they are warned about in schema validation.\n next unless sub_schema.is_a?(Hash)\n\n if sub_schema.key?('format') && sub_schema['format'] == 'diversity'\n # Ignore bad settings; they are warned about in schema validation.\n next unless sub_settings.is_a?(Hash)\n\n # Add componentHTML\n new_components, html = render(sub_settings, context, sub_path)\n expanded_settings << { componentHTML: html }\n components.concat(new_components)\n else\n new_components, subsettings =\n expand_settings(sub_schema, sub_settings, context, sub_path)\n expanded_settings << subsettings\n components.concat(new_components)\n end\n end\n else\n expanded_settings = component_settings\n end\n\n [components, expanded_settings]\n end", "def milestones_expanded=(setting)\n raise ArgumentError, 'Invalid lesson plan milestone groups expanded setting.' \\\n unless MILESTONES_EXPANDED_VALUES.include?(setting)\n\n settings.milestones_expanded = setting\n end", "def set_extension\n @extension = Extension.find(params[:id])\n end", "def set_extension\n @extension = Extension.find(params[:id])\n end", "def set_extension\n @extension = Extension.find(params[:id])\n end", "def stages=(value)\n @stages = value\n end", "def stages=(value)\n @stages = value\n end", "def extension_parameters\n @extension_parameters ||= {}\n end", "def admin_stage_params\n params.require(:stage).permit(:name, :slug, :description, :has_partner, :image_background, :image_background_remote_url)\n end", "def register(*extensions, &block)\n extensions.reject! { |e| self.extensions.include? e }\n super(*extensions, &block)\n end", "def register(*extensions, &block)\n extensions.reject! { |e| self.extensions.include? e }\n super(*extensions, &block)\n end", "def set_flat_stage_sub_stage\n @flat_stage_sub_stage = Flat::Stage::SubStage.find(params[:id])\n end", "def edit_settings\n hide_properties\n require 'settings_dialog'\n stg = @stage\n this = self\n stage(init_style: :utility, init_modality: :app, title: \"SmartDashboard Settings\") do\n init_owner stg\n fxml SD::SettingsDialog, :initialize => [this]\n show_and_wait\n end\n end", "def change_form_submission_access_settings(anonymous, authenticated, admin, site_owner, blogger, editor)\n Log.logger.info(\"Changing webform submission access settings\")\n self.expand_field_to_edit(@webformmgr.form_submission_access_settings, @webformmgr.expanded_form_submission_access_settings)\n self.enable_disable_checkbox(@webformmgr.anonymous_user_chkbox, anonymous, \"Anonymous user\")\n self.enable_disable_checkbox(@webformmgr.authenticated_user_chkbox, authenticated, \"Authenticated user\")\n self.enable_disable_checkbox(@webformmgr.administrator_chkbox, admin, \"Administrator\")\n self.enable_disable_checkbox(@webformmgr.site_owner_chkbox, site_owner, \"Site owner\")\n Log.logger.debug(\"Changed webform submission access settings\")\n end", "def activate(ext_name, options={}, &block)\n extension = ::Middleman::Extensions.load(ext_name)\n logger.debug \"== Activating: #{ext_name}\"\n\n if extension.supports_multiple_instances?\n extensions[ext_name] ||= {}\n key = \"instance_#{extensions[ext_name].keys.length}\"\n extensions[ext_name][key] = extension.new(self.class, options, &block)\n elsif extensions.key?(ext_name)\n raise \"#{ext_name} has already been activated and cannot be re-activated.\"\n else\n extensions[ext_name] = extension.new(self.class, options, &block)\n end\n end", "def extension_attribute7=(value)\n @extension_attribute7 = value\n end", "def include_extensions\n @included_extensions ||= include_extensions!\n end", "def extension_setting(name)\n extension_settings.find{ |setting| setting.key == name.to_s }\n end", "def set_permissions(object:, enabled: true)\n parsed_response(\n method: :put,\n path: \"#{url_for(object)}/management/permissions\",\n data: {\n enabled: enabled\n }\n )\n end", "def custom_media_entry_params\n params.require(:custom_media_entry).permit(:key, :value)\n end", "def get_field_deserializers()\n return super.merge({\n \"customExtensionStageInstanceDetail\" => lambda {|n| @custom_extension_stage_instance_detail = n.get_string_value() },\n \"customExtensionStageInstanceId\" => lambda {|n| @custom_extension_stage_instance_id = n.get_string_value() },\n \"stage\" => lambda {|n| @stage = n.get_enum_value(MicrosoftGraph::Models::AccessPackageCustomExtensionStage) },\n \"state\" => lambda {|n| @state = n.get_string_value() },\n })\n end", "def extension=(v) Axlsx::validate_string v; @extension = v end", "def make_builder_settings(extra_settings = {})\n opts = super\n opts[:auto_inventory_attributes] = false\n opts\n end", "def add_extension_path(path)\n validate_extension(path)\n @options[:extension_paths] ||= []\n @options[:extension_paths] << path\n end", "def extension_params\n params.require(:extension).permit(:name, :is_listed, :number)\n end", "def custom_attributes=(custom_attributes = {})\n @attributes[:custom] = ChartMogul::Utils::JSONParser.typecast_custom_attributes(custom_attributes)\n end", "def mcx_import(content, append=false)\n settings = Settings.new content\n mcx_flags = { 'has_mcx_settings' => true }\n mcx_flags = mcx_flags.to_plist({:plist_format => CFPropertyList::List::FORMAT_XML, :formatted => true})\n self['mcx_flags'] = [CFPropertyList::Blob.new(mcx_flags)]\n self['mcx_settings'] = settings.domains\n end", "def extension_whitelist\n Spotlight::Engine.config.allowed_upload_extensions\n end", "def set_building_stage_sub_stage\n @building_stage_sub_stage = Building::Stage::SubStage.find(params[:id])\n end", "def settings=(new_settings)\n settings.merge!(new_settings)\n end", "def register_for_extensions(extensions)\n extensions = [*extensions]\n ExtensionMap.parsers ||= []\n ExtensionMap.parsers << self\n ExtensionMap.extensions_for ||= {}\n ExtensionMap.parsers_for ||= {}\n extensions.each do |extension|\n ExtensionMap.parsers_for[extension] ||= []\n ExtensionMap.parsers_for[extension] << self\n ExtensionMap.extensions_for[self] ||= []\n ExtensionMap.extensions_for[self] << extension\n end\n end", "def expand_varref(varref, extra_vars = nil)\n vars =\n if extra_vars.nil?\n @varset\n else\n @varset.merge(extra_vars)\n end\n lambda_args = [env: self, vars: vars]\n vars.expand_varref(varref, lambda_args)\n end", "def stage(_stage=nil)\n unless (_stage)\n _stage = ENV['FIELDS_STAGE'] || \"#{ENV['USER']}-forgot-fields-stage\"\n end\n ENV['FIELDS_STAGE'] = _stage\n _stage\n end", "def extension_whitelist\n Archangel.config.asset_white_list\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_string_value(\"customExtensionStageInstanceDetail\", @custom_extension_stage_instance_detail)\n writer.write_string_value(\"customExtensionStageInstanceId\", @custom_extension_stage_instance_id)\n writer.write_enum_value(\"stage\", @stage)\n writer.write_string_value(\"state\", @state)\n end", "def resolve_extensions!(options)\n # The root object is always a Hash, so has keys, which can be processed\n # recursively.\n recursive_resolve(self, \"\", options)\n end", "def activate\n\n # Add your extension tab to the admin.\n # Requires that you have defined an admin controller:\n # app/controllers/admin/yourextension_controller\n # and that you mapped your admin in config/routes\n \n Product.class_eval do\n has_many :compatibilities\n has_many :marka_models, :through => :compatibilities\n \n named_scope :of_marka_model, lambda { |marka_model|\n ids = marka_model != nil ? marka_model.products.map { |p| p.id } : []\n { :conditions => [ 'products.id in (?)', ids ] }\n }\n end\n\n Admin::BaseController.class_eval do\n before_filter :add_marki_models_tab\n \n def add_marki_models_tab\n # add_extension_admin_tab takes an array containing the same arguments expected\n # by the tab helper method:\n # [ :extension_name, { :label => \"Your Extension\", :route => \"/some/non/standard/route\" } ]\n add_extension_admin_tab [ :marka_models ]\n @product_admin_tabs << { :name => t(:marka_models), :url => 'admin_product_compatibilities_url' }\n end\n end\n\n # make your helper avaliable in all views\n # Spree::BaseController.class_eval do\n # helper YourHelper\n # end\n end", "def extension_params\n params.require(:extension).permit(:name, :desc, :url, :image, :email, :published, :trending, :featured)\n end", "def activate\n\n # Add your extension tab to the admin.\n # Requires that you have defined an admin controller:\n # app/controllers/admin/yourextension_controller\n # and that you mapped your admin in config/routes\n\n #Admin::BaseController.class_eval do\n # before_filter :add_yourextension_tab\n #\n # def add_yourextension_tab\n # # add_extension_admin_tab takes an array containing the same arguments expected\n # # by the tab helper method:\n # # [ :extension_name, { :label => \"Your Extension\", :route => \"/some/non/standard/route\" } ]\n # add_extension_admin_tab [ :yourextension ]\n # end\n #end\n\n # make your helper avaliable in all views\n # Spree::BaseController.class_eval do\n # helper YourHelper\n # end\n \n # TO DO\n # make certain option types non-editable\n # display pricing based on taxonomy\n\n Spree::BaseController.class_eval do\n helper ProductsHelper\n end\n\n Taxonomy.class_eval do\n after_create :add_taxonomy_to_catalog_option_values\n after_update :update_associated_option_value_presentation_value\n #after_destroy :remove_taxonomy_from_catalog_option_type_values\n\n def add_taxonomy_to_catalog_option_values\n option_type = OptionType.find_by_name('catalog')\n option_type.option_values.create :name => self.name.gsub(/ /, '_').downcase, :presentation => self.name, :taxonomy_id => self.id\n end\n\n def update_associated_option_value_presentation_value\n option_value = OptionValue.find_by_taxonomy_id(self.id)\n option_value.presentation = self.name\n option_value.save\n end\n \n def self.associated_with_a_catalog\n OptionType.find_by_name('catalog').option_values.collect { |option_value| Taxonomy.find(option_value.taxonomy_id) }\n end\n end\n\n Variant.class_eval do\n after_create :add_product_to_catalog_taxonomy_unless_master_variant\n after_update :remove_product_from_catalog_taxonomy_if_deleted\n\n def catalog_option_value\n @catalog_option_value ||= option_values.collect{|ov| ov.taxonomy_id.nil? ? nil : ov }.compact.first\n end\n\n def add_product_to_catalog_taxonomy_unless_master_variant\n if not self.is_master? and not catalog_option_value.nil? \n taxonomy = Taxonomy.find(catalog_option_value.taxonomy_id)\n self.product.taxons << taxonomy.root\n end\n end\n\n def remove_product_from_catalog_taxonomy_if_deleted\n unless deleted_at.nil?\n unless catalog_option_value.nil?\n taxonomy = Taxonomy.find(catalog_option_value.taxonomy_id)\n self.product.taxons.delete(taxonomy.root)\n end\n end\n end\n end\n\n Product.class_eval do\n after_create :add_catalog_option_type\n\n def add_catalog_option_type\n option_type = OptionType.find_by_name('catalog')\n self.option_types << option_type\n end\n\n def variant_for_taxon(taxon)\n Variant.find(:first, :include => :option_values, :conditions => { 'option_values.taxonomy_id' => taxon.taxonomy_id, 'variants.product_id' => self.id })\n end\n end\n\n ProductsHelper.class_eval do\n def catalog_price(product, taxon = nil)\n variant = taxon.nil? ? product : product.variant_for_taxon(taxon)\n object_to_price = variant.nil? ? product : variant\n product_price(object_to_price)\n end\n end\n\n end", "def register_advanced_options(options, owner = self.class)\n\t\tself.options.add_advanced_options(options, owner)\n\t\tself.datastore.import_options(self.options, 'self', true)\n\t\timport_defaults(false)\n\tend", "def set_settings(settings, opts = {})\n data, _status_code, _headers = set_settings_with_http_info(settings, opts)\n data\n end", "def set_tools(tools)\n @site_data[\"site\"][\"node\"].each do | node |\n node[\"tools\"] = tools if node[\"node_name\"] == @node_name\n end\n end", "def extensions\n @config[:extensions]\n end", "def review_settings=(value)\n @review_settings = value\n end" ]

[ "0.66998315", "0.638794", "0.5124113", "0.49520212", "0.49162185", "0.49162185", "0.49162185", "0.4872088", "0.48630068", "0.47883472", "0.4732849", "0.47153306", "0.4654839", "0.459281", "0.45498553", "0.45368066", "0.45260113", "0.4497987", "0.44833574", "0.44431505", "0.44325757", "0.43986288", "0.43839636", "0.43408018", "0.43171003", "0.42952934", "0.42869806", "0.42600062", "0.42348695", "0.42256045", "0.4224518", "0.42228052", "0.421515", "0.41664526", "0.41238463", "0.41221395", "0.41221395", "0.4094896", "0.40870965", "0.40796906", "0.4077455", "0.40704262", "0.40651298", "0.4064067", "0.4061717", "0.4048732", "0.40478367", "0.40434173", "0.40428942", "0.40220144", "0.40220144", "0.4020252", "0.4012213", "0.40102312", "0.40102312", "0.40064844", "0.4003121", "0.399986", "0.39959607", "0.39959607", "0.39959607", "0.39917395", "0.39917395", "0.3974222", "0.39651716", "0.3959742", "0.3959742", "0.39582783", "0.39487758", "0.39462754", "0.393935", "0.39349252", "0.39142737", "0.39141202", "0.39099652", "0.38913614", "0.3882803", "0.3875089", "0.38733777", "0.3869797", "0.3869728", "0.38659617", "0.38595745", "0.38589233", "0.38576487", "0.38541147", "0.38503453", "0.38495293", "0.38399497", "0.3838245", "0.38369444", "0.38366547", "0.38363934", "0.3833715", "0.38307056", "0.3828672", "0.38280988", "0.38269606", "0.3825242", "0.3824886" ]

[ "def getDescription\r\n\t\t\t\t\treturn @description\r\n\t\t\t\tend", "def getDescription\r\n\t\t\t\t\treturn @description\r\n\t\t\t\tend", "def description\n if description_attribute = read_attribute(:description)\n description_attribute\n elsif self.properties && self.properties['description'].present?\n self.properties['description']\n else\n default_description\n end\n end", "def description()\n @description.nil? ? raw_description : @description\n end", "def get_description\n @description\n end", "def get_description\n return @m_description\n end", "def get_description\n return @m_description\n end", "def description\n @attributes[:description]\n end", "def description\n attributes.fetch(:description)\n end", "def description\n\n return @description\n\n end", "def description\n return @description\n end", "def description\n @description || Defaults::DEFAULT_DESCRIPTION\n end", "def description\n\t\t\treturn @description || self.generate_description\n\t\tend", "def description\n object[\"description\"]\n end", "def description\n self[:description] || name\n end", "def description\n parameter[:description]\n end", "def description\n data[:description]\n end", "def description\n data[:description]\n end", "def description\n text_attribute('description')\n end", "def description\n read_attribute(:description) || \"n/a\"\n end", "def description\n @data['description']\n end", "def description\n read_attribute(:description).presence || self.original_description\n end", "def description\n metadata[:description]\n end", "def description\n @description\n end", "def description\n @description\n end", "def description\n @description\n end", "def description\n @description\n end", "def description(desc = NO_VALUE)\n if desc == NO_VALUE\n return @description\n else\n @description = desc\n end\n end", "def description(val = NULL)\n if null?(val)\n @description\n else\n @description = val\n end\n end", "def get_description\n get_field_config['description']\n end", "def descriptions\n\t\t@profile[:descriptions]\n\tend", "def description\n\t\t\t@data[\"description\"]\n\t\tend", "def policy\n if resource[:plist]\n return File.readlines(resource[:plist]).to_s\n end \n resource[:content]\n end", "def description\n @data['description']\n end", "def description\n data['Description']\n end", "def description\n @description || raise(\"#{name}.description isn't defined\")\n end", "def description\n @data['description']\n end", "def description\n @data['description']\n end", "def description\n data['description']\n end", "def description\n data.description\n end", "def description\n data.description\n end", "def description\n data.description\n end", "def description\n self[:description]\n end", "def description\n Properties[self.class] ||= {}\n return Properties[self.class][:desc] || \"\"\n end", "def description\n response_json = @client.api_get_request('', 'tree=description')\n response_json['description']\n end", "def description\n @description = PageDescription[self.description_name.to_sym] if self.description_name\n @description\n end", "def describe\n @description\n end", "def describe\n @description\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end", "def description=(value)\n @description = value\n end" ]

[ "0.698134", "0.698134", "0.6958347", "0.6817909", "0.68166465", "0.6809939", "0.6809939", "0.6789236", "0.6746046", "0.6713045", "0.669974", "0.66996324", "0.66929543", "0.66846997", "0.6673129", "0.66172", "0.6616292", "0.6616292", "0.6608105", "0.65947056", "0.6592915", "0.6591634", "0.65891325", "0.6551289", "0.6551289", "0.6551289", "0.6551289", "0.65447915", "0.65038556", "0.6502789", "0.6497011", "0.64890534", "0.64667577", "0.64355755", "0.64080346", "0.64052683", "0.63903266", "0.63903266", "0.6389826", "0.6374258", "0.6374258", "0.6374258", "0.63731074", "0.6344831", "0.63368684", "0.6317426", "0.63121694", "0.63121694", "0.63036144", "0.63036144", "0.63036144", "0.63036144", "0.63036144", "0.63036144", "0.63036144", "0.63036144", "0.63036144", "0.63036144", "0.63036144", "0.63036144", "0.63036144", "0.63036144", "0.63036144", "0.63036144", "0.63036144", "0.63036144", "0.63036144", "0.63036144", "0.63036144", "0.63036144", "0.63036144", "0.63036144", "0.63036144", "0.63036144" ]

[ "def set_description(description)\n @description = description\n end", "def description=(v)\n @description = v\n end", "def description=(val)\n self[:description] = val\n end", "def set_Description(value)\n set_input(\"Description\", value)\n end", "def description=(description)\r\n\t\t\t`#{BITS::BITSADMIN} /setdescription {#{@id}} \\\"#{description}\\\"`\r\n\t\tend", "def setDescription(description)\r\n\t\t\t\t\t@description = description\r\n\t\t\t\tend", "def setDescription(description)\r\n\t\t\t\t\t@description = description\r\n\t\t\t\tend", "def set_Description(value)\n set_input(\"Description\", value)\n end", "def set_Description(value)\n set_input(\"Description\", value)\n end", "def set_Description(value)\n set_input(\"Description\", value)\n end", "def set_Description(value)\n set_input(\"Description\", value)\n end", "def set_Description(value)\n set_input(\"Description\", value)\n end", "def set_Description(value)\n set_input(\"Description\", value)\n end", "def set_Description(value)\n set_input(\"Description\", value)\n end", "def set_Description(value)\n set_input(\"Description\", value)\n end", "def set_Description(value)\n set_input(\"Description\", value)\n end", "def set_Description(value)\n set_input(\"Description\", value)\n end", "def set_Description(value)\n set_input(\"Description\", value)\n end", "def set_Description(value)\n set_input(\"Description\", value)\n end", "def description(value)\n @ole.Description = value\n nil\n end", "def description(value)\n @ole.Description = value\n nil\n end", "def description=(description)\n if description.nil?\n fail ArgumentError, \"description cannot be nil\"\n end\n\n if description.to_s.length > 100\n fail ArgumentError, \"invalid value for 'description', the character length must be smaller than or equal to 100.\"\n end\n\n @description = description\n end", "def description=(description)\n\n if !description.nil? && description.to_s.length > 100\n fail ArgumentError, \"invalid value for 'description', the character length must be smaller than or equal to 100.\"\n end\n\n @description = description\n end", "def description=(description)\n if description.to_s.length > 255\n fail ArgumentError, 'invalid value for \"description\", the character length must be smaller than or equal to 255.'\n end\n\n @description = description\n end", "def description=(description)\n if description.nil?\n fail ArgumentError, 'description cannot be nil'\n end\n\n if description.to_s.length > 4096\n fail ArgumentError, 'invalid value for \"description\", the character length must be smaller than or equal to 4096.'\n end\n\n @description = description\n end", "def desc( description )\n @description = description\n end", "def description=(str)\n @description = str\n write_properties\n end", "def description=(description)\n end", "def description=(str)\n @description = str\n end", "def description=(description)\n if !description.nil? && description.to_s.length < 0\n fail ArgumentError, 'invalid value for \"description\", the character length must be great than or equal to 0.'\n end\n\n @description = description\n end", "def description=(description)\n if !description.nil? && description.to_s.length > 255\n fail ArgumentError, 'invalid value for \"description\", the character length must be smaller than or equal to 255.'\n end\n\n @description = description\n end", "def description=(description)\n if !description.nil? && description.to_s.length > 255\n fail ArgumentError, 'invalid value for \"description\", the character length must be smaller than or equal to 255.'\n end\n\n @description = description\n end", "def description=(description)\n if !description.nil? && description.to_s.length > 255\n fail ArgumentError, 'invalid value for \"description\", the character length must be smaller than or equal to 255.'\n end\n\n @description = description\n end", "def description=(description)\n if !description.nil? && description.to_s.length > 255\n fail ArgumentError, 'invalid value for \"description\", the character length must be smaller than or equal to 255.'\n end\n\n @description = description\n end", "def description=(desc)\n zombie_check\n @metadata.update(@name, desc: desc) \n end", "def description=(description)\n if !description.nil? && description.to_s.length > 512\n fail ArgumentError, 'invalid value for \"description\", the character length must be smaller than or equal to 512.'\n end\n\n @description = description\n end", "def description=(description)\n if !description.nil? && description.to_s.length > 1024\n fail ArgumentError, 'invalid value for \"description\", the character length must be smaller than or equal to 1024.'\n end\n\n @description = description\n end", "def description=(description)\n if !description.nil? && description.to_s.length > 1024\n fail ArgumentError, 'invalid value for \"description\", the character length must be smaller than or equal to 1024.'\n end\n\n @description = description\n end", "def description=(description)\n if !description.nil? && description.to_s.length > 2000\n fail ArgumentError, 'invalid value for \"description\", the character length must be smaller than or equal to 2000.'\n end\n\n @description = description\n end", "def setDescription(description)\n @description = description.to_s\n end", "def description(description)\n @controller.description = description\n end", "def set_description(v)\n Saklient::Util::validate_type(v, 'String')\n @m_description = v\n @n_description = true\n return @m_description\n end", "def set_description(v)\n Saklient::Util::validate_type(v, 'String')\n @m_description = v\n @n_description = true\n return @m_description\n end", "def description=(new_desc)\n @options[:connection].put(\"/namespaces/#{path}\", :payload => {:description => new_desc})\n @options[:description] = new_desc\n end", "def desc(description)\n last_options[:description] = description\n end", "def descriptions=( new_descs )\n\t\t@profile[:descriptions] = new_descs\n\tend", "def description(description)\n rules.last.description = description\n end", "def description=(str)\n @description = str.to_s\n end", "def description=(desc)\n modify_api_node(['storage-pools', resource[:name]], {'description' => desc})\n end", "def description(desc = nil)\n @description = desc if desc\n @description\n end", "def description=(desc)\n @link.Description = desc\n end", "def describe(description)\n @description = description\n end", "def add_description (description)\r\n fail \"Missing description.\" if (description == nil)\r\n self.description = description\r\n end", "def set_description(desc)\n @result.description = desc\n end", "def desc=(description)\n self.remove_children :desc\n if description\n self << (d = XMPPNode.new(:desc))\n d.namespace = self.namespace\n d << description\n end\n end", "def description=(value)\n start = Time.now\n debug \"Updating description on device group: \\\"#{resource[:full_path]}\\\"\"\n connection = self.class.get_connection(resource[:account])\n update_device_group(connection,\n resource[:full_path],\n value,\n resource[:properties],\n resource[:disable_alerting])\n debug \"Finished in #{(Time.now-start)*1000.0} ms\"\n end", "def description=(value)\n super(\"value\" => value)\n end", "def description=(value)\n super(\"value\" => value)\n end", "def description=(description)\n @description = description\n @config_doc.elements[\"/project/description\"].text = description\n @config = @config_doc.to_s\n update\n end", "def setDescription(description)\n\t\tRestClient.put(\"https://#{Cbthelper.username}:#{Cbthelper.authkey}@crossbrowsertesting.com/api/v3/selenium/#{@testId}\",\n \"action=set_description&description=#{description}\")\n\tend", "def description=(description)\n @description = description\n @config_doc.elements[\"/project/description\"].text = description\n @config = @config_doc.to_s\n update\n end", "def description= new_description\n @gapi.update! description: new_description\n end", "def update(description) # :nodoc:\n @description = description\n self\n end", "def update(description) # :nodoc:\n @description = description\n self\n end", "def description=(new_description)\n @description = new_description[0..15_000]\n end", "def description= new_description\n patch_gapi! description: new_description\n end", "def device_description=(value)\n @device_description = value\n end", "def desc(name, description)\n commands[name].description = description\n end", "def description(desc = NO_VALUE)\n if desc == NO_VALUE\n return @description\n else\n @description = desc\n end\n end", "def description(str)\n @description = str\n end", "def set_description(text)\n @description_label.set_text(text)\n if text\n @description_label.set_hidden(false)\n else\n @description_label.set_hidden(true)\n end\n end", "def set_description\n @description = Description.find(params[:id])\n end", "def description=(description)\n first_comment.body = description\n end", "def set_description\n\t\t@description = \"Sales by Rails\"\n\tend" ]

[ "0.77531284", "0.768677", "0.7603899", "0.75766456", "0.7522513", "0.74895763", "0.74895763", "0.7419362", "0.7419362", "0.7419362", "0.7419362", "0.7419362", "0.7419362", "0.7419362", "0.7419362", "0.7419362", "0.7419362", "0.7419362", "0.7419362", "0.7371698", "0.7371698", "0.73574764", "0.7312805", "0.7297728", "0.72897494", "0.72762203", "0.7273522", "0.72630787", "0.725435", "0.7242912", "0.7224591", "0.7224591", "0.7224591", "0.7224591", "0.7206615", "0.7186157", "0.71606433", "0.71606433", "0.71591806", "0.7131453", "0.70467234", "0.7018402", "0.7018402", "0.7008207", "0.70057726", "0.6963724", "0.69315064", "0.68958217", "0.6880298", "0.68624604", "0.68604624", "0.68205446", "0.6810177", "0.6809982", "0.67664057", "0.67421156", "0.67144084", "0.67144084", "0.66735715", "0.6667676", "0.66578066", "0.65974903", "0.65773433", "0.65773433", "0.65624976", "0.654527", "0.65129524", "0.6490641", "0.64597476", "0.64014626", "0.63783884", "0.6371915", "0.63710845", "0.63398004" ]

[ "def display_name\n @json['profile']['displayName'] rescue nil\n end", "def display_name\n display_name = @current_profile.display_name\n end", "def displayName\n dn = @params['dn']\n if dn\n dn.first\n else\n nil\n end\n end", "def displayname\n\t\treturn self[:displayName] ||\n\t\t\t[ self.givenName, self.sn ].compact.join( ' ' )\n\tend", "def name\n @gapi[\"displayName\"]\n end", "def display_name\n @display_name\n end", "def display_name\n @hash['display_name']\n end", "def display_name\n @attributes[:display_name]\n end", "def display_name\n return @display_name\n end", "def get_display_name\n @display_name ||= self.user.display_name\n end", "def display_name\n return @poco_data[:display_name] unless @poco_data == nil\n pick_first_node(@poco.xpath('./poco:displayName'))\n end", "def display_name\n name\n end", "def display_name\n return @display_name\n end", "def display_name\n @data['display_name']\n end", "def user_display_name\n @attributes[:user_display_name]\n end", "def name\n @display_name || @name\n end", "def display_name\n @name.capitalize.freeze\n end", "def display_name\n @name\n end", "def display_name\n name\n end", "def display_name\n name\n end", "def user_display_name\n return @user_display_name\n end", "def user_display_name\n return @user_display_name\n end", "def user_display_name\n return @user_display_name\n end", "def get_display_name\n return self.has_profile? ?\n self.profile.first_name + \" \" + self.profile.last_name :\n self.email\n end", "def display_name\n NAME\n end", "def display_name\n NAME\n end", "def display_name\n self.class.display_name_for(definition[\"name\"] || name)\n end", "def display_name\n return name.humanize if description.blank?\n I18n.t(description['name'], scope: 'element_names', default: description['name'].to_s.humanize)\n end", "def display_name\n @_context[:display_name]\n end", "def name\n if facebook_authentication && facebook_authentication.display_name\n return facebook_authentication.display_name\n end\n return username\n end", "def name\n @display_name || (@comments && @comments.last)\n end", "def display_name\n return attributes['display_name'] unless attributes['display_name'].blank?\n return \"#{attributes['first_name']} #{attributes['last_name']}\" unless attributes['first_name'].blank? && attributes['last_name'].blank?\n return '(unknown)'\n end", "def property_name\n property.display_name\n end", "def human_name\n I18n.t(@name, :scope => [:role], :default => @name.to_s.humanize)\n end", "def display_name\n @name.titlecase\n end", "def name\n \"#{@profile[:first_name]} #{@profile[:last_name]}\"\n end", "def display_resource(user)\n user.display_name\n end", "def display_name\n public_name\n end", "def name\n @json['profile']['name']['formatted'] rescue nil\n end", "def display_name\n\t\tself.name.titleize\n\tend", "def display_name\n name\n end", "def display_name\n name\n end", "def display_name\n name\n end", "def display_name\n self.display_name = self.profile.nickname? ? self.profile.nickname : self.username\n end", "def localized_payload_display_name(short = false); return (short ? I18n.t('certificate_display_name') : self.settings_name); end", "def display_name=(value)\n @display_name = value\n end", "def display_name=(value)\n @display_name = value\n end", "def display_name=(value)\n @display_name = value\n end", "def display_name=(value)\n @display_name = value\n end", "def display_name=(value)\n @display_name = value\n end", "def display_name=(value)\n @display_name = value\n end", "def display_name=(value)\n @display_name = value\n end", "def display_name=(value)\n @display_name = value\n end", "def display_name=(value)\n @display_name = value\n end", "def display_name=(value)\n @display_name = value\n end", "def display_name=(value)\n @display_name = value\n end", "def display_name=(value)\n @display_name = value\n end" ]

[ "0.73184764", "0.7052022", "0.6919979", "0.6858783", "0.6791015", "0.6768598", "0.6767899", "0.67322254", "0.67270195", "0.66979605", "0.6536299", "0.65226734", "0.6521708", "0.65132606", "0.64976954", "0.6497359", "0.6465976", "0.64159524", "0.6389303", "0.6389303", "0.63829714", "0.63829714", "0.63829714", "0.63660806", "0.62370896", "0.62370896", "0.6223684", "0.62142885", "0.62112063", "0.6167603", "0.6113075", "0.60405916", "0.6010642", "0.5990807", "0.5983964", "0.5983694", "0.5969537", "0.5947025", "0.5905624", "0.58921045", "0.58759415", "0.58759415", "0.58759415", "0.58672297", "0.58302975", "0.58038104", "0.58038104", "0.58038104", "0.58038104", "0.58038104", "0.58038104", "0.58038104", "0.58038104", "0.58038104", "0.58038104", "0.58038104", "0.58038104" ]

[ "def display_name=(value)\n @display_name = value\n end", "def display_name=(value)\n @display_name = value\n end", "def display_name=(name)\n @display_name ||= name\n end", "def name=(display_name)\r\n\t\t\t`#{BITS::BITSADMIN} /setdisplayname {#{@id}} \\\"#{display_name}\\\"`\r\n\t\tend", "def display_name(display_name)\n @display_name = display_name\n self\n end", "def set_displayname(path,display_name)\n result = $evm.instance_set_display_name(path, display_name)\n return result\n end", "def user_display_name=(value)\n @user_display_name = value\n end", "def user_display_name=(value)\n @user_display_name = value\n end", "def user_display_name=(value)\n @user_display_name = value\n end", "def display_name=(value)\n @children['display-name'][:value] = value\n end", "def name= display_name\n @grpc.display_name = display_name\n end", "def display_name=(display_name)\n if !display_name.nil? && display_name.to_s.length > 255\n fail ArgumentError, 'invalid value for \"display_name\", the character length must be smaller than or equal to 255.'\n end\n\n @display_name = display_name\n end", "def display_name=(display_name)\n if !display_name.nil? && display_name.to_s.length > 255\n fail ArgumentError, 'invalid value for \"display_name\", the character length must be smaller than or equal to 255.'\n end\n\n @display_name = display_name\n end", "def set_default_display_name\n self['display_name'] = gn if display_name.blank?\n end", "def record_display_name=(value)\n @children['record-display-name'][:value] = value\n end", "def display_name=(str)\n unless str.nil? || str.kind_of?(String)\n raise ArgumentError, 'not a string'\n end\n @display_name = str\n @display_name = nil if @display_name == ''\n end", "def device_display_name=(value)\n @device_display_name = value\n end", "def device_display_name=(value)\n @device_display_name = value\n end", "def display_name\n display_name = @current_profile.display_name\n end", "def app_display_name=(value)\n @app_display_name = value\n end", "def app_display_name=(value)\n @app_display_name = value\n end", "def app_display_name=(value)\n @app_display_name = value\n end", "def display_name\n self.display_name = self.profile.nickname? ? self.profile.nickname : self.username\n end", "def display_name\n @json['profile']['displayName'] rescue nil\n end", "def store_display_name\n self.stored_display_name = display_name\n end", "def set_name_for_space_on_display(space_number, name, display_id)\n TSApi.tsapi_setNameForSpaceOnDisplay(space_number, name, display_id)\n end", "def nickname=(name)\n write_attribute('preferred_name', name)\n end", "def display_name\n @name.capitalize.freeze\n end", "def setDisplayTitle(value)\n @fields['display_title'] = value\n self\n end", "def setDisplayTitle(value)\n @fields['display_title'] = value\n self\n end", "def setDisplayTitle(value)\n @fields['display_title'] = value\n self\n end", "def name=(s)\n pull unless @details\n @details.display_name = s\n super\n end", "def chat_display_name=(value)\n @chat_display_name = value\n end", "def get_display_name\n @display_name ||= self.user.display_name\n end", "def displayname\n\t\treturn self[:displayName] ||\n\t\t\t[ self.givenName, self.sn ].compact.join( ' ' )\n\tend", "def display_device_name=(value)\n @display_device_name = value\n end", "def custom_browser_display_name=(value)\n @custom_browser_display_name = value\n end", "def kiosk_app_display_name=(value)\n @kiosk_app_display_name = value\n end", "def display_name\n @display_name\n end", "def display_name\n override_name ||= name\n # default to name if the value of override_name is empty string\n override_name = name if override_name.strip == \"\"\n override_name\n end", "def name\n @display_name || @name\n end", "def update!(**args)\n @display_name = args[:display_name] if args.key?(:display_name)\n end", "def update!(**args)\n @display_name = args[:display_name] if args.key?(:display_name)\n end", "def update!(**args)\n @display_name = args[:display_name] if args.key?(:display_name)\n end", "def update!(**args)\n @display_name = args[:display_name] if args.key?(:display_name)\n end", "def update!(**args)\n @display_name = args[:display_name] if args.key?(:display_name)\n end", "def update!(**args)\n @display_name = args[:display_name] if args.key?(:display_name)\n end", "def update!(**args)\n @display_name = args[:display_name] if args.key?(:display_name)\n end", "def update!(**args)\n @display_name = args[:display_name] if args.key?(:display_name)\n end", "def update!(**args)\n @display_name = args[:display_name] if args.key?(:display_name)\n end", "def set_Name(value)\n set_input(\"Name\", value)\n end", "def set_Name(value)\n set_input(\"Name\", value)\n end", "def set_Name(value)\n set_input(\"Name\", value)\n end", "def set_Name(value)\n set_input(\"Name\", value)\n end", "def set_Name(value)\n set_input(\"Name\", value)\n end", "def set_Name(value)\n set_input(\"Name\", value)\n end", "def set_Name(value)\n set_input(\"Name\", value)\n end" ]

[ "0.65919954", "0.65173674", "0.6494671", "0.64806557", "0.64693636", "0.6284536", "0.62765074", "0.62765074", "0.62765074", "0.61743957", "0.602441", "0.59815884", "0.59815884", "0.59177375", "0.5908129", "0.5845729", "0.5726239", "0.5726239", "0.5698761", "0.5687587", "0.5687587", "0.5687587", "0.5666169", "0.5634377", "0.5600145", "0.55371237", "0.55224437", "0.54411894", "0.5419422", "0.5419422", "0.5419422", "0.53585017", "0.53359663", "0.5332136", "0.52969325", "0.5293871", "0.52710116", "0.5252197", "0.52470267", "0.5230188", "0.5180538", "0.51258546", "0.51254094", "0.51254094", "0.51254094", "0.51254094", "0.51254094", "0.51254094", "0.51254094", "0.51254094", "0.5094341", "0.5094341", "0.5094341", "0.5094341", "0.5094341", "0.5094341", "0.5094341" ]

[ "def expiration=(value)\n @expiration = value\n end", "def expiration_date_time\n return @expiration_date_time\n end", "def expiration_date_time\n return @expiration_date_time\n end", "def expiration_date_time\n return @expiration_date_time\n end", "def expiration_date_time\n return @expiration_date_time\n end", "def expiration_date_time\n return @expiration_date_time\n end", "def expiration_date_time\n return @expiration_date_time\n end", "def expiration_date\n end", "def expiration_date\n read_datetime_from_string('expiration_date')\n end", "def getExpiration; @expires; end", "def expiration_date\n hash[\"ExpirationDate\"]\n end", "def expiry\n @expiry\n end", "def expiration_time\n Time.at(0, expiration_date, :millisecond)\n end", "def expiration_date\n return unless Trebuchet.backend.respond_to?(:expiration_date)\n Trebuchet.backend.expiration_date(self.name)\n end", "def expires_at\n read_attribute(:expires_at).try(:to_f)\n end", "def expiration_date\n unless self['expiration_date']\n month_days = [nil,31,28,31,30,31,30,31,31,30,31,30,31]\n begin \n month_days[2] = 29 if Date.leap?(@year)\n self['expiration_date'] = Time.parse(\"#{@month}/#{month_days[@month]}/#{@year} 23:59:59\")\n rescue\n end\n end \n self['expiration_date']\n end", "def expiration\n unless @expiration\n conf = Grape::Jwt::Authentication.configuration\n return conf.rsa_public_key_expiration\n end\n @expiration\n end", "def expires_at\n @attributes[:expires_at]\n end", "def expires_at\n @attributes[:expires_at]\n end", "def expires_at\n @attributes[:expires_at]\n end", "def expiration_date\n \"#{expiration_month}/#{expiration_year}\"\n end", "def expiration\n @expiration ||= 60 * 60 * 24 * 30 # 30 days\n end", "def expires\r\n object.expires.strftime(\"%Y-%m-%d\")\r\n end", "def expires_at\n @expires_at\n end", "def expiration_behavior\n return @expiration_behavior\n end", "def expires_at\n get_expires_at\n end", "def expires_at\n @receipts.last.expires_date\n end", "def expires_at\n raise \"Override and return the metric's expiration time\"\n end", "def expiry_date\n ExpiryDate.new(@month, @year)\n end", "def expiration_date_time=(value)\n @expiration_date_time = value\n end", "def expiration_date_time=(value)\n @expiration_date_time = value\n end", "def expiration_date_time=(value)\n @expiration_date_time = value\n end", "def expiration_date_time=(value)\n @expiration_date_time = value\n end", "def expiration_date_time=(value)\n @expiration_date_time = value\n end", "def expiration_date_time=(value)\n @expiration_date_time = value\n end", "def expires_at\n exp = payload.exp\n return nil unless exp\n\n Time.zone.at(exp)\n end", "def expiration_date\n return nil unless success?\n @exdate ||= value_for_xpath('//domain:exDate') && Time.parse(value_for_xpath('//domain:exDate'))\n end", "def expires_at\n if max_age\n created_at + max_age\n else\n expires\n end\n end", "def fecha_expiration\n run_at = self.expiration_date\n end", "def expires_at\n @receipts.first.expires_date\n end", "def expires_date\n read_datetime_from_string('expires_date')\n end", "def certificate_expires_at\n attributes[:certificate_expires_at]\n end", "def expires_at\n Time.now.utc + self[:expires_in_seconds].to_i\n end", "def expires\n Time.parse(@options['expires']) if @options['expires']\n end", "def terms_expiration\n return @terms_expiration\n end", "def expires\n @expires ||= Time.parse(@data['expires'])\n end", "def expiry\n @expiry ||= 60 * 10\n end", "def expiry\n @expiry ||= 60 * 10\n end", "def get_cache_expiry\n memcache_key_object.expiry\n end", "def get_cache_expiry\n memcache_key_object.expiry\n end", "def get_cache_expiry\n memcache_key_object.expiry\n end", "def get_cache_expiry\n memcache_key_object.expiry\n end", "def get_cache_expiry\n memcache_key_object.expiry\n end", "def expires_in\n if @expires_at.nil? || @issued_at.nil?\n nil\n else\n (@expires_at - @issued_at).to_i\n end\n end", "def expires_in\n @value.expires_at.to_i - Time.now.utc.to_i\n end", "def set_expiration_date\n self.expiry_date = Date.today + 365.days\n end", "def expires_at\n Time.at(expiry_time_millis / 1000).utc.to_datetime\n end", "def expires_date=(value)\n @children['expires-date'][:value] = value\n end", "def expiration_behavior=(value)\n @expiration_behavior = value\n end", "def terms_expiration=(value)\n @terms_expiration = value\n end", "def expires_at=(value)\n self[:expires_at] = value\n end", "def expires_after\n @expires_after ||=\n if Flipper.enabled?(:in_progress_form_custom_expiration)\n custom_expires_after\n else\n default_expires_after\n end\n end", "def expiration(env = nil)\n DEFAULT_EXPIRATION\n end", "def expiry=(expiry)\n self.expires_on = Date.strptime(expiry, '%m/%y') +1.month\n end", "def expiration=(expiration_date)\n unless self.new_record?\n logger.warn(\"Attempted to set expiration on existing record: access_token id=#{self.id}. Update ignored\")\n return\n end\n super(expiration_date)\n\n self.expired = expiration_date.nil? || (expiration_date == '') || expiration_date.past?\n end", "def expire_time\n e_time = @token_manager.token_info[\"expiration\"]\n raise 'CloudTools::IAMAuth Unable to extract the retrieved expiration time.' if e_time.nil?\n raise \"CloudTools::IAMAuth Extracted expiry time #{e_time} is not an expected integer.\" unless e_time.kind_of?(Integer)\n\n e_time\n end", "def lockout_expires\n @attributes[:lockout_expires]\n end", "def expires_on\n case self.current_state\n when :active then (self.last_renewal_on.to_time + self.length_in_issues.months).to_date\n end\n end", "def expiry_time\n ((Time.now.tv_sec + 31556926) * 1000).to_i\n end", "def date_auth_expires=(value)\n @children['date-auth-expires'][:value] = value\n end", "def expiration_intent\n read_integer('expiration_intent')\n end", "def expiry_time\n response_hash[:hard_expiration_time]\n end", "def expires_on\n self.expires_on = Date.strptime(expiration_date,'%m/%Y')+1.month\n end", "def expires=(value)\n @expires = value\n @expires_in = nil\n end", "def expiry= new_expiry\n @expiry = new_expiry ? new_expiry.to_i : nil\n end", "def expires_in\n if expires_at\n expires_at - Time.now\n else\n nil\n end\n end", "def expiration(_env = nil)\n DEFAULT_EXPIRATION\n end", "def expires_at\n expires_in && created_at + expires_in.seconds\n end", "def expiry_days\n @expiry_days || DEFAULT_EXPIRY_DAYS\n end", "def expiration_date\n \"#{expiration_month.to_s.rjust(2, '0')} / #{expiration_year}\"\n end", "def expiry_time_millis\n @subscription_purchase.expiry_time_millis\n end", "def auth_expires=(value)\n @children['auth-expires'][:value] = value\n end", "def set_expires_at\n self[:expires_at] = case self.expiry_option \n when :in then Time.now.utc + (self.expiry_days || 3).days\n when :on then self[:expires_at]\n else self[:expires_at]\n end\n end", "def _on_expiration\n\t\t\tself.update_attribute(:expired_at, DateTime.now)\n\t\t\tassignments.each do |assignment|\n\t\t\t\tassignment.expire\n\t\t\tend\n\t\t\tresolver.on_expiration(self)\n\t\tend", "def membership_expire_date\n memberships_manager.most_recent_membership_last_day(self)\n # payment_expire_date(THIS_PAYMENT_TYPE)\n end", "def set_expires_at\n self[:expires_at] = case self.expiry_option \n when :in then Time.now.utc + (self.expiry_days || DEFAULT_EXPIRY_DAYS).days\n when :on then self[:expires_at]\n else self[:expires_at]\n end\n end", "def grace_period_expires_date\n read_datetime_from_string('grace_period_expires_date')\n end", "def expiration_get\n @conn.get('/api/v1/backup-expiration/')\n end", "def expiration_date=(date)\n if date.is_a?(Date)\n @expiration_date = date\n else\n # do we have a month/year in here? will accept 01/12 or 1/1 etc\n # must have 1 or 2 digit then forward slash then 1 or 2 digits\n if date =~ /\\A\\d{2}\\/\\d{1,2}\\z/\n # some fun building a date out of that\n date_split = date.split('/')\n month, year = date_split[0].to_i, date_split[1].to_i\n if month.between?(1, 12)\n year > 30 ? year += 1900 : year += 2000\n # now make sure we have the last day of the month\n @expiration_date = Date.new(year, month, -1)\n end\n # create a date from month year\n else\n if date =~ /\\A\\d\\/\\d{1,2}\\z/\n # tut tut tut\n @expiration_date = date\n else\n # try and parse the date\n begin\n @expiration_date = Date.parse(date)\n rescue ArgumentError\n # no date for you!\n @expiration_date = date\n end\n end\n end\n end\n end", "def expiration_timestamp\n @lock_expire if @lock_expire && owner_ident == @locked_owner_id\n end", "def is_expiration_required\n return @is_expiration_required\n end", "def expiry_option\n @expiry_option || :in\n end", "def get_Expires()\n \t return @outputs[\"Expires\"]\n \tend", "def get_Expires()\n \t return @outputs[\"Expires\"]\n \tend", "def get_Expires()\n \t return @outputs[\"Expires\"]\n \tend", "def get_Expires()\n \t return @outputs[\"Expires\"]\n \tend", "def work_profile_password_expiration_days=(value)\n @work_profile_password_expiration_days = value\n end", "def expires_in=(duration)\n self.expires_at = duration.from_now\n end", "def bundle_expiration\n @attributes[:bundle_expiration]\n end", "def default_expires=(value)\n @default_expires = value\n end" ]

[ "0.7475697", "0.74282974", "0.74282974", "0.74282974", "0.74282974", "0.74282974", "0.74282974", "0.7268263", "0.721422", "0.7117366", "0.7078226", "0.694817", "0.69333786", "0.6890828", "0.68806505", "0.6843641", "0.6827719", "0.6826211", "0.6826211", "0.6826211", "0.6823118", "0.6737891", "0.6717801", "0.6693077", "0.66574407", "0.6650173", "0.6631133", "0.6597708", "0.6594198", "0.65576035", "0.65576035", "0.65576035", "0.65576035", "0.65576035", "0.65576035", "0.65161204", "0.6515062", "0.6503259", "0.64883107", "0.6474838", "0.64396733", "0.634282", "0.6305394", "0.62432843", "0.6221983", "0.6202639", "0.6199314", "0.6199314", "0.619916", "0.619916", "0.619916", "0.619916", "0.619916", "0.6198445", "0.6197772", "0.61863667", "0.61746657", "0.61599356", "0.61529803", "0.6119129", "0.61135423", "0.6108646", "0.60928583", "0.60898286", "0.607606", "0.6048127", "0.6038322", "0.6028735", "0.60087246", "0.599169", "0.5981185", "0.5943481", "0.5933369", "0.59330577", "0.590386", "0.5896755", "0.58865106", "0.5882188", "0.5852676", "0.5849732", "0.5849402", "0.584833", "0.5804072", "0.5797357", "0.57940084", "0.57819724", "0.5777285", "0.5740754", "0.5726933", "0.5723181", "0.571342", "0.57118225", "0.56953937", "0.56953937", "0.56953937", "0.56953937", "0.56858015", "0.5681636", "0.5678481", "0.56763875" ]

[ "def expiration=(expiration_date)\n unless self.new_record?\n logger.warn(\"Attempted to set expiration on existing record: access_token id=#{self.id}. Update ignored\")\n return\n end\n super(expiration_date)\n\n self.expired = expiration_date.nil? || (expiration_date == '') || expiration_date.past?\n end", "def expiration_date_time=(value)\n @expiration_date_time = value\n end", "def expiration_date_time=(value)\n @expiration_date_time = value\n end", "def expiration_date_time=(value)\n @expiration_date_time = value\n end", "def expiration_date_time=(value)\n @expiration_date_time = value\n end", "def expiration_date_time=(value)\n @expiration_date_time = value\n end", "def expiration_date_time=(value)\n @expiration_date_time = value\n end", "def set_ExpirationDate(value)\n set_input(\"ExpirationDate\", value)\n end", "def expires_at=(value)\n self[:expires_at] = value\n end", "def expires=(value)\n @expires = value\n @expires_in = nil\n end", "def expiry=(expiry)\n self.expires_on = Date.strptime(expiry, '%m/%y') +1.month\n end", "def set_expiration_date\n self.expiry_date = Date.today + 365.days\n end", "def terms_expiration=(value)\n @terms_expiration = value\n end", "def expires_date=(value)\n @children['expires-date'][:value] = value\n end", "def set_expires_at\n self[:expires_at] = case self.expiry_option \n when :in then Time.now.utc + (self.expiry_days || 3).days\n when :on then self[:expires_at]\n else self[:expires_at]\n end\n end", "def set_expires_at\n self[:expires_at] = case self.expiry_option \n when :in then Time.now.utc + (self.expiry_days || DEFAULT_EXPIRY_DAYS).days\n when :on then self[:expires_at]\n else self[:expires_at]\n end\n end", "def set_expiration_date(expiration_date)\n return unless Trebuchet.backend.respond_to?(:set_expiration_date)\n Trebuchet.backend.set_expiration_date(self.name, expiration_date)\n end", "def expires_in=(duration)\n self.expires_at = duration.from_now\n end", "def expiration_behavior=(value)\n @expiration_behavior = value\n end", "def expires_at=(time)\n self.expiry_option = :on\n self[:expires_at] = time\n end", "def expiry= new_expiry\n @expiry = new_expiry ? new_expiry.to_i : nil\n end", "def date_auth_expires=(value)\n @children['date-auth-expires'][:value] = value\n end", "def auth_expires=(value)\n @children['auth-expires'][:value] = value\n end", "def expires_in=(value)\n @expires_in = value\n @expires = nil\n end", "def expires_at= new_expires_at\n @expires_at = normalize_timestamp new_expires_at\n end", "def _on_expiration\n\t\t\tself.update_attribute(:expired_at, DateTime.now)\n\t\t\tassignments.each do |assignment|\n\t\t\t\tassignment.expire\n\t\t\tend\n\t\t\tresolver.on_expiration(self)\n\t\tend", "def default_expires=(value)\n @default_expires = value\n end", "def set_expiring_date\n self.expires_at = self.created_at + 10.minutes\n self.save\n end", "def expiration_date\n unless self['expiration_date']\n month_days = [nil,31,28,31,30,31,30,31,31,30,31,30,31]\n begin \n month_days[2] = 29 if Date.leap?(@year)\n self['expiration_date'] = Time.parse(\"#{@month}/#{month_days[@month]}/#{@year} 23:59:59\")\n rescue\n end\n end \n self['expiration_date']\n end", "def expire\n self.expires_on = DateTime.current\n self\n end", "def expires_in= new_expires_in\n if !new_expires_in.nil?\n @issued_at = Time.now\n @expires_at = @issued_at + new_expires_in.to_i\n else\n @expires_at = nil\n @issued_at = nil\n end\n end", "def password_expiration_days=(value)\n @password_expiration_days = value\n end", "def password_expiration_days=(value)\n @password_expiration_days = value\n end", "def password_expiration_days=(value)\n @password_expiration_days = value\n end", "def password_expiration_days=(value)\n @password_expiration_days = value\n end", "def set_expire_at_date\n self[:expire_at] = valid_at + 1.year\n end", "def expiration_date=(date)\n if date.is_a?(Date)\n @expiration_date = date\n else\n # do we have a month/year in here? will accept 01/12 or 1/1 etc\n # must have 1 or 2 digit then forward slash then 1 or 2 digits\n if date =~ /\\A\\d{2}\\/\\d{1,2}\\z/\n # some fun building a date out of that\n date_split = date.split('/')\n month, year = date_split[0].to_i, date_split[1].to_i\n if month.between?(1, 12)\n year > 30 ? year += 1900 : year += 2000\n # now make sure we have the last day of the month\n @expiration_date = Date.new(year, month, -1)\n end\n # create a date from month year\n else\n if date =~ /\\A\\d\\/\\d{1,2}\\z/\n # tut tut tut\n @expiration_date = date\n else\n # try and parse the date\n begin\n @expiration_date = Date.parse(date)\n rescue ArgumentError\n # no date for you!\n @expiration_date = date\n end\n end\n end\n end\n end", "def expiration\n @expiration ||= 60 * 60 * 24 * 30 # 30 days\n end", "def event_expiry=(value)\n @event_expiry = coerce_time_milli(value)\n cleanup_expired_events\n end", "def is_expiration_required=(value)\n @is_expiration_required = value\n end", "def expiry_days=(value)\n @expiry_days = value.to_i\n end", "def work_profile_password_expiration_days=(value)\n @work_profile_password_expiration_days = value\n end", "def expiration_date\n end", "def expire\n update_attribute :expires_at, 1.minute.ago\n end", "def expire!\n self.expires_on = 24.hours.until(Date.today)\n self.save!\n end", "def expiration_set(days)\n payload = {\n 'expiration_days' => days\n }\n @conn.put('/api/v1/backup-expiration/', payload.to_json)\n end", "def expires_at=(val)\n super( parse_date(val) )\n rescue ArgumentError\n super (val)\n end", "def passcode_expiration_days=(value)\n @passcode_expiration_days = value\n end", "def set_policy_override_expiration(id, opts = {})\n data, _status_code, _headers = set_policy_override_expiration_with_http_info(id, opts)\n data\n end", "def expires_on\n self.expires_on = Date.strptime(expiration_date,'%m/%Y')+1.month\n end", "def set_expiration\n id = self.id\n self.delay(run_at: self.expiration, queue: id).set_archive(id)\n end", "def expires=( time )\n\t\tcase time\n\t\twhen NilClass\n\t\t\t@expires = nil\n\n\t\twhen Date\n\t\t\t@expires = Time.parse( time.ctime )\n\n\t\twhen Time\n\t\t\t@expires = time\n\n\t\telse\n\t\t\t@expires = parse_time_delta( time )\n\t\tend\n\tend", "def expire=(_); end", "def start_expiry_period!\n self.update_attribute(:access_token_expires_at, 2.days.from_now)\n end", "def update_expires_at\n self.expires_at = if attachable\n nil\n else\n 1.day.from_now\n end\n end", "def set_cookie_expiration(opts)\n opts = check_params(opts,[:expirations])\n super(opts)\n end", "def expiration_date\n read_datetime_from_string('expiration_date')\n end", "def expiry\n @expiry ||= 60 * 10\n end", "def expiry\n @expiry ||= 60 * 10\n end", "def expire!\n\t\tself.expires = Time.at(0)\n\tend", "def refresh_expiry\n self.expires_at = Time.now + ttl\n end", "def expires\n Time.parse(@options['expires']) if @options['expires']\n end", "def expiry_date\n ExpiryDate.new(@month, @year)\n end", "def expiration_date\n \"#{expiration_month}/#{expiration_year}\"\n end", "def default_expire=(value)\n raise ArgumentError, \"#{name}.default_expire value must be greater than 0\" unless (value = value.to_f) > 0\n @@default_expire = value\n end", "def set_expiry(expiry = nil)\n if expiry\n expires_in(expiry, public: true)\n return\n end\n unless Rails.env.development?\n expires_in(\n content_item.cache_control.max_age,\n public: !content_item.cache_control.private?,\n )\n end\n end", "def default_expiration= new_default_expiration\n patch_gapi! default_expiration: new_default_expiration\n end", "def expiry\n @expiry\n end", "def auth_expired=(value)\n @children['auth-expired'][:value] = value\n end", "def expiration\n return @expiration\n end", "def expiration_date_time\n return @expiration_date_time\n end", "def expiration_date_time\n return @expiration_date_time\n end", "def expiration_date_time\n return @expiration_date_time\n end", "def expiration_date_time\n return @expiration_date_time\n end", "def expiration_date_time\n return @expiration_date_time\n end", "def expiration_date_time\n return @expiration_date_time\n end", "def expiration(env = nil)\n DEFAULT_EXPIRATION\n end", "def expires\n @expires ||= Time.parse(@data['expires'])\n end", "def fecha_expiration\n run_at = self.expiration_date\n end", "def expiration_time\n Time.at(0, expiration_date, :millisecond)\n end", "def getExpiration; @expires; end", "def set(key, value, expires_in = 0)\n\n end", "def expiry_option=(value)\n @expiry_option = value.to_sym if value\n end", "def expiration(_env = nil)\n DEFAULT_EXPIRATION\n end", "def expires_after\n @expires_after ||=\n if Flipper.enabled?(:in_progress_form_custom_expiration)\n custom_expires_after\n else\n default_expires_after\n end\n end", "def expiration_date\n return unless Trebuchet.backend.respond_to?(:expiration_date)\n Trebuchet.backend.expiration_date(self.name)\n end", "def expire!(at = Time.now.utc)\n self.expired_at = at\n save(validate: false)\n end", "def set_expires_at_from_subaccounts\n self.expires_at = earliest_expiring_subaccount.try(:expires_at)\n end", "def set key, value, expiration\n backend.set key.to_s, serialize(value), expiration rescue nil\n end", "def expire(duration)\n headers['Cache-Control'] = \"max-age=#{duration.to_i}\"\n headers['Expires'] = duration.from_now.httpdate\n end", "def expire!\n headers['Age'] = max_age.to_s if fresh?\n end", "def password_expiration_set(handle:,\n password_expiry_duration:,\n password_history: 0,\n password_notification_period: 15,\n password_grace_period: 0)\n\n mo = AaaUserPasswordExpiration.new(parent_mo_or_dn: \"sys/user-ext\")\n args = {\n :password_expiry_duration => password_expiry_duration.to_s,\n :password_history => password_history.to_s,\n :password_notification_period => password_notification_period.to_s,\n :password_grace_period => password_grace_period.to_s\n }\n mo.set_prop_multiple(**args)\n handle.set_mo(mo: mo)\n return handle.query_dn(dn: mo.dn)\nend", "def expires\r\n object.expires.strftime(\"%Y-%m-%d\")\r\n end", "def expires_at\n @expires_at\n end", "def expire!\n update_config 'expired' => true\n end", "def start_expiry_period!\n self.update_attribute(:access_token_expires_at, Time.now + Devise.timeout_in)\n end", "def update_expiration_date(connection, new_date)\n xml = connection.make_xml('VulnerabilityExceptionUpdateExpirationDateRequest',\n { 'exception-id' => @id,\n 'expiration-date' => new_date })\n connection.execute(xml, '1.2').success\n end", "def update_expiration_date(connection, new_date)\n xml = connection.make_xml('VulnerabilityExceptionUpdateExpirationDateRequest',\n { 'exception-id' => @id,\n 'expiration-date' => new_date })\n connection.execute(xml, '1.2').success\n end", "def expiration\n unless @expiration\n conf = Grape::Jwt::Authentication.configuration\n return conf.rsa_public_key_expiration\n end\n @expiration\n end", "def expires_at\n if max_age\n created_at + max_age\n else\n expires\n end\n end" ]

[ "0.7450147", "0.7269094", "0.7269094", "0.7269094", "0.7269094", "0.7269094", "0.7269094", "0.71587944", "0.71504253", "0.7139623", "0.7079358", "0.70657253", "0.70072144", "0.6945491", "0.6865402", "0.6853953", "0.68402207", "0.6744601", "0.67100227", "0.66930974", "0.66850865", "0.65842456", "0.658262", "0.6530706", "0.65160316", "0.6505827", "0.6468093", "0.64647496", "0.6370266", "0.63002217", "0.62797093", "0.6246139", "0.6246139", "0.6246139", "0.6246139", "0.623053", "0.62220824", "0.6216563", "0.6204255", "0.6202341", "0.6160052", "0.61416095", "0.61385435", "0.61132646", "0.61119866", "0.6086101", "0.60734475", "0.6062457", "0.6046451", "0.60398567", "0.59764236", "0.59559554", "0.5925342", "0.5922044", "0.5919237", "0.59128666", "0.588541", "0.5879547", "0.5879547", "0.58496845", "0.5821106", "0.5799642", "0.57930255", "0.5779506", "0.57753694", "0.5768275", "0.5749867", "0.5740837", "0.57372725", "0.5730369", "0.5725373", "0.5725373", "0.5725373", "0.5725373", "0.5725373", "0.5725373", "0.5709943", "0.56790704", "0.5675754", "0.56737906", "0.5673515", "0.5654601", "0.5629578", "0.55872893", "0.5581852", "0.5571181", "0.5565611", "0.5561096", "0.55569196", "0.5550838", "0.55456585", "0.55315155", "0.55160916", "0.5505374", "0.54953945", "0.5482843", "0.5478187", "0.5478187", "0.5458782", "0.5439354" ]

[ "def deserialized\n @deserialized ||= @serializer.deserialize @serialized_object\n end", "def get_field_deserializers()\n return super.merge({\n \"detectionStatus\" => lambda {|n| @detection_status = n.get_enum_value(MicrosoftGraph::Models::SecurityDetectionStatus) },\n \"fileDetails\" => lambda {|n| @file_details = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::SecurityFileDetails.create_from_discriminator_value(pn) }) },\n \"mdeDeviceId\" => lambda {|n| @mde_device_id = n.get_string_value() },\n })\n end", "def serialized_attributes\n read_inheritable_attribute(\"attr_serialized\") || { }\n end", "def get_field_deserializers()\n return super.merge({\n \"displayName\" => lambda {|n| @display_name = n.get_string_value() },\n \"file\" => lambda {|n| @file = n.get_object_value(lambda {|pn| Base64url.create_from_discriminator_value(pn) }) },\n \"fileHash\" => lambda {|n| @file_hash = n.get_string_value() },\n \"version\" => lambda {|n| @version = n.get_string_value() },\n })\n end", "def get_field_deserializers()\n return super.merge({\n \"committedContentVersion\" => lambda {|n| @committed_content_version = n.get_string_value() },\n \"contentVersions\" => lambda {|n| @content_versions = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::MobileAppContent.create_from_discriminator_value(pn) }) },\n \"fileName\" => lambda {|n| @file_name = n.get_string_value() },\n \"size\" => lambda {|n| @size = n.get_object_value(lambda {|pn| Int64.create_from_discriminator_value(pn) }) },\n })\n end", "def get_field_deserializers()\n return {\n \"attribution\" => lambda {|n| @attribution = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::ImageInfo.create_from_discriminator_value(pn) }) },\n \"backgroundColor\" => lambda {|n| @background_color = n.get_string_value() },\n \"content\" => lambda {|n| @content = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::Json.create_from_discriminator_value(pn) }) },\n \"description\" => lambda {|n| @description = n.get_string_value() },\n \"displayText\" => lambda {|n| @display_text = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"detectionType\" => lambda {|n| @detection_type = n.get_string_value() },\n \"method\" => lambda {|n| @method = n.get_string_value() },\n \"name\" => lambda {|n| @name = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return super.merge({\n \"lastModifiedDateTime\" => lambda {|n| @last_modified_date_time = n.get_date_time_value() },\n \"resource\" => lambda {|n| @resource = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::Entity.create_from_discriminator_value(pn) }) },\n \"resourceReference\" => lambda {|n| @resource_reference = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::ResourceReference.create_from_discriminator_value(pn) }) },\n \"resourceVisualization\" => lambda {|n| @resource_visualization = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::ResourceVisualization.create_from_discriminator_value(pn) }) },\n \"weight\" => lambda {|n| @weight = n.get_object_value(lambda {|pn| Double.create_from_discriminator_value(pn) }) },\n })\n end", "def get_field_deserializers()\n return {\n \"isEnabled\" => lambda {|n| @is_enabled = n.get_boolean_value() },\n \"maxImageSize\" => lambda {|n| @max_image_size = n.get_number_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"timeout\" => lambda {|n| @timeout = n.get_duration_value() },\n }\n end", "def get_field_deserializers()\n return super.merge({\n \"contentData\" => lambda {|n| @content_data = n.get_string_value() },\n \"fileName\" => lambda {|n| @file_name = n.get_string_value() },\n })\n end", "def get_field_deserializers()\n return {\n \"applicationVersion\" => lambda {|n| @application_version = n.get_string_value() },\n \"headerValue\" => lambda {|n| @header_value = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"callEndSubReason\" => lambda {|n| @call_end_sub_reason = n.get_number_value() },\n \"callType\" => lambda {|n| @call_type = n.get_string_value() },\n \"calleeNumber\" => lambda {|n| @callee_number = n.get_string_value() },\n \"callerNumber\" => lambda {|n| @caller_number = n.get_string_value() },\n \"correlationId\" => lambda {|n| @correlation_id = n.get_string_value() },\n \"duration\" => lambda {|n| @duration = n.get_number_value() },\n \"endDateTime\" => lambda {|n| @end_date_time = n.get_date_time_value() },\n \"failureDateTime\" => lambda {|n| @failure_date_time = n.get_date_time_value() },\n \"finalSipCode\" => lambda {|n| @final_sip_code = n.get_number_value() },\n \"finalSipCodePhrase\" => lambda {|n| @final_sip_code_phrase = n.get_string_value() },\n \"id\" => lambda {|n| @id = n.get_string_value() },\n \"inviteDateTime\" => lambda {|n| @invite_date_time = n.get_date_time_value() },\n \"mediaBypassEnabled\" => lambda {|n| @media_bypass_enabled = n.get_boolean_value() },\n \"mediaPathLocation\" => lambda {|n| @media_path_location = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"signalingLocation\" => lambda {|n| @signaling_location = n.get_string_value() },\n \"startDateTime\" => lambda {|n| @start_date_time = n.get_date_time_value() },\n \"successfulCall\" => lambda {|n| @successful_call = n.get_boolean_value() },\n \"trunkFullyQualifiedDomainName\" => lambda {|n| @trunk_fully_qualified_domain_name = n.get_string_value() },\n \"userDisplayName\" => lambda {|n| @user_display_name = n.get_string_value() },\n \"userId\" => lambda {|n| @user_id = n.get_string_value() },\n \"userPrincipalName\" => lambda {|n| @user_principal_name = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return super.merge({\n \"displayName\" => lambda {|n| @display_name = n.get_string_value() },\n \"isCourseActivitySyncEnabled\" => lambda {|n| @is_course_activity_sync_enabled = n.get_boolean_value() },\n \"learningContents\" => lambda {|n| @learning_contents = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::LearningContent.create_from_discriminator_value(pn) }) },\n \"learningCourseActivities\" => lambda {|n| @learning_course_activities = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::LearningCourseActivity.create_from_discriminator_value(pn) }) },\n \"loginWebUrl\" => lambda {|n| @login_web_url = n.get_string_value() },\n \"longLogoWebUrlForDarkTheme\" => lambda {|n| @long_logo_web_url_for_dark_theme = n.get_string_value() },\n \"longLogoWebUrlForLightTheme\" => lambda {|n| @long_logo_web_url_for_light_theme = n.get_string_value() },\n \"squareLogoWebUrlForDarkTheme\" => lambda {|n| @square_logo_web_url_for_dark_theme = n.get_string_value() },\n \"squareLogoWebUrlForLightTheme\" => lambda {|n| @square_logo_web_url_for_light_theme = n.get_string_value() },\n })\n end", "def get_field_deserializers()\n return {\n \"itemId\" => lambda {|n| @item_id = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"title\" => lambda {|n| @title = n.get_string_value() },\n \"versionId\" => lambda {|n| @version_id = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"buildNumber\" => lambda {|n| @build_number = n.get_string_value() },\n \"bundleId\" => lambda {|n| @bundle_id = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"versionNumber\" => lambda {|n| @version_number = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return super.merge({\n \"parentNotebook\" => lambda {|n| @parent_notebook = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::Notebook.create_from_discriminator_value(pn) }) },\n \"parentSectionGroup\" => lambda {|n| @parent_section_group = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::SectionGroup.create_from_discriminator_value(pn) }) },\n \"sectionGroups\" => lambda {|n| @section_groups = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::SectionGroup.create_from_discriminator_value(pn) }) },\n \"sectionGroupsUrl\" => lambda {|n| @section_groups_url = n.get_string_value() },\n \"sections\" => lambda {|n| @sections = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::OnenoteSection.create_from_discriminator_value(pn) }) },\n \"sectionsUrl\" => lambda {|n| @sections_url = n.get_string_value() },\n })\n end", "def get_field_deserializers()\n return super.merge({\n \"appDisplayName\" => lambda {|n| @app_display_name = n.get_string_value() },\n \"dataType\" => lambda {|n| @data_type = n.get_string_value() },\n \"isSyncedFromOnPremises\" => lambda {|n| @is_synced_from_on_premises = n.get_boolean_value() },\n \"name\" => lambda {|n| @name = n.get_string_value() },\n \"targetObjects\" => lambda {|n| @target_objects = n.get_collection_of_primitive_values(String) },\n })\n end", "def get_field_deserializers()\n return super.merge({\n \"detectionStatus\" => lambda {|n| @detection_status = n.get_enum_value(MicrosoftGraph::Models::SecurityDetectionStatus) },\n \"imageFile\" => lambda {|n| @image_file = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::SecurityFileDetails.create_from_discriminator_value(pn) }) },\n \"mdeDeviceId\" => lambda {|n| @mde_device_id = n.get_string_value() },\n \"parentProcessCreationDateTime\" => lambda {|n| @parent_process_creation_date_time = n.get_date_time_value() },\n \"parentProcessId\" => lambda {|n| @parent_process_id = n.get_object_value(lambda {|pn| Int64.create_from_discriminator_value(pn) }) },\n \"parentProcessImageFile\" => lambda {|n| @parent_process_image_file = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::SecurityFileDetails.create_from_discriminator_value(pn) }) },\n \"processCommandLine\" => lambda {|n| @process_command_line = n.get_string_value() },\n \"processCreationDateTime\" => lambda {|n| @process_creation_date_time = n.get_date_time_value() },\n \"processId\" => lambda {|n| @process_id = n.get_object_value(lambda {|pn| Int64.create_from_discriminator_value(pn) }) },\n \"userAccount\" => lambda {|n| @user_account = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::SecurityUserAccount.create_from_discriminator_value(pn) }) },\n })\n end", "def get_field_deserializers()\n return super.merge({\n \"clientContext\" => lambda {|n| @client_context = n.get_string_value() },\n \"resultInfo\" => lambda {|n| @result_info = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::ResultInfo.create_from_discriminator_value(pn) }) },\n \"status\" => lambda {|n| @status = n.get_enum_value(MicrosoftGraph::Models::OperationStatus) },\n })\n end", "def get_field_deserializers()\n return super.merge({\n \"completedDateTime\" => lambda {|n| @completed_date_time = n.get_date_time_value() },\n \"progress\" => lambda {|n| @progress = n.get_object_value(lambda {|pn| Double.create_from_discriminator_value(pn) }) },\n \"status\" => lambda {|n| @status = n.get_enum_value(MicrosoftGraph::Models::DataPolicyOperationStatus) },\n \"storageLocation\" => lambda {|n| @storage_location = n.get_string_value() },\n \"submittedDateTime\" => lambda {|n| @submitted_date_time = n.get_date_time_value() },\n \"userId\" => lambda {|n| @user_id = n.get_string_value() },\n })\n end", "def get_field_deserializers()\n return {\n \"completedUnits\" => lambda {|n| @completed_units = n.get_object_value(lambda {|pn| Int64.create_from_discriminator_value(pn) }) },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"progressObservationDateTime\" => lambda {|n| @progress_observation_date_time = n.get_date_time_value() },\n \"totalUnits\" => lambda {|n| @total_units = n.get_object_value(lambda {|pn| Int64.create_from_discriminator_value(pn) }) },\n \"units\" => lambda {|n| @units = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"description\" => lambda {|n| @description = n.get_string_value() },\n \"details\" => lambda {|n| @details = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::DetailsInfo.create_from_discriminator_value(pn) }) },\n \"name\" => lambda {|n| @name = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"provisioningStepType\" => lambda {|n| @provisioning_step_type = n.get_enum_value(MicrosoftGraph::Models::ProvisioningStepType) },\n \"status\" => lambda {|n| @status = n.get_enum_value(MicrosoftGraph::Models::ProvisioningResult) },\n }\n end", "def get_field_deserializers()\n return super.merge({\n \"downloadUri\" => lambda {|n| @download_uri = n.get_string_value() },\n \"expirationDateTime\" => lambda {|n| @expiration_date_time = n.get_date_time_value() },\n \"fulfilledDateTime\" => lambda {|n| @fulfilled_date_time = n.get_date_time_value() },\n \"reviewHistoryPeriodEndDateTime\" => lambda {|n| @review_history_period_end_date_time = n.get_date_time_value() },\n \"reviewHistoryPeriodStartDateTime\" => lambda {|n| @review_history_period_start_date_time = n.get_date_time_value() },\n \"runDateTime\" => lambda {|n| @run_date_time = n.get_date_time_value() },\n \"status\" => lambda {|n| @status = n.get_enum_value(MicrosoftGraph::Models::AccessReviewHistoryStatus) },\n })\n end", "def get_field_deserializers()\n return super.merge({\n \"check32BitOn64System\" => lambda {|n| @check32_bit_on64_system = n.get_boolean_value() },\n \"comparisonValue\" => lambda {|n| @comparison_value = n.get_string_value() },\n \"fileOrFolderName\" => lambda {|n| @file_or_folder_name = n.get_string_value() },\n \"operationType\" => lambda {|n| @operation_type = n.get_enum_value(MicrosoftGraph::Models::Win32LobAppFileSystemOperationType) },\n \"operator\" => lambda {|n| @operator = n.get_enum_value(MicrosoftGraph::Models::Win32LobAppRuleOperator) },\n \"path\" => lambda {|n| @path = n.get_string_value() },\n })\n end", "def read_object\n if @version == 0\n return amf0_deserialize\n else\n return amf3_deserialize\n end\n end", "def get_field_deserializers()\n return {\n \"destinationFileName\" => lambda {|n| @destination_file_name = n.get_string_value() },\n \"sourceFile\" => lambda {|n| @source_file = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::ItemReference.create_from_discriminator_value(pn) }) },\n }\n end", "def get_field_deserializers()\n return {\n \"newText\" => lambda {|n| @new_text = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::Json.create_from_discriminator_value(pn) }) },\n \"numBytes\" => lambda {|n| @num_bytes = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::Json.create_from_discriminator_value(pn) }) },\n \"oldText\" => lambda {|n| @old_text = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::Json.create_from_discriminator_value(pn) }) },\n \"startNum\" => lambda {|n| @start_num = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::Json.create_from_discriminator_value(pn) }) },\n }\n end", "def get_field_deserializers()\n return super.merge({\n \"audioDeviceName\" => lambda {|n| @audio_device_name = n.get_string_value() },\n \"bookingType\" => lambda {|n| @booking_type = n.get_enum_value(MicrosoftGraph::Models::BookingType) },\n \"building\" => lambda {|n| @building = n.get_string_value() },\n \"capacity\" => lambda {|n| @capacity = n.get_number_value() },\n \"displayDeviceName\" => lambda {|n| @display_device_name = n.get_string_value() },\n \"emailAddress\" => lambda {|n| @email_address = n.get_string_value() },\n \"floorLabel\" => lambda {|n| @floor_label = n.get_string_value() },\n \"floorNumber\" => lambda {|n| @floor_number = n.get_number_value() },\n \"isWheelChairAccessible\" => lambda {|n| @is_wheel_chair_accessible = n.get_boolean_value() },\n \"label\" => lambda {|n| @label = n.get_string_value() },\n \"nickname\" => lambda {|n| @nickname = n.get_string_value() },\n \"tags\" => lambda {|n| @tags = n.get_collection_of_primitive_values(String) },\n \"videoDeviceName\" => lambda {|n| @video_device_name = n.get_string_value() },\n })\n end", "def get_field_deserializers()\n return {\n \"id\" => lambda {|n| @id = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"targetType\" => lambda {|n| @target_type = n.get_enum_value(MicrosoftGraph::Models::FeatureTargetType) },\n }\n end", "def get_field_deserializers()\n return super.merge({\n \"deviceCount\" => lambda {|n| @device_count = n.get_number_value() },\n \"displayName\" => lambda {|n| @display_name = n.get_string_value() },\n \"managedDevices\" => lambda {|n| @managed_devices = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::ManagedDevice.create_from_discriminator_value(pn) }) },\n \"platform\" => lambda {|n| @platform = n.get_enum_value(MicrosoftGraph::Models::DetectedAppPlatformType) },\n \"publisher\" => lambda {|n| @publisher = n.get_string_value() },\n \"sizeInByte\" => lambda {|n| @size_in_byte = n.get_object_value(lambda {|pn| Int64.create_from_discriminator_value(pn) }) },\n \"version\" => lambda {|n| @version = n.get_string_value() },\n })\n end", "def get_field_deserializers()\n return super.merge({\n \"activationUrl\" => lambda {|n| @activation_url = n.get_string_value() },\n \"activitySourceHost\" => lambda {|n| @activity_source_host = n.get_string_value() },\n \"appActivityId\" => lambda {|n| @app_activity_id = n.get_string_value() },\n \"appDisplayName\" => lambda {|n| @app_display_name = n.get_string_value() },\n \"contentInfo\" => lambda {|n| @content_info = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::Json.create_from_discriminator_value(pn) }) },\n \"contentUrl\" => lambda {|n| @content_url = n.get_string_value() },\n \"createdDateTime\" => lambda {|n| @created_date_time = n.get_date_time_value() },\n \"expirationDateTime\" => lambda {|n| @expiration_date_time = n.get_date_time_value() },\n \"fallbackUrl\" => lambda {|n| @fallback_url = n.get_string_value() },\n \"historyItems\" => lambda {|n| @history_items = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::ActivityHistoryItem.create_from_discriminator_value(pn) }) },\n \"lastModifiedDateTime\" => lambda {|n| @last_modified_date_time = n.get_date_time_value() },\n \"status\" => lambda {|n| @status = n.get_enum_value(MicrosoftGraph::Models::Status) },\n \"userTimezone\" => lambda {|n| @user_timezone = n.get_string_value() },\n \"visualElements\" => lambda {|n| @visual_elements = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::VisualInfo.create_from_discriminator_value(pn) }) },\n })\n end", "def get_field_deserializers()\n return super.merge({\n \"category\" => lambda {|n| @category = n.get_string_value() },\n \"firstSeenDateTime\" => lambda {|n| @first_seen_date_time = n.get_date_time_value() },\n \"host\" => lambda {|n| @host = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::SecurityHost.create_from_discriminator_value(pn) }) },\n \"lastSeenDateTime\" => lambda {|n| @last_seen_date_time = n.get_date_time_value() },\n \"name\" => lambda {|n| @name = n.get_string_value() },\n \"version\" => lambda {|n| @version = n.get_string_value() },\n })\n end", "def get_field_deserializers()\n return {\n \"deviceCount\" => lambda {|n| @device_count = n.get_number_value() },\n \"lastUpdateDateTime\" => lambda {|n| @last_update_date_time = n.get_date_time_value() },\n \"malwareIdentifier\" => lambda {|n| @malware_identifier = n.get_string_value() },\n \"name\" => lambda {|n| @name = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"lastActionDateTime\" => lambda {|n| @last_action_date_time = n.get_date_time_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"operation\" => lambda {|n| @operation = n.get_string_value() },\n \"status\" => lambda {|n| @status = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return super.merge({\n \"details\" => lambda {|n| @details = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::DetailsInfo.create_from_discriminator_value(pn) }) },\n \"identityType\" => lambda {|n| @identity_type = n.get_string_value() },\n })\n end", "def get_field_deserializers()\n return {\n \"dataLocationCode\" => lambda {|n| @data_location_code = n.get_string_value() },\n \"hostname\" => lambda {|n| @hostname = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"root\" => lambda {|n| @root = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::Root.create_from_discriminator_value(pn) }) },\n }\n end", "def get_field_deserializers()\n return {\n \"address\" => lambda {|n| @address = n.get_string_value() },\n \"itemId\" => lambda {|n| @item_id = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"relevanceScore\" => lambda {|n| @relevance_score = n.get_object_value(lambda {|pn| Double.create_from_discriminator_value(pn) }) },\n \"selectionLikelihood\" => lambda {|n| @selection_likelihood = n.get_enum_value(MicrosoftGraph::Models::SelectionLikelihoodInfo) },\n }\n end", "def get_field_deserializers()\n return {\n \"hashes\" => lambda {|n| @hashes = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::Hashes.create_from_discriminator_value(pn) }) },\n \"mimeType\" => lambda {|n| @mime_type = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"processingMetadata\" => lambda {|n| @processing_metadata = n.get_boolean_value() },\n }\n end", "def get_field_deserializers()\n return super.merge({\n \"configurationVersion\" => lambda {|n| @configuration_version = n.get_number_value() },\n \"errorCount\" => lambda {|n| @error_count = n.get_number_value() },\n \"failedCount\" => lambda {|n| @failed_count = n.get_number_value() },\n \"lastUpdateDateTime\" => lambda {|n| @last_update_date_time = n.get_date_time_value() },\n \"notApplicableCount\" => lambda {|n| @not_applicable_count = n.get_number_value() },\n \"pendingCount\" => lambda {|n| @pending_count = n.get_number_value() },\n \"successCount\" => lambda {|n| @success_count = n.get_number_value() },\n })\n end", "def get_field_deserializers()\n return super.merge({\n \"format\" => lambda {|n| @format = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::WorkbookChartDataLabelFormat.create_from_discriminator_value(pn) }) },\n \"position\" => lambda {|n| @position = n.get_string_value() },\n \"separator\" => lambda {|n| @separator = n.get_string_value() },\n \"showBubbleSize\" => lambda {|n| @show_bubble_size = n.get_boolean_value() },\n \"showCategoryName\" => lambda {|n| @show_category_name = n.get_boolean_value() },\n \"showLegendKey\" => lambda {|n| @show_legend_key = n.get_boolean_value() },\n \"showPercentage\" => lambda {|n| @show_percentage = n.get_boolean_value() },\n \"showSeriesName\" => lambda {|n| @show_series_name = n.get_boolean_value() },\n \"showValue\" => lambda {|n| @show_value = n.get_boolean_value() },\n })\n end", "def get_field_deserializers()\n return {\n \"errorDetails\" => lambda {|n| @error_details = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::GenericError.create_from_discriminator_value(pn) }) },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"sourceId\" => lambda {|n| @source_id = n.get_string_value() },\n \"targetId\" => lambda {|n| @target_id = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"contentSource\" => lambda {|n| @content_source = n.get_string_value() },\n \"hitId\" => lambda {|n| @hit_id = n.get_string_value() },\n \"isCollapsed\" => lambda {|n| @is_collapsed = n.get_boolean_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"rank\" => lambda {|n| @rank = n.get_number_value() },\n \"resource\" => lambda {|n| @resource = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::Entity.create_from_discriminator_value(pn) }) },\n \"resultTemplateId\" => lambda {|n| @result_template_id = n.get_string_value() },\n \"summary\" => lambda {|n| @summary = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return super.merge({\n \"assignedUserPrincipalName\" => lambda {|n| @assigned_user_principal_name = n.get_string_value() },\n \"groupTag\" => lambda {|n| @group_tag = n.get_string_value() },\n \"hardwareIdentifier\" => lambda {|n| @hardware_identifier = n.get_object_value(lambda {|pn| Base64url.create_from_discriminator_value(pn) }) },\n \"importId\" => lambda {|n| @import_id = n.get_string_value() },\n \"productKey\" => lambda {|n| @product_key = n.get_string_value() },\n \"serialNumber\" => lambda {|n| @serial_number = n.get_string_value() },\n \"state\" => lambda {|n| @state = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::ImportedWindowsAutopilotDeviceIdentityState.create_from_discriminator_value(pn) }) },\n })\n end", "def get_field_deserializers()\n return super.merge({\n \"audioRoutingGroups\" => lambda {|n| @audio_routing_groups = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::AudioRoutingGroup.create_from_discriminator_value(pn) }) },\n \"callChainId\" => lambda {|n| @call_chain_id = n.get_string_value() },\n \"callOptions\" => lambda {|n| @call_options = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::CallOptions.create_from_discriminator_value(pn) }) },\n \"callRoutes\" => lambda {|n| @call_routes = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::CallRoute.create_from_discriminator_value(pn) }) },\n \"callbackUri\" => lambda {|n| @callback_uri = n.get_string_value() },\n \"chatInfo\" => lambda {|n| @chat_info = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::ChatInfo.create_from_discriminator_value(pn) }) },\n \"contentSharingSessions\" => lambda {|n| @content_sharing_sessions = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::ContentSharingSession.create_from_discriminator_value(pn) }) },\n \"direction\" => lambda {|n| @direction = n.get_enum_value(MicrosoftGraph::Models::CallDirection) },\n \"incomingContext\" => lambda {|n| @incoming_context = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::IncomingContext.create_from_discriminator_value(pn) }) },\n \"mediaConfig\" => lambda {|n| @media_config = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::MediaConfig.create_from_discriminator_value(pn) }) },\n \"mediaState\" => lambda {|n| @media_state = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::CallMediaState.create_from_discriminator_value(pn) }) },\n \"meetingInfo\" => lambda {|n| @meeting_info = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::MeetingInfo.create_from_discriminator_value(pn) }) },\n \"myParticipantId\" => lambda {|n| @my_participant_id = n.get_string_value() },\n \"operations\" => lambda {|n| @operations = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::CommsOperation.create_from_discriminator_value(pn) }) },\n \"participants\" => lambda {|n| @participants = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::Participant.create_from_discriminator_value(pn) }) },\n \"requestedModalities\" => lambda {|n| @requested_modalities = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::Modality.create_from_discriminator_value(pn) }) },\n \"resultInfo\" => lambda {|n| @result_info = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::ResultInfo.create_from_discriminator_value(pn) }) },\n \"source\" => lambda {|n| @source = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::ParticipantInfo.create_from_discriminator_value(pn) }) },\n \"state\" => lambda {|n| @state = n.get_enum_value(MicrosoftGraph::Models::CallState) },\n \"subject\" => lambda {|n| @subject = n.get_string_value() },\n \"targets\" => lambda {|n| @targets = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::InvitationParticipantInfo.create_from_discriminator_value(pn) }) },\n \"tenantId\" => lambda {|n| @tenant_id = n.get_string_value() },\n \"toneInfo\" => lambda {|n| @tone_info = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::ToneInfo.create_from_discriminator_value(pn) }) },\n \"transcription\" => lambda {|n| @transcription = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::CallTranscriptionInfo.create_from_discriminator_value(pn) }) },\n })\n end", "def get_field_deserializers()\n return {\n \"externalId\" => lambda {|n| @external_id = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"teacherNumber\" => lambda {|n| @teacher_number = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"customKeyIdentifier\" => lambda {|n| @custom_key_identifier = n.get_object_value(lambda {|pn| Base64url.create_from_discriminator_value(pn) }) },\n \"displayName\" => lambda {|n| @display_name = n.get_string_value() },\n \"endDateTime\" => lambda {|n| @end_date_time = n.get_date_time_value() },\n \"key\" => lambda {|n| @key = n.get_object_value(lambda {|pn| Base64url.create_from_discriminator_value(pn) }) },\n \"keyId\" => lambda {|n| @key_id = n.get_guid_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"startDateTime\" => lambda {|n| @start_date_time = n.get_date_time_value() },\n \"thumbprint\" => lambda {|n| @thumbprint = n.get_string_value() },\n \"type\" => lambda {|n| @type = n.get_string_value() },\n \"usage\" => lambda {|n| @usage = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"allowMultipleLines\" => lambda {|n| @allow_multiple_lines = n.get_boolean_value() },\n \"appendChangesToExistingText\" => lambda {|n| @append_changes_to_existing_text = n.get_boolean_value() },\n \"linesForEditing\" => lambda {|n| @lines_for_editing = n.get_number_value() },\n \"maxLength\" => lambda {|n| @max_length = n.get_number_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"textType\" => lambda {|n| @text_type = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"assignCategories\" => lambda {|n| @assign_categories = n.get_collection_of_primitive_values(String) },\n \"copyToFolder\" => lambda {|n| @copy_to_folder = n.get_string_value() },\n \"delete\" => lambda {|n| @delete = n.get_boolean_value() },\n \"forwardAsAttachmentTo\" => lambda {|n| @forward_as_attachment_to = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::Recipient.create_from_discriminator_value(pn) }) },\n \"forwardTo\" => lambda {|n| @forward_to = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::Recipient.create_from_discriminator_value(pn) }) },\n \"markAsRead\" => lambda {|n| @mark_as_read = n.get_boolean_value() },\n \"markImportance\" => lambda {|n| @mark_importance = n.get_enum_value(MicrosoftGraph::Models::Importance) },\n \"moveToFolder\" => lambda {|n| @move_to_folder = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"permanentDelete\" => lambda {|n| @permanent_delete = n.get_boolean_value() },\n \"redirectTo\" => lambda {|n| @redirect_to = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::Recipient.create_from_discriminator_value(pn) }) },\n \"stopProcessingRules\" => lambda {|n| @stop_processing_rules = n.get_boolean_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"acceptMappedClaims\" => lambda {|n| @accept_mapped_claims = n.get_boolean_value() },\n \"knownClientApplications\" => lambda {|n| @known_client_applications = n.get_collection_of_primitive_values(UUIDTools::UUID) },\n \"oauth2PermissionScopes\" => lambda {|n| @oauth2_permission_scopes = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::PermissionScope.create_from_discriminator_value(pn) }) },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"preAuthorizedApplications\" => lambda {|n| @pre_authorized_applications = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::PreAuthorizedApplication.create_from_discriminator_value(pn) }) },\n \"requestedAccessTokenVersion\" => lambda {|n| @requested_access_token_version = n.get_number_value() },\n }\n end", "def get_field_deserializers()\n return super.merge({\n \"content\" => lambda {|n| @content = n.get_object_value(lambda {|pn| Base64url.create_from_discriminator_value(pn) }) },\n \"contentUrl\" => lambda {|n| @content_url = n.get_string_value() },\n \"createdByAppId\" => lambda {|n| @created_by_app_id = n.get_string_value() },\n \"lastModifiedDateTime\" => lambda {|n| @last_modified_date_time = n.get_date_time_value() },\n \"level\" => lambda {|n| @level = n.get_number_value() },\n \"links\" => lambda {|n| @links = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::PageLinks.create_from_discriminator_value(pn) }) },\n \"order\" => lambda {|n| @order = n.get_number_value() },\n \"parentNotebook\" => lambda {|n| @parent_notebook = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::Notebook.create_from_discriminator_value(pn) }) },\n \"parentSection\" => lambda {|n| @parent_section = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::OnenoteSection.create_from_discriminator_value(pn) }) },\n \"title\" => lambda {|n| @title = n.get_string_value() },\n \"userTags\" => lambda {|n| @user_tags = n.get_collection_of_primitive_values(String) },\n })\n end", "def get_field_deserializers()\n return {\n \"failedRuns\" => lambda {|n| @failed_runs = n.get_number_value() },\n \"failedTasks\" => lambda {|n| @failed_tasks = n.get_number_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"successfulRuns\" => lambda {|n| @successful_runs = n.get_number_value() },\n \"totalRuns\" => lambda {|n| @total_runs = n.get_number_value() },\n \"totalTasks\" => lambda {|n| @total_tasks = n.get_number_value() },\n \"totalUsers\" => lambda {|n| @total_users = n.get_number_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"description\" => lambda {|n| @description = n.get_string_value() },\n \"displayName\" => lambda {|n| @display_name = n.get_string_value() },\n \"id\" => lambda {|n| @id = n.get_guid_value() },\n \"isEnabled\" => lambda {|n| @is_enabled = n.get_boolean_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"value\" => lambda {|n| @value = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"recommendedActions\" => lambda {|n| @recommended_actions = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::RecommendedAction.create_from_discriminator_value(pn) }) },\n \"resolvedTargetsCount\" => lambda {|n| @resolved_targets_count = n.get_number_value() },\n \"simulationEventsContent\" => lambda {|n| @simulation_events_content = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::SimulationEventsContent.create_from_discriminator_value(pn) }) },\n \"trainingEventsContent\" => lambda {|n| @training_events_content = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::TrainingEventsContent.create_from_discriminator_value(pn) }) },\n }\n end", "def get_field_deserializers()\n return {\n \"customKeyIdentifier\" => lambda {|n| @custom_key_identifier = n.get_object_value(lambda {|pn| Base64url.create_from_discriminator_value(pn) }) },\n \"displayName\" => lambda {|n| @display_name = n.get_string_value() },\n \"endDateTime\" => lambda {|n| @end_date_time = n.get_date_time_value() },\n \"hint\" => lambda {|n| @hint = n.get_string_value() },\n \"keyId\" => lambda {|n| @key_id = n.get_guid_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"secretText\" => lambda {|n| @secret_text = n.get_string_value() },\n \"startDateTime\" => lambda {|n| @start_date_time = n.get_date_time_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"isRequired\" => lambda {|n| @is_required = n.get_boolean_value() },\n \"locations\" => lambda {|n| @locations = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::LocationConstraintItem.create_from_discriminator_value(pn) }) },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"suggestLocation\" => lambda {|n| @suggest_location = n.get_boolean_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"activityType\" => lambda {|n| @activity_type = n.get_string_value() },\n \"chainId\" => lambda {|n| @chain_id = n.get_object_value(lambda {|pn| Int64.create_from_discriminator_value(pn) }) },\n \"previewText\" => lambda {|n| @preview_text = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::ItemBody.create_from_discriminator_value(pn) }) },\n \"recipient\" => lambda {|n| @recipient = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::TeamworkNotificationRecipient.create_from_discriminator_value(pn) }) },\n \"templateParameters\" => lambda {|n| @template_parameters = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::KeyValuePair.create_from_discriminator_value(pn) }) },\n \"topic\" => lambda {|n| @topic = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::TeamworkActivityTopic.create_from_discriminator_value(pn) }) },\n }\n end", "def metadata\n self.class.metadata\n end", "def get_field_deserializers()\n return {\n \"activityIdentifier\" => lambda {|n| @activity_identifier = n.get_string_value() },\n \"countEntitled\" => lambda {|n| @count_entitled = n.get_object_value(lambda {|pn| Int64.create_from_discriminator_value(pn) }) },\n \"countEntitledForProvisioning\" => lambda {|n| @count_entitled_for_provisioning = n.get_object_value(lambda {|pn| Int64.create_from_discriminator_value(pn) }) },\n \"countEscrowed\" => lambda {|n| @count_escrowed = n.get_object_value(lambda {|pn| Int64.create_from_discriminator_value(pn) }) },\n \"countEscrowedRaw\" => lambda {|n| @count_escrowed_raw = n.get_object_value(lambda {|pn| Int64.create_from_discriminator_value(pn) }) },\n \"countExported\" => lambda {|n| @count_exported = n.get_object_value(lambda {|pn| Int64.create_from_discriminator_value(pn) }) },\n \"countExports\" => lambda {|n| @count_exports = n.get_object_value(lambda {|pn| Int64.create_from_discriminator_value(pn) }) },\n \"countImported\" => lambda {|n| @count_imported = n.get_object_value(lambda {|pn| Int64.create_from_discriminator_value(pn) }) },\n \"countImportedDeltas\" => lambda {|n| @count_imported_deltas = n.get_object_value(lambda {|pn| Int64.create_from_discriminator_value(pn) }) },\n \"countImportedReferenceDeltas\" => lambda {|n| @count_imported_reference_deltas = n.get_object_value(lambda {|pn| Int64.create_from_discriminator_value(pn) }) },\n \"error\" => lambda {|n| @error = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::SynchronizationError.create_from_discriminator_value(pn) }) },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"state\" => lambda {|n| @state = n.get_enum_value(MicrosoftGraph::Models::SynchronizationTaskExecutionResult) },\n \"timeBegan\" => lambda {|n| @time_began = n.get_date_time_value() },\n \"timeEnded\" => lambda {|n| @time_ended = n.get_date_time_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"content\" => lambda {|n| @content = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"transportKey\" => lambda {|n| @transport_key = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return super.merge({\n \"activeDeviceCount\" => lambda {|n| @active_device_count = n.get_number_value() },\n \"deviceManufacturer\" => lambda {|n| @device_manufacturer = n.get_string_value() },\n \"deviceModel\" => lambda {|n| @device_model = n.get_string_value() },\n \"healthStatus\" => lambda {|n| @health_status = n.get_enum_value(MicrosoftGraph::Models::UserExperienceAnalyticsHealthState) },\n \"meanTimeToFailureInMinutes\" => lambda {|n| @mean_time_to_failure_in_minutes = n.get_number_value() },\n \"modelAppHealthScore\" => lambda {|n| @model_app_health_score = n.get_object_value(lambda {|pn| Double.create_from_discriminator_value(pn) }) },\n })\n end", "def get_field_deserializers()\n return {\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"resourceAccess\" => lambda {|n| @resource_access = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::ResourceAccess.create_from_discriminator_value(pn) }) },\n \"resourceAppId\" => lambda {|n| @resource_app_id = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return super.merge({\n \"createdDateTime\" => lambda {|n| @created_date_time = n.get_date_time_value() },\n \"deviceId\" => lambda {|n| @device_id = n.get_string_value() },\n \"key\" => lambda {|n| @key = n.get_string_value() },\n \"volumeType\" => lambda {|n| @volume_type = n.get_enum_value(MicrosoftGraph::Models::VolumeType) },\n })\n end", "def get_field_deserializers()\n return {\n \"anchor\" => lambda {|n| @anchor = n.get_boolean_value() },\n \"apiExpressions\" => lambda {|n| @api_expressions = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::StringKeyStringValuePair.create_from_discriminator_value(pn) }) },\n \"caseExact\" => lambda {|n| @case_exact = n.get_boolean_value() },\n \"defaultValue\" => lambda {|n| @default_value = n.get_string_value() },\n \"flowNullValues\" => lambda {|n| @flow_null_values = n.get_boolean_value() },\n \"metadata\" => lambda {|n| @metadata = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::AttributeDefinitionMetadataEntry.create_from_discriminator_value(pn) }) },\n \"multivalued\" => lambda {|n| @multivalued = n.get_boolean_value() },\n \"mutability\" => lambda {|n| @mutability = n.get_enum_value(MicrosoftGraph::Models::Mutability) },\n \"name\" => lambda {|n| @name = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"referencedObjects\" => lambda {|n| @referenced_objects = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::ReferencedObject.create_from_discriminator_value(pn) }) },\n \"required\" => lambda {|n| @required = n.get_boolean_value() },\n \"type\" => lambda {|n| @type = n.get_enum_value(MicrosoftGraph::Models::AttributeType) },\n }\n end", "def get_field_deserializers()\n return super.merge({\n \"content\" => lambda {|n| @content = n.get_object_value(lambda {|pn| Base64url.create_from_discriminator_value(pn) }) },\n \"expirationDateTime\" => lambda {|n| @expiration_date_time = n.get_date_time_value() },\n \"nextExpectedRanges\" => lambda {|n| @next_expected_ranges = n.get_collection_of_primitive_values(String) },\n })\n end", "def get_field_deserializers()\n return super.merge({\n \"content\" => lambda {|n| @content = n.get_object_value(lambda {|pn| Base64url.create_from_discriminator_value(pn) }) },\n \"size\" => lambda {|n| @size = n.get_object_value(lambda {|pn| Int64.create_from_discriminator_value(pn) }) },\n })\n end", "def get_field_deserializers()\n return super.merge({\n \"averageBlueScreens\" => lambda {|n| @average_blue_screens = n.get_object_value(lambda {|pn| Double.create_from_discriminator_value(pn) }) },\n \"averageRestarts\" => lambda {|n| @average_restarts = n.get_object_value(lambda {|pn| Double.create_from_discriminator_value(pn) }) },\n \"blueScreenCount\" => lambda {|n| @blue_screen_count = n.get_number_value() },\n \"bootScore\" => lambda {|n| @boot_score = n.get_number_value() },\n \"coreBootTimeInMs\" => lambda {|n| @core_boot_time_in_ms = n.get_number_value() },\n \"coreLoginTimeInMs\" => lambda {|n| @core_login_time_in_ms = n.get_number_value() },\n \"deviceCount\" => lambda {|n| @device_count = n.get_object_value(lambda {|pn| Int64.create_from_discriminator_value(pn) }) },\n \"deviceName\" => lambda {|n| @device_name = n.get_string_value() },\n \"diskType\" => lambda {|n| @disk_type = n.get_enum_value(MicrosoftGraph::Models::DiskType) },\n \"groupPolicyBootTimeInMs\" => lambda {|n| @group_policy_boot_time_in_ms = n.get_number_value() },\n \"groupPolicyLoginTimeInMs\" => lambda {|n| @group_policy_login_time_in_ms = n.get_number_value() },\n \"healthStatus\" => lambda {|n| @health_status = n.get_enum_value(MicrosoftGraph::Models::UserExperienceAnalyticsHealthState) },\n \"loginScore\" => lambda {|n| @login_score = n.get_number_value() },\n \"manufacturer\" => lambda {|n| @manufacturer = n.get_string_value() },\n \"model\" => lambda {|n| @model = n.get_string_value() },\n \"modelStartupPerformanceScore\" => lambda {|n| @model_startup_performance_score = n.get_object_value(lambda {|pn| Double.create_from_discriminator_value(pn) }) },\n \"operatingSystemVersion\" => lambda {|n| @operating_system_version = n.get_string_value() },\n \"responsiveDesktopTimeInMs\" => lambda {|n| @responsive_desktop_time_in_ms = n.get_number_value() },\n \"restartCount\" => lambda {|n| @restart_count = n.get_number_value() },\n \"startupPerformanceScore\" => lambda {|n| @startup_performance_score = n.get_object_value(lambda {|pn| Double.create_from_discriminator_value(pn) }) },\n })\n end", "def get_field_deserializers()\n return {\n \"connectingIP\" => lambda {|n| @connecting_i_p = n.get_string_value() },\n \"deliveryAction\" => lambda {|n| @delivery_action = n.get_string_value() },\n \"deliveryLocation\" => lambda {|n| @delivery_location = n.get_string_value() },\n \"directionality\" => lambda {|n| @directionality = n.get_string_value() },\n \"internetMessageId\" => lambda {|n| @internet_message_id = n.get_string_value() },\n \"messageFingerprint\" => lambda {|n| @message_fingerprint = n.get_string_value() },\n \"messageReceivedDateTime\" => lambda {|n| @message_received_date_time = n.get_date_time_value() },\n \"messageSubject\" => lambda {|n| @message_subject = n.get_string_value() },\n \"networkMessageId\" => lambda {|n| @network_message_id = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"application\" => lambda {|n| @application = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::Identity.create_from_discriminator_value(pn) }) },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"preventsDownload\" => lambda {|n| @prevents_download = n.get_boolean_value() },\n \"scope\" => lambda {|n| @scope = n.get_string_value() },\n \"type\" => lambda {|n| @type = n.get_string_value() },\n \"webHtml\" => lambda {|n| @web_html = n.get_string_value() },\n \"webUrl\" => lambda {|n| @web_url = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"id\" => lambda {|n| @id = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"expirationDateTime\" => lambda {|n| @expiration_date_time = n.get_date_time_value() },\n \"nextExpectedRanges\" => lambda {|n| @next_expected_ranges = n.get_collection_of_primitive_values(String) },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"uploadUrl\" => lambda {|n| @upload_url = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return super.merge({\n \"appCrashCount\" => lambda {|n| @app_crash_count = n.get_number_value() },\n \"appDisplayName\" => lambda {|n| @app_display_name = n.get_string_value() },\n \"appName\" => lambda {|n| @app_name = n.get_string_value() },\n \"appPublisher\" => lambda {|n| @app_publisher = n.get_string_value() },\n \"appVersion\" => lambda {|n| @app_version = n.get_string_value() },\n \"deviceCountWithCrashes\" => lambda {|n| @device_count_with_crashes = n.get_number_value() },\n \"isLatestUsedVersion\" => lambda {|n| @is_latest_used_version = n.get_boolean_value() },\n \"isMostUsedVersion\" => lambda {|n| @is_most_used_version = n.get_boolean_value() },\n })\n end", "def get_field_deserializers()\n return {\n \"attributeMappings\" => lambda {|n| @attribute_mappings = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::AttributeMapping.create_from_discriminator_value(pn) }) },\n \"enabled\" => lambda {|n| @enabled = n.get_boolean_value() },\n \"flowTypes\" => lambda {|n| @flow_types = n.get_enum_value(MicrosoftGraph::Models::ObjectFlowTypes) },\n \"metadata\" => lambda {|n| @metadata = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::ObjectMappingMetadataEntry.create_from_discriminator_value(pn) }) },\n \"name\" => lambda {|n| @name = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"scope\" => lambda {|n| @scope = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::Filter.create_from_discriminator_value(pn) }) },\n \"sourceObjectName\" => lambda {|n| @source_object_name = n.get_string_value() },\n \"targetObjectName\" => lambda {|n| @target_object_name = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return super.merge({\n \"isDefault\" => lambda {|n| @is_default = n.get_boolean_value() },\n \"links\" => lambda {|n| @links = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::SectionLinks.create_from_discriminator_value(pn) }) },\n \"pages\" => lambda {|n| @pages = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::OnenotePage.create_from_discriminator_value(pn) }) },\n \"pagesUrl\" => lambda {|n| @pages_url = n.get_string_value() },\n \"parentNotebook\" => lambda {|n| @parent_notebook = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::Notebook.create_from_discriminator_value(pn) }) },\n \"parentSectionGroup\" => lambda {|n| @parent_section_group = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::SectionGroup.create_from_discriminator_value(pn) }) },\n })\n end", "def get_field_deserializers()\n return super.merge({\n \"appCrashCount\" => lambda {|n| @app_crash_count = n.get_number_value() },\n \"appHangCount\" => lambda {|n| @app_hang_count = n.get_number_value() },\n \"crashedAppCount\" => lambda {|n| @crashed_app_count = n.get_number_value() },\n \"deviceAppHealthScore\" => lambda {|n| @device_app_health_score = n.get_object_value(lambda {|pn| Double.create_from_discriminator_value(pn) }) },\n \"deviceDisplayName\" => lambda {|n| @device_display_name = n.get_string_value() },\n \"deviceId\" => lambda {|n| @device_id = n.get_string_value() },\n \"deviceManufacturer\" => lambda {|n| @device_manufacturer = n.get_string_value() },\n \"deviceModel\" => lambda {|n| @device_model = n.get_string_value() },\n \"healthStatus\" => lambda {|n| @health_status = n.get_enum_value(MicrosoftGraph::Models::UserExperienceAnalyticsHealthState) },\n \"meanTimeToFailureInMinutes\" => lambda {|n| @mean_time_to_failure_in_minutes = n.get_number_value() },\n \"processedDateTime\" => lambda {|n| @processed_date_time = n.get_date_time_value() },\n })\n end", "def get_field_deserializers()\n return {\n \"messageId\" => lambda {|n| @message_id = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"replyChainMessageId\" => lambda {|n| @reply_chain_message_id = n.get_string_value() },\n \"threadId\" => lambda {|n| @thread_id = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return super.merge({\n \"createdDateTime\" => lambda {|n| @created_date_time = n.get_date_time_value() },\n \"isUsable\" => lambda {|n| @is_usable = n.get_boolean_value() },\n \"isUsableOnce\" => lambda {|n| @is_usable_once = n.get_boolean_value() },\n \"lifetimeInMinutes\" => lambda {|n| @lifetime_in_minutes = n.get_number_value() },\n \"methodUsabilityReason\" => lambda {|n| @method_usability_reason = n.get_string_value() },\n \"startDateTime\" => lambda {|n| @start_date_time = n.get_date_time_value() },\n \"temporaryAccessPass\" => lambda {|n| @temporary_access_pass = n.get_string_value() },\n })\n end", "def get_field_deserializers()\n return super.merge({\n \"description\" => lambda {|n| @description = n.get_string_value() },\n \"owner\" => lambda {|n| @owner = n.get_string_value() },\n \"properties\" => lambda {|n| @properties = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::ExtensionSchemaProperty.create_from_discriminator_value(pn) }) },\n \"status\" => lambda {|n| @status = n.get_string_value() },\n \"targetTypes\" => lambda {|n| @target_types = n.get_collection_of_primitive_values(String) },\n })\n end", "def get_field_deserializers()\n return {\n \"bargeInAllowed\" => lambda {|n| @barge_in_allowed = n.get_boolean_value() },\n \"clientContext\" => lambda {|n| @client_context = n.get_string_value() },\n \"initialSilenceTimeoutInSeconds\" => lambda {|n| @initial_silence_timeout_in_seconds = n.get_number_value() },\n \"maxRecordDurationInSeconds\" => lambda {|n| @max_record_duration_in_seconds = n.get_number_value() },\n \"maxSilenceTimeoutInSeconds\" => lambda {|n| @max_silence_timeout_in_seconds = n.get_number_value() },\n \"playBeep\" => lambda {|n| @play_beep = n.get_boolean_value() },\n \"prompts\" => lambda {|n| @prompts = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::Prompt.create_from_discriminator_value(pn) }) },\n \"stopTones\" => lambda {|n| @stop_tones = n.get_collection_of_primitive_values(String) },\n }\n end", "def get_field_deserializers()\n return {\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"response\" => lambda {|n| @response = n.get_enum_value(MicrosoftGraph::Models::ResponseType) },\n \"time\" => lambda {|n| @time = n.get_date_time_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"driveId\" => lambda {|n| @drive_id = n.get_string_value() },\n \"driveType\" => lambda {|n| @drive_type = n.get_string_value() },\n \"id\" => lambda {|n| @id = n.get_string_value() },\n \"name\" => lambda {|n| @name = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"path\" => lambda {|n| @path = n.get_string_value() },\n \"shareId\" => lambda {|n| @share_id = n.get_string_value() },\n \"sharepointIds\" => lambda {|n| @sharepoint_ids = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::SharepointIds.create_from_discriminator_value(pn) }) },\n \"siteId\" => lambda {|n| @site_id = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return super.merge({\n \"appCrashCount\" => lambda {|n| @app_crash_count = n.get_number_value() },\n \"appDisplayName\" => lambda {|n| @app_display_name = n.get_string_value() },\n \"appName\" => lambda {|n| @app_name = n.get_string_value() },\n \"appPublisher\" => lambda {|n| @app_publisher = n.get_string_value() },\n \"appVersion\" => lambda {|n| @app_version = n.get_string_value() },\n \"deviceDisplayName\" => lambda {|n| @device_display_name = n.get_string_value() },\n \"deviceId\" => lambda {|n| @device_id = n.get_string_value() },\n \"processedDateTime\" => lambda {|n| @processed_date_time = n.get_date_time_value() },\n })\n end", "def get_field_deserializers()\n return {\n \"activeMalwareDetectionCount\" => lambda {|n| @active_malware_detection_count = n.get_number_value() },\n \"category\" => lambda {|n| @category = n.get_enum_value(MicrosoftGraph::Models::WindowsMalwareCategory) },\n \"deviceCount\" => lambda {|n| @device_count = n.get_number_value() },\n \"distinctActiveMalwareCount\" => lambda {|n| @distinct_active_malware_count = n.get_number_value() },\n \"lastUpdateDateTime\" => lambda {|n| @last_update_date_time = n.get_date_time_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return super.merge({\n \"content\" => lambda {|n| @content = n.get_object_value(lambda {|pn| Base64url.create_from_discriminator_value(pn) }) },\n \"expirationDateTime\" => lambda {|n| @expiration_date_time = n.get_date_time_value() },\n \"issuer\" => lambda {|n| @issuer = n.get_string_value() },\n \"issuerName\" => lambda {|n| @issuer_name = n.get_string_value() },\n \"status\" => lambda {|n| @status = n.get_enum_value(MicrosoftGraph::Models::CertificateStatus) },\n \"subject\" => lambda {|n| @subject = n.get_string_value() },\n \"subjectName\" => lambda {|n| @subject_name = n.get_string_value() },\n \"uploadDateTime\" => lambda {|n| @upload_date_time = n.get_date_time_value() },\n })\n end", "def get_field_deserializers()\n return {\n \"appId\" => lambda {|n| @app_id = n.get_string_value() },\n \"displayName\" => lambda {|n| @display_name = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"servicePrincipalId\" => lambda {|n| @service_principal_id = n.get_string_value() },\n \"servicePrincipalName\" => lambda {|n| @service_principal_name = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"riskDetections\" => lambda {|n| @risk_detections = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::RiskDetection.create_from_discriminator_value(pn) }) },\n \"riskyServicePrincipals\" => lambda {|n| @risky_service_principals = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::RiskyServicePrincipal.create_from_discriminator_value(pn) }) },\n \"riskyUsers\" => lambda {|n| @risky_users = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::RiskyUser.create_from_discriminator_value(pn) }) },\n \"servicePrincipalRiskDetections\" => lambda {|n| @service_principal_risk_detections = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::ServicePrincipalRiskDetection.create_from_discriminator_value(pn) }) },\n }\n end", "def get_field_deserializers()\n return super.merge({\n })\n end", "def get_field_deserializers()\n return super.merge({\n })\n end", "def get_field_deserializers()\n return super.merge({\n })\n end", "def get_field_deserializers()\n return {\n \"failedTasks\" => lambda {|n| @failed_tasks = n.get_number_value() },\n \"failedUsers\" => lambda {|n| @failed_users = n.get_number_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"successfulUsers\" => lambda {|n| @successful_users = n.get_number_value() },\n \"totalTasks\" => lambda {|n| @total_tasks = n.get_number_value() },\n \"totalUsers\" => lambda {|n| @total_users = n.get_number_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"durationInSeconds\" => lambda {|n| @duration_in_seconds = n.get_number_value() },\n \"joinDateTime\" => lambda {|n| @join_date_time = n.get_date_time_value() },\n \"leaveDateTime\" => lambda {|n| @leave_date_time = n.get_date_time_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return super.merge({\n \"applicationId\" => lambda {|n| @application_id = n.get_string_value() },\n \"changeType\" => lambda {|n| @change_type = n.get_string_value() },\n \"clientState\" => lambda {|n| @client_state = n.get_string_value() },\n \"creatorId\" => lambda {|n| @creator_id = n.get_string_value() },\n \"encryptionCertificate\" => lambda {|n| @encryption_certificate = n.get_string_value() },\n \"encryptionCertificateId\" => lambda {|n| @encryption_certificate_id = n.get_string_value() },\n \"expirationDateTime\" => lambda {|n| @expiration_date_time = n.get_date_time_value() },\n \"includeResourceData\" => lambda {|n| @include_resource_data = n.get_boolean_value() },\n \"latestSupportedTlsVersion\" => lambda {|n| @latest_supported_tls_version = n.get_string_value() },\n \"lifecycleNotificationUrl\" => lambda {|n| @lifecycle_notification_url = n.get_string_value() },\n \"notificationQueryOptions\" => lambda {|n| @notification_query_options = n.get_string_value() },\n \"notificationUrl\" => lambda {|n| @notification_url = n.get_string_value() },\n \"notificationUrlAppId\" => lambda {|n| @notification_url_app_id = n.get_string_value() },\n \"resource\" => lambda {|n| @resource = n.get_string_value() },\n })\n end", "def get_field_deserializers()\n return {\n \"displayName\" => lambda {|n| @display_name = n.get_string_value() },\n \"entityType\" => lambda {|n| @entity_type = n.get_string_value() },\n \"mailNickname\" => lambda {|n| @mail_nickname = n.get_string_value() },\n \"onBehalfOfUserId\" => lambda {|n| @on_behalf_of_user_id = n.get_guid_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"actionName\" => lambda {|n| @action_name = n.get_string_value() },\n \"actionState\" => lambda {|n| @action_state = n.get_enum_value(MicrosoftGraph::Models::ActionState) },\n \"lastUpdatedDateTime\" => lambda {|n| @last_updated_date_time = n.get_date_time_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"startDateTime\" => lambda {|n| @start_date_time = n.get_date_time_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"accountName\" => lambda {|n| @account_name = n.get_string_value() },\n \"azureAdUserId\" => lambda {|n| @azure_ad_user_id = n.get_string_value() },\n \"displayName\" => lambda {|n| @display_name = n.get_string_value() },\n \"domainName\" => lambda {|n| @domain_name = n.get_string_value() },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"userPrincipalName\" => lambda {|n| @user_principal_name = n.get_string_value() },\n \"userSid\" => lambda {|n| @user_sid = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return super.merge({\n \"comment\" => lambda {|n| @comment = n.get_string_value() },\n \"createdBy\" => lambda {|n| @created_by = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::IdentitySet.create_from_discriminator_value(pn) }) },\n \"createdDateTime\" => lambda {|n| @created_date_time = n.get_date_time_value() },\n \"items\" => lambda {|n| @items = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::DocumentSetVersionItem.create_from_discriminator_value(pn) }) },\n \"shouldCaptureMinorVersion\" => lambda {|n| @should_capture_minor_version = n.get_boolean_value() },\n })\n end", "def get_field_deserializers()\n return {\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"resourceId\" => lambda {|n| @resource_id = n.get_string_value() },\n \"uri\" => lambda {|n| @uri = n.get_string_value() },\n }\n end", "def get_field_deserializers()\n return {\n \"callChainId\" => lambda {|n| @call_chain_id = n.get_guid_value() },\n \"cloudServiceDeploymentEnvironment\" => lambda {|n| @cloud_service_deployment_environment = n.get_string_value() },\n \"cloudServiceDeploymentId\" => lambda {|n| @cloud_service_deployment_id = n.get_string_value() },\n \"cloudServiceInstanceName\" => lambda {|n| @cloud_service_instance_name = n.get_string_value() },\n \"cloudServiceName\" => lambda {|n| @cloud_service_name = n.get_string_value() },\n \"deviceDescription\" => lambda {|n| @device_description = n.get_string_value() },\n \"deviceName\" => lambda {|n| @device_name = n.get_string_value() },\n \"mediaLegId\" => lambda {|n| @media_leg_id = n.get_guid_value() },\n \"mediaQualityList\" => lambda {|n| @media_quality_list = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::TeleconferenceDeviceMediaQuality.create_from_discriminator_value(pn) }) },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"participantId\" => lambda {|n| @participant_id = n.get_guid_value() },\n }\n end", "def _before_validation\n serialize_deserialized_values\n super\n end", "def get_field_deserializers()\n return super.merge({\n \"description\" => lambda {|n| @description = n.get_string_value() },\n \"displayName\" => lambda {|n| @display_name = n.get_string_value() },\n \"isBuiltIn\" => lambda {|n| @is_built_in = n.get_boolean_value() },\n \"roleAssignments\" => lambda {|n| @role_assignments = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::RoleAssignment.create_from_discriminator_value(pn) }) },\n \"rolePermissions\" => lambda {|n| @role_permissions = n.get_collection_of_object_values(lambda {|pn| MicrosoftGraph::Models::RolePermission.create_from_discriminator_value(pn) }) },\n })\n end", "def get_field_deserializers()\n return super.merge({\n \"firstSeenDateTime\" => lambda {|n| @first_seen_date_time = n.get_date_time_value() },\n \"host\" => lambda {|n| @host = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::SecurityHost.create_from_discriminator_value(pn) }) },\n \"kind\" => lambda {|n| @kind = n.get_string_value() },\n \"lastSeenDateTime\" => lambda {|n| @last_seen_date_time = n.get_date_time_value() },\n \"value\" => lambda {|n| @value = n.get_string_value() },\n })\n end", "def get_field_deserializers()\n return {\n \"color\" => lambda {|n| @color = n.get_string_value() },\n \"criterion1\" => lambda {|n| @criterion1 = n.get_string_value() },\n \"criterion2\" => lambda {|n| @criterion2 = n.get_string_value() },\n \"dynamicCriteria\" => lambda {|n| @dynamic_criteria = n.get_string_value() },\n \"filterOn\" => lambda {|n| @filter_on = n.get_string_value() },\n \"icon\" => lambda {|n| @icon = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::WorkbookIcon.create_from_discriminator_value(pn) }) },\n \"@odata.type\" => lambda {|n| @odata_type = n.get_string_value() },\n \"operator\" => lambda {|n| @operator = n.get_string_value() },\n \"values\" => lambda {|n| @values = n.get_object_value(lambda {|pn| MicrosoftGraph::Models::Json.create_from_discriminator_value(pn) }) },\n }\n end" ]

[ "0.6510734", "0.63224316", "0.6322254", "0.63094735", "0.62954384", "0.6238735", "0.6232461", "0.62155676", "0.6200175", "0.6199403", "0.6173917", "0.61733985", "0.61705345", "0.61631054", "0.61620396", "0.6158031", "0.6156071", "0.6142402", "0.613998", "0.6138061", "0.61200523", "0.6089013", "0.60869795", "0.6079146", "0.60785794", "0.6070405", "0.6063533", "0.60625833", "0.6061235", "0.60584134", "0.6055769", "0.6051312", "0.60465735", "0.6046329", "0.6031944", "0.6029311", "0.6028314", "0.60255736", "0.6022033", "0.60210633", "0.6009887", "0.5988654", "0.59844214", "0.59793943", "0.5975247", "0.5969614", "0.596824", "0.5966432", "0.5965554", "0.596292", "0.5951651", "0.5950895", "0.59456754", "0.59448177", "0.593984", "0.59362113", "0.5935833", "0.59319806", "0.59312665", "0.59307545", "0.5930406", "0.5926444", "0.5926136", "0.59240156", "0.5922303", "0.591605", "0.591336", "0.5913327", "0.59130335", "0.5910617", "0.5906052", "0.5906045", "0.59042066", "0.5903306", "0.5902868", "0.59027255", "0.5902389", "0.5902219", "0.5901496", "0.58978146", "0.5891392", "0.5890228", "0.5885622", "0.5885429", "0.5884738", "0.5883899", "0.5883899", "0.5883899", "0.58811784", "0.5878516", "0.5877111", "0.5869185", "0.5844199", "0.58430207", "0.58408237", "0.58383596", "0.58362466", "0.5836192", "0.5835942", "0.5834559", "0.583357" ]

[ "def modified_at\n @photo.updated.to_datetime.utc\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def modified_at\n ensure_full_data!\n Time.at(@gapi[\"lastModifiedTime\"] / 1000.0)\n end", "def getlastmodified\n if !record.nil? and record.respond_to? :updated_at\n record.updated_at.httpdate\n end\n end", "def last_modified_at\n as_time(rpc(:account_info, _access: :modified_timestamp))\n end", "def GetModified\n @modified\n end", "def GetModified\n @modified\n end", "def GetModified\n @modified\n end", "def GetModified\n @modified\n end", "def GetModified\n @modified\n end", "def last_modified\n @metadata[:last_modified] || Time.now.utc\n end", "def modified_date_time=(value)\n @modified_date_time = value\n end", "def modified_date_time=(value)\n @modified_date_time = value\n end", "def modified_date_time=(value)\n @modified_date_time = value\n end", "def modified_date\n Time.parse(self['system_modified_dtsi']).in_time_zone.to_date\n end", "def DateModified # rubocop:disable Style/MethodName\n Time.strptime(@attrs[:DateModified], '%m/%d/%Y %l:%M %p').utc unless @attrs[:DateModified].nil?\n end", "def timestamp\n _timestamp.as_time\n end", "def last_modified_time # :nodoc:\n @last_modified_time.dup\n end", "def datetime_stamp\n Time.now.utc.iso8601\n end", "def last_modified_time\n mtime\n end", "def timestamp\n self[:timestamp]\n end", "def timestamp\n _timestamp.as_time\n end", "def time_modified(t=nil)\n if t.nil?\n t = DateTime.now.new_offset(0)\n elsif t.is_a? String\n t = DateTime.parse(t).new_offset(0)\n elsif t.is_a? Time\n t = t.utc\n elsif t.is_a? Date\n t = t.to_datetime.new_offset(0)\n elsif t.is_a? DateTime\n t = t.new_offset(0)\n end\n RDF::Literal.new(t, :datatype => RDF::XSD.dateTime)\n end", "def body_last_modified_date_time\n return @body_last_modified_date_time\n end", "def timestamp\n timestamp_to_datetime(static_data(\"timestamp\"))\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_updated_date_time\n return @last_updated_date_time\n end", "def last_updated_date_time\n return @last_updated_date_time\n end", "def last_updated_date_time\n return @last_updated_date_time\n end", "def last_updated_date_time\n return @last_updated_date_time\n end", "def timestamp\n github_updated_at.iso8601\n end", "def last_modified\n stat.mtime\n end", "def last_updated_time\n data[:last_updated_time]\n end", "def modified_at\n @modified_at ||= (id && File.stat(db_file).mtime.to_i)\n rescue\n nil\n end", "def datetime_timestamp\n return Date.parse(self.date).to_time\n end", "def modified_at\n @modified_at ||= @path.pathname.mtime\n end", "def timestamp\n @timestamp ||= Time.parse(@origdate)\n end", "def timestamp\n attribute_prop(4)\n end", "def updated_at\n DateTime.parse((solr_document[\"updated_at_dtsi\"] || solr_document[\"timestamp\"] || solr_document[\"created_at_dtsi\"]).to_s).utc\n end", "def last_modified\n if v = @meta['last-modified']\n Time.httpdate(v)\n else\n nil\n end\n end", "def timestamp\n TimeStamp.new\n end", "def modificationtime\r\n\t\t\t`#{BITS::BITSADMIN} /getmodificationtime {#{@id}}`\r\n\t\tend", "def modified_date\n date_field('system_modified')\n end", "def returnModified\n @modified\n end", "def timestamp\n Time.at((attributes[:timestamp] || Time.now).to_i)\n end", "def updated_at\n dateChanged\n end", "def get_modification_timestamp(path)\n File.mtime(path)\n end", "def last_modified\n [updated_at, user.try(:updated_at)].max\n end", "def modification_date\n @ole.ModificationDate\n end", "def last_modified\n @resource.last_modified\n end", "def get_Timestamp()\n \t return @outputs[\"Timestamp\"]\n \tend", "def get_Timestamp()\n \t return @outputs[\"Timestamp\"]\n \tend", "def last_updated\n self.dig_for_datetime(\"lastUpdateOn\")\n end", "def timestamp(attachment, _style_name)\n attachment.instance_read(:updated_at).in_time_zone(attachment.time_zone).to_s\n end", "def updated_time\n Time.parse(object[\"updated_time\"]) if object[\"updated_time\"]\n end", "def timestamp\n @data['when'].to_time\n end", "def updated_at\n time = instance_read(:updated_at)\n time && time.to_f.to_i\n end", "def timestamp\n @timestamp ||= @attributes['timestamp'] ? Time.zone.at(@attributes['timestamp']) : nil\n end", "def timestamp\n @timestamp ||= @attributes['timestamp'] ? Time.zone.at(@attributes['timestamp']) : nil\n end", "def last_modified\n @heads['last-modified'] || @modified || Time.now.httpdate\n end", "def last_updated_at\n @last_updated_at\n end", "def get_status_changed_at\n return @m_status_changed_at\n end", "def mtime\n @attributes[:mtime]\n end", "def last_modified\n# stat.mtime\n @bson['uploadDate'] || Date.new\n end", "def timestamp\n Time.parse( props[ TIMESTAMP_PROP_NAME ] ) if props\n end", "def last_update\n Time.parse(@record.SystemModstamp)\n end", "def updated_at\n I18n.l(self.__source.updated_at, format: :short)\n end", "def system_modified_dtsi\n Time.parse get('system_modified_dtsi')\n end", "def last_timetable_datetime_with_zone\n TimetableFileInfo.last.last_modified\n end", "def updated_at\n Time.at @updated rescue nil\n end", "def body_last_modified_date_time=(value)\n @body_last_modified_date_time = value\n end" ]

[ "0.7203478", "0.717537", "0.717537", "0.717537", "0.717537", "0.717537", "0.717537", "0.717537", "0.717537", "0.717537", "0.717537", "0.717537", "0.717537", "0.717537", "0.717537", "0.71723247", "0.7141531", "0.69719416", "0.6924966", "0.6844074", "0.6844074", "0.6844074", "0.6844074", "0.6844074", "0.68368906", "0.6776706", "0.6776706", "0.6776706", "0.6744917", "0.66263926", "0.66226673", "0.6574554", "0.6569438", "0.65582544", "0.6531173", "0.64858145", "0.6478726", "0.6414881", "0.6390519", "0.6353732", "0.6353732", "0.6353732", "0.6353732", "0.6353732", "0.6353732", "0.6353732", "0.6353732", "0.6353732", "0.6353732", "0.6353732", "0.6353732", "0.6353732", "0.6353732", "0.63506967", "0.63506967", "0.63506967", "0.63506967", "0.63487625", "0.63068247", "0.6265824", "0.62606835", "0.6257986", "0.62329614", "0.62175924", "0.6206406", "0.6184085", "0.6163658", "0.6147837", "0.6133283", "0.610947", "0.60824555", "0.60735136", "0.6073496", "0.60706925", "0.60697526", "0.60668874", "0.6066851", "0.60638905", "0.6062949", "0.60604423", "0.6044629", "0.60382557", "0.60326195", "0.60255593", "0.6011068", "0.6011068", "0.60106176", "0.60030234", "0.59818745", "0.59682417", "0.5962347", "0.5951845", "0.5945289", "0.5942479", "0.5940871", "0.59381706", "0.59218454", "0.5920617" ]

[ "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(value)\n @last_modified_date_time = value\n end", "def last_modified_date_time=(lastModifiedDateTime)\n @last_modified_date_time = lastModifiedDateTime\n end", "def set_LastModifiedTime(value)\n set_input(\"LastModifiedTime\", value)\n end", "def set_LastModifiedTime(value)\n set_input(\"LastModifiedTime\", value)\n end", "def modified_date_time\n return @modified_date_time\n end", "def modified_date_time\n return @modified_date_time\n end", "def modified_date_time\n return @modified_date_time\n end", "def modified_at\n ensure_full_data!\n Time.at(@gapi[\"lastModifiedTime\"] / 1000.0)\n end", "def body_last_modified_date_time=(value)\n @body_last_modified_date_time = value\n end", "def SetModified\n @modified = true\n\n nil\n end", "def SetModified\n @modified = true\n\n nil\n end", "def SetModified\n @modified = true\n\n nil\n end", "def SetModified\n @modified = true\n\n nil\n end", "def record_modification_timestamp(path, timestamp)\n File.utime(timestamp, timestamp, path)\n record_access_timestamp(path, timestamp)\n record_changed_timestamp(path, timestamp)\n end", "def SetModified\n Builtins.y2milestone(\"SetModified\")\n @modified = true\n\n nil\n end", "def updated_at=(value)\n @updated_at = DateTime.parse(value)\n end", "def modified_at\n @photo.updated.to_datetime.utc\n end", "def last_updated_date_time=(value)\n @last_updated_date_time = value\n end", "def last_updated_date_time=(value)\n @last_updated_date_time = value\n end", "def last_updated_date_time=(value)\n @last_updated_date_time = value\n end", "def last_updated_date_time=(value)\n @last_updated_date_time = value\n end", "def DateModified # rubocop:disable Style/MethodName\n Time.strptime(@attrs[:DateModified], '%m/%d/%Y %l:%M %p').utc unless @attrs[:DateModified].nil?\n end", "def time_modified(t=nil)\n if t.nil?\n t = DateTime.now.new_offset(0)\n elsif t.is_a? String\n t = DateTime.parse(t).new_offset(0)\n elsif t.is_a? Time\n t = t.utc\n elsif t.is_a? Date\n t = t.to_datetime.new_offset(0)\n elsif t.is_a? DateTime\n t = t.new_offset(0)\n end\n RDF::Literal.new(t, :datatype => RDF::XSD.dateTime)\n end", "def last_modified_time # :nodoc:\n @last_modified_time.dup\n end", "def update_timestamp(*_args)\n current_time = current_time_from_proper_timezone\n\n write_attribute('updated_at', current_time) if respond_to?(:updated_at)\n write_attribute('updated_on', current_time) if respond_to?(:updated_on)\n end", "def set_modify_time(new_modify_time)\r\n File.utime(access_time, new_modify_time, file_path)\r\n end", "def set_getlastmodified(value)\n if !record.nil? and record.respond_to? :updated_at=\n record.updated_at = Time.httpdate(value)\n gen_status(200, \"OK\").to_s\n else\n gen_status(409, \"Conflict\").to_s\n end\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def _update_timestamps\n if self.respond_to?('updated_at')\n self.updated_at = Time.now\n end\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def last_modified_date_time\n return @last_modified_date_time\n end", "def set_LastModifiedDate(value)\n set_input(\"LastModifiedDate\", value)\n end", "def update_timestamp(work)\n # these timestamps are the Hyrax managed fields, not rails timestamps\n if work.date_uploaded\n work.date_modified = Time.current\n else\n work.date_uploaded = Time.current\n end\n end", "def last_modified=(time)\n time = time.to_time if time.is_a?(DateTime)\n # time.utc.strftime(\"%a, %d %b %Y %X\") if we could rely on locale being American\n headers[Merb::Const::LAST_MODIFIED] = time.httpdate\n end", "def last_modified=(time)\n # Is this correct?\n raise NotImplemented\n end", "def last_modified=(time)\n # Is this correct?\n raise NotImplemented\n end", "def timestamp=(timestamp)\n @timestamp = _check_timestamp(timestamp)\n end", "def timestamp=(timestamp)\n @timestamp = _check_timestamp(timestamp)\n end", "def salesforce_updated_at=(updated_at)\n updated_at = Time.parse(updated_at) if updated_at.present? && updated_at.kind_of?(String)\n write_attribute(:salesforce_updated_at, updated_at)\n end", "def last_modified=(time)\n raise NotImplementedError\n end", "def last_modified\n @metadata[:last_modified] || Time.now.utc\n end", "def last_modified=(time)\n headers[Merb::Const::LAST_MODIFIED] = time.httpdate\n end", "def update_timestamp\n self.fields_last_modified = {\n columns_changeable: self.columns_changeable,\n columns_visible: self.columns_visible,\n filters: self.filters}.hash.to_s(36)[1..5]\n end", "def set_update_time!(time = last_modified_date)\n set_update_time(time)\n # disable_ferret\n save\n return last_updated__c\n end", "def update_status_timestamp\n self.overall_status_modified_at = Time.zone.now\n end", "def set_deleted_timestamp(time=nil)\n field = model.deleted_timestamp_field\n meth = :\"#{field}=\"\n if respond_to?(field) && respond_to?(meth) && (model.deleted_timestamp_overwrite? || send(field).nil?)\n self.send(meth, time||=Sequel.datetime_class.now)\n self.save\n end\n end", "def modified_date\n Time.parse(self['system_modified_dtsi']).in_time_zone.to_date\n end", "def use_provided_modified_at\n @attributes[:use_provided_modified_at]\n end", "def set_update_time(time = last_modified_date)\n self.last_updated__c = ((last_updated__c and time < last_updated__c) ? last_updated__c : time) # fails migration ?\n# self.last_updated__c = self.last_modified_date # for migration\n end", "def update_timestamp\n self.fields_last_modified = {\n columns_changeable: columns_changeable,\n columns_visible: columns_visible,\n filters: filters\n }.hash.to_s(36)[1..5]\n end", "def modified_at\n @modified_at ||= @path.pathname.mtime\n end", "def modify_time=(time)\n @modify_time = time\n update_times\n end", "def to_modified_date_time(dt, wt)\n DateTime.new(dt.year, dt.month, dt.day, wt.hh, wt.mm, 0)\n end", "def updated=(val)\n parsed = parse_datetime(val)\n @updated = parsed if parsed && (!@updated || parsed > @updated)\n end", "def modified_at(file, timestamp = nil)\n require 'date'\n time = timestamp ? DateTime.parse(\"#{timestamp}\") : DateTime.now\n timestamp = time.strftime('%Y%m%d%H%M')\n execute(\"/bin/touch -mt #{timestamp} #{file}\")\n end", "def last_modified=(time)\n# File.utime(Time.now, time, file_path)\n end", "def set_updated_at\n if able_to_set_updated_at?\n self.updated_at = Time.configured.now unless updated_at_changed?\n end\n\n clear_timeless_option\n end", "def audit_update\n self.modified_date = DateTime.now\n if self.created_date.blank?\n self.created_date = DateTime.now\n end\n end", "def set_last_modified (t)\n\n #t = Time.local(*t.to_a) # flatten milliseconds\n #@response.header['Last-Modified'] = t.httpdate\n\n t = t.httpdate\n @response.header['Last-Modified'] = t\n\n sin = @request.env['HTTP_IF_MODIFIED_SINCE']\n\n if sin == t\n throw(:done, 304) if @request.get? or @request.head?\n throw(:done, 412) # precondition failed\n end\n end", "def updated=(val)\n parsed = parse_datetime(val)\n @updated = parsed if !@updated || parsed > @updated\n end", "def updated=(val)\n parsed = parse_datetime(val)\n @updated = parsed if !@updated || parsed > @updated\n end", "def GetModified\n @modified\n end", "def GetModified\n @modified\n end", "def GetModified\n @modified\n end", "def GetModified\n @modified\n end", "def GetModified\n @modified\n end", "def set_updated!\n @updated_at = Time.now\n end", "def last_update_date_time=(value)\n @last_update_date_time = value\n end", "def last_update_date_time=(value)\n @last_update_date_time = value\n end", "def last_update_date_time=(value)\n @last_update_date_time = value\n end", "def last_update_date_time=(value)\n @last_update_date_time = value\n end", "def modified\n raise NotLoadedError.new(:metadata) unless metadata_loaded?\n self.mtime\n end", "def set_timestamps\n return if skip_edited\n self.edited_at = self.updated_at\n return if skip_tagged\n return if replies.exists? && !status_changed?\n self.tagged_at = self.updated_at\n end" ]

[ "0.7118067", "0.7118067", "0.7118067", "0.7118067", "0.7118067", "0.7118067", "0.7118067", "0.7118067", "0.7118067", "0.7118067", "0.7118067", "0.7118067", "0.7118067", "0.7118067", "0.700718", "0.66480327", "0.66480327", "0.65516776", "0.65516776", "0.65516776", "0.65422887", "0.6442465", "0.6369403", "0.6369403", "0.6369403", "0.6369403", "0.6328183", "0.62773335", "0.6143508", "0.6140291", "0.61342067", "0.61342067", "0.61342067", "0.61342067", "0.6059204", "0.60412174", "0.6019187", "0.5979887", "0.5974671", "0.59647894", "0.5925651", "0.59233594", "0.5915535", "0.5915535", "0.5915535", "0.5915535", "0.5915535", "0.5915535", "0.5915535", "0.5915535", "0.5915535", "0.5915535", "0.5915535", "0.5915535", "0.5915535", "0.5915535", "0.5883192", "0.583523", "0.58210874", "0.58196425", "0.58196425", "0.5813484", "0.5787151", "0.5781821", "0.57726955", "0.5754981", "0.57546586", "0.57377106", "0.5724", "0.5711117", "0.5707433", "0.5697738", "0.5692284", "0.567018", "0.56687176", "0.56606287", "0.565174", "0.56285477", "0.56233007", "0.5621133", "0.56144005", "0.56071895", "0.5595511", "0.5594152", "0.559125", "0.559125", "0.5582377", "0.5582377", "0.5582377", "0.5582377", "0.5582377", "0.55671793", "0.55526835", "0.55526835", "0.55526835", "0.55526835", "0.5517946", "0.5496358" ]

[ "def questions=(value)\n @questions = value\n end", "def questions\n @root.questions\n end", "def questions\n @_questions ||= fetch_questions\n end", "def questions\r\n return @questions \r\nend", "def question\n self.question\n end", "def answers\n return @answers\n end", "def questions\n self.class.get(\"/2.2/questions\", @options)\n end", "def get_answers\n @answers\n end", "def all_answered_questions\n self.all_answered_options.map{ |answer| answer.question }\n end", "def question\n answer.question\n end", "def answers\n request('answers')\n end", "def questions\n qs = []\n qs |= self.class.questions if self.class.respond_to? :questions\n qs |= (@_questions||=[])\n qs.map{|q| q.for_instance(self) }\n end", "def quiz_questions\n @questions = set_quiz.questions\n end", "def questions\n @pages.collect { |p| p.questions }.flatten\n end", "def questions\n qs = []\n qs |= superclass.questions if superclass.respond_to? :questions\n qs |= (@_questions||=[])\n qs\n end", "def questions\n return Question.none unless committee && user\n Question.joins(:quiz_questions).\n where { |r| r.quiz_questions.quiz_id.in( \n committee.requestable_positions.\n with_statuses_mask( user.statuses_mask ).\n select { quiz_id } ) }.\n order { [ quiz_questions.quiz_id, quiz_questions.position ] }\n end", "def answers=(value)\n @answers = value\n end", "def questions_for_entity entity\n questions.select{|question|question.meta_attribute_entity==entity}\n end", "def question=(value)\n @children['question'][:value] = value\n end", "def question=(value)\n @children['question'][:value] = value\n end", "def get_questionnaires\n @get_questionnaires ||= questionnaire_service.search('context-type-value': get_use_context)\n end", "def questions\n extracted_questions = []\n\n unless self.qp_questions.nil?\n self.qp_questions.each do |question| \n extracted_questions.push(Question.new(question))\n end \n end\n\n return extracted_questions\t\t\t\n\t\tend", "def question(value)\n merge(question: value.to_s)\n end", "def answers\n @answers ||= generate_answers\n end", "def questions\n result = []\n 1.upto(@@max_questions) { |i| result << question(i) }\n result.select { |q| !q.empty? }\n end", "def question\n @question ||= Question.find(question_id)\n end", "def answers\n @answers ||= {}\n end", "def answers\n []\n end", "def questions\n object.questions.map do |question|\n QuestionSerializer.new(question)\n end\n end", "def questions\n \n end", "def get_questions\n @questions = Question.active.chronological.to_a\n end", "def questions_and_answers\n @questions_and_answers ||= QuestionsAndAnswers.new(group.custom_questions.required, custom_answers)\n end", "def questions_list\n\t\t# List of the questions for the particular surgeon\n\t\t@questions = devise_current_user.questions.all\n\tend", "def answerable_questions\n answerable = []\n\n unanswered_questions.each do |question|\n answerable.push(question) if precondition_met(question)\n end\n\n return answerable\n end", "def surgeon_questions\n\t\t@questions = current_user.questions.all\n\tend", "def question_name\n attributes.keys.first\n end", "def ask\n \"@all Question '#{@question}'\"\n end", "def question\n Question.find_by_id(questions_id)\n end", "def question_title\n @title\n end", "def questions_author\n self.question.poll.author.id\n end", "def body\n (answers['transcription'] || answers['1']).to_s\n end", "def question\n puts \"#{@question}\"\n end", "def responses\n object.questions.map do |q|\n Embedded::ResponseSerializer.new(q.filtered_responses.first,root: false)\n end\n end", "def replies\n Reply.find_by_question_id(self.id)\n end", "def answer_texts\n self.answers.map { |a| a.choice }\n end", "def answer_texts\n self.answers.map { |a| a.choice }\n end", "def takers\n self.questions.first.participants\n end", "def index\n @questions = @questionable.questions\n end", "def question_texts_presented\r\n question = question_form_element.label_elements\r\n presented_questions = question.select {|question| question.attribute(\"name\") == \"question\"}\r\n @questions = []\r\n presented_questions.each do |question_element|\r\n @questions.push question_element.text\r\n end\r\n return @questions\r\n end", "def show_user_questions\n\t\tif logged_in?\n\t\t\t@user_questions = @current_user.question\n\t\tend\n\tend", "def questions_count\n self.questions.count\n end", "def to_str( )\n @question\n end", "def parent_question_params\n params[:parent_question]\n end", "def questions\n return nil unless self.id?\n SurveyQuestion.subclasses.collect do |table|\n table.where(survey: self)\n end.compact.flatten.sort_by(&:sort_index)\n end", "def question\n Question.find_by_id(self.question_id)\n end", "def answers\n @answers ||= Factory.load_answers_at_machine(@location, @load_scores)\n end", "def questions\n ready_series = chart_series.select{|series|series.ready_for_data?}\n result = []\n ready_series.each{|series|result += series.meta_attribute_questions}\n return result.uniq.sort_by{|series|series.category}\n end", "def survey_answers\n survey_questions.map(&:survey_answers).flatten\n end", "def questions_for_group group\n questions.select{|question|question.meta_attribute_entity_group==group}\n end", "def steps\n self.survey_questions.collect(&:step).uniq\n end", "def responses\n {\n 'multiple_choice_answers' => self.multiple_choice_answers,\n 'open_response_answers' => self.open_response_answers,\n 'image_question_answers' => self.image_question_answers,\n 'external_links' => self.interactive_run_states\n }\n end", "def responses\n @responses\n end", "def get_question\n if self.key.to_s =~ /(an_)([0-9])/\n q_id = QUESTION_MAP[\"qs_#{$+}\".to_sym][:id]\n q = ProfileQuestion.find_by_profile_id_and_question_id(self.profile_id, q_id)\n q.answer\n else\n nil\n end\n end", "def questions_url\n view_context.questions_url\n end", "def correct_answers\n correct_answers = self.answers.where(truthiness: true) #for this current user instance (self), gets all the answers where the truthiness is true (set during question/answer creation)\n end", "def questioning\n return text\n end", "def questioning\n return text\n end", "def get_tutor_question\n questions.find { |q| q.type == \"tutor_table\" }\n end", "def answers\n [answer_1, answer_2]\n end", "def answer question\n\n # find the value that should be entered\n data = request[question[:reference_identifier]]\n\n response_set.responses.where(question_id: question).delete_all\n\n case question.type\n\n when :none\n answer = question.answers.first\n response_set.responses.create({\n answer: answer,\n question: question,\n answer.value_key => data\n })\n\n when :one\n # the value is the reference identifier of the target answer\n answer = question.answers.where(reference_identifier: data).first\n\n unless answer.nil?\n response_set.responses.create({\n answer: answer,\n question: question\n })\n end\n\n when :any\n # the value is an array of the chosen answers\n answers = question.answers.where(reference_identifier: data)\n answers.each do |answer|\n response_set.responses.create({\n answer: answer,\n question: question\n })\n end\n\n when :repeater\n # the value is an array of answers\n answer = question.answers.first\n i = 0\n data.each do |value|\n response_set.responses.create({\n answer: answer,\n question: question,\n answer.value_key => value,\n response_group: i\n })\n i += 1\n end\n\n else\n throw \"not handled> #{question.inspect}\"\n end\n\n end", "def answer question\n\n # find the value that should be entered\n data = request[question[:reference_identifier]]\n\n response_set.responses.where(question_id: question).delete_all\n\n case question.type\n\n when :none\n answer = question.answers.first\n response_set.responses.create({\n answer: answer,\n question: question,\n answer.value_key => data\n })\n\n when :one\n # the value is the reference identifier of the target answer\n answer = question.answers.where(reference_identifier: data).first\n\n unless answer.nil?\n response_set.responses.create({\n answer: answer,\n question: question\n })\n end\n\n when :any\n # the value is an array of the chosen answers\n answers = question.answers.where(reference_identifier: data)\n answers.each do |answer|\n response_set.responses.create({\n answer: answer,\n question: question\n })\n end\n\n when :repeater\n # the value is an array of answers\n answer = question.answers.first\n i = 0\n data.each do |value|\n response_set.responses.create({\n answer: answer,\n question: question,\n answer.value_key => value,\n response_group: i\n })\n i += 1\n end\n\n else\n throw \"not handled> #{question.inspect}\"\n end\n\n end", "def getQuestionObjName\r\n\t\t\treturn \"mfiforce__Question__c\"\r\n\t\tend", "def my_questions\n self.questions.map(&:id)\n end", "def questions(import=false)\n questions = {}\n @config.each do |attr,conf|\n next if conf[\"ask\"] == false\n handler = Proj::Attributes::attribute_handler(attr)\n next if handler.nil?\n opts = question_options(handler.type,\n conf['default'])\n questions[attr] = \"#{handler.question(import)} #{opts}\"\n end\n questions\n end", "def prompts\n return @prompts\n end", "def question?\n question_id.nil?\n end", "def answers(options={})\n self.class.parse_answers(request(singular(user_id) + \"/answers\", options))\n end", "def question\n @question = params[:question]\n @answer = %w[yes no].sample\n end", "def info() quiz_question.info end", "def inspect_question(q)\n index_question(q) unless q.tag.empty?\n ref_question(q)\n q.answers.each { |a| ref_answer(q, a) }\n end", "def all_answered_options\n self.user_answers.map{ |answer| answer.answer_option}\n end", "def question_text\n question.try(:text)\n end", "def answers\n return Answer.where(question_id: self.id) \n end", "def answers\n extracted_answers = []\n\n unless self.qp_values.nil?\n self.qp_values.each do |answer| \n extracted_answers.push(ResponseAnswer.new(answer))\n end \n end\n\n return extracted_answers \n end", "def show\n @questions = @line_case.questions\n end", "def answered_questions_count\n return 0 if survey.nil?\n survey.answered_count\n end", "def question\n @posts = Post.all\n end", "def show\n # @answers = @response.answers\n # @questionnaire_name = @response.questionnaire.name\n # @user = @response.user\n end", "def question_params\n params.fetch(:question, {})\n end", "def qualities\n return @qualities\n end", "def answer\n @question = params[:questions]\n # we need to get the value from params in order to store the question.\n if @question.eql? 'I am going to work'\n @answer = 'Great!'\n elsif @question.end_with?('?')\n @answer = 'Silly question, get dressed and go to work!'\n else\n @answer = \"I don't care, get dressed and go to work!\"\n # we create @ = instance variable in order to use outside of the method.\n end\n end", "def evals_questions evaluation_id\n call_path = \"evals/questions\"\n request = {\"evaluationID\": evaluation_id}.to_json\n data = build_post_data(request)\n perform_post(build_url(call_path), data)\n end", "def survey_question\n SurveyQuestion.find_by(id: survey_question_id)\n end", "def questions\n questions = Pairwise::Question.find(:all, :params => {:creator => @local_identifier})\n questions.select {|q| q if q.local_identifier == @local_identifier.to_s }\n end", "def num_questions\n n = 0\n self.sections.each do |s|\n n+= s.questions.size()\n end\n return n\n end", "def general_application_questions\n GENERAL_APPLICATION_QUESTIONS.reduce([]) do |arr, app_question|\n db_attr, prompt = app_question\n if self.send(\"app_ques_#{db_attr}\".to_sym)\n arr << { prompt: prompt + ':' }\n end\n arr\n end\n end", "def replies\n Reply.find_by_question_id(@id)\n end", "def admin_academy_question_params\n params[:admin_academy_question]\n end", "def answers(options={})\n parse_answers(request(singular(id) + \"answers\", options))\n end", "def show_questions question_filter={}\n debug {\"got 'show_questions' filters: #{filters.inspect}\"}\n already_asked?(question_filter) ? questions : [NO_QUESTIONS_FOUND]\n end" ]

[ "0.7430519", "0.66309375", "0.6624312", "0.6539379", "0.64167684", "0.64119095", "0.63117385", "0.6229876", "0.6224637", "0.62125176", "0.6156245", "0.6155125", "0.6134332", "0.61029404", "0.60241115", "0.59530973", "0.5914879", "0.58562684", "0.58282465", "0.58282465", "0.5806443", "0.57751316", "0.5712047", "0.5643713", "0.5636458", "0.5632426", "0.5620602", "0.55525047", "0.55488604", "0.55331486", "0.5521583", "0.55156505", "0.5513573", "0.5483041", "0.54808706", "0.5470693", "0.54159033", "0.5415106", "0.54114187", "0.54066586", "0.5401665", "0.53804696", "0.53643155", "0.5363247", "0.536072", "0.536072", "0.5355244", "0.5336762", "0.53282446", "0.5326016", "0.5323065", "0.5310697", "0.5305407", "0.52863973", "0.5282015", "0.5280328", "0.52704835", "0.5262823", "0.5257116", "0.5254404", "0.5245535", "0.52361804", "0.52289623", "0.5201967", "0.5198792", "0.51679504", "0.51679504", "0.5162268", "0.516175", "0.5160812", "0.5160812", "0.5157599", "0.51412785", "0.51389074", "0.513057", "0.5117047", "0.5097479", "0.5096138", "0.5092091", "0.5092038", "0.50877506", "0.50854254", "0.5083778", "0.5079057", "0.5076413", "0.5075729", "0.5074176", "0.50719416", "0.5065822", "0.5060191", "0.50551283", "0.50472265", "0.5034158", "0.5034022", "0.5013855", "0.5006659", "0.49946672", "0.49917483", "0.4986714", "0.49857527" ]

[ "def answers=(value)\n @answers = value\n end", "def question=(value)\n @children['question'][:value] = value\n end", "def question=(value)\n @children['question'][:value] = value\n end", "def set_question\n @question = Question.find(params[\"question_id\"])\n end", "def set_question\n\t\t\t@question = Question.find(params[:id])\n\t\tend", "def set_question\n\t\t\t@question = Question.find(params[:id])\n\t\tend", "def set_question\n\t\t\t@question = Question.find(params[:id])\n\t\tend", "def quiz_questions\n @questions = set_quiz.questions\n end", "def questions\n @_questions ||= fetch_questions\n end", "def set_question\n @course = Course.find(params[:course_id])\n @oh_time_slot = OhTimeSlot.find(params[:oh_time_slot_id])\n @oh_queue = OhQueue.find(params[:oh_queue_id])\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:question_id])\n end", "def set_question\n @question = params[:id] ? Question.find(params[:id]) : Question.new(question_params)\n end", "def set_question\n @question = Discovery::Question.find(params[:id])\n end", "def set_question\n @question = Question.find_by(id: params[:question_id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def set_question\n @question = current_user.questions.find(params[:id])\n end", "def set_questionnaire\n questionnaire_reference.reference = \"Questionnaire/#{DEFAULT_QUESTIONNAIRE_ID}\"\n end", "def set_question\n set_presentation\n @question = @presentation.questions.find(params[:id])\n end", "def quest=(value)\n return if @quest == value\n @quest = value\n @layout = (@quest && @quest.layout) ? @quest.layout : @default_layout\n refresh\n end", "def set_question\r\n @question = Question.find(params[:id])\r\n end", "def set_question \n @question = Question.find(params[:id])\n end", "def questions\n \n end", "def set_question_list\n @question_list = QuestionList.find(params[:id])\n end", "def question_list=(questions)\r\n questions.each_with_index do |question_attrs, index|\r\n question_attrs[:question_key] = :trivia\r\n question_attrs[:show_on_kroogi_page] ||= 0\r\n question_attrs[:position] = index\r\n profile_question = profile_questions.find_by_id(question_attrs[:id].to_i) unless question_attrs[:id].blank?\r\n if question_attrs[:id].blank?\r\n profile_question = profile_questions.build(question_attrs)\r\n else\r\n profile_question = profile_questions.find_by_id(question_attrs[:id].to_i)\r\n if profile_question\r\n profile_question.attributes = question_attrs\r\n else\r\n #looks like .build create record here - so let's pass it through further deletion too if it's blank\r\n profile_question = profile_questions.build(question_attrs)\r\n end\r\n end\r\n if profile_question.being_deleted?\r\n profile_question.destroy\r\n else\r\n if validate_trivia(profile_question)\r\n profile_question.save! if profile_question.id #update updated child - it doesn't happen on parent's save, see #2382\r\n end\r\n end\r\n end\r\n end", "def add_questions(options)\n options[:questions]&.delete_if { |_, v| v.blank? }\n end", "def answer=(value)\n @children['answer'][:value] = value\n end", "def set_question_set\n @question_set = QuestionSet.find(params[:id])\n end", "def set_question_set\n @question_set = QuestionSet.find(params[:id])\n end", "def set_question_set\n @question_set = QuestionSet.find(params[:id])\n end", "def set_question\n @question = Question.find(params[:id])\n end", "def prompts=(value)\n @prompts = value\n end", "def questions\n self.class.get(\"/2.2/questions\", @options)\n end", "def set_answers!(params)\n SurveyQuestion.with_question.find_all_by_survey_id(survey_id).each do |question| # iterate through all survey questions\n if params[question.id.to_s].blank? # if the question hasn't been answered\n remove_answer(question.id)\n else\n set_answer(question, params[question.id.to_s]) # save the answer\n end\n end\n save\n end", "def set_question_option\n @question_option = QuestionOption.find(params[:id])\n end" ]

[ "0.70386976", "0.7014029", "0.7014029", "0.6030558", "0.5925973", "0.5925973", "0.5925973", "0.59027964", "0.5902654", "0.58851177", "0.58496267", "0.58392197", "0.5828103", "0.58253294", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5820249", "0.5805608", "0.58041805", "0.5753916", "0.57472855", "0.57359195", "0.5730218", "0.5723902", "0.57128257", "0.56851536", "0.56771356", "0.56553996", "0.56506616", "0.56506616", "0.56506616", "0.5644005", "0.56424254", "0.5637155", "0.5609863", "0.556304" ]

[ "def request_approval_settings=(value)\n @request_approval_settings = value\n end", "def get_access_approval_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_get_access_approval_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Cloud::AccessApproval::V1::AccessApprovalSettings.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def is_approval_request=(value)\n @is_approval_request = value\n end", "def update_access_approval_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_update_access_approval_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Cloud::AccessApproval::V1::AccessApprovalSettings.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def is_approval_request\n return @is_approval_request\n end", "def access_package_assignment_approvals=(value)\n @access_package_assignment_approvals = value\n end", "def automatic_request_settings\n return @automatic_request_settings\n end", "def requestor_settings\n return @requestor_settings\n end", "def requestor_settings=(value)\n @requestor_settings = value\n end", "def access_package_assignment_approvals\n return @access_package_assignment_approvals\n end", "def automatic_request_settings=(value)\n @automatic_request_settings = value\n end", "def implicit_grant_settings=(value)\n @implicit_grant_settings = value\n end", "def get_request_settings(opts = {})\n data, _status_code, _headers = get_request_settings_with_http_info(opts)\n data\n end", "def enforced_settings\n return @enforced_settings\n end", "def implicit_grant_settings\n return @implicit_grant_settings\n end", "def delete_access_approval_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_delete_access_approval_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Protobuf::Empty.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def approval_id\n return @approval_id\n end", "def list_approval_requests request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_list_approval_requests_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Cloud::AccessApproval::V1::ListApprovalRequestsResponse.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def project_merge_request_approval_rules(project)\n get(\"/projects/#{url_encode project}/approval_rules\")\n end", "def get_approval_request request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_get_approval_request_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Cloud::AccessApproval::V1::ApprovalRequest.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def approval_params\n params.require(:approval).permit(:policy_resolution_id, :approval_type, :approver_id, :approved, :remarks)\n end", "def assignment_requests=(value)\n @assignment_requests = value\n end", "def approve_approval_request request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_approve_approval_request_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Cloud::AccessApproval::V1::ApprovalRequest.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def is_approval_required_for_update=(value)\n @is_approval_required_for_update = value\n end", "def list_request_settings(opts = {})\n data, _status_code, _headers = list_request_settings_with_http_info(opts)\n data\n end", "def is_approval_required_for_update\n return @is_approval_required_for_update\n end", "def update_request_settings(opts = {})\n data, _status_code, _headers = update_request_settings_with_http_info(opts)\n data\n end", "def approval_owner\n if self.approval_kind_id == 16\n e = OwnedShipCrewRequest.find_by approval_id: self.id\n \"#{e.character.full_name} requesting to join #{e.crew.owned_ship.title} (Crew Request)\"\n end\n end", "def approval_id=(value)\n @approval_id = value\n end", "def get_auto_approve_setting\n service_response = ClientManagement::GetAutoApproveSetting.new(params).perform\n render_api_response(service_response)\n end", "def approvals_count\n return 0 if self.id.nil?\n return RequestSearch.approvals_for(self, show: 'pending', per_page: 1000).count\n end", "def app_consent_requests=(value)\n @app_consent_requests = value\n end", "def get_request_log_settings()\n data, _status_code, _headers = get_request_log_settings_with_http_info()\n return data\n end", "def merge_request_level_rule(project, merge_request)\n get(\"/projects/#{url_encode project}/merge_requests/#{merge_request}/approval_rules\")\n end", "def package_settings\n properties[:package_settings]\n end", "def package_settings\n properties[:package_settings]\n end", "def review_settings\n return @review_settings\n end", "def approval_state\n if self.class.approvable_field\n send(self.class.approvable_field)\n elsif approval.present?\n approval.state\n end\n end", "def merge_request_approvals(project, merge_request)\n get(\"/projects/#{url_encode project}/merge_requests/#{merge_request}/approvals\")\n end", "def enforced_settings=(value)\n @enforced_settings = value\n end", "def is_approval_required_for_add=(value)\n @is_approval_required_for_add = value\n end", "def edit_merge_request_approvals(project, merge_request, options = {})\n post(\"/projects/#{url_encode project}/merge_requests/#{merge_request}/approvals\", body: options)\n end", "def automatic_user_consent_settings\n return @automatic_user_consent_settings\n end", "def assignment_requests\n return @assignment_requests\n end", "def overlapping_approved_requests\n overlapping_requests.where(status: \"APPROVED\")\n end", "def create_request_settings(opts = {})\n data, _status_code, _headers = create_request_settings_with_http_info(opts)\n data\n end", "def budget_approver_params\n params.fetch(:budget_approver, {})\n end", "def get_approval_rules()\n build_header_auth('/approval_rules', API_VERSION_1, 'GET')\n build_request()\n request = Net::HTTP::Get.new(@uri.request_uri)\n #puts \"Request headers\\n\"\n @header.each do |name, value|\n request[name] = value\n\n #puts name+\": \"+value\n end\n\n response = @http.request(request)\n # response.body = JSON.parse(response.body)\n return response\n\n end", "def is_approval_required_for_add\n return @is_approval_required_for_add\n end", "def get_settings\n settings = {}\n settings['sharing_scope'] = self.sharing_scope\n settings['access_type'] = self.access_type\n settings['use_custom_sharing'] = self.use_custom_sharing\n settings['use_whitelist'] = self.use_whitelist\n settings['use_blacklist'] = self.use_blacklist\n return settings\n end", "def review_settings=(value)\n @review_settings = value\n end", "def approval_status\n if object.approval\n \"Zaakceptowane\"\n elsif object.approval == nil\n \"Oczekujące\"\n else\n \"Odrzucone\"\n end\n end", "def approval_params\n params.require(:approval).permit(:approval_status_name, :description)\n end", "def settings\n @scope.settings\n end", "def get_access_approval_service_account request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_get_access_approval_service_account_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Cloud::AccessApproval::V1::AccessApprovalServiceAccount.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def get_attribution_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_get_attribution_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Analytics::Admin::V1alpha::AttributionSettings.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def get_project_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_get_project_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Cloud::ArtifactRegistry::V1beta2::ProjectSettings.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def get_data_retention_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_get_data_retention_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Analytics::Admin::V1alpha::DataRetentionSettings.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def access_request_params\n params.require(:access_request).permit(\n :contact_email,\n :requested_by,\n :service_name,\n :reason,\n :environment_id,\n :client_pub_key_file,\n :client_pub_key\n )\n end", "def app_consent_requests\n return @app_consent_requests\n end", "def set_approval\n @approval = Approval.find(params[:id])\n end", "def set_approval\n @approval = Approval.find(params[:id])\n end", "def approval_status\n self.approved? ? 'Approved ' : 'Pending '\n end", "def visible_request_ids_for_approver\n visible_states = [ApprovalStates::NOTIFIED_STATE, ApprovalStates::COMPLETED_STATE]\n Request.where(:workflow_id => workflow_ids, :state => visible_states).pluck(:id)\n end", "def approved?\n approval_state.present? ? approval_state == 'approved' : approval.try(:approved?)\n end", "def get_settings\n request :get, \"_settings\"\n end", "def get_settings\n request :get, \"_settings\"\n end", "def dismiss_approval_request request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_dismiss_approval_request_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Cloud::AccessApproval::V1::ApprovalRequest.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def approval_json(in_qa)\n json = {\n :group_id => group_id,\n :approved_count => !in_qa ? approved_count : (qa_approved_by ? 1 : 0)\n }\n end", "def is_meeting_request=(value)\n @is_meeting_request = value\n end", "def get_ApprovalURL()\n \t return @outputs[\"ApprovalURL\"]\n \tend", "def first_approval\n miq_approvals.first || build_default_approval\n end", "def invalidate_approval_request request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_invalidate_approval_request_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Cloud::AccessApproval::V1::ApprovalRequest.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def approvals\n approvals_list = []\n if params[:count]\n if params[:skip]\n approvals_list = current_user.db_user.approval_approvers.order('created_at desc').offset(params[:skip].to_i).take(params[:count].to_i)\n else\n approvals_list = current_user.db_user.approval_approvers.order('created_at desc').take(params[:count].to_i)\n end\n else\n approvals_list = current_user.db_user.approval_approvers.order('created_at desc')\n end\n\n # make sure we are only fetching bound approvals\n approvals_list = approvals_list.to_a.select { |approver| approver.approval.is_bound? }\n # return final approvals_list\n render status: 200, json: approvals_list.as_json(include: { approval_type: { }, approval: { methods: [:approval_status, :approval_link, :approval_source_requested_item, :approval_source, :approval_source_character_name, :approval_source_on_behalf_of], include: { approval_kind: { }, approval_approvers: { methods: [:character_name, :approver_response], include: { approval_type: { } } } } } })\n end", "def approval_params\r\n # params.fetch(:approval, {})\r\n params.require(:approval).permit(:approval_type, :date, :approval_no, :sub_type, :description, :standard, :reference, :effective_date, :expiry_date, :status, :notes, :approval_doc, product_ids: [])\r\n end", "def auto_approve_type\n 'auto'\n end", "def merge_requests_enabled=(value)\n write_feature_attribute_boolean(:merge_requests_access_level, value)\n end", "def automatic_user_consent_settings=(value)\n @automatic_user_consent_settings = value\n end", "def merge_request_approval_state(project, id)\n get(\"/projects/#{url_encode project}/merge_requests/#{id}/approval_state\")\n end", "def auth_settings\n {\n 'accessToken' =>\n {\n type: 'bearer',\n in: 'header',\n key: 'Authorization',\n value: \"Bearer #{access_token}\"\n },\n }\n end", "def auth_settings\n {\n 'accessToken' =>\n {\n type: 'bearer',\n in: 'header',\n key: 'Authorization',\n value: \"Bearer #{access_token}\"\n },\n }\n end", "def approve(request_id)\n @client.make_request :post,\n requests_path('approve'),\n request_id: request_id\n end", "def perms_required_for( request )\n\t\tself.log.debug \"Gathering required perms for: %s %s\" % [ request.verb, request.app_path ]\n\n\t\t# Return the empty set if any negative auth criteria match\n\t\treturn [] if self.negative_perms_criteria_match?( request )\n\n\t\t# If there aren't any positive criteria, default to requiring authorization with\n\t\t# the app's ID as the permission\n\t\tif self.class.positive_perms_criteria.empty?\n\t\t\treturn [ self.default_permission ]\n\t\tend\n\n\t\t# Apply positive auth criteria\n\t\treturn self.union_positive_perms_criteria( request )\n\tend", "def settings\n # JSONSettingDataSource.file_semaphore.synchronize do\n return @settings\n # end\n end", "def settings_params\n params[:settings]\n end", "def change_renewal_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_change_renewal_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Longrunning::Operation.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def settings\n request(Resources::RESOURCE_SETTINGS, HTTP_METHOD_POST)\n end", "def can_approve\n perms = project_permissions\n if rule.review_requestor_id.nil?\n errors.add(:base, 'Control is not currently under review')\n elsif perms != 'admin' && perms != 'reviewer'\n errors.add(:base, 'Only admins and reviewers can approve')\n elsif perms == 'reviewer' && user.id == rule.review_requestor_id\n errors.add(:base, 'Reviewers cannot review their own review requests')\n end\n end", "def update_auto_approve_setting\n service_response = ClientManagement::UpdateAutoApproveSetting.new(params).perform\n render_api_response(service_response)\n end", "def approver_request_ids\n Request.where(:workflow_id => workflow_ids).pluck(:id).sort\n end", "def approver_request_ids\n Request.where(:workflow_id => workflow_ids).pluck(:id).sort\n end", "def approved\n @req = Request.last\n RequestMailer.approved(@req)\n end", "def get_settings(options = {}, request_options = {})\n options['getVersion'] = 2 if !options[:getVersion] && !options['getVersion']\n client.get(Protocol.settings_uri(name, options).to_s, :read, request_options)\n end", "def project_restriction_params\n params[:project_restriction]\n end", "def get_data_sharing_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_get_data_sharing_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Analytics::Admin::V1alpha::DataSharingSettings.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def grant_permission\n @attributes[:grant_permission]\n end", "def settings\n return @settings\n end", "def settings\n return @settings\n end", "def pending_manager_approval?\n @is_pending_manager_approval\n end", "def update_data_retention_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_update_data_retention_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Analytics::Admin::V1alpha::DataRetentionSettings.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end" ]

[ "0.8051811", "0.69303685", "0.6435635", "0.63760555", "0.6246672", "0.5903661", "0.5872205", "0.5865275", "0.58333534", "0.5704713", "0.56319773", "0.5566952", "0.55030644", "0.54560083", "0.53921473", "0.5290603", "0.5276922", "0.52046865", "0.5179562", "0.5135223", "0.5135179", "0.5134282", "0.5132049", "0.50918216", "0.5052645", "0.5033028", "0.502186", "0.49877158", "0.49840036", "0.49768206", "0.49547604", "0.49511933", "0.49306822", "0.4854411", "0.4820092", "0.4820092", "0.48079342", "0.48049", "0.47645977", "0.47301993", "0.4712267", "0.4710865", "0.4695768", "0.46597362", "0.46350682", "0.461675", "0.46141508", "0.46124816", "0.4603833", "0.45906943", "0.45861647", "0.45829758", "0.4577392", "0.45710152", "0.4569737", "0.45691788", "0.45355314", "0.45346314", "0.4527758", "0.45156437", "0.45068046", "0.45068046", "0.45025346", "0.4469734", "0.44675106", "0.44650847", "0.44650847", "0.4454184", "0.44390306", "0.44297078", "0.4428526", "0.44202617", "0.4412257", "0.4410969", "0.44085813", "0.43908158", "0.43680933", "0.43664804", "0.43658346", "0.43275633", "0.43275633", "0.43236747", "0.43202", "0.43176004", "0.4317481", "0.43133014", "0.43047062", "0.42880517", "0.42835528", "0.42724034", "0.42724034", "0.42717966", "0.4264224", "0.42609435", "0.42524037", "0.42416862", "0.4235603", "0.4235603", "0.42296004", "0.4228994" ]

[ "def update_access_approval_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_update_access_approval_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Cloud::AccessApproval::V1::AccessApprovalSettings.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def is_approval_request=(value)\n @is_approval_request = value\n end", "def request_approval_settings\n return @request_approval_settings\n end", "def access_package_assignment_approvals=(value)\n @access_package_assignment_approvals = value\n end", "def requestor_settings=(value)\n @requestor_settings = value\n end", "def get_access_approval_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_get_access_approval_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Cloud::AccessApproval::V1::AccessApprovalSettings.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def automatic_request_settings=(value)\n @automatic_request_settings = value\n end", "def implicit_grant_settings=(value)\n @implicit_grant_settings = value\n end", "def update_request_settings(opts = {})\n data, _status_code, _headers = update_request_settings_with_http_info(opts)\n data\n end", "def approval_params\n params.require(:approval).permit(:policy_resolution_id, :approval_type, :approver_id, :approved, :remarks)\n end", "def delete_access_approval_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_delete_access_approval_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Protobuf::Empty.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def approve_approval_request request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_approve_approval_request_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Cloud::AccessApproval::V1::ApprovalRequest.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def assignment_requests=(value)\n @assignment_requests = value\n end", "def enforced_settings=(value)\n @enforced_settings = value\n end", "def edit_merge_request_approvals(project, merge_request, options = {})\n post(\"/projects/#{url_encode project}/merge_requests/#{merge_request}/approvals\", body: options)\n end", "def list_approval_requests request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_list_approval_requests_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Cloud::AccessApproval::V1::ListApprovalRequestsResponse.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def app_consent_requests=(value)\n @app_consent_requests = value\n end", "def approve(request_id)\n @client.make_request :post,\n requests_path('approve'),\n request_id: request_id\n end", "def is_approval_request\n return @is_approval_request\n end", "def is_approval_required_for_update=(value)\n @is_approval_required_for_update = value\n end", "def approval_id=(value)\n @approval_id = value\n end", "def set_approval\n @approval = Approval.find(params[:id])\n end", "def set_approval\n @approval = Approval.find(params[:id])\n end", "def access_request_params\n params.require(:access_request).permit(\n :contact_email,\n :requested_by,\n :service_name,\n :reason,\n :environment_id,\n :client_pub_key_file,\n :client_pub_key\n )\n end", "def create_request_settings(opts = {})\n data, _status_code, _headers = create_request_settings_with_http_info(opts)\n data\n end", "def change_renewal_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_change_renewal_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Longrunning::Operation.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def update_auto_approve_setting\n service_response = ClientManagement::UpdateAutoApproveSetting.new(params).perform\n render_api_response(service_response)\n end", "def review_settings=(value)\n @review_settings = value\n end", "def set_approval_state(state)\n return unless self.class.approvable_field\n send(\"#{self.class.approvable_field}=\".to_sym, state)\n end", "def approval_params\n params.require(:approval).permit(:approval_status_name, :description)\n end", "def update_settings(settings)\n request :put, \"_settings\", nil, settings\n end", "def update_settings(settings)\n request :put, \"_settings\", nil, settings\n end", "def is_approval_required_for_add=(value)\n @is_approval_required_for_add = value\n end", "def automatic_user_consent_settings=(value)\n @automatic_user_consent_settings = value\n end", "def enable_on_behalf_requestors_to_update_access=(value)\n @enable_on_behalf_requestors_to_update_access = value\n end", "def invalidate_approval_request request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_invalidate_approval_request_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Cloud::AccessApproval::V1::ApprovalRequest.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def approve_merge_request(project, merge_request, options = {})\n post(\"/projects/#{url_encode project}/merge_requests/#{merge_request}/approve\", body: options)\n end", "def set(settings, access_token:)\n response = post '', body: settings.to_json, query: {\n access_token: access_token\n }\n\n raise_errors(response)\n\n true\n end", "def set_settings!(new_settings, options = {}, request_options = {})\n res = set_settings(new_settings, options, request_options)\n wait_task(res['taskID'], WAIT_TASK_DEFAULT_TIME_BEFORE_RETRY, request_options)\n res\n end", "def approval_params\r\n # params.fetch(:approval, {})\r\n params.require(:approval).permit(:approval_type, :date, :approval_no, :sub_type, :description, :standard, :reference, :effective_date, :expiry_date, :status, :notes, :approval_doc, product_ids: [])\r\n end", "def set_approval\r\n @approval = Approval.find(params[:id])\r\n end", "def update_request_settings_with_http_info(opts = {})\n if @api_client.config.debugging\n @api_client.config.logger.debug 'Calling API: RequestSettingsApi.update_request_settings ...'\n end\n # unbox the parameters from the hash\n service_id = opts[:'service_id']\n version_id = opts[:'version_id']\n request_settings_name = opts[:'request_settings_name']\n # verify the required parameter 'service_id' is set\n if @api_client.config.client_side_validation && service_id.nil?\n fail ArgumentError, \"Missing the required parameter 'service_id' when calling RequestSettingsApi.update_request_settings\"\n end\n # verify the required parameter 'version_id' is set\n if @api_client.config.client_side_validation && version_id.nil?\n fail ArgumentError, \"Missing the required parameter 'version_id' when calling RequestSettingsApi.update_request_settings\"\n end\n # verify the required parameter 'request_settings_name' is set\n if @api_client.config.client_side_validation && request_settings_name.nil?\n fail ArgumentError, \"Missing the required parameter 'request_settings_name' when calling RequestSettingsApi.update_request_settings\"\n end\n allowable_values = [\"lookup\", \"pass\"]\n if @api_client.config.client_side_validation && opts[:'action'] && !allowable_values.include?(opts[:'action'])\n fail ArgumentError, \"invalid value for \\\"action\\\", must be one of #{allowable_values}\"\n end\n allowable_values = [\"clear\", \"leave\", \"append\", \"append_all\", \"overwrite\"]\n if @api_client.config.client_side_validation && opts[:'xff'] && !allowable_values.include?(opts[:'xff'])\n fail ArgumentError, \"invalid value for \\\"xff\\\", must be one of #{allowable_values}\"\n end\n # resource path\n local_var_path = '/service/{service_id}/version/{version_id}/request_settings/{request_settings_name}'.sub('{' + 'service_id' + '}', CGI.escape(service_id.to_s)).sub('{' + 'version_id' + '}', CGI.escape(version_id.to_s)).sub('{' + 'request_settings_name' + '}', CGI.escape(request_settings_name.to_s))\n\n # query parameters\n query_params = opts[:query_params] || {}\n\n # header parameters\n header_params = opts[:header_params] || {}\n # HTTP header 'Accept' (if needed)\n header_params['Accept'] = @api_client.select_header_accept(['application/json'])\n # HTTP header 'Content-Type'\n content_type = @api_client.select_header_content_type(['application/x-www-form-urlencoded'])\n if !content_type.nil?\n header_params['Content-Type'] = content_type\n end\n\n # form parameters\n form_params = opts[:form_params] || {}\n form_params['action'] = opts[:'action'] if !opts[:'action'].nil?\n form_params['default_host'] = opts[:'default_host'] if !opts[:'default_host'].nil?\n form_params['hash_keys'] = opts[:'hash_keys'] if !opts[:'hash_keys'].nil?\n form_params['name'] = opts[:'name'] if !opts[:'name'].nil?\n form_params['request_condition'] = opts[:'request_condition'] if !opts[:'request_condition'].nil?\n form_params['xff'] = opts[:'xff'] if !opts[:'xff'].nil?\n form_params['bypass_busy_wait'] = opts[:'bypass_busy_wait'] if !opts[:'bypass_busy_wait'].nil?\n form_params['force_miss'] = opts[:'force_miss'] if !opts[:'force_miss'].nil?\n form_params['force_ssl'] = opts[:'force_ssl'] if !opts[:'force_ssl'].nil?\n form_params['geo_headers'] = opts[:'geo_headers'] if !opts[:'geo_headers'].nil?\n form_params['max_stale_age'] = opts[:'max_stale_age'] if !opts[:'max_stale_age'].nil?\n form_params['timer_support'] = opts[:'timer_support'] if !opts[:'timer_support'].nil?\n\n # http body (model)\n post_body = opts[:debug_body]\n\n # return_type\n return_type = opts[:debug_return_type] || 'RequestSettingsResponse'\n\n # auth_names\n auth_names = opts[:debug_auth_names] || ['token']\n\n new_options = opts.merge(\n :operation => :\"RequestSettingsApi.update_request_settings\",\n :header_params => header_params,\n :query_params => query_params,\n :form_params => form_params,\n :body => post_body,\n :auth_names => auth_names,\n :return_type => return_type\n )\n\n data, status_code, headers = @api_client.call_api(:PUT, local_var_path, new_options)\n if @api_client.config.debugging\n @api_client.config.logger.debug \"API called: RequestSettingsApi#update_request_settings\\nData: #{data.inspect}\\nStatus code: #{status_code}\\nHeaders: #{headers}\"\n end\n return data, status_code, headers\n end", "def set_approval_process\n @approval_process = ApprovalProcess.find(params[:id])\n end", "def update_attribution_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_update_attribution_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Analytics::Admin::V1alpha::AttributionSettings.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def set_approval_group\n @approval_group = ApprovalGroup.find(params[:id])\n end", "def set_approval\n self.sanctuary? ? self.approved = false : self.approved = true\n end", "def get_approval_request request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_get_approval_request_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Cloud::AccessApproval::V1::ApprovalRequest.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def settings_params\n params.require(:org_settings).permit(*OrgSettings.fields)\n end", "def dismiss_approval_request request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_dismiss_approval_request_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Cloud::AccessApproval::V1::ApprovalRequest.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def approve_request\n puts \"............. AccountmanagerController::approve_request \"+params[:user_id].to_s\n # Change the user type to be a member of SRDR\n user_id = params[:user_id].to_i\n @user = User.find(:first, :conditions=>[\"id = ?\",user_id])\n @user.user_type = \"member\"\n @user.save\n\n # Move the registration status to APPROVED\n @registration = Registar.find(:first, :conditions=>[\"login = ?\",@user.login])\n @registration.status = \"APPROVED\"\n @registration.save\n\n # Add Organization if it does not already exist\n @organization = Organizations.find(:first, :conditions=>[\"name = ?\",@user.organization])\n if @organization.nil? &&\n !@user.organization.nil? &&\n (@user.organization.length > 0)\n @organization = Organizations.new\n @organization.name = params[\"organization\"]\n @organization.contact_name = \"No Contact\"\n @organization.save\n else\n # Set default organization for this user\n @organization = Organizations.new\n @organization.name = \"TMC EPC\"\n @organization.contact_name = \"No Contact\"\n @organization.save\n end\n\n # Now setup the user's organization role\n @userorgroles = UserOrganizationRole.new\n @userorgroles.user_id = @user.id\n @userorgroles.role = \"contributor\"\n @userorgroles.status = \"VALID\"\n @userorgroles.organization_id = @organization.id\n @userorgroles.save\n\n # Send E-mail notification of approval to the user\n #ConfirmationMailer.notifyApproval(@registration).deliver\n\n # Go back to user list - added to SRDR-Dev only\n redirect_to \"/home/user_list\"\n end", "def set_settings(settings, opts = {})\n data, _status_code, _headers = set_settings_with_http_info(settings, opts)\n data\n end", "def merge_request_approvals(project, merge_request)\n get(\"/projects/#{url_encode project}/merge_requests/#{merge_request}/approvals\")\n end", "def update_project_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_update_project_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Cloud::ArtifactRegistry::V1beta2::ProjectSettings.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def update_data_retention_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_update_data_retention_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Analytics::Admin::V1alpha::DataRetentionSettings.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def project_merge_request_approval_rules(project)\n get(\"/projects/#{url_encode project}/approval_rules\")\n end", "def access_package_assignment_approvals\n return @access_package_assignment_approvals\n end", "def approvals_count\n return 0 if self.id.nil?\n return RequestSearch.approvals_for(self, show: 'pending', per_page: 1000).count\n end", "def set_settings(new_settings, options = {}, request_options = {})\n client.put(Protocol.settings_uri(name, options), new_settings.to_json, :write, request_options)\n end", "def get_request_settings(opts = {})\n data, _status_code, _headers = get_request_settings_with_http_info(opts)\n data\n end", "def set_request_period(period)\n\t\t@object_builder.set_request_period(period)\n\tend", "def set_approval_unit\n @approval_unit = ApprovalUnit.find(params[:id])\n end", "def settings=(value)\n @settings = value\n end", "def settings=(value)\n @settings = value\n end", "def assign_approver\n if approver == \"1\"\n document.approver = user\n document.save!\n end\n end", "def application_enforced_restrictions=(value)\n @application_enforced_restrictions = value\n end", "def set_budget_approver\n @budget_approver = BudgetApprover.find(params[:id])\n end", "def party_approval_params\n params.require(:party_approval).permit(:user, :party, :approval)\n end", "def set_cleaners_approval_process\n @cleaners_approval_process = Cleaners::ApprovalProcess.find(params[:id])\n end", "def update_review_generation_settings(account_id, v, review_generation_settings_request, opts = {})\n data, _status_code, _headers = update_review_generation_settings_with_http_info(account_id, v, review_generation_settings_request, opts)\n return data\n end", "def is_meeting_request=(value)\n @is_meeting_request = value\n end", "def list_request_settings(opts = {})\n data, _status_code, _headers = list_request_settings_with_http_info(opts)\n data\n end", "def merge_requests_enabled=(value)\n write_feature_attribute_boolean(:merge_requests_access_level, value)\n end", "def delete_request_settings(opts = {})\n data, _status_code, _headers = delete_request_settings_with_http_info(opts)\n data\n end", "def approve\n set_service_request_status(ServiceProvider, ServiceRequest.statuses[:approved])\n\n # notify client\n NotificationsService.send_notification(@current_user, @service_request.service.client, NOTIFICATION_TYPE[:approved_your_request], @service_request.service_id)\n end", "def requestor_settings\n return @requestor_settings\n end", "def automatic_request_settings\n return @automatic_request_settings\n end", "def set_request_grant\n @request_grant = RequestGrant.find(params[:id])\n end", "def initialize(approval_box)\n @approval_box = approval_box\n end", "def edit_settings(settings)\n queries = password_hash\n queries[:query][:settings] = \"#{settings.to_json}\"\n put \"/setup/api/settings\", queries\n end", "def update_access_policy request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_update_access_policy_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Longrunning::Operation.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def budget_approver_params\n params.fetch(:budget_approver, {})\n end", "def set_request\n power = Power.new current_user\n if action_name == 'update'\n @requests = power.patchable_requests\n else\n @requests = power.requests\n end\n\n if @requests && params[:id]\n @request = @requests.find(params[:id])\n end\n end", "def gricer_request=(gricer_request)\n @gricer_request = gricer_request\n end", "def requestAs=(value)\n\t\t\t@requestAs = value\n\t\tend", "def requestAs=(value)\n\t\t\t@requestAs = value\n\t\tend", "def update(settings)\n\t\t\tkparams = {}\n\t\t\tclient.add_param(kparams, 'settings', settings)\n\t\t\tclient.queue_service_action_call('notificationspartnersettings', 'update', 'bool', kparams)\n\t\t\tif (client.is_multirequest)\n\t\t\t\treturn nil\n\t\t\tend\n\t\t\treturn client.do_queue()\n\t\tend", "def request_approved(request)\n @request = request\n @email = @request.clid + '@louisiana.edu'\n mail to: @email, subject: \"Room Change Request Approved\"\n end", "def link_request_params\n params.require(:link_request).permit(:id, :show_admin, :traffic, :comment, :duration, \n approvals_attributes: [ :status, ip_attributes:[:fqdn, :vlan_id] ])\n end", "def request_type_params\n params.require(:request_type).permit(:name, :note, :requires_supervisor_approval, :requires_supervisor_supervisor_approval, :requires_dpe_approval, :requires_dpe_supervisor_approval, :cancel_url, :redirect_url, {virtual_object_attachments: [], virtual_object_attachments_cache: [], virtual_object_attachments_small: []})\n end", "def set_access_request\n @access_request = AccessRequest.find(params[:id])\n end", "def escalation_approvers=(value)\n @escalation_approvers = value\n end", "def initialize(request_entity)\n @request_entity = request_entity \n @approval_groups = []\n @approval = nil\n end", "def work_profile_default_app_permission_policy=(value)\n @work_profile_default_app_permission_policy = value\n end", "def merge_request_level_rule(project, merge_request)\n get(\"/projects/#{url_encode project}/merge_requests/#{merge_request}/approval_rules\")\n end", "def request_pre_approval(account = nil)\n params = Serializer.new(self).to_params\n response = post('/pre-approvals/request', API_V2 ,account, params).parsed_response\n code = response['preApprovalRequest']['code']\n \n PagSeguro.redirect_url(API_V2) + \"/pre-approvals/request.html?code=#{code}\"\n end", "def set_party_approval\n @party_approval = PartyApproval.find(params[:id])\n end", "def set_training_approval\n @training_approval = TrainingApproval.find(params[:id])\n end", "def approve!\n raise 'not pending' unless self.status == 'PENDING'\n\n transaction do\n self.status = 'APPROVED'\n self.save!\n overlapping_pending_requests.update_all(status: 'DENIED')\n end\n end", "def threat_assessment_requests=(value)\n @threat_assessment_requests = value\n end", "def set_package_request\n @package_request = PackageRequest.find(params[:id])\n end" ]

[ "0.6657894", "0.6259991", "0.61092204", "0.5946931", "0.59429383", "0.59375066", "0.5823624", "0.5560329", "0.53794026", "0.5348856", "0.5246192", "0.5225701", "0.5221783", "0.5109287", "0.50910115", "0.5072751", "0.50519526", "0.5020044", "0.49376327", "0.49360403", "0.49353668", "0.4864215", "0.4864215", "0.48246714", "0.47266093", "0.47094983", "0.46538836", "0.46492115", "0.46431297", "0.46356526", "0.46309918", "0.46309918", "0.4622973", "0.461487", "0.46139762", "0.4594342", "0.45631686", "0.4532785", "0.45249805", "0.4517482", "0.45053664", "0.44790113", "0.44759706", "0.44605863", "0.44572616", "0.4456949", "0.44510865", "0.44434392", "0.44385073", "0.44364426", "0.4421147", "0.44126663", "0.44019943", "0.4400287", "0.4397598", "0.43855745", "0.43601337", "0.43527725", "0.4342852", "0.43424734", "0.43414667", "0.4329207", "0.4329207", "0.432543", "0.43156263", "0.4308447", "0.4290931", "0.42907915", "0.42761627", "0.42688942", "0.42676437", "0.4254197", "0.4253062", "0.42488834", "0.42468005", "0.42451403", "0.42398095", "0.42385077", "0.42299488", "0.42262667", "0.4220886", "0.421747", "0.42143637", "0.41942155", "0.41942155", "0.4192871", "0.41926822", "0.4187097", "0.4181343", "0.41764188", "0.4175408", "0.41664606", "0.41590184", "0.41571447", "0.41559345", "0.41526884", "0.4149438", "0.41481343", "0.41440648", "0.41227242" ]

[ "def requestor_settings=(value)\n @requestor_settings = value\n end", "def request_approval_settings\n return @request_approval_settings\n end", "def request_approval_settings=(value)\n @request_approval_settings = value\n end", "def requestor=(value)\n @requestor = value\n end", "def automatic_request_settings\n return @automatic_request_settings\n end", "def requestor\n return @requestor\n end", "def get_settings\n settings = {}\n settings['sharing_scope'] = self.sharing_scope\n settings['access_type'] = self.access_type\n settings['use_custom_sharing'] = self.use_custom_sharing\n settings['use_whitelist'] = self.use_whitelist\n settings['use_blacklist'] = self.use_blacklist\n return settings\n end", "def implicit_grant_settings\n return @implicit_grant_settings\n end", "def automatic_request_settings=(value)\n @automatic_request_settings = value\n end", "def get_request_settings(opts = {})\n data, _status_code, _headers = get_request_settings_with_http_info(opts)\n data\n end", "def settings\n return @settings\n end", "def settings\n return @settings\n end", "def settings\n @settings ||= get('/settings')['settings']\n end", "def implicit_grant_settings=(value)\n @implicit_grant_settings = value\n end", "def get_settings\n request :get, \"_settings\"\n end", "def get_settings\n request :get, \"_settings\"\n end", "def get_settings\n settings.get\n end", "def package_settings\n properties[:package_settings]\n end", "def package_settings\n properties[:package_settings]\n end", "def settings\n @scope.settings\n end", "def parental_control_settings\n return @parental_control_settings\n end", "def enforced_settings\n return @enforced_settings\n end", "def settings\n attributes.fetch(:settings)\n end", "def get_request_log_settings()\n data, _status_code, _headers = get_request_log_settings_with_http_info()\n return data\n end", "def settings\n {\n name: @client.self.name,\n team: @client.team.name,\n domain: @client.team.domain\n }\n end", "def review_settings\n return @review_settings\n end", "def settings\n # JSONSettingDataSource.file_semaphore.synchronize do\n return @settings\n # end\n end", "def settings\n @settings ||= {}\n end", "def settings\n @settings ||= {}\n end", "def runner_settings\n\t\t\treturn {\n\t\t\t\tmax_concurrency: Arborist::Monitor::Webservice.max_concurrency,\n\t\t\t}\n\t\tend", "def settings\n @settings_manager\n end", "def settings\n @settings ||= {}\n end", "def settings\r\n @@settings\r\n end", "def settings\n self.class.settings\n end", "def settings_params\n params[:settings]\n end", "def settings\n @settings ||= OpenStruct.new(opts[:dm_config].first)\n # dm_js_location, dm_css_location\n # dm_js_location: javascripts\n # dm_css_location: stylesheets\n end", "def settings\n @settings\n end", "def settings\n @settings ||= self.class.settings.dup\n end", "def requestor; organization; end", "def automatic_user_consent_settings\n return @automatic_user_consent_settings\n end", "def get_access_approval_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_get_access_approval_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Cloud::AccessApproval::V1::AccessApprovalSettings.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def settings\n request(Resources::RESOURCE_SETTINGS, HTTP_METHOD_POST)\n end", "def auth_settings\n {\n 'Bearer' =>\n {\n type: 'api_key',\n in: 'header',\n key: 'Authorization',\n value: api_key_with_prefix('Authorization')\n },\n 'Educator' =>\n {\n type: 'api_key',\n in: 'query',\n key: 'educator_slug',\n value: api_key_with_prefix('educator_slug')\n },\n }\n end", "def get_settings\n get_uri = @data['uri'] + '/settings'\n response = @client.rest_get(get_uri, {}, @api_version)\n @client.response_handler(response)\n end", "def get_override_settings\n {}\n end", "def setting\n return @setting\n end", "def settings=(value)\n @settings = value\n end", "def settings=(value)\n @settings = value\n end", "def available_settings\n return @@settings_by_type[self.resource_type]\n end", "def settings\n @settings ||= settings_class&.new(self)\n end", "def create_request_settings(opts = {})\n data, _status_code, _headers = create_request_settings_with_http_info(opts)\n data\n end", "def get_settings(options = {}, request_options = {})\n options['getVersion'] = 2 if !options[:getVersion] && !options['getVersion']\n client.get(Protocol.settings_uri(name, options).to_s, :read, request_options)\n end", "def grantor\n @data['grantor']\n end", "def settings\n\t\tif setting = params[\"settings\"]\n\t\t\tsetting.each do |k,v|\n\t\t\t\tv = v == \"1\" if v == \"1\" or v == \"0\"\n\t\t\t\tlogger.debug \"Setting #{k} to #{v.inspect}\"\n\t\t\t\tSettings[k] = v\n\t\t\tend\n\t\tend\n\t\thead :ok\n\tend", "def recommendation_insight_settings\n return @recommendation_insight_settings\n end", "def windows_restriction\n return @windows_restriction\n end", "def available_settings\n instance.available_settings\n end", "def settings\n @settings ||= {}\n end", "def get_settings\n get_uri = @data['uri'] + '/settings'\n response = @client.rest_get(get_uri, {}, @api_version)\n @client.response_handler(response)\n end", "def settings\n settings_name = self.class.settings_name\n unless settings_name\n raise Exception.new(\"settings_name undefined for #{self.class}\")\n end\n if Settings.instance[settings_name].nil?\n Settings.instance[settings_name] = self.class.default_settings\n end\n return Settings.instance[settings_name]\n end", "def inheritable_settings\n return @inheritable_settings\n end", "def on_behalf_requestors=(value)\n @on_behalf_requestors = value\n end", "def auth_settings\n {\n }\n end", "def auth_settings\n {\n }\n end", "def auth_settings\n {\n }\n end", "def settings\n MailSettings.new.mail_server_settings\n end", "def review_settings=(value)\n @review_settings = value\n end", "def settings\n # TODO\n {}\n end", "def option_group_option_settings\n data.option_group_option_settings\n end", "def auth_settings\n {\n 'Bearer' =>\n {\n type: 'api_key',\n in: 'header',\n key: 'Authorization',\n value: api_key_with_prefix('Authorization')\n },\n 'Client Credentials' =>\n {\n type: 'oauth2',\n in: 'header',\n key: 'Authorization',\n value: \"Bearer #{access_token}\"\n },\n 'OAuth' =>\n {\n type: 'oauth2',\n in: 'header',\n key: 'Authorization',\n value: \"Bearer #{access_token}\"\n },\n }\n end", "def settings\n base_configuration.settings + self.class.settings\n end", "def settings\n @settings ||= Settings.new\n end", "def settings\n @settings ||= Settings.new\n end", "def reseller_settings\n @page_title = _('Settings')\n @page_icon = 'cog.png'\n\n @countries = Direction.find(:all, :order => \"name ASC\")\n if Confline.get_value(\"User_Wholesale_Enabled\").to_i == 0\n cond = \" AND purpose = 'user' \"\n else\n cond = \" AND (purpose = 'user' OR purpose = 'user_wholesale') \"\n end\n @tariffs = Tariff.find(:all, :conditions => \"owner_id = '#{session[:user_id]}' #{cond} \", :order => \"purpose ASC, name ASC\")\n\n @currencies =Currency.get_active\n @user_id = session[:user_id]\n @user = current_user\n User.exists_resellers_confline_settings(session[:user_id])\n @agreement = Confline.get(\"Registration_Agreement\", session[:user_id])\n\n end", "def auth_settings\n {\n 'apikey' =>\n {\n type: 'api_key',\n in: 'header',\n key: 'api-key',\n value: api_key_with_prefix('api-key')\n },\n 'userid' =>\n {\n type: 'api_key',\n in: 'header',\n key: 'user-uid',\n value: api_key_with_prefix('user-uid')\n },\n }\n end", "def parental_control_settings=(value)\n @parental_control_settings = value\n end", "def get_settings\n return @client.raw(\"get\", \"/config/settings\")\n end", "def auth_settings\n {\n 'accessToken' =>\n {\n type: 'bearer',\n in: 'header',\n key: 'Authorization',\n value: \"Bearer #{access_token}\"\n },\n }\n end", "def auth_settings\n {\n 'accessToken' =>\n {\n type: 'bearer',\n in: 'header',\n key: 'Authorization',\n value: \"Bearer #{access_token}\"\n },\n }\n end", "def admin_mode_requested_rs_key\n @admin_mode_requested_rs_key ||= { res: :current_user_mode, user: user.id, method: :admin_mode_requested? }\n end", "def settings\r\n Mutable[self]\r\n end", "def update_request_settings(opts = {})\n data, _status_code, _headers = update_request_settings_with_http_info(opts)\n data\n end", "def redirect_uri_settings\n return @redirect_uri_settings\n end", "def auth_settings\n {\n 'api_key' =>\n {\n type: 'api_key',\n in: 'header',\n key: 'API-Key',\n value: api_key_with_prefix('API-Key')\n },\n }\n end", "def get_attribution_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_get_attribution_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Analytics::Admin::V1alpha::AttributionSettings.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def get_client_settings\n cp = ClientPlan.get_client_plan_from_memcache(@client_id)\n pepo_campaign = ClientPepoCampaignDetail.get_from_memcache(@client_id)\n web_host = ClientWebHostDetail.get_from_memcache_by_client_id(@client_id)\n token_sale_detail = ClientTokenSaleDetail.get_from_memcache(@client_id)\n kyc_config_detail = @client.client_kyc_config_detail\n super_admins = Admin.where(default_client_id: @client_id, role: GlobalConstant::Admin.super_admin_role).not_deleted.all\n\n super_admins_data = super_admins.map {|x|\n {\n email: x.email,\n password: SecureRandom.hex,\n name: x.name\n }\n }\n\n @client_setting = {\n client_plan: {\n add_ons: cp.add_ons_array,\n kyc_submissions_count: cp.kyc_submissions_count\n },\n super_admins: super_admins_data,\n double_opt_in: @client.is_verify_page_active_for_client?,\n client_name: @client.name,\n pepo_campaign: {\n api_key: pepo_campaign.api_key,\n api_secret: decrypted_value(pepo_campaign.api_secret)\n },\n token_sale_details: {\n token_name: token_sale_detail.token_name,\n token_symbol: token_sale_detail.token_symbol,\n sale_start_timestamp: token_sale_detail.sale_start_timestamp,\n registration_end_timestamp: token_sale_detail.registration_end_timestamp,\n sale_end_timestamp: token_sale_detail.sale_end_timestamp,\n },\n kyc_config: {\n kyc_fields: kyc_config_detail.kyc_fields_array,\n residency_proof_nationalities: kyc_config_detail.residency_proof_nationalities,\n blacklisted_countries: kyc_config_detail.blacklisted_countries,\n auto_send_kyc_emails: kyc_config_detail.auto_send_kyc_emails_array\n }\n }\n\n if web_host.present?\n @client_setting[:web_host] = {\n domain: web_host.domain\n }\n\n r = SandboxManagement::CmsConfigurator::GetPublishedDraft.new(\n {decoded_token_data: {uuid: @uuid}}).perform\n return r unless r.success?\n\n @client_setting[:entity_type_and_data_hash] = r.data[:entity_type_and_data_hash]\n end\n\n success\n\n end", "def default_settings\n {\n :ctrip_username => '',\n :ctrip_password => '',\n :ctrip_hotel_id => '',\n :ctrip_code_context => '',\n\n :ctrip_company_code => 'C',\n\n # 10 is for Channel Manager (see Ctrip Integration API Specification V2.2.pdf)\n # While 1 is for indifidual hotel.\n :ctrip_user_category => 10\n }\n end", "def config\n requester.config \n end", "def settings\n\t\tcheck_if_myself\n\t\t@user = current_user\n\tend", "def user_requested_by\n response = get(\"users/self/requested-by\")\n response\n end", "def setting_params\n params[:setting]\n end", "def activation_policy\n settings[:activation_policy]\n end", "def settings\n self.network[self.class]\n end", "def setting_name\n return @setting_name\n end", "def group_settings()\n return MicrosoftGraph::GroupSettings::GroupSettingsRequestBuilder.new(@path_parameters, @request_adapter)\n end", "def access_package_assignment_approvals\n return @access_package_assignment_approvals\n end", "def auth_settings\n {\n 'basicAuth' =>\n {\n type: 'basic',\n in: 'header',\n key: 'Authorization',\n value: basic_auth_token\n },\n 'bearerAuth' =>\n {\n type: 'bearer',\n in: 'header',\n key: 'Authorization',\n value: \"Bearer #{access_token}\"\n },\n }\n end", "def firewall_merge_keying_module_settings\n return @firewall_merge_keying_module_settings\n end", "def appl_settings\n @appl_settings\n end", "def settings\n # Requires authorization\n raise PutioError::AuthorizationRequired if authentication_required!\n\n make_get_call('/account/settings').settings\n end" ]

[ "0.8177266", "0.69143474", "0.656335", "0.64698523", "0.63895756", "0.63207036", "0.600975", "0.5777073", "0.5724139", "0.5673334", "0.5620587", "0.5620587", "0.5609717", "0.560598", "0.5570528", "0.5570528", "0.55498683", "0.5526068", "0.5526068", "0.549345", "0.5478358", "0.5451999", "0.5422601", "0.5414685", "0.5399239", "0.5397342", "0.535384", "0.5315082", "0.5315082", "0.5290805", "0.526267", "0.52415156", "0.52244097", "0.5191667", "0.5176661", "0.51570994", "0.5149668", "0.51488537", "0.51392615", "0.5139175", "0.51360255", "0.51227444", "0.5113932", "0.5096811", "0.50948155", "0.50933516", "0.5092652", "0.5092652", "0.50614786", "0.50474364", "0.50429904", "0.5032973", "0.5017842", "0.50090194", "0.5007786", "0.50004864", "0.4989989", "0.49888203", "0.49884197", "0.49803466", "0.49707034", "0.49648008", "0.4960104", "0.4960104", "0.4960104", "0.4956928", "0.49567887", "0.4951671", "0.49496388", "0.49451756", "0.49434537", "0.494154", "0.494154", "0.4924892", "0.49176854", "0.49113888", "0.49058732", "0.4897173", "0.4897173", "0.48931846", "0.48838994", "0.48725492", "0.4855009", "0.48494282", "0.4848261", "0.4844432", "0.48415524", "0.48368976", "0.4834488", "0.48299935", "0.4824723", "0.48182333", "0.48148435", "0.48036408", "0.48008034", "0.47989687", "0.4795084", "0.4790061", "0.47869474", "0.47847882" ]

[ "def requestor=(value)\n @requestor = value\n end", "def requestor_settings\n return @requestor_settings\n end", "def request_approval_settings=(value)\n @request_approval_settings = value\n end", "def automatic_request_settings=(value)\n @automatic_request_settings = value\n end", "def implicit_grant_settings=(value)\n @implicit_grant_settings = value\n end", "def enable_on_behalf_requestors_to_update_access=(value)\n @enable_on_behalf_requestors_to_update_access = value\n end", "def on_behalf_requestors=(value)\n @on_behalf_requestors = value\n end", "def assignment_requests=(value)\n @assignment_requests = value\n end", "def set_user_settings\n @settings = Setting.includes(:features).find_or_create_by(provider: @user_domain)\n end", "def settings=(value)\n @settings = value\n end", "def settings=(value)\n @settings = value\n end", "def update_request_settings(opts = {})\n data, _status_code, _headers = update_request_settings_with_http_info(opts)\n data\n end", "def set_request\n power = Power.new current_user\n if action_name == 'update'\n @requests = power.patchable_requests\n else\n @requests = power.requests\n end\n\n if @requests && params[:id]\n @request = @requests.find(params[:id])\n end\n end", "def request_approval_settings\n return @request_approval_settings\n end", "def enable_on_behalf_requestors_to_add_access=(value)\n @enable_on_behalf_requestors_to_add_access = value\n end", "def requestor\n return @requestor\n end", "def create_request_settings(opts = {})\n data, _status_code, _headers = create_request_settings_with_http_info(opts)\n data\n end", "def gricer_request=(gricer_request)\n @gricer_request = gricer_request\n end", "def set_settings!(new_settings, options = {}, request_options = {})\n res = set_settings(new_settings, options, request_options)\n wait_task(res['taskID'], WAIT_TASK_DEFAULT_TIME_BEFORE_RETRY, request_options)\n res\n end", "def enforced_settings=(value)\n @enforced_settings = value\n end", "def review_settings=(value)\n @review_settings = value\n end", "def set_settings(new_settings, options = {}, request_options = {})\n client.put(Protocol.settings_uri(name, options), new_settings.to_json, :write, request_options)\n end", "def set_request\n @request = Request.accessible_by(current_ability).find(params[:id])\n end", "def access_package_assignment_approvals=(value)\n @access_package_assignment_approvals = value\n end", "def set_request_grant\n @request_grant = RequestGrant.find(params[:id])\n end", "def set_admin_request\n @request = ::Request.find(params[:id])\n end", "def parental_control_settings=(value)\n @parental_control_settings = value\n end", "def enable_on_behalf_requestors_to_update_access\n return @enable_on_behalf_requestors_to_update_access\n end", "def enable_on_behalf_requestors_to_remove_access=(value)\n @enable_on_behalf_requestors_to_remove_access = value\n end", "def update_access_approval_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_update_access_approval_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Cloud::AccessApproval::V1::AccessApprovalSettings.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def set_requester\n @requester = Requester.find(params[:id])\n end", "def set_requester\n @requester = Requester.find(params[:id])\n end", "def settings_params\n params.require(:org_settings).permit(*OrgSettings.fields)\n end", "def set_mentorship_request\n @mentorship_request = MentorshipRequest.find(params[:id])\n end", "def reseller_settings\n @page_title = _('Settings')\n @page_icon = 'cog.png'\n\n @countries = Direction.find(:all, :order => \"name ASC\")\n if Confline.get_value(\"User_Wholesale_Enabled\").to_i == 0\n cond = \" AND purpose = 'user' \"\n else\n cond = \" AND (purpose = 'user' OR purpose = 'user_wholesale') \"\n end\n @tariffs = Tariff.find(:all, :conditions => \"owner_id = '#{session[:user_id]}' #{cond} \", :order => \"purpose ASC, name ASC\")\n\n @currencies =Currency.get_active\n @user_id = session[:user_id]\n @user = current_user\n User.exists_resellers_confline_settings(session[:user_id])\n @agreement = Confline.get(\"Registration_Agreement\", session[:user_id])\n\n end", "def set_request\n $request = request\n end", "def requestAs=(value)\n\t\t\t@requestAs = value\n\t\tend", "def requestAs=(value)\n\t\t\t@requestAs = value\n\t\tend", "def settings=(setting_options = [])\n # for arrays, set in raw form \n @settings = if setting_options.is_a?(Array)\n setting_options\n # set optional shortcuts for settings\n # :keyword_match_setting => { :opt_in => false } # =>\n # { :xsi_type => 'KeywordMatchSetting', :opt_in => false }\n elsif setting_options.is_a?(Hash)\n setting_options.map do |key, values|\n { :xsi_type => key.to_s.camelcase }.merge(values).symbolize_keys\n end\n end\n end", "def request_source=(value)\n @request_source = value\n end", "def is_approval_request=(value)\n @is_approval_request = value\n end", "def set_request_period(period)\n\t\t@object_builder.set_request_period(period)\n\tend", "def requested_modalities=(value)\n @requested_modalities = value\n end", "def settings\n request(Resources::RESOURCE_SETTINGS, HTTP_METHOD_POST)\n end", "def automatic_request_settings\n return @automatic_request_settings\n end", "def set_request\n @request = @software.requests.find(params[:id])\n end", "def proxysettings=(usage)\r\n\t\t\t`#{BITS::BITSADMIN} /setproxysettings {#{@id}} #{usage}`\r\n\t\tend", "def update_attribution_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_update_attribution_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Analytics::Admin::V1alpha::AttributionSettings.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def initialize()\n super\n @odata_type = \"#microsoft.graph.windowsAppXAppAssignmentSettings\"\n end", "def sponsorship_params\n params.permit(:request_id, :user_id)\n end", "def enable_on_behalf_requestors_to_add_access\n return @enable_on_behalf_requestors_to_add_access\n end", "def requester_params\n params.require(:requester).permit(:name, :opportunity_type, :opportunity_description, :contact_info, :user_id)\n end", "def settings=(new_settings)\n settings.merge!(new_settings)\n end", "def merge_requests_enabled=(value)\n write_feature_attribute_boolean(:merge_requests_access_level, value)\n end", "def change_form_submission_access_settings(anonymous, authenticated, admin, site_owner, blogger, editor)\n Log.logger.info(\"Changing webform submission access settings\")\n self.expand_field_to_edit(@webformmgr.form_submission_access_settings, @webformmgr.expanded_form_submission_access_settings)\n self.enable_disable_checkbox(@webformmgr.anonymous_user_chkbox, anonymous, \"Anonymous user\")\n self.enable_disable_checkbox(@webformmgr.authenticated_user_chkbox, authenticated, \"Authenticated user\")\n self.enable_disable_checkbox(@webformmgr.administrator_chkbox, admin, \"Administrator\")\n self.enable_disable_checkbox(@webformmgr.site_owner_chkbox, site_owner, \"Site owner\")\n Log.logger.debug(\"Changed webform submission access settings\")\n end", "def set_consumerscore_request_parameters(request, options)\n request.addresschecktype= options[:addresschecktype]\n request.consumerscoretype= options[:consumerscoretype]\n request.firstname= options[:firstname]\n request.lastname= options[:lastname]\n request.street= options[:address1]\n request.zip= options[:zip]\n request.city= options[:city]\n request.country= options[:country]\n if request.country == 'US' or request.country == 'CA'\n request.state= options[:state]\n end\n end", "def set_allowed_by(rack_env, allowed_by)\n Env.new(rack_env).tap do |env|\n env.allowed_by = allowed_by\n end.to_rack\n end", "def redirect_uri_settings=(value)\n @redirect_uri_settings = value\n end", "def automatic_user_consent_settings=(value)\n @automatic_user_consent_settings = value\n end", "def setting_params\n params.require(:setting).permit(:user_id,\n :country_id,\n :show_business_cards,\n :show_personal_cards,\n :show_credit_cards,\n :show_charge_cards,\n :include_bonuses_in_calculations,\n :include_current_point_balances_in_calculations,\n :include_authorized_user_bonus,\n :fly_on_star_alliance,\n :fly_on_skyteam,\n :fly_on_oneworld,\n :maximum_cards_comfortable_applying_for_at_once).merge(user_id: current_user.id)\n end", "def set_settings(settings, opts = {})\n data, _status_code, _headers = set_settings_with_http_info(settings, opts)\n data\n end", "def request=(request)\n @@request = request\n end", "def set_request_property\n @request_property = RequestProperty.find(params[:id])\n end", "def sharing_domain_restriction_mode=(value)\n @sharing_domain_restriction_mode = value\n end", "def set_request; end", "def set_organization\n if params[:organization_id]\n @organization = policy_scope(Organization).find(params[:organization_id])\n elsif params[:conversation] && params[:conversation][:organization_id]\n @organization = policy_scope(Organization).find(params[:conversation][:organization_id])\n end\n end", "def get_settings\n settings = {}\n settings['sharing_scope'] = self.sharing_scope\n settings['access_type'] = self.access_type\n settings['use_custom_sharing'] = self.use_custom_sharing\n settings['use_whitelist'] = self.use_whitelist\n settings['use_blacklist'] = self.use_blacklist\n return settings\n end", "def setting_params\n params.require(:setting).permit(:supervisor_skripsi_amount, :supervisor_pkl_amount, :examiner_amount, :maximum_lecturer_lektor_skripsi_lead, :maximum_lecturer_aa_skripsi_lead, :allow_remove_supervisor_duration, :lecturer_lead_skripsi_rule, :lecturer_lead_pkl_rule, :allow_student_create_pkl, :maximum_lecturer_lektor_pkl_lead, :maximum_lecturer_aa_pkl_lead, :department_director, :department_secretary)\n end", "def firewall_merge_keying_module_settings=(value)\n @firewall_merge_keying_module_settings = value\n end", "def access_request_params\n params.require(:access_request).permit(\n :contact_email,\n :requested_by,\n :service_name,\n :reason,\n :environment_id,\n :client_pub_key_file,\n :client_pub_key\n )\n end", "def settings\n\t\tcheck_if_myself\n\t\t@user = current_user\n\tend", "def set_policy(node)\n policy_group, policy_name = @name_args[1..]\n node.policy_name = policy_name\n node.policy_group = policy_group\n end", "def recommendation_insight_settings=(value)\n @recommendation_insight_settings = value\n end", "def initialize settings = {}\n @settings = DEFAULT_SETTINGS.merge settings\n @scale = @settings.get :scale\n @rotation = @settings.get :rotation\n @has_solids_manager = !!@settings.get(:has_solids_manager)\n @solids_manager = SolidsManager.new if (has_solids_manager?)\n super @settings #.get.reject { |key,val| next key == :assign_to }\n end", "def set_publication_request\n @publication_request = PublicationRequest.find(params[:id])\n end", "def grant_controls=(value)\n @grant_controls = value\n end", "def set_request\n @request = Request.find(params[:id])\n authorize @request\n end", "def set_request_person\n @request_person = RequestPerson.find(params[:id])\n end", "def user_params\n params[:user_settings]\n params.require(:user_settings).permit(:purchased_dudu, :receive_morning_emails, :view_large_plans)\n\n end", "def requestor; organization; end", "def set_distributor\n @distributor = Distributor.find(params[:id])\n end", "def set_distributor\n @distributor = Distributor.find(params[:id])\n end", "def update_settings(settings)\n request :put, \"_settings\", nil, settings\n end", "def update_settings(settings)\n request :put, \"_settings\", nil, settings\n end", "def set_request_group\n @request_group = RequestGroup.find(params[:id])\n end", "def update_request_settings_with_http_info(opts = {})\n if @api_client.config.debugging\n @api_client.config.logger.debug 'Calling API: RequestSettingsApi.update_request_settings ...'\n end\n # unbox the parameters from the hash\n service_id = opts[:'service_id']\n version_id = opts[:'version_id']\n request_settings_name = opts[:'request_settings_name']\n # verify the required parameter 'service_id' is set\n if @api_client.config.client_side_validation && service_id.nil?\n fail ArgumentError, \"Missing the required parameter 'service_id' when calling RequestSettingsApi.update_request_settings\"\n end\n # verify the required parameter 'version_id' is set\n if @api_client.config.client_side_validation && version_id.nil?\n fail ArgumentError, \"Missing the required parameter 'version_id' when calling RequestSettingsApi.update_request_settings\"\n end\n # verify the required parameter 'request_settings_name' is set\n if @api_client.config.client_side_validation && request_settings_name.nil?\n fail ArgumentError, \"Missing the required parameter 'request_settings_name' when calling RequestSettingsApi.update_request_settings\"\n end\n allowable_values = [\"lookup\", \"pass\"]\n if @api_client.config.client_side_validation && opts[:'action'] && !allowable_values.include?(opts[:'action'])\n fail ArgumentError, \"invalid value for \\\"action\\\", must be one of #{allowable_values}\"\n end\n allowable_values = [\"clear\", \"leave\", \"append\", \"append_all\", \"overwrite\"]\n if @api_client.config.client_side_validation && opts[:'xff'] && !allowable_values.include?(opts[:'xff'])\n fail ArgumentError, \"invalid value for \\\"xff\\\", must be one of #{allowable_values}\"\n end\n # resource path\n local_var_path = '/service/{service_id}/version/{version_id}/request_settings/{request_settings_name}'.sub('{' + 'service_id' + '}', CGI.escape(service_id.to_s)).sub('{' + 'version_id' + '}', CGI.escape(version_id.to_s)).sub('{' + 'request_settings_name' + '}', CGI.escape(request_settings_name.to_s))\n\n # query parameters\n query_params = opts[:query_params] || {}\n\n # header parameters\n header_params = opts[:header_params] || {}\n # HTTP header 'Accept' (if needed)\n header_params['Accept'] = @api_client.select_header_accept(['application/json'])\n # HTTP header 'Content-Type'\n content_type = @api_client.select_header_content_type(['application/x-www-form-urlencoded'])\n if !content_type.nil?\n header_params['Content-Type'] = content_type\n end\n\n # form parameters\n form_params = opts[:form_params] || {}\n form_params['action'] = opts[:'action'] if !opts[:'action'].nil?\n form_params['default_host'] = opts[:'default_host'] if !opts[:'default_host'].nil?\n form_params['hash_keys'] = opts[:'hash_keys'] if !opts[:'hash_keys'].nil?\n form_params['name'] = opts[:'name'] if !opts[:'name'].nil?\n form_params['request_condition'] = opts[:'request_condition'] if !opts[:'request_condition'].nil?\n form_params['xff'] = opts[:'xff'] if !opts[:'xff'].nil?\n form_params['bypass_busy_wait'] = opts[:'bypass_busy_wait'] if !opts[:'bypass_busy_wait'].nil?\n form_params['force_miss'] = opts[:'force_miss'] if !opts[:'force_miss'].nil?\n form_params['force_ssl'] = opts[:'force_ssl'] if !opts[:'force_ssl'].nil?\n form_params['geo_headers'] = opts[:'geo_headers'] if !opts[:'geo_headers'].nil?\n form_params['max_stale_age'] = opts[:'max_stale_age'] if !opts[:'max_stale_age'].nil?\n form_params['timer_support'] = opts[:'timer_support'] if !opts[:'timer_support'].nil?\n\n # http body (model)\n post_body = opts[:debug_body]\n\n # return_type\n return_type = opts[:debug_return_type] || 'RequestSettingsResponse'\n\n # auth_names\n auth_names = opts[:debug_auth_names] || ['token']\n\n new_options = opts.merge(\n :operation => :\"RequestSettingsApi.update_request_settings\",\n :header_params => header_params,\n :query_params => query_params,\n :form_params => form_params,\n :body => post_body,\n :auth_names => auth_names,\n :return_type => return_type\n )\n\n data, status_code, headers = @api_client.call_api(:PUT, local_var_path, new_options)\n if @api_client.config.debugging\n @api_client.config.logger.debug \"API called: RequestSettingsApi#update_request_settings\\nData: #{data.inspect}\\nStatus code: #{status_code}\\nHeaders: #{headers}\"\n end\n return data, status_code, headers\n end", "def set_setting\n end", "def get_access_approval_settings request_pb, options = nil\n raise ::ArgumentError, \"request must be provided\" if request_pb.nil?\n\n verb, uri, query_string_params, body = ServiceStub.transcode_get_access_approval_settings_request request_pb\n query_string_params = if query_string_params.any?\n query_string_params.to_h { |p| p.split \"=\", 2 }\n else\n {}\n end\n\n response = @client_stub.make_http_request(\n verb,\n uri: uri,\n body: body || \"\",\n params: query_string_params,\n options: options\n )\n operation = ::Gapic::Rest::TransportOperation.new response\n result = ::Google::Cloud::AccessApproval::V1::AccessApprovalSettings.decode_json response.body, ignore_unknown_fields: true\n\n yield result, operation if block_given?\n result\n end", "def set_package_request\n @package_request = PackageRequest.find(params[:id])\n end", "def set_access_level(access_level)\n if access_level >= 1\n self.commenter = true\n else\n self.commenter = false\n end\n if access_level >= 2\n self.editor = true\n else\n self.editor = false\n end\n if access_level >= 3\n self.administrator = true\n else\n self.administrator = false\n end\n end", "def request_params\n params.require(:request).permit(:requester, :comment, :order_id)\n end", "def set_modrequest\n @modrequest = Modrequest.find(params[:id])\n end", "def set_user\n @requested_user = User.find(params[:id])\n end", "def set_borrower_request\n @borrower_request = BorrowerRequest.find(params[:id])\n end", "def create\n request = params[:request]\n requestor = request.delete :requestor_attributes\n @request = Request.new(request)\n \n if requestor[:id].nil?\n @request.requestor = Requestor.new(requestor)\n else\n @request.requestor = Requestor.find(requestor[:id])\n end\n\n respond_to do |format|\n if @request.save\n format.html { redirect_to @request, :notice => 'Request was successfully created.' }\n format.json { render :json => @request, :status => :created, :location => @request }\n else\n format.html { render :action => \"new\" }\n format.json { render :json => @request.errors, :status => :unprocessable_entity }\n end\n end\n end", "def set_request\n @request = Request.find(params[:id])\n redirect_to root_url, notice: 'Access Denied!' unless current_gardener.id == @request.gardener.id\n end", "def required_resource_access=(value)\n @required_resource_access = value\n end", "def set_request_passenger\n @request = Request.find(params[:request_id])\n @request_passengers = @request.request_passengers\n @request_passenger = @request.request_passengers.find(params[:id])\n end", "def inheritable_settings=(value)\n @inheritable_settings = value\n end", "def set_by_user(editor = nil)\n editor ||= self.user\n return false if editor.nil?\n if ( !REQUIRES_PARENT_APPROVAL || editor.parent_of?(self.user) )\n set_to_activate\n\n else\n self.status = (REQUIRES_PARENT_APPROVAL || status.blank?) ? Status::PENDING : Status::OPEN\n end\n true\n end" ]

[ "0.69491047", "0.6694846", "0.66472524", "0.5910212", "0.56414366", "0.5528489", "0.54736614", "0.5290751", "0.5210239", "0.51855016", "0.51855016", "0.5182978", "0.5164257", "0.51500183", "0.5109502", "0.51059014", "0.5095363", "0.5013148", "0.5003357", "0.5002272", "0.4984938", "0.49825", "0.49650958", "0.49399686", "0.4907322", "0.48907694", "0.48902225", "0.48869932", "0.48781645", "0.48310465", "0.4823989", "0.4823989", "0.4818495", "0.48067474", "0.47967297", "0.47777328", "0.47551548", "0.47551548", "0.47348595", "0.4710905", "0.47057635", "0.47023636", "0.46973267", "0.46664056", "0.46639487", "0.4659642", "0.46486303", "0.46485668", "0.46479273", "0.46470505", "0.46421513", "0.46405438", "0.46387967", "0.4638567", "0.46360523", "0.4626845", "0.46160698", "0.4613326", "0.46117133", "0.46058518", "0.46026698", "0.46025655", "0.46017277", "0.45932686", "0.45925745", "0.4581649", "0.45774627", "0.4577211", "0.45769742", "0.457627", "0.45607108", "0.45467496", "0.45429462", "0.45340478", "0.452754", "0.44998044", "0.44835362", "0.44752192", "0.44717172", "0.4466437", "0.44612136", "0.44612136", "0.44600618", "0.44600618", "0.44578773", "0.44546983", "0.44518507", "0.44486272", "0.44417715", "0.44349915", "0.4424732", "0.44229484", "0.4415871", "0.4412314", "0.44094723", "0.44041732", "0.43952423", "0.43950954", "0.43944302", "0.43927085" ]

[ "def review_settings=(value)\n @review_settings = value\n end", "def get_review_generation_settings(account_id, v, opts = {})\n data, _status_code, _headers = get_review_generation_settings_with_http_info(account_id, v, opts)\n return data\n end", "def settings\n return @settings\n end", "def settings\n return @settings\n end", "def recommendation_insight_settings\n return @recommendation_insight_settings\n end", "def settings\n @scope.settings\n end", "def request_approval_settings\n return @request_approval_settings\n end", "def enforced_settings\n return @enforced_settings\n end", "def get_settings\n settings = {}\n settings['sharing_scope'] = self.sharing_scope\n settings['access_type'] = self.access_type\n settings['use_custom_sharing'] = self.use_custom_sharing\n settings['use_whitelist'] = self.use_whitelist\n settings['use_blacklist'] = self.use_blacklist\n return settings\n end", "def review_set\n return @review_set\n end", "def settings\n attributes.fetch(:settings)\n end", "def access_review_id\n return @access_review_id\n end", "def settings\n @settings ||= self.class.settings.dup\n end", "def get_settings\n settings.get\n end", "def implicit_grant_settings\n return @implicit_grant_settings\n end", "def settings\r\n @@settings\r\n end", "def requestor_settings\n return @requestor_settings\n end", "def reviewers\n return @reviewers\n end", "def settings\n @settings ||= get('/settings')['settings']\n end", "def settings\n # JSONSettingDataSource.file_semaphore.synchronize do\n return @settings\n # end\n end", "def review\n @review\n end", "def setting\n return @setting\n end", "def settings\n @settings ||= settings_class&.new(self)\n end", "def settings\n self.class.settings\n end", "def settings\n return @settings if instance_variable_defined?(:@settings)\n\n @settings = Settings.load_for_slice(self)\n end", "def recommendation_insight_settings=(value)\n @recommendation_insight_settings = value\n end", "def settings\n @settings\n end", "def settings\n settings_name = self.class.settings_name\n unless settings_name\n raise Exception.new(\"settings_name undefined for #{self.class}\")\n end\n if Settings.instance[settings_name].nil?\n Settings.instance[settings_name] = self.class.default_settings\n end\n return Settings.instance[settings_name]\n end", "def settings\n @settings ||= {}\n end", "def settings\n @settings ||= {}\n end", "def settings=(value)\n @settings = value\n end", "def settings=(value)\n @settings = value\n end", "def request_approval_settings=(value)\n @request_approval_settings = value\n end", "def implicit_grant_settings=(value)\n @implicit_grant_settings = value\n end", "def update_review_generation_settings(account_id, v, review_generation_settings_request, opts = {})\n data, _status_code, _headers = update_review_generation_settings_with_http_info(account_id, v, review_generation_settings_request, opts)\n return data\n end", "def settings\n @settings ||= {}\n end", "def get_settings\n get_uri = @data['uri'] + '/settings'\n response = @client.rest_get(get_uri, {}, @api_version)\n @client.response_handler(response)\n end", "def rating\n return self.comment['rating'].to_i\n end", "def reviewed_by\n return @reviewed_by\n end", "def settings\n @settings ||= Settings.new\n end", "def settings\n @settings ||= Settings.new\n end", "def settings\r\n Mutable[self]\r\n end", "def available_settings\n instance.available_settings\n end", "def access_review_id=(value)\n @access_review_id = value\n end", "def get_review(review)\n\n\t\treviewObject = Review.new(\n\t\t\treview.css(REVIEW_CONTENT).first&.content.strip.gsub(/\\r\\n/,\"\"), \t\t\t # content\n\t\t\tget_ranking_val(review.css(DEALERSHIP_RATING).first), \t\t\t\t\t\t\t # rating \n\t\t\tcreate_rating_dict(review.css(RATINGS_ALL)[0...-1]),\t\t\t\t # individual ratings\n\t\t\treview.css(RATINGS_ALL).last.css(\"div\").last.content.strip,\t # would recommend\n\t\t\treview.css(\"#{REVIEW_WRAPPER} h3\").first.content.tr(\"\\\"\", \"\").strip,\t\t\t # headline\n\t\t\treview.css(\"#{REVIEW_WRAPPER} span\").first.content.tr(\"-\", \"\").strip # username\n\t\t)\n\n\t\treturn reviewObject\n\tend", "def review_set=(value)\n @review_set = value\n end", "def settings\n @settings_manager\n end", "def assignment_policies\n return @assignment_policies\n end", "def get_reviewers\n self._get_reviewers\n end", "def auditing_settings\n return unless exists?\n additional_resource_properties(\n {\n property_name: \"auditing_settings\",\n property_endpoint: \"#{id}/auditingSettings/default\",\n api_version: @opts[:auditing_settings_api_version],\n },\n )\n end", "def settings\n @settings ||= Settings.new(DEFAULT_SETTINGS_PATH)\n end", "def settings\n base_configuration.settings + self.class.settings\n end", "def available_settings\n return @@settings_by_type[self.resource_type]\n end", "def settings\n Thread.current[:shoppe_settings] ||= Shoppe::Settings.new(Shoppe::Setting.to_hash)\n end", "def get_settings\n get_uri = @data['uri'] + '/settings'\n response = @client.rest_get(get_uri, {}, @api_version)\n @client.response_handler(response)\n end", "def automatic_user_consent_settings\n return @automatic_user_consent_settings\n end", "def get_recording_settings(opts = {})\n data, _status_code, _headers = get_recording_settings_with_http_info(opts)\n return data\n end", "def review_user\n self.user\n end", "def review\n fetch('restaurant.review')\n end", "def redirect_uri_settings\n return @redirect_uri_settings\n end", "def ratings\n\t\tself.reviews.map{|review| review.rating}\n\tend", "def settings\n @settings ||= {}\n end", "def settings\n return {} if description.blank?\n @settings ||= description['settings']\n return {} if @settings.blank?\n @settings.symbolize_keys\n end", "def requestor_settings=(value)\n @requestor_settings = value\n end", "def get_settings(opts = {})\n data, _status_code, _headers = get_settings_with_http_info(opts)\n data\n end", "def scorable_reviews\n self.select { |review| review.is_scorable_review? == true }\n end", "def reviews(order: :most_recent, limit: 10)\n @reviews ||= ReviewSet.new(self,\n review_order: order,\n limit_size: limit).reviews\n end", "def setting_count\n return @setting_count\n end", "def get_settings\n return @client.raw(\"get\", \"/config/settings\")\n end", "def reviews\n @reviews\n end", "def settings\n\n\t\tif @settings.nil? then\n\t\t\thash = {}\n\t\t\tproperty_settings.includes(:property_definition).each do |setting|\n\t\t\t\tp_def = setting.property_definition\n\t\t\t\tvalue = case p_def.def_type\n\t\t\t\t\t\t\twhen \"string\"\n\t\t\t\t\t\t\t\tsetting.string\n\t\t\t\t\t\t\twhen \"text\"\n\t\t\t\t\t\t\t\tsetting.string\n\t\t\t\t\t\t\twhen \"html\"\n\t\t\t\t\t\t\t\tsetting.string\n\t\t\t\t\t\t\twhen \"integer\"\n\t\t\t\t\t\t\t\tsetting.number.to_i\n\t\t\t\t\t\t\twhen \"file\" \n\t\t\t\t\t\t\t\tMedia.find(setting.number.to_i) unless setting.number.nil?\n\t\t\t\t\t\t\twhen \"url\"\n\t\t\t\t\t\t\t\tPage.find(setting.number.to_i) unless setting.number.nil?\n\t\t\t\t\t\t\twhen \"date\"\n\t\t\t\t\t\t\t\tsetting.string\n\t\t\t\t\t\t\telse\n\t\t\t\t\t\t\t\t:dontknowhowtointerpretthis\n\t\t\t\t\t\tend\n\t\t\t\thash[setting.property_definition.label.to_sym] = value\n\t\t\tend\n\t\t\t@settings = OpenStruct.new(hash)\n\t\tend\t\t\t\n\n\t\t@settings\n\tend", "def inheritable_settings\n return @inheritable_settings\n end", "def get_settings\n @bridge.get_settings\n end", "def get()\n\t\t\tkparams = {}\n\t\t\tclient.queue_service_action_call('notificationspartnersettings', 'get', 'KalturaNotificationsPartnerSettings', kparams)\n\t\t\tif (client.is_multirequest)\n\t\t\t\treturn nil\n\t\t\tend\n\t\t\treturn client.do_queue()\n\t\tend", "def settings(*args)\n @memoized_settings ||= @options[:settings] || __get_class_value(:settings) || (super && @settings)\n end", "def package_settings\n properties[:package_settings]\n end", "def package_settings\n properties[:package_settings]\n end", "def get_settings\n request :get, \"_settings\"\n end", "def get_settings\n request :get, \"_settings\"\n end", "def theme_settings\n (settings_data ? settings_data['general'].presence : nil) || {}\n end", "def get_default_settings\n return INTERNAL_DEFAULT_SETTINGS.merge @@default_settings if (@@default_settings)\n return INTERNAL_DEFAULT_SETTINGS\n end", "def get_default_settings\n return INTERNAL_DEFAULT_SETTINGS.merge @@default_settings if (@@default_settings)\n return INTERNAL_DEFAULT_SETTINGS\n end", "def access_package_assignment_approvals\n return @access_package_assignment_approvals\n end", "def review_stars(review)\n {\n active: review.rating,\n blank: Review::RATINGS.last - review.rating\n }\n end", "def automatic_request_settings\n return @automatic_request_settings\n end", "def rating\n return @rating\n end", "def reviewers=(value)\n @reviewers = value\n end", "def settings\n @log.debug \"merging settings\"\n setting_sources = [get_override_settings, load_config, default_settings]\n merged_settings = setting_sources.inject({}) { |merged, hash| merged.deep_merge(hash) }\n @log.debug \"using merged settings: \" + merged_settings.to_s\n @log.debug \"validating merged settings\"\n if validate_settings(merged_settings)\n @log.debug \"successfully validated merged settings\"\n return merged_settings\n else\n @log.warn \"validation of merged settings failed\"\n @log.warn \"unable to validate settings in #{self.name} validator\"\n raise \"settings validation error\"\n end\n end", "def appl_settings\n @appl_settings\n end", "def set_review\n @review = current_user.reviews.find(params[:id])\n end", "def set_review\n @review = current_user.reviews.find(params[:id])\n end", "def primary_reviewers\n return @primary_reviewers\n end", "def settings\n @settings ||= EbanqApi::Settings.new(self)\n end", "def enforced_settings=(value)\n @enforced_settings = value\n end", "def settings(&block)\n @settings ||= setup\n\n settings = instance_variable_defined?(:@namespace) ? @settings.get_value(@namespace) : @settings\n\n if block_given?\n block.arity == 0 ? settings.instance_eval(&block) : block.call(settings)\n end\n\n settings\n end", "def settings\n {\n name: @client.self.name,\n team: @client.team.name,\n domain: @client.team.domain\n }\n end", "def review\n return access_denied unless @course.has_teacher(current_user) || @submission.group.has_reviewer?(current_user) || (@exercise.collaborative_mode == 'review' && (@course_instance.has_student(current_user) || @course_instance.has_assistant(current_user)))\n\n review = @submission.assign_to(current_user)\n\n redirect_to edit_review_path(review)\n log \"create_review #{@submission.id},#{@exercise.id}\"\n end", "def settings\n # TODO\n {}\n end", "def settings\n request(Resources::RESOURCE_SETTINGS, HTTP_METHOD_POST)\n end", "def get_settings(settings_file = nil)\n @settings_file ||=\n settings_file || @settings_file_manager.get_settings_file\n @settings_file\n end" ]

[ "0.7144041", "0.56842154", "0.56083494", "0.56083494", "0.5601404", "0.5543098", "0.54984236", "0.54552794", "0.5412952", "0.5391258", "0.5359631", "0.5344572", "0.5322947", "0.53086245", "0.52901113", "0.5230328", "0.51592904", "0.51199985", "0.5083028", "0.5071174", "0.50599563", "0.5051109", "0.50402355", "0.5031567", "0.50203663", "0.5010321", "0.5005446", "0.5003697", "0.49848014", "0.49848014", "0.4895927", "0.4895927", "0.48781466", "0.48638946", "0.4857467", "0.48565966", "0.48144543", "0.47951236", "0.4790452", "0.47902852", "0.47902852", "0.4777304", "0.47650194", "0.47626308", "0.47588384", "0.47497344", "0.4747402", "0.4720573", "0.4714381", "0.47012854", "0.4668222", "0.4665574", "0.46579668", "0.46479312", "0.46373266", "0.46014374", "0.4600397", "0.4596246", "0.45935413", "0.45889726", "0.45864186", "0.45722786", "0.45675123", "0.4539985", "0.4535906", "0.453433", "0.45307237", "0.45258975", "0.4517214", "0.4514892", "0.45131537", "0.45112148", "0.45067793", "0.4504385", "0.44876567", "0.4467225", "0.4467225", "0.44556725", "0.44556725", "0.44513506", "0.44392493", "0.44383532", "0.44350913", "0.44334903", "0.4432871", "0.44277093", "0.442038", "0.44130522", "0.44013765", "0.43959486", "0.43959486", "0.43909562", "0.43777472", "0.4367565", "0.43660212", "0.43617705", "0.43588606", "0.4358026", "0.43546677", "0.43542925" ]

[ "def review_set=(value)\n @review_set = value\n end", "def update_review_generation_settings(account_id, v, review_generation_settings_request, opts = {})\n data, _status_code, _headers = update_review_generation_settings_with_http_info(account_id, v, review_generation_settings_request, opts)\n return data\n end", "def review_settings\n return @review_settings\n end", "def set_review\n @review = current_user.reviews.find(params[:id])\n end", "def set_review\n @review = current_user.reviews.find(params[:id])\n end", "def recommendation_insight_settings=(value)\n @recommendation_insight_settings = value\n end", "def settings=(value)\n @settings = value\n end", "def settings=(value)\n @settings = value\n end", "def set_settings(settings, opts = {})\n data, _status_code, _headers = set_settings_with_http_info(settings, opts)\n data\n end", "def set_review\n review = Review.find(params[:id])\n end", "def review_score=(review_score)\n\n if !review_score.nil? && review_score > 1\n fail ArgumentError, \"invalid value for 'review_score', must be smaller than or equal to 1.\"\n end\n\n if !review_score.nil? && review_score < 0\n fail ArgumentError, \"invalid value for 'review_score', must be greater than or equal to 0.\"\n end\n\n @review_score = review_score\n end", "def request_approval_settings=(value)\n @request_approval_settings = value\n end", "def settings=(new_settings)\n settings.merge!(new_settings)\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n\t\t@review = Review.find(params[:id])\n\tend", "def set_review\n @agency_review = Review.find(params[:review_id])\n end", "def set_reviewing\n @reviewing = Reviewing.find(params[:id])\n end", "def reviewers=(value)\n @reviewers = value\n end", "def set_reviews_and_rating\n @reviews_and_rating = ReviewsAndRating.find(params[:id])\n end", "def access_review_id=(value)\n @access_review_id = value\n end", "def enforced_settings=(value)\n @enforced_settings = value\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_user_review\n @user_review = UserReview.find(params[:id])\n end", "def implicit_grant_settings=(value)\n @implicit_grant_settings = value\n end", "def set(settings, access_token:)\n response = post '', body: settings.to_json, query: {\n access_token: access_token\n }\n\n raise_errors(response)\n\n true\n end", "def requestor_settings=(value)\n @requestor_settings = value\n end", "def set_admin_review\n @admin_review = Review.find(params[:id])\n end", "def review=(review)\n super(review.presence)\n end", "def set_review\n @review = @order.review\n\n if @review.nil?\n render body: nil, status: :not_found\n end\n end", "def set_review_count\n @review_count = ReviewCount.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review\n @review = Review.find(params[:id])\n end", "def set_review(bridge, structure)\n review = structure.comments.first\n\n if review.present?\n bridge.review_id = review.id\n bridge.review_text = review.title\n bridge.review_custom = false\n bridge.save\n end\n end", "def review_params\n\t\t\tparams.require(:review).permit(:comment, :rating)\n\t\tend", "def set_restaurant_review\n @restaurant_review = RestaurantReview.find(params[:id])\n end", "def set_visitor_review\n @visitor_review = VisitorReview.find(params[:id])\n end", "def set_review\n @review = Review.find_by_id(params[:id])\n if @review == nil\n head :not_found\n end\n end", "def review\n return access_denied unless @course.has_teacher(current_user) || @submission.group.has_reviewer?(current_user) || (@exercise.collaborative_mode == 'review' && (@course_instance.has_student(current_user) || @course_instance.has_assistant(current_user)))\n\n review = @submission.assign_to(current_user)\n\n redirect_to edit_review_path(review)\n log \"create_review #{@submission.id},#{@exercise.id}\"\n end", "def set_admin_nature_of_review\n @admin_nature_of_review = Admin::NatureOfReview.find(params[:id])\n end", "def set_review_template\n @review_template = ReviewTemplate.find(params[:id])\n end", "def review_params\n params.require(:review).permit(:rating, :comment)\n end", "def review_params\n params.require(:review).permit(:rating, :comment)\n end", "def assign_reviewer(reviewer)\n assignment = Assignment.find(parent_id)\n raise 'The assignment cannot be found.' if assignment.nil?\n\n ReviewResponseMap.create(reviewee_id: id, reviewer_id: reviewer.get_reviewer.id, reviewed_object_id: assignment.id, team_reviewing_enabled: assignment.team_reviewing_enabled)\n end", "def write_review(rating, review)\n @ratings.push(rating)\n @reviews.push(review)\n end", "def review_params\n params.permit(:review, :body, :title, :reviewable_id, :reviewable_type)\n end", "def review_params\n params.require(:review).permit(:rating, :comment)\n end", "def settings=(setting_options = [])\n # for arrays, set in raw form \n @settings = if setting_options.is_a?(Array)\n setting_options\n # set optional shortcuts for settings\n # :keyword_match_setting => { :opt_in => false } # =>\n # { :xsi_type => 'KeywordMatchSetting', :opt_in => false }\n elsif setting_options.is_a?(Hash)\n setting_options.map do |key, values|\n { :xsi_type => key.to_s.camelcase }.merge(values).symbolize_keys\n end\n end\n end", "def review_params\n params.require(:review).permit(:rating, :comment, :site_id)\n end", "def reviews(order: :most_recent, limit: 10)\n @reviews ||= ReviewSet.new(self,\n review_order: order,\n limit_size: limit).reviews\n end", "def review_params\n params.require(:review).permit( :description, :rating)\n end", "def set_review\n @restaurant_review = RestaurantReview.find(params[:id])\n end", "def set_to_approved\n if self.rating > 3\n self.update_attribute('approved', true)\n end\n @project = Project.find(self.project_id)\n @project.update_attribute('has_reviewed_contractor', true)\n end", "def redirect_uri_settings=(value)\n @redirect_uri_settings = value\n end", "def review_params\n params.require(:review).permit(:score, :confidence, :comments, :paper_id)\n end" ]

[ "0.5615794", "0.5519889", "0.5505968", "0.53927994", "0.53927994", "0.53349066", "0.525815", "0.525815", "0.5209798", "0.51535475", "0.5094786", "0.5083746", "0.50653064", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.50643164", "0.506386", "0.50519943", "0.50355554", "0.5026012", "0.4965598", "0.49585244", "0.49539238", "0.49517202", "0.4950954", "0.49370003", "0.48878446", "0.48797786", "0.48376873", "0.47872677", "0.47810405", "0.47254416", "0.46985623", "0.46985623", "0.46985623", "0.46985623", "0.46985623", "0.46985623", "0.46985623", "0.46906117", "0.46903732", "0.46650666", "0.46479198", "0.46333963", "0.46255812", "0.45706534", "0.45683643", "0.45662558", "0.45662558", "0.4552093", "0.45492786", "0.45481485", "0.4538938", "0.45334762", "0.45302117", "0.4523643", "0.45122108", "0.4509027", "0.45025408", "0.45024228", "0.44952556" ]

[ "def serialize\n end", "def serialize(object) end", "def serialize; end", "def serialize; end", "def serialize\n \n end", "def serialize\n raise NotImplementedError\n end", "def serialize\n raise NotImplementedError\n end", "def dump\r\n super + to_s\r\n end", "def serialize\n self.to_hash.to_json\n end", "def serialized\n serializer_class.new(self).serializable_hash\n end", "def serialize\n @raw_data\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_object_value(\"details\", @details)\n writer.write_string_value(\"identityType\", @identity_type)\n end", "def serialize\n @serializer.serialize(self.output)\n end", "def serialize(_object, data); end", "def serialize(_object, data); end", "def to_json\n\t\t\tself.instance_variable_hash\n\t\tend", "def serializer; end", "def serialize!\n end", "def serialize(object)\n object.serializable_hash\n end", "def serialize(object)\n object.to_s\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_date_time_value(\"createdDateTime\", @created_date_time)\n writer.write_object_value(\"device\", @device)\n writer.write_string_value(\"displayName\", @display_name)\n writer.write_enum_value(\"keyStrength\", @key_strength)\n end", "def marshal\n Marshal.dump self\n end", "def marshal\n Marshal.dump self\n end", "def marshal\n Marshal.dump self\n end", "def inspect\n serialize.to_s\n end", "def serialize\n YAML::dump(self)\n end", "def inspect()\n serialize.to_s()\n end", "def inspect()\n serialize.to_s()\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_object_value(\"accessPackage\", @access_package)\n writer.write_collection_of_object_values(\"answers\", @answers)\n writer.write_object_value(\"assignment\", @assignment)\n writer.write_date_time_value(\"completedDateTime\", @completed_date_time)\n writer.write_date_time_value(\"createdDateTime\", @created_date_time)\n writer.write_collection_of_object_values(\"customExtensionCalloutInstances\", @custom_extension_callout_instances)\n writer.write_enum_value(\"requestType\", @request_type)\n writer.write_object_value(\"requestor\", @requestor)\n writer.write_object_value(\"schedule\", @schedule)\n writer.write_enum_value(\"state\", @state)\n writer.write_string_value(\"status\", @status)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_object_value(\"initiator\", @initiator)\n writer.write_collection_of_object_values(\"members\", @members)\n writer.write_date_time_value(\"visibleHistoryStartDateTime\", @visible_history_start_date_time)\n end", "def inspect\n fields = serializable_hash.map { |k, v| \"#{k}=#{v}\" }\n \"#<#{self.class.name}:#{object_id} #{fields.join(' ')}>\"\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_collection_of_primitive_values(\"aliases\", @aliases)\n writer.write_collection_of_object_values(\"countriesOrRegionsOfOrigin\", @countries_or_regions_of_origin)\n writer.write_object_value(\"description\", @description)\n writer.write_date_time_value(\"firstActiveDateTime\", @first_active_date_time)\n writer.write_collection_of_object_values(\"indicators\", @indicators)\n writer.write_enum_value(\"kind\", @kind)\n writer.write_object_value(\"summary\", @summary)\n writer.write_collection_of_primitive_values(\"targets\", @targets)\n writer.write_string_value(\"title\", @title)\n writer.write_object_value(\"tradecraft\", @tradecraft)\n end", "def serialize(object, data); end", "def serialize\n JSON.generate(to_h)\n end", "def serialiaze\n Logger.d(\"Serializing the User object\")\n save_to_shared_prefs(@context, self.class, self)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n writer.write_object_value(\"cost\", @cost)\n writer.write_object_value(\"life\", @life)\n writer.write_object_value(\"per\", @per)\n writer.write_object_value(\"salvage\", @salvage)\n writer.write_additional_data(@additional_data)\n end", "def inspect\n id_string = (respond_to?(:id) && !id.nil?) ? \" id=#{id}\" : ''\n \"#<#{self.class}:0x#{object_id.to_s(16)}#{id_string}> JSON: \" +\n Clever::JSON.dump(@values, pretty: true)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_string_value(\"description\", @description)\n writer.write_string_value(\"owner\", @owner)\n writer.write_collection_of_object_values(\"properties\", @properties)\n writer.write_string_value(\"status\", @status)\n writer.write_collection_of_primitive_values(\"targetTypes\", @target_types)\n end", "def write\n hash = attributes_hash\n write_value(serializer_class.dump(hash))\n @_cache = hash # set @_cache after the write\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_string_value(\"appDisplayName\", @app_display_name)\n writer.write_string_value(\"dataType\", @data_type)\n writer.write_boolean_value(\"isSyncedFromOnPremises\", @is_synced_from_on_premises)\n writer.write_string_value(\"name\", @name)\n writer.write_collection_of_primitive_values(\"targetObjects\", @target_objects)\n end", "def instance_to_json\n\t\t# byebug\n\t\t{\n\t\tid: self.id,\n\t\tname: self.name,\n\t\theight: self.height,\n\t\tlast_watered: self.last_watered,\n\t\tlast_watered_amount: self.last_watered_amount,\n\t\tgrow_zone: self.grow_zone,\n\t\tnotes: self.notes,\n\t\tplanted_date: self.planted_date,\n\t\tfarm: self.farm,\t\n\t\tsensor: self.sensor\n\t\t# farm: { \n\t\t# \tfarm: self.farm.name,\n\t\t# \tfarm: self.farm.id,\n\t\t# },\n\t\t}\n\tend", "def _dump(depth)\n scrooge_fetch_remaining\n scrooge_invalidate_updateable_result_set\n scrooge_dump_flag_this\n str = Marshal.dump(self)\n scrooge_dump_unflag_this\n str\n end", "def to_s\n \"#<#{self.class.name}:#{object_id} #{info}>\"\n end", "def to_dump\n @time = Time.now\n Base64.encode64(Marshal.dump(self))\n end", "def dump\n\t\t\t\tflatten!\n\t\t\t\t\n\t\t\t\tMessagePack.dump(@attributes)\n\t\t\tend", "def inspect\n serialize.to_s\n end", "def inspect\n serialize.to_s\n end", "def inspect\n serialize.to_s\n end", "def serialize(options={})\n raise NotImplementedError, \"Please implement this in your concrete class\"\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_object_value(\"apiConnectorConfiguration\", @api_connector_configuration)\n writer.write_collection_of_object_values(\"identityProviders\", @identity_providers)\n writer.write_collection_of_object_values(\"languages\", @languages)\n writer.write_collection_of_object_values(\"userAttributeAssignments\", @user_attribute_assignments)\n writer.write_collection_of_object_values(\"userFlowIdentityProviders\", @user_flow_identity_providers)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_string_value(\"clientContext\", @client_context)\n writer.write_object_value(\"resultInfo\", @result_info)\n writer.write_enum_value(\"status\", @status)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_string_value(\"description\", @description)\n writer.write_string_value(\"displayName\", @display_name)\n writer.write_number_value(\"memberCount\", @member_count)\n writer.write_collection_of_object_values(\"members\", @members)\n writer.write_enum_value(\"tagType\", @tag_type)\n writer.write_string_value(\"teamId\", @team_id)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_date_time_value(\"lastModifiedDateTime\", @last_modified_date_time)\n writer.write_object_value(\"resource\", @resource)\n writer.write_object_value(\"weight\", @weight)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_string_value(\"comment\", @comment)\n writer.write_date_time_value(\"createdDateTime\", @created_date_time)\n writer.write_date_time_value(\"deletedDateTime\", @deleted_date_time)\n writer.write_string_value(\"displayName\", @display_name)\n writer.write_collection_of_object_values(\"history\", @history)\n writer.write_boolean_value(\"hostOnly\", @host_only)\n writer.write_string_value(\"hostOrDomain\", @host_or_domain)\n writer.write_object_value(\"lastModifiedBy\", @last_modified_by)\n writer.write_date_time_value(\"lastModifiedDateTime\", @last_modified_date_time)\n writer.write_string_value(\"path\", @path)\n writer.write_enum_value(\"sourceEnvironment\", @source_environment)\n writer.write_enum_value(\"status\", @status)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_string_value(\"category\", @category)\n writer.write_date_time_value(\"firstSeenDateTime\", @first_seen_date_time)\n writer.write_object_value(\"host\", @host)\n writer.write_date_time_value(\"lastSeenDateTime\", @last_seen_date_time)\n writer.write_string_value(\"name\", @name)\n writer.write_string_value(\"version\", @version)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_object_value(\"large\", @large)\n writer.write_object_value(\"medium\", @medium)\n writer.write_object_value(\"small\", @small)\n writer.write_object_value(\"source\", @source)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_date_time_value(\"createdDateTime\", @created_date_time)\n writer.write_string_value(\"deviceId\", @device_id)\n writer.write_string_value(\"key\", @key)\n writer.write_enum_value(\"volumeType\", @volume_type)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_object_value(\"assignedTo\", @assigned_to)\n writer.write_date_time_value(\"closedDateTime\", @closed_date_time)\n writer.write_object_value(\"createdBy\", @created_by)\n writer.write_date_time_value(\"createdDateTime\", @created_date_time)\n writer.write_object_value(\"dataSubject\", @data_subject)\n writer.write_enum_value(\"dataSubjectType\", @data_subject_type)\n writer.write_string_value(\"description\", @description)\n writer.write_string_value(\"displayName\", @display_name)\n writer.write_collection_of_object_values(\"history\", @history)\n writer.write_object_value(\"insight\", @insight)\n writer.write_date_time_value(\"internalDueDateTime\", @internal_due_date_time)\n writer.write_object_value(\"lastModifiedBy\", @last_modified_by)\n writer.write_date_time_value(\"lastModifiedDateTime\", @last_modified_date_time)\n writer.write_collection_of_object_values(\"notes\", @notes)\n writer.write_collection_of_primitive_values(\"regulations\", @regulations)\n writer.write_collection_of_object_values(\"stages\", @stages)\n writer.write_enum_value(\"status\", @status)\n writer.write_object_value(\"team\", @team)\n writer.write_enum_value(\"type\", @type)\n end", "def serializable_hash\n self.attributes\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_date_time_value(\"endDateTime\", @end_date_time)\n writer.write_string_value(\"joinWebUrl\", @join_web_url)\n writer.write_date_time_value(\"lastModifiedDateTime\", @last_modified_date_time)\n writer.write_collection_of_object_values(\"modalities\", @modalities)\n writer.write_object_value(\"organizer\", @organizer)\n writer.write_collection_of_object_values(\"participants\", @participants)\n writer.write_collection_of_object_values(\"sessions\", @sessions)\n writer.write_date_time_value(\"startDateTime\", @start_date_time)\n writer.write_enum_value(\"type\", @type)\n writer.write_object_value(\"version\", @version)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_object_value(\"axes\", @axes)\n writer.write_object_value(\"dataLabels\", @data_labels)\n writer.write_object_value(\"format\", @format)\n writer.write_object_value(\"height\", @height)\n writer.write_object_value(\"left\", @left)\n writer.write_object_value(\"legend\", @legend)\n writer.write_string_value(\"name\", @name)\n writer.write_collection_of_object_values(\"series\", @series)\n writer.write_object_value(\"title\", @title)\n writer.write_object_value(\"top\", @top)\n writer.write_object_value(\"width\", @width)\n writer.write_object_value(\"worksheet\", @worksheet)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_string_value(\"description\", @description)\n writer.write_object_value(\"details\", @details)\n writer.write_string_value(\"name\", @name)\n writer.write_enum_value(\"scenarios\", @scenarios)\n end", "def serialize\n JSON.dump(@hash)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_date_time_value(\"createdDateTime\", @created_date_time)\n writer.write_boolean_value(\"isUsable\", @is_usable)\n writer.write_boolean_value(\"isUsableOnce\", @is_usable_once)\n writer.write_number_value(\"lifetimeInMinutes\", @lifetime_in_minutes)\n writer.write_string_value(\"methodUsabilityReason\", @method_usability_reason)\n writer.write_date_time_value(\"startDateTime\", @start_date_time)\n writer.write_string_value(\"temporaryAccessPass\", @temporary_access_pass)\n end", "def to_s\r\n dump\r\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_object_value(\"callee\", @callee)\n writer.write_object_value(\"caller\", @caller)\n writer.write_date_time_value(\"endDateTime\", @end_date_time)\n writer.write_object_value(\"failureInfo\", @failure_info)\n writer.write_collection_of_object_values(\"media\", @media)\n writer.write_date_time_value(\"startDateTime\", @start_date_time)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_number_value(\"deviceCount\", @device_count)\n writer.write_string_value(\"displayName\", @display_name)\n writer.write_collection_of_object_values(\"managedDevices\", @managed_devices)\n writer.write_enum_value(\"platform\", @platform)\n writer.write_string_value(\"publisher\", @publisher)\n writer.write_object_value(\"sizeInByte\", @size_in_byte)\n writer.write_string_value(\"version\", @version)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_string_value(\"description\", @description)\n writer.write_string_value(\"displayName\", @display_name)\n writer.write_collection_of_object_values(\"members\", @members)\n writer.write_string_value(\"roleTemplateId\", @role_template_id)\n writer.write_collection_of_object_values(\"scopedMembers\", @scoped_members)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_object_value(\"options\", @options)\n writer.write_boolean_value(\"protected\", @protected)\n end", "def serialize(io)\n Encoder.encode(io, self)\n io\n end", "def _dump() end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_object_value(\"authenticationConfiguration\", @authentication_configuration)\n writer.write_object_value(\"clientConfiguration\", @client_configuration)\n writer.write_string_value(\"description\", @description)\n writer.write_string_value(\"displayName\", @display_name)\n writer.write_object_value(\"endpointConfiguration\", @endpoint_configuration)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_object_value(\"container\", @container)\n writer.write_string_value(\"containerId\", @container_id)\n writer.write_object_value(\"lastModifiedBy\", @last_modified_by)\n writer.write_object_value(\"member\", @member)\n writer.write_string_value(\"memberId\", @member_id)\n writer.write_enum_value(\"outlierContainerType\", @outlier_container_type)\n writer.write_enum_value(\"outlierMemberType\", @outlier_member_type)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_object_value(\"body\", @body)\n writer.write_date_time_value(\"createdDateTime\", @created_date_time)\n writer.write_string_value(\"imageUrl\", @image_url)\n writer.write_collection_of_object_values(\"indicators\", @indicators)\n writer.write_boolean_value(\"isFeatured\", @is_featured)\n writer.write_date_time_value(\"lastUpdatedDateTime\", @last_updated_date_time)\n writer.write_object_value(\"summary\", @summary)\n writer.write_collection_of_primitive_values(\"tags\", @tags)\n writer.write_string_value(\"title\", @title)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_date_time_value(\"completedDateTime\", @completed_date_time)\n writer.write_object_value(\"progress\", @progress)\n writer.write_enum_value(\"status\", @status)\n writer.write_string_value(\"storageLocation\", @storage_location)\n writer.write_date_time_value(\"submittedDateTime\", @submitted_date_time)\n writer.write_string_value(\"userId\", @user_id)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_collection_of_object_values(\"accessPackages\", @access_packages)\n writer.write_enum_value(\"catalogType\", @catalog_type)\n writer.write_date_time_value(\"createdDateTime\", @created_date_time)\n writer.write_collection_of_object_values(\"customWorkflowExtensions\", @custom_workflow_extensions)\n writer.write_string_value(\"description\", @description)\n writer.write_string_value(\"displayName\", @display_name)\n writer.write_boolean_value(\"isExternallyVisible\", @is_externally_visible)\n writer.write_date_time_value(\"modifiedDateTime\", @modified_date_time)\n writer.write_collection_of_object_values(\"resourceRoles\", @resource_roles)\n writer.write_collection_of_object_values(\"resourceScopes\", @resource_scopes)\n writer.write_collection_of_object_values(\"resources\", @resources)\n writer.write_enum_value(\"state\", @state)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_collection_of_object_values(\"bundles\", @bundles)\n writer.write_string_value(\"driveType\", @drive_type)\n writer.write_collection_of_object_values(\"following\", @following)\n writer.write_collection_of_object_values(\"items\", @items)\n writer.write_object_value(\"list\", @list)\n writer.write_object_value(\"owner\", @owner)\n writer.write_object_value(\"quota\", @quota)\n writer.write_object_value(\"root\", @root)\n writer.write_object_value(\"sharePointIds\", @share_point_ids)\n writer.write_collection_of_object_values(\"special\", @special)\n writer.write_object_value(\"system\", @system)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_enum_value(\"classification\", @classification)\n writer.write_string_value(\"feature\", @feature)\n writer.write_string_value(\"featureGroup\", @feature_group)\n writer.write_string_value(\"impactDescription\", @impact_description)\n writer.write_boolean_value(\"isResolved\", @is_resolved)\n writer.write_enum_value(\"origin\", @origin)\n writer.write_collection_of_object_values(\"posts\", @posts)\n writer.write_string_value(\"service\", @service)\n writer.write_enum_value(\"status\", @status)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_collection_of_object_values(\"connectors\", @connectors)\n writer.write_boolean_value(\"hasPhysicalDevice\", @has_physical_device)\n writer.write_boolean_value(\"isShared\", @is_shared)\n writer.write_date_time_value(\"lastSeenDateTime\", @last_seen_date_time)\n writer.write_date_time_value(\"registeredDateTime\", @registered_date_time)\n writer.write_collection_of_object_values(\"shares\", @shares)\n writer.write_collection_of_object_values(\"taskTriggers\", @task_triggers)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_collection_of_object_values(\"assignments\", @assignments)\n writer.write_date_time_value(\"createdDateTime\", @created_date_time)\n writer.write_string_value(\"description\", @description)\n writer.write_collection_of_object_values(\"deviceStates\", @device_states)\n writer.write_string_value(\"displayName\", @display_name)\n writer.write_string_value(\"informationUrl\", @information_url)\n writer.write_object_value(\"installSummary\", @install_summary)\n writer.write_object_value(\"largeCover\", @large_cover)\n writer.write_date_time_value(\"lastModifiedDateTime\", @last_modified_date_time)\n writer.write_string_value(\"privacyInformationUrl\", @privacy_information_url)\n writer.write_date_time_value(\"publishedDateTime\", @published_date_time)\n writer.write_string_value(\"publisher\", @publisher)\n writer.write_collection_of_object_values(\"userStateSummary\", @user_state_summary)\n end", "def inspect\n attributes = [\n \"name=#{name.inspect}\",\n \"key=#{key.inspect}\",\n \"data_type=#{data_type.inspect}\",\n ]\n \"#<#{self.class.name}:#{object_id} #{attributes.join(', ')}>\"\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_collection_of_object_values(\"assignments\", @assignments)\n writer.write_collection_of_object_values(\"categories\", @categories)\n writer.write_date_time_value(\"createdDateTime\", @created_date_time)\n writer.write_string_value(\"description\", @description)\n writer.write_string_value(\"developer\", @developer)\n writer.write_string_value(\"displayName\", @display_name)\n writer.write_string_value(\"informationUrl\", @information_url)\n writer.write_boolean_value(\"isFeatured\", @is_featured)\n writer.write_object_value(\"largeIcon\", @large_icon)\n writer.write_date_time_value(\"lastModifiedDateTime\", @last_modified_date_time)\n writer.write_string_value(\"notes\", @notes)\n writer.write_string_value(\"owner\", @owner)\n writer.write_string_value(\"privacyInformationUrl\", @privacy_information_url)\n writer.write_string_value(\"publisher\", @publisher)\n writer.write_enum_value(\"publishingState\", @publishing_state)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_string_value(\"displayName\", @display_name)\n writer.write_enum_value(\"platformType\", @platform_type)\n writer.write_number_value(\"settingCount\", @setting_count)\n writer.write_collection_of_object_values(\"settingStates\", @setting_states)\n writer.write_enum_value(\"state\", @state)\n writer.write_number_value(\"version\", @version)\n end", "def _dump()\n #This is a stub, used for indexing\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_string_value(\"displayName\", @display_name)\n writer.write_string_value(\"templateId\", @template_id)\n writer.write_collection_of_object_values(\"values\", @values)\n end", "def marshal_dump\n { \n :klass => self.class.to_s, \n :values => @attribute_values_flat, \n :joined => @joined_models\n }\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_collection_of_object_values(\"containers\", @containers)\n writer.write_object_value(\"controller\", @controller)\n writer.write_collection_of_object_values(\"ephemeralContainers\", @ephemeral_containers)\n writer.write_collection_of_object_values(\"initContainers\", @init_containers)\n writer.write_object_value(\"labels\", @labels)\n writer.write_string_value(\"name\", @name)\n writer.write_object_value(\"namespace\", @namespace)\n writer.write_object_value(\"podIp\", @pod_ip)\n writer.write_object_value(\"serviceAccount\", @service_account)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_enum_value(\"detectionStatus\", @detection_status)\n writer.write_object_value(\"imageFile\", @image_file)\n writer.write_string_value(\"mdeDeviceId\", @mde_device_id)\n writer.write_date_time_value(\"parentProcessCreationDateTime\", @parent_process_creation_date_time)\n writer.write_object_value(\"parentProcessId\", @parent_process_id)\n writer.write_object_value(\"parentProcessImageFile\", @parent_process_image_file)\n writer.write_string_value(\"processCommandLine\", @process_command_line)\n writer.write_date_time_value(\"processCreationDateTime\", @process_creation_date_time)\n writer.write_object_value(\"processId\", @process_id)\n writer.write_object_value(\"userAccount\", @user_account)\n end", "def inspect\n self.to_hash.inspect\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_collection_of_object_values(\"administrativeUnits\", @administrative_units)\n writer.write_collection_of_object_values(\"attributeSets\", @attribute_sets)\n writer.write_collection_of_object_values(\"customSecurityAttributeDefinitions\", @custom_security_attribute_definitions)\n writer.write_collection_of_object_values(\"deletedItems\", @deleted_items)\n writer.write_collection_of_object_values(\"federationConfigurations\", @federation_configurations)\n writer.write_collection_of_object_values(\"onPremisesSynchronization\", @on_premises_synchronization)\n end", "def inspect\n \"#<#{self.class}:0x#{object_id.to_s(16)}> JSON: \" +\n JSON.pretty_generate(@data)\n end", "def encode\n raise Errors::SerializerNotConfigured if serializer_missing?\n\n serializer.encode(self)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n super\n writer.write_string_value(\"activationUrl\", @activation_url)\n writer.write_string_value(\"activitySourceHost\", @activity_source_host)\n writer.write_string_value(\"appActivityId\", @app_activity_id)\n writer.write_string_value(\"appDisplayName\", @app_display_name)\n writer.write_object_value(\"contentInfo\", @content_info)\n writer.write_string_value(\"contentUrl\", @content_url)\n writer.write_date_time_value(\"createdDateTime\", @created_date_time)\n writer.write_date_time_value(\"expirationDateTime\", @expiration_date_time)\n writer.write_string_value(\"fallbackUrl\", @fallback_url)\n writer.write_collection_of_object_values(\"historyItems\", @history_items)\n writer.write_date_time_value(\"lastModifiedDateTime\", @last_modified_date_time)\n writer.write_enum_value(\"status\", @status)\n writer.write_string_value(\"userTimezone\", @user_timezone)\n writer.write_object_value(\"visualElements\", @visual_elements)\n end", "def serialize\n super(ATTR_NAME_ARY)\n end", "def serialize\n super(ATTR_NAME_ARY)\n end", "def serialize\n super(ATTR_NAME_ARY)\n end", "def serialize\n super(ATTR_NAME_ARY)\n end", "def serialize\n super(ATTR_NAME_ARY)\n end", "def serialize(writer)\n raise StandardError, 'writer cannot be null' if writer.nil?\n writer.write_object_value(\"basis\", @basis)\n writer.write_object_value(\"cost\", @cost)\n writer.write_object_value(\"datePurchased\", @date_purchased)\n writer.write_object_value(\"firstPeriod\", @first_period)\n writer.write_object_value(\"period\", @period)\n writer.write_object_value(\"rate\", @rate)\n writer.write_object_value(\"salvage\", @salvage)\n writer.write_additional_data(@additional_data)\n end", "def serialize(writer) \n super\n writer.write_collection_of_primitive_values(\"categories\", @categories)\n writer.write_string_value(\"changeKey\", @change_key)\n writer.write_date_value(\"createdDateTime\", @created_date_time)\n writer.write_date_value(\"lastModifiedDateTime\", @last_modified_date_time)\n end" ]

[ "0.7951372", "0.7645999", "0.7579812", "0.7579812", "0.7440032", "0.720861", "0.720861", "0.7207583", "0.7016516", "0.70007193", "0.6992252", "0.69838214", "0.69723576", "0.69666415", "0.69666415", "0.6942002", "0.69417155", "0.6933786", "0.6913977", "0.6891677", "0.68810964", "0.687664", "0.687664", "0.687664", "0.6875119", "0.68510306", "0.68364877", "0.68364877", "0.6825542", "0.6815931", "0.68061364", "0.68006235", "0.67944074", "0.67717844", "0.67341864", "0.67289317", "0.66964674", "0.66828746", "0.6673492", "0.6668077", "0.6666333", "0.6659732", "0.6656788", "0.66513675", "0.6635875", "0.66275525", "0.66275525", "0.66275525", "0.6627384", "0.66165835", "0.66141444", "0.6611379", "0.6597342", "0.65968686", "0.6594517", "0.6592636", "0.6580536", "0.65803635", "0.6575503", "0.65716475", "0.65712893", "0.6566952", "0.6560253", "0.65554273", "0.65410006", "0.65378475", "0.65346783", "0.6527361", "0.6525178", "0.65242875", "0.65235287", "0.65174305", "0.65141636", "0.6508169", "0.6499713", "0.6498714", "0.6496881", "0.6486202", "0.6482482", "0.64814615", "0.6479782", "0.6476621", "0.6475453", "0.64677024", "0.64633876", "0.64619535", "0.6461202", "0.6457243", "0.64497435", "0.6439583", "0.6433183", "0.643078", "0.6424316", "0.6420337", "0.6420337", "0.6420337", "0.6420337", "0.6420337", "0.6418776", "0.64156514" ]

[ "def specific_allowed_targets=(value)\n @specific_allowed_targets = value\n end", "def allowed_target_scope\n return @allowed_target_scope\n end", "def query_target_permission_set\n @attributes[:query_target_permission_set]\n end", "def query_target_permission\n @attributes[:query_target_permission]\n end", "def can?(user, action, target)\n @permissions.select { |cls, _| target.is_a?(cls) || target == cls }\n .collect { |_, perms| perms }\n .flatten\n .select { |perm| perm.has_action? action }\n .any? { |perm| perm.allow? user, target }\n end", "def target_types\n return @target_types\n end", "def is_direct_collaborator?\n permission_sources = data.fetch(\"permissionSources\")\n permission_sources.size == 1 && permission_sources.first.fetch(\"source\").has_key?(\"nameWithOwner\") # nameWithOwner means this is a Repository permission\n end", "def permissions_supplied?\n !!(self.target_mode || self.target_user || self.target_group)\n end", "def project_permissions\n user.project_permissions(rule.project)\n end", "def target_in_privileges?\n @privileges.key?(@target)\n end", "def protections\n @descriptive_detail.protections\n end", "def permission_set\n @attributes[:permission_set]\n end", "def permission_grants\n return @permission_grants\n end", "def permissions\n attribute_prop(5)\n end", "def allowed_target_scope=(value)\n @allowed_target_scope = value\n end", "def targets\n return @targets\n end", "def targets\n return @targets\n end", "def able_to_any?(*required_permissions)\n perms = required_permissions.map(&:to_sym)\n permissions.any? do |p| \n perms.include?(p.name.to_sym) \n end\n end", "def targets\n\t\tKassociation.where( :target_id => self.id )\n\tend", "def permission\n perm = data.fetch(\"permissionSources\")\n .map { |i| i[\"permission\"] }\n .first\n .downcase\n GITHUB_TO_TERRAFORM_PERMISSIONS.fetch(perm)\n end", "def defined_permissions\n FLAGS.collect { |value, name| (@bits & (1 << value)).positive? ? name : nil }.compact\n end", "def target_objects\n return @target_objects\n end", "def target_objects\n return @target_objects\n end", "def can(*actions, target, &condition)\n perm = Permissions.new(*actions, &condition)\n @permissions[target].push perm\n end", "def available_target_options\n [:email, :email_allowed, :batch_email_allowed, :subscription_allowed, :action_cable_enabled, :action_cable_with_devise, :devise_resource, :printable_notification_target_name, :printable_name].freeze\n end", "def get_targets\n {\n method: \"Target.getTargets\"\n }\n end", "def target_set\n return @children['target-set'][:value]\n end", "def permission\n return @children['permission'][:value]\n end", "def allow_access_by_any_user\n @attributes[:allow_access_by_any_user]\n end", "def permissions\n @attributes[:permissions]\n end", "def permissions\n @attributes[:permissions]\n end", "def has_direct?\n @privileges.fetch(@target).include?(@requisite)\n end", "def attachments_permission\n @attributes[:attachments_permission]\n end", "def attachments_permission\n @attributes[:attachments_permission]\n end", "def managed_collection_ids\n Hyrax::Collections::PermissionsService.source_ids_for_manage(ability: @ability)\n end", "def permission_classification\n return @permission_classification\n end", "def granted? *args\n opts = extract_options!(args)\n principals = extract_principals(opts)\n any_role = opts[:any_role] || opts[:any]\n any_principal = opts[:any_principal] || opts[:any]\n args.send(any_role ? :any? : :all?) do |role| \n role_granted_to_principals?(role, principals, any: any_principal) \n end\n end", "def allow?(principle:, permission:)\n # Check in array order\n ordered_check(principle: principle, permission: permission, owner: owner, group: group)\n end", "def billing_permission\n @attributes[:billing_permission]\n end", "def ip_permissions(sg)\n sg.security_group_rules\n end", "def inspect_targets(targets_orig,privates_orig,blacklisted_orig, logger=$LOG)\n targets,privates,blacklisted=targets_orig.clone,privates_orig.clone,blacklisted_orig.clone\n raise \"#{targets.class} not an Array!\\n #{targets_orig.class}\\n #{targets_orig.inspect}\\n #{targets.inspect}\" if !targets.respond_to?(:delete_if)\n targets.delete_if {|target| \n # to handle cases like timestamp when the request is actually an array\n # we assume the first is the destination and do not blacklist based on\n # the other values\n if target.class==Array\n target=target.at(0)\n end\n privates.include?(target) or blacklisted.include?(target) or\n if Inet::in_private_prefix?(target)\n privates << target\n logger.puts \"Removed private address #{target} from targets\"\n true\n elsif Inet::in_blacklisted_prefix?(target)\n blacklisted << target\n logger.puts \"Removed blacklisted address #{target} from targets\"\n true\n else\n false\n end\n }\n return targets, privates, blacklisted\nend", "def permission_set\n if attributes[\"InheritedSecurity\"]\n supersite.permission_set\n else\n PermissionSet.new(self)\n end\n end", "def permissions\n return @permissions\n end", "def permissions\n objects_from_response(Code42::Permission, :get, 'permission')\n end", "def permission_role_for(target, context, proles=nil)\n auth_scope do\n proles ||= roles_for(context)\n return permission_role_class.find_by(role_foreign_key.to_sym => proles.map(&:id), permission_foreign_key.to_sym => target.id, :context_type => context.class_name, :context_id => context.id)\n end\n end", "def provision_attachments_permission\n @attributes[:provision_attachments_permission]\n end", "def meta_abilities\n User.roles.each do |(k, v)|\n if user.has_role? k\n can \"do_#{k}\".to_sym, :all\n end\n end\n end", "def allowed_controllers\n permissions.map{|permission| self.class.controller_name_from_permission(permission) }.compact\n end", "def allowed_members\n return @allowed_members\n end", "def restrictions\n return @restrictions\n end", "def target_group_arn\n @rule_details.actions[0].target_group_arn\n end", "def targets()\n if @target then\n return [self]\n else\n return []\n end\n end", "def ip_permissions\n data[:ip_permissions]\n end", "def ingress_permissions\n @sg.ip_permissions\n end", "def ingress_permissions\n @sg.ip_permissions\n end", "def has_all?\n @privileges.fetch(@target) == :all\n end", "def custom_permissions\n can [:file_status, :stage, :unstage], FileSet\n\n if current_user.ingest_from_external_sources?\n end\n\n if current_user.manage_users?\n can [:show, :add_user, :remove_user, :index], Role\n end\n\n if current_user.manage_roles?\n can [:create, :show, :index, :edit, :update, :destroy], Role\n end\n\n if current_user.run_fixity_checks?\n can [:fixity], FileSet\n end\n # Limits deleting objects to a the admin user\n #\n # if current_user.admin?\n # can [:destroy], ActiveFedora::Base\n # end\n\n # Limits creating new objects to a specific group\n #\n # if user_groups.include? 'special_group'\n # can [:create], ActiveFedora::Base\n # end\n end", "def targets=(value)\n @targets = value\n end", "def targets=(value)\n @targets = value\n end", "def targets; self[:targets]; end", "def can?(*args)\n permissions.can?(*args)\n end", "def allowable\n return @allowable if @allowable\n\n @allowable = parent_allowables\n end", "def access_rights_for_permission(perm)\n sym = Lockdown.get_symbol(perm)\n\n permissions[sym]\n rescue \n raise SecurityError, \"Permission requested is not defined: #{sym}\"\n end", "def may?(*args)\n return false unless p = permissions.for(args.pop).first\n mask = Authorize::Permission::Mask[*args].complete\n mask.subset?(p.mask)\n end", "def admin_set_ids_for_deposit\n Hyrax::Collections::PermissionsService.source_ids_for_deposit(ability: current_ability)\n end", "def authorize (permission_name)\n self.allowances.detect {|a| a.permission.name == permission_name.to_s}\n end", "def allowed_to?(action)\n if action.is_a? Hash\n authorized = allowed_actions.include? \"#{action[:controller]}/#{action[:action]}\"\n else\n authorized = allowed_permissions.include? action\n end\n logger.debug \"Authorizing: Granted: #{authorized}\"\n authorized\n end", "def effective_permissions\n source = self\n\n while source.inherit && source.forum.parent\n source = source.forum.parent.forum_permissions.find_by(group: group)\n end\n\n source = group if source.inherit\n\n source\n end", "def targets( origin = @hex )\n coords = XmlSimple.xml_in(\n @game.send( \"<attackOptions x='#{origin.x}' y='#{origin.y}' type='#{TYPE_FOR_SYMBOL[@type]}'/>\" )\n )[ 'coordinate' ]\n if coords\n coords.map { |c|\n @game.map[ c[ 'x' ], c[ 'y' ] ].unit\n }.compact\n else\n []\n end\n end", "def implied_perms_for(permissions)\n implied_permissions = []\n permissions.each do |p|\n next if p.class_name.to_sym == :any\n next unless p.target_class_exists?\n p.target_class.sg_priv_to_implied_privs[p.privilege].each do |pi|\n\tp_new = p.dup\n\tp_new.privilege = pi\n\timplied_permissions << p_new\n\tend\n end\n implied_permissions \n end", "def allowed_to?(action, controller = nil)\n YamledAcl.permission?(action, controller)\n end", "def target_ids\n case target_class.associations[target_association][:type]\n when :has_one, :belongs_to\n id = target.send(target_attribute) if target\n (id && Set[id]) || Set.new\n when :has_many, :has_and_belongs_to_many\n (target && target.send(target_attribute)) || Set.new\n end\n end", "def permissions\n if @prm\n @prm\n else\n @maximum_prms\n end\n end", "def injectPolicyTargets(policy, targets, mu_type = nil)\n if !policy.match(/^#{@deploy.deploy_id}/)\n policy = @mu_name+\"-\"+policy.upcase\n end\n\n my_policies = cloud_desc[\"policies\"]\n \n my_policies.each { |p|\n if p.policy_name == policy\n old = MU::Cloud::AWS.iam(credentials: @config['credentials']).get_policy_version(\n policy_arn: p.arn,\n version_id: p.default_version_id\n ).policy_version\n\n doc = JSON.parse URI.decode_www_form_component old.document\n \n need_update = false\n \n doc[\"Statement\"].each { |s|\n targets.each { |target|\n target_string = target\n\n if target['type']\n sibling = @deploy.findLitterMate(\n name: target[\"identifier\"],\n type: target[\"type\"]\n )\n\n target_string = sibling.cloudobj.arn\n elsif target.is_a? Hash\n target_string = target['identifier']\n end\n\n unless s[\"Resource\"].include? target_string\n s[\"Resource\"] << target_string\n need_update = true\n end\n }\n }\n\n if need_update\n MU.log \"Updating IAM policy #{policy} to grant permissions on #{targets.to_s}\", details: doc\n update_policy(p.arn, doc)\n end\n end\n }\n end", "def allowed_approvers\n return @allowed_approvers unless @allowed_approvers.nil?\n\n owners = owners_contents.flatten.uniq\n\n if self.author =~ /<(.+?)@amiestreet.com>/\n author_username = $1\n owners.reject! { |u| u == author_username }\n end\n @allowed_approvers = owners\n\n @allowed_approvers\n end", "def egress_permissions\n @sg.ip_permissions_egress\n end", "def egress_permissions\n @sg.ip_permissions_egress\n end", "def permission_assigned_automatically?(permmision_symbol)\n public_access?(permmision_symbol) || protected_access?(permmision_symbol)\n end", "def can?(permission)\n permissions.include?(permission.to_s) || super_admin?\n end", "def allowed_accounts\n return @allowed_accounts\n end", "def access_package_assignment_approvals\n return @access_package_assignment_approvals\n end", "def constraint_target\n target\n end", "def permissions\n [\"read_permissions\", \"update_permissions\", \"delete_permissions\"].each do |p|\n perms = self.send(p)\n perm_string = []\n AssetPermission::GROUP.each do |g, v|\n if perms & AssetPermission::GROUP[g] > 0\n perm_string << g\n end\n end\n puts \"#{self.name}: #{p}: #{perm_string.join(',')}\"\n end\n end", "def denied\n return @denied\n end", "def permissions\n @resource_permissions\n end", "def permission_grants=(value)\n @permission_grants = value\n end", "def target_audience\n @target_audience\n end", "def objects\n @object_permission_map.keys\n end", "def targets\n ['Barn 0 - 14', 'Ung 15 - 24', 'Voksen 25 - 65', 'Eldre 65 +']\n end", "def authorize_manageable\n unless @project_group.is_child_of?(@project)\n deny_access\n end\n true\n end", "def allowed_to_create_security_groups\n return @allowed_to_create_security_groups\n end", "def rights\n self[\"rights_tesim\"]\n end", "def extra_perms_for_all_users\n can :create, User\n can :create, PaperTrail::Version\n can :read, Team, :private => false\n can :read, Team, :private => true, :team_users => { :user_id => @user.id, :status => 'member' }\n\n # A @user can read a user if:\n # 1) @user is the same as target user\n # 2) target user is a member of at least one public team\n # 3) @user is a member of at least one same team as the target user\n can :read, User do |obj|\n @user.id == obj.id || obj.teams.where('teams.private' => false).exists? || @user.is_a_colleague_of?(obj)\n end\n\n # A @user can read contact, project or team user if:\n # 1) team is private and @user is a member of that team\n # 2) team user is not private\n can :read, [Contact, Project, TeamUser] do |obj|\n team = obj.team\n !team.private || @user.is_member_of?(team)\n end\n\n # A @user can read any of those objects if:\n # 1) it's a source related to him/her or not related to any user\n # 2) it's related to at least one public team\n # 3) it's related to a private team which the @user has access to\n can :read, [Account, Source, Media, ProjectMedia, ProjectSource, Comment, Flag, Status, Tag, Embed, Link, Claim] do |obj|\n if obj.is_a?(Source) && obj.respond_to?(:user_id)\n obj.user_id == @user.id || obj.user_id.nil?\n else\n team_ids = obj.get_team\n teams = obj.respond_to?(:get_team_objects) ? obj.get_team_objects.reject{ |t| t.private } : Team.where(id: team_ids, private: false)\n if teams.empty?\n TeamUser.where(user_id: @user.id, team_id: team_ids, status: 'member').exists?\n else\n teams.any?\n end\n end\n end\n end", "def sftp_permission\n @attributes[:sftp_permission]\n end", "def sftp_permission\n @attributes[:sftp_permission]\n end", "def targets\n @targets ||= (data['targets'] || {})\n end", "def targets\n target.split(NAMESPACE_PATTERN)\n end", "def targets\n target.split(NAMESPACE_PATTERN)\n end", "def groups_access_permission?\n return true if !respond_to?(:permissions?)\n\n permissions?('ticket.agent')\n end", "def permission_inheritance_target_type\n if feedable.acts_like?(:permissable)\n feedable_type\n else\n scoping_object_type\n end\n end" ]

[ "0.6294513", "0.5980861", "0.55531824", "0.5541049", "0.5178076", "0.50905323", "0.5085866", "0.5082821", "0.5082263", "0.5048445", "0.50375015", "0.50342625", "0.5008593", "0.49651688", "0.49140137", "0.49022925", "0.49022925", "0.48880875", "0.48801762", "0.48367324", "0.48320282", "0.48297116", "0.48297116", "0.4818727", "0.48114786", "0.48005164", "0.47815755", "0.47646222", "0.47561416", "0.47343537", "0.47343537", "0.47310147", "0.4704803", "0.4704803", "0.4695399", "0.46877626", "0.4667672", "0.46467963", "0.46438023", "0.46298748", "0.46297425", "0.46065384", "0.4602057", "0.4598039", "0.45935014", "0.458913", "0.45834953", "0.45814168", "0.45749703", "0.45667654", "0.45627677", "0.45567456", "0.4556112", "0.4554048", "0.4554048", "0.45486522", "0.4543297", "0.4543082", "0.4543082", "0.45401412", "0.4539259", "0.45335704", "0.45301774", "0.45280287", "0.45226723", "0.45224276", "0.45219144", "0.45135552", "0.44916618", "0.44905248", "0.4480495", "0.44772652", "0.4475628", "0.44722658", "0.44646338", "0.4463408", "0.44613594", "0.44600332", "0.44596466", "0.4459036", "0.44521716", "0.44453272", "0.4445064", "0.44443655", "0.44435203", "0.44410732", "0.44396263", "0.44379416", "0.4435494", "0.4426192", "0.4424331", "0.44232067", "0.44230998", "0.44167468", "0.44167468", "0.44159755", "0.44122508", "0.44122508", "0.44120783", "0.44108877" ]

[ "def specific_allowed_targets\n return @specific_allowed_targets\n end", "def allowed_target_scope=(value)\n @allowed_target_scope = value\n end", "def target_objects=(value)\n @target_objects = value\n end", "def target_objects=(value)\n @target_objects = value\n end", "def set_protected_access(*perms)\n perms.each do |perm_symbol|\n perm = find_permission_object(perm_symbol)\n if perm\n perm.set_as_protected_access \n else\n msg = \"Permission not found: #{perm_symbol}\"\n raise Lockdown::InvalidRuleAssignment, msg\n end\n end\n end", "def targets=(value)\n @targets = value\n end", "def targets=(value)\n @targets = value\n end", "def can(*actions, target, &condition)\n perm = Permissions.new(*actions, &condition)\n @permissions[target].push perm\n end", "def set_permissions(*args)\n self.permissions = {}\n args.each do | permission |\n raise InvalidPermissionError.new(\"Permission #{permission} is invalid.\") unless ALLOWED_PERMISSIONS.include?(permission)\n self.permissions[permission] = true\n end\n end", "def set_and_authorize_sdgtarget_recommendation\n @sdgtarget_recommendation = policy_scope(base_object).find(params[:id])\n authorize @sdgtarget_recommendation\n end", "def to(*privs)\n raise DSLError, \"to only allowed in has_permission_on blocks\" if @current_rule.nil?\n @current_rule.append_privileges(privs.flatten)\n end", "def to(*privs)\n raise DSLError, 'to only allowed in has_permission_on blocks' if @current_rule.nil?\n @current_rule.append_privileges(privs.flatten)\n end", "def withAllowedPurposeIds(allowedPurposeIds)\n if allowedPurposeIds.nil?\n raise \"Argument allowedPurposeIds is null\"\n end\n allowedPurposeIds.each do |purposeId|\n if purposeId < 0 || purposeId > IABConsentString::GDPRConstants::PURPOSES_SIZE\n raise \"Invalid purpose ID found\"\n end\n end\n @allowedPurposes = allowedPurposeIds;\n self\n end", "def permissions_supplied?\n !!(self.target_mode || self.target_user || self.target_group)\n end", "def allowed_target_scope\n return @allowed_target_scope\n end", "def set_public_access(*perms)\n perms.each do |perm_symbol|\n perm = find_permission_object(perm_symbol)\n if perm\n perm.set_as_public_access \n else\n msg = \"Permission not found: #{perm_symbol}\"\n raise Lockdown::InvalidRuleAssignment, msg\n end\n end\n end", "def target_types=(value)\n @target_types = value\n end", "def set_and_authorize_sdgtarget_indicator\n @sdgtarget_indicator = policy_scope(base_object).find(params[:id])\n authorize @sdgtarget_indicator\n end", "def enable_targets_to_self_add_access=(value)\n @enable_targets_to_self_add_access = value\n end", "def include_targets=(value)\n @include_targets = value\n end", "def set_access(*args)\n options = args.extract_options!\n options[:object] ||= Array(@_controller).first.to_s.singularize.to_sym if @_controller.present?\n permissions.add(*args, options)\n end", "def injectPolicyTargets(policy, targets, mu_type = nil)\n if !policy.match(/^#{@deploy.deploy_id}/)\n policy = @mu_name+\"-\"+policy.upcase\n end\n\n my_policies = cloud_desc[\"policies\"]\n \n my_policies.each { |p|\n if p.policy_name == policy\n old = MU::Cloud::AWS.iam(credentials: @config['credentials']).get_policy_version(\n policy_arn: p.arn,\n version_id: p.default_version_id\n ).policy_version\n\n doc = JSON.parse URI.decode_www_form_component old.document\n \n need_update = false\n \n doc[\"Statement\"].each { |s|\n targets.each { |target|\n target_string = target\n\n if target['type']\n sibling = @deploy.findLitterMate(\n name: target[\"identifier\"],\n type: target[\"type\"]\n )\n\n target_string = sibling.cloudobj.arn\n elsif target.is_a? Hash\n target_string = target['identifier']\n end\n\n unless s[\"Resource\"].include? target_string\n s[\"Resource\"] << target_string\n need_update = true\n end\n }\n }\n\n if need_update\n MU.log \"Updating IAM policy #{policy} to grant permissions on #{targets.to_s}\", details: doc\n update_policy(p.arn, doc)\n end\n end\n }\n end", "def enable_targets_to_self_remove_access=(value)\n @enable_targets_to_self_remove_access = value\n end", "def update!(**args)\n @target_restrictions = args[:target_restrictions] if args.key?(:target_restrictions)\n end", "def able_to_any?(*required_permissions)\n perms = required_permissions.map(&:to_sym)\n permissions.any? do |p| \n perms.include?(p.name.to_sym) \n end\n end", "def set_and_authorize_sdgtarget_indicator\n @sdgtarget_indicator = policy_scope(SdgtargetIndicator).find(params[:id])\n authorize @sdgtarget_indicator\n end", "def permits=(permissions)\n # make a copy!\n @permissions = {}.merge(permissions)\n end", "def permits=(permissions)\n # make a copy!\n @permissions = {}.merge(permissions)\n end", "def available_target_options\n [:email, :email_allowed, :batch_email_allowed, :subscription_allowed, :action_cable_enabled, :action_cable_with_devise, :devise_resource, :printable_notification_target_name, :printable_name].freeze\n end", "def custom_permissions\n can [:file_status, :stage, :unstage], FileSet\n\n if current_user.ingest_from_external_sources?\n end\n\n if current_user.manage_users?\n can [:show, :add_user, :remove_user, :index], Role\n end\n\n if current_user.manage_roles?\n can [:create, :show, :index, :edit, :update, :destroy], Role\n end\n\n if current_user.run_fixity_checks?\n can [:fixity], FileSet\n end\n # Limits deleting objects to a the admin user\n #\n # if current_user.admin?\n # can [:destroy], ActiveFedora::Base\n # end\n\n # Limits creating new objects to a specific group\n #\n # if user_groups.include? 'special_group'\n # can [:create], ActiveFedora::Base\n # end\n end", "def update_authorized?(target)\n @from_member.roles_include?(:moderator) || target == @from_member\n end", "def implied_perms_for(permissions)\n implied_permissions = []\n permissions.each do |p|\n next if p.class_name.to_sym == :any\n next unless p.target_class_exists?\n p.target_class.sg_priv_to_implied_privs[p.privilege].each do |pi|\n\tp_new = p.dup\n\tp_new.privilege = pi\n\timplied_permissions << p_new\n\tend\n end\n implied_permissions \n end", "def injectPolicyTargets(policy, targets, attach: false)\n if @deploy and !policy.match(/^#{@deploy.deploy_id}/)\n policy = @mu_name+\"-\"+policy.upcase\n end\n my_policies = cloud_desc(use_cache: false)[\"policies\"]\n my_policies ||= []\n\n seen_policy = false\n my_policies.each { |p|\n if p.policy_name == policy\n seen_policy = true\n old = MU::Cloud::AWS.iam(credentials: @credentials).get_policy_version(\n policy_arn: p.arn,\n version_id: p.default_version_id\n ).policy_version\n\n doc = JSON.parse URI.decode_www_form_component old.document\n need_update = false\n\n doc[\"Statement\"].each { |s|\n targets.each { |target|\n target_string = target\n\n if target['type'] and @deploy\n sibling = @deploy.findLitterMate(\n name: target[\"identifier\"],\n type: target[\"type\"]\n )\n\n target_string = sibling.cloudobj.arn\n elsif target.is_a? Hash\n target_string = target['identifier']\n end\n\n unless s[\"Resource\"].include? target_string\n s[\"Resource\"] << target_string\n need_update = true\n end\n }\n }\n\n if need_update\n MU.log \"Updating IAM policy #{policy} to grant permissions on #{targets.to_s}\", details: doc\n update_policy(p.arn, doc)\n end\n end\n }\n\n if !seen_policy\n MU.log \"Was given new targets for policy #{policy}, but I don't see any such policy attached to role #{@cloud_id}\", MU::WARN, details: targets\n end\n end", "def can?(user, action, target)\n @permissions.select { |cls, _| target.is_a?(cls) || target == cls }\n .collect { |_, perms| perms }\n .flatten\n .select { |perm| perm.has_action? action }\n .any? { |perm| perm.allow? user, target }\n end", "def assign_policy(*args)\n target.target.send(\"assign_policy\",*args)\n end", "def setable_permissions\n setable_permissions = Erp::AccessControl.permissions - Erp::AccessControl.public_permissions\n setable_permissions -= Erp::AccessControl.members_only_permissions if builtin == BUILTIN_NON_MEMBER\n setable_permissions -= Erp::AccessControl.loggedin_only_permissions if builtin == BUILTIN_ANONYMOUS\n setable_permissions\n end", "def allowed_to_read_other_users=(value)\n @allowed_to_read_other_users = value\n end", "def targeting=(rules)\n raise \"Channel must be saved\" if new_record?\n remote.call(\"ox.setChannelTargeting\", self.id, rules)\n end", "def targets=( *args )\n update_state_collection( '@targets', *args )\n end", "def set_target_attributes(_target)\n raise NoMethodError, \"subclasses must implement #{__method__}\"\n end", "def admin_set_ids_for_deposit\n Hyrax::Collections::PermissionsService.source_ids_for_deposit(ability: current_ability)\n end", "def set_permissions(params, permissions_ds)\n # default to rightsMetadata (like standard Hydra) if permissions_ds isn't set\n permissions_ds = \"rightsMetadata\" if permissions_ds.to_s == \"\"\n perm_hash = permission_hash\n #params[:new_user_name].each { |name, access| perm_hash['person'][name] = access } if params[:new_user_name].present?\n params[:new_group_name].each { |name, access| perm_hash[\"group\"][name] = access } if params[:new_group_name].present?\n\n #params[:user].each { |name, access| perm_hash['person'][name] = access} if params[:user]\n params[:group].each { |name, access| perm_hash[\"group\"][name] = access} if params[:group]\n\n update_permissions(perm_hash, permissions_ds)\n end", "def post_privileges_target(privileges_targe)\n privileges_target = {\n \"name\"=>nil, \n \"repositoryTargetId\"=>nil,\n \"description\"=>\"\", \n \"repositoryId\"=>\"\",\n \"repositoryGroupId\"=>\"\",\n \"method\"=>[\"create\",\"read\",\"update\",\"delete\"],\n \"type\"=>\"target\"\n }.merge(privileges_targe);\n request = {\"data\"=>privileges_target}\n post(\"#{url_base}/privileges_target\", request)[\"data\"]\n end", "def update_targeting_setting(\n client,\n customer_id,\n ad_group_id,\n targeting_setting)\n # Constructs an operation that will update the ad group with the specified\n # resource name.\n ad_group_resource_name = client.path.ad_group(customer_id, ad_group_id)\n operation = client.operation.update_resource.ad_group(ad_group_resource_name) do |ag|\n ag.targeting_setting = targeting_setting\n end\n\n # Issues a mutate request to update the ad group.\n response = client.service.ad_group.mutate_ad_groups(\n customer_id: customer_id,\n operations: [operation],\n )\n\n # Prints the resource name of the updated ad group.\n puts \"Updated targeting setting of ad group with resource name \" \\\n \"#{response.results.first.resource_name}; set the AUDIENCE target \" \\\n \"restriction to 'Observation'.\"\nend", "def implicit_authorization_target!\n implicit_authorization_target || Kernel.raise(\n NotFound,\n [\n self,\n \"Couldn't find implicit authorization target \" \\\n \"for #{self.class}. \" \\\n \"Please, provide policy class explicitly using `with` option or \" \\\n \"define the `implicit_authorization_target` method.\"\n ]\n )\n end", "def allow?(user, target)\n @condition.call(user, target)\n end", "def can_share=(value)\n set_privileges('s', value)\n end", "def allow_access_by_any_user\n @attributes[:allow_access_by_any_user]\n end", "def permission_set\n if attributes[\"InheritedSecurity\"]\n supersite.permission_set\n else\n PermissionSet.new(self)\n end\n end", "def set_and_authorize_sdgtarget_measure\n @sdgtarget_measure = policy_scope(base_object).find(params[:id])\n authorize @sdgtarget_measure\n end", "def set_inherited_privileges!\n rules.each do |resource, rule|\n privileges = privileges(resource)\n privileges.each { |k, v| rule.privileges[k] = v if rule.privileges.key?(k) }\n end\n\n self\n end", "def protect_all_sources\n @protected_all_sources = all_sources\n end", "def target_params\n params.permit(:project_id,\n :action_state_id,\n target: {\n targets: [:id, :value],\n new_targets: [:value],\n })\n end", "def implicit_authorization_target\n # no-op\n end", "def sync_project_permissions(source_user_id, target_user_id)\n source_user = find_user(source_user_id)\n target_user = find_user(target_user_id)\n\n # Check to make sure source and target users exist\n if source_user.nil? then\n @logger.warn \" Source user: #{source_user_id} Not found. Skipping sync of permissions to #{target_user_id}.\"\n return\n elsif target_user.nil then\n @logger.warn \" Target user: #{target_user_id} Not found. Skipping sync of permissions for #{target_user_id}.\"\n return\n end\n\n # Check to make sure source user has permissions\n permissions_existing = target_user.UserPermissions\n source_permissions = source_user.UserPermissions\n\n if source_permissions.nil? then\n @logger.warn \" Source user: #{source_user_id} does not have any permissions assigned. Skipping sync of permissions to #{target_user_id}.\"\n return\n end\n\n # build permission hashes by Project ObjectID\n source_permissions_by_project = {}\n source_permissions.each do | this_source_permission |\n if this_source_permission._type == \"ProjectPermission\" then\n source_permissions_by_project[this_source_permission.Project.ObjectID.to_s] = this_source_permission\n end\n end\n\n permissions_existing_by_project = {}\n permissions_existing.each do | this_permission |\n if this_permission._type == \"ProjectPermission\" then\n permissions_existing_by_project[this_permission.Project.ObjectID.to_s] = this_permission\n end\n end\n\n # Prepare arrays of permissions to update, create, or delete\n permissions_to_update = []\n permissions_to_create = []\n permissions_to_delete = []\n\n # Check target permissions list for permissions to create and/or update\n source_permissions_by_project.each_pair do | this_source_project_oid, this_source_permission |\n\n # If target hash doesn't contain the OID referenced in the source permission set, it's a new\n # permission we need to create\n if !permissions_existing_by_project.has_key?(this_source_project_oid) then\n permissions_to_create.push(this_source_permission)\n\n # We found the OID key, so there is an existing permission for this Project. Is it different\n # from the target permission?\n else\n this_source_role = this_source_permission.Role\n this_source_project = find_project(this_source_project_oid)\n this_source_project_name = this_source_project[\"Name\"]\n\n if project_permissions_different?(this_source_project, target_user, this_source_role) then\n existing_permission = permissions_existing_by_project[this_source_project_oid]\n this_existing_project = existing_permission.Project\n this_existing_project_name = this_existing_project[\"Name\"]\n this_existing_role = existing_permission.Role\n @logger.info \"Existing Permission: #{this_existing_project_name}: #{this_existing_role}\"\n @logger.info \"Updated Permission: #{this_source_project_name}: #{this_source_role}\"\n permissions_to_update.push(this_source_permission)\n end\n end\n end\n\n # Loop through target permissions list and check for Project Permissions that don't exist\n # in source permissions template, indicating they need to be removed\n permissions_existing_by_project.each_pair do | this_existing_project_oid, this_existing_permission |\n if !source_permissions_by_project.has_key?(this_existing_project_oid) then\n permissions_to_delete.push(this_existing_permission)\n end\n end\n\n # Process creates\n number_new_permissions = 0\n permissions_to_create.each do | this_new_permission |\n this_project = find_project(this_new_permission.Project.ObjectID.to_s)\n if !this_project.nil? then\n\n this_project = this_new_permission.Project\n this_workspace = this_project.Workspace\n this_workspace.read\n\n this_project_name = this_new_permission.Project.Name\n this_workspace_name = this_workspace.Name\n\n this_role = this_new_permission.Role\n\n @logger.info \"Workspace: #{this_workspace_name}\"\n @logger.info \"Creating #{this_role} permission on #{this_project_name} from #{source_user_id} to: #{target_user_id}.\"\n create_project_permission(target_user, this_project, this_role)\n number_new_permissions += 1\n end\n end\n\n # Process updates\n number_updated_permissions = 0\n permissions_to_update.each do | this_new_permission |\n this_project = find_project(this_new_permission.Project.ObjectID.to_s)\n if !this_project.nil? then\n this_project = this_new_permission.Project\n this_workspace = this_project.Workspace\n this_workspace.read\n\n this_project_name = this_new_permission.Project.Name\n this_workspace_name = this_workspace.Name\n\n this_role = this_new_permission.Role\n\n @logger.info \"Workspace: #{this_workspace_name}\"\n @logger.info \"Updating #{this_role} permission on #{this_project_name} from #{source_user_id} to: #{target_user_id}.\"\n create_project_permission(target_user, this_project, this_role)\n number_updated_permissions += 1\n end\n end\n\n # Process deletes\n number_removed_permissions = 0\n permissions_to_delete.each do | this_deleted_permission |\n this_project = find_project(this_deleted_permission.Project.ObjectID.to_s)\n if !this_project.nil? then\n this_project = this_deleted_permission.Project\n this_workspace = this_project.Workspace\n this_workspace.read\n\n this_project_name = this_deleted_permission.Project.Name\n this_workspace_name = this_workspace.Name\n\n this_role = this_deleted_permission.Role\n\n @logger.info \"Workspace: #{this_workspace_name}\"\n @logger.info \"Removing #{this_role} permission to #{this_project_name} from #{target_user_id} since it is not present on source: #{source_user_id}.\"\n if !@upgrade_only_mode then\n delete_project_permission(target_user, this_project)\n number_removed_permissions += 1\n else\n @logger.info \" #{target_user_id} - upgrade_only_mode == true.\"\n @logger.info \" Proposed Permission removal would downgrade permissions. No permission removal applied.\"\n end\n end\n end\n @logger.info \"#{number_new_permissions} Permissions Created; #{number_updated_permissions} Permissions Updated; #{number_removed_permissions} Permissions Removed.\"\n end", "def allow?(principle:, permission:)\n # Check in array order\n ordered_check(principle: principle, permission: permission, owner: owner, group: group)\n end", "def azure_rights_management_services_allowed=(value)\n @azure_rights_management_services_allowed = value\n end", "def protected_access(*permissions)\n permissions.each do |name| \n Lockdown::Configuration.make_permission_protected(name)\n end\n\n Lockdown::Configuration.protected_access = regexes(permissions)\n end", "def set_allowed\n @allowed = Allowed.find(params[:id])\n end", "def aimedAtTarget _obj, _args\n \"_obj aimedAtTarget _args;\" \n end", "def custom_permissions\n #Collection Manager Permissions\n #Higher power than edit user...[Dont want edit users to be able to DELETE a COLLECTION??, (Delete a DO?)]\n if current_user.applicable_policy?(SETTING_POLICY_COLLECTION_MANAGER)\n #Marked as being able to :manage_collection\n can :manage_collection_flag, :all\n can :create, [DRI::Batch, DRI::GenericFile]\n end\n\n\n #Admin Permissions\n if current_user.applicable_policy?(SETTING_POLICY_ADMIN)\n can :admin_flag, :all\n #Disabled for now..\n can :manage, :all\n end\n\n #Create_do flag (alias for :edit collection)\n can :create_do, String do |pid|\n test_create(pid)\n end\n\n can :create_do, DRI::Batch do |collection|\n test_create(collection)\n end\n end", "def allowSecurityManagement()\n banner(\"Allow Security\")\n @run.society.each_enclave() do |enclave|\n securityAgents = getSecurityAgents(enclave)\n securityAgentsName = \"SecurityAgentsIn#{enclave}\"\n declareSet(securityAgentsName, securityAgents)\n permit(enclaveAgentsName(enclave), securityAgentsName,\n \"AllowSecurityManagement-#{enclave}-I\",\n [ enclave ])\n permit(securityAgentsName, enclaveAgentsName(enclave),\n \"AllowSecurityManagement-#{enclave}-II\",\n [ enclave ])\n end\n end", "def query_target_permission_set\n @attributes[:query_target_permission_set]\n end", "def granted? *args\n opts = extract_options!(args)\n principals = extract_principals(opts)\n any_role = opts[:any_role] || opts[:any]\n any_principal = opts[:any_principal] || opts[:any]\n args.send(any_role ? :any? : :all?) do |role| \n role_granted_to_principals?(role, principals, any: any_principal) \n end\n end", "def is_permission_controlled=(value)\n @is_permission_controlled = value\n end", "def target_ids\n case target_class.associations[target_association][:type]\n when :has_one, :belongs_to\n id = target.send(target_attribute) if target\n (id && Set[id]) || Set.new\n when :has_many, :has_and_belongs_to_many\n (target && target.send(target_attribute)) || Set.new\n end\n end", "def enable_targets_to_self_update_access=(value)\n @enable_targets_to_self_update_access = value\n end", "def targeted_managed_app_configurations=(value)\n @targeted_managed_app_configurations = value\n end", "def setPermissionView( other_user )\n return setPermission( other_user, Dfile::PP_MAYVIEW )\n end", "def setTarget(lagrange: 0, mayer: 0)\n @lagrange = OCProblemChecker.convert_to_symbolic(lagrange, :lagrange, :setTarget)\n @mayer = OCProblemChecker.convert_to_symbolic(mayer, :mayer, :setTarget)\n OCProblemChecker.check_target(self)\n end", "def __set_synchromesh_permission_granted(old_rel, new_rel, obj, acting_user, args = [], &block)\n saved_acting_user = obj.acting_user\n obj.acting_user = acting_user\n new_rel.__synchromesh_permission_granted =\n obj.instance_exec(*args, &block) || (old_rel && old_rel.try(:__synchromesh_permission_granted))\n new_rel\n ensure\n obj.acting_user = saved_acting_user\n end", "def set_restrictions_to_child_pages\n self.descendants.map do |c|\n c.update_attributes(:restricted => self.restricted?)\n end\n end", "def restrictions=(value)\n @restrictions = value\n end", "def setPermissionEdit( other_user )\n return setPermission( other_user, Dfile::PP_MAYEDIT )\n end", "def custom_permissions\n if admin?\n can [:confirm_delete], ActiveFedora::Base\n can [:allow_downloads, :prevent_downloads], AdminSet\n\n can :manage, Spotlight::HomePage\n can :manage, Spotlight::Exhibit\n end\n\n can :read, Spotlight::HomePage\n can :read, Spotlight::Exhibit\n\n # Limits creating new objects to a specific group\n #\n # if user_groups.include? 'special_group'\n # can [:create], ActiveFedora::Base\n # end\n end", "def build_permissions(perms, other)\n perms.permits! :read\n perms.permits! :write if self == other\n end", "def setPermission( other_user, perm )\n if ( (not other_user.valid?) or ( other_user.is_a?(User) == false ) )\n # d \"~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~\"\n # d \"basic check failed\"\n # d other_user.type\n # d \"~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~\"\n return false\n end\n user = getUser()\n if ( other_user == user )\n # d \"~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~\"\n # d \"same user as owner\"\n # d \"~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~\"\n return true\n end\n if not self.special_users\n # d \"~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~\"\n # d \"creating special users group\"\n # d \"~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~\"\n self.special_users = {}\n end\n self.special_users[other_user.id.to_s] = perm\n # d \"~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~\"\n # d \"new permission:\"\n # d self.special_users\n # d \"~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~\"\n return true\n end", "def set_translation_target(opts)\n opts = check_params(opts,[:targets])\n super(opts)\n end", "def allow_to\n # owner of story can do anything? editing?\n super :owner, :all => true\n # approved users can create new stories\n super :user, :only => [:show, :index, :search, :new, :create]\n # everybody can list and watch\n super :all, :only => [:show, :index, :search]\n end", "def remove (*perms)\n perms = perms.map(&:to_s)\n delete(*proxy_target.select{|a|perms.include?(a.permission.name)})\n end", "def add_permissions_for(datafiles)\n self.conversation.users.each do |recipient|\n datafiles.each do |datafile|\n recipient.add_permission_for(datafile)\n end\n end\n end", "def custom_permissions # rubocop:disable Metrics/CyclomaticComplexity\n can :read, ApplicationPresenter, &:can_read?\n can :read, UsersPresenter, &:can_read?\n can :read, UserPresenter, &:can_read?\n can :read, RolesPresenter, &:can_read?\n can :read, RolePresenter, &:can_read?\n\n can :read, Press\n\n grant_press_analyst_abiltites if press_analyst?\n grant_press_editor_abilities if press_editor?\n grant_press_admin_abilities if platform_admin? || press_admin?\n grant_platform_admin_abilities if platform_admin?\n end", "def principals=(principals)\n if principals.nil?\n fail ArgumentError, 'invalid value for \"principals\", principals cannot be nil.'\n end\n @principals = principals\n end", "def permission_grants=(value)\n @permission_grants = value\n end", "def allowed_approvers\n return @allowed_approvers unless @allowed_approvers.nil?\n\n owners = owners_contents.flatten.uniq\n\n if self.author =~ /<(.+?)@amiestreet.com>/\n author_username = $1\n owners.reject! { |u| u == author_username }\n end\n @allowed_approvers = owners\n\n @allowed_approvers\n end", "def add_target_set(value)\n @children['target-set'][:value] << value\n end", "def allowed_members=(value)\n @allowed_members = value\n end", "def can_approve?(target)\n is_staff? && target && target.active? && !target.approved?\n end", "def allow_all(except: [])\n set_all :allowed, except: { exceptions: except, status: :prohibited }\n end", "def permission(access_rules)\n access_rules.each_pair do |verb, role|\n @resource_config[:roles].validate_role(role)\n @resource_config[:permission][verb] = role\n end\n end", "def build_permissions(perms, other)\n perms.permits! :read\n\n if self == other\n perms.permits! :write\n elsif other.admin?\n perms.permits! :write\n end\n end", "def authorize_owner_and_planner\n\n can :manage, AttachedDocument do |doc|\n curr_organization == doc.plan.organization\n end\n end", "def wildcard_perm privilege, klass\n Permission.new( :privilege => privilege,\n :class_name => klass.name,\n :is_grant => false,\n :has_grant_option => false,\n :target_owned_by_self => false\n )\n end", "def device_sharing_allowed=(value)\n @device_sharing_allowed = value\n end", "def set_permit\n @vehiclepermit = Permit.find(params[:id])\n authorize @vehiclepermit\n end", "def acl=(_acl)\n fail Dav::Exception::Forbidden, 'Setting ACL is not allowed here'\n end", "def extra_perms_for_all_users\n can :create, User\n can :create, PaperTrail::Version\n can :read, Team, :private => false\n can :read, Team, :private => true, :team_users => { :user_id => @user.id, :status => 'member' }\n\n # A @user can read a user if:\n # 1) @user is the same as target user\n # 2) target user is a member of at least one public team\n # 3) @user is a member of at least one same team as the target user\n can :read, User do |obj|\n @user.id == obj.id || obj.teams.where('teams.private' => false).exists? || @user.is_a_colleague_of?(obj)\n end\n\n # A @user can read contact, project or team user if:\n # 1) team is private and @user is a member of that team\n # 2) team user is not private\n can :read, [Contact, Project, TeamUser] do |obj|\n team = obj.team\n !team.private || @user.is_member_of?(team)\n end\n\n # A @user can read any of those objects if:\n # 1) it's a source related to him/her or not related to any user\n # 2) it's related to at least one public team\n # 3) it's related to a private team which the @user has access to\n can :read, [Account, Source, Media, ProjectMedia, ProjectSource, Comment, Flag, Status, Tag, Embed, Link, Claim] do |obj|\n if obj.is_a?(Source) && obj.respond_to?(:user_id)\n obj.user_id == @user.id || obj.user_id.nil?\n else\n team_ids = obj.get_team\n teams = obj.respond_to?(:get_team_objects) ? obj.get_team_objects.reject{ |t| t.private } : Team.where(id: team_ids, private: false)\n if teams.empty?\n TeamUser.where(user_id: @user.id, team_id: team_ids, status: 'member').exists?\n else\n teams.any?\n end\n end\n end\n end", "def allowed_accounts=(value)\n @allowed_accounts = value\n end", "def protect_sources\n @protected_sources = sources\n end", "def require_permission\n if current_user.id != @squad.owner_id\n redirect_to api_squads_path, notice: 'You must be owner of a squad to do that action.'\n end\n end" ]

[ "0.5994857", "0.54671526", "0.51062584", "0.51062584", "0.49750328", "0.49081966", "0.49081966", "0.48718238", "0.48024967", "0.4786071", "0.47721398", "0.47691765", "0.47506768", "0.4747814", "0.47474512", "0.47301874", "0.47243786", "0.47059035", "0.46632898", "0.4642823", "0.46355814", "0.46274963", "0.4584285", "0.4582794", "0.45436916", "0.4497442", "0.44917202", "0.44917202", "0.4463673", "0.44442365", "0.44346583", "0.4422289", "0.4405347", "0.4394899", "0.43931293", "0.43774483", "0.43686676", "0.43663433", "0.4363153", "0.4362055", "0.43472466", "0.4340473", "0.43388656", "0.433722", "0.43365064", "0.43301573", "0.43214753", "0.43193534", "0.42738274", "0.4269756", "0.42626864", "0.4262286", "0.42597654", "0.42557493", "0.42530635", "0.4248647", "0.42426965", "0.42418274", "0.42375866", "0.4236034", "0.42352843", "0.4234534", "0.4233828", "0.4229286", "0.42162126", "0.4213647", "0.42112204", "0.4206712", "0.42012545", "0.41980013", "0.41971207", "0.41893947", "0.41829225", "0.4179867", "0.41744295", "0.4162339", "0.4140157", "0.41363636", "0.41352564", "0.41325316", "0.41268957", "0.4119145", "0.4116735", "0.4113398", "0.41110703", "0.41082925", "0.41081324", "0.41065937", "0.40992057", "0.40949187", "0.40924704", "0.40862468", "0.4075449", "0.40753853", "0.40638652", "0.4061311", "0.4058818", "0.40556103", "0.40480107", "0.4042328" ]

[ "def add_match_results(match)\n if match[0][1] == match[1][1]\n team1 = @teams.find { |team| team.name == match[0][0] }\n team2 = @teams.find { |team| team.name == match[1][0] }\n\n team1.score += 1\n team2.score += 1\n else\n winner = match.max_by { |x| x[1] }\n losser = match.min_by { |x| x[1] }\n\n team1 = @teams.find { |team| team.name == winner[0] }\n team2 = @teams.find { |team| team.name == losser[0] }\n\n team1.score += 3\n end\n team1.goals += match[0][1].to_i\n team2.goals += match[1][1].to_i\n end", "def score_matchup(matchup_id, winning_submission_id, losing_submission_id)\n # TODO: ensure we're filtering by category or whatever\n matchup = $MATCHUPS.find{|matchup| matchup[:id] == matchup_id}\n matchup[:completed] = true\n matchup[:winning_submission_id] = winning_submission_id\n\n winning_submission = $SUBMISSIONS.find{|s| s[:id] == winning_submission_id }\n losing_submission = $SUBMISSIONS.find{|s| s[:id] == losing_submission_id }\n\n winning_sub_elo = Elo::Player.new(:rating => winning_submission[:elo_rating])\n losing_sub_elo = Elo::Player.new(:rating => losing_submission[:elo_rating])\n \n winning_sub_elo.wins_from(losing_sub_elo)\n\n winning_submission[:elo_rating] = winning_sub_elo.rating\n losing_submission[:elo_rating] = losing_sub_elo.rating\n\n # $SUBMISSIONS.map{|s| s[:id] == winning_submission_id ? winning_submission : s[:id] == losing_submission_id ? losing_submission : s }\n\n # $MATCHUPS.map{|m| m[:id] == matchup_id ? matchup : m }\n incomplete_matches = $MATCHUPS.select{|m| m[:completed] == false && m[:assigned] == false}\n\n if(incomplete_matches.count() < $NUM_TEAMS) \n generate_more_matchups()\n end\nend", "def match\n \n # Identify matching cells, track them\n \n # Match skill names\n i = 0\n \n 5.times do |search_row_i|\n 5.times do |result_row_i|\n # Match skill name (column = 0)\n match_keyword(i, [search_row_i, 0], [result_row_i, 0])\n \n if match_id_exists?(i)\n \n # Match skill years experience\n match_integer(i, [search_row_i, 1], [result_row_i, 1])\n \n # Match skill details\n match_keyword_array(i, [search_row_i, 2], [result_row_i, 2])\n end\n \n i += 1\n end\n end\n \n # Match additional job-related stuff (job type, job location)\n \n \n # Calculate points\n calc_skill_names([[0, 1], [5, 6]], false, 50, 10)\n calc_skill_names([[2, 3, 4], [7, 8, 9], [10, 15, 20], [11, 16, 21]], (pct > 0), 40, 10) \n calc_skill_names([[12, 13, 14], [17, 18, 19], [22, 23, 24]], (pct > 0), 30, 10)\n \n calc_additional_attributes({:years_experience_pct => 5, :skill_details_first_pct => 2.5, :skill_details_additional_pct => 1})\n \n # puts \"---------- PCT: \" + @pct.to_s\n \n end", "def matches_drawn(user)\n matches = user.home_matches.find_all_by_ended(true) + user.away_matches.find_all_by_ended(true)\n matches.select { |match| match.homegoals == match.awaygoals }.count\n end", "def prepare_analysis_report( matching_string, desired_season_id, analysis_text_log,\n result_list, min_bias_score )\n affiliation_match = nil\n team_match = nil\n team_id = nil\n best_match = nil\n hiscoring_match = nil # Overall hi-scoring result (either Team or TeamAff.)\n\n result_list = result_list.sort!{ |x,y| x[ :score ] <=> y[ :score ] }\n result_list.each { |result|\n analysis_text_log << \" - \" << format_result_row( result[:row], result[:score] )\n\n if result[:row].instance_of?( Team )\n # We will store only the highest matches per class, while looping on the results:\n team_match = result if team_match.nil? || (team_match && team_match[:score] < result[:score])\n\n elsif result[:row].instance_of?( TeamAffiliation )\n if ( desired_season_id == result[:row].season_id )\n analysis_text_log << \" (SEASON OK)\"\n best_match = result\n # [Steve] Only affiliations with the desired_season_id are the best matches,\n # but we will update also the pointer to the affiliation & highest scoring match\n # if the best match has at least the same result score.\n affiliation_match = result if affiliation_match.nil? || ( affiliation_match && affiliation_match[:score] <= result[:score] )\n hiscoring_match = result if hiscoring_match.nil? || ( hiscoring_match && hiscoring_match[:score] <= result[:score] )\n end\n # We will store only the highest matches per class, while looping on the results:\n affiliation_match = result if affiliation_match.nil? || ( affiliation_match && affiliation_match[:score] < result[:score] )\n end\n hiscoring_match = result if hiscoring_match.nil? || ( hiscoring_match && hiscoring_match[:score] < result[:score] )\n analysis_text_log << \"\\r\\n\"\n }\n # Couldn't find a Team in result, but found an affiliation?\n if (best_match) # (That is: look-alike affiliation name found, but linked to a too-different team name?)\n team_id = best_match[:row].team_id # Always override the chosen team_id with the best match\n team_match = { score: best_match[:score], row: best_match[:row].team } if team_match.nil?\n elsif ( team_match.nil? && best_match.nil? && affiliation_match )\n team_match = { score: affiliation_match[:score], row: affiliation_match[:row].team }\n end\n # Result team_id not set yet?:\n team_id = team_match[:row].id if team_id.nil? && team_match && team_match[:row]\n\n if (result_list.size > 0)\n analysis_text_log << \"\\r\\n ==> #{result_list.size} results tot., min. bias: #{sprintf(\"%1.4f\", min_bias_score)}\\r\\n\"\n else\n analysis_text_log << \" (no results)\\r\\n\"\n end\n\n if team_match\n analysis_text_log << \" Team BEST...: \" << format_result_row( team_match[:row], team_match[:score] )\n analysis_text_log << \"\\r\\n\"\n end\n if affiliation_match\n analysis_text_log << \" Affil. BEST...: \" << format_result_row( affiliation_match[:row], affiliation_match[:score] )\n analysis_text_log << \"\\r\\n\"\n end\n if hiscoring_match\n analysis_text_log << \" Hi-scoring....: \" << format_result_row( hiscoring_match[:row], hiscoring_match[:score] )\n analysis_text_log << \"\\r\\n\"\n end\n if best_match\n analysis_text_log << \" - Preferred - : \" << format_result_row( best_match[:row], best_match[:score] )\n analysis_text_log << \"\\r\\n\"\n end\n analysis_text_log << \" Chosen team_id = #{team_id}, season_id = #{desired_season_id}\\r\\n\" if team_id\n\n V3::TeamAnalysisReportDAO.new(\n team_match, team_id, affiliation_match,\n hiscoring_match, best_match, analysis_text_log\n )\n end", "def find_matches \n @current_user = User.find(session[:user_id])\n @user = @current_user\n\n @title = \"Suggested matches for #{@current_user.name}\"\n\n # don't include the current user or existing matches in the possible matches \n @users = (User.all - [@current_user]) - @current_user.matches\n\n # associate each user with the number of shared interests they have with the current user\n users_shared_interests = {}\n @users.each do |user|\n users_shared_interests[user.id] = @current_user.shared_interests(user).size\n end\n\n\n suggested_matches = []\n users_shared_interests.sort_by { |user, count| count }.each do |date|\n suggested_matches << date.first\n end\n suggested_matches = suggested_matches.last(10).shuffle.first(3)\n\n @suggested_matches = []\n suggested_matches.each {|sm| @suggested_matches << User.find(sm) }\n end", "def find_teams_matches(tm, pre_dta)\n matches = {}\n # col = \"blank\"\n pre_dta.each do |m, d|\n if d[:red_alliance].any? { |t| t==tm.to_s } || d[:blue_alliance].any? { |t| t==tm.to_s }\n matches[m] = d\n end\n end\n matches\nend", "def match()\n @grousizemin=0\n @groupsizemax=0\n groupsizefloat= @preferences.length.to_f/@projects.length\n puts \"There are this many projects:\",@projects.length\n puts \"There are this many students:\",@preferences.length\n if groupsizefloat.floor == groupsizefloat then\n @groupsizemax= groupsizefloat\n @grousizemin= groupsizefloat\n else\n @groupsizemax= groupsizefloat.ceil\n @grousizemin= groupsizefloat.floor\n end\n\n result ={}\n # project_status = {}\n @projects.each do |x|\n result[x]=[]\n end\n\n #(1)populate the result hash by assigning students's first choice\n @preferences.each do |x|\n temp_project_choice = x[:first]\n result[temp_project_choice] << x[:student_id]\n end\n puts \"Before moving people: \" + result.inspect\n result = move_people(result)\n @matched_groups = result\n end", "def handle_match(status, user, match); end", "def part2 groups\n yeses = groups.map { | g |\n members = g.split(\"\\n\")\n shared_answers = members.reduce(\"abcdefghijklmnopqrstuvwxyz\".chars) { |m,v |\n m & v.chars\n }.uniq.length\n }.reduce(0){ |m,v|\n m+v\n }\nend", "def run\n # header\n cols = [:title, :candidates, :s30, :s40, :s50, :c_tm, :s_tm, :correct]\n puts cols.join(\"\\t\")\n\n # simhash: 5..9\n @matcher.options[:candidates] = :simhash\n 5.upto(9).each do |i|\n @matcher.options[:simhash_max_hamming] = i\n report(\"simhash #{i}\")\n end\n\n # ngrams: 5..3\n @matcher.options[:candidates] = :ngrams\n 5.downto(3).each do |i|\n @matcher.options[:ngram_overlaps] = i\n report(\"ngrams #{i}\")\n end\n\n # all\n @matcher.options[:candidates] = :all\n report(\"all\")\n end", "def create\n params.require(:result).sort_by{|match_id,_| match_id}.each do |match_id, attrs|\n complete = true\n match = Match.find(match_id)\n\n if attrs['team1_score'].present? and attrs['team2_score'].present?\n\n team1_score = attrs['team1_score'].split('*').first.to_i\n team2_score = attrs['team2_score'].split('*').first.to_i\n\n if match.stage <= 16\n attrs['team1_id'] = match.team1_id\n attrs['team2_id'] = match.team2_id\n\n if match.stage < 16\n if match.stage == 8\n if match.pos_in_stage == 1\n parentMatch1 = Match.where(stage: 16, pos_in_stage: 1).first\n parentMatch2 = Match.where(stage: 16, pos_in_stage: 2).first\n elsif match.pos_in_stage == 2\n parentMatch1 = Match.where(stage: 16, pos_in_stage: 5).first\n parentMatch2 = Match.where(stage: 16, pos_in_stage: 6).first\n elsif match.pos_in_stage == 3\n parentMatch1 = Match.where(stage: 16, pos_in_stage: 3).first\n parentMatch2 = Match.where(stage: 16, pos_in_stage: 4).first\n elsif match.pos_in_stage == 4\n parentMatch1 = Match.where(stage: 16, pos_in_stage: 7).first\n parentMatch2 = Match.where(stage: 16, pos_in_stage: 8).first\n end\n elsif match.stage == 4\n if match.pos_in_stage == 1\n parentMatch1 = Match.where(stage: 8, pos_in_stage: 1).first\n parentMatch2 = Match.where(stage: 8, pos_in_stage: 2).first\n else\n parentMatch1 = Match.where(stage: 8, pos_in_stage: 3).first\n parentMatch2 = Match.where(stage: 8, pos_in_stage: 4).first\n end\n else\n parentMatch1 = Match.where(stage: 4, pos_in_stage: 1).first\n parentMatch2 = Match.where(stage: 4, pos_in_stage: 2).first\n end\n\n if match.stage == 2 and match.pos_in_stage == 1\n attrs['team1_id'] = parentMatch1.loser_id\n attrs['team2_id'] = parentMatch2.loser_id\n else\n attrs['team1_id'] = parentMatch1.winner_id\n attrs['team2_id'] = parentMatch2.winner_id\n end\n\n complete = false unless attrs['team1_id'].present? and attrs['team2_id'].present?\n end\n\n if complete\n if team1_score > team2_score\n attrs['winner_id'] = attrs['team1_id']\n elsif team1_score < team2_score\n attrs['winner_id'] = attrs['team2_id']\n else\n if attrs['team2_score'].include? '*'\n attrs['winner_id'] = attrs['team2_id']\n attrs['team2_score'] = team2_score\n else\n attrs['winner_id'] = attrs['team1_id']\n attrs['team1_score'] = team1_score\n end\n end\n end\n end\n\n match.attributes = attrs\n if match.changed? and complete\n match.save\n Forecast.update_user_points(match)\n end\n else\n match.team1_score = nil\n match.team2_score = nil\n match.winner_id = nil\n\n match.save\n end\n end\n\n flash[:notice] = 'Resultados actualizados correctamente'\n redirect_to points_path\n end", "def get_match(curr_user)\n political_diff = 0\n chosen_user = nil\n topic_chosen = nil\n data = {}\n curr_user.topics.each do |topic|\n topic.users.each do |user|\n curr_political_diff = (curr_user.political_leaning - user.political_leaning).abs\n if chosen_user.nil? and user.id != curr_user.id\n chosen_user = user\n political_diff = curr_political_diff\n topic_chosen = topic\n elsif curr_political_diff > political_diff and user.id != curr_user.id\n chosen_user = user\n political_diff = curr_political_diff\n topic_chosen = topic\n end\n end\n end\n data[:match] = chosen_user\n data[:topic_chosen] = topic_chosen\n return data\n end", "def next_match_title\n \"Match#{next_match_number}\"\n end", "def show\n @preliminaries = Match.preliminary.group_by { |m| m.group.to_s }.sort_by { |group, m| group }\n @finals = Match.final.group_by { |m| m.round }\n @tips = current_user.tips\n @user = current_user\n end", "def queue_matches\n\n end", "def calculate_match_probability\n # two heuristics: \n # 1 is are their multiple words in term_text? if so, mark as probable\n # if not, does it match the anchor regexp? if so, mark as probable\n # else, mark as improbable\n \n # multiple words?\n anchor_regexp = \"(featuring|plus|the|presents|with|plus|and|\\,|\\&|[()]|\\/|\\:|\\-|^|$)\"\n nix_regexp = \"parking|\\svs\\.?\\s\" \n if artist_name=~/#{nix_regexp}/i\n self.match_probability=\"unlikely\"\n return nil\n end\n text=term_text.strip\n if text[\" \"]\n self.match_probability=\"likely\"\n return \"multpl\"\n end\n if artist_name=~/#{anchor_regexp}\\s*#{text}\\s*#{anchor_regexp}/i\n self.match_probability=\"likely\"\n return \"regexp\"\n end\n# if artist_name=~/#{anchor_regexp}\\s+?#{text}\\s+?#{anchor_regexp}/i\n# match_probability=\"likely\"\n# return \"regexp\"\n# end\n self.match_probability=\"unlikely\"\n return nil\n end", "def calc_skill_names(match_id_groups_array, prev_type_exists, primary_pct, secondary_pct)\n is_primary_found = false\n primary_pct = 5 if prev_type_exists\n \n match_id_groups_array.each do |match_id_group|\n \n match_id_group.each do |match_id|\n if @matched_cells.has_key?(match_id)\n if !is_primary_found\n @pct += primary_pct\n is_primary_found = true\n else\n @pct += secondary_pct\n end\n \n break\n end\n end\n \n end\n end", "def clause_matches(fact_type, reading, phrases = @phrases)\n implicitly_negated = false\n side_effects = [] # An array of items for each role, describing any side-effects of the match.\n intervening_words = nil\n residual_adjectives = false\n\n # The following form of negation is, e.g., where \"Person was invited to no Party\",\n # as opposed to where \"Person was not invited to that Party\". Quite different meaning,\n # because a free Party variable is required, but the join step is still disallowed.\n # REVISIT: I'll create the free variable when I implement some/that binding\n # REVISIT: the verbaliser will need to know about a negated step to a free variable\n implicitly_negated = true if nps.detect{|np| q = np.quantifier and q.is_zero }\n\n trace :matching_fails, \"Does '#{phrases.inspect}' match '#{reading.expand}'\" do\n phrase_num = 0\n reading_parts = reading.text.split(/\\s+/)\n reading_parts.each do |element|\n phrase = phrases[phrase_num]\n if phrase == 'not'\n raise \"Stop playing games with your double negatives: #{phrases.inspect}\" if implicitly_negated\n trace :matching, \"Negation detected\"\n implicitly_negated = true\n phrase = phrases[phrase_num += 1]\n end\n if element !~ /\\{(\\d+)\\}/\n # Just a word; it must match\n unless phrase == element\n trace :matching_fails, \"Mismatched ordinary word #{phrases[phrase_num].inspect} (wanted #{element})\"\n return nil\n end\n phrase_num += 1\n next\n else\n role_ref = reading.role_sequence.all_role_ref.sort_by{|rr| rr.ordinal}[$1.to_i]\n end\n\n player = role_ref.role.object_type\n\n # Figure out what's next in this phrase (the next player and the words leading up to it)\n next_player_phrase = nil\n intervening_words = []\n while (phrase = phrases[phrase_num])\n phrase_num += 1\n if phrase.respond_to?(:player)\n next_player_phrase = phrase\n next_player_phrase_num = phrase_num-1\n break\n else\n intervening_words << phrase\n end\n end\n return nil unless next_player_phrase # reading has more players than we do.\n next_player = next_player_phrase.player\n\n # The next player must match:\n common_supertype = nil\n if next_player != player\n # This relies on the supertypes being in breadth-first order:\n common_supertype = (next_player.supertypes_transitive & player.supertypes_transitive)[0]\n if !common_supertype\n trace :matching_fails, \"Reading discounted because next player #{player.name} doesn't match #{next_player.name}\"\n return nil\n end\n\n trace :matching_fails, \"Subtype step is required between #{player.name} and #{next_player_phrase.player.name} via common supertype #{common_supertype.name}\"\n else\n if !next_player_phrase\n next # Contraction succeeded so far\n end\n end\n\n # It's the right player. Do the adjectives match? This must include the intervening_words, if any.\n\n role_has_residual_adjectives = false\n absorbed_precursors = 0\n if la = role_ref.leading_adjective and !la.empty?\n # The leading adjectives must match, one way or another\n la = la.split(/\\s+/)\n if (la[0, intervening_words.size] == intervening_words) # Exact match\n iw = intervening_words\n else\n # We may have hyphenated adjectives. Break them up to check:\n iw = intervening_words.map{|w| w.split(/-/)}.flatten\n return nil unless la[0,iw.size] == iw\n end\n\n # Any intervening_words matched, see what remains\n la.slice!(0, iw.size)\n\n # If there were intervening_words, the remaining reading adjectives must match the phrase's leading_adjective exactly.\n phrase_la = (next_player_phrase.leading_adjective||'').split(/\\s+/)\n return nil if !iw.empty? && la != phrase_la\n # If not, the phrase's leading_adjectives must *end* with the reading's\n return nil if phrase_la[-la.size..-1] != la\n role_has_residual_adjectives = true if phrase_la.size > la.size\n # The leading adjectives and the player matched! Check the trailing adjectives.\n absorbed_precursors = intervening_words.size\n intervening_words = []\n elsif intervening_words.size > 0 || next_player_phrase.leading_adjective\n role_has_residual_adjectives = true\n end\n\n absorbed_followers = 0\n if ta = role_ref.trailing_adjective and !ta.empty?\n ta = ta.split(/\\s+/) # These are the trailing adjectives to match\n\n phrase_ta = (next_player_phrase.trailing_adjective||'').split(/\\s+/)\n i = 0 # Pad the phrases up to the size of the trailing_adjectives\n while phrase_ta.size < ta.size\n break unless (word = phrases[phrase_num+i]).is_a?(String)\n phrase_ta << word\n i += 1\n end\n # ta is the adjectives in the fact type being matched\n # phrase_ta is the explicit adjectives augmented with implicit ones to the same size\n return nil if ta != phrase_ta[0,ta.size]\n role_has_residual_adjectives = true if phrase_ta.size > ta.size\n absorbed_followers = i\n phrase_num += i # Skip following words that were consumed as trailing adjectives\n elsif next_player_phrase.trailing_adjective\n role_has_residual_adjectives = true\n end\n\n # REVISIT: I'm not even sure I should be caring about role names here.\n # Role names are on roles, and are only useful within the fact type definition.\n # At some point, we need to worry about role names on clauses within fact type derivations,\n # which means they'll move to the Role Ref class; but even then they only match within the\n # definition that creates that Role Ref.\n=begin\n if a = (!phrase.role_name.is_a?(Integer) && phrase.role_name) and\n e = role_ref.role.role_name and\n a != e\n trace :matching, \"Role names #{e.inspect} for #{player.name} and #{a.inspect} for #{next_player_phrase.player.name} don't match\"\n return nil\n end\n=end\n\n residual_adjectives ||= role_has_residual_adjectives\n if residual_adjectives && next_player_phrase.binding.nps.size == 1\n # This makes matching order-dependent, because there may be no \"other purpose\"\n # until another reading has been matched and the roles rebound.\n trace :matching_fails, \"Residual adjectives have no other purpose, so this match fails\"\n return nil\n end\n\n # The phrases matched this reading's next role_ref, save data to apply the side-effects:\n side_effects << ClauseMatchSideEffect.new(next_player_phrase, role_ref, next_player_phrase_num, absorbed_precursors, absorbed_followers, common_supertype, role_has_residual_adjectives)\n end\n\n if phrase_num != phrases.size || !intervening_words.empty?\n trace :matching_fails, \"Extra words #{(intervening_words + phrases[phrase_num..-1]).inspect}\"\n return nil\n end\n\n if fact_type.is_a?(Metamodel::TypeInheritance)\n # There may be only one subtyping step on a TypeInheritance fact type.\n ti_steps = side_effects.select{|side_effect| side_effect.common_supertype}\n if ti_steps.size > 1 # Not allowed\n trace :matching_fails, \"Can't have more than one subtyping step on a TypeInheritance fact type\"\n return nil\n end\n\n if ti = ti_steps[0]\n # The Type Inheritance step must continue in the same direction as this reading.\n allowed = fact_type.supertype == ti.role_ref.role.object_type ?\n fact_type.subtype.supertypes_transitive :\n fact_type.supertype.subtypes_transitive\n if !allowed.include?(ti.common_supertype)\n trace :matching_fails, \"Implicit subtyping step extends in the wrong direction\"\n return nil\n end\n end\n end\n\n trace :matching, \"Matched reading '#{reading.expand}' (with #{\n side_effects.map{|side_effect|\n side_effect.absorbed_precursors+side_effect.absorbed_followers + (side_effect.common_supertype ? 1 : 0)\n }.inspect\n } side effects)#{residual_adjectives ? ' and residual adjectives' : ''}\"\n end\n # There will be one side_effects for each role player\n @certainty = !@certainty if implicitly_negated\n @certainty = !@certainty if reading.is_negative\n ClauseMatchSideEffects.new(fact_type, self, residual_adjectives, side_effects, implicitly_negated)\n end", "def prematch_top_markets\n {\n '6046' => top_markets(%w[1 2 7 59]), # 'Football',\n '54094' => top_markets(%w[52 202 166]), # 'Tennis',\n '687888' => top_markets(%w[]), # 'Horse Racing', *no matches\n '452674' => top_markets(%w[52 762 41 21]), # 'Cricket',\n '530129' => top_markets(%w[1 2 7 59]), # 'Hockey', *assumptions\n '274792' => top_markets(%w[1 2 52 202]), # 'Rugby League',\n '48242' => top_markets(%w[1 2 7 59]), # 'Basketball',\n '131506' => top_markets(%w[1 2 7 59]), # 'American Football', *assumptions\n '687889' => top_markets(%w[]), # 'Golf', *multiple outcomes\n '154919' => top_markets(%w[1 52]), # 'Boxing',\n #'687890' => top_markets(%w[]), # 'E-Games'\n '68789002' => top_markets(%w[52 202 21]), #\"CS:GO\"\n '68789004' => top_markets(%w[52]), #\"King Of Glory\" *no matches\n '68789005' => top_markets(%w[52 1175]), #\"League of Legends\"\n '68789006' => top_markets(%w[52 202 203 204]), #\"Overwatch\"\n '68789007' => top_markets(%w[52]), #\"Rainbow Six\"\n '68789008' => top_markets(%w[52 2]), #\"Rocket League\"\n '68789009' => top_markets(%w[52 2]), #\"StarCraft II\"\n '68789010' => top_markets(%w[52]), #\"Street Fighter V\" *no matches\n '68789011' => top_markets(%w[52]), #\"Warcraft III\"\n '68789001' => top_markets(%w[52 2 202 203 204]), #\"Call of Duty\"\n '68789003' => top_markets(%w[1 52]) #\"Dota 2\n }\n end", "def matches_won(user)\n home_matches = user.home_matches.find_all_by_ended(true)\n away_matches = user.away_matches.find_all_by_ended(true)\n home_matches.select { |match| match.homegoals > match.awaygoals }.count +\n away_matches.select { |match| match.homegoals < match.awaygoals }.count\n end", "def wattball_matches\n self.wattball_matches_as_team1 + self.wattball_matches_as_team2\n end", "def play_match\n self.set1.play_set\n self.set2.play_set\n self.set3.play_set\n self.set4.play_set\n self.set5.play_set\n puts self.match_score\n end", "def context_type_team_ranking\n ContextTypeDef.new(\n :team_ranking,\n [\n /(classifica)(\\s+di)?(\\s+societ.)?/i\n# /(?<anything>^.*)/i\n# /(?<empty>^\\s*\\r?\\n|^\\r?\\n|^\\s*\\n|^\\s*$)/i\n# /^\\s*(\\r\\n|\\n|$|\\Z)/i\n ]\n )\n end", "def find_matchs(round, season)\n if round.nil?\n return []\n end\n\n season = self.current_season if season.nil?\n rounds = []\n rounds = season.rounds.collect {|r| r if\n r.number <= round.number}\n matchs = []\n rounds.each do |r|\n if !r.nil?\n r.match_generals.each {|m| matchs << m if m.guest == self or\n m.local == self}\n end\n end\n matchs\n end", "def analyze( matching_string, desired_season_id, analysis_text_log, sql_text_log,\n starting_bias_score = FuzzyStringMatcher::BIAS_SCORE_MAX,\n ending_bias_score = FuzzyStringMatcher::BIAS_SCORE_MIN )\n bias_score_1, result_list_1 = team_matcher.seek_deep_match( matching_string, starting_bias_score, ending_bias_score )\n bias_score_2, result_list_2 = affiliation_matcher.seek_deep_match( matching_string, starting_bias_score, ending_bias_score )\n # Collect result lists and min. bias:\n result_list = result_list_1 + result_list_2\n min_bias_score = bias_score_1 < bias_score_2 ? bias_score_1 : bias_score_2\n # Prepare report:\n analysis_text_log << \"\\r\\n-------------------------------------------------------------------------------------------------------------\\r\\n\"\n analysis_text_log << \" [[[ '#{matching_string}' ]]] -- season_id: #{desired_season_id}, best-match search:\\r\\n\\r\\n\"\n report_dao = prepare_analysis_report(\n matching_string, desired_season_id, analysis_text_log,\n result_list, min_bias_score\n )\n\n team_match = report_dao.team_match # (Not used yet)\n team_id = report_dao.team_id\n affiliation_match = report_dao.affiliation_match # (Not used yet)\n hiscoring_match = report_dao.hiscoring_match # (Not used yet)\n best_match = report_dao.best_match\n analysis_text_log = report_dao.text_log\n\n if team_id.to_i > 0 # Let's be sure that there aren't really no affiliations with these parameters:\n team_affiliation = TeamAffiliation.where(\n team_id: team_id,\n season_id: desired_season_id\n ).first\n if team_affiliation\n best_match = team_affiliation\n affiliation_match = team_affiliation\n end\n end\n\n # TODO This is not needed unless we want to store the uniq'ed list of results somewhere: (ALIAS table?)\n # Re-sort the overall result list, clearing duplicates:\n# unique_name_list = result_list.collect{|e| e[:row].name }.uniq\n# overall_unique_list = unique_name_list.collect { |uniq_name| result_list.detect{|e| e[:row].name == uniq_name} }\n# overall_unique_list = overall_unique_list.sort!{ |x,y| x[:score] <=> y[:score] }\n\n if ( result_list.size < 1 )\n analysis_text_log << \" => NOT FOUND.\\r\\n\"\n elsif ( result_list.size == 1 )\n analysis_text_log << \" --- SINGLE MATCH! ---\\r\\n\"\n elsif ( result_list.size > 1 )\n analysis_text_log << \" --- MULTIPLE CHOICES ---\\r\\n\"\n end\n # [Steve] OK, we could have a match. But we still need to solve how to import all\n # the data linked to a Team which seems to be existing, but under a slightly\n # different affiliation name.\n #\n # The solution is to create aliases to team_id(s) with the current searched name,\n # storing them in a dedicated table that gets checked during data-import on phase-1.\n #\n # The data_import_team_aliases table does just that, and is checked only during\n # the first phase of the data-import procedure.\n\n team_analysis_result = DataImportTeamAnalysisResult.new({\n analysis_log_text: analysis_text_log,\n searched_team_name: matching_string,\n desired_season_id: desired_season_id,\n chosen_team_id: team_id,\n team_match_name: ( team_match && team_match[:row] ? team_match[:row].name : nil ),\n team_match_score: ( team_match ? team_match[:score] : nil ),\n best_match_name: ( best_match && best_match[:row] ? best_match[:row].team_name : nil ),\n best_match_score: ( best_match ? best_match[:score] : nil )\n })\n # Store suggested SQL action into the external log:\n sql_text_log << team_analysis_result.rebuild_sql_text()\n team_analysis_result\n end", "def matches\n parse\n end", "def find_matches\n @match_distances = Match.find_match(current_user, \"Any\", nil)\n end", "def num_matches\n count = 0\n other_answers.each do |a|\n count += 1 if base_answer.food_groups == a.food_groups\n end\n count\n end", "def tweak_results!\n # if the race is between a major party and opposing minor party\n # (D v L or R v G), and the end results are 4/1, the absent major party gets\n # 1 seat subracted from the other major party\n\n # this is a standard R v D race\n return if includes_r_and_d?\n\n return unless @parties.min_by(&:seats_won).seats_won < 2\n\n # this race involves a major v minor party but the minor party took just 1 seat.\n # the major party would have run in a multi member district and been able to pick up 1 seat.\n major_party = @parties.max_by(&:seats_won)\n major_party.award(-1)\n\n # TODO: fix this demeter violation\n other_major = major_party.null_opposing_major\n other_major.award 1\n\n @parties << other_major\n end", "def match_points(match, player)\n scores = Result.where(:match_id => match)\n score_1 = scores.first\n score_2 = scores.last\n if score_1[:player_id] == player\n if score_1[:score] == 3 && score_2[:score] == 2\n points = 6\n elsif score_1[:score] == 3 && score_2[:score] == 1\n points = 6\n elsif score_1[:score] == 3 && score_2[:score] == 0\n points = 7\n elsif score_1[:score] == 2 && score_2[:score] == 3\n points = 4\n elsif score_1[:score] == 1 && score_2[:score] == 3\n points = 3\n elsif score_1[:score] == 0 && score_2[:score] == 3\n points = 2\n elsif score_1[:score] == 2 && score_2[:score] == 0\n points = 4\n elsif score_1[:score] == 2 && score_2[:score] == 1\n points = 4\n elsif score_1[:score] == 1 && score_2[:score] == 2\n points = 3\n elsif score_1[:score] == 0 && score_2[:score] == 2\n points = 2\n elsif score_1[:score] == 2 && score_2[:score] == 2\n points = 4\n elsif score_1[:score] == 1 && score_2[:score] == 0\n points = 3\n elsif score_1[:score] == 0 && score_2[:score] == 1\n points = 2\n elsif score_1[:score] == 1 && score_2[:score] == 1\n points = 3\n elsif score_1[:score] == 0 && score_2[:score] == 0\n points = 2\n elsif score_2[:score] == -1\n points = 6\n elsif score_1[:score] == -1\n points = 0\n end\n elsif score_2[:player_id] == player\n if score_2[:score] == 3 && score_1[:score] == 2\n points = 6\n elsif score_2[:score] == 3 && score_1[:score] == 1\n points = 6\n elsif score_2[:score] == 3 && score_1[:score] == 0\n points = 7\n elsif score_2[:score] == 2 && score_1[:score] == 3\n points = 4\n elsif score_2[:score] == 1 && score_1[:score] == 3\n points = 3\n elsif score_2[:score] == 0 && score_1[:score] == 3\n points = 2\n elsif score_2[:score] == 2 && score_1[:score] == 0\n points = 4\n elsif score_2[:score] == 2 && score_1[:score] == 1\n points = 4\n elsif score_2[:score] == 1 && score_1[:score] == 2\n points = 3\n elsif score_2[:score] == 0 && score_1[:score] == 2\n points = 2\n elsif score_2[:score] == 2 && score_1[:score] == 2\n points = 4\n elsif score_2[:score] == 1 && score_1[:score] == 0\n points = 3\n elsif score_2[:score] == 0 && score_1[:score] == 1\n points = 2\n elsif score_2[:score] == 1 && score_1[:score] == 1\n points = 3\n elsif score_2[:score] == 0 && score_1[:score] == 0\n points = 2\n elsif score_1[:score] == -1\n points = 6\n elsif score_2[:score] == -1\n points = 0\n end\n end\n return points\n end", "def total_count #:nodoc:\n total == 1 && !@group.nil? && @group['matches'] > 1 ? @group['matches'] : total\n end", "def get_matches(filter_uri=nil)\n filter_type = ''\n optional_filter = if filter_uri\n if filter_uri =~ /\\d{4}\\-\\d{2}\\-\\d{2}/\n filter_type = 'day'\n \"FILTER(?time >= \\\"#{filter_uri}T00:00:00.000-03:00\\\"^^<http://www.w3.org/2001/XMLSchema#dateTime> && ?time <= \\\"#{filter_uri}T23:59:59.000-03:00\\\"^^<http://www.w3.org/2001/XMLSchema#dateTime>)\"\n else\n sparql = SPARQL.parse(\"SELECT ?stadium ?type ?group WHERE {\n ?s ?p ?o .\n OPTIONAL { ?stadium <http://www.bbc.co.uk/ontologies/sport/Venue> <#{filter_uri}> . }.\n OPTIONAL { <#{filter_uri}> <#{RDF.type}> ?type . }.\n OPTIONAL { <#{filter_uri}> <http://www.bbc.co.uk/ontologies/sport/hasMatch> ?group . }.\n }\")\n solution = QUERYABLE.query(sparql).first\n if solution.has_variables? ['stadium']\n filter_type = 'stadium'\n \"?uri <#{PREFIX::BBCSPORT}Venue> <#{filter_uri}> .\"\n elsif solution.has_variables? ['group']\n filter_type = 'group'\n \"<#{filter_uri}> <http://www.bbc.co.uk/ontologies/sport/hasMatch> ?uri .\"\n elsif solution.has_variables? ['type']\n if solution.type.to_s.eql?('http://purl.org/hpi/soccer-voc/SoccerClub')\n filter_type = 'team'\n \"{ ?uri <#{PREFIX::BBCSPORT}homeCompetitor> <#{filter_uri}> . } UNION { ?uri <#{PREFIX::BBCSPORT}awayCompetitor> <#{filter_uri}> . }\"\n end\n else\n ''\n end\n end\n end\n sparql = SPARQL.parse(\"\n SELECT ?uri ?homeCompetitor ?homeCompetitor_uri ?awayCompetitor ?awayCompetitor_uri ?round ?round_uri ?venue_uri ?time ?homeCompetitorGoals ?awayCompetitorGoals\n WHERE {\n ?uri <#{RDF.type}> <#{PREFIX::BBCSPORT}Match> .\n ?uri <#{PREFIX::BBCSPORT}homeCompetitor> ?homeCompetitor_uri .\n ?homeCompetitor_uri <#{RDF::RDFS.label}> ?homeCompetitor .\n ?uri <#{PREFIX::BBCSPORT}awayCompetitor> ?awayCompetitor_uri .\n ?awayCompetitor_uri <#{RDF::RDFS.label}> ?awayCompetitor .\n ?round_uri <#{PREFIX::BBCSPORT}hasMatch> ?uri .\n ?round_uri <#{RDF::RDFS.label}> ?round .\n ?uri <#{PREFIX::BBCSPORT}Venue> ?venue_uri .\n ?uri <http://purl.org/NET/c4dm/event.owl#time> ?time .\n OPTIONAL { ?uri <http://www.bbc.co.uk/ontologies/sport/homeCompetitorGoals> ?homeCompetitorGoals . }.\n OPTIONAL { ?uri <http://www.bbc.co.uk/ontologies/sport/awayCompetitorGoals> ?awayCompetitorGoals . }.\n #{optional_filter}\n }\n ORDER BY ASC(?time)\n \")\n solutions = QUERYABLE.query(sparql)\n return solutions, filter_type\n end", "def parse\n @line_count = 0\n @text.each do |line|\n @line_count += 1\n case line\n \n when /^DATE: ?(.*)/\n save_current_match\n parse_date($1)\n\n when /^PLAYER: ?(.*)/\n parse_player($1)\n\n when /^SET/\n parse_set\n \n when /^GAME: ?(.*)/\n parse_game($1)\n \n when /^(\\d\\w\\w?)/\n parse_point($1)\n end\n end\n \n save_current_match\n return @matches\n end", "def search_results(game_type)\n CombinedReplayData.search do\n all do\n any_of do\n with(:p1_rank).between(1..5)\n without(:p1_legend_rank, nil)\n end\n any_of do\n with(:p2_rank).between(1..5)\n without(:p2_legend_rank, nil)\n end\n end\n with(:played_at).greater_than(5.days.ago)\n with(:game_type, game_type)\n facet :p1_class_and_archetype\n facet :p2_class_and_archetype\n end\n end", "def generate_user_standings(match_set)\n\n # Get the fighters for the season that the matches in match_set take place in.\n fighters = match_set.first.season.fighters\n\n # Set all user's W-L values to 0-0 and set matches played to 0.\n user_hashmap = {}\n fighters.each do |user_id|\n user_hashmap[User.find(user_id)] = [0,0,0]\n end\n\n # Calculate each user's W-L-MP\n match_set.each do |match|\n\n # Only calculate if match has been accepted by p1 & p2.\n if match.p1_accepted == true && match.p2_accepted == true\n if match.p1_id == match.winner_id\n user_hashmap[match.p1][0] += 1\n user_hashmap[match.p1][2] += 1\n\n user_hashmap[match.p2][1] += 1\n user_hashmap[match.p2][2] += 1\n else\n user_hashmap[match.p2][0] += 1\n user_hashmap[match.p2][2] += 1\n\n user_hashmap[match.p1][1] += 1\n user_hashmap[match.p1][2] += 1\n end\n end\n end\n \n # Convert hashmap to an array that is sorted by Wins and then by MP.\n user_hashmap.to_a.sort_by{ |user| [ -user[1][0], -user[1][2] ] }\n end", "def generate_matchups(submissions, riddle_id = \"0\")\n submissions_by_category = submissions.select { |submission| submission[:riddle_id] == riddle_id }\n\n puts \"submissions_by_category: #{submissions_by_category.count}\"\n\n # TODO: handle when odd-number of submissions\n matchups = submissions_by_category.shuffle.each_slice(2).map { |pairing| {\n id: \"#{pairing[0][:id]}#{pairing[1][:id]}#{$BATCHES_GENERATED}\",\n submission_id_a: pairing[0][:id],\n submission_id_b: pairing[1][:id],\n team_id_a: pairing[0][:team_id],\n team_id_b: pairing[1][:team_id],\n completed: false,\n assigned: false,\n riddle_id: pairing[0][:riddle_id],\n winning_submission_id: nil\n } }\n $BATCHES_GENERATED = $BATCHES_GENERATED+1\n return matchups\nend", "def context_type_team_ranking\n ContextTypeDef.new(\n :team_ranking,\n [\n # Only the second line can be empty (we can't have both empty)\n /classifica(\\s+di)?(\\s+societ)/i,\n /(?<empty>^\\s*\\r?\\n|^\\r?\\n|^\\s*\\n|^\\s*$)/i,\n ]\n )\n end", "def match_result\n [match_x, match_y]\n end", "def matches\n @matches = @question.match(/(-?\\d+) (plus|minus|divided by|multiplied by) (-?\\d+)/)\n puts \"@matches = #{@matches[1]}, #{@matches[2]}, #{@matches[3]}\"\n end", "def final_results_list\n winners = sort_group_of_teams(self.teams.select { |team| team.playoffs && team.court_id == 100 })\n losers = sort_group_of_teams(self.teams.select { |team| team.playoffs && team.court_id != 100 })\n\n #only for kob, game play will not have a losers court\n ## winner of consolation court kob, become overall 4th place\n if (losers)\n third_place = losers.shift\n winners.insert(3, third_place).concat(losers)\n end\n winners\n end", "def user_matches \n\t\t@matches = Match.personal_matches(current_user)\n\tend", "def matches\n\t\t\tcompetition.matches\n\t\tend", "def getAssessmentResults(sheet, year_row, start_row)\n stats = Hash.new { |h,k| h[k] = Hash.new { |h,k| h[k] = {} } }\n (0..100).step(3) do |sg_offset| # go down the rows\n subgroup = sheet.row(start_row + sg_offset)[TEST_GROUP_COL]\n break if subgroup.nil? or subgroup.empty? or subgroup.include? 'English: Reading' or subgroup.include? 'Mathematics'\n (START_SCORE_COL..START_SCORE_COL+8).step(4) do |offset| # and across\n year = sheet.row(year_row)[offset]\n stats[subgroup][year][:adv] = sheet.row(start_row + sg_offset)[offset]\n stats[subgroup][year][:pro] = sheet.row(start_row + sg_offset)[offset+1]\n stats[subgroup][year][:fai] = sheet.row(start_row + sg_offset)[offset+3]\n end\n end\n stats\nend", "def if_match(teams, start)\n\tmatch = Array.new\n\ttest = FuzzyStringMatch::JaroWinkler.create( :native )\n\twhile start < RC_C.num_rows\n\t\tteams.each do |team|\n\t\t\ti = test.getDistance(team, RC_C.rows[start][1])\n\t\t\tif i > 0.65\n\t\t\t\tmatch.push(team)\n\t\t\t\t# puts \"match, #{team} matches #{RC_C.rows[start][1]}\"\n\t\t\tend\n\t\tend\n\t\tstart += 1\n\tend\n\treturn match\nend", "def score\n goals = self.match_events.select { |e| e.event_type == MatchEvent::EventType::GOAL }\n goals.reduce({away: 0, home: 0}) do |score, e|\n if e.event_author == MatchEvent::EventAuthor::HOME\n score[:home] += 1\n elsif e.event_author == MatchEvent::EventAuthor::AWAY\n score[:away] += 1\n end\n score\n end\n end", "def formated_matches\n @message = []\n @matches.each {|match| @message << menu_item_name(match) }\n ## Another check to see if matches came from rspec just using Fixnums or if it is a real menu\n if @message[0][0].is_a?(Fixnum)\n @message\n else\n @message.join(\"\\n\\n -----------------NEW SUGGESTION----------------------- \\n\\n\")\n end\n end", "def print_matches(matches)\n grouped = matches.group_by(&:owner)\n order = grouped.keys.sort_by{ |x| x.name || x.to_s }\n\n order.each do |klass|\n print_matches_for_class(klass, grouped)\n end\n end", "def round_matches(round)\n\t\t@@logger.info { \"Retrieving matches for a given round.\" } if have_logger?\n\t\tMatch.dataset.filter(:tournament_id => self.id).filter(:round => round).all\n\tend", "def default_match_criteria\n match_criteria = Proc.new do |dict_entry, tag_entry|\n same_headword = (dict_entry.headword_trad == tag_entry.headword_trad) || (dict_entry.headword_simp == tag_entry.headword_simp)\n if same_headword\n # Now process the pinyin and see if we match\n tag_pinyin = tag_entry.pinyin.gsub(\" \",\"\")\n dict_pinyin = dict_entry.pinyin.gsub(\" \",\"\")\n if dict_entry.meaning_txt.downcase.index(\"surname\")\n same_pinyin = (dict_pinyin == tag_pinyin)\n else\n same_pinyin = (dict_pinyin.downcase == tag_pinyin.downcase)\n end\n \n # If we didn't match right away, also check for the funny tone changes \n if (same_pinyin == false and (tag_pinyin.index(\"yi2\") or tag_pinyin.index(\"bu2\")))\n same_pinyin = (dict_pinyin.downcase == tag_pinyin.downcase.gsub(\"yi2\",\"yi1\").gsub(\"bu2\",\"bu4\"))\n end\n \n # The return keyword will F everything up!\n (same_headword and same_pinyin)\n else\n false\n end\n end\n return match_criteria\n end", "def game?\n marc_leader_06_o_r_match = %w[o r].include?(record.leader.byteslice(6))\n marc_008_33_g_match = record.fields('008').find do |field|\n field.value.byteslice(33) == 'g'\n end\n\n marc_leader_06_m_match = record.leader.byteslice(6) == 'm'\n marc_008_26_g_match = record.fields('008').find do |field|\n field.value.byteslice(26) == 'g'\n end\n\n marc_leader_06_e_f_match = %w[e f].include?(record.leader.byteslice(6))\n marc_008_33_34_n_match = record.fields('008').find do |field|\n (field.value.byteslice(33..34) || '').scrub(' ').split('').include?('n')\n end\n\n\n marc_006_match = record.fields('006').find do |field|\n (%w[o r].include?(field.value.byteslice(0)) && field.value.byteslice(16) == 'g') ||\n (field.value.byteslice(0) == 'm' && (field.value.byteslice(9) == 'g' ||\n (field.value.byteslice(16..17) || '').scrub(' ').split('').include?('n')))\n end\n\n return true if (marc_leader_06_o_r_match && marc_008_33_g_match) ||\n (marc_leader_06_m_match && marc_008_26_g_match) ||\n (marc_leader_06_e_f_match && marc_008_33_34_n_match) ||\n marc_006_match\n end", "def match_score(other_user)\n num = 0\n denom = 1\n my_answer_choices = self.user_answers.map{|i| i.answer_choice}\n other_answer_choices = other_user.user_answers.map{|i| i.answer_choice}\n my_questions = my_answer_choices.map{|i|i.question}\n other_questions = other_answer_choices.map{|i|i.question}\n questions = my_questions & other_questions\n questions.each do |question|\n my_answ = my_answer_choices.detect{|choice| choice.question_id == question.id}\n their_answ = other_answer_choices.detect{|choice| choice.question_id == question.id}\n weight = self.user_answers.detect{|answer| answer.answer_choice_id == my_answ.id}.weight\n num += weight if my_answ == their_answ\n denom += weight\n end\n return num.to_f/denom * 100\n end", "def matches_list\n #Need to pull in the region name based on selection\n puts \"#{@club_region} Precision Rifle Matches:\"\n puts <<-DOC.gsub /^\\s*/, ''\n 1. First Match\n 2. Second Match\n DOC\n end", "def post_match() end", "def matches()\n sql = \"SELECT matches.* FROM matches WHERE away_team_id = #{@id} OR home_team_id = #{@id};\"\n matches = SqlRunner.run( sql )\n result = matches.map { |match| Match.new(match) }\n return result\n end", "def matches\n parse_file.lines.each_with_object([]) do |line, matches|\n matches << line.scan(REGEXP[:name_and_score])\n end\n end", "def find_shared_matchups\n ChampionGGApi::MATCHUP_ROLES.values.inject([]) do |shared_matchups, matchup_role|\n matchups = Cache.get_champion_matchups(@name1, matchup_role, @elo)\n shared_matchups.tap do\n if matchups && matchup = matchups[@name2]\n shared_matchups << matchup\n end\n end\n end\n end", "def compound_match(fragments, target)\n match_set = fragments.map.with_index{|word, idx| [target.split(word), idx]}.select{|item| item[0].include?(\"\")}\n match_set = match_set.select{ |item| fragments.index(item.first&.last) != nil}\n index1 = match_set.first&.last\n index2 = fragments.index(match_set&.first&.first&.last) || nil\n return nil if index2.nil?\n\n if fragments[index1] + fragments[index2] == target\n if index1 < index2\n return [fragments[index1], fragments[index2], [index1, index2]]\n else\n return [fragments[index2], fragments[index1], [index1, index2]]\n end\n else\n if index1 < index2\n return [fragments[index1], fragments[index2], [index2, index1]]\n else\n return [fragments[index2], fragments[index1], [index2, index1]]\n end\n end\nend", "def run_matchers # :nodoc:\n matches = Matchers.run(phrase_without_matches)\n matches.each do |match|\n text, category = match\n if text\n @matches[category] << text\n end\n end\n end", "def find_matches(req, screen_res)\n matches = []\n MATCHER_METHODS.each do |method|\n id = self.send(method, req, screen_res)\n matches << id if id\n end\n matches += match_devices(req, screen_res)\n # sort from high confidence to low confidence\n matches.sort! {|x,y| y.confidence <=> x.confidence }\n end", "def gen_matches(myplayers, round, repeat_on = false)\n\t\t@@logger.info { \"Generating matches.\" } if have_logger?\n\t\tmyplayers.each do |p1|\n\t\t\tnext if p1.matches != round # exceeded number of matches in a round\n\t\t\topponents_of_p1 = p1.opponents\n\t\t\tmyplayers.each do |p2|\n\t\t\t\tmyrepeated = false\n\t\t\t\tnext if p1 == p2 # player cannot play against itself\n\t\t\t\tnext if p2.matches != round # exceeded number of matches in a round (e.g.: received a bye already)\n\t\t\t\tif opponents_of_p1.include?(p2) # cannot repeat...\n\t\t\t\t\tnext unless repeat_on # ... unless they told us so\n\t\t\t\t\t@@logger.info { \"Deciding on repetition.\" } if have_logger?\n\t\t\t\t\tm = RSwiss::Match[:p1_id => p1.id, :p2_id => p2.id]\n\t\t\t\t\tm = RSwiss::Match[:p1_id => p2.id, :p2_id => p1.id] if m.nil?\n\t\t\t\t\tnext if m.repeated # ... and it was not repeated before\n\t\t\t\t\tm.repeated = true\n\t\t\t\t\tm.save\n\t\t\t\t\tmyrepeated = true\n\t\t\t\tend\n\t\t\t\tm = Match.create(:p1 => p1, :p2 => p2, :tournament => self, :round => round, :repeated => myrepeated)\n\t\t\t\tp1.matches += 1; p1.save\n\t\t\t\tp2.matches += 1; p2.save\n\t\t\t\tm.save\n\t\t\t\tbreak\n\t\t\tend\n\t\tend\n\tend", "def get_match(id, matches, p1, p2)\n outputmatch = nil\n matches.each do |match|\n outputmatch = match['match'] if ((match['match']['player1_id'].to_s.eql?(p1) && match['match']['player2_id'].to_s.eql?(p2))||(match['match']['player1_id'].to_s.eql?(p2) && match['match']['player2_id'].to_s.eql?(p1)))\n end\n return outputmatch\nend", "def goals_against()\n\t self.as_regular_contestants.select{|c| c.opponent.score}.collect{|c| c.opponent.score}.inject{|gf, c| gf + c} || 0\n\tend", "def is_relevant?(group)\n if KEYWORDS.any? { |k| group['description'].include?(k) }\n return true\n elsif KEYWORDS.any? { |k| group['name'].include?(k) }\n return true\n end\n false\nend", "def match(hash)\n score, total_score = @archetype.inject([0, 0]) do |accum, fdef_pair|\n current_score, total_score = accum\n field, field_spec = fdef_pair\n\n scorer = field_spec[:scorer]\n weight = field_spec[:weight]\n\n rvalue = hash[field]\n score = rvalue ? scorer.(field_spec[:value].strip, rvalue.strip) * weight : 0\n\n [current_score + score, total_score + weight]\n end\n\n score.to_f / total_score\n end", "def show\n @leagues_teams = LeaguesTeams.find_all_by_league_id(@league.id, :order => :group_number)\n @league_groups = Hash.new\n @leagues_teams.each do |league_team|\n if (!@league_groups[league_team.group_number]) \n @league_groups[league_team.group_number] = Array.new\n end\n @league_groups[league_team.group_number].push(league_team)\n end\n\n\n @matches = Match.where(:league_id => @league.id, :is_playoff => false).order(:league_date)\n\n # remove this hack !!! and use the proper group\n group_id = 40\n\n user_group_member = UserGroupMember.joins(:user_group)\n .where( :user_id => current_user.id, \n :user_group_id => group_id,\n :user_groups => { :league_id => @league.id }\n ).first\n # get user bets for group matches\n @user_bets = Hash.new\n @matches.each do |match|\n @user_bets[match.id] = match.bets.where(:match_id => match.id, :user_group_member_id => user_group_member.id).first\n end\n\n @groups_matches = Hash.new\n @matches.each do |match|\n if (!@groups_matches[match.league_date]) \n @groups_matches[match.league_date] = Array.new\n end\n @groups_matches[match.league_date].push(match)\n end\n\n @matches = Match.where(:league_id => @league.id, :is_playoff => true).order(:league_date)\n\n # get user bets for playoff matches\n @matches.each do |match|\n @user_bets[match.id] = match.bets.where(:match_id => match.id, :user_group_member_id => user_group_member.id).first\n end\n\n @playoff_matches = Hash.new\n @matches.each do |match|\n if (!@playoff_matches[match.league_date]) \n @playoff_matches[match.league_date] = Array.new\n end\n @playoff_matches[match.league_date].push(match)\n end\n\n @playoff_labels = Hash.new\n @playoff_labels[1] = 'Octavos'\n @playoff_labels[2] = 'Cuartos'\n @playoff_labels[3] = 'Semifinal'\n @playoff_labels[4] = '3er y 4to Puesto'\n @playoff_labels[5] = 'Final'\n end", "def goals_favor_season(round, season = nil)\n count = 0\n matchs = find_matchs(round, season)\n\n matchs.each do |match|\n count += match.goals_favor(self) if match.finished?\n end\n\n count\n end", "def update_match_results_and_points(match)\n case match[2]\n when 'W'\n $wins[match[0]] = $wins[match[0]].to_i + 1\n $loses[match[1]] = $loses[match[1]].to_i + 1\n $points[match[0]] = $points[match[0]].to_i + 3\n when 'L'\n $loses[match[0]] = $loses[match[0]].to_i + 1\n $wins[match[1]] = $wins[match[1]].to_i + 1\n $points[match[1]] = $points[match[1]].to_i + 3\n else\n $draws[match[0]] = $draws[match[0]].to_i + 1\n $draws[match[1]] = $draws[match[1]].to_i + 1\n $points[match[0]] = $points[match[0]].to_i + 1\n $points[match[1]] = $points[match[1]].to_i + 1\n end\nend", "def deal_matchs_season(round, season = nil)\n count = 0\n matchs = find_matchs(round, season)\n\n matchs.each do |match|\n if match.deal? and match.finished?\n count += 1\n end\n end\n count\n end", "def all_matches\n # Returns an array of all users whom I have a match with, i.e. they are likers of me, and I am liker of them.\n self.matches_from.map { |match| match.liker } & self.matches_to.map { |match| match.liked }\n end", "def try_to_match(tokens, match_start)\n progress = PatternMatchProgress.progress_start\n (match_start...tokens.length).each do |i|\n token = tokens[i]\n features = token.feature.split(',')\n y = features.last\n if reWord !~ y\n if y == '、'\n next\n end\n return nil\n end\n if progress.word_start? && !jiritu_token?(features)\n return nil\n end\n n = count_char(y)\n progress = progress.add_sentence(token.surface, n)\n\n if progress.word_length_matched?\n progress = progress.mark_word_break\n elsif progress.word_length_over?\n return nil\n end\n return progress.sentence if progress.matched?\n end\n nil\n end", "def _group\n\n _save = self.pos\n while true # sequence\n _tmp = apply(:_phrase)\n unless _tmp\n self.pos = _save\n break\n end\n _tmp = apply(:_ocms)\n unless _tmp\n self.pos = _save\n break\n end\n _tmp = match_string(\":\")\n unless _tmp\n self.pos = _save\n break\n end\n _tmp = apply(:_ocms)\n unless _tmp\n self.pos = _save\n break\n end\n _tmp = apply(:_mailbox)\n unless _tmp\n self.pos = _save\n break\n end\n while true\n\n _save2 = self.pos\n while true # sequence\n _tmp = apply(:_ocms)\n unless _tmp\n self.pos = _save2\n break\n end\n _tmp = match_string(\",\")\n unless _tmp\n self.pos = _save2\n break\n end\n _tmp = apply(:_ocms)\n unless _tmp\n self.pos = _save2\n break\n end\n _tmp = apply(:_mailbox)\n unless _tmp\n self.pos = _save2\n end\n break\n end # end sequence\n\n break unless _tmp\n end\n _tmp = true\n unless _tmp\n self.pos = _save\n break\n end\n _tmp = apply(:_ocms)\n unless _tmp\n self.pos = _save\n break\n end\n _tmp = match_string(\";\")\n unless _tmp\n self.pos = _save\n end\n break\n end # end sequence\n\n set_failed_rule :_group unless _tmp\n return _tmp\n end", "def get_groups\n sparql = SPARQL.parse(\"SELECT DISTINCT ?uri ?label\n WHERE {\n ?uri <http://www.bbc.co.uk/ontologies/sport/hasMatch> ?match_uri .\n ?uri <#{RDF::RDFS.label}> ?label .\n }\n ORDER BY ASC(?label)\n \")\n results = QUERYABLE.query(sparql)\n end", "def match_for_game\n guessers = Request.where(guesser: true).\n # guesser.as_guesser behaves similarly to guesser but\n # uses the intersection of unknown and selected documents\n map {|guesser| guesser.as_guesser}\n judges = Request.where(judge: true)\n readers = Request.where(reader: true)\n\n guessers.each do |guesser|\n guesser_judges = compatible judges, guesser\n compatible_readers = compatible readers, guesser\n next if guesser_judges.empty? || compatible_readers.empty?\n\n compatible_readers.each do |reader|\n compatible_judges = compatible guesser_judges, reader\n next if compatible_judges.empty?\n judge = compatible_judges.sample\n documents = reader.documents & guesser.documents & judge.documents\n return reader, guesser, judge, documents.sample\n end\n end\n return false\n end", "def match\n users_that_match = []\n User.collect_users_and_interests.each do |user, interests_array|\n total_match = count_common_interests(interests_array, self)\n if (is_a_match(total_match) == true) && (user.id != self.id) && (user.location_id == self.location_id)\n users_that_match << user\n end\n end\n users_that_match\n end", "def match_devices(req, screen_res)\n matches = []\n [\n { si: ScreenInfo::SCREEN_MB_PRO_15_HR, conf: ScreenMatch::CONFIDENCE_MEDIUM },\n { si: ScreenInfo::SCREEN_MB_PRO_15, conf: ScreenMatch::CONFIDENCE_MEDIUM },\n { si: ScreenInfo::SCREEN_MB_13, conf: ScreenMatch::CONFIDENCE_HIGH },\n { si: ScreenInfo::SCREEN_MB_PRO_17, conf: ScreenMatch::CONFIDENCE_MEDIUM },\n { si: ScreenInfo::SCREEN_MB_PRO_17_HR, conf: ScreenMatch::CONFIDENCE_MEDIUM },\n { si: ScreenInfo::SCREEN_MB_AIR_11, conf: ScreenMatch::CONFIDENCE_HIGH },\n { si: ScreenInfo::SCREEN_MB_AIR_13, conf: ScreenMatch::CONFIDENCE_LOW },\n\n { si: ScreenInfo::SCREEN_IMAC_20, conf: ScreenMatch::CONFIDENCE_VERY_LOW },\n { si: ScreenInfo::SCREEN_IMAC_24, conf: ScreenMatch::CONFIDENCE_LOW },\n { si: ScreenInfo::SCREEN_IMAC_21, conf: ScreenMatch::CONFIDENCE_MEDIUM },\n { si: ScreenInfo::SCREEN_IMAC_27, conf: ScreenMatch::CONFIDENCE_MEDIUM },\n { si: ScreenInfo::SCREEN_EXT_27, conf: ScreenMatch::CONFIDENCE_LOW },\n { si: ScreenInfo::SCREEN_MB_PRO_15_RT_MAX,conf: ScreenMatch::CONFIDENCE_HIGH},\n { si: ScreenInfo::SCREEN_MB_PRO_15_RT, conf: ScreenMatch::CONFIDENCE_MEDIUM},\n\n { si: ScreenInfo::SCREEN_NOOK_COLOR, regexp: /LogicPD\\sZoom2/, conf: ScreenMatch::CONFIDENCE_VERY_HIGH },\n { si: ScreenInfo::SCREEN_NEXUS_7, regexp: /Nexus\\s7/, conf: ScreenMatch::CONFIDENCE_VERY_HIGH },\n { si: ScreenInfo::SCREEN_IPOD_TOUCH, regexp: /(iPod)/, conf: ScreenMatch::CONFIDENCE_VERY_HIGH },\n { si: ScreenInfo::SCREEN_IPHONE, regexp: /(iPhone)/, conf: ScreenMatch::CONFIDENCE_VERY_HIGH },\n { si: ScreenInfo::SCREEN_KINDLE_FIRE_HD7, regexp: /(KFTT.*Silk)/, conf: ScreenMatch::CONFIDENCE_VERY_HIGH }\n ].each do |scr|\n match = false\n si, regexp = scr[:si], scr[:regexp]\n if regexp\n # match by regular expression on user agent\n match = user_agent_match(req, regexp)\n elsif mac?(req)\n # match by screen resolution. All devices that can match by screen resolution are mac devices\n match = resolution_is?(si.width, si.height, screen_res)\n end\n matches << ScreenMatch.new(si, scr[:conf]) if match\n end\n matches\n end", "def qualified_candidates (collection)\n match=[]\n \n collection.each do |x|\n if years_of_experience(x[:years_of_experience]) && github_points(x[:github_points]) && knowledge(x[:languages]) && applied_time(x[:date_applied]) && old_enough(x[:age])\n match << (x)\n end\n end\n\n match\nend", "def match_maker(criteria, *sets)\n #go through each of the sets, in bulk of two\n score = []\n i = 0\n\n while i < sets.length do\n score << false if criteria == true and !!sets[i] == !!sets[i+1]\n score << true if criteria == false and !!sets[i] == !!sets[i+1]\n score << true if criteria == true and !!sets[i] != !!sets[i+1]\n score << false if criteria == false and !!sets[i]!= !!sets[i+1]\n i += 2\n end\n return score\nend", "def display_matches(matches)\r\n # Move to the last visible line of a possibly-multiple-line command.\r\n _rl_move_vert(@_rl_vis_botlin)\r\n\r\n # Handle simple case first. What if there is only one answer?\r\n if matches[1].nil?\r\n temp = printable_part(matches[0])\r\n rl_crlf()\r\n print_filename(temp, matches[0])\r\n rl_crlf()\r\n rl_forced_update_display()\r\n @rl_display_fixed = true\r\n return\r\n end\r\n\r\n # There is more than one answer. Find out how many there are,\r\n # and find the maximum printed length of a single entry.\r\n max = 0\r\n i = 1\r\n while(matches[i])\r\n temp = printable_part(matches[i])\r\n len = fnwidth(temp)\r\n\r\n if (len > max)\r\n max = len\r\n end\r\n i += 1\r\n end\r\n len = i - 1\r\n\r\n # If the caller has defined a display hook, then call that now.\r\n if (@rl_completion_display_matches_hook)\r\n send(@rl_completion_display_matches_hook,matches, len, max)\r\n return\r\n end\r\n\r\n # If there are many items, then ask the user if she really wants to\r\n # see them all.\r\n if (@rl_completion_query_items > 0 && len >= @rl_completion_query_items)\r\n\r\n rl_crlf()\r\n @rl_outstream.write(\"Display all #{len} possibilities? (y or n)\")\r\n @rl_outstream.flush\r\n if (get_y_or_n(false)==0)\r\n rl_crlf()\r\n\r\n rl_forced_update_display()\r\n @rl_display_fixed = true\r\n\r\n return\r\n end\r\n end\r\n\r\n rl_display_match_list(matches, len, max)\r\n\r\n rl_forced_update_display()\r\n @rl_display_fixed = true\r\n end", "def win_matchs_season(round, season = nil)\n count = 0\n matchs = find_matchs(round, season)\n\n matchs.each do |match|\n if match.is_winner?(self) and match.finished?\n count += 1\n end\n end\n count\n end", "def context_type_result_row\n ContextTypeDef.new(\n :result_row,\n [\n /:\\s+(?<rank>(\\d{1,3}|FG|\\s*))\\s*:\\s+(?<swimmer>.{4,27})\\s*:\\s+(?<year>\\d{2})\\s*:(?<team>.{4,26})\\s*:\\s+(?<timing>((\\d{1,2}.)?\\d{2}.\\d{2})|ritirato|squalif.)\\s*:/i\n ],\n :category_header # parent context\n )\n end", "def total\n #use group matches instead of numFound for grouped response\n if response[:numFound].nil? \n self[:grouped][blacklight_config['index']['group']]['matches'].to_s.to_i \n else \n response[:numFound].to_s.to_i\n end\n end", "def matcher(match)\n match = match.flatten.uniq\n match.each do |m|\n @counter.count(m)\n end\n end", "def determine_match_winner\n # CURRENTLY ASSUMES ONLY TWO COMPETITOR IDS\n # debugger\n winner_ids = games.collect { |game| game.winner_id }.compact # [1,2,2,2,1]\n grouped_winner_ids = winner_ids.group_by { |e| e }.values # [[1,1], [2,2,2]]\n\n # One winner for all matches\n if grouped_winner_ids.length == 1\n ret = grouped_winner_ids[0][0]\n # multiple winners in multiple matches\n elsif grouped_winner_ids.length > 1\n if grouped_winner_ids[0].length != grouped_winner_ids[1].length\n ret = grouped_winner_ids.max_by(&:size).try(:first)\n else # No matches recorded or tie\n ret = nil\n end\n else\n ret = nil\n end\n ret\n end", "def calculate_results\n players = {}\n @rounds.each do |round|\n round[:results].each do |player,result|\n if not players.has_key?(player)\n players[player] = 0\n end\n if result[:result] == \"Win\"\n players[player] += 1\n end\n end\n end\n winner = players.max_by{|k,v| v}\n players.each do |player, wins|\n @match[player] = {\n \"result\": (player == winner[0]) ? \"Win\" : \"Loss\",\n \"score\": wins\n }\n\t if @duplicate_players then\n\t\t@match[player][:result]= \"Tie\"\n\t end\n\t \n end\n end", "def mentor_matches(mentee)\n mentors = Mentor.all.shuffle\n matches = []\n count = mentors.count\n \n # Coding out while loop for faster debugging purposes, \n # though for refactor it's important to consider cases\n # where no matches are found\n # while matches.length <= 1\n until matches.length == 3 || count < 1 do\n mentors.each do |mentor|\n if mentor.race == mentee.race\n matches.push(mentor)\n elsif mentor.socioeconomic_background == mentee.socioeconomic_background\n matches.push(mentor)\n elsif mentor.gender == mentee.gender\n matches.push(mentor)\n elsif mentor.orientation == mentee.orientation\n matches.push(mentor)\n end\n count -= 1\n end\n end\n matches\n end", "def adjust_for_match\n return unless @applied_side_effects\n new_role_sequence_needed = @applied_side_effects.residual_adjectives\n\n role_phrases = []\n reading_words = []\n new_role_sequence_needed = false\n @phrases.each do |phrase|\n if phrase.respond_to?(:player)\n role_phrases << phrase\n reading_words << \"{#{phrase.role_ref.ordinal}}\"\n if phrase.role_name != phrase.role_ref.role.role_name ||\n phrase.leading_adjective ||\n phrase.trailing_adjective\n trace :matching, \"phrase in matched clause has residual adjectives or role name, so needs a new role_sequence\" if @fact_type.all_reading.size > 0\n new_role_sequence_needed = true\n end\n else\n reading_words << phrase\n false\n end\n end\n\n trace :matching, \"Clause '#{reading_words*' '}' #{new_role_sequence_needed ? 'requires' : 'does not require'} a new Role Sequence\"\n\n constellation = @fact_type.constellation\n reading_text = reading_words*\" \"\n if new_role_sequence_needed\n @role_sequence = constellation.RoleSequence(:new)\n extra_adjectives = []\n role_phrases.each_with_index do |rp, i|\n role_ref = constellation.RoleRef(@role_sequence, i, :role => rp.role_ref.role)\n if a = rp.leading_adjective\n role_ref.leading_adjective = a\n extra_adjectives << a+\"-\"\n end\n if a = rp.trailing_adjective\n role_ref.trailing_adjective = a\n extra_adjectives << \"-\"+a\n end\n if (a = rp.role_name) && (e = rp.role_ref.role.role_name) && a != e\n raise \"Can't create new reading '#{reading_text}' for '#{reading.expand}' with alternate role name #{a}\"\n extra_adjectives << \"(as #{a})\"\n end\n end\n trace :matching, \"Making new role sequence for new reading #{reading_text} due to #{extra_adjectives.inspect}\"\n else\n # Use existing RoleSequence\n @role_sequence = role_phrases[0].role_ref.role_sequence\n if @role_sequence.all_reading.detect{|r| r.text == reading_text }\n trace :matching, \"No need to re-create identical reading for #{reading_text}\"\n return @role_sequence\n else\n trace :matching, \"Using existing role sequence for new reading '#{reading_text}'\"\n end\n end\n if @fact_type.all_reading.\n detect do |r|\n r.text == reading_text and\n r.role_sequence.all_role_ref_in_order.map{|rr| rr.role.object_type} ==\n @role_sequence.all_role_ref_in_order.map{|rr| rr.role.object_type}\n end\n # raise \"Reading '#{@reading.expand}' already exists, so why are we creating a duplicate (with #{extra_adjectives.inspect})?\"\n else\n constellation.Reading(@fact_type, @fact_type.all_reading.size, :role_sequence => @role_sequence, :text => reading_text, :is_negative => (certainty == false))\n end\n @role_sequence\n end", "def uefa_euro_2016(teams, scores)\n if scores[0] < scores[1]\n return \"At match \" + teams[0] + \" - \" + teams[1] + \", \" + teams[1] + \" won!\"\n elsif scores[0] > scores[1]\n return \"At match \" + teams[0] + \" - \" + teams[1] + \", \" + teams[0] + \" won!\"\n else\n return \"At match \" + teams[0] + \" - \" + teams[1] + \", teams played draw.\"\n end\nend", "def sample_match_score(winner_idx)\n result = {}\n\n if winner_idx == 0\n result[:set1_player1_score] = 6\n result[:set2_player1_score] = 6\n result[:set1_player2_score] = rand(0..4)\n result[:set2_player2_score] = rand(0..4)\n else\n result[:set1_player1_score] = rand(0..4)\n result[:set2_player1_score] = rand(0..4)\n result[:set1_player2_score] = 6\n result[:set2_player2_score] = 6\n end\n\n result\nend", "def context_type_team_ranking\n ContextTypeDef.new(\n :team_ranking,\n [\n /(classifica)(\\s+di)?(\\s+societ.)?/i\n ]\n )\n end", "def compute_lcd_of_matches(match_list, matches, text)\r\n # If only one match, just use that. Otherwise, compare each\r\n # member of the list with the next, finding out where they\r\n # stop matching.\r\n if (matches == 1)\r\n match_list[0] = match_list[1]\r\n match_list[1] = nil\r\n return 1\r\n end\r\n\r\n i = 1\r\n low = 100000\r\n while(i<matches)\r\n if (@_rl_completion_case_fold)\r\n si = 0\r\n while((c1 = _rl_to_lower(match_list[i][si])) &&\r\n (c2 = _rl_to_lower(match_list[i + 1][si])))\r\n if !@rl_byte_oriented\r\n if(!_rl_compare_chars(match_list[i],si,match_list[i+1],si))\r\n break\r\n elsif ((v = _rl_get_char_len(match_list[i][si..-1])) > 1)\r\n si += v - 1\r\n end\r\n else\r\n break if (c1 != c2)\r\n end\r\n si += 1\r\n end\r\n else\r\n si = 0\r\n while((c1 = match_list[i][si]) &&\r\n (c2 = match_list[i + 1][si]))\r\n if !@rl_byte_oriented\r\n if(!_rl_compare_chars(match_list[i],si,match_list[i+1],si))\r\n break\r\n elsif ((v = _rl_get_char_len(match_list[i][si..-1])) > 1)\r\n si += v - 1\r\n end\r\n else\r\n break if (c1 != c2)\r\n end\r\n si += 1\r\n end\r\n end\r\n\r\n if (low > si)\r\n low = si\r\n end\r\n i += 1\r\n end\r\n\r\n # If there were multiple matches, but none matched up to even the\r\n # first character, and the user typed something, use that as the\r\n # value of matches[0].\r\n if (low == 0 && text && text.length>0 )\r\n match_list[0] = text.dup\r\n else\r\n # XXX - this might need changes in the presence of multibyte chars\r\n\r\n # If we are ignoring case, try to preserve the case of the string\r\n # the user typed in the face of multiple matches differing in case.\r\n if (@_rl_completion_case_fold)\r\n\r\n # We're making an assumption here:\r\n # IF we're completing filenames AND\r\n # the application has defined a filename dequoting function AND\r\n # we found a quote character AND\r\n # the application has requested filename quoting\r\n # THEN\r\n # we assume that TEXT was dequoted before checking against\r\n # the file system and needs to be dequoted here before we\r\n # check against the list of matches\r\n # FI\r\n if (@rl_filename_completion_desired &&\r\n @rl_filename_dequoting_function &&\r\n @rl_completion_found_quote &&\r\n @rl_filename_quoting_desired)\r\n\r\n dtext = send(@rl_filename_dequoting_function,text, @rl_completion_quote_character)\r\n text = dtext\r\n end\r\n\r\n # sort the list to get consistent answers.\r\n match_list = [match_list[0]] + match_list[1..-1].sort\r\n\r\n si = text.length\r\n if (si <= low)\r\n for i in 1 .. matches\r\n if match_list[i][0,si] == text\r\n match_list[0] = match_list[i][0,low]\r\n break\r\n end\r\n # no casematch, use first entry\r\n if (i > matches)\r\n match_list[0] = match_list[1][0,low]\r\n end\r\n end\r\n else\r\n # otherwise, just use the text the user typed.\r\n match_list[0] = text[0,low]\r\n end\r\n else\r\n match_list[0] = match_list[1][0,low]\r\n end\r\n end\r\n\r\n return matches\r\n end", "def solve_score_matching_info(book_td_labels)\n submited_report_counts = book_td_labels.shift.split('>')[3].split('<')[0]\n current_mark = book_td_labels.pop.split('>')[3].split('<')[0]\n score_reds = []\n book_td_labels.each_index do |index|\n td = book_td_labels[index]\n td = td.match('>.+<').to_s\n l = td.size\n td = td.slice(1, l-2)\n score_reds << td\n end\n \n score_arrs = score_reds.each_slice(2).to_a\n [submited_report_counts, current_mark, score_arrs]\n end", "def parse_score_leaders()\n users = []\n $redis.scan_each(:match => \"user_score:*\"){ |key| user_id = key.gsub(\"user_score:\", \"\"); users << { :user_id => user_id, :score => get_user_score(user_id), :user_name => get_slack_name(user_id) } }\n finalists = []\n if users.size > 0\n users.each do |user|\n if user[:score] >= 1\n finalists.push(user)\n end\n end\n finalists = finalists.uniq{ |f| f[:user_id] }.sort{ |a, b| b[:score] <=> a[:score] }.slice(0, 100)\n end\n finalists\nend", "def matchups\n\t# we will create a temporary array\n\t# for use only in this method,\n\t# so we don't effect the original\n\t# @teams array with an deletions\n\ttemp_arr = []\n\t@teams.each do |t|\n\t\ttemp_arr.push(t)\n\tend\n\n\tif temp_arr.length % 2 != 0\n\t\t# check if there is an odd number of teams,\n\t\t# if there is an odd number, we pull pull\n\t\t# out the top one and give them a bye week\n\t\tputs \"(1) #{temp_arr.delete_at(0).name} has a bye\"\n\t\t# and now we have an even number of teams\n\tend\n\n\t# match up the even amount of teams,\n\t# assuming there are any teams...\n\twhile temp_arr.length > 0\n\t\tteam1 = temp_arr.delete_at(0)\n\t\t# team 1 is the first one in array\n\t\tteam2 = temp_arr.pop\n\t\t# team 2 is last in array\n\t\tputs \"(#{team1.ranking}) #{team1.name} versus (#{team2.ranking}) #{team2.name}\"\n\t\t# this continues until no teams are left in the array\n\t\t# Example: \n\t\t# [1,2,3,4,5,6]\n\t\t# team1 = 1\n\t\t# team2 = 6\n\t\t# [2,3,4,5]\n\t\t# team1 = 2\n\t\t# team2 = 5\n\t\t# [3,4]\n\t\t# team1 = 3\n\t\t# team2 = 4\n\tend\n\n\treturn_to_menu\nend", "def played_matchs_season(round, season = nil)\n count = 0\n matchs = find_matchs(round, season)\n\n matchs.each do |match|\n if match.finished?\n count += 1\n end\n end\n count\n end", "def my_match_with(other_user)\n self.matches.select {|a| a if a.users.include?(other_user)}.first\n end", "def best_matches(n,user)\n best = []\n connections = []\n\n self.similar_answers.each do |sa|\n best << Answer.find(sa)\n end\n\n best.sort_by! do |element|\n element.connections.where(target_answer_id:self.id).first.weight\n end\n\n best.reverse!\n\n if user.student? && (not user.admin?)\n best[0..n-1].keep_if { |a| a.user_id == user.id }\n else\n best[0..n-1]\n end\n\n end", "def get_matches_on_event(event_type)\n if has_matches_on_event?(event_type)\n @matches = @local_swimmer.meeting_programs\n .sort_by_date('DESC')\n .joins(:meeting, :event_type)\n .includes(:meeting, :event_type)\n .where([\n 'meeting_events.event_type_id = ? and exists (select 1 from meeting_individual_results mir join swimmers s on s.id = mir.swimmer_id where s.id = ? and mir.meeting_program_id = meeting_programs.id)',\n event_type.id,\n visitor_swimmer.id\n ])\n end\n end", "def test_strict_match_criteria\n entry = BigramEntry.new\n entry.parse_line(\"8\t工作\t18904\t6.89133239246\t213454\")\n cedict_entry = CEdictEntry.new\n cedict_entry.parse_line(\"工作 工作 [gong1 zuo4] /job/work/construction/task/CL:個|个[ge4],份[fen4],項|项[xiang4]/\")\n \n result = entry.default_match_criteria.call(cedict_entry,entry)\n assert(true,result)\n end", "def update_total_matches\n self.correct_matches = (maker.code.select.with_index { |v, i| v == breaker.guess[i] }).length\n self.matches = 4 - (maker.code - breaker.guess).length - correct_matches\n end", "def total_matches_played\n count = 0\n\n matches.each do |match|\n unless match.finalized_date == nil \n count += 1\n end\n end\n\n count\n end" ]

[ "0.58446586", "0.5720351", "0.5530426", "0.55074364", "0.54681623", "0.54631764", "0.5438794", "0.541265", "0.5382414", "0.5326293", "0.53257143", "0.5310903", "0.530656", "0.52929443", "0.526646", "0.5230194", "0.5223697", "0.52056074", "0.5199249", "0.5183336", "0.51742774", "0.5170218", "0.5170058", "0.5165303", "0.51587075", "0.5149297", "0.5121833", "0.5099423", "0.50910604", "0.5085524", "0.5077152", "0.5060403", "0.5055319", "0.5052356", "0.5022132", "0.5008556", "0.50017774", "0.4986718", "0.49865925", "0.49723244", "0.49546993", "0.49430326", "0.4941599", "0.49408367", "0.49281883", "0.4924446", "0.4922618", "0.4913753", "0.49128", "0.4902464", "0.48995736", "0.48900884", "0.4888926", "0.48884028", "0.4880565", "0.48734078", "0.48733455", "0.48700583", "0.48696584", "0.48652834", "0.4861564", "0.48599634", "0.48557574", "0.48553896", "0.4853862", "0.48534268", "0.48498762", "0.4849379", "0.48386505", "0.48377576", "0.48346123", "0.482859", "0.4827021", "0.48257005", "0.48201123", "0.48165953", "0.4815387", "0.48148564", "0.48139194", "0.48122898", "0.47972944", "0.4790445", "0.47888836", "0.47830185", "0.47828346", "0.47808322", "0.4780273", "0.47761074", "0.47660384", "0.47654712", "0.4761019", "0.4749366", "0.47490096", "0.47471", "0.47466534", "0.47460818", "0.47399068", "0.47393823", "0.47350252", "0.47320247", "0.47271612" ]

[ "def new\n @role = Role.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @role }\n end\n end", "def new\n @role = Role.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @role }\n end\n end", "def new\n @role = Role.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @role }\n end\n end", "def new\n @role = Role.new\n \n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @role }\n end\n end", "def new\n\t\t@roles_new = Role.all\n\t\tif can?(:update, Role)\n\t\t\t@roles_new = Role.all\n\t\tend\n\n @user = User.new if can?(:create, User)\n respond_to do |format|\n format.json { render :json => @user } \n format.xml { render :xml => @user }\n format.html\n end\n end", "def new\n \n @roles_and_permission = @roles.roles_and_permission.new\n \n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @roles_and_permission }\n end\n end", "def new\n @role = Role.new\n respond_with(@role)\n end", "def new\n @company = Company.find(params[:company_id])\n @role = Role.new\n \n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @role }\n end\n end", "def new\n @role_user = RoleUser.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @role_user }\n end\n end", "def create\n if !grant_access(\"edit_roles\", current_user)\n head(403)\n end\n @role = Role.new(role_params)\n @role.user_id = current_user.id\n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: 'Role was successfully created.' }\n format.json { render :show, status: :created, location: @role }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def new\n\t\t@role = Role.new\n\t\trespond_to do |format|\n\t\t\tformat.html # new.html.erb\n\t\t\tformat.xml { render :xml => @role }\n\t\tend\n\tend", "def new\n @project_role = ProjectRole.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @project_role }\n end\n end", "def new\n @role = Role.new\n end", "def new\n @role = Role.new\n end", "def new\n @role = Role.new\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @role }\n end\n end", "def new\n @app_role = AppRole.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @app_role }\n end\n end", "def new_role\n new_role = create_role(params[:role][:name])\n\n return redirect_to admin_roles_path, flash: { alert: I18n.t(\"administrator.roles.invalid_create\") } if new_role.nil?\n\n redirect_to admin_roles_path(selected_role: new_role.id)\n end", "def new\n @role = Role.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @role }\n end\n end", "def new\n @role = Role.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @role }\n end\n end", "def new\n @role = Role.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @role }\n end\n end", "def new\n @role = Role.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @role }\n end\n end", "def create\n @role = Role.new(params[:role])\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to admin_roles_path, notice: 'Role was successfully created.' }\n format.json { render json: @role, status: :created, location: @role }\n else\n format.html { render action: \"new\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def new\n submenu_item 'role-new'\n @role = Role.new\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @role }\n end\n end", "def new\n @title = \"New User\"\n\n @user = User.new\n @user.user_roles.build\n respond_to do |format|\n format.html #new.html.erb\n format.js\n format.json { render json: @user }\n end\n end", "def new\n @lab_permissions_role = LabPermissionsRole.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @lab_permissions_role }\n end\n end", "def new\n @user_role = UserRole.new\n\n respond_to do |format|\n format.html # new.html.erb\n end\n end", "def create\n @role = Role.new(params[:role])\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: 'Role was successfully created.' }\n format.json { render json: @role, status: :created, location: @role }\n else\n format.html { render action: \"new\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(params[:role])\n \n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: 'Role was successfully created.' }\n format.json { render json: @role, status: :created, location: @role }\n else\n format.html { render action: \"new\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def new\n @role_map = RoleMap.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @role_map }\n end\n end", "def new\n @user = User.new\n @roles = Role.all\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @user }\n end\n end", "def new\n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @course_role }\n end\n end", "def new\n @member = Member.new\n user = @member.build_user\n @roles = Role.find(:all)\n \n respond_to do |format|\n format.html # new.html.erb\n format.json { render :json => @member }\n end\n end", "def new\n @role_types = RoleTypes.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @role_types }\n end\n end", "def new\n @role_user = RolesUser.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @role_user }\n end\n end", "def new\n @role_permision = RolePermision.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @role_permision }\n end\n end", "def new\n @member = Member.new\n user = @member.build_user\n @roles = Role.find(:all)\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render :json => @member }\n end\n end", "def create\n @role = Role.new(params[:role])\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to edit_role_path(@role), :notice => t('hurricane.notice.create_record_success', :type => t_type) }\n format.json { render json: @role, status: :created, location: @role }\n else\n format.html { render action: \"new\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def new\r\n permissions\r\n @role = Role.new\r\n \r\n #render layout: \"users\"\r\n end", "def create\n @role = Role.new(role_params)\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: 'Role was successfully created.' }\n format.json { render :show, status: :created, location: @role }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(role_params)\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: 'Role was successfully created.' }\n format.json { render :show, status: :created, location: @role }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(role_params)\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: 'Role was successfully created.' }\n format.json { render :show, status: :created, location: @role }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(params[:role])\n\n if @role.save\n redirect_to admin_roles_url\n else\n render :action => \"new\"\n end\n end", "def new\n @user_role = UserRole.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @user_role }\n end\n end", "def new\n logger.debug(\"Role new\")\n @role=Role.new\n setup_role\n if params[:from] == 'organisation'\n @organisation = Organisation.find(params[:id])\n @from='organisation'\n else\n @person = Person.find(params[:id])\n @from='person'\n end\n # explicitly set role_type_id to nil\n # so that the first role type in the\n # list is not displayed in role type\n # drop-down\n @role.role_type_id = nil\n\t\n\tset_default_status(@role)\n \n end", "def create\n chef_server_rest.post(\"roles\", self)\n self\n end", "def new\n \t @employee = User.new\n @roles = Role.all\n puts \"ROLES ARE GOING NOW\"\n end", "def create\n @role = Role.new(params[:role])\n\n respond_to do |format|\n if @client.roles << @role\n flash[:notice] = 'Role was successfully created.'\n format.html { redirect_to client_role_url(@client, @role) }\n format.xml { render :xml => @role, :status => :created, :location => [@client, @role] }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end", "def new\n @role = Role.new(:category => 0)\n @possible_permissions = Permission.by_category(@role.category)\n\n respond_to do |format|\n format.xml { render :xml => @role }\n format.js #new.js.rjs\n end\n end", "def new\n @role_type = RoleType.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @role_type }\n end\n end", "def new\n @userrole = Userrole.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @userrole }\n end\n end", "def new\n @role = Role.new\n end", "def new\n @screen = session.active_screen\n @role = Role.new\n @all_users = User.find_active_users\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @role }\n end\n end", "def new\n @role_user = RoleUser.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @role_user }\n end\n end", "def create\n \n if request.get?\n @role = Role.new\n else\n @role = Role.new(params[:role])\n\n # assign parent role\n if not params[:role][:parent].to_s.empty?\n @role.parent = Role.find(params[:role][:parent].to_i)\n end\n\n if @role.save\n # set the roles's static permissions to the static permission from the parameters \n params[:role][:static_permissions] = [] if params[:role][:static_permissions].nil?\n @role.static_permissions = params[:role][:static_permissions].collect { |i| StaticPermission.find(i) }\n\n # the above should be successful if we reach here; otherwise we \n # have an exception and reach the rescue block below\n flash[:success] = 'Role has been created successfully.'\n redirect_to :action => 'show', :id => @role.id\n else\n render :action => 'create'\n end\n end\n \n rescue ActiveRecord::RecordNotFound\n flash[:error] = 'You sent an invalid request.'\n redirect_to :action => 'list'\n end", "def create\n error = ''\n \n if params[:roles]\n params[:roles].each do |role|\n @role = Role.new(role) unless role[:title].blank?\n error << model_errors(@role) unless @role.save\n end\n else\n @role = Role.new(params[:roles])\n error << model_errors(@role) unless @role.save\n end\n \n respond_to do |format|\n format.html do\n if error.blank?\n flash[:notice] = \"#{params[:roles].nil? ? 'Role has' : 'Roles have'} been created.\"\n redirect_back_or_default roles_path\n else\n flash[:error] = 'Oops, something went wrong.'\n @role.nil? ? render(:action => 'edit') : redirect_back_or_default(roles_path)\n end\n end\n \n format.js do\n if error.blank?\n flash.now[:notice] = \"#{params[:roles].nil? ? 'Role has' : 'Roles have'} been created.\"\n get_models\n render :action => 'index', :layout => false\n else\n flash.now[:error] = 'Oops, something went wrong.'\n render :action => 'edit', :layout => false\n end\n end\n end\n end", "def create\n @role = Role.new(role_params)\n\n respond_to do |format|\n if role.save\n current_user.add_role :admin, role\n format.html { redirect_to admin_role_path(role), notice: 'Role was successfully created.' }\n format.json { render :show, status: :created, location: role }\n else\n format.html { render :new }\n format.json { render json: role.errors, status: :unprocessable_entity }\n end\n end\n end", "def new\n @individual_role_record = IndividualRoleRecord.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render :json => @individual_role_record }\n end\n end", "def new\n @user = User.new\n @role = params[:role]\n end", "def create\n @role = Role.new(role_params)\n\n respond_to do |format|\n if @role.save\n format.html {\n redirect_to dashboard_path\n flash[:success] = @role.name+' was successfully created.' }\n format.json { render json: @role.to_json }\n else\n format.html { render action: 'new' }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(params[:role])\n \n respond_to do |format|\n if @role.save\n format.html { redirect_to(@role, :notice => 'Role was successfully created.') }\n format.xml { render :xml => @role, :status => :created, :location => @role }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end", "def new\n @operations_role = OperationsRole.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @operations_role }\n end\n end", "def create\n @role = @company.roles.new(safe_params)\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to [@company, @role], notice: 'Role was successfully created.' }\n format.json { render :show, status: :created, location: @role }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def new\n @company = Company.find( params[:company_id])\n @user = @company.users.build\n @roles = ROLE\n end", "def new\n @story = Story.new\n @roles = Role.all\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @story }\n end\n end", "def create\n @role = Role.new(params[:role])\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to(@role, :notice => 'Role was successfully created.') }\n format.xml { render :xml => @role, :status => :created, :location => @role }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end", "def new\n @role = System::Role.new\n end", "def new\n @company = Company.find(params[:company_id])\n if !can?(:manage, @company)\n raise CanCan::AccessDenied.new(\"Usted no puede administrar otra compañia\", :manage, @company)\n end\n @user = User.new\n @roles = Role.all\n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @user }\n end\n end", "def create\n @lab_role = LabRole.new(params[:lab_role])\n\n respond_to do |format|\n if @lab_role.save\n format.html { redirect_to @lab_role, notice: 'Lab role was successfully created.' }\n format.json { render json: @lab_role, status: :created, location: @lab_role }\n else\n format.html { render action: \"new\" }\n format.json { render json: @lab_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @cms_role = Cms::Role.new(cms_role_params)\n\n respond_to do |format|\n if @cms_role.save\n format.html { redirect_to @cms_role, notice: 'Role was successfully created.' }\n format.json { render :show, status: :created, location: @cms_role }\n else\n format.html { render :new }\n format.json { render json: @cms_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(params[:role])\n respond_to do |format|\n if @role.save\n flash[:notice] = 'Role was successfully created.'\n format.html { redirect_to role_url(@role.code) }\n format.xml { head :created, :location => role_url(@role.code) }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @role.errors.to_xml }\n end\n end\n end", "def create\n @role = Role.new(params[:role])\n respond_to do |format|\n if @role.save\n flash[:notice] = 'Role was successfully created.'\n format.html { redirect_to(@role) }\n format.xml { render :xml => @role, :status => :created, :location => @role }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end", "def new\n @page_role = PageRole.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @page_role }\n end\n end", "def create\n respond_to do |format|\n if @role.save\n format.html { redirect_to user_roles_path(@user), notice: I18n.t('controller.create_success_notice', model: '角色') }\n format.json { render action: 'show', status: :created, location: @role }\n else\n format.html { render action: 'new' }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def new\n @primary_role = PrimaryRole.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @primary_role }\n end\n end", "def create\n @role = Role.new role_params\n flash[:notice] = 'Role was successfully created.' if @role.save\n respond_with @role\n end", "def new\n @user = User.new :role_attributes => {:title => 'member'}\n end", "def new\n @protocol_role = ProtocolRole.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @protocol_role }\n end\n end", "def create\n @team_role = TeamRole.new(team_role_params)\n\n respond_to do |format|\n if @team_role.save\n format.html { redirect_to lab_team_roles_path(@lab), notice: 'Team role was successfully created.' }\n format.json { render action: 'show', status: :created, location: @team_role }\n else\n format.html { render action: 'new' }\n format.json { render json: @team_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def CreateRole params = {}\n \n APICall(path: 'custom_roles.json',method: 'POST',payload: params.to_json)\n \n end", "def create\n @role = Role.new(params[:role])\n @role.save\n respond_with(@role)\n end", "def create\n abilities = []\n client_application = current_user.client_application_id.to_s\n @abilities = Role.get_method_names.sort\n @role = Role.new(role_params)\n params[:role][:role_abilities].each do |ability|\n abilities << ability.to_sym\n end\n @role.role_abilities = [{\"action\"=> abilities, \"subject\"=>[:api]}]\n @role.client_application_id = client_application\n respond_to do |format|\n if @role.save\n format.html { redirect_to roles_path, notice: 'Role was successfully created.' }\n format.json { render :index, status: :created, location: @role }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def new\n @people = Person.all\n @role = get_role\n respond_with @event, @role\n end", "def create\n respond_to do |format|\n if @course_role.save\n format.html { redirect_to course_roles_url, notice: 'Course role was successfully created.' }\n format.json { render json: @course_role, status: :created, location: @course_role }\n else\n format.html { render action: \"new\" }\n format.json { render json: @course_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def new prepare\n @role_permission = RolePermission.new\n @role_permission.role_id = params[:role_id]\n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @role_permission }\n end\n end", "def new\n @provider_role = ProviderRole.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @provider_role }\n end\n end", "def create\n @role = Role.new(params[:role])\n respond_to do |format|\n if @role.save\n flash[:notice] = 'Role was successfully created.'\n format.html { redirect_to(role_path(@role.slug)) }\n format.xml { render :xml => @role, :status => :created, :location => @role }\n else\n format.html { render \"new\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(role_params)\n respond_to do |format|\n if @role.save\n flash[:notice] = 'Role was successfully created.'\n format.html { redirect_to(role_path(@role.slug)) }\n format.xml { render :xml => @role, :status => :created, :location => @role }\n else\n format.html { render \"new\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n submenu_item 'role_new'\n load_permissions\n ids=params[:permissions].select{|k,v| v=='1'}.map { |k,v| k.to_i } unless params[:permissions].nil?\n if ids.length > 0\n permissions=Permission.find(:all, :conditions => [\"id in (#{ids.join(',')})\"])\n params[:role][:permissions] = permissions\n @role = Role.new(params[:role])\n if @role.save\n flash[:notice] = \"创建角色成功\"\n redirect_to :action => 'index'\n else\n flash[:error] = \"创建角色失败\"\n render :action => 'new'\n end\n else\n flash[:error] = \"角色名或权限不能为空\"\n redirect_to :action => 'new'\n end\n\n end", "def create\n @admin_role = RoleUser.new(params[:role_user])\n\n respond_to do |format|\n if @admin_role.save\n format.html { redirect_to @role_users_path, notice: 'Role was successfully created.' }\n format.json { render json: @admin_role, status: :created, location: @admin_role }\n else\n format.html { render action: \"new\" }\n format.json { render json: @admin_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @entity_role = EntityRole.new(entity_role_params)\n\n respond_to do |format|\n if @entity_role.save\n format.html { redirect_to @entity_role, notice: 'Entity role was successfully created.' }\n format.json { render :show, status: :created, location: @entity_role }\n else\n format.html { render :new }\n format.json { render json: @entity_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\r\n @role = Role.new(role_params)\r\n @role.save\r\n end", "def create\n @users_role = UsersRole.new(users_role_params)\n\n respond_to do |format|\n if @users_role.save\n format.html { redirect_to @users_role, notice: 'Users role was successfully created.' }\n format.json { render :show, status: :created, location: @users_role }\n else\n format.html { render :new }\n format.json { render json: @users_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @company = Company.find(params[:company_id])\n @role = Role.new(params[:role])\n @role.company_id = @company.id\n respond_to do |format|\n if @role.save\n format.html { redirect_to company_role_path(@company, @role), notice: 'El rol fue creado exitosamente.' }\n format.json { render json: @role, status: :created, location: @role }\n else\n format.html { render action: \"new\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @roles = Role.paginate :page => params[:page],\n :per_page => 15,\n :order => sort_order('name')\n @role= Role.new(params[:role])\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to(roles_url, :notice => 'New User role successfully added.') }\n format.xml { render :xml => @role, :status => :created, :location => @role }\n else\n format.html { render :action => \"index\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end", "def index\n @roles = Role.all\n @nrole = Role.new\n end", "def create\n @role = Role.new role_params\n authorize @role\n flash.now[:notice] = 'Role was successfully created.' if @role.save\n respond_with @role\n end", "def new\n @robots=\"noindex,nofollow\"\n authorize! :create, Roxiware::Person\n @person = Roxiware::Person.new({:show_in_directory=>true,\n :first_name=>\"First\",\n :middle_name=>\"\",\n :last_name=>\"Last\",\n :role=>\"Role\",\n :email=>\"email@email.com\",\n :bio=>\"Bio\"}, :as=>@role)\n respond_to do |format|\n format.html { render :partial =>\"roxiware/people/editform\" }\n format.json { render :json => @person.ajax_attrs(@role) }\n end\n end", "def add_role\n\n\t\t@roles = Role.new(role_params)\n\t\tif @roles.save\n\t\t\tredirect_to '/details'\n\t\telse\n\t\t\trender 'index'\n\t\tend\n\n\tend", "def create\n # rails 3 bug\n params[:user][:roles].reject!(&:blank?)\n @user = User.new(params[:user])\n respond_to do |format|\n if @user.save\n format.html { redirect_to users_url, notice: I18n.t(:new_user_notify, name: @user.name, role: @user.role_str ) }\n format.json { render json: @user, status: :created, location: @user }\n else\n format.html { render action: \"new\" }\n format.json { render json: @user.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = System::Role.new(system_role_params)\n respond_to do |format|\n if @role.save\n format.html { redirect_to system_roles_url, notice: '添加角色成功.' }\n format.json { render :show, status: :created, location: @role }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def new\n @lab_role = LabRole.new\n\n render :layout => \"blank\"\n end" ]

[ "0.8056065", "0.8056065", "0.8056065", "0.8047554", "0.7925329", "0.7899501", "0.75905114", "0.7552672", "0.75305", "0.7404623", "0.73878103", "0.73797524", "0.73708034", "0.73708034", "0.73668516", "0.73646253", "0.73598355", "0.73466617", "0.73466617", "0.73466617", "0.73466617", "0.7319681", "0.73090357", "0.72790754", "0.72006667", "0.71966416", "0.7164784", "0.71443903", "0.7137173", "0.71274626", "0.70941854", "0.70901513", "0.7082152", "0.7065805", "0.7059749", "0.7041859", "0.7041197", "0.7036298", "0.7029444", "0.7029444", "0.7029444", "0.7017208", "0.7014363", "0.70122373", "0.69952184", "0.6941265", "0.6931404", "0.6916441", "0.69143164", "0.68828624", "0.6876309", "0.68604463", "0.6859469", "0.6839785", "0.68369466", "0.68330896", "0.6831358", "0.6817967", "0.6814961", "0.6814382", "0.67903286", "0.6789971", "0.6764996", "0.6763802", "0.675926", "0.673668", "0.67297494", "0.6729637", "0.6721937", "0.67210925", "0.67042553", "0.66859615", "0.6682522", "0.6669702", "0.6641736", "0.663069", "0.66184974", "0.66184837", "0.6615549", "0.6607312", "0.65941626", "0.6591984", "0.65918565", "0.6583166", "0.65803593", "0.65798384", "0.65740263", "0.6571463", "0.65701586", "0.65585345", "0.65478206", "0.6545662", "0.6540951", "0.65338254", "0.65320516", "0.6531983", "0.6515132", "0.6514973", "0.6501256", "0.6474498", "0.6471373" ]

[ "def post_role(role)\n role = {\n \"id\"=>nil,\n \"name\"=>nil, \n \"description\"=>\"\", \n \"sessionTimeout\"=>\"60\",\n \"roles\"=>[],\n \"privileges\"=>[]\n }.merge(role);\n post(\"#{url_base}/roles\", {\"data\"=>role})[\"data\"]\n end", "def CreateRole params = {}\n \n APICall(path: 'custom_roles.json',method: 'POST',payload: params.to_json)\n \n end", "def create\n chef_server_rest.post(\"roles\", self)\n self\n end", "def create\n if !grant_access(\"edit_roles\", current_user)\n head(403)\n end\n @role = Role.new(role_params)\n @role.user_id = current_user.id\n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: 'Role was successfully created.' }\n format.json { render :show, status: :created, location: @role }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n abilities = []\n client_application = current_user.client_application_id.to_s\n @abilities = Role.get_method_names.sort\n @role = Role.new(role_params)\n params[:role][:role_abilities].each do |ability|\n abilities << ability.to_sym\n end\n @role.role_abilities = [{\"action\"=> abilities, \"subject\"=>[:api]}]\n @role.client_application_id = client_application\n respond_to do |format|\n if @role.save\n format.html { redirect_to roles_path, notice: 'Role was successfully created.' }\n format.json { render :index, status: :created, location: @role }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def save_roles user\n user.add_role(params[:role_name])\n end", "def create\n @role = Role.new(params[:role])\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to admin_roles_path, notice: 'Role was successfully created.' }\n format.json { render json: @role, status: :created, location: @role }\n else\n format.html { render action: \"new\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(role_params)\n\n respond_to do |format|\n if role.save\n current_user.add_role :admin, role\n format.html { redirect_to admin_role_path(role), notice: 'Role was successfully created.' }\n format.json { render :show, status: :created, location: role }\n else\n format.html { render :new }\n format.json { render json: role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(role_params) \n @role.permissions = []\n @role.set_permissions(params[:permissions]) if params[:permissions]\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: 'Role was successfully created.' }\n format.json { render :show, status: :created, location: @role }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(role_params)\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: 'Role was successfully created.' }\n format.json { render :show, status: :created, location: @role }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(role_params)\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: 'Role was successfully created.' }\n format.json { render :show, status: :created, location: @role }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(role_params)\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: 'Role was successfully created.' }\n format.json { render :show, status: :created, location: @role }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @user = User.new(user_params)\n\n if roles = params[:user][:roles]\n roles.map { |r| r.downcase }.each do |role|\n unless role.empty?\n @user.roles << Role.new(type: role)\n\n if role == \"admin\"\n respond_to do |format|\n if @user.save\n format.html { redirect_to (flash[:redirect] || :attendees), notice: 'User was successfully created.' }\n format.json { render :show, status: :created, location: @user }\n else\n format.html { render :new }\n format.json { render json: @user.errors, status: :unprocessable_entity }\n end\n end\n end\n\n if role == \"staff\"\n redirect_to get_staff_list_path\n end\n\n end\n end\n end\n end", "def index\n authorize Role\n\n respond_to do |format|\n format.json { render json: @roles }\n end\n end", "def create\n @role = Role.new(params[:role])\n \n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: 'Role was successfully created.' }\n format.json { render json: @role, status: :created, location: @role }\n else\n format.html { render action: \"new\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(params[:role])\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: 'Role was successfully created.' }\n format.json { render json: @role, status: :created, location: @role }\n else\n format.html { render action: \"new\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @users_role = UsersRole.new(users_role_params)\n\n respond_to do |format|\n if @users_role.save\n format.html { redirect_to @users_role, notice: 'Users role was successfully created.' }\n format.json { render :show, status: :created, location: @users_role }\n else\n format.html { render :new }\n format.json { render json: @users_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create_roles\n Role.create_roles(self)\n end", "def create\n @roles_privilege = RolesPrivilege.new(roles_privilege_params)\n\n respond_to do |format|\n if @roles_privilege.save\n format.html { redirect_to @roles_privilege, notice: 'Roles privilege was successfully created.' }\n format.json { render :show, status: :created, location: @roles_privilege }\n else\n format.html { render :new }\n format.json { render json: @roles_privilege.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(params[:role])\n @role.save\n respond_with(@role)\n end", "def create_roles(roles_model)\n if roles_model.blank?\n raise LoginRadius::Error.new, getValidationMessage('roles_model')\n end\n\n query_parameters = {}\n query_parameters['apiKey'] = @api_key\n query_parameters['apiSecret'] = @api_secret\n\n resource_path = 'identity/v2/manage/role'\n post_request(resource_path, query_parameters, roles_model)\n end", "def create\n @role = Role.new(role_params)\n\n respond_to do |format|\n if @role.save\n format.html {\n redirect_to dashboard_path\n flash[:success] = @role.name+' was successfully created.' }\n format.json { render json: @role.to_json }\n else\n format.html { render action: 'new' }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(params[:role])\n\n respond_to do |format|\n if @client.roles << @role\n flash[:notice] = 'Role was successfully created.'\n format.html { redirect_to client_role_url(@client, @role) }\n format.xml { render :xml => @role, :status => :created, :location => [@client, @role] }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n @role = @company.roles.new(safe_params)\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to [@company, @role], notice: 'Role was successfully created.' }\n format.json { render :show, status: :created, location: @role }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n\n @roles_and_permission = @roles.roles_and_permission.new(params[:roles_and_permission])\n \n respond_to do |format|\n if @roles_and_permission.save\n format.html { redirect_to [@roles, @roles_and_permission ], notice: 'Roles and permission was successfully created.' }\n format.json { render json: @roles_and_permission, status: :created, location: @roles_and_permission }\n else\n format.html { render action: \"new\" }\n format.json { render json: @roles_and_permission.errors, status: :unprocessable_entity }\n end\n end\n end", "def render_create_success\n render json: @resource, include: [:roles], show_roles: true\n end", "def create\n @role = Role.new(params[:role])\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to edit_role_path(@role), :notice => t('hurricane.notice.create_record_success', :type => t_type) }\n format.json { render json: @role, status: :created, location: @role }\n else\n format.html { render action: \"new\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n respond_to do |format|\n if @role.save\n format.html { redirect_to user_roles_path(@user), notice: I18n.t('controller.create_success_notice', model: '角色') }\n format.json { render action: 'show', status: :created, location: @role }\n else\n format.html { render action: 'new' }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create_role(role_name, params = {})\n change_role_access(role_name, user_emails_to_ids(params), :post)\n end", "def create\n @admin_role = RoleUser.new(params[:role_user])\n\n respond_to do |format|\n if @admin_role.save\n format.html { redirect_to @role_users_path, notice: 'Role was successfully created.' }\n format.json { render json: @admin_role, status: :created, location: @admin_role }\n else\n format.html { render action: \"new\" }\n format.json { render json: @admin_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def new\n \n @roles_and_permission = @roles.roles_and_permission.new\n \n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @roles_and_permission }\n end\n end", "def create\n @role = System::Role.new(system_role_params)\n respond_to do |format|\n if @role.save\n format.html { redirect_to system_roles_url, notice: '添加角色成功.' }\n format.json { render :show, status: :created, location: @role }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new role_params\n flash[:notice] = 'Role was successfully created.' if @role.save\n respond_with @role\n end", "def create\r\n @role = Role.new(role_params)\r\n @role.save\r\n end", "def create\n \n if request.get?\n @role = Role.new\n else\n @role = Role.new(params[:role])\n\n # assign parent role\n if not params[:role][:parent].to_s.empty?\n @role.parent = Role.find(params[:role][:parent].to_i)\n end\n\n if @role.save\n # set the roles's static permissions to the static permission from the parameters \n params[:role][:static_permissions] = [] if params[:role][:static_permissions].nil?\n @role.static_permissions = params[:role][:static_permissions].collect { |i| StaticPermission.find(i) }\n\n # the above should be successful if we reach here; otherwise we \n # have an exception and reach the rescue block below\n flash[:success] = 'Role has been created successfully.'\n redirect_to :action => 'show', :id => @role.id\n else\n render :action => 'create'\n end\n end\n \n rescue ActiveRecord::RecordNotFound\n flash[:error] = 'You sent an invalid request.'\n redirect_to :action => 'list'\n end", "def save\n begin\n chef_server_rest.put(\"roles/#{@name}\", self)\n rescue Net::HTTPClientException => e\n raise e unless e.response.code == \"404\"\n\n chef_server_rest.post(\"roles\", self)\n end\n self\n end", "def create\n @roles = Role.paginate :page => params[:page],\n :per_page => 15,\n :order => sort_order('name')\n @role= Role.new(params[:role])\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to(roles_url, :notice => 'New User role successfully added.') }\n format.xml { render :xml => @role, :status => :created, :location => @role }\n else\n format.html { render :action => \"index\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n @entity_role = EntityRole.new(entity_role_params)\n\n respond_to do |format|\n if @entity_role.save\n format.html { redirect_to @entity_role, notice: 'Entity role was successfully created.' }\n format.json { render :show, status: :created, location: @entity_role }\n else\n format.html { render :new }\n format.json { render json: @entity_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(params[:role])\n\n @perms = params[:permissions[\"permissions\"]]\n if @perms != nil\n @permissions = @perms[\"permissions\"]\n end\n #logger.debug \"PERMISSIONS: #{@permissions.inspect}\"\n if @permissions == nil\n @role.read = 0\n @role.write = 0\n @role.execute = 0\n end\n if @permissions != nil\n if @permissions.include?(\"read\")\n @role.read = 1\n else\n @role.read = 0\n end\n if @permissions.include?(\"write\")\n @role.write = 1\n else\n @role.write = 0\n end\n if @permissions.include?(\"execute\")\n @role.execute = 1\n else\n @role.execute = 0\n end\n end\n \n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: t(:role_created) }\n format.json { render json: @role, status: :created, location: @role }\n else\n format.html { render action: \"new\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create_role(auth, server_id, name, color, hoist, mentionable, permissions, reason = nil)\n MijDiscord::Core::API.request(\n :guilds_sid_roles,\n server_id,\n :post,\n \"#{MijDiscord::Core::API::APIBASE_URL}/guilds/#{server_id}/roles\",\n { color: color, name: name, hoist: hoist, mentionable: mentionable, permissions: permissions }.to_json,\n Authorization: auth,\n content_type: :json,\n 'X-Audit-Log-Reason': reason\n )\n end", "def create\n @role = Role.new(params[:role])\n\n if @role.save\n redirect_to admin_roles_url\n else\n render :action => \"new\"\n end\n end", "def create\n error = ''\n \n if params[:roles]\n params[:roles].each do |role|\n @role = Role.new(role) unless role[:title].blank?\n error << model_errors(@role) unless @role.save\n end\n else\n @role = Role.new(params[:roles])\n error << model_errors(@role) unless @role.save\n end\n \n respond_to do |format|\n format.html do\n if error.blank?\n flash[:notice] = \"#{params[:roles].nil? ? 'Role has' : 'Roles have'} been created.\"\n redirect_back_or_default roles_path\n else\n flash[:error] = 'Oops, something went wrong.'\n @role.nil? ? render(:action => 'edit') : redirect_back_or_default(roles_path)\n end\n end\n \n format.js do\n if error.blank?\n flash.now[:notice] = \"#{params[:roles].nil? ? 'Role has' : 'Roles have'} been created.\"\n get_models\n render :action => 'index', :layout => false\n else\n flash.now[:error] = 'Oops, something went wrong.'\n render :action => 'edit', :layout => false\n end\n end\n end\n end", "def create\n @cms_role = Cms::Role.new(cms_role_params)\n\n respond_to do |format|\n if @cms_role.save\n format.html { redirect_to @cms_role, notice: 'Role was successfully created.' }\n format.json { render :show, status: :created, location: @cms_role }\n else\n format.html { render :new }\n format.json { render json: @cms_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create_role(client:, **data)\n create_object(type: 'Role', root: url_for(client), data: data)\n end", "def render_create_success\n render json: UserSerializer.new(@resource, include: [:roles]).serialized_json\n end", "def modify_roles(email, role)\n\t\tresponse = @client.execute(api_method: @service.acl.insert,\n\t\t\t\t\t parameters: {'calendarId' => ENV['NSCS_Calendar_ID']}, body: JSON.dump({role: role, scope: {type: \"user\", \"value\": email}}))\n\tend", "def create\n @movie_role = MovieRole.new(movie_role_params)\n\n respond_to do |format|\n if @movie_role.save\n format.html { redirect_to @movie_role, notice: 'Movie role was successfully created.' }\n format.json { render :show, status: :created, location: @movie_role }\n else\n format.html { render :new }\n format.json { render json: @movie_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n # rails 3 bug\n params[:user][:roles].reject!(&:blank?)\n @user = User.new(params[:user])\n respond_to do |format|\n if @user.save\n format.html { redirect_to users_url, notice: I18n.t(:new_user_notify, name: @user.name, role: @user.role_str ) }\n format.json { render json: @user, status: :created, location: @user }\n else\n format.html { render action: \"new\" }\n format.json { render json: @user.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @manage_admin = Manage::Admin.new(manage_admin_params)\n @admin_roles= @manage_admin.roles\n respond_to do |format|\n if @manage_admin.save\n\n # 保存角色信息\n roles_id=params[:roles]\n @manage_admin.roles_in_id=roles_id\n\n format.html { redirect_to @manage_admin, notice: \"成功创建管理员#{@manage_admin.nickname}.\" }\n\n format.json { render :show, status: :created, location: @manage_admin }\n else\n format.html { render :new }\n format.json { render json: @manage_admin.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n return unless check_permission\n\n @role = Role.new(role_params)\n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: 'Role was successfully created.' }\n else\n @users = User.all\n format.html { render :new }\n end\n end\n end", "def create\n @employees_role = EmployeesRole.create(employees_role_params)\n redirect_to employees_roles_path\n end", "def create\n submenu_item 'role_new'\n load_permissions\n ids=params[:permissions].select{|k,v| v=='1'}.map { |k,v| k.to_i } unless params[:permissions].nil?\n if ids.length > 0\n permissions=Permission.find(:all, :conditions => [\"id in (#{ids.join(',')})\"])\n params[:role][:permissions] = permissions\n @role = Role.new(params[:role])\n if @role.save\n flash[:notice] = \"创建角色成功\"\n redirect_to :action => 'index'\n else\n flash[:error] = \"创建角色失败\"\n render :action => 'new'\n end\n else\n flash[:error] = \"角色名或权限不能为空\"\n redirect_to :action => 'new'\n end\n\n end", "def create\n @security_agent_role = SecurityAgentRole.new(security_agent_role_params)\n\n respond_to do |format|\n if @security_agent_role.save\n format.html { redirect_to @security_agent_role, notice: 'Security agent role was successfully created.' }\n format.json { render :show, status: :created, location: @security_agent_role }\n else\n format.html { render :new }\n format.json { render json: @security_agent_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def role_params\n params.require(:role).permit(:name, :permission_ids => [])\n end", "def create\n @team_role = TeamRole.new(team_role_params)\n\n respond_to do |format|\n if @team_role.save\n format.html { redirect_to lab_team_roles_path(@lab), notice: 'Team role was successfully created.' }\n format.json { render action: 'show', status: :created, location: @team_role }\n else\n format.html { render action: 'new' }\n format.json { render json: @team_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @titan_role = TitanRole.new(titan_role_params)\n\n respond_to do |format|\n if @titan_role.save\n format.html { redirect_to @titan_role, notice: 'Titan role was successfully created.' }\n format.json { render :show, status: :created, location: @titan_role }\n else\n format.html { render :new }\n format.json { render json: @titan_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create(attrs, user = @@default_user)\n @attributes = send_request(\n \"organizations/#{attrs[:organization_id] || attrs['organization_id']}/roles\", :post\n ) do |req|\n req.body = {\n auth_token: user.auth_token\n }.merge(attrs.except(:organization_id, 'organization_id'))\n end\n end", "def seed_roles\n\tdata = ActiveSupport::JSON.decode(File.read('db/seeds/roles.json'))\n\tdata.each do |d|\n\t\tRole.create!(d)\n\tend\nend", "def create_roles\n ['admin', 'lector', 'jefe_calidad', 'jefe_bodega', 'op_bodega'].each do |role_name|\n Role.create!(name: role_name)\n end\nend", "def UpdateRole params = {}\n \n APICall(path: 'custom_roles.json',method: 'PUT',payload: params.to_json)\n \n end", "def create\n @company = Company.find(params[:company_id])\n @role = Role.new(params[:role])\n @role.company_id = @company.id\n respond_to do |format|\n if @role.save\n format.html { redirect_to company_role_path(@company, @role), notice: 'El rol fue creado exitosamente.' }\n format.json { render json: @role, status: :created, location: @role }\n else\n format.html { render action: \"new\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create_role(name, perms=nil)\n perms ||= []\n role = {\n :name => name,\n :permissions => perms,\n }\n post(\"/roles\", role)\n end", "def create\n @org_role = OrgRole.new(org_role_params)\n\n respond_to do |format|\n if @org_role.save\n format.html { redirect_to @org_role, notice: 'Org role was successfully created.' }\n format.json { render :show, status: :created, location: @org_role }\n else\n format.html { render :new }\n format.json { render json: @org_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def role_params\n params.require(:role).permit(:name, :active_status, :comment, :user_id, :del_status, :permissions => [])\n end", "def create\n @role = Role.new(params[:role])\n \n respond_to do |format|\n if @role.save\n format.html { redirect_to(@role, :notice => 'Role was successfully created.') }\n format.xml { render :xml => @role, :status => :created, :location => @role }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end", "def roles!(access = {})\n json = Api::Request.new do |request|\n request[:access] = access\n request[:method] = :GET\n request[:path] = '/mgmt/{{client_id}}/roles'\n end.execute!\n\n json[:roles]\n end", "def create_role(role_name, data = {})\n raise Auth0::MissingParameter, 'Must supply a valid role_name' if role_name.to_s.empty?\n\n data[:name] = role_name\n post roles_path.to_s, data\n end", "def create\n @required_role = RequiredRole.new(required_role_params)\n\n respond_to do |format|\n if @required_role.save\n format.html { redirect_to @required_role, notice: 'Required role was successfully created.' }\n format.json { render :show, status: :created, location: @required_role }\n else\n format.html { render :new }\n format.json { render json: @required_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create_employee_role(body:)\n # Prepare query url.\n _query_builder = config.get_base_uri\n _query_builder << '/v1/me/roles'\n _query_url = APIHelper.clean_url _query_builder\n\n # Prepare headers.\n _headers = {\n 'accept' => 'application/json',\n 'content-type' => 'application/json; charset=utf-8'\n }\n\n # Prepare and execute HttpRequest.\n _request = config.http_client.post(\n _query_url,\n headers: _headers,\n parameters: body.to_json\n )\n OAuth2.apply(config, _request)\n _response = execute_request(_request)\n\n # Return appropriate response type.\n decoded = APIHelper.json_deserialize(_response.raw_body)\n _errors = APIHelper.map_response(decoded, ['errors'])\n ApiResponse.new(\n _response, data: decoded, errors: _errors\n )\n end", "def create\n @user_role = UserRole.new(params[:user_role])\n\n respond_to do |format|\n if @user_role.save\n flash[:notice] = 'UserRole was successfully created.'\n format.html { redirect_to([:admin, @user_role]) }\n else\n format.html { render :action => \"new\" }\n end\n end\n end", "def create\n @screen = session.active_screen\n @form_content_reuse = params[:form_content_reuse]\n\n user_ids = params[:role][:user_ids]\n params[:role].delete(:user_ids) unless params[:role][:user_ids].nil?\n @role = Role.new(params[:role]) \n\n if @role.save\n @role.users = User.find(user_ids) unless user_ids.nil?\n @role.users.each{|u| u.update_attributes( :updated_at => Time.now ) }\n end\n \n respond_to do |format|\n format.html # create.html.erb\n format.xml { render :xml => @role }\n end\n end", "def create\n @user = User.new(params[:user])\n @roles = [Role.find_by_name(params[:user]['role'])]\n @user.person.attributes = (params[:person])\n @user.roles = @roles\n respond_to do |format|\n if @user.save\n flash[:notice] = 'User was successfully created.'\n format.html { redirect_to admin_users_url }\n format.xml { render :xml => @user, :status => :created, :location => @user }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @user.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n @user_to_role = UserToRole.new(user_to_role_params)\n\n respond_to do |format|\n if @user_to_role.save\n format.html { redirect_to @user_to_role, notice: 'User to role was successfully created.' }\n format.json { render :show, status: :created, location: @user_to_role }\n else\n format.html { render :new }\n format.json { render json: @user_to_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def role_params\n params.require(:role).permit(:name)\n end", "def role_params\n params.require(:role).permit(:name)\n end", "def role_params\n params.require(:role).permit(:name)\n end", "def create\n @opportunity_role = OpportunityRole.new(opportunity_role_params)\n\n\n @opportunity_role.save\n\n render json: @opportunity_role\n end", "def new\n @title = \"New User\"\n\n @user = User.new\n @user.user_roles.build\n respond_to do |format|\n format.html #new.html.erb\n format.js\n format.json { render json: @user }\n end\n end", "def get_user_roles\n @roles = @user.roles.pluck(:name)\n render json: @roles\n end", "def create\n @roles = Role.all\n random_password = Randomstring.generate(20)\n p = user_params\n p[:password] = random_password\n p[:password_confirmation] = random_password\n @user = User.new(p)\n\n respond_to do |format|\n if @user.save\n # Deliver the signup email\n ApplicationMailer.send_signup_email(@user, random_password).deliver_now\n format.html { redirect_to @user, notice: 'Benutzer wurde angelegt.' }\n format.json { render :show, status: :created, location: @user }\n\n else\n format.html { render :new }\n format.json { render json: @user.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(params[:role])\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to(@role, :notice => 'Role was successfully created.') }\n format.xml { render :xml => @role, :status => :created, :location => @role }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n\n @role = Role.create(params[:role])\n\n if @role.errors.empty?\n flash['notice'] = \"Role #{@role.display_name} added\"\n redirect_to :action => 'list'\n else\n flash['notice'] = @role.errors.full_messages.pop\n redirect_to :action => 'add'\n end\n \n end", "def role_params\n params.require(:role).permit(:name, :description, :user_id)\n end", "def post_authorization_roles_with_http_info(body, opts = {})\n if @api_client.config.debugging\n @api_client.config.logger.debug \"Calling API: AuthorizationApi.post_authorization_roles ...\"\n end\n \n \n # verify the required parameter 'body' is set\n fail ArgumentError, \"Missing the required parameter 'body' when calling AuthorizationApi.post_authorization_roles\" if body.nil?\n \n \n \n \n \n # resource path\n local_var_path = \"/api/v2/authorization/roles\".sub('{format}','json')\n\n # query parameters\n query_params = {}\n\n # header parameters\n header_params = {}\n\n # HTTP header 'Accept' (if needed)\n local_header_accept = ['application/json']\n local_header_accept_result = @api_client.select_header_accept(local_header_accept) and header_params['Accept'] = local_header_accept_result\n\n # HTTP header 'Content-Type'\n local_header_content_type = ['application/json']\n header_params['Content-Type'] = @api_client.select_header_content_type(local_header_content_type)\n\n # form parameters\n form_params = {}\n\n # http body (model)\n post_body = @api_client.object_to_http_body(body)\n \n auth_names = ['PureCloud OAuth']\n data, status_code, headers = @api_client.call_api(:POST, local_var_path,\n :header_params => header_params,\n :query_params => query_params,\n :form_params => form_params,\n :body => post_body,\n :auth_names => auth_names,\n :return_type => 'DomainOrganizationRole')\n if @api_client.config.debugging\n @api_client.config.logger.debug \"API called: AuthorizationApi#post_authorization_roles\\nData: #{data.inspect}\\nStatus code: #{status_code}\\nHeaders: #{headers}\"\n end\n return data, status_code, headers\n end", "def role_params\n params.require(:role).permit(:name, :resource_id, :resource_type)\n end", "def role_params\n params.require(:role).permit(:role_name)\n end", "def create\n @profile_role = ProfileRole.new(profile_role_params)\n\n respond_to do |format|\n if @profile_role.save\n format.html { redirect_to @profile_role, notice: 'Profile role was successfully created.' }\n format.json { render :show, status: :created, location: @profile_role }\n else\n format.html { render :new }\n format.json { render json: @profile_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create_role(token, server_id)\n request(\n __method__,\n :post,\n \"#{api_base}/guilds/#{server_id}/roles\",\n nil,\n Authorization: token\n )\n end", "def create\n @role = get_role\n flash[:notice] = t('create.success', :scope => get_i18n_scope) if @role.save and not request.xhr?\n respond_with @event, @role, :location => {:action => 'index'}\n end", "def role_params\n params.require(:role).permit(:name)\n end", "def add_user\n params[:roles] ||= []\n\n @team = Team.find(params[:id])\n authorize @team, :update?\n\n @user = User.find_or_invite(params[:email])\n\n roles = []\n roles << :admin if params[:roles].include? 'admin'\n roles << :member if params[:roles].include? 'member'\n roles.each do |role|\n @user.add_role role, @team\n end\n\n respond_to do |format|\n if @user.nil?\n format.html { redirect_to @team, notice: 'Could not find user' }\n format.json { render status: :unprocessable_entity }\n elsif roles.empty?\n format.html { redirect_to @team, notice: 'Please select at least one role' }\n format.json { render status: :unprocessable_entity }\n else\n format.html { redirect_to @team, notice: 'User was successfully added.' }\n format.json { head :no_content }\n end\n end\n end", "def create\n\n @user = User.new(params[:user])\n tutorRole = Role.find_by_name('tutor')\n @user.roles = [ tutorRole ]\n @user.save\n success = @user.save && @user.errors.empty?\n errors = @user.errors\n if(success) \n @tutor = Tutor.new()\n @tutor.user_id = @user.id\n success = @tutor.save && @tutor.errors.empty? \n errors = @tutor.errors\n if(! success)\n @user.delete\n end\n end\n\n @user.roles << Role[:tutor]\n \n respond_to do |format|\n if success\n flash[:notice] = 'Tutor was successfully created.'\n format.html { redirect_to(@tutor) }\n format.xml { render :xml => @tutor, :status => :created, :location => @tutor }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => errors, :status => :unprocessable_entity }\n end\n end\n end", "def add_role\n\n\t\t@roles = Role.new(role_params)\n\t\tif @roles.save\n\t\t\tredirect_to '/details'\n\t\telse\n\t\t\trender 'index'\n\t\tend\n\n\tend", "def grant_role\n @user = User.find_by_email(params[:email])\n @user.roles.append(Role.find_by_name(params[:role]))\n @user.save\n redirect_to action: :user_list\n end", "def create\n ActiveRecord::Base.transaction do\n @role, hash = fill_role(params[:role])\n\n respond_to do |format|\n if @role.save\n flash[:notice] = 'Role was successfully created.'\n format.html { redirect_to(@role) }\n format.xml { render :xml => @role, :status => :created, :location => @role }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end\n end", "def roles\n tmp = client.get @json['user']['links']['roles']\n tmp['associatedRoles']['roles'].pmap do |role_uri|\n role = client.get role_uri\n client.factory.create(GoodData::ProjectRole, role)\n end\n end", "def create_role_with_http_info(body, opts = {})\n\n if @api_client.config.debugging\n @api_client.config.logger.debug 'Calling API: RolesAPI.create_role ...'\n end\n # verify the required parameter 'body' is set\n if @api_client.config.client_side_validation && body.nil?\n fail ArgumentError, \"Missing the required parameter 'body' when calling RolesAPI.create_role\"\n end\n # resource path\n local_var_path = '/api/v2/roles'\n\n # query parameters\n query_params = opts[:query_params] || {}\n\n # header parameters\n header_params = opts[:header_params] || {}\n # HTTP header 'Accept' (if needed)\n header_params['Accept'] = @api_client.select_header_accept(['application/json'])\n # HTTP header 'Content-Type'\n header_params['Content-Type'] = @api_client.select_header_content_type(['application/json'])\n\n # form parameters\n form_params = opts[:form_params] || {}\n\n # http body (model)\n post_body = opts[:debug_body] || @api_client.object_to_http_body(body)\n\n # return_type\n return_type = opts[:debug_return_type] || 'RoleCreateResponse'\n\n # auth_names\n auth_names = opts[:debug_auth_names] || [:apiKeyAuth, :appKeyAuth, :AuthZ]\n\n new_options = opts.merge(\n :operation => :create_role,\n :header_params => header_params,\n :query_params => query_params,\n :form_params => form_params,\n :body => post_body,\n :auth_names => auth_names,\n :return_type => return_type,\n :api_version => \"V2\"\n )\n\n data, status_code, headers = @api_client.call_api(Net::HTTP::Post, local_var_path, new_options)\n if @api_client.config.debugging\n @api_client.config.logger.debug \"API called: RolesAPI#create_role\\nData: #{data.inspect}\\nStatus code: #{status_code}\\nHeaders: #{headers}\"\n end\n return data, status_code, headers\n end", "def add_role\n @user = User.find(params[:id])\n if @user\n if @user.has_role? params[:role]\n render json: { :success => 'user already has this role' }\n else\n @user.add_role params[:role]\n render json: { :success => 'successfully add role' }\n end\n else\n render json: { errors: \"user does not exist\" }, status: :unprocessable_entity\n end\n end", "def create\n @account = Account.new(alumnis_params)\n\n respond_to do |format|\n if @account.save\n @account.add_role 'alumni'\n format.html { redirect_to admin_accounts_alumnis_path, notice: 'Alumni was successfully created.' }\n format.json { render :show, status: :created, location: @account }\n else\n format.html { render :new }\n format.json { render json: @account.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @team_user_role = TeamUserRole.new(team_user_role_params)\n\n respond_to do |format|\n if @team_user_role.save\n format.html { redirect_to @team_user_role, notice: 'Team user role was successfully created.' }\n format.json { render :show, status: :created, location: @team_user_role }\n else\n format.html { render :new }\n format.json { render json: @team_user_role.errors, status: :unprocessable_entity }\n end\n end\n end" ]

[ "0.75822115", "0.74311465", "0.7038971", "0.70284665", "0.69493437", "0.6907223", "0.68323594", "0.67238265", "0.66556704", "0.665271", "0.665271", "0.665271", "0.6631873", "0.66185933", "0.66181964", "0.6614256", "0.6601928", "0.6589104", "0.65649295", "0.6543354", "0.65310216", "0.65169674", "0.6511089", "0.650406", "0.6498088", "0.64966875", "0.64695203", "0.6428504", "0.6412007", "0.6407534", "0.6402496", "0.637538", "0.6372149", "0.6362412", "0.63600194", "0.63503987", "0.63503146", "0.6337041", "0.6316326", "0.62962306", "0.6279992", "0.62675816", "0.6263163", "0.6261386", "0.62517303", "0.62322134", "0.62186855", "0.62095034", "0.6206154", "0.6182744", "0.6181309", "0.61684334", "0.61641943", "0.6157239", "0.6132408", "0.61295503", "0.6120828", "0.6120423", "0.611417", "0.610882", "0.6107493", "0.6090475", "0.60883766", "0.6076532", "0.60763764", "0.6072243", "0.6071815", "0.60687315", "0.6048944", "0.6029515", "0.6027143", "0.6021426", "0.60174805", "0.6011326", "0.6011326", "0.6011326", "0.6003434", "0.59954864", "0.5993921", "0.59851176", "0.5984687", "0.59836894", "0.5982754", "0.59784544", "0.5973716", "0.5965726", "0.5964961", "0.5964031", "0.59620327", "0.5956837", "0.59506494", "0.5950346", "0.5944671", "0.59420645", "0.59395826", "0.5938512", "0.5935312", "0.5931691", "0.59288067", "0.5921644" ]

[ "def edit_role(id, *roles)\n request(:put, \"/users/#{id}.json\", default_params(:role_ids => roles))\n end", "def UpdateRole params = {}\n \n APICall(path: 'custom_roles.json',method: 'PUT',payload: params.to_json)\n \n end", "def update\n @role = Role.find(params[:id])\n @role.update_attributes(params[:role])\n respond_with(@role)\n end", "def update\n @role = @client.roles.find(params[:id])\n\n respond_to do |format|\n if @role.update_attributes(params[:role])\n flash[:notice] = 'Role was successfully updated.'\n format.html { redirect_to client_role_url(@client, @role) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n @role = Role.find(params[:id])\n \n respond_to do |format|\n if @role.update_attributes(params[:role])\n format.html { redirect_to @role, notice: 'Role was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @role = Role.find(params[:id])\n \n respond_to do |format|\n if @role.update_attributes(params[:role])\n format.html { redirect_to @role, notice: 'Role was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @role = Role.find_by_name(params[:name])\n \n respond_to do |format|\n @role.authorities = Authority.find_by_name(params[:authority_names])\n format.html { redirect_to(my_gem_role_path(@role.name),\n :notice => 'Role was successfully updated.') }\n format.xml { head :ok }\n end\n end", "def update_role(id, name)\n current_path = \"/api/v1/roles/#{id}/update\"\n payload = { 'new_name' => name }.to_json\n @conn.put(current_path, payload)\n end", "def update(role, id = @id, user = @@default_user)\n @attributes = send_request(\"roles/#{id}\", :put) do |req|\n req.body = {\n role: role,\n auth_token: user.auth_token\n }\n end\n end", "def update\n if !grant_access(\"alter_roles\", current_user)\n head(403)\n end\n @role.user_id = current_user.id\n @role.start_point = false if !params[:role][:start_point]\n respond_to do |format|\n if @role.update(role_params)\n format.html { redirect_to @role, notice: 'Role was successfully updated.' }\n format.json { render :show, status: :ok, location: @role }\n else\n format.html { render :edit }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update(value, options = {})\n id = value[:ID] || value['ID']\n raise Diplomat::IdParameterRequired if id.nil?\n\n role_name = value[:Name] || value['Name']\n raise Diplomat::NameParameterRequired if role_name.nil?\n\n custom_params = use_cas(@options)\n @raw = send_put_request(@conn, [\"/v1/acl/role/#{id}\"], options, value, custom_params)\n if @raw.status == 200\n parse_body\n elsif @raw.status == 400\n raise Diplomat::RoleMalformed, @raw.body\n else\n raise Diplomat::UnknownStatus, \"status #{@raw.status}: #{@raw.body}\"\n end\n end", "def update\n respond_to do |format|\n if @role.update_attributes(params[:role])\n format.html { redirect_to admin_roles_path, notice: 'Role was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def save\n begin\n chef_server_rest.put(\"roles/#{@name}\", self)\n rescue Net::HTTPClientException => e\n raise e unless e.response.code == \"404\"\n\n chef_server_rest.post(\"roles\", self)\n end\n self\n end", "def edit_roles\n if (@user = find_user(params[:id]))\n begin\n User.transaction(@user) do\n \n roles = params[:user][:roles].collect { |role_id| Role.find(role_id) }\n # add any new roles & remove any missing roles\n roles.each { |role| @user.roles << role if !@user.roles.include?(role) }\n @user.roles.each { |role| @user.roles.delete(role) if !roles.include?(role) }\n\n @user.save\n flash[:notice] = \"Roles updated for user '#{@user.login}'.\"\n end\n rescue\n flash[:warning] = 'Roles could not be edited at this time. Please retry.'\n ensure\n redirect_to :back\n end\n else\n redirect_back_or_default :action => 'list'\n end\n end", "def update\n respond_to do |format|\n if role.update(role_params) && update_users_roles\n format.html { redirect_to admin_role_path(role), notice: 'Role was successfully updated.' }\n format.json { render :show, status: :ok, location: role }\n else\n format.html { render :edit }\n format.json { render json: role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n abilities = []\n params[:role][:role_abilities].each do |ability|\n abilities << ability.to_sym\n end\n @role.role_abilities = [{\"action\"=> abilities, \"subject\"=>[:api]}]\n respond_to do |format|\n if @role.update(role_params)\n format.html { redirect_to roles_path, notice: 'Role was successfully updated.' }\n format.json { render :show, status: :ok, location: @role }\n else\n format.html { render :edit }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @role = Role.find(params[:id])\n\n respond_to do |format|\n if @role.update_attributes(params[:role])\n format.html { redirect_to edit_role_path(@role), :notice => t('hurricane.notice.update_record_success', :type => t_type)}\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @user.roles=params[\"user\"][\"roles\"]\n respond_to do |format|\n if @user.update(event_params)\n format.html { redirect_to users_path, notice: 'User roles change successfully' }\n format.json { render :show, status: :ok, location: @user }\n else\n format.html { render :edit }\n format.json { render json: @user.errors, status: :unprocessable_entity }\n end\n end\n end", "def update_role\n @user = User.find( params[:id] )\n @user.update_attributes(params[:user])\n redirect_to users_path\n end", "def update\n @user = User.find(params[:id])\n params[:user][:roles].reject!(&:blank?)\n respond_to do |format|\n if @user.update_attributes(params[:user])\n format.html { redirect_to users_url, notice: 'User was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @user.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\r\n @role = Role.find(params[:id])\r\n \r\n if @role.update_attributes(params[:role])\r\n msg= \"Role updated successfully!\"\r\n else\r\n msg= \"Role update failed!\"\r\n end\r\n redirect_to roles_path, :flash => { :notice => msg }\r\n end", "def update\n respond_to do |format|\n if @role.update(role_params)\n format.html { redirect_to @role, notice: 'Role was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @role = Role.find(params[:id])\n \n @perms = params[:permissions[\"permissions\"]]\n if @perms != nil\n @permissions = @perms[\"permissions\"]\n end\n #logger.debug \"PERMISSIONS: #{@permissions.inspect}\"\n if @permissions == nil\n @role.read = 0\n @role.write = 0\n @role.execute = 0\n end\n if @permissions != nil\n if @permissions.include?(\"read\")\n @role.read = 1\n else\n @role.read = 0\n end\n if @permissions.include?(\"write\")\n @role.write = 1\n else\n @role.write = 0\n end\n if @permissions.include?(\"execute\")\n @role.execute = 1\n else\n @role.execute = 0\n end\n end\n\n respond_to do |format|\n if @role.update_attributes(params[:role])\n format.html { redirect_to @role, notice: t(:role_updated) }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update_role\n\t\t@role = Role.find(params[:id])\n\n\t \trespond_to do |format|\n\t\t if @role.update_attributes(role_update_params)\n\t\t format.html { redirect_to(@role, :notice => 'Entry was successfully updated.') }\n\t\t format.json { respond_with_bip(@role) }\n\t\t else\n\t\t format.html { render :action => \"edit\" }\n\t\t format.json { respond_with_bip(@role) }\n\t\t end\n\n \t end\n\tend", "def update\n respond_to do |format|\n if @role.update(role_params)\n format.html { redirect_to @role, notice: 'Role was successfully updated.' }\n format.json { render :show, status: :ok, location: @role }\n else\n format.html { render :edit }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @role.update(role_params)\n format.html { redirect_to @role, notice: 'Role was successfully updated.' }\n format.json { render :show, status: :ok, location: @role }\n else\n format.html { render :edit }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @role.update(role_params)\n format.html { redirect_to @role, notice: t('success_update') }\n format.json { render :show, status: :ok, location: @role }\n else\n format.html { render :edit }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @role = Role.find(params[:id])\n\n respond_to do |format|\n if @role.update_attributes(params[:role])\n format.html { redirect_to(@role, :notice => 'Role was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n @role = Role.find(params[:id])\n\n respond_to do |format|\n if @role.update_attributes(params[:role])\n format.html { redirect_to(@role, :notice => 'Role was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @role.update(system_role_params)\n format.html { redirect_to system_roles_url, notice: '更新角色成功.' }\n format.json { render :index, status: :ok, location: @role }\n else\n format.html { render :edit }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @admin_role = Role.find(params[:id])\n\n respond_to do |format|\n if @admin_role.update_attributes(params[:admin_role])\n format.html { redirect_to @admin_role, notice: 'Role was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @admin_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @role.attributes = params[:role]\n respond_to do |format|\n if @role.save\n flash[:notice] = 'Role was successfully updated.'\n format.html { redirect_to role_url(@role.code) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @role.errors.to_xml }\n end\n end\n end", "def update_role\n @user = User.find(params[:id])\n\n # Limit access to authorized users\n authorize! :manage, @user\n\n @user.admin = params[:admin_role]\n respond_to do |format|\n if @user.save\n format.json { head :no_content }\n else\n format.json { render json: @user.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @role.update(role_params)\n format.html { redirect_to @role, notice: 'Role was successfully updated.' }\n format.json { render :show, status: :ok, location: @role }\n else\n format.html { render :edit }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @user = User.find(params[:user_id])\n @role = Role.find(params[:id])\n unless @user.has_role?(@role.name)\n @user.roles << @role\n end\n redirect_to :action => 'index'\n end", "def update\n authorize(current_user)\n role = params[:user][:role_ids]\n roleModel =Role.find( role)\n if @user.setRole roleModel.name\n @user.save\n redirect_to users_path, :notice => \"Rolle geändert\"\n else\n redirect_to users_path, :notice => \"Rolle nicht geändert\"\n end\n end", "def update\n flash[:notice] = 'Role was successfully updated.' if @role.update_attributes role_params\n respond_with @role\n end", "def update\n @role = Role.find(params[:id])\n\n if @role.update_attributes(params[:role])\n redirect_to admin_roles_url\n else\n render :action => \"edit\"\n end\n end", "def update\n ActiveRecord::Base.transaction do\n @role, hash = fill_role(Role.find(params[:id]), params[:role])\n\n respond_to do |format|\n if @role.update_attributes(hash) && @role.save\n flash[:notice] = 'Role was successfully updated.'\n format.html { redirect_to(@role) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end\n end", "def edit_role\n @user = User.find(params[:id])\n @roles = Role.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @user }\n end\n end", "def update\n resource.update_attributes params[params_key], as: current_role\n respond_with resource\n end", "def set_role\n @role = RoleMaster.find_by_id(params[:id])\n if @role\n else\n \trender json: { valid: false}, status: 404\n end\n end", "def update\n @role = Role.find(params[:role][:id])\n\n if @role.update_attributes(params[:role])\n flash['notice'] = 'Role was successfully updated.'\n redirect_to :action => 'edit', \n :id => params[:role][:id]\n else\n flash['notice'] = 'Role not updated'\n redirect_to :action => 'edit', \n :id => params[:role][:id]\n end\n \n\n end", "def update\n authorize! :assign_roles, @user if params[:user][:assign_roles]\n if @user.update_attributes(params[:user])\n redirect_to @user, notice: 'User was successfully updated.'\n else\n render \"edit\"\n end\n end", "def update\n @user = User.find(params[:user_id])\n @roles = Role.all\n \n if current_user.is_admin?\n @user.roles.clear\n @roles.each do |role|\n if (params[:role][:role][role.rolename][:hasrole].to_s == 1.to_s)\n @user.roles << role\n end\n end\n else\n @roles.each do |role|\n if !role.admin_only\n if @user.has_role?(role.rolename)\n @user.roles.destroy(role)\n end\n if (params[:role][:role][role.rolename][:hasrole].to_s == 1.to_s)\n @user.roles << role\n end\n end\n end\n end\n \n flash[:notice] = I18n.t(\"user.success.roles_updated\")\n reload_page\n \n end", "def update\n @roles = Role.all\n\n role = user_params[:role_id] ? user_params[:role_id] : @user.role_id\n if user_params[:password].empty?\n new_params = { :role_id => role,\n :first_name => user_params[:first_name],\n :last_name => user_params[:last_name],\n :email => user_params[:email],\n :telephone => user_params[:telephone] }\n else\n new_params = { :role_id => role,\n :first_name => user_params[:first_name],\n :last_name => user_params[:last_name],\n :email => user_params[:email],\n :telephone => user_params[:telephone],\n :password => user_params[:password],\n :password_confirmation => user_params[:password_confirmation] }\n end\n p = new_params\n respond_to do |format|\n if @user.update(p)\n format.html { redirect_to @user, notice: 'Benutzerdaten wurden aktualisiert.' }\n format.json { render :show, status: :ok, location: @user }\n else\n format.html { render :edit }\n format.json { render json: @user.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n \n if request.get?\n @role = Role.find(params[:id].to_i)\n else\n @role = Role.find(params[:id].to_i)\n\n # set parent role\n if not params[:role][:parent].to_s.empty?\n @role.parent = Role.find(params[:role][:parent])\n else\n @role.parent = nil\n end\n\n # get an array of static permissions and set the permission associations\n params[:role][:static_permissions] = [] if params[:role][:static_permissions].nil?\n permissions = params[:role][:static_permissions].collect { |i| StaticPermission.find(i) }\n @role.static_permissions = permissions\n\n if @role.update_attributes(params[:role])\n flash[:success] = 'Role has been updated successfully.'\n redirect_to :action => 'show', :id => @role\n else\n render :action => 'update'\n end\n end\n \n rescue RecursionInTree\n @role.errors.add :parent, \"must not be a descendant of itself\"\n render :action => 'update'\n rescue ActiveRecord::RecordNotFound\n flash[:error] = 'You sent an invalid request.'\n redirect_to :action => 'list'\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def update\n respond_to do |format|\n if @role.update_attributes(params[:role])\n flash[:notice] = 'Role was successfully updated.'\n format.html { redirect_to(role_path(@role.slug)) }\n format.xml { head :ok }\n else\n format.html { render \"edit\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end", "def set_role\r\n @role = Role.find(params[:id])\r\n end", "def change_role(role)\n role_list.each do |old_role|\n remove_role old_role\n end\n puts role\n add_role role\n puts roles\n end", "def update\n respond_to do |format|\n if @role.update(role_params)\n format.html {\n redirect_to dashboard_path\n flash[:success] = @role.name+' was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @company = Company.find(params[:company_id])\n @role = Role.find(params[:id])\n \n respond_to do |format|\n if @role.update_attributes(params[:role])\n format.html { redirect_to company_role_path(@company, @role), notice: 'El rol fue editado exitosamente.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @role.permissions = []\n @role.set_permissions(params[:permissions]) if params[:permissions]\n respond_to do |format|\n if @role.update(role_params)\n format.html { redirect_to @role, notice: 'Role was successfully updated.' }\n format.json { render :show, status: :ok, location: @role }\n else\n format.html { render :edit }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update_role(role_id, data = {})\n raise Auth0::MissingParameter, 'Must supply a valid role_id' if role_id.to_s.empty?\n\n patch \"#{roles_path}/#{role_id}\", data\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def set_role\n @role = Role.find(params[:id])\n end", "def update_role(token, server_id, role_id, name, colour, hoist = false, mentionable = false, packed_permissions = 36_953_089)\n request(\n __method__,\n :patch,\n \"#{api_base}/guilds/#{server_id}/roles/#{role_id}\",\n { color: colour, name: name, hoist: hoist, mentionable: mentionable, permissions: packed_permissions }.to_json,\n Authorization: token,\n content_type: :json\n )\n end", "def update\n # @roles = Role.all\n params[:user][:role_ids] ||= []\n puts json: user_params\n respond_to do |format|\n if @user.update(user_params)\n format.html { redirect_to [:admin, @user], notice: 'User was successfully updated.' }\n format.json { render :show, status: :ok, location: @user }\n else\n format.html { redirect_to edit_admin_user_path(@user), alert: @user.errors.full_messages().join(', ') }\n format.json { render json: @user.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @role.update(safe_params)\n format.html { redirect_to [@company, @role], notice: 'Role was successfully updated.' }\n format.json { render :show, status: :ok, location: @role }\n else\n format.html { render :edit }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def set_role\n @role = Role.find(params[:id]) if params[:id].present?\n end", "def update_role(auth, server_id, role_id, name, color, hoist, mentionable, permissions, reason = nil)\n MijDiscord::Core::API.request(\n :guilds_sid_roles_rid,\n server_id,\n :patch,\n \"#{MijDiscord::Core::API::APIBASE_URL}/guilds/#{server_id}/roles/#{role_id}\",\n {\n color: color, name: name, hoist: hoist,\n mentionable: mentionable, permissions: permissions\n }.delete_if {|_, v| v.nil? }.to_json,\n Authorization: auth,\n content_type: :json,\n 'X-Audit-Log-Reason': reason\n )\n end", "def update_roles(roles)\n self.roles |= roles\n self.save!\n end", "def save_roles user\n user.add_role(params[:role_name])\n end", "def update\n respond_to do |format|\n if @users_role.update(users_role_params)\n format.html { redirect_to @users_role, notice: 'Users role was successfully updated.' }\n format.json { render :show, status: :ok, location: @users_role }\n else\n format.html { render :edit }\n format.json { render json: @users_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n load_permissions\n ids = params[:permissions].select {|k, v| v == \"1\"}.map {|k,v| k.to_i }\n if ids.length > 0\n permissions = Permission.find(:all, :conditions => [\"id in (#{ids.join(',')})\"])\n @role = Role.find(params[:id])\n params[:role][:permissions] = permissions\n if @role.update_attributes(params[:role])\n flash[:notice] = \"修改角色成功\"\n redirect_to :action => 'index'\n else\n flash[:error] = '修改角色失败'\n redirect_to :action => 'edit', :id => @role.id\n end\n else\n flash[:error] = \"角色名或权限不能为空\"\n redirect_to :action => 'edit', :id => @role.id\n end\n end", "def modify_roles(email, role)\n\t\tresponse = @client.execute(api_method: @service.acl.insert,\n\t\t\t\t\t parameters: {'calendarId' => ENV['NSCS_Calendar_ID']}, body: JSON.dump({role: role, scope: {type: \"user\", \"value\": email}}))\n\tend", "def update\n respond_to do |format|\n if @role.update_attributes(role_params)\n flash[:notice] = 'Role was successfully updated.'\n format.html { redirect_to(role_path(@role.slug)) }\n format.xml { head :ok }\n else\n format.html { render \"edit\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update_role(optional={})\n\t\targs = self.class.new_params\n\t\targs[:query]['Action'] = 'UpdateRole'\n\t\targs[:region] = optional[:_region] if (optional.key? :_region)\n\t\targs[:scheme] = 'https'\n\t\tif optional.key? :_method\n\t\t\traise ArgumentError, '_method must be GET|POST' unless 'GET|POST'.split('|').include? optional[:_method]\n\t\t\targs[:method] = optional[:_method]\n\t\tend\n\t\tif optional.key? :new_assume_role_policy_document\n\t\t\targs[:query]['NewAssumeRolePolicyDocument'] = optional[:new_assume_role_policy_document]\n\t\tend\n\t\tif optional.key? :role_name\n\t\t\targs[:query]['RoleName'] = optional[:role_name]\n\t\tend\n\t\tself.run(args)\n\tend", "def update\n respond_to do |format|\n if @sys_role.update(sys_role_params)\n format.html { redirect_to @sys_role, notice: 'Sys role was successfully updated.' }\n format.json { render :show, status: :ok, location: @sys_role }\n else\n format.html { render :edit }\n format.json { render json: @sys_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @lab_role = LabRole.find(params[:id])\n\n respond_to do |format|\n if @lab_role.update_attributes(params[:lab_role])\n format.html { redirect_to @lab_role, notice: 'Lab role was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @lab_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @user = User.find_by(email: params[:user][:email])\n @user.roles = params[:user][:roles]\n respond_to do |format|\n if @user.update(user_params)\n format.html { redirect_to root_path, notice: 'User was successfully updated.' }\n # format.json { render :show, status: :ok, location: @user }\n else\n format.html { render :edit }\n format.json { render json: @user.errors, status: :unprocessable_entity }\n end\n end\n end", "def set_role\n role = Role.find_by_name(user_params[:role]) rescue nil\n role ? user_params_with_role(role) :\n (render json: { status: 400, error: \"Mention a proper Role for User\" })\n end", "def update\n respond_to do |format|\n if @org_role.update(org_role_params)\n format.html { redirect_to @org_role, notice: 'Org role was successfully updated.' }\n format.json { render :show, status: :ok, location: @org_role }\n else\n format.html { render :edit }\n format.json { render json: @org_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @team_role.update(team_role_params)\n format.html { redirect_to lab_team_roles_path(@lab), notice: 'Team role was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @team_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @role.update(role_params)\n @role.permissions = params[:role][:permission].map do |key, value|\n index = value[\"index\"] == \"1\" ? true : false\n index = true if value[\"new\"] == \"1\" || value[\"edit\"] == \"1\" || value[\"remove\"] == \"1\"\n Permission.update(value[\"id\"], :index => index, :new => value[\"new\"], :edit => value[\"edit\"], :remove => value[\"remove\"], :import => value[\"import\"])\n end\n format.html { redirect_to management_roles_path }\n format.json { render json: @role, status: :ok }\n else\n format.html { render :edit }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @required_role.update(required_role_params)\n format.html { redirect_to @required_role, notice: 'Required role was successfully updated.' }\n format.json { render :show, status: :ok, location: @required_role }\n else\n format.html { render :edit }\n format.json { render json: @required_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @roles_and_permission = @roles.roles_and_permission.find(params[:id])\n\n respond_to do |format|\n if @roles_and_permission.update_attributes(params[:roles_and_permission])\n format.html { redirect_to [@roles,@roles_and_permission], notice: 'Roles and permission was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @roles_and_permission.errors, status: :unprocessable_entity }\n end\n end\n end", "def set_user_role(role)\n role_id = Role.where(role_type: role).first.id\n self.update_attributes(role_id: role_id) \n end", "def update\n @user_role = UserRole.find(params[:id])\n\n respond_to do |format|\n if @user_role.update_attributes(params[:user_role])\n flash[:notice] = 'UserRole was successfully updated.'\n format.html { redirect_to([:admin, @user_role]) }\n else\n format.html { render :action => \"edit\" }\n end\n end\n end" ]

[ "0.73883325", "0.7328734", "0.71556437", "0.7143024", "0.7127945", "0.7085617", "0.69865286", "0.6953493", "0.6936841", "0.69317037", "0.6862839", "0.68599266", "0.6855699", "0.6850963", "0.6815799", "0.68097216", "0.680326", "0.67881626", "0.6777378", "0.6759132", "0.67518514", "0.6749898", "0.6743721", "0.674341", "0.67385143", "0.67385143", "0.6736561", "0.67261046", "0.67261046", "0.666092", "0.66550696", "0.6652414", "0.6652295", "0.6642869", "0.66259134", "0.6603401", "0.6587859", "0.6578259", "0.657262", "0.65627295", "0.6549493", "0.6541448", "0.65400964", "0.65314424", "0.65312636", "0.6530568", "0.65119636", "0.65081733", "0.65081733", "0.65081733", "0.65081733", "0.65081733", "0.65081733", "0.65081733", "0.65081733", "0.6501428", "0.6497558", "0.64967203", "0.6496304", "0.6494823", "0.6490575", "0.64669937", "0.6440077", "0.6440077", "0.6440077", "0.6440077", "0.6440077", "0.6440077", "0.6440077", "0.6440077", "0.6440077", "0.6440077", "0.6440077", "0.6440077", "0.6440077", "0.6440077", "0.64386445", "0.643306", "0.6431893", "0.6430314", "0.64249223", "0.64193904", "0.6417028", "0.6406739", "0.6397948", "0.63927144", "0.6367333", "0.6362418", "0.63597554", "0.6346679", "0.6342329", "0.6341154", "0.6340364", "0.63350934", "0.632938", "0.6323326", "0.63158387", "0.63156664", "0.63053966", "0.62857723" ]

[ "def destroy\n @role = Role.find(params[:id])\n @role.destroy\n \n respond_to do |format|\n format.html { redirect_to roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n @role = Role.find(params[:id])\n @role.destroy\n\n respond_to do |format|\n format.html { redirect_to roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n @role = @client.roles.find(params[:id])\n @role.destroy\n\n respond_to do |format|\n flash[:notice] = 'Role was successfully removed.' \n format.html { redirect_to(client_roles_url(@client)) }\n format.xml { head :ok }\n end\n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n chef_server_rest.delete(\"roles/#{@name}\")\n end", "def destroy\n @admin_role = Role.find(params[:id])\n @admin_role.destroy\n\n respond_to do |format|\n format.html { redirect_to admin_roles_url }\n format.json { head :no_content }\n end\n end", "def DeleteRole id\n \n APICall(path: \"custom_roles/#{id}.json\",method: 'DELETE')\n \n end", "def destroy\n @rol.destroy\n respond_to do |format|\n format.html { redirect_to roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n role.destroy\n respond_to do |format|\n format.html { redirect_to admin_roles_url, notice: 'Role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n if !grant_access(\"alter_roles\", current_user)\n head(403)\n end\n @role.destroy\n respond_to do |format|\n format.html { redirect_to roles_url, notice: 'Role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to dashboard_path }\n format.json { head :no_content }\n end\n end", "def destroy\n @role = Role.find(params[:id])\n @role.destroy\n\n respond_to do |format|\n format.html { redirect_to roles_url , :notice => t('hurricane.notice.delete_record_success', :type => t_type)}\n format.json { head :no_content }\n end\n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to roles_url, notice: 'Role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to roles_url, notice: 'Role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to roles_url, notice: 'Role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to roles_url, notice: 'Role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to roles_url, notice: 'Role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to roles_url, notice: 'Role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to system_roles_url, notice: '删除角色成功.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role = Role.find(params[:id])\n @role.destroy\n\n respond_to do |format|\n format.html { redirect_to(roles_url) }\n format.xml { head :ok }\n end\n end", "def destroy\n @role = Role.find(params[:id])\n @role.destroy\n\n respond_to do |format|\n format.html { redirect_to(roles_url) }\n format.xml { head :ok }\n end\n end", "def destroy\n @roles_and_permission = @roles.roles_and_permission.find(params[:id])\n @roles_and_permission.destroy\n\n respond_to do |format|\n format.html { redirect_to roles_and_permissions_url }\n format.json { head :no_content }\n end\n end", "def delete(id = @id, user = @@default_user)\n @attributes = send_request(\"roles/#{id}\", :delete) do |req|\n req.body = {\n auth_token: user.auth_token\n }\n end\n end", "def destroy\n @user = User.find(params[:user_id])\n @role = Role.find(params[:id])\n if @user.has_role?(@role.name)\n @user.roles.delete(@role)\n end\n respond_to do |format|\n format.html {redirect_to :action => 'index' }\n format.xml { head :ok }\n end\n \n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to company_roles_url(@company), notice: 'Role was successfully removed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @core_user_role.destroy\n respond_to do |format|\n format.html { redirect_to core_user_roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n @lab_role = LabRole.find(params[:id])\n @lab_role.destroy\n\n respond_to do |format|\n format.html { redirect_to lab_roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n @role = Role.find(params[:id])\n \n @users = User.find_by_role_id(@role.id)\n respond_to do |format|\n if @users == nil\n @role.destroy\n format.html { redirect_to roles_url, :notice => t(:role_deleted) }\n format.json { head :no_content }\n else\n format.html { redirect_to roles_url, :alert => t(:role_inuse) }\n format.json { head :no_content }\n end\n end\n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to management_roles_url, notice: 'Perfil was successfully removed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @user = User.find params[:user_id]\n @role = Role.find params[:id]\n\n @user.roles.delete @role\n flash[:notice] = 'Assigment was successfully destroyed.'\n\n respond_to do |format|\n format.html { redirect_to :back }\n format.xml { head :ok }\n end\n end", "def destroy\n @users_role.destroy\n respond_to do |format|\n format.html { redirect_to users_roles_url, notice: 'Users role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @ministerial_role.destroy\n respond_to do |format|\n format.html { redirect_to ministerial_roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n @role = Role.find(params[:id])\n @role.destroy\n respond_with(@role)\n end", "def destroy\r\n @role.destroy\r\n respond_to do |format|\r\n format.html { redirect_to \"index\", notice: 'Role was successfully destroyed.' }\r\n format.json { head :no_content }\r\n end\r\n end", "def destroy\n @roles_privilege.destroy\n respond_to do |format|\n format.html { redirect_to roles_privileges_url, notice: 'Roles privilege was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @rolid = params[:id]\n Role.destroy(@rolid)\n end", "def destroy\n @company = Company.find(params[:company_id])\n @role = Role.find(params[:id])\n @role.destroy\n \n respond_to do |format|\n format.html { redirect_to company_roles_path(@company) }\n format.json { head :no_content }\n end\n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to user_roles_path }\n format.js\n format.json { head :no_content }\n end\n end", "def destroy\n @role = Role.find_by_id(params[:id])\n @role.destroy\n\n respond_to do |format|\n format.html { redirect_to(roles_url, :notice => \"User role removed.\") }\n format.xml { head :ok }\n end\n end", "def destroy\n @required_role.destroy\n respond_to do |format|\n format.html { redirect_to required_roles_url, notice: 'Required role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @user_role = UserRole.find(params[:id])\n @user_role.destroy\n\n respond_to do |format|\n format.html { redirect_to(user_roles_url) }\n format.xml { head :ok }\n end\n end", "def destroy\n @role = Role.find(params[:id])\n @role.destroy\n\n respond_to do |format|\n format.html { redirect_to(blog_roles_url(@blog)) }\n format.xml { head :ok }\n end\n end", "def destroy\n @app_role = AppRole.find(params[:id])\n @app_role.destroy\n\n respond_to do |format|\n format.html { redirect_to app_roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n @userrole = Userrole.find(params[:id])\n @userrole.destroy\n\n respond_to do |format|\n format.html { redirect_to(userroles_url) }\n format.xml { head :ok }\n end\n end", "def destroy\n @user_role = UserRole.find(params[:id])\n @user_role.destroy\n\n respond_to do |format|\n format.html { redirect_to(admin_user_roles_url) }\n end\n end", "def destroy\n @role.destroy\n\n redirect_to roles_path\n end", "def destroy\n @master_role.destroy\n respond_to do |format|\n format.html { redirect_to master_roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n ActiveRecord::Base.transaction do\n @role = Role.find(params[:id])\n @role.destroy\n\n respond_to do |format|\n format.html { redirect_to(roles_url) }\n format.xml { head :ok }\n end\n end\n end", "def destroy\n @titan_role.destroy\n respond_to do |format|\n format.html { redirect_to titan_roles_url, notice: 'Titan role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role_type = RoleType.find(params[:id])\n @role_type.destroy\n\n respond_to do |format|\n format.html { redirect_to(roles_url) }\n format.xml { head :ok }\n end\n end", "def destroy\n @role_user = RolesUser.find(params[:id])\n @role_user.destroy\n\n respond_to do |format|\n format.html { redirect_to(roles_users_url) }\n format.xml { head :ok }\n end\n end", "def destroy\n @mg_role.destroy\n respond_to do |format|\n format.html { redirect_to mg_roles_url, notice: 'Mg role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @cms_role.destroy\n respond_to do |format|\n format.html { redirect_to cms_roles_url, notice: 'Role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @lab_permissions_role = LabPermissionsRole.find(params[:id])\n @lab_permissions_role.destroy\n\n respond_to do |format|\n format.html { redirect_to lab_permissions_roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n @team_role.destroy\n respond_to do |format|\n format.html { redirect_to lab_team_roles_path(@lab) }\n format.json { head :no_content }\n end\n end", "def destroy\n @role_user = RoleUser.find(params[:id])\n @role_user.destroy\n\n respond_to do |format|\n format.html { redirect_to(role_users_url) }\n format.xml { head :ok }\n format.json { render :text => '{status: \"success\"}'}\n end\n end", "def destroy\n @sys_role.destroy\n respond_to do |format|\n format.html { redirect_to sys_roles_url, notice: 'Sys role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @org_role.destroy\n respond_to do |format|\n format.html { redirect_to org_roles_url, notice: 'Org role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @profile_role.destroy\n respond_to do |format|\n format.html { redirect_to profile_roles_url, notice: 'Profile role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @entity_role.destroy\n respond_to do |format|\n format.html { redirect_to entity_roles_url, notice: 'Entity role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @project_role = ProjectRole.find(params[:id])\n @project_role.destroy\n\n respond_to do |format|\n format.html { redirect_to project_roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n @role_funcion.destroy\n respond_to do |format|\n format.html { redirect_to role_funcions_url }\n format.json { head :no_content }\n end\n end", "def destroy\n return unless check_permission\n\n @role.destroy\n respond_to do |format|\n format.html { redirect_to roles_url, notice: 'Role was successfully destroyed.' }\n end\n end", "def destroy\n @sulabh_user_role.destroy\n respond_to do |format|\n format.html { redirect_to sulabh_user_roles_url, notice: 'Sulabh user role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @operations_role = OperationsRole.find(params[:id])\n @operations_role.destroy\n\n respond_to do |format|\n format.html { redirect_to(operations_roles_url) }\n format.xml { head :ok }\n end\n end", "def destroy\n @role.destroy\n respond_to do |format|\n flash[:notice] = 'Role was successfully destroyed.'\n format.html { redirect_to roles_url }\n format.xml { head :ok }\n end\n end", "def destroy \r\n @role = Role.find(params[:id])\r\n if @role.destroy\r\n msg= \"Role deleted successfully!\"\r\n else\r\n msg= \"Role delete failed!\"\r\n end\r\n redirect_to roles_path, :flash => { :notice => msg }\r\n end", "def destroy\n @user_to_role.destroy\n respond_to do |format|\n format.html { redirect_to user_to_roles_url, notice: 'User to role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role_auth_ref.destroy\n respond_to do |format|\n format.html { redirect_to role_auth_refs_url, notice: 'Role auth ref was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @movie_role.destroy\n respond_to do |format|\n format.html { redirect_to movie_roles_url, notice: 'Movie role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @venue_role.destroy\n respond_to do |format|\n format.html { redirect_to venue_roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n @security_agent_role.destroy\n respond_to do |format|\n format.html { redirect_to security_agent_roles_url, notice: 'Security agent role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @team_user_role.destroy\n respond_to do |format|\n format.html { redirect_to team_user_roles_url, notice: 'Team user role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def delete\n @role = Role.find(params[:id].to_i)\n \n if request.get?\n # render only\n else\n if not params[:yes].nil?\n @role.destroy\n flash[:success] = 'The role has been deleted successfully.'\n redirect_to :action => 'list'\n else\n flash[:success] = 'The role has not been deleted.'\n redirect_to :action => 'show', :id => params[:id]\n end\n end\n\n rescue CantDeleteWithChildren\n flash[:error] = \"You have to delete or move the role's children before attempting to delete the role itself.\"\n redirect_to :action => 'show', :id => params[:id]\n rescue ActiveRecord::RecordNotFound\n flash[:error] = 'This role could not be found.'\n redirect_to :action => 'list'\n end", "def destroy\n @role_menu.destroy\n respond_to do |format|\n format.html { redirect_to role_menus_url, notice: 'Role menu was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def delete(role:, type:)\n\t\t\t\t\tconnection.post(build_path('removeRoles'), nil, roleNames: [role].flatten.join(','),\n\t\t\t\t\t\ttype: type).code == '200'\n\t\t\t\tend", "def destroy\n @user = User.find(params[:id])\n @user.transaction do\n @user.user_roles.destroy_all\n @user.update_attribute(:admin, false)\n end\n respond_to do |format|\n format.html { redirect_to admin_roles_path }\n format.json { head :no_content }\n end\n end", "def destroy\n\n\nrol = Role.where(:id=>current_user.role).first\n if rol.nombre == \"ACRM\"\n\n @status_del_admitido = StatusDelAdmitido.find(params[:id])\n @status_del_admitido.destroy\nelse\n flash[:error] ='No tienes permiso para realizar esta accion'\n\nend\n \n \n\n respond_to do |format|\n format.html { redirect_to status_del_admitidos_url }\n format.json { head :ok }\n end\n end", "def destroy\n @user_space_role = UserSpaceRole.find(params[:id])\n @user_space_role.destroy\n\n respond_to do |format|\n format.html { redirect_to(user_space_roles_url) }\n format.xml { head :ok }\n end\n end", "def delete_role(optional={})\n\t\targs = self.class.new_params\n\t\targs[:query]['Action'] = 'DeleteRole'\n\t\targs[:region] = optional[:_region] if (optional.key? :_region)\n\t\targs[:scheme] = 'https'\n\t\tif optional.key? :_method\n\t\t\traise ArgumentError, '_method must be GET|POST' unless 'GET|POST'.split('|').include? optional[:_method]\n\t\t\targs[:method] = optional[:_method]\n\t\tend\n\t\tif optional.key? :role_name\n\t\t\targs[:query]['RoleName'] = optional[:role_name]\n\t\tend\n\t\tself.run(args)\n\tend", "def delete\n @role = Role.find(params[:id])\n \n if request.get?\n # render only\n else\n if not params[:yes].nil?\n @role.destroy\n flash[:success] = 'The role has been deleted successfully.'\n redirect_to roles_path\n else\n flash[:success] = 'The role has not been deleted.'\n redirect_to role_path(Role.find(params[:id]))\n end\n end\n\n rescue CantDeleteWithChildren\n flash[:error] = \"You have to delete or move the role's children before attempting to delete the role itself.\"\n redirect_to role_path(Role.find(params[:id]))\n rescue ActiveRecord::RecordNotFound\n flash[:error] = 'This role could not be found.'\n redirect_to roles_path\n end", "def destroy\n\n\n\nrol = Role.where(:id=>current_user.role).first\n if rol.nombre == \"ACRM\"\n \n \n @rpm = Rpm.find(params[:id])\n @rpm.destroy\nelse\n flash[:error] ='No tienes permiso para realizar esta accion'\n\nend\n\n respond_to do |format|\n format.html { redirect_to rpms_url }\n format.json { head :ok }\n end\n end", "def destroy\n @role_privilege.destroy\n respond_to do |format|\n format.html { redirect_to role_privileges_url, notice: 'Veza je usšešno obrisana.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role_in_a_movie = RoleInAMovie.find(params[:id])\n @role_in_a_movie.destroy\n\n respond_to do |format|\n format.html { redirect_to role_in_a_movies_url }\n format.json { head :ok }\n end\n end", "def destroy\n\n @role.stop_user_id = session[:user_id]\n @role.stoped_at = DateTime.now\n @role.state = \"N\"\n @role.save\n respond_to do |format|\n format.html { redirect_to roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n\n\n\nrol = Role.where(:id=>current_user.role).first\n if rol.nombre == \"ACRM\"\n @role_permision = RolePermision.find(params[:id])\n @role_permision.destroy\nelse\n flash[:error] ='No tienes permiso para realizar esta accion'\n\nend\n \n \n\n respond_to do |format|\n format.html { redirect_to role_permisions_url }\n format.json { head :ok }\n end\n end", "def destroy\n @role_types = RoleTypes.find(params[:id])\n @role_types.destroy\n\n respond_to do |format|\n format.html { redirect_to(role_types_url) }\n format.xml { head :ok }\n end\n end", "def destroy\n @role.destroy\n\n flash[:notice] = \"Role successfully destroyed.\"\n\n redirect_to roles_path\n end", "def destroy\n @primary_role = PrimaryRole.find(params[:id])\n @primary_role.destroy\n\n respond_to do |format|\n format.html { redirect_to(primary_roles_url) }\n format.xml { head :ok }\n end\n end", "def destroy\n @admin_role_ref.destroy\n respond_to do |format|\n format.html { redirect_to admin_role_refs_url, notice: 'Admin role ref was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @all_subject_role.destroy\n respond_to do |format|\n format.html { redirect_to all_subject_roles_url, notice: 'All subject role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def delete\n @role = get_role\n respond_with @event, @role\n end", "def destroy\n @worship_role.destroy\n respond_to do |format|\n format.html { redirect_to worship_roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n respond_to do |format|\n if @role.destroy\n format.html { redirect_to(@role) }\n format.js { render (:update) {|page| page[dom_id_nested(:item, @role)].remove() } }\n else\n flash[:notice] = 'Role was not deleted.'\n format.html { redirect_to roles_path }\n format.js { render (:update) { |page| page.alert(\"Cannot delete role #{@role.name}\") }}\n end\n end\n end", "def destroy\n @role_permission.destroy\n respond_to do |format|\n format.html { redirect_to role_permissions_url, notice: 'Role permission was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @page_role = PageRole.find(params[:id])\n @page_role.destroy\n\n respond_to do |format|\n format.html { redirect_to(page_roles_url) }\n format.xml { head :ok }\n format.json { render :text => '{status: \"success\"}'}\n end\n end", "def remove_role\n if @user.has_role? params[:role]\n @user.remove_role params[:role]\n render json: { :success => 'role successfully removed' } \n else \n render json: { :success => 'The user does not have this role' }\n end\n end", "def destroy\n @opportunity_role = OpportunityRole.find(params[:id])\n @opportunity_role.destroy\n\n head :no_content\n end", "def destroy\n @rolepermission.destroy\n respond_to do |format|\n format.html { redirect_to rolepermissions_url, notice: 'Rolepermission was successfully destroyed.' }\n format.json { head :no_content }\n end\n end" ]

[ "0.7583307", "0.7525977", "0.7523992", "0.75092655", "0.74943435", "0.7418692", "0.738887", "0.73744464", "0.73679906", "0.7358079", "0.731516", "0.72902375", "0.72487247", "0.72487247", "0.72487247", "0.72487247", "0.72487247", "0.72487247", "0.723153", "0.7230734", "0.7230734", "0.7227224", "0.7214308", "0.7201804", "0.7190927", "0.7176644", "0.7172197", "0.71712434", "0.71385014", "0.71350145", "0.7122198", "0.7118499", "0.71058774", "0.7089155", "0.7087749", "0.70845425", "0.70701665", "0.7060278", "0.7054008", "0.704454", "0.70406395", "0.7035393", "0.7030372", "0.7029945", "0.69881266", "0.6987008", "0.6973966", "0.69712913", "0.6946726", "0.6942139", "0.6940438", "0.693974", "0.69389564", "0.69330245", "0.69206357", "0.6885514", "0.6866661", "0.6866472", "0.68619406", "0.68404496", "0.6839539", "0.6839066", "0.68311864", "0.68264455", "0.6813777", "0.681195", "0.681107", "0.68033737", "0.68023103", "0.6792266", "0.67918336", "0.67917085", "0.67913747", "0.67847526", "0.6784274", "0.6781957", "0.67783487", "0.67668307", "0.6758518", "0.673304", "0.6731809", "0.67282045", "0.67267746", "0.6725402", "0.67175996", "0.6707149", "0.67005694", "0.66993773", "0.6698467", "0.6694398", "0.66940075", "0.6686707", "0.6666152", "0.66604584", "0.66567355", "0.66524935", "0.6648225", "0.6644455", "0.6630613" ]

[ "def city_openings(start, ending)\n open_listing = []\n self.listings.each do |listing|\n if listing.available?(start, ending)\n open_listing << listing\n end\n end\n open_listing\n end", "def city_openings(start_date, end_date)\n Listing.find_openings(listings, Date.parse(start_date), Date.parse(end_date))\n end", "def city_openings(start_date, end_date)\n listings.collect do |listing|\n reservations_in_range = listing.reservations.collect do |reservation|\n reservation.checkin <= end_date.to_date && reservation.checkout >= start_date.to_date\n end\n listing unless reservations_in_range.include?(true)\n end\n end", "def city_openings(start_date, end_date)\n date_range = (Date.parse(start_date)..Date.parse(end_date))\n listings.collect do |listing|\n available = true\n listing.booked_dates.each do |date|\n if date_range === date\n available = false\n end\n end\n listing if available\n end\n end", "def city_openings(start_date, end_date)\n self.listings.each do |listing|\n listing.reservations.each do |res|\n start_date <= res.checkout.to_s && end_date <= res.checkin.to_s\n end\n end\n end", "def neighborhood_openings(start_date, end_date)\n openings = []\n self.listings.each do |listing|\n listing.reservations.each do |r|\n booked_dates = r.checkin..r.checkout\n unless booked_dates === start_date || booked_dates === end_date\n openings << listing\n end\n end\n end\n return openings\n end", "def neighborhood_openings(start_date, end_date)\n Listing.find_openings(listings, Date.parse(start_date), Date.parse(end_date))\n end", "def neighborhood_openings(start_date, end_date)\n self.listings.select {|l| l.reservations.where(\"checkout < start_date OR checkin > end_date\")}\n end", "def neighborhood_openings(start_date, end_date)\n openings(start_date, end_date)\n end", "def listings\n return @listings ||= build_all_listings\n end", "def listings\n return @listings ||= build_all_listings\n end", "def listings\n return @listings ||= build_all_listings\n end", "def is_listing\n\t\t\tall.select do |city|\n\t\t\t\tcity.listings.any?\n\t\t\tend\n\t\tend", "def find_entries(building)\n @buildings_nearby = building.nearbys(3)\n end", "def listings\n list = []\n venues = Venue.all.select {|venue|venue.area_id == self.id}\n venue_ids = venues.map {|venue| venue.id}\n Listing.all.select do |listing|\n if venue_ids.any?(listing.venue_id)\n list << listing\n end\n end\n list\n end", "def index\n if user_signed_in?\n @listings = Listing.where(\n [\"location = :location or visibility = :visibility\",{\n location: current_user.zip_code.to_s.to_region(city: true),\n visibility: \"global\" }]).where(status: \"pending\")\n else\n @listings = Listing.open_global\n end\n end", "def index\n @building = Building.find(params[:building_id])\n @listings = Listing.all\n end", "def index\n @listings = Listing.search(params[:search], params[:city])\n end", "def active_listings\n @active_listings ||= Listing.find_all_active_by_category(category_name)\n end", "def search\n\t\t\n\t\t@check_in = params[:reservation][:check_in]\n\t\t@check_out = params[:reservation][:check_out]\n\t\t@city = params[:city]\n\t\t# This function returns an array of listing ids that clash with input date\n\t\tx = find_listings(params[:reservation][:check_in],params[:reservation][:check_out])\n\t\t# Remove all similar ids\n\t\tx = x.uniq\n\n\t\t# All the clashed listing in an active record object\n\t\tclashed_listings = Listing.find(x)\n\t\t@listings = Listing.all\n\t\t# All the listings that is available during date range\n\t\tfiltered_listings_date = @listings - clashed_listings\n\t\t# Put listings id in an array\n\t\tarray = filtered_listings_date.map{|x| x.id}\n\t\t# Convert back into active record objects\n\t\tfiltered_listings_date = Listing.where(id: array)\n\t\t@filtered_listings = filtered_listings_date.where(city: params[:city])\n\t\t\n\t\t@filtered_listings_length = @filtered_listings.length\n\t\t# Pagination \n\t\t@filtered_listings = @filtered_listings.order(:title).page params[:page]\n\n\n\tend", "def listings\n @listings = trips.select do |trip|\n trip.listings\n end\n end", "def closed_lists\n List.closed(id)\n end", "def index\n @buildings = Building.find_near_me(search_params)\n end", "def list_buildings(buildings)\n \tbuildings.each do |place|\n\t\tputs \"#{buildings.index(place)}: #{place}\"\n\tend\nend", "def browse\n\t\t@listings = Listings.find(:all)\n\tend", "def index\n @params = params.permit(:building, :floor)\n \n @buildings = Place.distinct.pluck(:building)\n @floors = Place.where(building:params[:building]).distinct.order(:floor).pluck(:floor) if @params[:building]\n @current_user_place = current_user.place\n if @params[:building] && @params[:floor]\n @cells = Place.where(building: @params[:building], floor: @params[:floor]).order(:room, :id).includes(:user).group_by{|i| i.cell}\n end\n end", "def listings\n @listings ||= page.parser.css('.listing-findcar')\n end", "def open_lists\n List.open(id)\n end", "def serve_listing_data\n @listings = Listing.open.joins(:origin_loc).group(\"listings.id\").\n order(\"listings.created_at DESC\").find_with(params, @current_user, @current_community).select(\"listings.id, listing_type, category\")\n render :json => { :data => @listings }\n end", "def cities\n gallaries.map{|place| place.city}\n\n end", "def listings(location_id = nil)\n method_url = @resource + \"/\" + location_id + \"/listings\"\n params = {}\n return self.get(method_url, params)\n end", "def onsite_holdings\n holdings.select do |holding|\n !is_offsite_location_code?(holding[:location_code])\n # !LOCATIONS['offsite_locations'].include? holding[:location_code]\n end\n end", "def available_floorplans(search=nil)\n @available_floorplans ||= begin\n if search\n search.floorplans_for(self).joins(:units).where(\"units.rent_min > 0\")\n else\n self.floorplans.joins(:units).\n where(\"units.rent_min > 0\").\n order('name','bedrooms_count, bathrooms_count').\n group(\"floorplans.id\")\n end\n end\n end", "def get_list_cities\n City.get_all_cities\n end", "def city_list(url)\n\troot = Nokogiri::HTML(open(url))\n list = root.css(\"a\").map do |link|\n\n\t\t# This makes sure that we only store actual links, then stores the text & link for each valid link in an array.\n\n if link[:href] =~ /http/ \n [link.text, link[:href]] \n end \n end\n\n\t# This cleans up the array and gets rid of nil elements\n\n\tlist = list.reject {|x| x.nil?} \n\t\t\n\t## Here we have various sections of CL that we can search in for various gigs. \n\t## If you wanted to see more software development stuff, you may search in /sof and /eng\n\t\n\t\t\n\t# list.map! {|f,l| [f, l + \"/cpg/\"]}\n\t# list.map! {|f,l| [f, l + \"/web/\"]}\n\tlist.map! {|f,l| [f, l + \"/web/\", l + \"/cpg/\"]}\t\n\t# list.map! {|f,l| [f, l + \"/web/\", l + \"/cpg/\", l + \"/eng/\", l + \"/sof/\", l + \"/sad/\"]}\n\t\nend", "def listings\n\t\t@current_user ||= User.find(session[:user_id]) if session[:user_id]\n\t\t@listings = Listing.find_all_by_user_id(@current_user)\n\tend", "def bound_with_holdings\n @bound_with_holdings ||= holdings.select { |holding| holding['boundWith'].present? || (holding.dig('holdingsType', 'name') || holding.dig('location', 'effectiveLocation', 'details', 'holdingsTypeName')) == 'Bound-with' }.map do |holding|\n parent_item = holding.dig('boundWith', 'item') || {}\n parent_holding = holding.dig('boundWith', 'holding')\n parent_holding ||= holding\n\n item_location_code = parent_item.dig('location', 'temporaryLocation', 'code') if parent_item.dig('location', 'temporaryLocation', 'details', 'searchworksTreatTemporaryLocationAsPermanentLocation') == 'true'\n item_location_code ||= parent_item.dig('location', 'permanentLocation', 'code')\n item_location_code ||= parent_holding.dig('location', 'effectiveLocation', 'code')\n\n library_code, home_location_code = LocationsMap.for(item_location_code)\n _current_library, current_location = LocationsMap.for(parent_item.dig('location', 'temporaryLocation', 'code'))\n current_location ||= Folio::StatusCurrentLocation.new(parent_item).current_location\n\n SirsiHolding.new(\n id: parent_item['id'],\n call_number: holding['callNumber'],\n scheme: call_number_type_map(holding.dig('callNumberType', 'name')),\n # parent item's barcode\n barcode: parent_item['barcode'] || \"#{hrid.sub(/^a/, '')}-#{(all_holdings.index(holding) + 1).to_s.ljust(3, '0')}1\",\n # parent item's current location or SEE-OTHER (SAL3)\n # For the SAL3 logic, see https://consul.stanford.edu/display/MD/Bound+withs\n # When the bound-with item is in SAL3, both the Home and Current Locations on the child records should always be SEE-OTHER.\n current_location: library_code == 'SAL3' ? nil : (current_location unless current_location == home_location_code).presence,\n # parent item's permanent location or SEE-OTHER (SAL3)\n home_location: library_code == 'SAL3' ? 'SEE-OTHER' : home_location_code,\n # parent item's library\n library: library_code\n )\n end\n end", "def find_listings(params, listings_per_page, filter_params, includes)\n Maybe(@current_community.categories.find_by_url_or_id(params[:category])).each do |category|\n filter_params[:categories] = category.own_and_subcategory_ids\n @selected_category = category\n end\n\n filter_params[:search] = params[:q] if params[:q]\n filter_params[:custom_dropdown_field_options] = HomepageController.dropdown_field_options_for_search(params)\n filter_params[:custom_checkbox_field_options] = HomepageController.checkbox_field_options_for_search(params)\n\n filter_params[:price_cents] = filter_range(params[:price_min], params[:price_max])\n\n p = HomepageController.numeric_filter_params(params)\n p = HomepageController.parse_numeric_filter_params(p)\n p = HomepageController.group_to_ranges(p)\n numeric_search_params = HomepageController.filter_unnecessary(p, @current_community.custom_numeric_fields)\n\n filter_params = filter_params.reject {\n |_, value| (value == \"all\" || value == [\"all\"])\n } # all means the filter doesn't need to be included\n\n checkboxes = filter_params[:custom_checkbox_field_options].map { |checkbox_field| checkbox_field.merge(type: :selection_group, operator: :and) }\n dropdowns = filter_params[:custom_dropdown_field_options].map { |dropdown_field| dropdown_field.merge(type: :selection_group, operator: :or) }\n numbers = numeric_search_params.map { |numeric| numeric.merge(type: :numeric_range) }\n\n # wah: restricted marketplace or open marketplace\n availability_for_sphinx = {}\n if @restrictedMarketplace\n availability = [\"trusted\", \"all\"]\n availability_for_sphinx[:availability_restricted_marketplace] = true\n @pooltool_specific_page = true\n\n elsif @marketplace_with_trusted_devs\n availability = [\"intern\", \"trusted\"]\n availability_for_sphinx[:availability_not_intern] = true\n @pooltool_specific_page = true\n else\n availability = [\"all\", nil]\n availability_for_sphinx[:availability_marketplace] = true\n end\n\n search = {\n # Add listing_id\n categories: filter_params[:categories],\n listing_shape_ids: Array(filter_params[:listing_shape]),\n price_cents: filter_params[:price_cents],\n keywords: filter_params[:search],\n fields: checkboxes.concat(dropdowns).concat(numbers),\n per_page: listings_per_page,\n page: Maybe(params)[:page].to_i.map { |n| n > 0 ? n : 1 }.or_else(1),\n price_min: params[:price_min],\n price_max: params[:price_max],\n locale: I18n.locale,\n include_closed: false,\n availability: availability, # wah_new\n }\n\n # wah: Add availability for sphinx search\n search.merge!(availability_for_sphinx)\n\n\n raise_errors = Rails.env.development?\n\n res = ListingIndexService::API::Api.listings.search(\n community_id: @current_community.id,\n search: search,\n includes: includes,\n engine: search_engine,\n raise_errors: raise_errors\n )\n\n # wah: Filter results based on marketplace type\n listings_restrictedMarketplace = []\n if @restrictedMarketplace\n # get all listings which should be shown - at the moment only external listings\n # remove comment from allowed_authors = ... to add also internal listings\n if @current_user # if logged in, then show devices from followers.\n allowed_authors = @current_user.get_company.followers.as_json\n allowed_authors << @current_user.get_company.as_json\n else # show devices from no one...\n allowed_authors = []\n end\n\n allowed_authors.each do |follower|\n res.data[:listings].each do |search_listing|\n if search_listing[:author][:id] == follower[\"id\"]\n listings_restrictedMarketplace << search_listing\n end\n end\n end\n\n res.data[:listings] = listings_restrictedMarketplace\n res.data[:count] = listings_restrictedMarketplace.count\n else\n end\n\n pushBackListingsWithoutImage(res) if res.data\n\n return_ = res.and_then { |res|\n Result::Success.new(\n ListingIndexViewUtils.to_struct(\n result: res,\n includes: includes,\n page: search[:page],\n per_page: search[:per_page]\n ))\n }\n\n # log search as rentog event (but only if there is really a search or filter)\n if filter_params[:custom_dropdown_field_options] != [] ||\n filter_params[:custom_checkbox_field_options] != [] ||\n filter_params[:price_cents] != nil\n\n person_id_ = @current_user.id if @current_user\n visitor_id_ = @visitor.id if @visitor\n ev = RentogEvent.new(person_id: person_id_, visitor_id: visitor_id_, event_name: \"marketplace_search_or_filter\", event_details: filter_params.to_s, event_result: res.data[:count], send_to_admins: false)\n ev.save\n end\n\n return_\n\n end", "def get_listing(listing_id)\n query_and_build \"marketplace/listings/#{listing_id}\"\n end", "def get_listings_xml(url)\n @client.get_content(url)\n end", "def list_cities\n list_galleries.map do |gallery|\n gallery.city\n end\n end", "def pullingListingAddress(buildingURL, listing)\n buildingDocContact = Nokogiri::HTML(open(URI.parse(buildingURL + \"/contact\")))\n buildingDocDetails = Nokogiri::HTML(open(URI.parse(buildingURL + \"/features\")))\n buildingDocImages = Nokogiri::HTML(open(URI.parse(buildingURL + \"/media\")))\n #REMEMBER TO ADD BROOKLYN INTO THIS!!!!!\n contactText = buildingDocContact.css(\"#community-contact-text\")\n #contactText.css(\"p\")[1].text\n #puts buildingDocImages.css(\".slides\").css(\"img\").length\n #puts buildingDocImages.css(\".slides\").css(\"img\")\n listing[:images] = []\n countInt = 0 #used for image count\n while (countInt < (buildingDocImages.css(\".slides\").css(\"img\").length)/2) do #too many photos so i cut in half\n listing[:images] << { origin_url: buildingDocImages.css(\".slides\").css(\"img\")[countInt][\"src\"] }\n countInt = countInt + 1\n end\n #retrieve_images(buildingDocImages, listing)\n #puts contactText.css(\"p\")[2].text\n #puts buildingDocContact.css(\".phone-number\")\n if listing[:description] = buildingDocDetails.css(\".row.feature\").css(\"p\").css(\"span\")[0] != nil\n listing[:description] = buildingDocDetails.css(\".row.feature\").css(\"p\").css(\"span\")[0].text\n end\n listing[:amenities] = []\n #listing[:amenities] <<\n #puts (buildingDocDetails.css(\".row.feature\").css(\"#li_cont2\")).length\n listing[:contact_name] = \"Bozzuto Management\"\n\n if contactText.css(\"p\")[1].text.include?(\"New York\")\n matchText = (/New York, /).match(contactText.css(\"p\")[1].text)\n #Save one match text as string to enable string manipulations\n matchTextString = matchText.to_s\n listing[:title] = (matchText.pre_match).to_s #Street Address, but the matching part is like \"New York, \"\n listing[:city_name] = ((/, /).match(matchTextString).pre_match).to_s\n listing[:state_name] = (((/ /).match((matchText.post_match).to_s)).pre_match).to_s\n listing[:zipcode] = (((/ /).match((matchText.post_match).to_s)).post_match).to_s\n end\n if contactText.css(\"p\")[1].text.include?(\"Hoboken\")\n #((/Hoboken, /) === (contactText.css(\"p\")[1].text))\n matchText = (/Hoboken, /).match(contactText.css(\"p\")[1].text)\n #Save one match text as string to enable string manipulations\n matchTextString = (matchText.pre_match).to_s\n listing[:title] = matchText.pre_match\n listing[:raw_neighborhood] = \"Hoboken\"\n listing[:city_name] = \"Jersey City\"\n listing[:state_name] = (((/ /).match((matchText.post_match).to_s)).pre_match).to_s\n listing[:zipcode] = (((/ /).match((matchText.post_match).to_s)).post_match).to_s\n end\n if contactText.css(\"p\")[1].text.include?(\"Brooklyn\")\n matchText = (/Brooklyn, /).match(contactText.css(\"p\")[1].text)\n #Save one match text as string to enable string manipulations\n matchTextString = (matchText.pre_match).to_s\n listing[:title] = matchText.pre_match\n listing[:city_name] = \"Brooklyn\"\n listing[:state_name] = (((/ /).match((matchText.post_match).to_s)).pre_match).to_s\n listing[:zipcode] = (((/ /).match((matchText.post_match).to_s)).post_match).to_s\n end\n listing\n end", "def index\n @floor_plans = @location.floor_plans\n end", "def all_buildings\n @all_buildings ||= Buildings.new( ranges, fill_gaps: true )\n end", "def fetch_stations(state)\n\n scraper_logger.info(\"Fetching stations for #{state.name}\")\n\n doc = Nokogiri::HTML(open(state.url))\n doc.css('a').each do |s|\n\n Global::OBSERVATION_PRODUCT_CODE.each do |c|\n if s.attr('href').include?(c) and s.attr('href').include?(state.product_group)\n extract_station(s.attr('href'), state)\n end\n end\n\n end\n\n scraper_logger.info(\"Completed fetching stations for #{state.name}\")\n\n end", "def index\n places = Place.active\n q = params[:q]\n if q\n # Sanitize the q param and find in 'tags' table, and then all matching places\n # tag = Tag.find_by(name: to_tag(q))\n places = Place.active.joins(:tags).where(tags: { name: to_tag(q) })\n end\n\n if params.key?(:open_now)\n now = Time.now.utc + (params[:tz_offset] || 0).to_i # This creates a UTC timezone that is adjusted to the local clock\n places = places.select { |p| open_now?(p.opening_hours, now, now) || open_now?(p.opening_hours, now, now - 1.day) }\n end\n render json: { 'places': places.map(&:short_data) }\n end", "def listings\n @alert = Alert.new\n\n #Paginated queries\n #@offices = Office.where(\"loc_zip = ?\", params[:city]).page(params[:page])\n @search_string = params[:city]\n @sort = params[:sort]\n @direction = params[:dir]\n @rentto = params[:rentto]\n @rentfrom = params[:rentfrom]\n \n if (@rentto == nil) \n @rentto = '10000' \n end \n if(@rentfrom == nil) \n @rentfrom = '0' \n end\n \n activefilter = 'active_flag != 0'\n rentfilter = 'rent >= ? AND rent <= ?'\n\n #@offices = Office.near(@search_string, 20, :order => 'rent IS NULL, rent > 0, rent ASC').where(activefilter).where(rentfilter, @rentfrom, @rentto).page(params[:page])\n \n if (@search_string != \"\")\n @offices = Office.near(@search_string, 20).where(rentfilter, @rentfrom, @rentto).where(activefilter).page(params[:page])\n else \n @offices = Office.order('created_at DESC').where(rentfilter, @rentfrom, @rentto).where(activefilter).page(params[:page])\n end\n\n session[:query] = @offices.map(&:id)\n session[:search_results] = request.url\n\n\n #@json = @offices.to_gmaps4rails do |office, marker|\n # marker.infowindow render_to_string(:partial => \"/offices/infowindow\", :locals => { :office => office})\n # marker.title \"#{office.title}\"\n # marker.picture({ :picture => \"/assets/office-building.png\", :width =>32, :height => 32})\n #end\n\n\n \n track_event(\"Viewed Search Results\")\n respond_to do |format|\n format.html # listings.html.erb\n format.json { render json: @offices }\n end\n\tend", "def listings\n self.trips.map{|trip| trip.listing}\n end", "def index\n\n if (params[:city_id])\n @city = City.find(params[:city_id].to_i)\n @hospital_beds = @city.hospital_beds.active_list\n else\n @hospital_beds = HospitalBed.active_list\n end\n end", "def open_visits(location = nil)\n open_visits = Visit.all.to_a.select(&:open)\n open_visits = open_visits.select{|visit| visit.location_id == location.id} unless location.nil?\n open_visits\n end", "def selectbuildings(arr_building_name)\n @wait = Selenium::WebDriver::Wait.new(:timeout => 2)\n arr_building_name.each do |building_name|\n @driver.find_element(:id, 'building').click\n @driver.find_element(:id, 'buildingcontainer').find_elements(:tag_name, 'li').each do |li_tag|\n if li_tag.text == building_name[\"name\"]\n li_tag.click\n break\n end\n end\n end\n @driver.find_element(:tag_name, 'body').click\n #return AvailabilityPage.new(@driver)\n end", "def searches\n Boundary.get(@url)\n end", "def list_locations # :nologin:\n query = create_query(:Location, :all, :by => :name)\n show_selected_locations(query, :link_all_sorts => true)\n end", "def get_facilities(location)\n facilities = []\n location.location_facilities.each do |fac|\n facilities << fac.facility.name\n end\n\n facilities\n end", "def checkout_locations\n locations = kits.collect { |k| k.location }\n locations.uniq!\n locations.select { |l| l.business_hours.count > 0 }\n end", "def list\n @locations = Location.find(:all, :order => \"name\")\n end", "def openings_on(date)\n events = openings.starts_on(date).to_a\n events.present? ? events : recurrent_openings_for(date)\n end", "def layovers_in flights\n dict( flights.map(&:arrival_city), :in )\n end", "def requests_on_map\n params[:listing_type] = \"request\"\n @to_render = {:action => :index}\n @listings = Listing.open.order(\"created_at DESC\").find_with(params, @current_user, @current_community)\n @listing_style = \"map\"\n load\n end", "def initialize()\n @listings = []\n end", "def fetch_listing\n districts = district_name_and_permalink_hash \n district_permalink = districts.fetch(district.name) { \n raise \"Whoa, cannot fetch listing,-- #{district.name} -- not a park or general listing of resorts.\" \n }\n\n # Technical: Class (self) instead of an instance variable is used to access HTTParty params\n @listing = TouringPlansComFeed.get(district_permalink).parsed_response\n end", "def listings\n trips.map {|trip| trip.listing}\nend", "def all_featured_cities\n cities_featured = self.all_galleries_featured_in.map{|gallery| gallery.city}\n end", "def category\n if params[:city] == \"sf\"\n @city = \"San Francisco\"\n elsif params[:city] == \"ny\"\n @city = \"New York\"\n end\n @listings = Listing.find_all_by_city(@city)\n end", "def api_request(city)\n url = \"https://jobs.github.com/positions.json?utf8=%E2%9C%93&description=&location=\"+city\n #Escape and parse URL for proper formatting.\n escaped_url = URI.escape(url)\n parsed_url = URI.parse(escaped_url)\n #Make the HTTP request.\n request = Net::HTTP.get(parsed_url)\n #Parse the JSON response.\n response = JSON.parse(request)\n #Returns all listings for the given city.\n return response\n end", "def index\n @listing = Listing.new\n\n if params[:tag] # if searching by tag\n @listings = Listing.where(wyncode_only: false).tagged_with(params[:tag].downcase).page(params[:page]).per_page(20).order(:created_at => :desc) #.per_page(12).order(:created_at => :desc) \n elsif params[:all] \n @listings = active_listings\n elsif params[:us]\n @listings = Listing.where(:country => \"US\").paginate(:page => params[:page], :per_page => 20).order(:created_at => :desc)\n elsif params[:international]\n @listings = Listing.where(:country => nil, wyncode_only: false).paginate(:page => params[:page], :per_page => 20).order(:created_at => :desc)\n elsif current_user && params[:search].blank? && current_user.state.present?\n @listings = Listing.where(active: true, state: current_user.state, wyncode_only: false).paginate(:page => params[:page], :per_page => 20).order(\"created_at DESC\")\n elsif (params[:search].blank? && remote_ip) || (params[:my_state] && remote_ip)\n # @geocoder_current_state = geocoder_current_state\n unless Listing.where(:active => true, :state => geocoder_current_state).count == 0\n @listings = Listing.where(:active => true, :state => geocoder_current_state, wyncode_only: false).paginate(:page => params[:page], :per_page => 20).order(:created_at => :desc)\n else\n @listings = active_listings\n end\n elsif params[:search]\n @listings = Listing.search(params[:search])\n else\n @listings = active_listings\n end\n\n # trying to make fewer geocoder api calls\n if current_user && current_user.state.nil?\n unless geocoder_current_state.nil?\n current_user.state = geocoder_current_state\n current_user.save\n end\n end\n end", "def cities\n galleries.map do |c|\n c.city\n end\n end", "def city_scraper\n #Id,Id2,Geography,Target Geo Id,Target Geo Id2,Geographical Area,Geographical Area,,,Total area,Water area,Land area,Population,Housing units\n #0400000US01,01,Alabama,1600000US0107000,0107000,\"Alabama - PLACE - Birmingham city, Alabama\",\"Birmingham city, Alabama\",242820,111927,151.95,2.04,149.92,1619.7,746.6\n # 0 1 2 3 4 5 6 7 8 9 10 11 12 13 \n @states = Array.new\n @cities = Array.new\n \n count = 0\n state_name = \"\"\n CSV.foreach(\"data/DEC_10_SF1_GCTPH1.ST13.csv\") do |row|\n count = count + 1\n city_name = \"\"\n population = 0\n elevation = 0\n lat_dir = \"\"\n lat_deg = 0\n lat_min = 0\n lat_sec = 0\n lon_dir = \"\"\n lon_deg = 0\n lon_min = 0\n lon_sec = 0\n if(row[2] == row[5])\n #its a state\n puts \"State: #{row[2]}\"\n state_name = row[2]\n state = State.new(:name => row[2])\n if(@states.length == 51)\n break\n end\n @states << state\n next\n end\n \n geographical_area = CSV.parse(row[6])\n city_name = geographical_area[0][0]\n if(city_name.match(/(part)/))\n #puts \"skipping #{city_name}\"\n next\n end\n \n city_name = city_name.downcase.gsub(/ city/,'').gsub(/ town/,'').gsub(/ village/,'').gsub(/ cdp/,'').gsub(/ borough/,'').gsub(/ municipality/,'').gsub(/ and/,'')\n city_name.strip.capitalize!\n city_name = city_name.capitalize\n #puts \"#{city_name} #{count}\"\n \n city_name_uri = URI.escape(city_name, Regexp.new(\"[^#{URI::PATTERN::UNRESERVED}]\"))\n state_name_uri = URI.escape(state_name, Regexp.new(\"[^#{URI::PATTERN::UNRESERVED}]\"))\n city_html = Net::HTTP.get(URI.parse(\"http://www.geonames.org/search.html?q=#{city_name_uri}%2C+#{state_name_uri}&country=US\"))\n #puts \"http://www.geonames.org/search.html?q=#{city_name}%2C+#{state_name}&country=US\"\n @city_doc = Hpricot(city_html)\n \n @city_doc.search(\"//table[@class='restable']\") do |table|\n tr_count = 0\n table.search(\"//tr\") do |tr|\n #puts \"in tr search\"\n tr_count = tr_count + 1\n if(tr_count < 3)\n next\n end\n #puts \"in tr search 2\"\n td_count = 0\n tr.search(\"//td\") do |td|\n #puts \"in td search\"\n td_count = td_count + 1\n if(td_count < 4)\n next\n end\n if(td_count == 4)\n td.search(\"//small\") do |small|\n #population = \"#{small.match(/\\\\d+/)[1]}\"\n #puts \"!!!!!!!!!!!!!!!!!!\"\n #puts td_count\n #puts \"#{small.inner_html}\"\n #puts \"!!!!!!!!!!!!!!!!!!\"\n pop_elev = small.inner_html\n #population = \"#{pop_elev.match(/\\d+,\\d*/)}\".gsub(/,/,'')\n elevation = \"#{pop_elev.match(/\\d+m/)}\".gsub(/m/,'')\n #puts population\n #puts elevation\n end\n end\n if(td_count == 5)\n lat_dir = td.inner_html[0]\n matches = td.inner_html.scan(/(\\d+)/)\n lat_deg = matches[0][0]\n lat_min = matches[1][0]\n lat_sec = matches[2][0]\n end\n if(td_count == 6)\n lon_dir = td.inner_html[0]\n matches = td.inner_html.scan(/(\\d+)/)\n lon_deg = matches[0][0]\n lon_min = matches[1][0]\n lon_sec = matches[2][0]\n end\n end\n break\n \n end \n end\n city = City.new(\n :name => city_name,\n :states_id => @states.length,\n :total_area => row[9],\n :water_area => row[10],\n :land_area => row[11],\n :population => row[7],\n :population_density => row[12],\n :lat_deg => lat_deg,\n :lat_min => lat_min,\n :lat_sec => lat_sec,\n :lat_dir => lat_dir,\n :lon_deg => lon_deg, \n :lon_min => lon_min,\n :lon_sec => lon_sec,\n :lon_dir => lon_dir,\n :elevation => elevation)\n \n @cities << city\n if(count % 10 == 0)\n puts count\n end\n end\n \n @states.each do |state|\n state.save\n end\n \n @cities.each do |state|\n state.save\n end\n \n end", "def streeteasy_listings(company_id, search_params)\n\t\t# In order for streeteasy to accept a listing, the listing must have a primary agent assigned, a\n\t\t# description, and must be marked as 'exclusive'.\n\n\t\t# Additionally, sometimes our staff will temporarily mark a listing as not ready for\n\t\t# syndication. If the \"streeteasy flag\" is not set here, we prevent the data from going out.\n\t\tsearch_params[:has_primary_agent] = 1\n\t\tsearch_params[:exclusive] = 1\n\t\t# search_params[:is_hide_on_website] = 1\n\t\tsearch_params[:must_have_description] = 1\n\t\tsearch_params[:must_have_status_inbetween] = 1\n\t\tsearch_params[:must_have_streeteasy_flag] = 1\n\t\t# search_params[:has_hide_from_agent] = 1\n\t\tpull_data(company_id, search_params)\n\tend", "def list_locations\n query = create_query(:Location, :all, by: default_sort_order)\n show_selected_locations(query, link_all_sorts: true)\n end", "def index\n \t@listings = Listing.all\n end", "def index\n @listings = Listing.all\n end", "def index\n @listings = Listing.all\n end", "def index\n @listings = Listing.all\n end", "def index\n @listings = Listing.all\n end", "def index\n @listings = Listing.all\n end", "def index\n @listings = Listing.all\n end", "def number_of_listings(start_datetime, end_datetime, sale_lease, type)\n filter = filter_listings(start_datetime, end_datetime, sale_lease, type)\n filter.count\n end", "def list_dubious_locations # :nologin:\n query = create_query(:Location, :all, :by => :name)\n show_selected_locations(query, :link_all_sorts => true,\n :action => :list_dubious_locations, :num_per_page => 1000)\n end", "def listings\n Trip.all.map do |trip|\n if trip.guest == self\n return trip.listing\n end\n end\n end", "def index\n @page = params[\"page\"] || 1\n @per_page = params[\"per_page\"] || 50\n \n query = params.slice(\"category\", \"listing_type\")\n \n if params[\"status\"] == \"closed\"\n query[\"open\"] = false\n elsif params[\"status\"] == \"all\"\n # leave \"open\" out totally to return all statuses\n else\n query[\"open\"] = true #default\n end\n \n if params[\"person_id\"]\n query[\"author_id\"] = params[\"person_id\"]\n end\n \n unless @current_user && @current_user.communities.include?(@current_community)\n query[\"visibility\"] = \"everybody\"\n end\n \n if params[\"search\"]\n @listings = search_listings(params[\"search\"], query)\n elsif @current_community\n listings_to_query = (query[\"open\"] ? @current_community.listings.open : @current_community.listings)\n @listings = listings_to_query.where(query).order(\"created_at DESC\").paginate(:per_page => @per_page, :page => @page)\n else\n # This is actually not currently supported. Community_id is currently required parameter.\n @listings = Listing.where(query).order(\"created_at DESC\").paginate(:per_page => @per_page, :page => @page)\n end\n \n @total_pages = @listings.total_pages\n \n # Few extra fields for ATOM feed\n if params[:format].to_s == \"atom\" \n \n @category_label = (params[\"category\"] ? \"(\" + localized_category_label(params[\"category\"]) + \")\" : \"\")\n \n if [\"request\",\"offer\"].include?params['listing_type']\n listing_type_label = t(\"listings.index.#{params['listing_type']+\"s\"}\")\n else\n listing_type_label = t(\"listings.index.listings\")\n end\n \n @title = t(\"listings.index.feed_title\", :optional_category => @category_label, :community_name => @current_community.name, :listing_type => listing_type_label)\n @updated = @listings.first.present? ? @listings.first.updated_at : Time.now\n end\n respond_with @listings\n end", "def build_listing_array(all_listings)\n parsed_listings_array = []\n all_listings.map do |val, info|\n parsed_listings_array <<\n {\n \"listing_class\" => val.css('div.details-title a')[0]['data-gtm-listing-type'],\n \"address\" => val.css('.details-title>a').text.split('#')[0].gsub(/\\s+$/,''),\n \"unit\" => val.css('.details-title>a')[0].text.partition('#').last,\n \"url\" => \"www.streeteasy.com/\" + val.css('.details-title>a')[0]['href'],\n \"price\" => val.css('span.price').text.delete('$ ,').to_i\n }\n end\n parsed_listings_array\n end", "def index\n #query\n # query = Lodging.search(search_params)\n # puts query\n # location, check_in, check_out\n\n @lodgings = Lodging.where(\n 'location like ? AND\n ((end_availability >= ? AND start_availability <= ?) AND (end_availability >= ? AND start_availability <= ?))',\n \"%#{params[:location]}%\", params[:check_in], params[:check_in], params[:check_out], params[:check_out]).\n map{ |l| l }\n\n puts \"QUERY:\"\n @lodgings.each do |l|\n puts \"id: #{l.id}, location: #{l.location}, start: #{l.start_availability}, end: #{l.end_availability}\"\n end\n\n end", "def cities\n Gallery.all.map{|list| list.city}\n end", "def show\n @companies = Company.where('floor_id = ?', @floor.id)\n @spaces = MeetingRoom.where('floor_id = ?', @floor.id)\n end", "def listings\n self.trips.map do |ti|\n ti.listing \n end\n end", "def get_listing_question_listings(location,vendor,game_id)\n # get first listing\n # create a question\n # create an answer\n\n @location = location\n options = {\n :status => \"Active\",\n :near => \"#{location}\",\n :radius => 10\n }\n response = HTTParty.get(\"https://rets.io/api/v1/#{vendor}/listings?access_token=#{ENV['server_token']}&subtype=Single%20Family%20Residence&price[gt]=300000&media[ne]=null\", query:options)\n response = response.to_hash['bundle']\n count = response.count\n number_choice = rand(count -1)\n chosen_listing = response[number_choice]\n @hood_name = chosen_listing['subdivision']\n @chosen_mls_num = chosen_listing['mlsListingID']\n @image_url = chosen_listing['media'].first['url']\n @price = chosen_listing['price']\n @address = chosen_listing['address']\n @num_beds = chosen_listing['bedrooms']\n @mls_num = chosen_listing['mlsListingID']\n\n create_which_price_question(@image_url, @price, game_id, vendor)\n end", "def group_holdings(document)\n holdings = JSON.parse(document['holdings_json'])\n Rails.logger.info \"es287_debug #{__FILE__}:#{__LINE__}:#{__method__} holdings = #{holdings.inspect}\"\n circulating_items = []\n rare_items = []\n online_items = []\n # handle separate sets\n holdings.each do |k,holding|\n if holding[\"location\"].present?\n if holding[\"location\"][\"name\"].include?('Rare') \n rare_items << holding \n else \n circulating_items << holding \n end \n elsif holding[\"online\"].present? \n online_items << holding \n end \n end \n [circulating_items,online_items,rare_items]\n end", "def index\n @opening = Opening.find(params[:opening_id]) \n @employments = Opening.find(params[:opening_id]).employments\n end", "def index\n #contains all the listings\n @listings = Listing.all\n end", "def find_sales_listings\n sales_res = open('fixtures/sales_listings.html').read\n sales_doc = Nokogiri::HTML(sales_res)\n #find all sales entries\n all_sales_listings = sales_doc.css('.details')\n #remove the first two nodes ('featured' listings)\n all_sales_listings[2..-1]\n end", "def listing_open?\n return listing.open?\n end", "def current_listing\n cites_listing\n end", "def index\n if params[:search].present?\n @buildings = Building.near(params[:search], 50, :order => :distance)\n else\n @buildings = Building.all\n end\n\n end", "def listings \n Trip.all.select {|trip| trip.guest == self}.map { |trip| trip.listing}\n\n end", "def index\n @listings = Listing.all\n \n end", "def opening\n fetch('chess.openings')\n end", "def index\n if params[:search].present?\n @listings = Listing.search_by(search_params)\n else\n @listings = Listing.all\n end\n end", "def index\n @local_requests = Request.find(:all, :conditions => \"status <> 'closed'\", :order => sort_order('location_id')).collect! { |request| Integer(request.location.region.id) == Integer(session[:region]) ? request : nil }.compact\n @other_requests = Request.find(:all, :conditions => \"status <> 'closed'\", :order => sort_order('location_id')).collect! { |request| Integer(request.location.region.id) != Integer(session[:region]) ? request : nil }.compact\n \n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @requests }\n end\n end", "def list_buildings\n buildings = Building.all\n buildings.each do |building|\n puts \"#{building.name} (#{building.machines.count} machines)\"\n end\nend" ]

[ "0.8479127", "0.7820051", "0.7524856", "0.7275265", "0.71083397", "0.69790506", "0.6872821", "0.686067", "0.6389673", "0.6239188", "0.6239188", "0.6239188", "0.6177185", "0.61128414", "0.6068961", "0.59632224", "0.595275", "0.5926947", "0.58495796", "0.58319724", "0.5754025", "0.5732698", "0.5719247", "0.56453127", "0.5616089", "0.5574006", "0.5564991", "0.5546675", "0.55389565", "0.5490537", "0.54825425", "0.54808664", "0.54765594", "0.54461396", "0.5440074", "0.5420259", "0.53585714", "0.5351996", "0.5348654", "0.53446484", "0.53380305", "0.5337883", "0.533406", "0.5305676", "0.53051484", "0.5301115", "0.52897227", "0.5279995", "0.52558446", "0.52507675", "0.52474624", "0.524565", "0.5244941", "0.5239998", "0.5228923", "0.5227449", "0.52249783", "0.5223398", "0.52146715", "0.52144533", "0.52124166", "0.51913595", "0.5189056", "0.51846856", "0.51794565", "0.5169067", "0.51466113", "0.51445115", "0.514285", "0.5130042", "0.51243216", "0.5123237", "0.5123237", "0.5123237", "0.5123237", "0.5123237", "0.5123237", "0.5120625", "0.5116649", "0.51077855", "0.5107204", "0.5105552", "0.51031667", "0.5096669", "0.50916487", "0.5088482", "0.5088147", "0.5086523", "0.5082015", "0.5081593", "0.50772053", "0.50738794", "0.50717384", "0.50715667", "0.5070399", "0.5067285", "0.50648654", "0.50598854", "0.50511456", "0.5043045" ]

[ "def drops\n @drops\n end", "def disconnect\n @pins.each { |n, p| p.close } if @pins\n @pins = {}\n super\n end", "def pin_clear\n @pinmap.each { |pin_name, pin| pin.destroy }\n @pinmap.clear\n @patternpinindex.clear\n @patternorder.delete_if { true }\n @cycletiming.clear\n 'P:'\n end", "def off(pin=@pin)\n super(pin)\n end", "def waypoints_minus_removed\n points = []\n waypoints.each do |waypoint|\n points << waypoint if !waypoint.marked_for_destruction?\n end\n points\n end", "def border_points_minus_removed\n points = []\n border_points.each do |point|\n points << point if !point.marked_for_destruction?\n end\n points\n end", "def drop_all_the_way\n if @game.is_running?\n ran = @current_block.drop_by_one\n ran2 = @current_block2.drop_by_one\n @current_pos1.each{|block| block.remove}\n @current_pos2.each{|block| block.remove}\n while ran\n @score += 1\n ran = @current_block.drop_by_one\n end\n while ran2\n @score += 1\n ran2 = @current_block2.drop_by_one\n end\n draw\n store_current\n if !game_over?\n next_piece\n next_piece2\n end\n @game.update_score\n draw\n end\n end", "def missed_destinations(chosen_road)\n # An array of all the roads left behind\n roads_left_behind = roads_available.reject {|road| road == chosen_road }\n # collect the destination left behind with those roads \n roads_left_behind.map { |road| road.the_city_opposite(@current_city)}\n\n end", "def drop_items(drops)\n @victory_item.get_drops(drops)\n end", "def drop_to(container, bikes)\n bikes.each do |bike|\n container.dock(bike)\n release(bike) \n end \n end", "def _drop\n true\n end", "def drop_for\n return @drop_for if @drop_for\n @drop_for = if @name =~ /drop (.+)/\n $1.split(',').map{|s|s.strip}\n else; []; end\n end", "def picture_unpin(ids)\n select_pictures(ids).each {|id| pictures[id].unpin }\n end", "def clean_handles\n @handle_keys.each do |k, v|\n if @handle_last_pinged[v] && @handle_last_pinged[v] < Time.now - 30\n log \"removed clone handle: #{v}\"\n remove_user_by_handle(v)\n end\n end\n end", "def pin_pattern_exclude(*pin_ids)\n if pin_ids.last.is_a?(Hash)\n options = pin_ids.pop\n else\n options = {}\n end\n pin_ids.each do |id|\n if pin_aliases[id]\n Origen.app.pin_names[pin_aliases[id].first] = id\n id = pin_aliases[id].first\n end\n Origen.app.pin_pattern_exclude << id\n end\n Origen.app.pin_pattern_exclude << options unless options.empty?\n end", "def picture_detach(id)\n pictures[id].pin = false\n end", "def drag_and_drop_by(source, right_by, down_by, device: T.unsafe(nil)); end", "def draggables\n result = @draggables.dup\n if (not @board.nil?) and (not @board.playing?)\n result << @board.draggables\n end\n result = result.flatten\n result.compact!\n result\n end", "def uncanned(*_excluded)\n self.brk_excluded ||= []\n self.brk_excluded.push(*_excluded)\n end", "def remove_rover(r)\n @map[r.coordinate[0],r.coordinate[1]] = nil\n end", "def unsafe_forget_past!\n slices.values.map(&:history).each{|h| h.recent(memory_size)}\n\n if multi_slices?\n to_delete = slices.values.reject{|s| keep_slice?(s)}\n to_delete.map(&:rack_id).map do |rack_id| \n slices.delete(rack_id)\n end\n end\n end", "def spots_to_remove\n Spot.outdated\n end", "def dropped_clusters\n _dropped_clusters.to_a\n end", "def valid_drop_spot(x,y)\n return true\n end", "def lost_value(connector)\n ([a,b,out]-[connector]).each { |connector| connector.forget_value(self) }\n end", "def drop_orders\n return Order.where(:status => 'washed', :dropper_id => nil).where.not(:picker_id => nil) if self.pickup_boy?\n end", "def swap_out_faulty_nodes(srcdst2filter_tracker)\n sources_to_swap = Set.new\n srcdst2filter_tracker.each do |srcdst, tracker|\n next if (SwapFilters::TRIGGERS & tracker.failure_reasons).empty?\n sources_to_swap.add srcdst[0]\n end\n\n @house_cleaner.swap_out_faulty_nodes(sources_to_swap.to_a) unless sources_to_swap.empty?\n end", "def revert_conflicts\r\n self.update_conflicts(-1)\r\n #@tile.hit()\r\n end", "def topping; end", "def remove_marked\n for i in (0..@width-1)\n for j in (0..@height-1)\n if @board[i][j] and @board[i][j].marked\n @board[i][j] = nil\n @pieces_removed += 1\n end\n end\n end\n end", "def finalize\r\n drop_chopsticks\r\n end", "def drop(pos)\n @myPositions[pos].player = @myPlayerTurn\n @myUnplaced[@myPlayerTurn] -= 1\n @myPlaced[@myPlayerTurn] +=1\n end", "def pbMapChangeMoveDependentEvents\n return\n end", "def test_0620_drop\n @@log.debug \"test_0620_drop starts\" if @@log.debug?\n assert_respond_to(@list, :drop, \"test_0620_drop_respond\")\n # Drop the first element\n assert_equal([@bsb, @cab, @dad], @list.drop(1), \"test_0620_drop_one\")\n # Drop the first two elements\n assert_equal([@cab, @dad], @list.drop(2), \"test_0620_drop_two\")\n @@log.debug \"test_0620_drop ends\" if @@log.debug?\n end", "def off_tags res, item\n @mask ^= item.turn_off\n\n super\n end", "def roll(pins_knocked_down)\n \nend", "def del\r\n @@tiles.delete_at(@tileno)\r\n @x1,@y1,@x2,@y2,@inclusive,@id,@tileno=nil\r\n end", "def invoke_drop(key); end", "def drop_unused_tail things\n while things.last.unused?\n things = things[0...-1]\n end\n things\n end", "def drop( number )\n\n load_parent_state\n \n return super\n\n end", "def lost_value(connector)\n ([a, b, out] - [connector]).each { |connector| connector.forget_value(self) }\n end", "def display_drop_items\n # Does nothing, will be managed in Scene_Victory\n end", "def display_drop_items\n # Does nothing, will be managed in Scene_Victory\n end", "def drop_infrastructure\n drop_event_log if event_log_exists?\n drop_sync_state if sync_state_exists?\n drop_change_logs\n drop_activity_markers\n end", "def page_drop; end", "def remove_ranges\n $spriteset.show_ranges(false)\n end", "def unflag_row_deltas\n tables.each(&:unflag_row_deltas)\n end", "def full_scan_movable(is_up)\n main_move_pieces = []\n main_pos_list = []\n main_got_pieces = []\n reserve_move_pieces = []\n reserve_pos_list = []\n reserve_got_pieces = []\n empty_pos_list = [] # These positions doesn't have any pieces.\n # scan main_table\n 4.times do |row|\n 3.times do |col|\n icon = @main_table.getItemIcon(row, col)\n if icon == nil\n empty_pos_list.push([row,col])\n next\n end\n\n if is_up == is_upright(icon)\n temp_pos_list, temp_got_pieces = scan_movable(row, col, icon)\n if temp_pos_list.empty? == false\n main_move_pieces.push([icon, row, col])\n main_pos_list.push(temp_pos_list)\n main_got_pieces.push(temp_got_pieces)\n end\n end\n end\n end\n\n # scan reserve_table\n if is_up\n reserve_table = @tables['reserve1']\n else\n reserve_table = @tables['reserve2']\n end\n \n 6.times do |i|\n icon = reserve_table.getItemIcon(0, i)\n if icon != nil\n reserve_move_pieces.push([icon, 0, i])\n reserve_pos_list.push(empty_pos_list)\n reserve_got_pieces.push(nil)\n end\n end\n \n return [main_move_pieces, reserve_move_pieces], \\\n [main_pos_list, reserve_pos_list], \\\n [main_got_pieces, reserve_got_pieces]\n end", "def deunion\n [self]\n end", "def remove_captured(pos1,pos2)\n row = (pos1[0]+pos2[0]) / 2\n col = (pos1[1] + pos2[1]) / 2\n self[[row,col]] = nil\n end", "def uncover\n\t\tmine, uncovered = false, []\n\t\tif @state != :uncovered && @state != :flagged\n\t\t\t@state = :uncovered\n\t\t\tuncovered.push(@coords)\n\t\t\tmine = @type == :mine\n\n\t\t\t# Uncover neighbors\n\t\t\tif not mine and @count == 0\n\t\t\t\t@neighbors.each do |neighbor|\n\t\t\t\t\t# We can assume a neighbor is never a mine in this case\n\t\t\t\t\tuncovered += neighbor.uncover()[1]\n\t\t\t\tend\n\t\t\tend\n\t\tend\n\t\treturn [mine, uncovered]\n\tend", "def on_drop_files(x, y, files)\n path = File.basename(files[0])\n ext = File.extname(path)\n if ext == \".rxproj\"\n @list.push(files[0])\n end\n true # currently need to return boolean from this method\n end", "def drop_duplicated_records(pois, poi)\n\tpois.each do |xx|\n\t\txx.destroy if xx.ref == poi.ref && (!xx.lat || !xx.lng)\n\tend\nend", "def rm_cddts_outof_blk\n axes = [@ref_rows, @ref_cols]\n axes.each{|axis|\n axis.each{|ref|\n intrsct_cddts = []\n (self.to_a.flatten & ref).each{|elm|\n intrsct_cddts.push(elm.cddts).flatten!.uniq!\n }\n six_cells_cddts = []\n (self.to_a.flatten - ref).each{|elm|\n six_cells_cddts.push(elm.cddts).flatten!.uniq!\n }\n intrsct_cddts.each{|cddt|\n unless six_cells_cddts.include?(cddt)\n (ref - self.to_a.flatten).each{|elm|\n elm.cddts.delete(cddt)\n# if ProgramConfig[:debug]\n# if elm.fixed == false and elm.cddts.length == 1\n# print \"DEBUG: [#{elm.i}, #{elm.j}] = #{elm.cddts.first}\\n\"\n# end\n# end\n elm.fixed = true if(elm.cddts.length == 1)\n }\n end\n }\n }\n }\n end", "def cleanup_insn_nodes\n nodes.dup.each do |node|\n next unless node.is_a?(InsnNode)\n\n case node.insn\n when AdjustStack\n # If there are any inputs to the adjust stack that are immediately\n # discarded, we can remove them from the input list.\n number = node.insn.number\n\n node.inputs.dup.each do |input_edge|\n next if input_edge.type != :data\n\n from = input_edge.from\n next unless from.is_a?(InsnNode)\n\n if from.inputs.empty? && from.outputs.size == 1\n number -= 1\n remove(input_edge.from)\n elsif from.insn.is_a?(Dup)\n number -= 1\n connect_over(from)\n remove(from)\n\n new_edge = node.inputs.last\n new_edge.from.outputs.delete(new_edge)\n node.inputs.delete(new_edge)\n end\n end\n\n if number == 0\n connect_over(node)\n remove(node)\n else\n next_node =\n if number == 1\n InsnNode.new(Pop.new, node.offset)\n else\n InsnNode.new(AdjustStack.new(number), node.offset)\n end\n\n next_node.inputs.concat(node.inputs)\n next_node.outputs.concat(node.outputs)\n\n # Dynamically finding the index of the node in the nodes array\n # because we're mutating the array as we go.\n nodes[nodes.index(node)] = next_node\n end\n when Jump\n # When you have a jump instruction that only has one input and one\n # output, you can just connect over top of it and remove it.\n if node.inputs.size == 1 && node.outputs.size == 1\n connect_over(node)\n remove(node)\n end\n when Pop\n from = node.inputs.find { |edge| edge.type == :data }.from\n next unless from.is_a?(InsnNode)\n\n removed =\n if from.inputs.empty? && from.outputs.size == 1\n remove(from)\n true\n elsif from.insn.is_a?(Dup)\n connect_over(from)\n remove(from)\n\n new_edge = node.inputs.last\n new_edge.from.outputs.delete(new_edge)\n node.inputs.delete(new_edge)\n true\n else\n false\n end\n\n if removed\n connect_over(node)\n remove(node)\n end\n end\n end\n end", "def drop_item; self['DropItem'] = 1 end", "def dropped?\n status == :dropped\n end", "def find_dropped_tables(cartodbfied_tables)\n fetch_user_tables - cartodbfied_tables - find_stale_tables(cartodbfied_tables)\n end", "def drop(n)\n #This is a stub, used for indexing\nend", "def remove_generic_traps\n super\n end", "def remove_references(options)\n \t# just got to remove the assigned_pics Tree hash\n \tPictureandmeta.delete_event(self)\n end", "def unflag_map(row,col)\n row = row.to_i\n col = col.to_i\n row -= 1\n col -= 1\n if @flag_pair.include? (row.to_s + col.to_s)\n @flag_pair.delete((row.to_s + col.to_s))\n else\n puts 'There is no flag there!'\n end\n end", "def remove_all_region_items\n super\n end", "def find_unseen\n unseen.replace(full_deck)\n (my_hand + op_hand + my_lands.values +\n op_lands.values + discards.values).flatten.each do |c|\n i = unseen.index(c) or next\n unseen.delete_at(i)\n end\n end", "def remove_generic_traps_v2\n super\n end", "def debark\n\t\t#Check who on the elevator gets off on this stop.\n\t\tarrivers = []\n\t\tperson_queue.each do |elev_person|\n\t\t\tif elev_person.destination == current_floor\n\t\t\t\tarrivers.push(elev_person)\n\t\t\tend \n\t\tend\n\t\t#Once you have a list of people who are getting off, have those people get off\n\t\tarrivers.each do |elev_person|\n\t\t\tif elev_person.destination == current_floor\n\t\t\t\tremove_person(elev_person)\n\t\t\tend \n\t\tend\n\t\treturn arrivers.count\n\tend", "def remove_all_original_addresses\n super\n end", "def drop\n do_callback(:before_drop)\n collection.drop\n do_callback(:after_drop)\n end", "def undo\n\t\t@moves.undo\n\tend", "def drop\n spawn\n\n begin\n push\n landed = drop1\n end until landed\n\n commit\n\n if @caching\n cache\n else\n nil\n end\n end", "def discard; end", "def discard; end", "def remove_nodes!(tg,tiles)\n result = [Array.new,Array.new]\n\n tg[0].each_index {|n| # remove nodes\n tiles.each do |i|\n if i == tg[0][n][0]\n result[0].push(tg[0][n])\n tg[0][n] = nil\n break\n end \n end\n }\n tg[1].each_index {|e| # remove edges\n tiles.each do |i|\n if(tg[1][e][0] == i || tg[1][e][1] == i) \n result[1].push(tg[1][e])\n tg[1][e] = nil\n break # don't add edge twice\n end\n end\n }\n tg[0].compact!\n tg[1].compact!\n return result\nend", "def drag_and_drop(source, sourceinfo, target, targetinfo, action)\n $marathon.dragAndDrop(ComponentId.new(source, sourceinfo), ComponentId.new(target, targetinfo), action)\nend", "def drag_and_drop(source, sourceinfo, target, targetinfo, action)\n $marathon.dragAndDrop(ComponentId.new(source, sourceinfo), ComponentId.new(target, targetinfo), action)\nend", "def enumerate_snapshots_to_be_pruned\n backed_up_snapshots = self.snapshots\n backed_up_snapshot_descriptions = backed_up_snapshots.collect { |bus| bus.description }\n prunees = []\n before = Date.today - ( Config.accounts[account.name][:backup][:days] || VfSnapshots::DEFAULT_BACKUP_DAYS )\n backed_up_snapshots.each do |snapshot|\n old_desc = snapshot.description.sub(\"#{account.name} \",'')\n account_name = snapshot.description.split(VfSnapshots::DESC_REGEX).first.chop\n if account_name == account.name\n if /^(\\d{14})/.match(old_desc)\n ts = Time.parse($1).to_date\n prunees << snapshot if (VfSnapshots::DESC_REGEX =~ old_desc) && ts < before\n end\n end\n end\n prunees\n end", "def uncover (i,j)\t\t\t\n\t\tx_array = [i] \t\t\t\t\t\t\t\t\t\t\t#array containing x-indexes of clicked button which have 0 mines in the sorrounding\n\t\ty_array = [j]\t\t\t\t\t\t\t\t\t\t\t\t\t#y-index of clicked button \" \" \" \" \" \" \" \" \" \" \"\n\t\tx_array.each_with_index do |n,index|\t\n\t\t\ti = n\n\t\t\tj = y_array[index]\n\t\t\tfor x in i-1..i+1\n\t\t\t \tfor y in j-1..j+1\n\t\t\t\t\tif x>=0 && y >=0 && x < @rows && y < @cols\n\t\t\t\t\t\tnext if @buttons[x][y].state == \"insensitive\"\t# next iteration if this array index(button) has already been uncovered\n\t\t\t\t\t\t@buttons[x][y].label = @board[x][y].to_s\t\t\t\t\t\n\t\t\t\t\t\t@buttons[x][y].sensitive = false\n\t\t\t\t\t\t@clicks = @clicks + 1 \t\t\t\t\t#click count will be updated for every array index traversed\n\t\t\t\t\t\t@builder[\"window1\"].title = @clicks.to_s\n\t\t\t\t\t\tif @board[x][y] == 0 \t\t\t\t\t#if neighbours of the clicked button contain another 0 valued button,we will add that to our array\n\t\t\t\t\t\t\t@board[x][y] = \"-\"\t\t\t\t\t\t\n\t\t\t\t\t \t\tx_array << x\t\t\t\t\t\t\t\t#if another 0 is found in the neighbours, insert it in to uncover array\n\t\t\t\t\t\t\ty_array << y \t\t\t\t# same as above, saving y-index \n\t\t\t\t\t\tend\n\t\t\t\t\tend\n\t\t\t\tend\n\t\t\t end \n\t\tend\n\tend", "def concludeDragOperation(sender)\n puts \"concludeDragOperation\" if DEBUG\n end", "def track_removal_item(list, klass, broken_down, from_day)\n list.each do |id|\n remove_children = id.split('_').last\n i = id.split('_').first\n self.aggregate_customs.create(removable_id: i, removable_type: klass.to_s, remove_children: remove_children)\n if(remove_children == \"true\" && (klass == DataGroupCountry || klass == DataGateway))\n track_children(i, DataGateway, broken_down, from_day) if klass == DataGroupCountry\n track_children(i, DataEntryway, broken_down, from_day) if klass == DataGateway\n end\n end if list.present?\n end", "def base_destinations(square, game_state)\n game_state.squares.at_range(square, 1).unoccupied_or_occupied_by_opponent(player_number)\n end", "def drop\n Aptly::runcmd \"aptly mirror drop #{@name.quote}\"\n end", "def remove_map\n remove_widget\n end", "def drop( gobject )\r\n\t\t\t@contents -= [ gobject ]\r\n\t\tend", "def filter_out_board_edges(possible_moves)\n inbound_moves = possible_moves.map do |move_stretch|\n move_stretch.select do |move|\n move.first.between?(0,7) && move.last.between?(0,7)\n end\n end\n\n inbound_moves.delete([])\n inbound_moves\n end", "def remove; end", "def remove; end", "def remove; end", "def remove; end", "def skip_pin?\n skip = false\n if @skip_flag == true\n @skip_flag = false\n skip = true\n end\n skip\n end", "def deintersect\n [self]\n end", "def drop_compass\n # In the majority of SketchUp tools, you would reset the tool to its\n # initial state here. When you've finished drawing one rectangle, you\n # can draw a second and a third rectangle.\n #\n # Solar North tool is however an exception to the general rule.\n # You typically set the north angle once and then continue drawing\n # with your previous tool. Solar North tool also performs live updates\n # to the north angle as it is used, and you don't click until you are\n # happy with the north direction.\n\n # This is the code you'd use in a typical extension.\n ### @state = PLACE_STATE\n ### @reference_input_point.clear\n ### update_status_text\n\n Sketchup.active_model.tools.pop_tool\n end", "def killregion(killadd = false)\n copyregion true, killadd\n @last = :killregion\n end", "def draggingEnded(sender)\n puts \"draggingEnded\" if DEBUG\n end", "def onRemoved(links)\n @set -= links\n end", "def ensure_deletion_fixes \n # TO DO\n end", "def remove_banned\n Zold::Id::BANNED.each do |id|\n @pgsql.exec('DELETE FROM payable WHERE id = $1', [id])\n end\n end", "def remove_except_follower\n events=$PokemonGlobal.dependentEvents\n $PokemonGlobal.dependentEvents.each_with_index do |event,i|\n next if event[8][/FollowerPkmn/]\n events[i] = nil\n @realEvents[i] = nil\n @lastUpdate += 1\n end\n events.compact!\n @realEvents.compact!\n end", "def dont_be_in_check(final_spots,current_king)\n invalid = []\n final_spots.each do |spot|\n y = spot[0]\n x = spot[1]\n\n play_board = Marshal.load(Marshal.dump(@board))\n play_board[@piece.y_position][@piece.x_position] = 0\n play_board[y][x] = @piece.player_id\n\n if @piece.type == \"King\"\n invalid << spot if current_king.if_king_move_in_check?(play_board,y,x).length > 0\n else\n invalid << spot if current_king.if_check?(play_board).length > 0\n end\n end\n return final_spots - invalid\n end", "def new_puzzle_ids\n\t\t@puzzle_ids - @puzzle_packet_ids\n\tend", "def undroppable?(user)\n self.status == 'washed' and self.dropper_id == user.id\n # Order.where(:status => 'washed', :dropper_id => user.id).where.not(:picker_id => nil) or !self.picked?\n end" ]

[ "0.61977303", "0.607159", "0.5801572", "0.5566668", "0.5502558", "0.5485826", "0.5485507", "0.5428434", "0.53852636", "0.53320086", "0.53207254", "0.5316393", "0.52836984", "0.5243039", "0.52288467", "0.52195853", "0.52174443", "0.5215813", "0.5212699", "0.5180796", "0.517159", "0.5168898", "0.51621616", "0.5156825", "0.51554835", "0.51410675", "0.51405907", "0.51396734", "0.5116427", "0.5115892", "0.51118094", "0.51115704", "0.5084274", "0.5069132", "0.5068828", "0.5067567", "0.50604516", "0.5056574", "0.5053168", "0.50375485", "0.50324255", "0.50215185", "0.50215185", "0.50189924", "0.5013625", "0.501169", "0.49955678", "0.49914607", "0.49744537", "0.49719495", "0.49699017", "0.4967363", "0.49590045", "0.49566174", "0.4950444", "0.49484247", "0.49483058", "0.4945055", "0.49263072", "0.49206653", "0.49196765", "0.49184054", "0.49065766", "0.49058285", "0.49047378", "0.49007463", "0.4900589", "0.4891389", "0.48872143", "0.4882747", "0.4867436", "0.4867436", "0.48667926", "0.4866772", "0.48652887", "0.48637253", "0.4859164", "0.4856306", "0.48556793", "0.48443583", "0.4843531", "0.48415172", "0.4839462", "0.4830388", "0.48160598", "0.48160598", "0.48160598", "0.48160598", "0.48120618", "0.48049656", "0.4802845", "0.4801126", "0.48005956", "0.4798757", "0.4796872", "0.4796195", "0.4795769", "0.47930756", "0.47916204", "0.4788762" ]

[ "def non_basemap_base_layers_for(visualization)\n base_layers = visualization.layers(:base)\n if base_layers.length > 0\n # Remove the basemap, which is always first\n base_layers.slice(1, visualization.layers(:base).length)\n .map do |layer|\n CartoDB::LayerModule::Presenter.new(layer, options, configuration).to_vizjson_v2\n end\n else\n []\n end\n end", "def configure_layers_data\n # Http/base layers don't appear at viz.json\n layers = @visualization.data_layers\n layers_data = Array.new\n layers.each do |layer|\n layer_vizjson = VizJSON3LayerPresenter.new(layer, @options, @configuration).to_vizjson\n layers_data.push(data_for_carto_layer(layer_vizjson))\n end\n layers_data\n end", "def add_layer(new_layer)\n #first determine if the layer already exists.\n @layers.each do |current_layer|\n if new_layer == current_layer\n return current_layer\n end\n end\n @layers.push(new_layer)\n return @layers.last()\n end", "def unshift_layer!(layer)\n raise Exception::OptionShouldBeRecursive.new(layer) unless Utils.recursive?(layer)\n\n if layer.is_a?(self.class)\n layer.structures.dup.concat(structures)\n else\n structures.unshift(layer)\n end\n\n dirty!\n end", "def merge(*data)\n merged = data.compact.inject(@input) do |acc, layer|\n assert_hash_or_config(layer)\n layer_data = layer.is_a?(self.class) ? layer.input : layer\n Bolt::Util.deep_merge(acc, layer_data)\n end\n\n self.class.new(merged, @project)\n end", "def overlay(base, layer)\n return base.each_with_index.map{|row,r|\n row.each_with_index.map{|e,c|\n e.nil? ? layer[r][c] : e\n }\n }\n end", "def add_layer\n Layer.create(:name => @new_table_name, :table_name => @new_table_name, :geometric_column_name => \"the_geom\")\n end", "def add_layer(thickness, conductivity, density, specific_heat)\n layer = Layer.new()\n # Make sure all the values are > 0.\n layer.set(thickness, conductivity, density, specific_heat)\n @layers.push(layer)\n end", "def setup_layers\n\tend", "def add_layer\n puts \"made it to PL add layer\"\n Layer.create(:name => @new_table_name, :table_name => @new_table_name, :geometric_column_name => \"the_geom\")\n end", "def feed(data)\n input = []\n hidden = []\n @ilayer.each_index do |i|\n @ilayer[i].inputs = [data[i]]\n input[i] = @ilayer[i].activate\n end\n @hlayer.each_index do |h| \n @hlayer[h].inputs = input\n hidden[h] = @hlayer[h].activate\n end\n @olayer.each_index do |o| \n @olayer[o].inputs = hidden\n @output[o] = @olayer[o].activate\n end\n @output\n end", "def basemap_layer_for(visualization)\n layer = visualization.layers(:base).first\n CartoDB::LayerModule::Presenter.new(layer, options, configuration).to_vizjson_v2 unless layer.nil?\n end", "def push( layer )\n getidx( layer )\n @stack.push layer\n end", "def layer\n self.class.new(\n variable_table: VariableTable.new(variable_table),\n rule_table: RuleTable.new(rule_table),\n package_table: package_table,\n package_ids: package_ids,\n current_package_id: current_package_id,\n current_definition: current_definition\n )\n end", "def stack(me, children)\n children = children.map{|c| c.is_a?(::Layers::LayerBase) ? c.to_node([]) : c}\n me.to_node(children)\n end", "def add_stacks\n variable_stack.add_stack\n value_stack.add_stack\n end", "def back_propagate(errors)\n @layers.reverse_each do |layer|\n errors = layer.back_propagate(errors)\n end\n end", "def prepend( ref, layer )\n idx = getidx( ref )\n @list.insert( idx, layer )\n end", "def createLayers()\n @layers_array = import() \n end", "def add_layer_object( object )\n layers.push( object )\n end", "def merge_layer(other_layer)\n if self.type == Layer::LAYER_NORMAL and\n other_layer.type == Layer::LAYER_NORMAL\n\n # Calculate all the new dimensions for the new canvas\n top = [self.bounds.top, other_layer.bounds.top].min\n left = [self.bounds.left, other_layer.bounds.left].min\n bottom = [self.bounds.bottom, other_layer.bounds.bottom].max\n right = [self.bounds.right, other_layer.bounds.right].max\n width = right - left\n height = bottom - top\n new_bounds = BoundingBox.new top, left, bottom, right\n\n # Create a transparent slate, prepare the composite images to be applied\n slate = Image.new(width, height) { self.background_color = \"none\" }\n self_image = Image.read(self.extracted_image_path).first\n other_image = Image.read(other_layer.extracted_image_path).first\n\n # Calculate all the offsets to be composited.\n self_top_offset = self.bounds.top - top\n self_left_offset = self.bounds.left - left\n other_top_offset = other_layer.bounds.top - top\n other_left_offset = other_layer.bounds.left - left\n\n # Apply composites\n slate.composite!(self_image, self_left_offset, self_top_offset, Magick::OverCompositeOp)\n slate.composite!(other_image, other_left_offset, other_top_offset, Magick::OverCompositeOp)\n \n # Sync it to store\n slate.write(self.extracted_image_path)\n self.sync_image_to_store\n\n # Set new bounds\n self.bounds = new_bounds\n self.initial_bounds = new_bounds\n\n # Delete the merged layer\n self.design.sif.layers.delete other_layer.uid\n \n # Recalculate everything\n self.design.sif.reset_calculated_data\n self.design.sif.save!\n self.design.regroup\n Log.info \"Merge complete\"\n\n end\n end", "def save_layers()\n @layers_array.each do |layer|\n layer.map_id = self.id\n layer.init\n layer.save!\n end\n end", "def append( ref, layer )\n idx = getidx( ref )\n @list.insert( idx+1, layer )\n end", "def updateLayers()\n layers.each do |layer|\n layer.destroy\n end\n #tilesets.each do |tileset|\n # tilesets.delete(tileset)\n #end\n createLayers()\n end", "def add_raster_base_overview_for_tiler\n overview_name = OVERLAY_TABLENAME % [1, table_name]\n overview_fqtn = SCHEMA + '.' + overview_name\n queries = [\n %{CREATE TABLE #{overview_fqtn} AS SELECT * FROM #{base_table_fqtn}},\n %{CREATE INDEX ON \"#{SCHEMA}\".\"#{overview_name}\" USING gist (st_convexhull(\"#{RASTER_COLUMN_NAME}\"))},\n %{SELECT AddRasterConstraints('#{SCHEMA}', '#{overview_name}','#{RASTER_COLUMN_NAME}',TRUE,TRUE,TRUE,TRUE,TRUE,TRUE,FALSE,TRUE,TRUE,TRUE,TRUE,FALSE)},\n %{SELECT AddOverviewConstraints('#{SCHEMA}', '#{overview_name}'::name, '#{RASTER_COLUMN_NAME}'::name, '#{SCHEMA}', '#{table_name}'::name, '#{RASTER_COLUMN_NAME}'::name, 1)}\n ]\n for query in queries do\n transaction_with_timeout do |db|\n db.run(query)\n end\n end\n @additional_tables = [1] + @additional_tables\n end", "def setup_network\n hidden_layers << output_layer\n end", "def merge_extent(old, new)\n old.dig(:extent, 0, :locality) and\n old[:extent] = [{ locality_stack: old[:extent] }]\n new.dig(:extent, 0, :locality) and\n new[:extent] = [{ locality_stack: new[:extent] }]\n ret = merge_by_type(old.dig(:extent, 0),\n new.dig(:extent, 0), :locality_stack,\n %i[locality type])\n (ret && !old.dig(:extent, 0)) or return\n old[:extent] ||= []\n old[:extent][0] ||= {}\n old[:extent][0][:locality_stack] = ret\n end", "def register_hooks(walker)\n @subscope_layers = []\n\n walker.before do |layer|\n if layer.subscopable?\n @subscope_layers.push(layer)\n end\n end\n\n walker.after do |layer|\n if layer.subscopable?\n @subscope_layers.pop\n end\n end\n end", "def add_last(data)\n @head.nil? ? @head = Node.new(data, @head) : add_last_helper(data, @head)\n end", "def rollup\n\t\t\tswap\n\t\t\tpush [:swap]\n\t\t\tdip\n\t\tend", "def put_layers(surface, dx, dy)\n raise RuntimeError, \"Need SDL::Surface\" unless surface.kind_of? SDL::Surface\n\n @tmx.layers.each {|name, l|\n put_layer(name, surface, dx, dy)\n }\n end", "def add_raster_base_overview_for_tiler\n overview_name = OVERLAY_TABLENAME % [1, table_name]\n overview_fqtn = SCHEMA + '.' + overview_name\n db.run %{CREATE TABLE #{overview_fqtn} AS SELECT * FROM #{base_table_fqtn}}\n db.run %{CREATE INDEX ON \"#{SCHEMA}\".\"#{overview_name}\" USING gist (st_convexhull(\"#{RASTER_COLUMN_NAME}\"))}\n db.run %{SELECT AddRasterConstraints('#{SCHEMA}', '#{overview_name}','#{RASTER_COLUMN_NAME}',TRUE,TRUE,TRUE,TRUE,TRUE,TRUE,FALSE,TRUE,TRUE,TRUE,TRUE,FALSE)}\n db.run %{SELECT AddOverviewConstraints('#{SCHEMA}', '#{overview_name}'::name, '#{RASTER_COLUMN_NAME}'::name, '#{SCHEMA}', '#{table_name}'::name, '#{RASTER_COLUMN_NAME}'::name, 1)}\n @additional_tables = [1] + @additional_tables\n end", "def layers \n self.layerlist :layersonly=>true\n end", "def merge_config_layers(*config_data)\n config_data.inject({}) do |acc, config|\n acc.merge(config) do |key, val1, val2|\n case key\n # Shallow merge config for each plugin\n when 'plugins'\n val1.merge(val2) { |_, v1, v2| v1.merge(v2) }\n # Transports are deep merged\n when *TRANSPORT_CONFIG.keys\n Bolt::Util.deep_merge(val1, val2)\n # Hash values are shallow merged\n when 'apply-settings', 'log', 'plugin-hooks', 'puppetdb', 'puppetdb-instances'\n val1.merge(val2)\n # Disabled warnings are concatenated\n when 'disable-warnings'\n val1.concat(val2)\n when 'analytics'\n val1 && val2\n # All other values are overwritten\n else\n val2\n end\n end\n end\n end", "def layer\n end", "def assign_layers graph, concentrate: false\n graph = Graph::Implementation.from_rgl graph unless\n graph.is_a? Graph::Implementation\n\n # { source => { target => cutvalue } }\n tree, rank = feasible_tree graph\n\n while e = leave_edge(tree)\n end\n\n normalize tree # rebases ranks starting at zero\n balance tree # moves ambivalent nodes to less-populated ranks\n\n # [graph, layers]\n end", "def merge(front, back)\n length = overlay_length(front, back)\n front+back[length..-1]\n end", "def layers options={}\n standard_list Conjur::API.layer_asset_host, :layer, options\n end", "def import(root_path = Rails.root, folders = \"/public/\")\n map_file = File.open(\"#{root_path}#{folders}#{map_source}\", \"r\")\n map_array = map_file.readlines\n map_height = map_array.length\n layers_array = Array.new\n index = 0\n\n import_attributes(map_array)\n import_tileset(map_array)\n\n while index < map_height\n current_line = map_array[index].to_s.strip \n if assert_tag(\"layer\", current_line)\n default_values = [0,0,0,0,0,0]\n values = Map.extract_tag(\"layer\", current_line)\n (0...default_values.length).each do |i|\n unless values[i].nil?\n default_values[i] = values[i].to_i\n end\n end\n current_layer = extract_body(map_array[index...map_height],\"layer\")\n layer_string = \"\"\n current_layer.each do |line|\n layer_string = layer_string + line + \"-\"\n end\n is_scrolling = ((default_values[3] != 0 || default_values[4] != 0))\n new_layer = Layer.create(array: layer_string.chop, is_tile_layer: true, tileset_id: @tilesets[default_values[0]].id, is_static: (default_values[2] == 1), horizontal_speed: default_values[3], vertical_speed: default_values[4], is_tile_scroll: default_values[5], opacity: default_values[1], is_scrolling: is_scrolling )\n layers_array.push(new_layer)\n end\n\n if assert_tag(\"fill\", current_line)\n values = Map.extract_tag(\"fill\", current_line)\n new_layer = Layer.create(background_color: values[0], is_fill_layer: true, opacity: values[1].to_f)\n layers_array.push(new_layer)\n end\n\n if assert_tag(\"background_image\", current_line)\n values = Map.extract_tag(\"background_image\", current_line)\n new_layer = Layer.create(image: values[0], is_x_repeat: values[1], is_y_repeat: values[2], is_x_stretch: values[3], is_y_stretch: values[4], is_static: values[5])\n layers_array.push(new_layer)\n end\n index = index.next\n end\n return layers_array\n end", "def merge_dependencies(data)\n data['dependencies'].each do |dep|\n add_dependency(dep['name'], dep['version_requirement'], dep['repository'])\n end\n\n # Clear dependencies so @data dependencies are not overwritten\n data.delete 'dependencies'\n end", "def add_material_layer\n layers = %w(260 300 592)\n layers.each do |l|\n material = node.xpath(\"//marc:datafield[@tag='#{l}']\", NAMESPACE)\n material.each do |block|\n next unless block.xpath(\"marc:subfield[@code='8']\", NAMESPACE).empty?\n sf8 = Nokogiri::XML::Node.new \"subfield\", node\n sf8['code'] = '8'\n sf8.content = \"01\"\n block << sf8\n end\n end\n end", "def merge_layers(l1, l2)\r\n\t# [[1,2,3],[1,2,3],[1,2,3]]\r\n\tl1.each_with_index do |row, rindex|\r\n\t\trow.each_with_index do |item, cindex|\r\n\t\t\tif item == 2\r\n\t\t\t\t l1[rindex][cindex] = l2[rindex][cindex].dup\r\n\t\t\tend\r\n\t\tend\r\n\tend\r\n\tl1\r\nend", "def flatten_layers(layers)\n layers = layers.reverse\n display = layers[0]\n\n layers.slice(1..-1).each do |layer|\n layer.each_with_index do |row, y|\n row.each_with_index do |digit, x|\n display[y][x] = digit unless digit == 2\n end\n end\n end\n \n return display\nend", "def bootstrap_stack(ops, config, input, options_hash)\n puts \"Creating stack #{config['stack']['name']} ...\"\n stack = ops.create_stack(config['stack'])\n\n if config['permissions']\n stack.grant_access(config['permissions'])\n else\n puts \"Warning! No permissions defined in config. Granting full access to everyone.\"\n stack.grant_full_access \n end\n\n layers = []\n config['layers'].each do |l|\n layer_aws_config = l['config']\n layer = stack.create_layer(layer_aws_config)\n\n if not l.has_key?('instances')\n puts \"Warning! no instances key for layer #{layer_aws_config['name']}\"\n else\n l['instances'].each do |i|\n layer.create_instance(i)\n end\n layers.push(layer)\n end\n\n if l['elb']\n stack.create_elb(l['elb']) if options_hash[:create_elbs]\n layer.attach_elb(l['elb']['name']) if options_hash[:attach_elb]\n update_alarms(l['elb']['alarms']) if l['elb']['alarms']\n end\n\n if l['load_based_auto_scaling'] and l['load_based_auto_scaling']['enabled']\n layer.configure_load_based_auto_scaling(config['load_based_auto_scaling'], l, {:enable => options_hash[:enable_auto_scaling]})\n end\n\n if l['time_based_auto_scaling'] and l['time_based_auto_scaling']['enabled']\n layer.configure_time_based_auto_scaling(config['time_based_auto_scaling'], l)\n end\n\n end\n\n config['apps'].each do |a, value|\n stack.create_app(a, config['apps'][a])\n end\n\n if options_hash[:start_instances]\n instances = []\n\n layers.each do |l|\n started = l.send_start\n instances += started\n\n if options_hash[:load_instances_to_start] and options_hash[:load_instances_to_start][l.name] > 0\n started_load_instances = l.start_load_instances(options_hash[:load_instances_to_start][l.name])\n instances += started_load_instances\n end\n end\n\n ops.wait_for_instances_status(instances, \"online\", [\"stopped\", \"requested\", \"pending\", \"booting\", \"running_setup\"])\n end\n\n puts \"\\n\\nStack #{config['stack']['name']} successfully created.\"\n return stack\nend", "def layers\n @layers ||= Dis::Layers.new\n end", "def pyramid(layers)\r\n upper_layer = \"1\"\r\n tower = [\"1\"]\r\n layers.times do\r\n tower << upper_layer = lower_layer(upper_layer)\r\n end\r\n tower\r\nend", "def add_deck_to_top(add_deck)\n if add_deck.cards and add_deck.id != self.id and add_deck.cards.size > 0\n orig_count = self.cards.size\n add_deck.cards.each do |c|\n c.update_attributes(deck_id: id, card_order: (c.card_order + orig_count))\n end\n end\n end", "def prepend(root); end", "def append_to(drawables, layer_type)\n drawables.each do |drawable|\n layer_with(layer_type).append(drawable)\n end\n end", "def data_add_stations\n @routes[0].stations.insert(-2, @stations[1])\n @routes[0].stations.insert(-2, @stations[2])\n @routes[2].stations.insert(-2, @stations[1])\n end", "def merge_joins(base, add)\n add.each do |name, nested|\n if base[name].is_a?(Hash)\n merge_joins(base[name], nested) unless nested.empty?\n else\n base[name] = nested\n end\n end\n end", "def add_three_deep_levels(group_organization)\n\t\t service = group_organization.organizations.where(org_type: \"Service\").first\n\t\t first_dealer = create_child_dealer(group_organization, service)\n\t\t p \"Adding 1 child dealer #{first_dealer.id} for Group org : #{group_organization.id}\"\n\t\t create_two_subchild_dealers(group_organization, first_dealer)\n\t\tend", "def networks_add( *networks )\n\t\t\t@networks = @networks.union(networks.flatten)\n\t\tend", "def setup_layer_type(klass, types, layer_index)\n type = types[layer_index]\n return if type.nil?\n # Object is a keyword that objects of Object type can be applied to any classes\n return (types[layer_index] = Object) if type == 'Object'\n\n types[layer_index] = self.final_type(klass, type)\n # go to setup the next layer\n self.setup_layer_type(klass, types, layer_index + 1)\n types\n end", "def node_insert_after!(x, prev, level)\n netx = node_next(prev, level) # 'next' is a reserved word in ruby\n \n # forward links\n x[0][level] = netx\n prev[0][level] = x\n \n # backward links\n x[3][level] = prev\n netx[3][level] = x\n end", "def add_loadbalancer_groups\n if any_hosts_as?(:loadbalancer)\n loadbalancer_group = {\n \"name\" => \"HAProxy Loadbalancer\",\n \"rule\" => [\"or\", [\"=\", \"name\", loadbalancer.node_name]], # pinned node\n \"parent\" => pe_infra_uuid,\n \"classes\" => {\n \"profile::loadbalancer\" => {}\n }\n }\n\n dispatcher.find_or_create_node_group_model(loadbalancer_group)\n end\n\n return unless any_hosts_as?(:compile_master)\n\n lb_export_rules = [\"or\"]\n lb_export_rules += [compile_master].flatten.map do |server|\n [\"=\", \"name\", server.node_name]\n end\n\n loadbalancer_exports_group = {\n \"name\" => \"Loadbalancer Exports(Compile Masters)\",\n \"rule\" => lb_export_rules, # pinned node\n \"parent\" => pe_infra_uuid,\n \"classes\" => {\n \"profile::loadbalancer_exports\" => {}\n }\n }\n dispatcher.find_or_create_node_group_model(loadbalancer_exports_group)\nend", "def merge_joins(base, add)\n add.each do |name, nested|\n if base[name].is_a?(Hash)\n merge_joins(base[name], nested) unless nested.empty?\n else\n base[name] = nested\n end\n end\n end", "def build_new_layer layer_size, input_layer, weights\n next_layer = Array.new(layer_size, 0)\n\n (0...weights.size).each do |index|\n combined_array = input_layer.zip(weights[index])\n z_value = combined_array.map{|v,w| v*w}.inject(:+)\n activation = sigmoid(z_value)\n next_layer[index] = activation\n end\n\n next_layer\n end", "def move_to_layer(individuals, n)\n\t\t# add layer\n\t\tif n > (@layers.size - 1)\n\t\t\traise RuntimeError unless n < @max_layer_count\n\t\t\traise RuntimeError unless n == @layers.size\n\t\t\t@layers[n] = []\n\t\tend\n\n\t\t# add oldies in layer\n\t\ta = (@layers[n] + individuals).sort do |a, b|\n\t\t\tcmp_fitness = a.fitness <=> b.fitness\n\t\t\tif cmp_fitness == 0\n\t\t\t\ta.age <=> b.age\n\t\t\telse\n\t\t\t\tcmp_fitness\n\t\t\tend\n\t\tend.reverse\n\n\t\t@layers[n] = a[0, [a.size, @layer_size].min]\n\tend", "def prepend(layer_env = {})\n all_values = []\n layer_env.each do |layer_name, value|\n EnvProxy.validate_layer!(layer_name)\n\n value = Array(value).map(&:to_s)\n all_values << value\n\n @layer_env_hash[layer_name] ||= []\n @layer_env_hash[layer_name].prepend(value)\n end\n\n ENV[@key] = [all_values, ENV[key]].compact.join(\":\")\n\n self\n end", "def merge_joins(base, add)\n add.each do |name, nested|\n if base[name].is_a?(Hash) && nested.present?\n merge_joins(base[name], nested)\n elsif !base[name].is_a?(Hash) || nested.present?\n base[name] = nested\n end\n end\n end", "def merge_joins(base, add)\n add.each do |name, nested|\n if base[name].is_a?(Hash) && !nested.empty?\n merge_joins(base[name], nested)\n else\n base[name] = nested\n end\n end\n end", "def merge_joins(base, add)\n add.each do |name, nested|\n if base[name].is_a?(Hash) && !nested.empty?\n merge_joins(base[name], nested)\n else\n base[name] = nested\n end\n end\n end", "def underlay *others\n r = others.reverse.push self\n t = self.class.new(**r.shift)\n t.overlay!(*r)\n end", "def update\n super\n @layers.each { |layer| layer.update }\n update_move\n self\n end", "def save\n response = @server.post(\"#{@parent_path}/layergroups\", JSON.generate({ \"layerGroup\" => @parameters }))\n raise ArgumentError, \"Error creating layer group.\\n #{response.body}\" if response.code != \"201\"\n @path = response.header[\"Location\"]\n parse(@server.get(@path).body)\n self\n end", "def splat_layer\n @layer_hash.each_pair do |key, value|\n self.class.send(:attr_accessor, key.to_sym)\n self.send(key.to_s + \"=\", value)\n end\n end", "def move_layer(from_parallax, from_layer, to_parallax, to_layer)\n drawable_list = @drawables[from_parallax][from_layer].dup\n\n drawable_list.each do |drawable|\n unregister_drawable drawable \n drawable.parallax = to_parallax\n drawable.layer = to_layer\n register_drawable drawable \n end\n end", "def move_layer(from_parallax, from_layer, to_parallax, to_layer)\n drawable_list = @drawables[from_parallax][from_layer].dup\n\n drawable_list.each do |drawable|\n unregister_drawable drawable \n drawable.parallax = to_parallax\n drawable.layer = to_layer\n register_drawable drawable \n end\n end", "def add_last(data)\n if @head.nil?\n add_first(data)\n else\n current = @head\n until current.next.nil?\n current = current.next\n end\n current.next = Node.new(data)\n end\n end", "def test_create_layer_aloud_with_no_base\n block = @block\n HT::Cascade.new do \n layer :layer_1, &block\n end\n end", "def merge; end", "def deep_merge(bot, top)\n deep_merge!(deep_copy(bot), top)\nend", "def merge(new_scopes); end", "def reduce_crossings graph, layers, tighten: false\n\n # layers\n end", "def push_inherit\n @stack << current.dup\n end", "def merge_outlines(old_data, new_data, position)\n old_data = actual_object(old_data)\n new_data = actual_object(new_data)\n if old_data.nil? || old_data.empty? || old_data[:First].nil?\n # old_data is a reference to the actual object,\n # so if we update old_data, we're done, no need to take any further action\n old_data.update new_data\n elsif new_data.nil? || new_data.empty? || new_data[:First].nil?\n return old_data\n else\n new_data = new_data.dup # avoid old data corruption\n # number of outline nodes, after the merge\n old_data[:Count] = old_data[:Count].to_i + new_data[:Count].to_i\n # walk the Hash here ...\n # I'm just using the start / end insert-position for now...\n # first - is going to be the start of the outline base node's :First, after the merge\n # last - is going to be the end of the outline base node's :Last, after the merge\n # median - the start of what will be appended to the end of the outline base node's :First\n # parent - the outline base node of the resulting merged outline\n # FIXME implement the possibility to insert somewhere in the middle of the outline\n prev = nil\n pos = first = actual_object((position.nonzero? ? old_data : new_data)[:First])\n last = actual_object((position.nonzero? ? new_data : old_data)[:Last])\n median = { is_reference_only: true, referenced_object: actual_object((position.nonzero? ? new_data : old_data)[:First]) }\n old_data[:First] = { is_reference_only: true, referenced_object: first }\n old_data[:Last] = { is_reference_only: true, referenced_object: last }\n parent = { is_reference_only: true, referenced_object: old_data }\n while pos\n # walking through old_data here and updating the :Parent as we go,\n # this updates the inserted new_data :Parent's as well once it is appended and the\n # loop keeps walking the appended data.\n pos[:Parent] = parent if pos[:Parent]\n # connect the two outlines\n # if there is no :Next, the end of the outline base node's :First is reached and this is\n # where the new data gets appended, the same way you would append to a two-way linked list.\n if pos[:Next].nil?\n median[:referenced_object][:Prev] = { is_reference_only: true, referenced_object: prev } if median\n pos[:Next] = median\n # midian becomes 'nil' because this loop keeps going after the appending is done,\n # to update the parents of the appended tree and we wouldn't want to keep appending it infinitely.\n median = nil\n end\n # iterating over the outlines main nodes (this is not going into subtrees)\n # while keeping every rotations previous node saved\n prev = pos\n pos = actual_object(pos[:Next])\n end\n # make sure the last object doesn't have the :Next and the first no :Prev property\n prev.delete :Next\n actual_object(old_data[:First]).delete :Prev\n end\n end", "def backpropagate\n\t\t# calculate output errors\n\t\toutput_error = []\n\t\t@layers[2].neurons.each_with_index do |neuron, index|\n\t\t\terror = @expected_output[index] - neuron.value\n\t\t\toutput_error[index] = dtanh(neuron.value) * error\n\t\tend\n\n\t\t# calculate hidden errors\n\t\thidden_error = []\n\t\t@layers[1].neurons.each_with_index do |neuron, index|\n\t\t\terror = 0.0\n\t\t\tindex_helper = 0\n\t\t\tneuron.arrows.each do |arrow|\n\t\t\t\terror = error + output_error[index_helper] * arrow.weight\n\t\t\t\tindex_helper += 1\n\t\t\tend\n\t\t\thidden_error[index] = dtanh(neuron.value) * error\n\t\tend\n\n\t\t#update arrow weights going to outputs\n\t\t@layers[1].neurons.each do |neuron|\n\t\t\tneuron.arrows.each_with_index do |arrow, i|\n\t\t\t\tchange = output_error[i] * neuron.value\n\t\t\t\tarrow.weight = arrow.weight + change\n\t\t\tend\n\t\tend\n\t\t\n\t\t#update arrow weights going to hidden layer\n\t\t@layers[0].neurons.each do |neuron|\n\t\t\tneuron.arrows.each_with_index do |arrow, i|\n\t\t\t\tchange = hidden_error[i] * neuron.value\n\t\t\t\tarrow.weight = arrow.weight + change\n\t\t\tend\n\t\tend\n\tend", "def begin_layer(&block)\n @p.begin_layer(self, &block)\n end", "def genCurrentLayer\n end", "def push_all\n # HDLRuby::High.cur_system.hprint(\"push_all\\n\")\n @stack_ptr <= @stack_ptr + 1\n end", "def layer(layer_class, options = {}, &block)\n layer_class = ::Servicer::Layers.const_get(layer_class.to_s.camelcase) if layer_class.is_a?(Symbol)\n layers << layer_class.new(options, &block)\n end", "def run_backpropagate(backward_inputs)\n a_layer_outputs = nil\n a_layer_inputs = backward_inputs\n @layers.reverse[0..-2].each do |layer|\n a_layer_outputs = layer.backward_outputs(a_layer_inputs)\n a_layer_inputs = a_layer_outputs\n end\n a_layer_outputs\n end", "def add_last(data)\n last_node = Node.new(data)\n\n unless head\n @head = last_node\n else\n current_node = @head\n until current_node.next.nil?\n current_node = current_node.next\n end\n current_node.next = last_node\n end\n end", "def add_states(new_states); end", "def _process_load_data(config, index, name, file,\n config_class = PRC::BaseConfig)\n return unless config.layer_index(name).nil?\n\n return if file.nil?\n\n layer = PRC::CoreConfig.define_layer(:name => name,\n :config => config_class.new,\n :load => true,\n :set => false)\n unless File.exist?(file)\n PrcLib.warning(\"Process '%s', data file '%s' doesn't exist.\"\\\n ' Not loaded.', name, file)\n return\n end\n\n begin\n unless layer[:config].load(file)\n PrcLib.warning(\"Process '%s', data file '%s' was not loaded.\",\n name, file)\n end\n rescue => e\n PrcLib.error(\"Process '%s', unable to load data file '%s'. %s\",\n name, file, e.message)\n end\n\n config.layer_add(layer.merge(:index => (config.layers.length - index)))\n end", "def create_all_data_bags\n DATA_BAGS_CONF.keys.each do |bag|\n next if list_data_bags.include? bag\n puts \"TRACE: creating missing data bag #{bag}\" if verbose\n create_data_bag(bag)\n end\nend", "def add_last(data)\n\n if head.nil?\n add_first(data)\n return\n end\n \n node = head\n until node.next.nil?\n node = node.next\n end\n \n node.next = Node.new(data)\n end", "def upsert_nodes(conn, gtfs_id, layer_name)\n layer_id = find_layer_id_from_name(conn, layer_name)\n upsert_stop_nodes_and_stop_node_data(conn, gtfs_id, layer_id)\n upsert_route_nodes(conn, gtfs_id, layer_id)\nend", "def import_baseline_hierarchy\n hierarchy = [{ \"environment_trumps\" => false,\n \"parent\" => Rootuuid,\n \"name\" => \"default\",\n \"rule\" => [\"and\", [\"~\", \"name\", \".*\"]],\n \"variables\" => {},\n \"id\" => Rootuuid,\n \"environment\" => \"production\",\n \"classes\" => {} }]\n import_hierarchy(hierarchy)\n end", "def leafify(n)\n n.extend(Leaf)\n end", "def layer\n brick.layer\n end", "def layer\n brick.layer\n end", "def connect_layers(source, destination)\n\t\tsource.neurons.each do |src_n|\n\t\t\tdestination.neurons.each do |dest_n|\n\t\t\t\tArrow.new(src_n, dest_n)\n\t\t\tend\n\t\tend\n\tend", "def create_layer( name, color, frame_color, stipple )\n\n if @layers[name] == nil \n\n linfo = RBA::LayerInfo.new \n lid = @layout.insert_layer( linfo )\n @layers[name] = lid\n\n lpp = @view.end_layers\n ln = RBA::LayerPropertiesNode::new\n ln.dither_pattern = stipple\n ln.fill_color = color\n ln.frame_color = frame_color\n ln.width = 1\n ln.source_layer_index = lid\n @view.insert_layer( lpp, ln )\n\n else\n lid = @layers[name]\n end\n\n return lid\n\n end", "def prepend(data)\n\t\t@previous_head = @head\n\t\t@head = Node.new(data, @previous_head)\n\tend", "def append_tree( newtree )\n\t\t\tnewtree.each do |node|\n\t\t\t\tself.node_stack.last << node\n\t\t\tend\n\t\tend", "def ordered_topologically\n @ordered_topologically ||= super\n end", "def add_bottom (card)\n @cards.unshift(card);\n end", "def layer=(layer)\n end" ]

[ "0.5955297", "0.5563202", "0.5553294", "0.55439633", "0.53566885", "0.53262013", "0.5261436", "0.52387744", "0.5215683", "0.5156324", "0.51273966", "0.5114609", "0.5104246", "0.50616765", "0.50574696", "0.50460875", "0.50376344", "0.5034433", "0.49607298", "0.49291694", "0.49219343", "0.49003384", "0.4874383", "0.484797", "0.48434615", "0.47948143", "0.47734335", "0.47690076", "0.47639212", "0.47593185", "0.47536835", "0.47481537", "0.4742891", "0.47151864", "0.47085825", "0.47046125", "0.46931767", "0.46928853", "0.46610865", "0.46507192", "0.46481168", "0.46364748", "0.46290565", "0.4616241", "0.46147087", "0.46106562", "0.45922652", "0.458595", "0.4567089", "0.45403805", "0.45336857", "0.45207816", "0.45151114", "0.4514263", "0.45117876", "0.4497542", "0.44936395", "0.44846117", "0.44841826", "0.44839063", "0.44810995", "0.44805473", "0.4463862", "0.4463855", "0.44462433", "0.444607", "0.4440867", "0.44390544", "0.44390544", "0.44350493", "0.44340828", "0.4418205", "0.44155458", "0.44008866", "0.44007182", "0.43991148", "0.43961358", "0.4394216", "0.43895447", "0.43868583", "0.43854347", "0.4371387", "0.43630254", "0.435992", "0.43557563", "0.43471327", "0.43471307", "0.43451178", "0.43423405", "0.4340425", "0.43362403", "0.43348473", "0.43348473", "0.4330074", "0.4317819", "0.43125546", "0.43104848", "0.43066058", "0.43053916", "0.4304933" ]

[ "def update_config(watchers)\n # if we support updating backends, try that whenever possible\n if @opts['do_socket']\n update_backends(watchers)\n else\n @restart_required = true\n end\n \n # generate new config\n new_config = generate_config(watchers)\n new_config = new_config.flatten.join(\"\\n\")\n \n # if we write config files, lets do that and then possibly restart\n if @opts['do_writes']\n write_config(new_config)\n restart if @opts['do_reloads'] && @restart_required\n end\n end", "def update_config(watchers)\n # if we support updating backends, try that whenever possible\n if @opts['do_socket']\n update_backends(watchers)\n else\n @restart_required = true\n end\n\n # generate a new config\n generate_config(watchers)\n\n end", "def configure\n reconfigure_notifier\n end", "def configure\n reconfigure_notifier\n end", "def register_worker\n super\n\n puts \"Fifo Startup - Updating worker list\"\n manager.request_refresh\n end", "def update_config\r\n\r\nlogger.warn(\"Warning: Executing deprecated method 'update_config' from BgWorker\")\r\nreturn true\r\nconfig_file = Rails.root.join('config', 'backgroundrb.yml')\r\nconfig = YAML.load(File.open(config_file, 'r'))\r\nconfig[:schedules] ||= {}\r\nlogger.debug(\"config: #{config.inspect}\")\r\nif self.enabled?\r\n config[:schedules] = {\"#{self.name.underscore.gsub(/\\s/, '_')}_worker\".to_sym => {:do_work => {:trigger_args => self.to_cron_format }}}\r\nelse\r\n config[:schedules].delete(\"#{self.name.underscore.gsub(/\\s/, '_')}_worker\".to_sym)\r\nend\r\nFile.open(config_file, \"w\") do |out|\r\n YAML.dump(config, out)\r\nend\r\nend", "def create_monit_config\n # Scope closureeeeeee.\n _options = options\n _pid_file = pid_file\n _parent = service_resource.parent\n _script_path = script_path\n monit_config new_resource.service_name do\n if _options['monit_template']\n # If we have a template override, allow specifying a cookbook via\n # \"cookbook:template\".\n parts = _options['monit_template'].split(/:/, 2)\n if parts.length == 2\n source parts[1]\n cookbook parts[0]\n else\n source parts.first\n cookbook new_resource.cookbook_name.to_s\n end\n else\n source 'monit_service.conf.erb'\n cookbook 'poise-monit'\n end\n parent _parent\n variables service_resource: new_resource, options: _options, pid_file: _pid_file, script_path: _script_path\n # Don't trigger a restart if the template doesn't already exist, this\n # prevents restarting on the run that first creates the service.\n restart_on_update = _options.fetch('restart_on_update', new_resource.restart_on_update)\n if restart_on_update && ::File.exist?(path) # Path here is accessing MonitConfig::Resource#path.\n mode = restart_on_update.to_s == 'immediately' ? :immediately : :delayed\n notifies :restart, new_resource, mode\n end\n end\n end", "def worker_config\n worker = JSON.parse(SideJob.redis.get(\"#{redis_key}:worker\"))\n SideJob::Worker.config(worker['queue'], worker['class']) || {}\n end", "def worker_config\n if BDRB_CONFIG[:workers] && BDRB_CONFIG[:workers][worker_name.to_sym]\n BDRB_CONFIG[:workers][worker_name.to_sym]\n else\n {}\n end\n end", "def worker_initial_config\n\n end", "def workers=(workers_config)\n @workers = if workers_config.nil?\n DEFAULT_WORKERS\n else\n workers_config.slice(1, workers_config.length).to_i\n end\n end", "def sync_configuration\n end", "def run\n evq = Queue.new\n\n if @config.file_path\n dir = File.dirname @config.file_path\n filter = %r{#{File.basename @config.file_path}$}\n @cfg_listener = Listen.to dir do |*args|\n next unless args.reduce(&:+).include? @config.file_path\n if @listener\n puts statusbar \"Re-loading Config File...\", &:yellow\n @listener.stop\n evq.push true\n end\n end\n @cfg_listener.start\n end\n\n # on C-c tell all listeners to stop\n Signal.trap \"INT\", \"DEFAULT\"\n\n # loop forever listening, each time the above block causes the listener\n # to stop it will re-start listening with the new config.\n while true\n do_listening\n break unless evq.pop\n @config.reload\n end\n end", "def default_configuration!(config, options = {})\n options[:threads] ||= config.default_threads\n config.registry.each do |name, klass|\n klass.available_jobs.each do |method|\n add_worker Woodhouse::Layout::Worker.new(name, method, options)\n end\n end\n end", "def update_config(params)\n services = services_from_params(params)\n to = get_param(params, :to)\n if @environment.in_dry_run_mode\n services.each do |agent|\n notify(:msg => \"[#{@name}] Would update the configuration of #{agent.host} (#{agent.type}) to version #{to}\",\n :tags => [:galaxy, :dryrun])\n end\n services\n else\n command = ::Galaxy::Commands::UpdateConfigCommand.new([ to ], @galaxy_options)\n command.report = GalaxyGatheringReport.new(@environment,\n '[' + @name + '] Updated the configuration of #{agent.host} (#{agent.type}) to ' + to,\n [:galaxy, :trace])\n execute(command, services)\n command.report.results\n end\n end", "def setup\n logger.info 'setup workers'\n\n setup_refresh_timer\n setup_analyze_timer\n end", "def [](config)\n ensure_config_file_exists\n @@config ||= HashWithIndifferentAccess.new(YAML.parse_file(CONFIG_FILE).to_ruby)\n @@config[:watch_tower].send(:[], config)\n end", "def update_all_config\n @admin.updateConfiguration\n end", "def validate!\n Server.config.validate!\n Server.config.workers.each { |w| w.validate! }\n end", "def update_all_worker_deployed\n self.all_worker_deployed = false\n true\n end", "def worker_initial_config\n # send blast_cmd to workers\n {:blast_cmd=>@@blast_cmd}\n end", "def init_worker\n worker = FChange::Notifier.new\n @directories.each do |directory|\n watcher = worker.watch(directory, :all_events, :recursive) do |event|\n next if @paused\n @mutex.synchronize do\n @changed_dirs << File.expand_path(event.watcher.path)\n end\n end\n worker.add_watcher(watcher)\n end\n worker\n end", "def sync_configuration!\n load_configuration_if_needed! and save\n save_configuration_if_needed!\n end", "def generate_config(watchers)\n watchers.each do |watcher|\n # if service doesnt have backup block, skip it\n next unless watcher.backup\n log.info \"#{watcher.name} - #{watcher.backends} - #{watcher.haproxy} - #{watcher.backup}\"\n \n @watcher_configs[watcher.name] = parse_watcher_config(watcher)\n backup_conf_file = watcher.backup['backup_conf_file']\n cron_conf_file = watcher.backup['cron_conf_file']\n gzip = watcher.backup['gzip']\n name = watcher.name\n\n # generate backup config\n databases_stanza = generate_stanza(\"#{@backup['databases']['type']}.erb\", @watcher_configs[watcher.name]['databases'])\n storages_stanza = generate_stanza(\"#{@backup['storages']['type']}.erb\", @watcher_configs[watcher.name]['storages'])\n notifiers_stanza = generate_stanza(\"#{@backup['notifiers']['type']}.erb\", @watcher_configs[watcher.name]['notifiers'])\n final_config = generate_backup(name, databases_stanza, storages_stanza, notifiers_stanza, gzip)\n log.info \"config array is #{final_config}\"\n\n write_config(final_config, backup_conf_file)\n\n # generate cron job config \n run_command = \"#{@opts['run_command']} --config-file #{@opts['config_file']} --trigger #{name}\"\n cron_config = \"#{watcher.backup['cron']} #{run_command} > /dev/null 2>&1\"\n\n if @opts['do_cron']\n write_config(cron_config, cron_conf_file)\n end\n end\n end", "def watch\n paths = [ Rails.root.join('app'), Rails.root.join('lib') ]\n @worker.log \"Watching files in #{paths}\"\n\n reloader = ActiveSupport::FileUpdateChecker.new(paths) { rework }\n Rails.application.reloaders << reloader\n\n ActionDispatch::Reloader.to_prepare do\n reloader.execute_if_updated\n end\n\n true\n end", "def update!(**args)\n @configs = args[:configs] if args.key?(:configs)\n end", "def _init_worker\n INotify::Notifier.new.tap do |worker|\n _directories_path.each { |path| worker.watch(path, *EVENTS, &_worker_callback) }\n end\n end", "def update_whenever \n begin\n ::Whenever::CommandLine.execute({:update => true, :file => \"#{Rails.root}/config/schedule.rb\"})\n rescue SystemExit # whenever quits after updating cron jobs, we need to stop him\n end\n end", "def setup_watcher\n this = self\n Handler.send(:define_method, :app) do\n this\n end\n\n @@load_paths.each do |name, path|\n Dir[\"#{self.app_path}/#{path}\"].each do |f|\n EM.watch_file(f, Handler)\n end\n end\n end", "def configure worker,worker_config\n if worker_config[\"maximum_size\"]>0\n @queues[worker]=SizedQueue.new(worker_config[\"maximum_size\"])\n else\n @queues[worker]=Queue.new\n end\n configuration(worker)\n end", "def save_persist_state\n return unless @persist_file\n new_persist_options = {}\n BaseWorker.worker_classes.each do |worker_class|\n worker_class.each_config(@adapter_factory.worker_config_class) do |config_name, ignored_extended_worker_config_class, default_options|\n static_options = default_options.merge(@worker_options[config_name] || {})\n worker_config = self[config_name]\n hash = {}\n # Only store off the config values that are specifically different from default values or values set in the workers.yml file\n # Then updates to these values will be allowed w/o being hardcoded to an old default value.\n worker_config.bean_get_attributes do |attribute_info|\n if attribute_info.attribute[:config_item] && attribute_info.ancestry.size == 1\n param_name = attribute_info.ancestry[0].to_sym\n value = attribute_info.value\n hash[param_name] = value if static_options[param_name] != value\n end\n end\n new_persist_options[config_name] = hash unless hash.empty?\n end\n end\n if new_persist_options != @persist_options\n @persist_options = new_persist_options\n File.open(@persist_file, 'w') do |out|\n YAML.dump(@persist_options, out )\n end\n end\n end", "def reload(config)\n # ...\n end", "def reload_configs\n Berkshelf.chef_config = chef_config\n\n # This fucking sucks...\n # load 'berkshelf/chef/config.rb'\n load \"berkshelf/config.rb\"\n\n Berkshelf.config = Berkshelf::Config.new\n nil\n end", "def work\n configuration_yaml_path = File.expand_path(\"#{File.dirname(__FILE__)}/../../../../../db/config.yml\")\n configuration = MobME::Infrastructure::Configurdation.load_using_file(configuration_yaml_path)\n @configuration = configuration[self.class.service_name]\n # Untested JSON parsing done here. This is because we expect configuration to return a Hash, not a string.\n logger.info \"Listening on queue with service name #{self.class.service_name}...\"\n work_loop\n end", "def configure\n load_all_configs \n end", "def start_messages\n Server.log.info(\"* Worker count: #{@configs.count}\")\n end", "def init_worker\n callback = Proc.new do |change|\n next if @paused\n @mutex.synchronize do\n @changed_dirs << File.dirname(change.path)\n end\n end\n\n WDM::Monitor.new.tap do |worker|\n @directories.each { |d| worker.watch_recursively(d, &callback) }\n end\n end", "def run_on_change(paths = {})\n restart_and_ping\n end", "def build_worker\n worker = WorkerConfig.new\n yield worker\n worker\n end", "def reconfigure(config)\n icfg = config.internal\n\n icfg.processing.coordinator_class = Processing::Coordinator\n icfg.processing.partitioner_class = Processing::Partitioner\n icfg.processing.scheduler = Processing::Scheduler.new\n icfg.processing.jobs_builder = Processing::JobsBuilder.new\n\n icfg.active_job.consumer_class = ActiveJob::Consumer\n icfg.active_job.dispatcher = ActiveJob::Dispatcher.new\n icfg.active_job.job_options_contract = ActiveJob::JobOptionsContract.new\n\n config.monitor.subscribe(PerformanceTracker.instance)\n end", "def action_add\n notifying_block do\n create_config\n end\n end", "def watch_file\n if sync_up? && (@watcher.nil? || !@watcher.alive?)\n BBLib.logger.debug(\"Spinning up a configuration watcher for #{path}\")\n @watcher = Thread.new do\n loop do\n break unless sync_up?\n if path && File.exist?(path) && File.mtime(path) > last_refresh\n reload\n end\n sleep(interval)\n end\n end\n end\n end", "def setup\n @auto_update = true\n super\n reload rescue update\n end", "def configure(&block)\n root_notifier.configure(&block)\n\n plugins.load!\n end", "def reload_config\n @config = YAML.load_file('config/mse_router_info.yml')\n end", "def add_appserver_monit\n opts = {\n app_shortname: app['shortname'],\n adapter: adapter,\n appserver_command: appserver_command,\n appserver_name: adapter,\n deploy_to: deploy_dir(app),\n environment: embed_environment_in_monit? ? environment : {},\n source_cookbook: appserver_monit_template_cookbook\n }\n file_path = File.join(node['monit']['basedir'],\n \"#{opts[:appserver_name]}_#{opts[:app_shortname]}.monitrc\")\n context.template file_path do\n mode '0640'\n source \"#{opts[:adapter]}.monitrc.erb\"\n cookbook opts[:source_cookbook].to_s\n variables opts\n notifies :run, 'execute[monit reload]', :immediately\n end\n end", "def worker= w\n @worker = w\n end", "def restart_workers_on_latest\n send_status( 'Info', \"Stop and restart all running workers on latest revision\")\n @WORKERS.keys.each do |id|\n info= @WORKERS[id]\n if info['status']=='RUN' # WIP\n cmd= info['cmd'].clone\n #cmd['revision']= '_latest'\n #cmd['revision_small'] = '_latest'\n rev = find_revision( '_latest' )\n cmd['revision']= rev['revision']\n cmd['revision_small']= rev['revision_small']\n @TORESTART[id]= cmd\n manage_worker( { 'worker_id' => id, 'action' => 'QUIT' } )\n end\n end\n @RRESTART= false\n end", "def reload_config!\n @config = nil\n load_config!\n self\n end", "def reconfig\n KEYS_AND_QUESTIONS.each do |key, question|\n ask_question_and_force_update_config(question, key)\n end\n config_update_success\n end", "def main()\n # create the worker\n w = Worker.new\n # let him load his settings from the yamlfile\n w.load_settings\n \n # initialize the mails in the maildir\n w.init_mails\n w.init_senders\n w.init_author_mails\n w.unknown_authors\n w.author_mails\n puts\n w.mails_per_day\n \n unm = w.init_mailers\n puts\n w.unknown_mailers(unm)\n \n w.used_mailers\nend", "def update_workers\n mongo_driver = Kymera::MongoDriver.new(address, port, database, 'workers')\n @registered_workers = mongo_driver.get_collection('workers')\n end", "def reconfigure(&block)\n root_notifier.reconfigure(&block)\n end", "def update_admins\n\n @notification_types_config_hash.each do |n_type, data|\n include_admin_ids = @email_setting[n_type.to_s]\n\n @admins.each do |admin|\n if include_admin_ids.include?(admin.id)\n admin.send(\"set_#{n_type.to_s}\")\n else\n admin.send(\"unset_#{n_type.to_s}\")\n end\n end\n\n end\n\n @admins.each do |admin|\n if admin.changed?\n admin.save!\n @was_notification_setting_updated = true\n end\n end\n\n return error_with_data(\n 's_cm_uens_ua_1',\n 'Invalid parameters',\n 'You are choosing to save existing settings.',\n GlobalConstant::ErrorAction.default,\n {}\n ) if !@was_notification_setting_updated\n\n success\n end", "def apply_computed_config\n Meggy::Config[:color] = config[:color]\n\n case Meggy::Config[:verbosity]\n when 0, nil\n Meggy::Config[:log_level] = :error\n when 1\n Meggy::Config[:log_level] = :info\n else\n Meggy::Config[:log_level] = :debug\n end\n\n Meggy::Config[:email] = config[:email] if config[:email]\n Meggy::Config[:api_key] = config[:api_key] if config[:api_key]\n\n # Expand a relative path from the config directory. Config from command\n # line should already be expanded, and absolute paths will be unchanged.\n Mixlib::Log::Formatter.show_time = false\n Megam::Log.init(Meggy::Config[:log_location])\n Megam::Log.level(Meggy::Config[:log_level] || :error)\n end", "def init_worker\n @worker = INotify::Notifier.new\n @worker.watch(@directory, *EVENTS.map(&:to_sym)) do |event|\n next if @paused\n \n unless event.name == \"\" # Event on root directory\n @changed_dirs << File.dirname(event.absolute_name)\n end\n end\n end", "def perform\n track do\n runner.tick!\n @changes = Hash.new { |h, k| h[k] = Accumulator.new }\n\n @registry.each do |mapping|\n mapping.for_worker(self) do\n task(\"PROPAGATING RECORDS\", mapping) { propagate mapping }\n task(\"CLEANING RECORDS\", mapping) { clean mapping }\n task(\"COLLECTING CHANGES\", mapping) { collect mapping }\n task(\"UPDATING ASSOCIATIONS\", mapping) { associate mapping }\n end\n end\n\n # NOTE: We can only perform the synchronization after all record\n # changes have been aggregated, so this second loop is necessary.\n @registry.each do |mapping|\n mapping.for_worker(self) do\n task(\"APPLYING CHANGES\", mapping) { synchronize mapping }\n end\n end\n end\n end", "def update_configs!(config_params)\n config_params.each do |config|\n value = config[1].to_s\n #find the config\n configuration = UniversalAr::Configuration.find(config[0])\n if !configuration.nil?\n configuration.create_or_update_config(self, config[1])\n end\n end\n end", "def configure(update); end", "def apply_config!\n if self.connect then\n @ssh_connection.exec!(\"/usr/etc/rc.d/rc.softrestart\") or raise\n #@ssh_connection.exec!(\"ubntconf -c /tmp/system.cfg\") or raise\n #@ssh_connection.exec!(\"cfgmtd -p /etc/\") or raise\n #@ssh_connection.exec!(\"reboot\") or raise\n end\n end", "def _reload_app_yml\n App::build_settings_hash\n end", "def update_notification_config(cfg)\n http_put(notification_config_url(), cfg)\n end", "def configure_meggy\n unless config[:config_file]\n locate_config_file\n end\n # Don't try to load a meg.rb if it doesn't exist.\n if config[:config_file]\n Megam::Log.debug(\"Using configuration from #{config[:config_file]}\")\n read_config_file(config[:config_file])\n else\n # ...but do log a message if no config was found.\n Meggy::Config[:color] = config[:color]\n text.warn(\"No meg configuration file found\")\n end\n\n merge_configs\n apply_computed_config\n end", "def update_config\n @config_id = (@config_id + 1) % 2**24\n stop_ssdp_server\n notify :alive\n end", "def setup\n unless APP_CONFIG['single_server']\n @logger.info \"Multiple server mode activated\"\n $redis_listen = EM::Hiredis.connect(APP_CONFIG['redis_url'])\n $redis = EM::Hiredis.connect(APP_CONFIG['redis_url'])\n\n if ENV['TUBEHUB_MODE'] == 'backend'\n $redis_listen.subscribe APP_CONFIG['redis_channel']\n $redis_listen.on(:message) do |channel, msg|\n handle_redis_event((JSON.parse(msg) rescue {}))\n end\n end\n end\n\n reload_channels\n end", "def run_on_changes(paths = [])\n @runner.reload\n end", "def update_config(current, new)\n current.merge! new\n end", "def config_updated(config)\n puts green(\"Config updated at: #{config}\")\n end", "def add_common_configs config\n # Mount the synced folders.\n self.synced_folders do | entry |\n config.vm.synced_folder entry[\"path\"], entry[\"name\"]\n end\n # Forward the ssh port. The id ensures that this is used instead of 2222\n # rather than in addition to.\n config.vm.network :forwarded_port, host: self.ssh_port, guest: 22, id: \"ssh\"\n end", "def reload\n restart_and_ping\n end", "def reload\n if !persist_memory?\n self.configuration = load_config\n elsif prefer_memory\n self.configuration = load_config.deep_merge(configuration)\n else\n self.configuration = configuration.deep_merge(load_config)\n end\n self.last_refresh = Time.now\n on_reload.call(configuration) if on_reload\n true\n end", "def initialize(adapter_factory, options={})\n @adapter_factory = adapter_factory\n options = @@default_options.merge(options)\n @stopped = false\n @name = options[:name] || Qwirk::DEFAULT_NAME\n @poll_time = options[:poll_time] || 3.0\n @stop_time = options[:stop_time]\n @worker_configs = []\n @env = options[:env]\n @worker_options = parse_worker_file(options[:worker_file])\n @persist_file = options[:persist_file]\n @persist_options = (@persist_file && File.exist?(@persist_file)) ? YAML.load_file(@persist_file) : {}\n\n BaseWorker.worker_classes.each do |worker_class|\n worker_class.each_config(adapter_factory.worker_config_class) do |config_name, extended_worker_config_class, default_options|\n # Least priority is config default_options defined in the Worker class, then the workers.yml file,\n # highest priority is persist_file (ad-hoc changes made manually)\n options = {}\n options = options.merge(@worker_options[config_name]) if @worker_options[config_name]\n options = options.merge(@persist_options[config_name]) if @persist_options[config_name]\n worker_config = extended_worker_config_class.new(adapter_factory, config_name, self, worker_class, default_options, options)\n bean_add_child(config_name, worker_config)\n @worker_configs << worker_config\n end\n end\n\n start_timer_thread\n at_exit { stop }\n end", "def before_update(params_to_update=[])\n transport.command(\"enable\")\n transport.command(\"conf\", :prompt => /\\(conf\\)#\\s?\\z/n)\n end", "def _configure(dir, &callback)\n opts = { latency: options.latency }\n\n @workers ||= ::Queue.new\n @workers << FSEvent.new.tap do |worker|\n _log :debug, \"fsevent: watching: #{dir.to_s.inspect}\"\n worker.watch(dir.to_s, opts, &callback)\n end\n end", "def sync_config\n return unless config.config_files\n upload_files(config.config_files, release_path.join('config'))\n end", "def update_workers\n self.workers.delete_if do |worker| \n worker_complete_statuses.include?( Sidekiq::Status::status(worker[:id]) )\n end\n end", "def setup!\n Patches::Queue.apply!\n\n Sidekiq.configure_server do |config|\n config.on(:startup) { start_watcher }\n config.on(:quiet) { stop_watcher }\n\n @communicator.receive(PAUSE_MESSAGE, &method(:add))\n @communicator.receive(RESUME_MESSAGE, &method(:delete))\n @communicator.ready { sync! }\n end\n end", "def configure\n super()\n syncer_klass.configure(settings) if syncer_klass\n end", "def init_run_conf\n exclusively do\n if @next_run_conf\n @run_conf = @next_run_conf\n @next_run_conf = nil\n else\n @run_conf = new_run_conf\n end\n\n @run_conf.save\n end\n end", "def enable_hot_configure!\n \n # client side configuration \n boot_client!\n \n LOG.info \"Enabling hot configuration on the client side.\"\n \n ActiveMessaging::System.configure do |my|\n \n my.destination ActiveMessaging::HOT_CONFIG_DEST, \n '/topic/hot_config', \n :drb_uri => 'druby://localhost:8408'\n \n end\n \n # server side configuration - if we haven't called #boot_server!\n # we assume we don't need to do this\n if @server_ready \n \n LOG.info \"Enabling hot configuration on the server side.\"\n\n ActiveMessaging::System.configure do |my|\n my.processor ActiveMessaging::HOT_CONFIG_DEST, \n ActiveMessaging::ConfigurationProcessor\n end\n end\n \n end", "def work\n poll_interval = @config.get(PROVISIONER_WORKER_POLL_INTERVAL).to_i || 1\n poll_error_interval = @config.get(PROVISIONER_WORKER_POLL_ERROR_INTERVAL).to_i || 10\n server_uri = @config.get(PROVISIONER_SERVER_URI)\n\n $PROGRAM_NAME = \"#{$PROGRAM_NAME} (tenant: #{@tenant}, provisioner: #{@provisioner_id}, worker: #{@name})\"\n\n log.info \"Starting worker with id #{@worker_id}, connecting to server #{@config.get(PROVISIONER_SERVER_URI)}\"\n\n loop do\n result = nil\n\n # Poll Coopr Server until a task is retrieved\n task = _poll_server_and_retrieve_task\n\n # While running task, trap and queue TERM signal to prevent shutdown until task is complete\n sigterm = Coopr::Worker::SignalHandler.new('TERM')\n sigterm.dont_interupt do\n begin\n result = delegate_task(task)\n\n result = {} if result.nil? == true\n result['workerId'] = @worker_id\n result['taskId'] = task['taskId']\n result['provisionerId'] = @provisioner_id\n result['tenantId'] = @tenant\n\n log.debug \"Task <#{task['taskId']}> completed, updating results <#{result}>\"\n begin\n response = Coopr::RestHelper.post \"#{server_uri}/v2/tasks/finish\", result.to_json\n rescue StandardError => e\n log.error \"Caught exception posting back to coopr server #{server_uri}/v2/tasks/finish: #{e}\"\n end\n rescue StandardError => e\n result = {} if result.nil? == true\n result['status'] = '1'\n result['workerId'] = @worker_id\n result['taskId'] = task['taskId']\n result['provisionerId'] = @provisioner_id\n result['tenantId'] = @tenant\n if e.class.name == 'CommandExecutionError'\n log.error \"#{e.class.name}: #{e.to_json}\"\n result['stdout'] = e.stdout\n result['stderr'] = e.stderr\n else\n result['stdout'] = e.inspect\n result['stderr'] = \"#{e.inspect}\\n#{e.backtrace.join(\"\\n\")}\"\n end\n log.error \"Task <#{task['taskId']}> failed, updating results <#{result}>\"\n begin\n response = Coopr::RestHelper.post \"#{server_uri}/v2/tasks/finish\", result.to_json\n rescue StandardError => e\n log.error \"Caught exception posting back to server #{server_uri}/v2/tasks/finish: #{e}\"\n end\n end\n end\n\n break if @once\n\n sleep 5\n end\n end", "def reload_on_change(name)\n logger.debug \"reload_on_change(#{name.inspect}), reload_disabled=#{self.reload_disabled?}\"\n if changed = config_changed?(name) && reload?\n if self.cache_hash[name]\n flush_cache(name) # flush cached config values.\n fire_on_load(name) # force on_load triggers.\n end\n end\n changed\n end", "def action_deploy\n notifying_block do\n write_config\n end\n end", "def after_sync_configuration\n unless Jetpants.topology.pools.include? self\n Jetpants.topology.add_pool self\n end\n end", "def set_worker\n @worker = current_admin.workers.find(params[:id])\n end", "def config_passenger\n Speedy::PassengerConfig.run!\n end", "def options_update_config(event, hash)\n return if(@test_running)\n $conf.update_config(hash)\n clear_gui_and_results() if(hash.has_key?(:scan_mode) || hash.has_key?(:scan_type) )\n ws_sync_from_conf() if(hash.has_key?(:sslv2) || hash.has_key?(:tlsv1)|| hash.has_key?(:sslv3) )\n event.skip\n end", "def startup_config_check\n\t\tfw_connect\n\t\t# they are ALL stale right now...\n\t\tcheck_config_freshness\n\t\tpending = get_pending_commits\n\t\tdo_pending_commits(pending) if pending != 0\n\t\tfw_exit\n\tend", "def run_on_change(paths = {})\n @reloaded = true\n restart_without_waiting\n end", "def update!(**args)\n @disable_retries = args[:disable_retries] if args.key?(:disable_retries)\n @restart_job_on_worker_restart = args[:restart_job_on_worker_restart] if args.key?(:restart_job_on_worker_restart)\n @timeout = args[:timeout] if args.key?(:timeout)\n end", "def registered(mon)\n @monitor = mon\n @config = EzNemo.config[:monitor][:ping] if EzNemo.config[:monitor]\n @config ||= {}\n @config[:path] ||= 'ping'\n @config[:min_interval] ||= DEFAULT_MIN_INTERVAL\n @config[:timeout] ||= DEFAULT_TIMEOUT\n EzNemo.logger.info 'Ping plugin registered.'\n end", "def update!(**args)\n @import_configs = args[:import_configs] if args.key?(:import_configs)\n end", "def start_worker\n @worker = Thread.new do\n loop do\n fill_cache\n watch_to_update_cache\n rescue StandardError => e\n # need to keep retrying since we work in the background\n @logger&.error(\"ignoring error during background work #{e}\")\n ensure\n sleep(1) # do not overwhelm the api-server if we are somehow broken\n end\n end\n sleep(0.01) until @cache\n end", "def run\n capture_signals\n load_config\n\n EM.synchrony do\n connect\n start_throttle\n end\n end", "def assign(work)\n if workers_available?\n @worker = Worker.new(work, @options)\n @worker.start\n @worker = nil\n true\n end\n end", "def sidekiq_setup\n Sidekiq.configure_server do |config|\n config.server_middleware do |chain|\n chain.add SidekiqPrometheus::JobMetrics\n end\n\n if periodic_metrics_enabled?\n config.on(:startup) { SidekiqPrometheus::PeriodicMetrics.reporter.start }\n config.on(:shutdown) { SidekiqPrometheus::PeriodicMetrics.reporter.stop }\n end\n\n config.on(:startup) { SidekiqPrometheus.metrics_server }\n config.on(:shutdown) { SidekiqPrometheus.metrics_server.kill }\n end\n end", "def load_config(file = nil)\n file ||= \"#{config_dir}/worker.rb\"\n return unless File.exists?(file)\n\n eval(IO.read(file))\n end", "def run_on_changes(_)\n restart\n end", "def start_watching_cluster\n Watchers::DeployWatcher.restart_watcher(project)\n end", "def reload_config\n @config = Configuration.new(@editor.path_to_current_file)\n end" ]

[ "0.68938214", "0.68346053", "0.6185509", "0.6185509", "0.57673967", "0.57658094", "0.5631432", "0.56131184", "0.5587085", "0.5576688", "0.54665625", "0.5446035", "0.54038054", "0.5391812", "0.53782654", "0.5361005", "0.53486735", "0.5347836", "0.5334686", "0.53193", "0.5317946", "0.530278", "0.5288468", "0.5287968", "0.5261343", "0.52581924", "0.5245057", "0.5240785", "0.5240738", "0.52294016", "0.521438", "0.51976836", "0.51814204", "0.5167472", "0.51375145", "0.51333886", "0.5116134", "0.51131296", "0.51110804", "0.50805056", "0.5075906", "0.50608504", "0.50565416", "0.5050314", "0.5046273", "0.5025239", "0.50158346", "0.4984443", "0.49827254", "0.4981366", "0.49742588", "0.49729282", "0.49620777", "0.49571103", "0.49555743", "0.49385014", "0.4938316", "0.49371472", "0.4927749", "0.4918754", "0.49185458", "0.49183333", "0.49152628", "0.49061418", "0.49043107", "0.4894678", "0.489328", "0.4889526", "0.4883007", "0.48817757", "0.488044", "0.486721", "0.48641062", "0.4862465", "0.48429036", "0.4838201", "0.48339987", "0.48206532", "0.48137453", "0.48126143", "0.481137", "0.48108712", "0.48009375", "0.47970742", "0.4795379", "0.47939175", "0.47917423", "0.47898877", "0.47896782", "0.47886568", "0.4787859", "0.47814727", "0.47773477", "0.47699472", "0.47627717", "0.4761439", "0.47599187", "0.47540694", "0.4753701", "0.4750756" ]

[ "def set_required_actions\n # TODO: check what fields change to asign required fields\n end", "def action_hook; end", "def run_actions; end", "def define_action_hook; end", "def actions; end", "def define_action_helpers\n if super && action == :save\n @instance_helper_module.class_eval do\n define_method(:valid?) do |*args|\n self.class.state_machines.fire_event_attributes(self, :save, false) { super(*args) }\n end\n end\n end\n end", "def add_actions; end", "def callbacks; end", "def callbacks; end", "def setup *actions, &proc\n (@setup_procs ||= []) << [proc, actions.size > 0 ? actions : [:*]]\n end", "def define_action_helpers; end", "def post_setup\n end", "def action_methods; end", "def action_methods; end", "def action_methods; end", "def before_setup; end", "def action_run\n end", "def execute(setup)\n @action.call(setup)\n end", "def define_action_helpers?; end", "def set_actions\n actions :all\n end", "def action_done(action)\n dispatch = { :migrate => :done_migrating, :map => :done_mapping, :reduce =>\n :done_reducing, :finalize => :done_finalizing } \n self.send dispatch[action[:action]], action\n end", "def dependencies action, &block\n @actions.each do |other|\n if action[:requires].include? other[:provide]\n block.call other\n end\n end\n end", "def setup!\n return unless @setup_procs\n http_actions = actions\n @setup_procs.each do |setup_proc|\n proc, actions = setup_proc\n @setup__actions = actions.map do |action|\n\n action.is_a?(Regexp) ?\n http_actions.select { |a| a.to_s =~ action } :\n action.is_a?(String) && action =~ /\\A\\./ ?\n http_actions.map { |a| a.to_s << action if format?(a).include?(action) }.compact :\n action\n\n end.flatten\n self.class_exec &proc\n @setup__actions = nil\n end\n @setup_procs = nil\n end", "def before_actions(*logic)\n self.before_actions = logic\n end", "def setup_handler\n end", "def set_action(opts)\n opts = check_params(opts,[:actions])\n super(opts)\n end", "def setup(action)\n @targets.clear\n unless action.item.target_filters.empty?\n @targets = SES::TargetManager.make_targets(action)\n else\n item = action.item\n if item.for_opponent?\n @targets = $game_troop.alive_members\n elsif item.for_dead_friend?\n @targets = $game_party.battle_members.select { |actor| actor.dead? }\n else\n $game_party.battle_members.select { |actor| actor.alive? }\n end\n end\n @item_max = @targets.size\n create_contents\n refresh\n show\n activate\n end", "def action; end", "def action; end", "def action; end", "def action; end", "def action; end", "def workflow\n end", "def revisable_shared_setup(args, block)\n class << self\n attr_accessor :revisable_options\n end\n options = args.extract_options!\n self.revisable_options = Options.new(options, &block)\n \n self.send(:include, Common)\n self.send(:extend, Validations) unless self.revisable_options.no_validation_scoping?\n self.send(:include, WithoutScope::QuotedColumnConditions)\n end", "def setup\n @action = SampleActionAndroid.new(os_name: 'android',\n app_name: APP_PATH)\n end", "def before(action)\n invoke_callbacks *self.class.send(action).before\n end", "def process_action(...)\n send_action(...)\n end", "def before_dispatch(env); end", "def after_actions(*logic)\n self.after_actions = logic\n end", "def setup\n # override and do something appropriate\n end", "def setup(client)\n return unless @setup\n actions = @setup['setup'].select { |action| action['do'] }.map { |action| Action.new(action['do']) }\n actions.each do |action|\n action.execute(client)\n end\n self\n end", "def setup(_context)\n end", "def setup(resources) ; end", "def validate_actions\n errors.add(:base, :should_give_at_least_one_action) if !manage? && !forecasting? && !read? && !api?\n end", "def setup\n @resource_config = {\n :callbacks => {\n :before_create => nil,\n :after_create => nil,\n :before_update => nil,\n :after_update => nil,\n :before_destroy => nil,\n :after_destroy => nil,\n },\n :child_assoc => nil,\n :model => nil,\n :parent => nil,\n :path => nil,\n :permission => {},\n :properties => {},\n :relation => {\n :create => nil,\n :delete => nil,\n },\n :roles => nil,\n }\n end", "def determine_valid_action\n\n end", "def process_shared\n handle_taxes\n handle_shippings\n create_adjustments_from_params\n handle_status\n handle_inventory_refunds\n handle_payment_transactions\n order.updater.update\n end", "def startcompany(action)\n @done = true\n action.setup\n end", "def init_actions\n am = action_manager()\n am.add_action(Action.new(\"&Disable selection\") { @selection_mode = :none; unbind_key(32); bind_key(32, :scroll_forward); } )\n am.add_action(Action.new(\"&Edit Toggle\") { @edit_toggle = !@edit_toggle; $status_message.value = \"Edit toggle is #{@edit_toggle}\" })\n end", "def event_callbacks(event, metadata={})\n case event\n when :reset, :review\n if confirmed\n update_attributes(confirmed: false)\n end\n when :confirm\n confirm\n # trigger :order for all applicable items\n # NOTE: :order event is common to both physical and digital items\n items.each do |i|\n if i.event_permitted(:order)\n user_id = last_transition.user_id\n i.trigger!(:order, { order_id: id, user_id: user_id })\n end\n end\n when :complete_work\n request = metadata[:request]\n work_complete_notification(request)\n when :close\n close\n end\n if event != :close && !open\n reopen\n end\n end", "def setup_action\n return unless PONY::ERRNO::check_sequence(current_act)\n new_sequence = @action_sequence[@sequence_index+1...@action_sequence.size]\n @sequence_index = 0\n new_sequence = DND::SkillSequence::ACTS[@acts[1]] + new_sequence\n execute_sequence\n end", "def define_tasks\n define_weave_task\n connect_common_tasks\n end", "def setup(&block)\n define_method(:setup, &block)\n end", "def setup\n transition_to(:setup)\n end", "def setup\n transition_to(:setup)\n end", "def action\n end", "def setup( *args )\n\t\t\tself.class.setupBlocks.each {|sblock|\n\t\t\t\tdebugMsg \"Calling setup block method #{sblock}\"\n\t\t\t\tself.send( sblock )\n\t\t\t}\n\t\t\tsuper( *args )\n\t\tend", "def config(action, *args); end", "def setup\n @setup_proc.call(self) if @setup_proc\n end", "def before_action \n end", "def setup_callbacks\n defined_callbacks.each do |meth|\n unless respond_to?(\"call_#{meth}_callbacks\".to_sym)\n self.class.module_eval <<-EOE\n def call_#{meth}_callbacks(*args)\n plugin_store.each {|a| a.call_#{meth}_callbacks(*args) } if respond_to?(:plugin_store) && plugin_store\n self.send :#{meth}, *args if respond_to?(:#{meth})\n end\n EOE\n end\n end\n end", "def action\n end", "def matt_custom_action_begin(label); end", "def setup\n # override this if needed\n end", "def setup\n\t\t\t\t\t\t# Do nothing\n\t\t\t\tend", "def setup\n\t\t\t\t\t\t# Do nothing\n\t\t\t\tend", "def action(options,&callback)\n new_action = Action===options ? options : Action.new(options,&callback)\n # replace any with (shared name/alias or both default) + same arity\n @actions.delete_if do |existing_action|\n ((existing_action.names & new_action.names).size > 0 ||\n existing_action.default? && new_action.default?) &&\n existing_action.required.size == new_action.required.size &&\n existing_action.optional.size <= new_action.optional.size\n end\n @actions = (@actions + [new_action]).sort\n new_action\n end", "def set_target_and_action target, action\n self.target = target\n self.action = 'sugarcube_handle_action:'\n @sugarcube_action = action\n end", "def after(action)\n invoke_callbacks *options_for(action).after\n end", "def pre_task\n end", "def setup(server)\n server.on('beforeMethod', method(:before_method), 10)\n end", "def add_actions\n attribute = machine.attribute\n name = self.name\n \n owner_class.class_eval do\n define_method(name) {self.class.state_machines[attribute].events[name].fire(self)}\n define_method(\"#{name}!\") {self.class.state_machines[attribute].events[name].fire!(self)}\n define_method(\"can_#{name}?\") {self.class.state_machines[attribute].events[name].can_fire?(self)}\n end\n end", "def init_actions\n @select_action = SelectAction.new\n @endpoint_mouse_action = EndpointMouseAction.new\n @move_action = MoveAction.new\n end", "def setup_signals; end", "def after_created\r\n return unless compile_time\r\n Array(action).each do |action|\r\n run_action(action)\r\n end\r\nend", "def after_created\r\n return unless compile_time\r\n Array(action).each do |action|\r\n run_action(action)\r\n end\r\nend", "def set_target_and_action target, action\n self.target = target\n self.action = 'sugarcube_handle_action:'\n @sugarcube_action = action.respond_to?('weak!') ? action.weak! : action\n end", "def initialize(*args)\n super\n @action = :set\nend", "def after_set_callback; end", "def setup\n #implement in subclass;\n end", "def lookup_action; end", "def setup &block\n if block_given?\n @setup = block\n else\n @setup.call\n end\n end", "def setup_action\n return TSBS.error(@acts[0], 1, @used_sequence) if @acts.size < 2\n actions = TSBS::AnimLoop[@acts[1]]\n if actions.nil?\n show_action_error(@acts[1])\n end\n @sequence_stack.push(@acts[1])\n @used_sequence = @acts[1]\n actions.each do |acts|\n @acts = acts\n execute_sequence\n break if @break_action\n end\n @sequence_stack.pop\n @used_sequence = @sequence_stack[-1]\n end", "def release_actions; end", "def around_hooks; end", "def save_action; end", "def setup(easy)\n super\n easy.customrequest = @verb\n end", "def action_target()\n \n end", "def setup\n callback(:setup) do\n notify(:setup)\n migration_check.last_deployed_commit\n end\n end", "def setup\n return unless @setup\n\n actions = @setup['setup'].select { |action| action['do'] }.map { |action| Action.new(action['do']) }\n run_actions_and_retry(actions)\n self\n end", "def before_setup\n # do nothing by default\n end", "def my_actions(options)\n @setup = false\n get_template_part(\"custom_used\",\"action_users\",true)\n end", "def default_action; end", "def setup(&blk)\n @setup_block = blk\n end", "def callback_phase\n super\n end", "def advice\n end", "def _handle_action_missing(*args); end", "def duas1(action)\n action.call\n action.call\nend", "def shared_action(name, &block)\n @controller.shared_actions[name] = block\n end", "def before_action action, &block\n @audience[:before][action] ||= Set.new\n @audience[:before][action] << block\n end", "def setup_initial_state\n\n state_a = State.new(\"a\", 0)\n state_b = State.new(\"b\", 0)\n state_c = State.new(\"c\", 10)\n\n move_to_b = Action.new(\"move_to_b\", 1, state_b)\n\n move_to_c = Action.new(\"move_to_c\", 1, state_c)\n\n state_a.actions = [move_to_b, move_to_c]\n\n return state_a\n \nend" ]

[ "0.6163163", "0.6045976", "0.5946146", "0.591683", "0.5890051", "0.58349305", "0.5776858", "0.5703237", "0.5703237", "0.5652805", "0.5621621", "0.54210985", "0.5411113", "0.5411113", "0.5411113", "0.5391541", "0.53794575", "0.5357573", "0.53402257", "0.53394014", "0.53321576", "0.53124547", "0.529654", "0.5296262", "0.52952296", "0.52600986", "0.52442724", "0.52385926", "0.52385926", "0.52385926", "0.52385926", "0.52385926", "0.5232394", "0.523231", "0.5227454", "0.52226824", "0.52201617", "0.5212327", "0.52079266", "0.52050185", "0.51754695", "0.51726824", "0.51710224", "0.5166172", "0.5159343", "0.51578903", "0.51522785", "0.5152022", "0.51518047", "0.51456624", "0.51398855", "0.5133759", "0.5112076", "0.5111866", "0.5111866", "0.5110294", "0.5106169", "0.509231", "0.50873137", "0.5081088", "0.508059", "0.50677156", "0.50562143", "0.5050554", "0.50474834", "0.50474834", "0.5036181", "0.5026331", "0.5022976", "0.5015441", "0.50121695", "0.5000944", "0.5000019", "0.4996878", "0.4989888", "0.4989888", "0.49864885", "0.49797225", "0.49785787", "0.4976161", "0.49683493", "0.4965126", "0.4958034", "0.49559742", "0.4954353", "0.49535993", "0.4952725", "0.49467874", "0.49423352", "0.49325448", "0.49282882", "0.49269363", "0.49269104", "0.49252945", "0.4923091", "0.49194667", "0.49174926", "0.49173003", "0.49171105", "0.4915879", "0.49155936" ]

[ "def allowed_params\n ALLOWED_PARAMS\n end", "def expected_permitted_parameter_names; end", "def param_whitelist\n [:role, :title]\n end", "def default_param_whitelist\n [\"mode\"]\n end", "def permitir_parametros\n \t\tparams.permit!\n \tend", "def permitted_params\n []\n end", "def strong_params\n params.require(:user).permit(param_whitelist)\n end", "def strong_params\n params.require(:listing_member).permit(param_whitelist)\n end", "def filtered_parameters; end", "def permitted_strong_parameters\n :all #or an array of parameters, example: [:name, :email]\n end", "def parameters_list_params\n params.require(:parameters_list).permit(:name, :description, :is_user_specific)\n end", "def parameter_params\n params.require(:parameter).permit(:name, :description, :param_code, :param_value, :active_from, :active_to)\n end", "def param_whitelist\n whitelist = [\n :description,\n :progress,\n :kpi_id\n ]\n \n unless action_name === 'create'\n whitelist.delete(:kpi_id)\n end\n \n whitelist\n end", "def param_whitelist\n whitelist = [\n :username, :name,\n :parent_id,\n :headline, :description, :video,\n :policy, :signup_mode, :category,\n :website, :facebook, :twitter, :linkedin,\n :founded_at,\n privacy: [\n :events,\n :resources\n ],\n permission: [\n :profile,\n :members,\n :children,\n :statistics,\n :posts,\n :listings,\n :resources,\n :events\n ],\n location: [\n :description,\n :street,\n :city,\n :state,\n :zip,\n :country,\n :latitude,\n :longitude\n ]\n ]\n \n if action_name === 'update'\n whitelist.delete(:parent_id)\n unless current_user.role_in(@community) === 'owner'\n whitelist.delete(:privacy)\n whitelist.delete(:permission)\n end\n end\n \n whitelist\n end", "def param_whitelist\n [:rating, :review]\n end", "def valid_params?; end", "def permitted_params\n declared(params, include_missing: false)\n end", "def permitted_params\n declared(params, include_missing: false)\n end", "def get_params\n\t\treturn ActionController::Parameters.new(self.attributes).permit(\"account_id\", \"title\", \"category\", \"introduction\", \"tags\", \"segment_type\", \"visible\", \"status\", \"main_image\")\n\tend", "def filter_parameters; end", "def filter_parameters; end", "def strong_params\n params.require(:team_member).permit(param_whitelist)\n end", "def strong_params\n params.require(:community).permit(param_whitelist)\n end", "def check_params; true; end", "def valid_params_request?; end", "def strong_params\n params.require(:experience).permit(param_whitelist)\n end", "def allowed_params\n params.require(:user).permit(:username, :email, :password, :password_confirmation)\n end", "def list_params\n params.permit(:name)\n end", "def check_params\n true\n end", "def grant_params\n @whitelisted = params.require(:grant).permit(:name, :description, :agency_id, :acronym)\n end", "def safe_params\n resurce_name = self.class.resource_name\n params_method_name = \"#{resurce_name}_params\".to_sym\n if params[resurce_name]\n if respond_to?(params_method_name) || private_methods.include?(params_method_name)\n send(params_method_name)\n else\n raise ActiveModel::ForbiddenAttributesError, \"Please, define the '#{params_method_name}' method in #{self.class.name}\"\n end\n end\n end", "def additional_permitted_params\n []\n end", "def strong_params\n params.require(:education).permit(param_whitelist)\n end", "def resource_params\n params[resource_singular_name].try(:permit, self.class.param_whitelist)\n end", "def allow_params_authentication!; end", "def param_whitelist\n [\n :title,\n :description,\n :organization,\n :team_id,\n :started_at,\n :finished_at,\n location: [\n :description,\n :street,\n :city,\n :state,\n :zip,\n :country,\n :latitude,\n :longitude\n ]\n ]\n end", "def param_whitelist\n if @user.present? && current_user != @user\n return [:followed]\n end\n \n whitelist = [\n :username, :email, :password,\n :first_name, :last_name,\n :birthday, :gender,\n :headline, :biography, :ask_about, :focus,\n :website, :facebook, :linkedin, :twitter, :github,\n roles: [],\n skills: [],\n interests: [],\n privacy: { contact: [] },\n location: [\n :description,\n :street,\n :city,\n :state,\n :zip,\n :country,\n :latitude,\n :longitude\n ]\n ]\n \n if action_name === 'update'\n whitelist.delete(:email)\n whitelist.delete(:password)\n end\n \n whitelist\n end", "def person_params\n # params whitelist does *not* include admin, sub, remember_token\n # TBD: share this whitelist with the list used by configuration_permitted_parameters\n # TBD: should current_password be on this list? -- for now, leaving off, since it seems to work without\n # NOTE: do not include 'admin' in this list!\n params.require(:person).permit(\n :name, \n :email, \n :description,\n :password, \n :password_confirmation\n )\n end", "def paramunold_params\n params.require(:paramunold).permit!\n end", "def param_params\n params.require(:param).permit(:param_category_id, :param_table_id, :name, :english_name, :weighting, :description)\n end", "def quote_params\n params.permit!\n end", "def list_params\n params.permit(:list_name)\n end", "def allowed_params(parameters)\n parameters.select do |name, values|\n values.location != \"path\"\n end\n end", "def all_params; end", "def permitted_resource_params\n params[resource.object_name].present? ? params.require(resource.object_name).permit! : ActionController::Parameters.new\n end", "def source_params\n params.require(:source).permit(all_allowed_params)\n end", "def user_params\n end", "def params; end", "def params; end", "def params; end", "def params; end", "def params; end", "def params; end", "def params; end", "def params; end", "def params; end", "def params; end", "def params; end", "def params; end", "def params; end", "def params; end", "def params; end", "def params; end", "def params; end", "def get_allowed_parameters\n return _get_specific_action_config(:allowed_action_parameters, :allowed_parameters)&.map(&:to_s)\n end", "def permitted_params\n @wfd_edit_parameters\n end", "def user_params\r\n end", "def param_whitelist\n whitelist = [\n :comment,\n :old_progress, :new_progress,\n :metric_id\n ]\n \n unless action_name === 'create'\n whitelist.delete(:metric_id)\n end\n \n whitelist\n end", "def query_param\n\t\tparams.permit(:first_name, :last_name, :phone)\n\tend", "def whitelisted_user_params\n params.require(:user).\n permit( :first_name, :last_name, :email,:password,:password_confirmation,:birthday,:gender)\n end", "def filter_params\n\t\treturn params[:candidate].permit(:name_for_filter)\n\tend", "def user_params\n params.permit(:id, :email, :password, :nickname, :status, :avatar, :flat_picture, :flatsharing_id, :member,\n :user, :color, :solde)\n end", "def get_params\n\t\t\n\t\treturn ActionController::Parameters.new(self.attributes).permit(:first_name, :last_name, :email, :provider)\n\n\tend", "def devise_filter\r\n logger.debug(\"In devise_filter =>PARAMS: #{params.inspect}\")\r\n\r\n # White list for sign_up\r\n devise_parameter_sanitizer.for(:sign_up) { |u| u.permit(user_whitelist) }\r\n\r\n # White list for account update\r\n devise_parameter_sanitizer.for(:account_update) { |u| u.permit(user_whitelist, :current_password) }\r\n\r\n # White list for Invitation creation\r\n devise_parameter_sanitizer.for(:invite) { |u| u.permit(:account_type, :email, :invitation_token)}\r\n\r\n # White list for accept invitation\r\n devise_parameter_sanitizer.for(:accept_invitation) { |u| u.permit(user_whitelist, :invitation_token)}\r\n\r\n end", "def valid_params(params)\n params.permit(:user_id, :photo_id, :originX, :originY, :width, :height)\n end", "def valid_parameters\n sort_symbols(@interface.allowed_parameters)\n end", "def params_permit\n params.permit(:id)\n end", "def allowed_params\n params.require(:allowed).permit(:email)\n end", "def allowed_params\n params.require(:user).permit(:email, :password, :role, :first_name, :last_name, :password_confirmation)\n end", "def allowed_params\n params.require(:user).permit(:email, :password, :role, :first_name, :last_name, :password_confirmation)\n end", "def filter_params\n params.permit(*resource_filter_permitted_params)\n end", "def community_params\n params.permit(:profile_image, :name, :description, :privacy_type, :viewed_by, {tags: []}, {features: []}, {admins: []}, :members, :location, :beacon, :creator, :ambassadors, :current_events, :past_events, :feed, :category, :address, :allow_member_post_to_feed, :allow_member_post_to_events)\n end", "def specialty_params\n\t\tparams.require(:specialty).permit(*Specialty::DEFAULT_ACCESSIBLE_ATTRIBUTES)\n\tend", "def authorize_params\n super.tap do |params|\n %w[display scope auth_type].each do |v|\n if request.params[v]\n params[v.to_sym] = request.params[v]\n end\n end\n end\n end", "def feature_params_filter\n params.require(:feature).permit(:name, :cat, :lower, :upper, :opts, :category, :description, :company, :active, :unit, :icon)\n end", "def available_activity_params\n # params.require(:available_activity).permit(:type,:geometry,:properties)\n whitelisted = ActionController::Parameters.new({\n type: params.require(:available_activity)[:type],\n geometry: params.require(:available_activity)[:geometry].try(:permit!).to_h,\n properties: params.require(:available_activity)[:properties].try(:permit!).to_h\n }).try(:permit!)\n end", "def argument_params\n params.require(:argument).permit(:name)\n end", "def user_params_pub\n\t \tparams[:user].permit(:hruid)\n\t end", "def strong_params\n params.require(:success_metric).permit(param_whitelist)\n end", "def property_params\n params.permit(:name, :is_available, :is_approved, :owner_id)\n end", "def restricted_params\n #params.require(self.controller_name.classify.underscore.to_sym).permit([])\n raise(\"No strong params set, override restricted_params method in your controller. E.g. params.require(:model).permit(:attribute1, :attribute2)\")\n end", "def sponsor_params\n params.require(:sponsor).permit(WHITE_LIST)\n end", "def whitelist_person_params\n params.require(:person).permit(:family, :pre_title, :given_name, :dates, :post_title, :epithet, :dates_of_office, same_as: [], related_authority: [], altlabel: [], note: []) # Note - arrays need to go at the end or an error occurs!\n end", "def parameters\n nil\n end", "def user_params \n \tparams.require(:user).permit(:name, :email, :password, :password_confirmation)# preventing CSTR\n end", "def sequence_param_whitelist\n default_param_whitelist << \"show_index\"\n end", "def resource_filter_permitted_params\n raise(NotImplementedError, 'resource_filter_permitted_params method not implemented')\n end", "def normal_params\n reject{|param, val| param_definitions[param][:internal] }\n end", "def validate_search_inputs\n @whitelisted = params.fetch(:user, nil)\n if @whitelisted.blank?\n render_error(400, \"#{I18n.t('general_error.params_missing_key')}\": [I18n.t('general_error.params_missing_value', model: \"review\")])\n return\n else\n @whitelisted = @whitelisted.permit(:name, :uen, :description)\n end\n end", "def special_device_list_params\n params.require(:special_device_list).permit(:name)\n end", "def pull_request_params\n whitelist = [\n :url,\n :id,\n :html_url,\n :diff_url,\n :patch_url,\n :issue_url,\n :number,\n :state,\n :locked,\n :title\n ]\n params.require(:pull_request).permit(whitelist)\n end" ]

[ "0.7121987", "0.70541996", "0.69483954", "0.6902367", "0.6733912", "0.6717838", "0.6687021", "0.6676254", "0.66612333", "0.6555296", "0.6527056", "0.6456324", "0.6450841", "0.6450127", "0.6447226", "0.6434961", "0.64121825", "0.64121825", "0.63913447", "0.63804525", "0.63804525", "0.6373396", "0.6360051", "0.6355191", "0.62856233", "0.627813", "0.62451434", "0.6228103", "0.6224965", "0.6222941", "0.6210244", "0.62077755", "0.61762565", "0.61711127", "0.6168448", "0.6160164", "0.61446255", "0.6134175", "0.6120522", "0.6106709", "0.60981655", "0.6076113", "0.60534036", "0.60410434", "0.6034582", "0.6029977", "0.6019861", "0.6019158", "0.6019158", "0.6019158", "0.6019158", "0.6019158", "0.6019158", "0.6019158", "0.6019158", "0.6019158", "0.6019158", "0.6019158", "0.6019158", "0.6019158", "0.6019158", "0.6019158", "0.6019158", "0.6019158", "0.60184896", "0.60157263", "0.6005857", "0.6003803", "0.60012573", "0.59955895", "0.5994598", "0.5993604", "0.5983824", "0.5983166", "0.5977431", "0.597591", "0.5968824", "0.5965953", "0.59647584", "0.59647584", "0.59566855", "0.59506303", "0.5950375", "0.59485626", "0.59440875", "0.5930872", "0.5930206", "0.5925668", "0.59235454", "0.5917905", "0.59164816", "0.5913821", "0.59128743", "0.5906617", "0.59053683", "0.59052664", "0.5901591", "0.58987755", "0.5897456", "0.58970183", "0.58942604" ]

[ "def board(board_id)\n Trello::Board.find(board_id)\n rescue\n nil\n end", "def board(project, id)\n get(\"/projects/#{url_encode project}/boards/#{id}\")\n end", "def board\n @board ||= Board.find(params[:id])\n end", "def get_board\n\t\t@board = Trello::Board.find(\"558b0e12f2e6f4aa751abe4d\")\n\t\treturn @board\n\tend", "def get_board\n @board = Trello::Board.find(\"558b0e12f2e6f4aa751abe4d\")\n return @board\nend", "def get_board(dashboard_id)\n @dashboard_service.get_board(dashboard_id)\n end", "def get_board\n @board\n end", "def board\n Board.from_response client.get(\"/actions/#{action_id}/board\")\n end", "def load_board\n @board = Board.find_from( params )\n end", "def user_board(user_id)\n \tboards = self.boards\n \tuser_board = boards.select { |board| board.user_id == user_id }\n \tuser_board\n end", "def board_list(project, board_id, id)\n get(\"/projects/#{url_encode project}/boards/#{board_id}/lists/#{id}\")\n end", "def get_board()\n raise 'needs implementation'\n end", "def board\n game.board\n end", "def player_board\n boards.player.first\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def get_board\n return @board_of_stone\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def set_board\n @board = Board.find(params[:id])\n end", "def get_board_s\n @board.get_board_s\n end", "def set_board\n @board = Board.find(params[:id]||params[:board_id])\n end", "def get_board\n return Marshal.load( Marshal.dump(@board.board_of_stone) )\n end", "def find_card_by_id(id)\n @board.cards.find{|c| c.short_id == id.to_i}\n end", "def set_board\n @board = Board.find_by_link(params[:id])\n end", "def load_game_board\n @game = Game.find(params[:game_id])\n @board = Board.find(params[:id])\n end", "def get_widget_by_id(id, board_id)\n if id == nil\n raise 'Widget ID not found!'\n end\n widgets_url = URI(\"https://api.miro.com/v1/boards/#{board_id}/widgets/#{id}\")\n result = send_get(widgets_url)\n widget = JSON.parse(result)\n puts CIGREEN + \"GOT WIDGET: \" + CEND + \"#{result}\"\n return widget\nend", "def fetch_board\n @board ||= Board.includes(columns: :visible_issue_stats).find_by(github_full_name: params_github_full_name)\n authorize!(:read, @board)\n # FIX : Create attribute 'bag' for @board.\n @board_bag = BoardBag.new(current_user, @board)\n end", "def set_board\n @board = Board.find(params[:board_id])\n end", "def set_board\n @board = Board.find(params[:board_id])\n end", "def set_board\n @board = Board.find(params[:board_id])\n end", "def boards\n return @boards if @boards\n @boards = Client.get(\"/organizations/#{id}/boards/all\").json_into(Board)\n end", "def card_board(card_id, options = {})\n card_resource(card_id, \"board\", options)\n end", "def board_lists(project, id)\n get(\"/projects/#{url_encode project}/boards/#{id}/lists\")\n end", "def get_cell(x, y)\n get_cell_from_board(@board, x, y)\n end", "def select_board(board_id)\n self.current_board_id = board_id\n save! if changed?\n end", "def opponent_board\n boards.opponent.first\n end", "def lists(board_id)\n board(board_id).lists\n rescue\n nil\n end", "def current_board\n @current_board\n end", "def set_board\r\n #ページに表示するデータを取得する。\r\n @board = Board.find(params[:id])\r\n end", "def board_id=(board_id)\n if board_id != @board_id\n @board_id = board_id\n # Forces the driver reload with the new settings\n @driver = nil\n end\n end", "def find(id)\n begin\n @@grid.get(id)\n rescue\n nil\n end\n end", "def find_member_by_id(id)\n @board.members.find { |m| m.id == id }\n end", "def get_room(id)\n @rooms[id]\n end", "def initialize board, id = nil\n @id = id\n @board = board\n @yarn = @@yarns.where(board: board, id: id)\n end", "def get_square_by_id(id)\n @squares.find { |obj| obj[:id] == id }\n end", "def set_board\n @board =current_user.boards.find(params[:id])\n end", "def show\n return\n @board = Board.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.json { render :json => @board }\n end\n end", "def draft_board\n @draft_board\n end", "def set_board\n @board = current_user.boards.find_by(id: params[:board_id])\n render(json: {error: \"Board Not Found\"}, status: 404) if !@board\n end", "def winner(board)\n if won?(@board)\n return @board[won?(@board)[0]]\n end\n end", "def set_board\n @board = current_user.boards.find(@list[:board_id])\n end", "def set_boardgame\n @boardgame = Boardgame.find(params[:id])\n end", "def set_boardgame\n @boardgame = Boardgame.find(params[:id])\n end", "def get_player(id)\n\t\treturn @players[id]\n\tend", "def set_board_thread\n @board_thread = BoardThread.find(params[:id])\n end", "def find_card\n @card = @trello.find_card_by_id(CONFIG['card_id']) # replace when move to real board\n end", "def set_board\n if params[:id].present?\n @board = Board.find(params[:id])\n else\n @user = User.find_by_username(params[:username])\n @board = Board.find_by_user_id_and_board_slug(@user.id, params[:board_slug])\n end\n end", "def set_board_game\n @board_game = BoardGame.find(params[:id])\n end", "def set_board_game\n @board_game = BoardGame.find(params[:id])\n end", "def board\n # Returns a printed copy of the board\n end", "def leaderboard(id)\n GameLeaderboard.leaderboard @short_name, id\n end", "def default_recruit_board\n program.recruit_boards.where(:_id => recruit_boards.first.try(:id)).first\n end", "def [](coord)\n row, col = self.class.to_coord(coord)\n #Ensure nil is always returned out of bounds, even for negative numbers.\n return nil unless row.between?(0, @size - 1) && col.between?(0, @size - 1)\n COLORS[@board[row][col]]\n end", "def get_existing_screenboard_by_name(dash_name)\n if @screenboards.nil?\n @screenboards = @dog.get_all_screenboards\n puts \"Found #{@screenboards[1]['screenboards'].length} existing \" \\\n 'screenboards in DataDog'\n if @screenboards[1]['screenboards'].empty?\n puts 'ERROR: Docker API call returned no existing screenboards. ' \\\n 'Something is wrong.'\n exit 1\n end\n end\n @screenboards[1]['screenboards'].each do |dash|\n return @dog.get_screenboard(dash['id'])[1] if dash['title'] == dash_name\n end\n nil\n end", "def show\n @score_board = ScoreBoard.find(params[:id])\n end", "def board; @board ||= match.board; end", "def display_board(board)\n return board\nend", "def board\n end", "def board\n @board ||= if @status == \"Backburner\"\n :backburner\n elsif @status == \"Completed\"\n :completed\n else\n :active\n end\n end", "def get_bug(id)\n get_bugs(id).first\n end", "def show\n @board = Board.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.json { render json: @board }\n end\n end", "def action_board(action_id, fields = \"all\")\n action_resource action_id, \"board\", fields: fields\n end", "def [](x,y)\n @board[x][y]\n end", "def boards\n return @boards unless @boards.empty?\n\n endpoint = \"/1/members/#{username}/boards?\"\n response = Client.get(endpoint)\n\n @boards = response.map do |board|\n Board.new(id: board['id'], name: board['name'])\n end\n end", "def board\n @original_board.dup\n end", "def set_board\n board = Board.find(params[:id] || params[:board_id])\n if board.network_id == current_user.network_id\n @board = board\n end\n @show_boards_nav = !@board.nil? && !@board.new_record?\n end", "def get_game(lobby_id)\n find_lobby(lobby_id).game\n end", "def boards(fields: nil)\n get_boards_collection(\"/me/boards/\", nil, fields)\n end", "def [](id)\n return @rooms[id] if id.start_with? '!'\n\n if id.start_with? '#'\n res = @rooms.find { |_, r| r.canonical_alias == id }\n return res.last if res.respond_to? :last\n end\n\n res = @rooms.find { |_, r| r.name == id }\n res.last if res.respond_to? :last\n end" ]

[ "0.84047884", "0.78707016", "0.78107667", "0.76624876", "0.74019647", "0.7103031", "0.69706297", "0.69036275", "0.66743654", "0.6664911", "0.66523695", "0.6615083", "0.6591346", "0.6569949", "0.6549826", "0.6537826", "0.65376747", "0.65361816", "0.65361816", "0.65361816", "0.65266395", "0.650828", "0.650828", "0.650828", "0.650828", "0.650828", "0.650828", "0.650828", "0.650828", "0.650828", "0.650828", "0.650828", "0.650828", "0.650828", "0.650828", "0.650828", "0.650828", "0.650828", "0.650828", "0.650828", "0.6495536", "0.64460814", "0.6420228", "0.6418719", "0.63572806", "0.6347118", "0.6303668", "0.6252483", "0.61900514", "0.6169817", "0.6169817", "0.6161222", "0.61427677", "0.6139411", "0.60701185", "0.6041129", "0.60046816", "0.5965943", "0.59220576", "0.59174997", "0.5915651", "0.5860433", "0.58435124", "0.58297884", "0.582064", "0.5820488", "0.58056736", "0.57892495", "0.5777035", "0.5758781", "0.5754731", "0.57221234", "0.5704607", "0.5704607", "0.56906027", "0.5685484", "0.5678689", "0.56777436", "0.5655764", "0.5655764", "0.5630407", "0.5589592", "0.5582627", "0.5575441", "0.55697864", "0.55690706", "0.55675846", "0.55642104", "0.5563565", "0.5559475", "0.55484927", "0.553047", "0.5528856", "0.5527556", "0.5526192", "0.55123395", "0.550171", "0.55000293", "0.5495436", "0.54937965" ]

[ "def activities\n return @activities\n end", "def all_activities\n t = PublicActivity::Activity.arel_table\n PublicActivity::Activity.where(\n t[:trackable_id].eq(id).and(t[:trackable_type].eq(Classroom.to_s)).or(\n t[:recipient_id].eq(id).and(t[:recipient_type].eq(Classroom.to_s))\n )\n ).reverse_order\n end", "def activities\n\t activity_feed.activities\n\tend", "def activities\n @grouped_activities.flatten\n end", "def activities\n @activities = if @project\n @project.activities\n else\n User.current.projects.all(:include => :time_entry_activities).map(&:time_entry_activities).flatten + TimeEntryActivity.shared.active\n end\n\n respond_to do |format|\n format.xml\n end\n end", "def activities\n Activity.\n includes(:activity_objects => self.class.to_s.underscore).\n where(\"#{ self.class.quoted_table_name }.id\" => self.id)\n end", "def activities\n get_call(\"1/activities.json\")\n end", "def get_activities(opts = {})\n data, _status_code, _headers = get_activities_with_http_info(opts)\n return data\n end", "def all_activities\n if user.present?\n Activity.where('(activity_owner_id = :activity_owner_id and activity_owner_type = :activity_owner_type) or user_id = :user_id',\n activity_owner_id: id, activity_owner_type: self.class.name, user_id: user.id).order(created_at: :desc)\n else\n activities\n end\n end", "def activities()\n sql = \"SELECT a.* FROM activities a INNER JOIN bookings b ON b.activities_id = a.id WHERE b.members_id =$1\"\n values = [@id]\n result = SqlRunner.run(sql, values)\n return result.map { |session| Activity.new( session) }\n end", "def activities\n children('activities')\n end", "def all_activities(**args)\n params = parameters(args) do\n optional_params :user_id, :filter_id, :type, :start, :limit, :start_date, :end_date, :done\n end\n request(:get, 'activities', params)\n end", "def activities\n add_to_query restrict_kind: 'activity'\n end", "def get_all_activities\n \tself.is_manager? ? Activity.all : Activity.joins(:task).where(:tasks => { user_id: self.id })\n end", "def activities(params = {})\n rv = []\n try_again = true\n fetched = 0\n p = params.dup\n p[:offset] = 0\n\n while try_again do\n result = api_call(ROOT_ACTIVITIES, p)\n return nil if result.nil?\n rv += result[:results]\n\n meta = result[:meta]\n fetched += meta[:count]\n if fetched >= meta[:total]\n try_again = false\n else\n p[:offset] += meta[:count]\n end\n end\n\n rv\n end", "def list_activities\n GooglePlus::Activity.for_person(id)\n end", "def getMEELeadActivities\n users = User.all.pluck(:id)\n activities = []\n users.each do |id|\n username = User.find(id).display_name\n #create list of [[user, [their activities...]]...]\n activities.push([username, Activity.where(user_id: id)]) \n end\n return activities \n end", "def activities\n activities = [];all_activities = []\n all_activities << RedemptionLog.user_activities(self)\n all_activities << FeedbackLog.user_activities(self)\n sorted_activities = all_activities.flatten.compact.sort_by!{|activity| activity.updated_at }.reverse\n sorted_activities.each do |activity|\n activities << {points: activity.points, outlet_id: activity.outlet_id, outlet_name: activity.outlet_name,\n type: activity.class.name.gsub(/Log/i,''), updated_at: activity.updated_at}\n end\n activities\n end", "def activities\n Activity.where(\"action_item_uuid in (?)\", action_items.collect(&:uuid))\n end", "def activities\n PointActivity.for_activity(obj, user)\n end", "def activities(id)\n get(\"/accounts/#{id}/activities\")['activities']\n end", "def index\n @project_activities = ProjectActivity.all\n end", "def activities(per_page: nil, page: nil)\n if page || per_page\n get_activities(per_page: per_page, page: page)\n else\n get_activities if @activities.empty?\n @activities.values\n end\n end", "def fetch_activities(token, params)\n params.to_options!\n\n # Setup params.\n setup_params_logic = lambda do |last_request, params|\n if !last_request.blank?\n params[:occurred_since_date] = last_request\n end\n end\n\n # Parse the response.\n response_parse_logic = lambda do |response|\n content_keys = {}\n doc = Nokogiri::XML(response.body)\n\n doc.xpath(\"/activities//activity\").each do |act|\n id = act.search('id').first.inner_html\n content_keys[id] = act.to_s\n end\n content_keys\n end\n\n url = format_project_url(get_api_url('activities'), params[:project_id])\n fetch(::PivotalTracker::Activity, token, url,\n response_parse_logic, setup_params_logic, true)\n end", "def past_activities\n events = self.past_events\n workshops = self.past_workshops\n past_activities = self.past_events.concat(self.past_workshops).sort_by{|e| e[:begin_at]}.reverse\n end", "def activities\n self.tags.collect { |tag| tag.activities }.flatten\n end", "def board\n Board.from_response client.get(\"/actions/#{action_id}/board\")\n end", "def case_activity_list\n\t\t@case_activitites = @surgery_case.case_activities\n\tend", "def actions\n return @actions if @actions\n @actions = Client.get(\"/boards/#{id}/actions\").json_into(Action)\n end", "def index\n @activities = Activity.all\n end", "def index\n @activities = Activity.all\n end", "def index\n @activities = Activity.all\n end", "def index\n @activities = Activity.all\n end", "def index\n @activities = Activity.all\n end", "def index\n @activities = Activity.all\n end", "def index\n @activities = Activity.all\n end", "def index\n @activities = Activity.all\n end", "def index\n @activities = Activity.all\n end", "def index\n @activities = Activity.all\n end", "def index\n @activities = current_user.activities\n end", "def current_activities\n ids = self.activities.pluck(:id) + ActivitySequence.where(strategy_id: self.id).pluck(:current_activity_id)\n if (ids.size > 0)\n ids.delete(nil) # hack for now\n Activity.where( \"id in (#{ids.join(',')})\")\n else \n Activity.where(\"1=0\") # hack to return empty AR relation. \n end\n end", "def index\n @user_activities = UserActivity.all\n end", "def index\n @user_activities = UserActivity.all\n end", "def index\n @user_activities = UserActivity.all\n end", "def tracker_activities\n resp = @conn.get(\"projects/#{@project}/activity?limit=1000&occurred_after=#{(Time.now - 14*60*60*24).iso8601}\")\n @tracker_activities = JSON.parse(resp.body, symbolize_names: true)\n next_ind = next_page(resp)\n while next_ind.positive? do\n resp = @conn.get(\"projects/#{@project}/activity?limit=1000&offset=#{next_ind}&occurred_after=#{(Time.now - 14*60*60*24).iso8601}\")\n @tracker_activities += JSON.parse(resp.body, symbolize_names: true)\n next_ind = next_page(resp)\n end\n end", "def activities=(value)\n @activities = value\n end", "def index\n @activities = @team.activities\n @activity = Activity.new(team_id: @team.id)\n end", "def list_activities(name)\n puts \"\"\n puts \"--------------------------------------------------\"\n puts \"Here is a list of activities popular in #{name}:\".colorize(:green)\n puts \"--------------------------------------------------\"\n puts \"\"\n # prints activities available in city chosen by user\n Twyd::Activity.all.each.with_index(1) do |a, i|\n puts \"#{i}. #{a.name}\"\n end\n end", "def index\n @status_activities = StatusActivity.all\n end", "def index\n @apply_activities = ApplyActivity.all\n end", "def get_project_activities(project_id_or_key, params = {})\n get(\"projects/#{project_id_or_key}/activities\", params)\n end", "def index\n @daily_boards = DailyBoard.all\n end", "def activities_get(opts = {})\n activities_get_with_http_info(opts)\n end", "def user_boards\n boards = Trello::Board.all\n end", "def index\n @live_aboards = LiveAboard.all\n end", "def learning_course_activities\n return @learning_course_activities\n end", "def index\n @computers_activities = ComputersActivity.all\n end", "def boards\n return @boards if @boards\n @boards = Client.get(\"/organizations/#{id}/boards/all\").json_into(Board)\n end", "def get_activities\n @params=task_params\n @project=current_user.projects.find(@params[:project_id])\n counter=0\n @res=[]\n @project.activities.each do |p|\n if p.users.include? current_user\n @res[counter]={\n activity_id: p.id, \n name: p.name\n }\n counter+=1\n end\n end\n respond_to do |format|\n format.json {render json: @res.uniq}\n end\n end", "def recent_activities()\n get(\"/user/#{@user_id}/activities/recent.json\")\n end", "def activities(params = {})\n scope 'default'\n get('activities/', params)\n end", "def index\n @columns = Column.includes(:tasks).where(board: @board)\n end", "def friends_activities\n Activity.includes(:user, :intensity, :exercise_unit, :exercise_type).includes(:comments => [:user]).includes(:cheers => [:user]).where(:user_id => [self.friends.ids]).order(date: :desc)\n end", "def get_board\n @board\n end", "def recent_activities\n get(\"/user/#{@user_id}/activities/recent.json\")\n end", "def index\n @activity_levels = ActivityLevel.all\n end", "def index\n @activity_types = ActivityType.all\n end", "def activity\n if !current_group.nil?\n \t ideas = Idea.find_all_by_group_id(current_user.groups.map(&:id))\n else\n ideas = current_user.ideas\n end\n \t@activities = Activity.find_all_by_idea_id(ideas.map(&:id))\n end", "def index\n @board_threads = BoardThread.all\n @board_thread = BoardThread.new\n end", "def index\n @backend_conf_activities = Conf::Activity.all\n end", "def find_activities\n #This needs to be updated to handle the Ring Model\n #Unit Test is in activity_test.rb\n activities = Array.new\n for friend in mutual_friends\n for activity in friend.activities\n #Does the user have permission to view the activity?\n #The friend must have the user in a ring of equal distance or closer than the content created.\n #However, Comments don't have a ring number, so their respective posts must be referred to.\n if activity.entity_type == 'Comment'\n #The user must be close enough to his/her friend \n if activity.entity.post.ring >= friend.which_ring(self)\n activities << activity\n end\n elsif activity.entity.ring >= friend.which_ring(self)\n if activity.entity_type == 'Friendship'\n #A mutual friendship creates two activities--one for each friendship.\n #This makes sure that only one activity is seen in the list.\n activities.include?(activity.entity.mutual_friendship.activity) ? nil : activities << activity\n else \n activities << activity\n end\n end\n end\n end\n #Sort the activity chronologically\n activities.sort!{|a, b| b.updated_at<=>a.updated_at}\n return activities\n end", "def scheduled_activities(validity=:sa_content)\n # TODO: how to memoize with proper cache invalidation?\n days = schedule(validity)['days']\n return {} unless days\n days.inject({}) do |index, (day, day_value)|\n day_value['activities'].each do |row|\n sa = Psc::ScheduledActivity.from_schedule(row)\n\n index[sa.id] = sa\n end\n index\n end\n end", "def get_activities(filter = Array.new)\n ret_array = Array.new\n if filter.size > 0\n for act in self.activities\n filter.each do |f|\n if act.topic == f\n ret_array.push(act)\n end\n end\n end\n else\n ret_array = activities\n end\n ret_array.sort{|a,b| b.time <=> a.time}\n\n end", "def index\n @board_in_projects = BoardInProject.all\n end", "def activity\n PublicActivity::Activity\n .includes(:owner, :trackable, post: [:author, :images, :graetzl, :comments], meeting: [:address, :graetzl, :comments])\n .select('DISTINCT ON(trackable_id, trackable_type) *')\n .where(key: STREAM_ACTIVITY_KEYS)\n .where(\"(owner_id IN (?) AND owner_type = 'User')\n OR\n (trackable_id IN (?) AND trackable_type = 'Meeting')\n OR\n (trackable_id IN (?) AND trackable_type = 'Post')\", users.pluck(:id), meetings.pluck(:id), posts.pluck(:id))\n .order(:trackable_id, :trackable_type, created_at: :desc)\n .sort_by(&:created_at).reverse\n end", "def index(user)\n activities = []\n json = eval(RestClient.get(ENDPOINT + \"/activities?user_id=#{user}\").to_s)\n json.each do |attributes|\n activities << Activity.new(attributes)\n end\n activities\n end", "def index\n@activity = Activity.all\nend", "def index\n @activities_lists = ActivitiesList.all\n end", "def index\n @type_activities = TypeActivity.all\n end", "def index\n @dash_boards = DashBoard.all\n end", "def activities_setup\n @activities = Activity.all\n end", "def organized_activities\n participants.includes(:activity).where(is_organizer: true)\n end", "def getActivities(response)\r\n\t\t\t\tactivities_all_json = JSON.parse response\r\n\t\t\t\tactivities_all_array = activities_all_json[\"activities\"]\r\n\t\t\t\tactivity_class_array = Array.new\r\n\t\t\t\tfor i in 0...activities_all_array.length\r\n\t\t\t\t\tactivity_class_array.push(jsonToActivity(activities_all_array[i]))\r\n\t\t\t\tend\r\n\t\t\t\treturn activity_class_array\r\n\t\t\tend", "def get_activities(user_id, params = {})\r\n user_id = user_id.to_s\r\n @context.validate_identifier(:user_id, user_id)\r\n @context.call_myspace_api(:activities, params.dup.update(:user_id => user_id))\r\n end", "def all_activities_children\n @activity_children = ActivityChild.includes(:child)\n end", "def index\n @boards = Board.all\n end", "def index\n @boards = Board.all\n end", "def activities_in_date_range(from_date, to_date)\n from_date = format_date from_date\n to_date = format_date to_date\n\n @dealing_platform.gather \"history/activity/#{from_date}/#{to_date}\", :activities, AccountActivity\n end", "def index\n @boards = Board.all\n end", "def index\n @boards = Board.all\n end", "def index\n @boards = Board.all\n end", "def index\n @boards = Board.all\n end", "def index\n @boards = Board.all\n end", "def index\n @boards = Board.all\n end", "def index\n @boards = Board.all\n end", "def get_activities(user_id, params = {})\n user_id = user_id.to_s\n validate_identifier(:user_id, user_id)\n call_myspace_api(:activities, params.dup.update(:user_id => user_id))\n end", "def recent_activities(seconds)\n @dealing_platform.gather \"history/activity/#{(seconds * 1000.0).to_i}\", :activities, AccountActivity\n end", "def board\n @board = Trello::Board.find(@board_id) if @board == nil\n\n @board\n end", "def whole_board\n cards = lines.map {|l| l.cards }\n beat_ids = beats.map(&:id)\n # make sure we don't get any cards that are not associated with beats\n # should only be a problem with boards created before this commit\n cards = cards.flatten.select do |card|\n beat_ids.include? card.beat_id\n end\n {\n board: self,\n beats: beats,\n lines: lines,\n cards: cards,\n notes: notes\n }\n end", "def index\n\n @sheetfile_id = params[ :my_activity ][ :sheetfile_id].to_i\n @activities = Activity.where( sheetfile_id: @sheetfile_id )\n end" ]

[ "0.692477", "0.6535767", "0.6513734", "0.6493531", "0.6484644", "0.6429408", "0.6264161", "0.6185259", "0.6172574", "0.6142869", "0.6103", "0.59649736", "0.5931967", "0.5920747", "0.591234", "0.5886356", "0.5856966", "0.58530396", "0.58500516", "0.58106", "0.5809421", "0.57902694", "0.5785479", "0.5721983", "0.5719856", "0.5708983", "0.5703825", "0.56665426", "0.5648408", "0.5644136", "0.5644136", "0.5644136", "0.5644136", "0.5644136", "0.5644136", "0.5644136", "0.5644136", "0.5644136", "0.5644136", "0.5634749", "0.56255054", "0.55676544", "0.55676544", "0.55676544", "0.5558327", "0.55526716", "0.5535949", "0.5528498", "0.5528437", "0.5512602", "0.5509181", "0.54611534", "0.5454542", "0.54473525", "0.54250425", "0.5421321", "0.5420579", "0.5418578", "0.54173976", "0.5409153", "0.540412", "0.53788245", "0.53574383", "0.5355881", "0.53485763", "0.5346781", "0.5332045", "0.5327923", "0.5294119", "0.5265671", "0.5264405", "0.5260987", "0.52599686", "0.523513", "0.5210962", "0.5205331", "0.520097", "0.5199248", "0.5179262", "0.51617855", "0.5156116", "0.51496375", "0.51488084", "0.51473135", "0.5136146", "0.51349115", "0.51349115", "0.5134858", "0.51340544", "0.51340544", "0.51340544", "0.51340544", "0.51340544", "0.51340544", "0.51340544", "0.51248544", "0.51243854", "0.5124243", "0.5120067", "0.511289" ]

[ "def role_funcion_params\n params.require(:role_funcion).permit(:role_id, :funcion_id, :funcions)\n end", "def set_role_funcion\n @role_funcion = RoleFuncion.find(params[:id])\n end", "def index\n authorize Role\n\n respond_to do |format|\n format.json { render json: @roles }\n end\n end", "def getRole\n @users = User.where(\"role = ?\", params[:role]).NameOrder\n render json: @users\n end", "def claims\n get_all_roles\n end", "def claims\n get_all_roles\n end", "def test_role_features\n\n # get members of role with guid 4\n get '/role/3/members'\n assert (last_response.status == 200), \"Get all members of role id 3: response is not 200\"\n\n # get available role attributes\n get '/role/attributes'\n assert (last_response.body.size > 50), \"Get available role attributes: response to small for valid data\"\n\n # get all roles\n get '/role'\n assert (last_response.body.size > 50), \"Get all roles: response to small for valid data\"\n\n # get role with guid \"3\"\n get '/role/3'\n assert (last_response.body.size > 50), \"Get role with id 3: response to small for valid data\"\n end", "def roles\n roles_from_users\n end", "def create\n @role_funcion = RoleFuncion.new(role_funcion_params)\n respond_to do |format|\n if @role_funcion.save\n format.html { redirect_to @role_funcion }\n format.json { render action: 'show', status: :created, location: @role_funcion }\n else\n format.html { render action: 'new' }\n format.json { render json: @role_funcion.errors, status: :unprocessable_entity }\n end\n end\n end", "def get_user_roles\n @roles = @user.roles.pluck(:name)\n render json: @roles\n end", "def destroy\n @role_funcion.destroy\n respond_to do |format|\n format.html { redirect_to role_funcions_url }\n format.json { head :no_content }\n end\n end", "def index\n @facilities = Role.find(current_user.current_role).facilities\n end", "def display_all_roles\n # Interface method\n end", "def update\n respond_to do |format|\n if @role_funcion.update(role_funcion_params)\n format.html { redirect_to @role_funcion }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @role_funcion.errors, status: :unprocessable_entity }\n end\n end\n end", "def index\n authorize Role\n @roles = Role.all\n end", "def role; end", "def role; end", "def list\n\n @roles = Role.find(:all, :order => 'name')\n\n end", "def list\n # We don't use pagination here since we want to display the roles in a\n # nice tree. Additionally, there won't be more than ~100 roles in a\n # normal scenario anyway - far less!\n @roles = Role.find(:all)\n end", "def show\n authorize RoleCutoff\n end", "def roles\n self.dig_for_array(\"roles\")\n end", "def show\n if can?(:read, User)\n @user = User.find(params[:id])\n @roles = \"\"\n\n @user.roles.each do |role|\n if @roles == \"\"\n @roles += role.name\n else\n @roles += \", \" + role.name\n end\n end\n end\n\n respond_to do |format|\n format.json { render :json => @user }\n format.xml { render :xml => @user }\n format.html \n end\n\n rescue ActiveRecord::RecordNotFound\n respond_to_not_found(:json, :xml, :html)\n end", "def show\n @roles_and_permission = @roles.roles_and_permission.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.json { render json: @roles_and_permission }\n end\n end", "def api_name\n :roles_mask\nend", "def GetRole id\n\n APICall(path: \"custom_roles/#{id}.json\")\n\n end", "def select\n @users ||= User.role_wise_users(params[:user][:role])\n authorize! :read, @user\n end", "def roles_list(role = nil)\n self.role_symbols\n end", "def index\n @roles = Role.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.json { render json: @roles }\n end\n end", "def list_roles(optional={})\n\t\targs = self.class.new_params\n\t\targs[:query]['Action'] = 'ListRoles'\n\t\targs[:region] = optional[:_region] if (optional.key? :_region)\n\t\targs[:scheme] = 'https'\n\t\tif optional.key? :_method\n\t\t\traise ArgumentError, '_method must be GET|POST' unless 'GET|POST'.split('|').include? optional[:_method]\n\t\t\targs[:method] = optional[:_method]\n\t\tend\n\t\tif optional.key? :marker\n\t\t\targs[:query]['Marker'] = optional[:marker]\n\t\tend\n\t\tif optional.key? :max_items\n\t\t\targs[:query]['MaxItems'] = optional[:max_items]\n\t\tend\n\t\tself.run(args)\n\tend", "def role_select\n @@Roles.list\n end", "def index\n @user = User.find( params[:user_id] )\n @roles = Role.all\n\n respond_to do |format|\n format.js { render :roles }\n end\n end", "def show\n render json: @role\n end", "def role_symbols\n [:user]\n end", "def show\n @role = get_role\n respond_with @event, @role\n end", "def index\n @users = User.filter(params.slice(:role)).order(\"created_at DESC\")\n render json: @users\n end", "def roles\n @users = User.order(\"user_name\").all\n end", "def index\n @roles = Role.order(\"name\").all\n @user_list = User.order(\"email\").all\n \n respond_to do |format|\n format.html # index.html.erb\n format.json { render json: @roles }\n end\n end", "def show\n @roles = Role.all\n end", "def index\n @roles = policy_scope(Role).page(pagination[:page]).per(pagination[:per])\n end", "def index\n @user_roles = UserRole.find(:all)\n\n respond_to do |format|\n format.html # index.html.erb\n end\n end", "def roles\n client.user_roles(id)\n end", "def roles\n client.user_roles(id)\n end", "def getRoleCodes\n results = {}\n roles = CSV.parse(open(\"https://docs.google.com/spreadsheet/pub?key=0AjRF7huQ7tqKdDFwaElEaklEOXNVS0R6eEFEcE84NUE&single=true&gid=0&output=csv\"), :headers => true)\n roles.each { |r| results[r[\"Function\"]] = r[\"code\"] }\n results\n end", "def index\n @users = User.all\n \n respond_to do |format|\n format.html # index.html.erb\n format.json { render :json => @user_roles }\n end\n end", "def index\n @roles = Role.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @roles }\n format.json { render :json => @roles.to_json(:only => [:id, :code, :name, :definition]) }\n format.js { render (:update){ |page| page[dom_id_nested(:index)].replace :file => \"admin/roles/index\" } }\n end\n end", "def show\n @permissions = @role.permissions\n end", "def index\n @ums_functions = Ums::Function.all\n end", "def index\n return unless check_permission\n\n @roles = Role.left_joins(:user)\n end", "def index\n\t\tparamsr\n\t\tglobal\n\t\t# render json: @roles, each_serializer: RoleSerializer, root: false\n\tend", "def index\n index_helper\n respond_to do |format|\n format.html # index.html.erb\n format.json { render json: @role_permissions }\n end\n end", "def get_roles_list()\n\n query_parameters = {}\n query_parameters['apiKey'] = @api_key\n query_parameters['apiSecret'] = @api_secret\n\n resource_path = 'identity/v2/manage/role'\n get_request(resource_path, query_parameters, nil)\n end", "def roles\n # we can't use abilities as those are not defined when creating a new operator that is not yet saved\n #result = abilities.collect(&:name)\n authorizations.collect{|auth| auth.ability.try(:name)}\n end", "def roles\n # we can't use abilities as those are not defined when creating a new operator that is not yet saved\n #result = abilities.collect(&:name)\n authorizations.collect{|auth| auth.ability.try(:name)}\n end", "def index\n @roles = Rol.all\n end", "def roles_with_permission\n shift.location.loc_group.roles\n end", "def display_role\n ROLE_LIST[self.role]\n end", "def roles\n\t\t\t\tProxy.new connection, 'role-strategy/strategy'\n\t\t\tend", "def data_for_role_show\n {}\n end", "def role_enum\n\t\t[:user,:vip,:admin]\n\tend", "def role_data(id)\n @conn.get(\"/api/v1/roles/#{id}\")\n end", "def index\n @roles = System::Role.all\n end", "def fir_role\n self.roles.detect { |r| r.name == 'FIR' }\n end", "def list\n @roles = Role.all(:include => [:groups, :users])\n end", "def roles\n @roles = Role.order(\"name\")\n\t@rights = Right.order(\"name\").map {|r| [r.name, r.id] }\n end", "def check_roles\n if current_user.roles.include?(Role['owner'])\n return true\n elsif request.format.symbol == :json && params[:action] == 'index'\n return true\n end\n\n redirect_to root_path\n end", "def permitted_roles privilege\n result = JSON.parse url_for(:resources_permitted_roles, credentials, id, privilege).get\n if result.is_a?(Hash) && ( count = result['count'] )\n count\n else\n result\n end\n end", "def roles\n response[\"roles\"]\n end", "def role\n @role\n end", "def get_role(optional={})\n\t\targs = self.class.new_params\n\t\targs[:query]['Action'] = 'GetRole'\n\t\targs[:region] = optional[:_region] if (optional.key? :_region)\n\t\targs[:scheme] = 'https'\n\t\tif optional.key? :_method\n\t\t\traise ArgumentError, '_method must be GET|POST' unless 'GET|POST'.split('|').include? optional[:_method]\n\t\t\targs[:method] = optional[:_method]\n\t\tend\n\t\tif optional.key? :role_name\n\t\t\targs[:query]['RoleName'] = optional[:role_name]\n\t\tend\n\t\tself.run(args)\n\tend", "def map_available_roles\n roles.each.map &:name\n end", "def index\n client_application_id = current_user.client_application_id.to_s\n @roles = Role.where(client_application_id: client_application_id)\n end", "def index\n role = Role.find_by_name('Admin')\n @users = role.users\n end", "def show\n @role = Role.find(params[:id])\n \n respond_to do |format|\n format.html # show.html.erb\n format.json { render json: @role }\n end\n end", "def show\n @role = Role.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.json { render json: @role }\n end\n end", "def show\n @role = Role.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.json { render json: @role }\n end\n end", "def show\n @role = Role.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.json { render json: @role }\n end\n end", "def index\n @roles = record.roles.includes(:resource)\n render jsonapi: @roles, include: %i[users groups resource]\n end", "def index\n @users_roles = UsersRole.all\n end", "def index\n @member_functions = MemberFunction.all\n end", "def the_roles\n roles.each.map{|_r| User::ROLES[_r.to_sym] }\n end", "def index\n @movie_roles = @movie.roles\n end", "def roles_path\n @roles_path ||= '/api/v2/roles'\n end", "def required_roles_for_method(method)\n self.class.required_roles_for_method(method)\n end", "def get_external_roles\n get(\"#{url_base}/external_role_map/all?#{dc}\")[\"data\"]\n end", "def role\n permission_type\n end", "def check_permission(event, role)\n case role\n when 'botmaster'\n {\n granted: event.user.id == BOTMASTER_ID,\n allowed: ['botmasters']\n }\n else\n names = Role.owners(role).pluck(:username)\n {\n granted: Role.exists(event.user.id, role),\n allowed: role.pluralize #names\n }\n end\nend", "def index\n render json: [UserRole.find_by(user_id: params[:user_id],\n role_id: params[:role_id])],\n each_serializer: UserRoleSerializer\n end", "def authorizations_for(role)\n auth_roles = roles.find(:all, :joins => :role, :include => :authorizations, :conditions => { \"roles.name\" => role.to_s })\n return nil if auth_roles.empty?\n auth_roles.collect(&:authorizations).flatten.compact\n end", "def filter_access!\n treat_as get_current_role\n end", "def add_role\n person\n end", "def index\n @functionaries = Functionary.with_functionary(current_user).page params[:page]\n \n end", "def index\n\t\tauthorize! :index, AsignacionFuncion\n @asignacion_funciones = AsignacionFuncion.all\n\t\t@usuario_rol = []\n\t\t@asignacion_funciones.each do |asignacion_funcion|\n\t\t\tif asignacion_funcion.usuario !=nil\n\t\t\t\tuser=Usuario.find(asignacion_funcion.usuario_id).nombreUsuario\n\t\t\telse \n\t\t\t\tuser = '-'\n\t\t\tend\n\t\t\t@usuario_rol << {\n usuario: user ,\n rol: Rol.find(asignacion_funcion.rol_id).nombre\n \t\t}\n\t\tend\n end", "def index\n @usuario = current_usuario\n @funcionarios = @usuario.local.funcionarios.asc(:nome)\n end", "def index\n @role_permisions = RolePermision.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.json { render json: @role_permisions }\n end\n end", "def index\n @admin_functions = Admin::Function.all\n end" ]

[ "0.66701525", "0.6664875", "0.64303726", "0.63389546", "0.6207894", "0.6207894", "0.61964047", "0.6125827", "0.6070715", "0.6011716", "0.5949966", "0.59381723", "0.5912842", "0.5912062", "0.5911692", "0.5909983", "0.5909983", "0.5851212", "0.5842832", "0.58245695", "0.5823993", "0.5811125", "0.5782713", "0.5762793", "0.57570666", "0.574926", "0.5738095", "0.57035977", "0.57002896", "0.56974673", "0.568394", "0.566954", "0.56669986", "0.5665472", "0.5654339", "0.5648249", "0.5640696", "0.5639607", "0.5639557", "0.56302243", "0.560591", "0.560591", "0.5567483", "0.55592686", "0.55515313", "0.55439043", "0.5543361", "0.55220246", "0.5513984", "0.55111647", "0.549417", "0.5486164", "0.5486164", "0.5481116", "0.5472704", "0.54651415", "0.5461176", "0.54582405", "0.5455534", "0.5446231", "0.54422575", "0.5437796", "0.5434846", "0.5433841", "0.5433227", "0.54184467", "0.5416721", "0.5409751", "0.54030555", "0.54020476", "0.5401802", "0.53998643", "0.5399819", "0.5395269", "0.5395269", "0.5395269", "0.5393884", "0.5393394", "0.5388121", "0.5379395", "0.53763187", "0.5375371", "0.53617054", "0.5354313", "0.5351022", "0.53490645", "0.5342759", "0.5341528", "0.5340769", "0.5339167", "0.5338022", "0.533672", "0.53329045", "0.53325444", "0.5330911" ]

[ "def set_role_funcion\n @role_funcion = RoleFuncion.find(params[:id])\n end", "def getRole\n @users = User.where(\"role = ?\", params[:role]).NameOrder\n render json: @users\n end", "def index\n authorize Role\n\n respond_to do |format|\n format.json { render json: @roles }\n end\n end", "def role_funcion_params\n params.require(:role_funcion).permit(:role_id, :funcion_id, :funcions)\n end", "def create\n @role_funcion = RoleFuncion.new(role_funcion_params)\n respond_to do |format|\n if @role_funcion.save\n format.html { redirect_to @role_funcion }\n format.json { render action: 'show', status: :created, location: @role_funcion }\n else\n format.html { render action: 'new' }\n format.json { render json: @role_funcion.errors, status: :unprocessable_entity }\n end\n end\n end", "def GetRole id\n\n APICall(path: \"custom_roles/#{id}.json\")\n\n end", "def update\n respond_to do |format|\n if @role_funcion.update(role_funcion_params)\n format.html { redirect_to @role_funcion }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @role_funcion.errors, status: :unprocessable_entity }\n end\n end\n end", "def destroy\n @role_funcion.destroy\n respond_to do |format|\n format.html { redirect_to role_funcions_url }\n format.json { head :no_content }\n end\n end", "def test_role_features\n\n # get members of role with guid 4\n get '/role/3/members'\n assert (last_response.status == 200), \"Get all members of role id 3: response is not 200\"\n\n # get available role attributes\n get '/role/attributes'\n assert (last_response.body.size > 50), \"Get available role attributes: response to small for valid data\"\n\n # get all roles\n get '/role'\n assert (last_response.body.size > 50), \"Get all roles: response to small for valid data\"\n\n # get role with guid \"3\"\n get '/role/3'\n assert (last_response.body.size > 50), \"Get role with id 3: response to small for valid data\"\n end", "def show\n @roles_and_permission = @roles.roles_and_permission.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.json { render json: @roles_and_permission }\n end\n end", "def get_user_roles\n @roles = @user.roles.pluck(:name)\n render json: @roles\n end", "def show\n render json: @role\n end", "def show\n if can?(:read, User)\n @user = User.find(params[:id])\n @roles = \"\"\n\n @user.roles.each do |role|\n if @roles == \"\"\n @roles += role.name\n else\n @roles += \", \" + role.name\n end\n end\n end\n\n respond_to do |format|\n format.json { render :json => @user }\n format.xml { render :xml => @user }\n format.html \n end\n\n rescue ActiveRecord::RecordNotFound\n respond_to_not_found(:json, :xml, :html)\n end", "def role; end", "def role; end", "def show\n authorize RoleCutoff\n end", "def show\n @role = Role.find(params[:id])\n \n respond_to do |format|\n format.html # show.html.erb\n format.json { render json: @role }\n end\n end", "def claims\n get_all_roles\n end", "def claims\n get_all_roles\n end", "def show\n @role = Role.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.json { render json: @role }\n end\n end", "def show\n @role = Role.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.json { render json: @role }\n end\n end", "def show\n @role = Role.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.json { render json: @role }\n end\n end", "def index\n authorize Role\n @roles = Role.all\n end", "def index\n @roles = Role.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.json { render json: @roles }\n end\n end", "def show\n @role = get_role\n respond_with @event, @role\n end", "def index\n @user = User.find( params[:user_id] )\n @roles = Role.all\n\n respond_to do |format|\n format.js { render :roles }\n end\n end", "def api_name\n :roles_mask\nend", "def roles\n roles_from_users\n end", "def index\n @facilities = Role.find(current_user.current_role).facilities\n end", "def show\n @role_user = RoleUser.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.json { render json: @role_user }\n end\n end", "def role_data(id)\n @conn.get(\"/api/v1/roles/#{id}\")\n end", "def show\n @roles = Role.all\n end", "def list\n\n @roles = Role.find(:all, :order => 'name')\n\n end", "def edit_users\n @user = User.find(params[:id])\n @role = @user.roles.first.name\n end", "def show\n @role = Role.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @role }\n format.js { render :json => @role.to_json }\n end\n end", "def display_all_roles\n # Interface method\n end", "def index\n @user_roles = UserRole.find(:all)\n\n respond_to do |format|\n format.html # index.html.erb\n end\n end", "def select\n @users ||= User.role_wise_users(params[:user][:role])\n authorize! :read, @user\n end", "def show\n @permissions = @role.permissions\n end", "def index\n @roles = Role.order(\"name\").all\n @user_list = User.order(\"email\").all\n \n respond_to do |format|\n format.html # index.html.erb\n format.json { render json: @roles }\n end\n end", "def role_select\n @@Roles.list\n end", "def roles_path\n @roles_path ||= '/api/v2/roles'\n end", "def list\n # We don't use pagination here since we want to display the roles in a\n # nice tree. Additionally, there won't be more than ~100 roles in a\n # normal scenario anyway - far less!\n @roles = Role.find(:all)\n end", "def show\n @role = Role.find(params[:id])\n respond_with(@role)\n end", "def index\n @users = User.filter(params.slice(:role)).order(\"created_at DESC\")\n render json: @users\n end", "def index\n index_helper\n respond_to do |format|\n format.html # index.html.erb\n format.json { render json: @role_permissions }\n end\n end", "def index\n\t\tparamsr\n\t\tglobal\n\t\t# render json: @roles, each_serializer: RoleSerializer, root: false\n\tend", "def index\n render json: [UserRole.find_by(user_id: params[:user_id],\n role_id: params[:role_id])],\n each_serializer: UserRoleSerializer\n end", "def roles\n self.dig_for_array(\"roles\")\n end", "def index\n @roles = Role.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @roles }\n format.json { render :json => @roles.to_json(:only => [:id, :code, :name, :definition]) }\n format.js { render (:update){ |page| page[dom_id_nested(:index)].replace :file => \"admin/roles/index\" } }\n end\n end", "def fir_role\n self.roles.detect { |r| r.name == 'FIR' }\n end", "def show\n @user_role = UserRole.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n end\n end", "def show\n @role = Role.includes(:personal_roles => :person).find_by_slug!(params[:id])\n respond_to do |format|\n format.html\n format.json { render :json => @role }\n end\n end", "def index\n @users = User.all\n \n respond_to do |format|\n format.html # index.html.erb\n format.json { render :json => @user_roles }\n end\n end", "def display_role\n ROLE_LIST[self.role]\n end", "def edit_role\n @user = User.find(params[:id])\n @roles = Role.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @user }\n end\n end", "def index\n @roles = Role.all\n end", "def index\n @roles = Role.all\n end", "def index\n @roles = Role.all\n end", "def index\n @roles = Role.all\n end", "def index\n @roles = Role.all\n end", "def index\n @roles = Role.all\n end", "def index\n @roles = Rol.all\n end", "def show_role_policy\n role_name = params[:name]\n @policy = $iam.client.list_role_policies(:role_name => role_name)\n end", "def get_role(optional={})\n\t\targs = self.class.new_params\n\t\targs[:query]['Action'] = 'GetRole'\n\t\targs[:region] = optional[:_region] if (optional.key? :_region)\n\t\targs[:scheme] = 'https'\n\t\tif optional.key? :_method\n\t\t\traise ArgumentError, '_method must be GET|POST' unless 'GET|POST'.split('|').include? optional[:_method]\n\t\t\targs[:method] = optional[:_method]\n\t\tend\n\t\tif optional.key? :role_name\n\t\t\targs[:query]['RoleName'] = optional[:role_name]\n\t\tend\n\t\tself.run(args)\n\tend", "def index\n return unless check_permission\n\n @roles = Role.left_joins(:user)\n end", "def show\n @role_permision = RolePermision.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.json { render json: @role_permision }\n end\n end", "def index\n @roles = policy_scope(Role).page(pagination[:page]).per(pagination[:per])\n end", "def role\n @role\n end", "def get_role(the_role)\n self.roles.where(user_id:self.id,roleable_type:the_role).first\n end", "def show\n @role_permission = RolePermission.find(params[:id])\n #authorize! :show, @role_permission\n respond_to do |format|\n format.html # show.html.erb\n format.json { render json: @role_permission }\n end\n end", "def index\n @roles = System::Role.all\n end", "def data_for_role_show\n {}\n end", "def index\n client_application_id = current_user.client_application_id.to_s\n @roles = Role.where(client_application_id: client_application_id)\n end", "def edit\n @user = User.find(params[:id])\n if can?(:update, @user)\n @roles = \"\"\n\n @user.roles.each do |role|\n if @roles == \"\"\n @roles += role.name\n else\n @roles += \", \" + role.name\n end\n end\n else\n @user = nil\n end\n\n respond_to do |format|\n format.json { render :json => @user } \n format.xml { render :xml => @user }\n format.html\n end\n\n rescue ActiveRecord::RecordNotFound\n respond_to_not_found(:json, :xml, :html)\n end", "def roles\n client.user_roles(id)\n end", "def roles\n client.user_roles(id)\n end", "def index\n role = Role.find_by_name('Admin')\n @users = role.users\n end", "def show\n @role = @client.roles.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @role }\n end\n end", "def index\n @role_permisions = RolePermision.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.json { render json: @role_permisions }\n end\n end", "def index\n @roles = record.roles.includes(:resource)\n render jsonapi: @roles, include: %i[users groups resource]\n end", "def index\n @users_roles = UsersRole.all\n end", "def additional_users_for_show\n [@role.user]\n end", "def resource_name\n\t\t\"role\"\n\tend", "def show\n @lab_permissions_role = LabPermissionsRole.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.json { render json: @lab_permissions_role }\n end\n end", "def roles\n @users = User.order(\"user_name\").all\n end", "def role\n permission_type\n end", "def index\n @all_roles = Role.all\n @user = User.find(params[:user_id])\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @roles }\n end\n end", "def show\n @user = User.find(params[:id])\n @roles = @user.roles\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @user }\n end\n end", "def add_permissions\r\n @role = Role.find(params[:id])\r\n end", "def roles_list(role = nil)\n self.role_symbols\n end", "def user_role\n USER_ROLE[role]\n end", "def add_role\n person\n end", "def show\n @user = User.find(params[:id])\n @roles = Role.find(:all)\n # @roles = Role.find(:all)\n #@count=RolesUser.count(:conditions=>[\"user_id=?\",params[:id]])\n #@role=RolesUser.find(:first,:conditions=>[\"user_id=?\",params[:id]])\n #render :text=>role.role.name\n #respond_to do |format|\n # format.html # show.html.erb\n # format.xml { render :xml => @user }\n # end\n end", "def show\n\t\tshow_\n\t\trespond_to do |format|\n\t\t\tformat.html # show.html.erb\n\t\t\tformat.xml { render :xml => @role }\n\t\tend\n\tend", "def index\n role = Role.find_by_name('SuperAdmin')\n @users = role.users\n end", "def check_roles\n if current_user.roles.include?(Role['owner'])\n return true\n elsif request.format.symbol == :json && params[:action] == 'index'\n return true\n end\n\n redirect_to root_path\n end", "def role_name\n object.role_name\n end", "def index\n @movie_roles = @movie.roles\n end", "def role_symbols\n [:user]\n end", "def index\n @app_roles = AppRole.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.json { render json: @app_roles }\n end\n end" ]

[ "0.6922573", "0.65405387", "0.65224504", "0.65093327", "0.62409645", "0.62395716", "0.61759853", "0.6150717", "0.61247134", "0.6076954", "0.5993305", "0.59794", "0.59665895", "0.5933133", "0.5933133", "0.5916117", "0.59039223", "0.5895515", "0.5895515", "0.58860976", "0.58860976", "0.58860976", "0.58795553", "0.58607453", "0.58391815", "0.58075064", "0.58013767", "0.57952774", "0.5783496", "0.5740666", "0.57376313", "0.5735113", "0.57204586", "0.57145804", "0.5701027", "0.56926054", "0.5690948", "0.5680965", "0.56803197", "0.56756043", "0.566039", "0.5658067", "0.56570494", "0.5652553", "0.56494826", "0.5643311", "0.5636152", "0.5634796", "0.562492", "0.5612878", "0.5604186", "0.56020254", "0.5601482", "0.5598562", "0.5594904", "0.55780417", "0.5568939", "0.5568939", "0.5568939", "0.5568939", "0.5568939", "0.5568939", "0.5549326", "0.5539391", "0.5537152", "0.55350757", "0.5527607", "0.5518496", "0.55125487", "0.5507551", "0.5497484", "0.5496818", "0.5491312", "0.5489152", "0.54851943", "0.5477159", "0.5477159", "0.54622006", "0.5455676", "0.544879", "0.54454106", "0.5441389", "0.54326904", "0.5427817", "0.54214716", "0.54202825", "0.5417686", "0.5415539", "0.54128015", "0.5409496", "0.54065967", "0.5405642", "0.5401117", "0.5397792", "0.53935915", "0.5385862", "0.53694856", "0.53594536", "0.53562266", "0.5355794", "0.5351918" ]

[ "def role_funcion_params\n params.require(:role_funcion).permit(:role_id, :funcion_id, :funcions)\n end", "def create\n abilities = []\n client_application = current_user.client_application_id.to_s\n @abilities = Role.get_method_names.sort\n @role = Role.new(role_params)\n params[:role][:role_abilities].each do |ability|\n abilities << ability.to_sym\n end\n @role.role_abilities = [{\"action\"=> abilities, \"subject\"=>[:api]}]\n @role.client_application_id = client_application\n respond_to do |format|\n if @role.save\n format.html { redirect_to roles_path, notice: 'Role was successfully created.' }\n format.json { render :index, status: :created, location: @role }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def set_role_funcion\n @role_funcion = RoleFuncion.find(params[:id])\n end", "def CreateRole params = {}\n \n APICall(path: 'custom_roles.json',method: 'POST',payload: params.to_json)\n \n end", "def update\n respond_to do |format|\n if @role_funcion.update(role_funcion_params)\n format.html { redirect_to @role_funcion }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @role_funcion.errors, status: :unprocessable_entity }\n end\n end\n end", "def post_role(role)\n role = {\n \"id\"=>nil,\n \"name\"=>nil, \n \"description\"=>\"\", \n \"sessionTimeout\"=>\"60\",\n \"roles\"=>[],\n \"privileges\"=>[]\n }.merge(role);\n post(\"#{url_base}/roles\", {\"data\"=>role})[\"data\"]\n end", "def save_roles user\n user.add_role(params[:role_name])\n end", "def destroy\n @role_funcion.destroy\n respond_to do |format|\n format.html { redirect_to role_funcions_url }\n format.json { head :no_content }\n end\n end", "def ums_function_params\n params.require(:function).permit(:name, :controller, :action)\n end", "def create\n @ums_function = Ums::Function.new(ums_function_params)\n\n respond_to do |format|\n if @ums_function.save\n format.html { redirect_to ums.functions_url, notice: '功能创建创建成功.' }\n format.json { render action: 'show', status: :created, location: @ums_function }\n else\n format.html { render action: 'new' , status: :unprocessable_entity}\n format.json { render json: @ums_function.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(params[:role])\n\n @perms = params[:permissions[\"permissions\"]]\n if @perms != nil\n @permissions = @perms[\"permissions\"]\n end\n #logger.debug \"PERMISSIONS: #{@permissions.inspect}\"\n if @permissions == nil\n @role.read = 0\n @role.write = 0\n @role.execute = 0\n end\n if @permissions != nil\n if @permissions.include?(\"read\")\n @role.read = 1\n else\n @role.read = 0\n end\n if @permissions.include?(\"write\")\n @role.write = 1\n else\n @role.write = 0\n end\n if @permissions.include?(\"execute\")\n @role.execute = 1\n else\n @role.execute = 0\n end\n end\n \n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: t(:role_created) }\n format.json { render json: @role, status: :created, location: @role }\n else\n format.html { render action: \"new\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @member_function = MemberFunction.new(member_function_params)\n\n respond_to do |format|\n if @member_function.save\n format.html { redirect_to @member_function, notice: 'Member function was successfully created.' }\n format.json { render :show, status: :created, location: @member_function }\n else\n format.html { render :new }\n format.json { render json: @member_function.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @admin_function = Admin::Function.new(admin_function_params)\n\n respond_to do |format|\n if @admin_function.save\n format.html { redirect_to @admin_function, notice: 'Function was successfully created.' }\n format.json { render :show, status: :created, location: @admin_function }\n else\n format.html { render :new }\n format.json { render json: @admin_function.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @func = Func.new(func_params)\n\n respond_to do |format|\n if @func.save\n format.html { redirect_to @func, notice: 'Func was successfully created.' }\n format.json { render :show, status: :created, location: @func }\n else\n format.html { render :new }\n format.json { render json: @func.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n if !grant_access(\"edit_roles\", current_user)\n head(403)\n end\n @role = Role.new(role_params)\n @role.user_id = current_user.id\n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: 'Role was successfully created.' }\n format.json { render :show, status: :created, location: @role }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n respond_to do |format|\n if @role.save\n format.html { redirect_to user_roles_path(@user), notice: I18n.t('controller.create_success_notice', model: '角色') }\n format.json { render action: 'show', status: :created, location: @role }\n else\n format.html { render action: 'new' }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def add_role\n person\n end", "def create\n @role = get_role\n flash[:notice] = t('create.success', :scope => get_i18n_scope) if @role.save and not request.xhr?\n respond_with @event, @role, :location => {:action => 'index'}\n end", "def create\n @role = Role.new(role_params) \n @role.permissions = []\n @role.set_permissions(params[:permissions]) if params[:permissions]\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: 'Role was successfully created.' }\n format.json { render :show, status: :created, location: @role }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n authorize! :create, @user, :message => \"No puedes tienes acceso a esta opcion.\"\n @user = User.new(user_params)\n @user.add_role(params[:role])\n @user.save\n redirect_to usuarios_path, notice: 'Usuario fue creado'\n \n end", "def create\n @role = Role.new(role_params)\n\n respond_to do |format|\n if @role.save\n format.html {\n redirect_to dashboard_path\n flash[:success] = @role.name+' was successfully created.' }\n format.json { render json: @role.to_json }\n else\n format.html { render action: 'new' }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @funcionario = Funcionario.new(params[:funcionario])\n if current_user.is_role?(:administrador) \n else\n @funcionario.user = current_user \n end \n flash[:notice] = \"Funcionario salvo com sucesso!\" if @funcionario.save\n # respond_with @funcionario, :location => [:admin, @funcionario]\n redirect_to admin_funcionarios_path\n end", "def create\n @roles_privilege = RolesPrivilege.new(roles_privilege_params)\n\n respond_to do |format|\n if @roles_privilege.save\n format.html { redirect_to @roles_privilege, notice: 'Roles privilege was successfully created.' }\n format.json { render :show, status: :created, location: @roles_privilege }\n else\n format.html { render :new }\n format.json { render json: @roles_privilege.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(params[:role])\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to edit_role_path(@role), :notice => t('hurricane.notice.create_record_success', :type => t_type) }\n format.json { render json: @role, status: :created, location: @role }\n else\n format.html { render action: \"new\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def function_params\n params.require(:function).permit(:enters_at, :leaves_at, :name, :description, :organic_unit_id, :experience_kind, :qualification_kind, :experience_years, :other_requirements, :objectives, :function_deslocation_regime_id, :directorate_id, {function_area_ids: [], function_autonomy_level_ids: [], function_subsidy_ids: []})\n end", "def create\n @users_role = UsersRole.new(users_role_params)\n\n respond_to do |format|\n if @users_role.save\n format.html { redirect_to @users_role, notice: 'Users role was successfully created.' }\n format.json { render :show, status: :created, location: @users_role }\n else\n format.html { render :new }\n format.json { render json: @users_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @user_function = UserFunction.new(params[:user_function])\n\n respond_to do |format|\n if @user_function.save\n flash[:notice] = 'UserFunction was successfully created.'\n format.html { redirect_to([:admin,@user_function]) }\n format.xml { render :xml => @user_function, :status => :created, :location => @user_function }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @user_function.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(params[:role])\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to admin_roles_path, notice: 'Role was successfully created.' }\n format.json { render json: @role, status: :created, location: @role }\n else\n format.html { render action: \"new\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(role_params)\n\n respond_to do |format|\n if role.save\n current_user.add_role :admin, role\n format.html { redirect_to admin_role_path(role), notice: 'Role was successfully created.' }\n format.json { render :show, status: :created, location: role }\n else\n format.html { render :new }\n format.json { render json: role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(params[:role])\n \n respond_to do |format|\n if @role.save\n flash[:notice] = 'Role was successfully created.'\n format.xml { render :xml => @role, :status => :created, :location => @role }\n format.js #create.js.rjs\n else\n @possible_permissions = Permission.by_category(@role.category)\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n format.js #create.js.rjs\n end\n end\n end", "def create\n @funcao = Funcao.new(funcao_params)\n\n respond_to do |format|\n if @funcao.save\n format.html { redirect_to @funcao, notice: 'Funcao was successfully created.' }\n format.json { render :show, status: :created, location: @funcao }\n else\n format.html { render :new }\n format.json { render json: @funcao.errors, status: :unprocessable_entity }\n end\n end\n end", "def render_create_success\n render json: @resource, include: [:roles], show_roles: true\n end", "def functionary_params\n params.require(:functionary).permit(\n :matriculation, :name, :function, :active, :leader, \n :user_attributes => [:id, :email, :password, :password_confirmation]\n ) \n end", "def index\n authorize Role\n\n respond_to do |format|\n format.json { render json: @roles }\n end\n end", "def funcao_params\n params.require(:funcao).permit(:funcao)\n end", "def create\n submenu_item 'role_new'\n load_permissions\n ids=params[:permissions].select{|k,v| v=='1'}.map { |k,v| k.to_i } unless params[:permissions].nil?\n if ids.length > 0\n permissions=Permission.find(:all, :conditions => [\"id in (#{ids.join(',')})\"])\n params[:role][:permissions] = permissions\n @role = Role.new(params[:role])\n if @role.save\n flash[:notice] = \"创建角色成功\"\n redirect_to :action => 'index'\n else\n flash[:error] = \"创建角色失败\"\n render :action => 'new'\n end\n else\n flash[:error] = \"角色名或权限不能为空\"\n redirect_to :action => 'new'\n end\n\n end", "def character_roles_params\n \n end", "def create\n @role = Role.new role_params\n authorize @role\n flash.now[:notice] = 'Role was successfully created.' if @role.save\n respond_with @role\n end", "def create\n @role = Role.new(role_params)\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: 'Role was successfully created.' }\n format.json { render :show, status: :created, location: @role }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(role_params)\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: 'Role was successfully created.' }\n format.json { render :show, status: :created, location: @role }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(role_params)\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: 'Role was successfully created.' }\n format.json { render :show, status: :created, location: @role }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(params[:role])\n \n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: 'Role was successfully created.' }\n format.json { render json: @role, status: :created, location: @role }\n else\n format.html { render action: \"new\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(params[:role])\n\n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: 'Role was successfully created.' }\n format.json { render json: @role, status: :created, location: @role }\n else\n format.html { render action: \"new\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(roles_params)\n @roles = Role.all\n #Verificacion de que los campos estén llenos\n if params[:role][:descrip_rol] == \"\"\n @titulo = \"Creacion de rol\"\n @mensaje = \"Debe llenar todos los campos\"\n @tipo = \"warning\"\n @icono = \"icon fa fa-warning\"\n else\n #Verificacion de la repeticion del nombre\n if !RepeticionRolCreate(@roles, params[:role][:descrip_rol])\n @titulo = \"Creacion de rol\"\n @mensaje = \"Ya existe un rol de usuario con ese nombre\"\n @tipo = \"warning\"\n @icono = \"icon fa fa-warning\"\n else\n respond_to do |format|\n if @role.save\n format.js\n format.html {redirect_to @role, notice: \"Rol de usuario creado correctamente\"}\n format.json {render :show, status: :created, location: @role}\n @titulo = \"Creacion de rol\"\n @mensaje = \"Se a creado el rol de usuario correctamente\"\n @tipo = \"success\"\n @icono = \"icon fa fa-check\"\n else\n format.js\n format.html {render :new}\n format.json {render json: @role.errors, status: :unprocessable_entity}\n @titulo = \"Creacion de rol\"\n @mensaje = \"Ha ocurrido un error\"\n @tipo = \"danger\"\n @icono = \"icon fa fa-ban\"\n end\n end\n end\n end\n end", "def create\n\t\tauthorize! :create, AsignacionFuncion\n @asignacion_funcion = AsignacionFuncion.new(asignacion_funcion_params)\n\n respond_to do |format|\n if @asignacion_funcion.save\n\t\t\t\tsesion= Sesion.find_by(usuario_id: current_usuario.id, fechaFin: nil)\n\t\t\t\tTransaccion.create!(\n \t\t\t\tdescripcion: \"Creación asociación rol #{@asignacion_funcion.rol.nombre} al usuario #{@asignacion_funcion.usuario.nombreUsuario}: actual = #{ t @asignacion_funcion.esActual.to_s}\",\n \t\t\t\tsesion_id: sesion.id\n\t\t\t\t)\n format.html { redirect_to @asignacion_funcion\n flash[:success] = 'Asignacion funcion fue creado satisfactoriamente.' }\n format.json { render :show, status: :created, location: @asignacion_funcion }\n else\n format.html { render :new }\n format.json { render json: @asignacion_funcion.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @funcionario = Funcionario.new(funcionario_params)\n respond_to do |format|\n if @funcionario.save\n format.html { redirect_to @funcionario, notice: 'Funcionário cadastrado com sucesso' }\n format.json { render :show, status: :created, location: @funcionario }\n else\n format.html { render :new }\n format.json { render json: @funcionario.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n\n @roles_and_permission = @roles.roles_and_permission.new(params[:roles_and_permission])\n \n respond_to do |format|\n if @roles_and_permission.save\n format.html { redirect_to [@roles, @roles_and_permission ], notice: 'Roles and permission was successfully created.' }\n format.json { render json: @roles_and_permission, status: :created, location: @roles_and_permission }\n else\n format.html { render action: \"new\" }\n format.json { render json: @roles_and_permission.errors, status: :unprocessable_entity }\n end\n end\n end", "def add_role\n @user = User.find(params[:id])\n if @user\n if @user.has_role? params[:role]\n render json: { :success => 'user already has this role' }\n else\n @user.add_role params[:role]\n render json: { :success => 'successfully add role' }\n end\n else\n render json: { errors: \"user does not exist\" }, status: :unprocessable_entity\n end\n end", "def create\n @user = User.new(user_params)\n\n if roles = params[:user][:roles]\n roles.map { |r| r.downcase }.each do |role|\n unless role.empty?\n @user.roles << Role.new(type: role)\n\n if role == \"admin\"\n respond_to do |format|\n if @user.save\n format.html { redirect_to (flash[:redirect] || :attendees), notice: 'User was successfully created.' }\n format.json { render :show, status: :created, location: @user }\n else\n format.html { render :new }\n format.json { render json: @user.errors, status: :unprocessable_entity }\n end\n end\n end\n\n if role == \"staff\"\n redirect_to get_staff_list_path\n end\n\n end\n end\n end\n end", "def api_name\n :roles_mask\nend", "def create_facility_role\n self.facility_roles.create!(user_id: user.id, name: 'climber', email: user.email, confirmed: true )\n end", "def registerRoleByFullname\n if (@role.nil? or @role_level != 'admin') and !current_actor.superadmin\n json_response({ message: \"You don't have permission to create roles for this project\" }, :unauthorized)\n return\n end\n if params[\"fullname\"].nil?\n json_response({ message: \"No fullname provided\" }, :forbidden)\n return\n end\n actor = Actor.find_by fullname: params[\"fullname\"]\n if actor.nil?\n json_response({ message: \"No actor found with that fullname\" }, 404)\n return\n end\n @created_role = Role.create(project_id: @project.id, actor_id: actor.id, role_level_id: \"2\", clusters_permissions: true, services_permissions: true, subscriptions_permissions: true)\n json_response(@created_role, :created)\n end", "def create\n authorize! :manage_users, :all\n @user = User.new(params[:user])\n if @user.role == 'admin' or @user.role == 'teacher'\n @user.validation_scenario = 'admin_or_teacher'\n end\n respond_to do |format|\n if @user.save\n @user.add_role @user.role\n format.html { redirect_to @user, notice: 'User was successfully created.' }\n format.json { render json: @user, status: :created, location: @user }\n else\n format.html { render action: \"new\" }\n format.json { render json: @user.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @role = Role.new(params[:role])\n @role.save\n respond_with(@role)\n end", "def create\n @entity_role = EntityRole.new(entity_role_params)\n\n respond_to do |format|\n if @entity_role.save\n format.html { redirect_to @entity_role, notice: 'Entity role was successfully created.' }\n format.json { render :show, status: :created, location: @entity_role }\n else\n format.html { render :new }\n format.json { render json: @entity_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def operation_params\n params.require(:operation).permit(:function_name)\n end", "def create\n @role = Role.new(role_params)\n\n # create a Array of action object from each line from table\n respond_to do |format|\n if @role.save\n @i = 0;\n @role.permissions = params[:role][:permission].values.map do |action_p|\n @p = Permission.new(action_p)\n if @p.new || @p.edit || @p.remove then @p.index = true end\n @p.session = @i\n @i = @i + 1\n @p\n end\n @role.save\n format.html { redirect_to management_roles_path }\n format.json { render json: @role, status: :created }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @account = Account.new(alumnis_params)\n\n respond_to do |format|\n if @account.save\n @account.add_role 'alumni'\n format.html { redirect_to admin_accounts_alumnis_path, notice: 'Alumni was successfully created.' }\n format.json { render :show, status: :created, location: @account }\n else\n format.html { render :new }\n format.json { render json: @account.errors, status: :unprocessable_entity }\n end\n end\n end", "def add_user\n params[:roles] ||= []\n\n @team = Team.find(params[:id])\n authorize @team, :update?\n\n @user = User.find_or_invite(params[:email])\n\n roles = []\n roles << :admin if params[:roles].include? 'admin'\n roles << :member if params[:roles].include? 'member'\n roles.each do |role|\n @user.add_role role, @team\n end\n\n respond_to do |format|\n if @user.nil?\n format.html { redirect_to @team, notice: 'Could not find user' }\n format.json { render status: :unprocessable_entity }\n elsif roles.empty?\n format.html { redirect_to @team, notice: 'Please select at least one role' }\n format.json { render status: :unprocessable_entity }\n else\n format.html { redirect_to @team, notice: 'User was successfully added.' }\n format.json { head :no_content }\n end\n end\n end", "def create\n @role = System::Role.new(system_role_params)\n respond_to do |format|\n if @role.save\n format.html { redirect_to system_roles_url, notice: '添加角色成功.' }\n format.json { render :show, status: :created, location: @role }\n else\n format.html { render :new }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @user = User.new(user_params)\n @user.add_role(:user)\n respond_to do |format|\n if @user.save\n format.html { redirect_to @user, notice: 'User was successfully created.' }\n format.json { render :show, status: :created, location: @user }\n else\n format.html { render :new }\n format.json { render json: @user.errors, status: :unprocessable_entity }\n end\n end\n end", "def role_params\n {}\n end", "def create\n @role = Role.new(role_params)\n @role.create_user_id = session[:user_id]\n #權限\n @atext = ''\n\n\n\n\n if @role.save\n\n params['point'].each do |po|\n @atext += po[0].to_s + ','\n end\n @role.text = @atext\n @role.save\n\n flash[:notice] = \"角色-新增成功!\"\n redirect_to action: \"index\"\n else\n @aces = Access.all\n render action: 'new'\n end\n\n # respond_to do |format|\n # if @role.save\n # format.html { redirect_to @role, notice: 'Role was successfully created.' }\n # format.json { render action: 'show', status: :created, location: @role }\n # else\n # format.html { render action: 'new' }\n # format.json { render json: @role.errors, status: :unprocessable_entity }\n # end\n # end\n end", "def accept_role role\n self.roles.push role\n end", "def add_permissions\r\n @role = Role.find(params[:id])\r\n end", "def funcions=(value)\n @funcions = value\n end", "def create\n chef_server_rest.post(\"roles\", self)\n self\n end", "def create\n return unless check_permission\n\n @role = Role.new(role_params)\n respond_to do |format|\n if @role.save\n format.html { redirect_to @role, notice: 'Role was successfully created.' }\n else\n @users = User.all\n format.html { render :new }\n end\n end\n end", "def create\n @funcionario = Funcionario.new(funcionario_params)\n\n respond_to do |format|\n if @funcionario.save\n format.html { redirect_to @funcionario, notice: \"Funcionario was successfully created.\" }\n format.json { render :show, status: :created, location: @funcionario }\n else\n format.html { render :new, status: :unprocessable_entity }\n format.json { render json: @funcionario.errors, status: :unprocessable_entity }\n end\n end\n end", "def function_params\n params.require(:function).permit(:movie, :day, :num_chairs, :movie_id)\n end", "def create_roles\n ['admin', 'lector', 'jefe_calidad', 'jefe_bodega', 'op_bodega'].each do |role_name|\n Role.create!(name: role_name)\n end\nend", "def create_role(role_name, params = {})\n change_role_access(role_name, user_emails_to_ids(params), :post)\n end", "def create\n @user_to_role = UserToRole.new(user_to_role_params)\n\n respond_to do |format|\n if @user_to_role.save\n format.html { redirect_to @user_to_role, notice: 'User to role was successfully created.' }\n format.json { render :show, status: :created, location: @user_to_role }\n else\n format.html { render :new }\n format.json { render json: @user_to_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def event_params\n params.require(:user).permit(:roles_mask)\n end", "def makec\n @user.add_role :celebrity\n render nothing: true\n end", "def createFunction(code:, name:, isDeterministic: nil) # TESTED\n body = {\n \"code\" => code,\n \"name\" => name,\n \"isDeterministic\" => isDeterministic\n }.delete_if{|k,v| v.nil?}\n request = @@request.merge({ :body => body.to_json })\n result = self.class.post(\"/_db/#{@database}/_api/aqlfunction\", request)\n self.class.return_result result: result\n end", "def assign_permission\n company_admin,*company_admin_all = Role.company_admin.reorder(\"id ASC\")\n functions = company_admin.try(:function_ids) \n if company_admin_all.any?\n company_admin_all.each do |c_admin|\n c_admin.function_ids = functions\n end\n end\n end", "def render_create_success\n render json: UserSerializer.new(@resource, include: [:roles]).serialized_json\n end", "def create\n if params[:role] == \"merchant\"\n create_merchant #creating merchant in this method and sending response.\n elsif params[:role] == \"customer\"\n create_customer #creating customer in this method and sending response.\n end\n end", "def create\n @role_privilege = RolePrivilege.new(role_privilege_params)\n\n respond_to do |format|\n if @role_privilege.save\n format.html { redirect_to role_privileges_url, notice: 'Uloga i privilegija su uspješno povezane.' }\n format.json { render :show, status: :created, location: @role_privilege }\n else\n format.html { render :new }\n format.json { render json: @role_privilege.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @user = User.new(user_params)\n authorize! :create, @user\n authorize! :update, (user_params[:role_id].present? ? Role.find(user_params[:role_id]) : Role)\n\n respond_to do |format|\n if @user.save\n format.html { redirect_to @user, notice: I18n.translate('users.flash.create.success', user: @user.fullname) }\n format.json { render :show, status: :created, location: @user }\n else\n format.html { render :new, notice: I18n.translate('users.flash.create.fail') , status: :unprocessable_entity }\n format.json { render json: @user.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n authorize RoleCutoff\n @role_cutoff = RoleCutoff.new(role_cutoff_params)\n\n respond_to do |format|\n if @role_cutoff.save\n format.html { redirect_to @role_cutoff, notice: \"Role cutoff #{@role_cutoff.description} was successfully created.\" }\n format.json { render :show, status: :created, location: @role_cutoff }\n else\n format.html { render :new }\n format.json { render json: @role_cutoff.errors, status: :unprocessable_entity }\n end\n end\n end", "def add_permission(params={})\n function_name = params.delete('FunctionName')\n action = params.delete('Action')\n principal = params.delete('Principal')\n source_account = params.delete('SourceAccount')\n source_arn = params.delete('SourceArn')\n sid = params.delete('StatementId')\n\n permission = {\n 'Action' => action,\n 'Principal' => principal,\n 'StatementId' => sid\n }\n permission['SourceAccount'] = source_account if source_account\n permission['SourceArn'] = source_arn if source_arn\n\n request({\n :method => 'POST',\n :path => \"/functions/#{function_name}/versions/HEAD/policy\",\n :expects => 201,\n :body => Fog::JSON.encode(permission),\n :parser => Fog::AWS::Parsers::Lambda::Base.new\n }.merge(params))\n end", "def create\n @role_permision = RolePermision.new(params[:role_permision])\n\n respond_to do |format|\n if @role_permision.save\n format.html { redirect_to @role_permision, notice: 'Role permision was successfully created.' }\n format.json { render json: @role_permision, status: :created, location: @role_permision }\n else\n format.html { render action: \"new\" }\n format.json { render json: @role_permision.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n abilities = []\n params[:role][:role_abilities].each do |ability|\n abilities << ability.to_sym\n end\n @role.role_abilities = [{\"action\"=> abilities, \"subject\"=>[:api]}]\n respond_to do |format|\n if @role.update(role_params)\n format.html { redirect_to roles_path, notice: 'Role was successfully updated.' }\n format.json { render :show, status: :ok, location: @role }\n else\n format.html { render :edit }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def data_for_role_new\n {}\n end", "def create\n @profile_role = ProfileRole.new(profile_role_params)\n\n respond_to do |format|\n if @profile_role.save\n format.html { redirect_to @profile_role, notice: 'Profile role was successfully created.' }\n format.json { render :show, status: :created, location: @profile_role }\n else\n format.html { render :new }\n format.json { render json: @profile_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @movie_role = MovieRole.new(movie_role_params)\n\n respond_to do |format|\n if @movie_role.save\n format.html { redirect_to @movie_role, notice: 'Movie role was successfully created.' }\n format.json { render :show, status: :created, location: @movie_role }\n else\n format.html { render :new }\n format.json { render json: @movie_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def role_params\n params.require(:role).permit!\n #(:id, :code, :description, :use_ss)\n end", "def role_params\n params.require(:role).permit(:name, :code, :description, :active)\n end", "def create_role(auth, server_id, name, color, hoist, mentionable, permissions, reason = nil)\n MijDiscord::Core::API.request(\n :guilds_sid_roles,\n server_id,\n :post,\n \"#{MijDiscord::Core::API::APIBASE_URL}/guilds/#{server_id}/roles\",\n { color: color, name: name, hoist: hoist, mentionable: mentionable, permissions: permissions }.to_json,\n Authorization: auth,\n content_type: :json,\n 'X-Audit-Log-Reason': reason\n )\n end", "def create\n \n if request.get?\n @role = Role.new\n else\n @role = Role.new(params[:role])\n\n # assign parent role\n if not params[:role][:parent].to_s.empty?\n @role.parent = Role.find(params[:role][:parent].to_i)\n end\n\n if @role.save\n # set the roles's static permissions to the static permission from the parameters \n params[:role][:static_permissions] = [] if params[:role][:static_permissions].nil?\n @role.static_permissions = params[:role][:static_permissions].collect { |i| StaticPermission.find(i) }\n\n # the above should be successful if we reach here; otherwise we \n # have an exception and reach the rescue block below\n flash[:success] = 'Role has been created successfully.'\n redirect_to :action => 'show', :id => @role.id\n else\n render :action => 'create'\n end\n end\n \n rescue ActiveRecord::RecordNotFound\n flash[:error] = 'You sent an invalid request.'\n redirect_to :action => 'list'\n end", "def role_params\n params.require(:role).permit(:name, :permission_ids => [])\n end", "def create\n @change_function = ChangeFunction.new(change_function_params)\n\n respond_to do |format|\n if @change_function.save\n format.html { redirect_to @change_function, notice: 'Change function was successfully created.' }\n format.json { render :show, status: :created, location: @change_function }\n else\n format.html { render :new }\n format.json { render json: @change_function.errors, status: :unprocessable_entity }\n end\n end\n end", "def role_params\n params.require(:role).permit(:name, :active_status, :comment, :user_id, :del_status, :permissions => [])\n end", "def create\n @opportunity_role = OpportunityRole.new(opportunity_role_params)\n\n\n @opportunity_role.save\n\n render json: @opportunity_role\n end", "def role; end", "def role; end", "def create\n @admin_role = RoleUser.new(params[:role_user])\n\n respond_to do |format|\n if @admin_role.save\n format.html { redirect_to @role_users_path, notice: 'Role was successfully created.' }\n format.json { render json: @admin_role, status: :created, location: @admin_role }\n else\n format.html { render action: \"new\" }\n format.json { render json: @admin_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @required_role = RequiredRole.new(required_role_params)\n\n respond_to do |format|\n if @required_role.save\n format.html { redirect_to @required_role, notice: 'Required role was successfully created.' }\n format.json { render :show, status: :created, location: @required_role }\n else\n format.html { render :new }\n format.json { render json: @required_role.errors, status: :unprocessable_entity }\n end\n end\n end" ]

[ "0.74267626", "0.65071577", "0.6487636", "0.62072855", "0.6137399", "0.6070119", "0.6011283", "0.5988191", "0.5950294", "0.5867114", "0.5830203", "0.5821593", "0.5800196", "0.57921594", "0.5776231", "0.5707571", "0.56972575", "0.56824195", "0.5676192", "0.5632752", "0.5618535", "0.5608355", "0.5604331", "0.5598426", "0.55692273", "0.55561817", "0.5555786", "0.55507433", "0.5534768", "0.553323", "0.5505104", "0.54994106", "0.549508", "0.54793286", "0.5477396", "0.5460691", "0.5451624", "0.5448972", "0.5436948", "0.5436948", "0.5436948", "0.54349416", "0.5430264", "0.5428173", "0.54243886", "0.5422554", "0.5422317", "0.54213935", "0.54125065", "0.54052097", "0.5404507", "0.5383371", "0.5382502", "0.5379565", "0.53665566", "0.53658074", "0.5362303", "0.53608835", "0.53596497", "0.5356381", "0.53466964", "0.5345734", "0.5335267", "0.53346455", "0.5327542", "0.5323067", "0.5321813", "0.5318856", "0.5284808", "0.52791566", "0.52650553", "0.5263203", "0.52594596", "0.5258559", "0.5253609", "0.5250469", "0.5246529", "0.5241448", "0.52411264", "0.5237934", "0.5236206", "0.52330863", "0.5231648", "0.52236474", "0.5221026", "0.52164274", "0.52074206", "0.5204283", "0.52029335", "0.5192174", "0.51879776", "0.5187148", "0.5183898", "0.5182944", "0.51802087", "0.5179866", "0.51776576", "0.51776576", "0.5177109", "0.51615745" ]

[ "def UpdateRole params = {}\n \n APICall(path: 'custom_roles.json',method: 'PUT',payload: params.to_json)\n \n end", "def update\n if !grant_access(\"alter_roles\", current_user)\n head(403)\n end\n @role.user_id = current_user.id\n @role.start_point = false if !params[:role][:start_point]\n respond_to do |format|\n if @role.update(role_params)\n format.html { redirect_to @role, notice: 'Role was successfully updated.' }\n format.json { render :show, status: :ok, location: @role }\n else\n format.html { render :edit }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def set_role_funcion\n @role_funcion = RoleFuncion.find(params[:id])\n end", "def update\n @role = Role.find(params[:id])\n \n @perms = params[:permissions[\"permissions\"]]\n if @perms != nil\n @permissions = @perms[\"permissions\"]\n end\n #logger.debug \"PERMISSIONS: #{@permissions.inspect}\"\n if @permissions == nil\n @role.read = 0\n @role.write = 0\n @role.execute = 0\n end\n if @permissions != nil\n if @permissions.include?(\"read\")\n @role.read = 1\n else\n @role.read = 0\n end\n if @permissions.include?(\"write\")\n @role.write = 1\n else\n @role.write = 0\n end\n if @permissions.include?(\"execute\")\n @role.execute = 1\n else\n @role.execute = 0\n end\n end\n\n respond_to do |format|\n if @role.update_attributes(params[:role])\n format.html { redirect_to @role, notice: t(:role_updated) }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update_role\n\t\t@role = Role.find(params[:id])\n\n\t \trespond_to do |format|\n\t\t if @role.update_attributes(role_update_params)\n\t\t format.html { redirect_to(@role, :notice => 'Entry was successfully updated.') }\n\t\t format.json { respond_with_bip(@role) }\n\t\t else\n\t\t format.html { render :action => \"edit\" }\n\t\t format.json { respond_with_bip(@role) }\n\t\t end\n\n \t end\n\tend", "def update\n respond_to do |format|\n if role.update(role_params) && update_users_roles\n format.html { redirect_to admin_role_path(role), notice: 'Role was successfully updated.' }\n format.json { render :show, status: :ok, location: role }\n else\n format.html { render :edit }\n format.json { render json: role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @user.roles=params[\"user\"][\"roles\"]\n respond_to do |format|\n if @user.update(event_params)\n format.html { redirect_to users_path, notice: 'User roles change successfully' }\n format.json { render :show, status: :ok, location: @user }\n else\n format.html { render :edit }\n format.json { render json: @user.errors, status: :unprocessable_entity }\n end\n end\n end", "def role_funcion_params\n params.require(:role_funcion).permit(:role_id, :funcion_id, :funcions)\n end", "def update\n abilities = []\n params[:role][:role_abilities].each do |ability|\n abilities << ability.to_sym\n end\n @role.role_abilities = [{\"action\"=> abilities, \"subject\"=>[:api]}]\n respond_to do |format|\n if @role.update(role_params)\n format.html { redirect_to roles_path, notice: 'Role was successfully updated.' }\n format.json { render :show, status: :ok, location: @role }\n else\n format.html { render :edit }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @role.update_attributes(params[:role])\n format.html { redirect_to admin_roles_path, notice: 'Role was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @role.update(role_params)\n format.html {\n redirect_to dashboard_path\n flash[:success] = @role.name+' was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n # this action is not provided for partyroles\n end", "def update\n respond_to do |format|\n if @role.update(role_params)\n format.html { redirect_to @role, notice: 'Role was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @role = Role.find(params[:id])\n \n respond_to do |format|\n if @role.update_attributes(params[:role])\n format.html { redirect_to @role, notice: 'Role was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @role = Role.find(params[:id])\n \n respond_to do |format|\n if @role.update_attributes(params[:role])\n format.html { redirect_to @role, notice: 'Role was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @role.update(role_params)\n format.html { redirect_to @role, notice: t('success_update') }\n format.json { render :show, status: :ok, location: @role }\n else\n format.html { render :edit }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @role.update(role_params)\n format.html { redirect_to @role, notice: 'Role was successfully updated.' }\n format.json { render :show, status: :ok, location: @role }\n else\n format.html { render :edit }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update_role\n @user = User.find(params[:id])\n\n # Limit access to authorized users\n authorize! :manage, @user\n\n @user.admin = params[:admin_role]\n respond_to do |format|\n if @user.save\n format.json { head :no_content }\n else\n format.json { render json: @user.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @role.update(role_params)\n format.html { redirect_to @role, notice: 'Role was successfully updated.' }\n format.json { render :show, status: :ok, location: @role }\n else\n format.html { render :edit }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @role.update(role_params)\n format.html { redirect_to @role, notice: 'Role was successfully updated.' }\n format.json { render :show, status: :ok, location: @role }\n else\n format.html { render :edit }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @required_role.update(required_role_params)\n format.html { redirect_to @required_role, notice: 'Required role was successfully updated.' }\n format.json { render :show, status: :ok, location: @required_role }\n else\n format.html { render :edit }\n format.json { render json: @required_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n authorize! :update, @user\n authorize! :update, (user_params[:role_id].present? ? Role.find(user_params[:role_id]) : Role)\n\n respond_to do |format|\n if @user.update(user_params)\n format.html { redirect_to @user, notice: I18n.translate('users.flash.update.success', user: @user.fullname) }\n format.json { render :show, status: :ok, location: @user }\n else\n format.html { render :edit, notice: I18n.translate('users.flash.update.fail', user: @user.fullname) , status: :unprocessable_entity}\n format.json { render json: @user.errors, status: :unprocessable_entity }\n end\n end\n\n end", "def update\n respond_to do |format|\n if @role.update(role_params)\n @role.permissions = params[:role][:permission].map do |key, value|\n index = value[\"index\"] == \"1\" ? true : false\n index = true if value[\"new\"] == \"1\" || value[\"edit\"] == \"1\" || value[\"remove\"] == \"1\"\n Permission.update(value[\"id\"], :index => index, :new => value[\"new\"], :edit => value[\"edit\"], :remove => value[\"remove\"], :import => value[\"import\"])\n end\n format.html { redirect_to management_roles_path }\n format.json { render json: @role, status: :ok }\n else\n format.html { render :edit }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def edit_role(id, *roles)\n request(:put, \"/users/#{id}.json\", default_params(:role_ids => roles))\n end", "def update\n @role = get_role\n if @role.update_attributes(get_attributes) and not request.xhr?\n flash[:notice] = t(@current_role == @role ?\n 'update.alt_success' :\n 'update.success',\n :scope => get_i18n_scope)\n end\n respond_with @event, @role, :location => @current_user.role == 'user' ?\n @event :\n {:action => 'index'}\n end", "def update\n @role = Role.find(params[:id])\n\n respond_to do |format|\n if @role.update_attributes(params[:role])\n format.html { redirect_to edit_role_path(@role), :notice => t('hurricane.notice.update_record_success', :type => t_type)}\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @role = Role.find(params[:id])\n @role.update_attributes(params[:role])\n respond_with(@role)\n end", "def update\n @roles = Role.all\n\n role = user_params[:role_id] ? user_params[:role_id] : @user.role_id\n if user_params[:password].empty?\n new_params = { :role_id => role,\n :first_name => user_params[:first_name],\n :last_name => user_params[:last_name],\n :email => user_params[:email],\n :telephone => user_params[:telephone] }\n else\n new_params = { :role_id => role,\n :first_name => user_params[:first_name],\n :last_name => user_params[:last_name],\n :email => user_params[:email],\n :telephone => user_params[:telephone],\n :password => user_params[:password],\n :password_confirmation => user_params[:password_confirmation] }\n end\n p = new_params\n respond_to do |format|\n if @user.update(p)\n format.html { redirect_to @user, notice: 'Benutzerdaten wurden aktualisiert.' }\n format.json { render :show, status: :ok, location: @user }\n else\n format.html { render :edit }\n format.json { render json: @user.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n resource.update_attributes params[params_key], as: current_role\n respond_with resource\n end", "def update\n return unless check_permission\n\n respond_to do |format|\n if @role.update(role_params)\n format.html { redirect_to @role, notice: 'Role was successfully updated.' }\n else\n @users = User.all\n format.html { render :edit }\n end\n end\n end", "def update\n @role.permissions = []\n @role.set_permissions(params[:permissions]) if params[:permissions]\n respond_to do |format|\n if @role.update(role_params)\n format.html { redirect_to @role, notice: 'Role was successfully updated.' }\n format.json { render :show, status: :ok, location: @role }\n else\n format.html { render :edit }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n authorize! :assign_roles, @user if params[:user][:assign_roles]\n if @user.update_attributes(params[:user])\n redirect_to @user, notice: 'User was successfully updated.'\n else\n render \"edit\"\n end\n end", "def update_role(auth, server_id, role_id, name, color, hoist, mentionable, permissions, reason = nil)\n MijDiscord::Core::API.request(\n :guilds_sid_roles_rid,\n server_id,\n :patch,\n \"#{MijDiscord::Core::API::APIBASE_URL}/guilds/#{server_id}/roles/#{role_id}\",\n {\n color: color, name: name, hoist: hoist,\n mentionable: mentionable, permissions: permissions\n }.delete_if {|_, v| v.nil? }.to_json,\n Authorization: auth,\n content_type: :json,\n 'X-Audit-Log-Reason': reason\n )\n end", "def update\n respond_to do |format|\n if @func.update(func_params)\n format.html { redirect_to @func, notice: 'Func was successfully updated.' }\n format.json { render :show, status: :ok, location: @func }\n else\n format.html { render :edit }\n format.json { render json: @func.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @concept_map = ConceptMap.find(params[:id])\n if current_user.role.id == 7\n params[:concept_map][:status] = 6\n end\n respond_to do |format|\n if @concept_map.update_attributes(params[:concept_map])\n format.html { redirect_to@concept_map, notice: 'ConceptMap was successfully updated.' }\n format.json { head :ok }\n else\n format.html { render action: \"edit\" }\n format.json { render json:@concept_map.errors, status: :unprocessable_entity }\n end\n end\n end", "def update_role(token, server_id, role_id, name, colour, hoist = false, mentionable = false, packed_permissions = 36_953_089)\n request(\n __method__,\n :patch,\n \"#{api_base}/guilds/#{server_id}/roles/#{role_id}\",\n { color: colour, name: name, hoist: hoist, mentionable: mentionable, permissions: packed_permissions }.to_json,\n Authorization: token,\n content_type: :json\n )\n end", "def update\n authorize RoleCutoff\n respond_to do |format|\n if @role_cutoff.update(role_cutoff_params)\n format.html { redirect_to @role_cutoff, notice: \"Role cutoff #{@role_cutoff.description} was successfully updated.\" }\n format.json { render :show, status: :ok, location: @role_cutoff }\n else\n format.html { render :edit }\n format.json { render json: @role_cutoff.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n authorize! :update, @user, :message => \"No puedes tienes acceso a esta opcion.\"\n if @user.is_admin? \n @user.remove_role :admin\n end\n if @user.is_adminInv?\n @user.remove_role :adminInv \n end\n if @user.is_adminExt?\n @user.remove_role :adminExt\n end\n if @user.is_investigador?\n @user.remove_role :Investigador\n end\n \n @user.add_role(params[:role])\n @user.update(user_params)\n redirect_to usuarios_path, notice: 'Usuario fue actualizado.'\n end", "def update\n respond_to do |format|\n if @users_role.update(users_role_params)\n format.html { redirect_to @users_role, notice: 'Users role was successfully updated.' }\n format.json { render :show, status: :ok, location: @users_role }\n else\n format.html { render :edit }\n format.json { render json: @users_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update_role\n @user = User.find( params[:id] )\n @user.update_attributes(params[:user])\n redirect_to users_path\n end", "def update_role(role_id, data = {})\n raise Auth0::MissingParameter, 'Must supply a valid role_id' if role_id.to_s.empty?\n\n patch \"#{roles_path}/#{role_id}\", data\n end", "def update\n @role = @client.roles.find(params[:id])\n\n respond_to do |format|\n if @role.update_attributes(params[:role])\n flash[:notice] = 'Role was successfully updated.'\n format.html { redirect_to client_role_url(@client, @role) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @funcao.update(funcao_params)\n format.html { redirect_to @funcao, notice: 'Funcao was successfully updated.' }\n format.json { render :show, status: :ok, location: @funcao }\n else\n format.html { render :edit }\n format.json { render json: @funcao.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @admin_function.update(admin_function_params)\n format.html { redirect_to @admin_function, notice: 'Function was successfully updated.' }\n format.json { render :show, status: :ok, location: @admin_function }\n else\n format.html { render :edit }\n format.json { render json: @admin_function.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n load_permissions\n ids = params[:permissions].select {|k, v| v == \"1\"}.map {|k,v| k.to_i }\n if ids.length > 0\n permissions = Permission.find(:all, :conditions => [\"id in (#{ids.join(',')})\"])\n @role = Role.find(params[:id])\n params[:role][:permissions] = permissions\n if @role.update_attributes(params[:role])\n flash[:notice] = \"修改角色成功\"\n redirect_to :action => 'index'\n else\n flash[:error] = '修改角色失败'\n redirect_to :action => 'edit', :id => @role.id\n end\n else\n flash[:error] = \"角色名或权限不能为空\"\n redirect_to :action => 'edit', :id => @role.id\n end\n end", "def update\n respond_to do |format|\n if @role.update(system_role_params)\n format.html { redirect_to system_roles_url, notice: '更新角色成功.' }\n format.json { render :index, status: :ok, location: @role }\n else\n format.html { render :edit }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n flash.now[:notice] = 'Role was successfully updated.' if @role.update role_params\n respond_with @role\n end", "def edit\n @role = get_role\n respond_with @event, @role\n end", "def update\n respond_to do |format|\n if @entity_role.update(entity_role_params)\n format.html { redirect_to @entity_role, notice: 'Entity role was successfully updated.' }\n format.json { render :show, status: :ok, location: @entity_role }\n else\n format.html { render :edit }\n format.json { render json: @entity_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @role.update(safe_params)\n format.html { redirect_to [@company, @role], notice: 'Role was successfully updated.' }\n format.json { render :show, status: :ok, location: @role }\n else\n format.html { render :edit }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @role = Role.find(params[:id])\n authorize @role\n\n if @role.update(access: role_params[:access])\n deliver_if(recipients: @role.user, key: 'users.added_as_coowner') do |_r|\n UserMailer.permissions_change_notification(@role, current_user).deliver_now\n end\n render json: {\n code: 1,\n msg: format(_('Successfully changed the permissions for %{email}. They have been\n notified via email.'), email: @role.user.email)\n }\n else\n render json: { code: 0, msg: flash[:alert] }\n end\n end", "def update\n respond_to do |format|\n if @role.update_attributes(params[:role])\n flash[:notice] = 'Role was successfully updated.'\n format.html { redirect_to(role_path(@role.slug)) }\n format.xml { head :ok }\n else\n format.html { render \"edit\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @role.update_attributes(params[:role])\n flash[:notice] = 'Role was successfully updated.'\n format.html { redirect_to(@role) }\n format.xml { head :ok }\n format.js\n else\n @possible_permissions = Permission.by_category(@role.category)\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n format.js\n end\n end\n end", "def update\n @screen = session.active_screen\n @form_content_reuse = params[:form_content_reuse]\n \n @role = Role.find(params[:id]) \n @role.user_ids.each{|u_id| User.find(u_id).update_attributes( :updated_at => Time.now ) }\n @role.users.clear\n @role.users = User.find(params[:role][:user_ids]) unless params[:role][:user_ids].nil?\n @role.user_ids.each{|u_id| User.find(u_id).update_attributes( :updated_at => Time.now ) }\n \n @role.update_attributes(params[:role])\n\n respond_to do |format|\n format.html # create.html.erb\n format.xml { render :xml => @role }\n end\n end", "def update\n @roles_and_permission = @roles.roles_and_permission.find(params[:id])\n\n respond_to do |format|\n if @roles_and_permission.update_attributes(params[:roles_and_permission])\n format.html { redirect_to [@roles,@roles_and_permission], notice: 'Roles and permission was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @roles_and_permission.errors, status: :unprocessable_entity }\n end\n end\n end", "def toggle_role\n do_toggle_role params[:role]\n end", "def update\n respond_to do |format|\n if @user.update(user_params)\n @user.role = Role.find(params[:role][:id]) if current_user.can_write?\n format.html { redirect_to @user, notice: 'User was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @user.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n flash[:notice] = 'Role was successfully updated.' if @role.update_attributes role_params\n respond_with @role\n end", "def update\n \n if request.get?\n @role = Role.find(params[:id].to_i)\n else\n @role = Role.find(params[:id].to_i)\n\n # set parent role\n if not params[:role][:parent].to_s.empty?\n @role.parent = Role.find(params[:role][:parent])\n else\n @role.parent = nil\n end\n\n # get an array of static permissions and set the permission associations\n params[:role][:static_permissions] = [] if params[:role][:static_permissions].nil?\n permissions = params[:role][:static_permissions].collect { |i| StaticPermission.find(i) }\n @role.static_permissions = permissions\n\n if @role.update_attributes(params[:role])\n flash[:success] = 'Role has been updated successfully.'\n redirect_to :action => 'show', :id => @role\n else\n render :action => 'update'\n end\n end\n \n rescue RecursionInTree\n @role.errors.add :parent, \"must not be a descendant of itself\"\n render :action => 'update'\n rescue ActiveRecord::RecordNotFound\n flash[:error] = 'You sent an invalid request.'\n redirect_to :action => 'list'\n end", "def update\n respond_to do |format|\n if @role.update_attributes(role_params)\n flash[:notice] = 'Role was successfully updated.'\n format.html { redirect_to(role_path(@role.slug)) }\n format.xml { head :ok }\n else\n format.html { render \"edit\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @master_role.update(master_role_params)\n format.html { redirect_to @master_role}\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @master_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n authorize(current_user)\n role = params[:user][:role_ids]\n roleModel =Role.find( role)\n if @user.setRole roleModel.name\n @user.save\n redirect_to users_path, :notice => \"Rolle geändert\"\n else\n redirect_to users_path, :notice => \"Rolle nicht geändert\"\n end\n end", "def update\n @role.attributes = params[:role]\n respond_to do |format|\n if @role.save\n flash[:notice] = 'Role was successfully updated.'\n format.html { redirect_to role_url(@role.code) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @role.errors.to_xml }\n end\n end\n end", "def update\n respond_to do |format|\n if @change_function.update(change_function_params)\n format.html { redirect_to @change_function, notice: 'Change function was successfully updated.' }\n format.json { render :show, status: :ok, location: @change_function }\n else\n format.html { render :edit }\n format.json { render json: @change_function.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n ActiveRecord::Base.transaction do\n @role, hash = fill_role(Role.find(params[:id]), params[:role])\n\n respond_to do |format|\n if @role.update_attributes(hash) && @role.save\n flash[:notice] = 'Role was successfully updated.'\n format.html { redirect_to(@role) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end\n end", "def update\n respond_to do |format|\n if @member_function.update(member_function_params)\n format.html { redirect_to @member_function, notice: 'Member function was successfully updated.' }\n format.json { render :show, status: :ok, location: @member_function }\n else\n format.html { render :edit }\n format.json { render json: @member_function.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @ministerial_role.update(ministerial_role_params)\n format.html { redirect_to @ministerial_role, notice: 'Ministerial role was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @ministerial_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @user = User.find(params[:id])\n unless changing_his_own_role?(@user)\n User.update_all(params[:user], {:id => @user.id})\n # if @user.update_attribute(:role, params[:user][:role])\n # if @user.send(:attributes=, {:role => params[:user][:role]})\n flash[:notice] = \"User role updated!\"\n redirect_to admin_users_path\n # else\n # flash[:notice] = \"didn`t work\"\n # redirect_to admin_users_path\n # end\n else\n flash[:notice] = \"Can`t overwrite your own rights!\"\n redirect_to admin_users_path\n end\n end", "def update\n @admin_role = Role.find(params[:id])\n\n respond_to do |format|\n if @admin_role.update_attributes(params[:admin_role])\n format.html { redirect_to @admin_role, notice: 'Role was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @admin_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update(role, id = @id, user = @@default_user)\n @attributes = send_request(\"roles/#{id}\", :put) do |req|\n req.body = {\n role: role,\n auth_token: user.auth_token\n }\n end\n end", "def update\n @user = User.find(params[:id])\n params[:user][:roles].reject!(&:blank?)\n respond_to do |format|\n if @user.update_attributes(params[:user])\n format.html { redirect_to users_url, notice: 'User was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @user.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n\t\t@role = Role.find(params[:id])\n\t\t@role.update_accessor(current_user)\n\t\trespond_to do |format|\n\t\t\tif @role.update_attributes(params[:role])\n\t\t\t\tflash[:notice] = t(:ctrl_object_updated,:typeobj =>t(:ctrl_role),:ident=>@role.title)\n\t\t\t\tshow_\n\t\t\t\tformat.html { render :action => \"show\" }\n\t\t\t\tformat.xml { head :ok }\n\t\t\telse\n\t\t\t\tflash[:error] = t(:ctrl_object_not_updated,:typeobj =>t(:ctrl_role),:ident=>@role.title, :error => @role.errors.full_messages)\n\t\t\t\tformat.html { render :action => \"edit\" }\n\t\t\t\tformat.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n\t\t\tend\n\t\tend\n\tend", "def update\n respond_to do |format|\n if @user_to_role.update(user_to_role_params)\n format.html { redirect_to @user_to_role, notice: 'User to role was successfully updated.' }\n format.json { render :show, status: :ok, location: @user_to_role }\n else\n format.html { render :edit }\n format.json { render json: @user_to_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @funcionario = Funcionario.find(params[:id])\n\n respond_to do |format|\n if @funcionario.update_attributes(params[:funcionario])\n format.html { redirect_to [:admin, @funcionario], notice: 'Funcionario Atualizado com sucesso.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @funcionario.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @operations_role = OperationsRole.find(params[:id])\n\n respond_to do |format|\n if @operations_role.update_attributes(params[:operations_role])\n flash[:notice] = 'OperationsRole was successfully updated.'\n format.html { redirect_to(@operations_role) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @operations_role.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @profile_role.update(profile_role_params)\n format.html { redirect_to @profile_role, notice: 'Profile role was successfully updated.' }\n format.json { render :show, status: :ok, location: @profile_role }\n else\n format.html { render :edit }\n format.json { render json: @profile_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @user_function = UserFunction.find(params[:id])\n\n respond_to do |format|\n if @user_function.update_attributes(params[:user_function])\n flash[:notice] = 'UserFunction was successfully updated.'\n format.html { redirect_to([:admin,@user_function]) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @user_function.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @team_role.update(team_role_params)\n format.html { redirect_to lab_team_roles_path(@lab), notice: 'Team role was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @team_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @company = Company.find(params[:company_id])\n @role = Role.find(params[:id])\n \n respond_to do |format|\n if @role.update_attributes(params[:role])\n format.html { redirect_to company_role_path(@company, @role), notice: 'El rol fue editado exitosamente.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @org_role.update(org_role_params)\n format.html { redirect_to @org_role, notice: 'Org role was successfully updated.' }\n format.json { render :show, status: :ok, location: @org_role }\n else\n format.html { render :edit }\n format.json { render json: @org_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @role = Role.find(params[:id])\n\n respond_to do |format|\n if @role.update_attributes(params[:role])\n format.html { redirect_to(@role, :notice => 'Role was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n @role = Role.find(params[:id])\n\n respond_to do |format|\n if @role.update_attributes(params[:role])\n format.html { redirect_to(@role, :notice => 'Role was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @role.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n # Pundit authorization can be skipped because\n # before_filter :authorize_user_edit handles authorization\n authorize :user, :update? # skip_authorization\n\n authorize! :assign_roles, current_user if params[:user][:assign_roles]\n respond_to do |format|\n if @user.update(user_params)\n track_user_updated\n sign_in(@user == current_user ? @user : current_user, :bypass => true)\n format.html { redirect_to @user, notice: 'Your profile was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @user.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @tsp = Tsp.find(params[:id])\n if current_user.role.id == 7\n params[:tsp][:status] = 6\n end\n respond_to do |format|\n if @tsp.update_attributes(params[:tsp])\n format.html { redirect_to@tsp, notice: 'Tsp was successfully updated.' }\n format.json { head :ok }\n else\n format.html { render action: \"edit\" }\n format.json { render json:@tsp.errors, status: :unprocessable_entity }\n end\n end\n end", "def change_role_access(role_name, params, method)\n error = false\n if is_a? ShapeApi::Group\n error = true unless %i[admin member].include? role_name.to_sym\n else\n error = true unless %i[editor viewer].include? role_name.to_sym\n end\n if error\n errors.messages[:role_name] = ['invalid']\n return false\n end\n\n request_params = params.merge(\n role: { name: role_name },\n )\n if method == :delete\n request_params = { _jsonapi: request_params }\n end\n request_params[self.class.primary_key] = attributes.fetch(self.class.primary_key)\n self.class.requestor.custom(\n 'roles',\n { request_method: method },\n request_params,\n )\n end", "def update\n @str = nil\n @alert = nil\n @rolid = @role.id\n\n if @role.update(role_params)\n @str = 'Role was successfully updated'\n @alert = 'panel-success'\n else\n @str = @role.errors.full_messages\n @alert = 'panel-danger'\n @role = nil\n end\n end", "def update\n @role = Role.find(params[:role][:id])\n\n if @role.update_attributes(params[:role])\n flash['notice'] = 'Role was successfully updated.'\n redirect_to :action => 'edit', \n :id => params[:role][:id]\n else\n flash['notice'] = 'Role not updated'\n redirect_to :action => 'edit', \n :id => params[:role][:id]\n end\n \n\n end", "def update!(**args)\n @role = args[:role] if args.key?(:role)\n @role_id = args[:role_id] if args.key?(:role_id)\n end", "def update\n respond_to do |format|\n if @ums_function.update(ums_function_params)\n format.html { redirect_to ums.functions_url, notice: '功能修改成功' }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' , status: :unprocessable_entity}\n format.json { render json: @ums_function.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @team_user_role.update(team_user_role_params)\n format.html { redirect_to @team_user_role, notice: 'Team user role was successfully updated.' }\n format.json { render :show, status: :ok, location: @team_user_role }\n else\n format.html { render :edit }\n format.json { render json: @team_user_role.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @opportunity_role = OpportunityRole.find(params[:id])\n\n\n\n @opportunity_role.update(opportunity_role_params)\n render json: @OpportunityRole_role\n end", "def update!(**args)\n @role = args[:role] if args.key?(:role)\n @scope = args[:scope] if args.key?(:scope)\n end", "def update\n respond_to do |format|\n if @tipo_funcionario.update(tipo_funcionario_params)\n format.html { redirect_to @tipo_funcionario, notice: 'Tipo funcionario was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @tipo_funcionario.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n if @role.update_attributes params_for_role\n flash[:notice] = \"Role successfully updated.\"\n\n redirect_to(role_path @role)\n else\n flash[:error] = \"Unable to update role.\"\n\n render(:edit)\n end # if-else\n end", "def update\n respond_to do |format|\n if @role_auth_ref.update(role_auth_ref_params)\n format.html { redirect_to @role_auth_ref, notice: 'Role auth ref was successfully updated.' }\n format.json { render :show, status: :ok, location: @role_auth_ref }\n else\n format.html { render :edit }\n format.json { render json: @role_auth_ref.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n #respond_to do |format|\n\t\n\temployee = Employee.find_by id: @employee.id\n\tuser = User.find_by id: @employee.user_id\n\temployee.firstname = params[:firstname]\n\temployee.lastname = params[:lastname]\n\tuser.roles_mask = params[:Role]\n if(user.roles_mask != nil)\n if employee.save && user.save\n\t@employee = Employee.find_by user_id: current_user.id\n\trender \"index\"\n else\n\tflash[:alert] = \"Invalid data\"\n\trender \"edit\"\n end\n else\n\tif employee.save\n\t@employee = Employee.find_by user_id: current_user.id\n\trender \"index\"\n else\n\tflash[:alert] = \"Invalid data\"\n\trender \"edit\"\n end\n end\n end", "def update\n @user = current_user\n @user.role = 'client'\n \n respond_to do |format|\n if @user.update(user_params)\n format.html { redirect_to @user, flash[:success] => \"User was successfully updated\" }\n format.json { render :show, status: :ok, location: @user }\n else\n format.html { render :edit }\n format.json { render json: @user.errors, status: :unprocessable_entity }\n end\n end\n end", "def update_role_overrides(token, channel_id, role_id, allow, deny)\n request(\n __method__,\n :put,\n \"#{api_base}/channels/#{channel_id}/permissions/#{role_id}\",\n { type: 'role', id: role_id, allow: allow, deny: deny }.to_json,\n Authorization: token,\n content_type: :json\n )\n end", "def update\n @user.update(role_id: params[:role])\n @user.save\n redirect_to users_url, notice: 'User was successfully updated.'\n end", "def update\n respond_to do |format|\n if @movie_role.update(movie_role_params)\n format.html { redirect_to @movie_role, notice: 'Movie role was successfully updated.' }\n format.json { render :show, status: :ok, location: @movie_role }\n else\n format.html { render :edit }\n format.json { render json: @movie_role.errors, status: :unprocessable_entity }\n end\n end\n end" ]

[ "0.690492", "0.68374765", "0.6813389", "0.66920257", "0.6645745", "0.66119397", "0.66000706", "0.6543117", "0.6520068", "0.6509679", "0.6497725", "0.64884764", "0.64763564", "0.6427757", "0.6395278", "0.6389816", "0.63856095", "0.63725626", "0.6365653", "0.6365653", "0.63641655", "0.63528097", "0.63461494", "0.6334933", "0.6329907", "0.63297695", "0.630475", "0.62790275", "0.62596196", "0.6259491", "0.6249929", "0.62488335", "0.6247601", "0.62431276", "0.62089694", "0.6202274", "0.6201329", "0.6191528", "0.619097", "0.6187932", "0.61620456", "0.61541814", "0.6145868", "0.61425245", "0.61423826", "0.6132765", "0.61268646", "0.6124354", "0.6122773", "0.6114603", "0.61103016", "0.6109653", "0.6106933", "0.6093199", "0.6092165", "0.60889727", "0.6087753", "0.6078175", "0.60764956", "0.6074459", "0.6070684", "0.60651064", "0.6064298", "0.6061555", "0.6056696", "0.605112", "0.6043566", "0.6034224", "0.60257053", "0.6017323", "0.6011468", "0.60095626", "0.5997877", "0.5996067", "0.59865993", "0.59832156", "0.5981282", "0.59800875", "0.59736925", "0.5970053", "0.5961778", "0.5961778", "0.5948645", "0.5945959", "0.5928817", "0.5924548", "0.5914004", "0.5905938", "0.5900326", "0.5896504", "0.5894211", "0.5884097", "0.58737767", "0.5867318", "0.5864143", "0.586087", "0.58585584", "0.5858075", "0.5857776", "0.58521456" ]

[ "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to dashboard_path }\n format.json { head :no_content }\n end\n end", "def DeleteRole id\n \n APICall(path: \"custom_roles/#{id}.json\",method: 'DELETE')\n \n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n @role = Role.find(params[:id])\n @role.destroy\n \n respond_to do |format|\n format.html { redirect_to roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n @role = Role.find(params[:id])\n @role.destroy\n\n respond_to do |format|\n format.html { redirect_to roles_url , :notice => t('hurricane.notice.delete_record_success', :type => t_type)}\n format.json { head :no_content }\n end\n end", "def delete\n @role = get_role\n respond_with @event, @role\n end", "def destroy\n @core_user_role.destroy\n respond_to do |format|\n format.html { redirect_to core_user_roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n @role = Role.find(params[:id])\n @role.destroy\n\n respond_to do |format|\n format.html { redirect_to roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n role.destroy\n respond_to do |format|\n format.html { redirect_to admin_roles_url, notice: 'Role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to user_roles_path }\n format.js\n format.json { head :no_content }\n end\n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to system_roles_url, notice: '删除角色成功.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @ministerial_role.destroy\n respond_to do |format|\n format.html { redirect_to ministerial_roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to company_roles_url(@company), notice: 'Role was successfully removed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n if !grant_access(\"alter_roles\", current_user)\n head(403)\n end\n @role.destroy\n respond_to do |format|\n format.html { redirect_to roles_url, notice: 'Role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to management_roles_url, notice: 'Perfil was successfully removed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to roles_url, notice: 'Role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to roles_url, notice: 'Role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to roles_url, notice: 'Role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to roles_url, notice: 'Role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to roles_url, notice: 'Role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role.destroy\n respond_to do |format|\n format.html { redirect_to roles_url, notice: 'Role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @admin_role = Role.find(params[:id])\n @admin_role.destroy\n\n respond_to do |format|\n format.html { redirect_to admin_roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n @role = @client.roles.find(params[:id])\n @role.destroy\n\n respond_to do |format|\n flash[:notice] = 'Role was successfully removed.' \n format.html { redirect_to(client_roles_url(@client)) }\n format.xml { head :ok }\n end\n end", "def destroy\n @role.destroy\n respond_with @role, location: roles_path\n end", "def destroy\n @role.destroy\n respond_with @role, location: roles_path\n end", "def destroy\n @master_role.destroy\n respond_to do |format|\n format.html { redirect_to master_roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n @roles_and_permission = @roles.roles_and_permission.find(params[:id])\n @roles_and_permission.destroy\n\n respond_to do |format|\n format.html { redirect_to roles_and_permissions_url }\n format.json { head :no_content }\n end\n end", "def destroy\n @admin_function.destroy\n respond_to do |format|\n format.html { redirect_to admin_functions_url, notice: 'Function was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\r\n @role.destroy\r\n respond_to do |format|\r\n format.html { redirect_to \"index\", notice: 'Role was successfully destroyed.' }\r\n format.json { head :no_content }\r\n end\r\n end", "def destroy\n @user = User.find(params[:user_id])\n @role = Role.find(params[:id])\n if @user.has_role?(@role.name)\n @user.roles.delete(@role)\n end\n respond_to do |format|\n format.html {redirect_to :action => 'index' }\n format.xml { head :ok }\n end\n \n end", "def destroy\n\n\n\nrol = Role.where(:id=>current_user.role).first\n if rol.nombre == \"ACRM\"\n @role_permision = RolePermision.find(params[:id])\n @role_permision.destroy\nelse\n flash[:error] ='No tienes permiso para realizar esta accion'\n\nend\n \n \n\n respond_to do |format|\n format.html { redirect_to role_permisions_url }\n format.json { head :ok }\n end\n end", "def destroy\n @role_privilege.destroy\n respond_to do |format|\n format.html { redirect_to role_privileges_url, notice: 'Veza je usšešno obrisana.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @required_role.destroy\n respond_to do |format|\n format.html { redirect_to required_roles_url, notice: 'Required role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @users_role.destroy\n respond_to do |format|\n format.html { redirect_to users_roles_url, notice: 'Users role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @roles_privilege.destroy\n respond_to do |format|\n format.html { redirect_to roles_privileges_url, notice: 'Roles privilege was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @operations_role = OperationsRole.find(params[:id])\n @operations_role.destroy\n\n respond_to do |format|\n format.html { redirect_to(operations_roles_url) }\n format.xml { head :ok }\n end\n end", "def destroy\n @func.destroy\n respond_to do |format|\n format.html { redirect_to funcs_url, notice: 'Func was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @rol.destroy\n respond_to do |format|\n format.html { redirect_to roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n chef_server_rest.delete(\"roles/#{@name}\")\n end", "def destroy\n @role = Role.find(params[:id])\n \n @users = User.find_by_role_id(@role.id)\n respond_to do |format|\n if @users == nil\n @role.destroy\n format.html { redirect_to roles_url, :notice => t(:role_deleted) }\n format.json { head :no_content }\n else\n format.html { redirect_to roles_url, :alert => t(:role_inuse) }\n format.json { head :no_content }\n end\n end\n end", "def destroy\n\n\n\nrol = Role.where(:id=>current_user.role).first\n if rol.nombre == \"ACRM\"\n \n \n @rpm = Rpm.find(params[:id])\n @rpm.destroy\nelse\n flash[:error] ='No tienes permiso para realizar esta accion'\n\nend\n\n respond_to do |format|\n format.html { redirect_to rpms_url }\n format.json { head :ok }\n end\n end", "def destroy\n @mg_role.destroy\n respond_to do |format|\n format.html { redirect_to mg_roles_url, notice: 'Mg role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def remove_role\n if @user.has_role? params[:role]\n @user.remove_role params[:role]\n render json: { :success => 'role successfully removed' } \n else \n render json: { :success => 'The user does not have this role' }\n end\n end", "def destroy\n @user_function = UserFunction.find(params[:id])\n @user_function.destroy\n\n respond_to do |format|\n format.html { redirect_to(admin_user_functions_url) }\n format.xml { head :ok }\n end\n end", "def destroy\n @role = Role.find(params[:id])\n @role.destroy\n respond_with(@role)\n end", "def destroy\n @funcionario = Funcionario.find(params[:id])\n @funcionario.destroy\n\n respond_to do |format|\n format.html { redirect_to admin_funcionarios_url }\n format.json { head :no_content }\n end\n end", "def destroy\n @user_role = UserRole.find(params[:id])\n @user_role.destroy\n\n respond_to do |format|\n format.html { redirect_to(admin_user_roles_url) }\n end\n end", "def destroy\n\n\nrol = Role.where(:id=>current_user.role).first\n if rol.nombre == \"ACRM\"\n\n @status_del_admitido = StatusDelAdmitido.find(params[:id])\n @status_del_admitido.destroy\nelse\n flash[:error] ='No tienes permiso para realizar esta accion'\n\nend\n \n \n\n respond_to do |format|\n format.html { redirect_to status_del_admitidos_url }\n format.json { head :ok }\n end\n end", "def destroy\n @ums_function.destroy\n respond_to do |format|\n format.html { redirect_to ums.functions_url , notice: '功能删除成功.'}\n format.json { head :no_content }\n end\n end", "def destroy\n @user_has_role_for_node.destroy\n respond_to do |format|\n format.html { redirect_to user_has_role_for_nodes_url, notice: 'User has role for node was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role.destroy\n\n redirect_to roles_path\n end", "def destroy\n return unless check_permission\n\n @role.destroy\n respond_to do |format|\n format.html { redirect_to roles_url, notice: 'Role was successfully destroyed.' }\n end\n end", "def destroy\n respond_to do |format|\n if @role.destroy\n format.html { redirect_to(@role) }\n format.js { render (:update) {|page| page[dom_id_nested(:item, @role)].remove() } }\n else\n flash[:notice] = 'Role was not deleted.'\n format.html { redirect_to roles_path }\n format.js { render (:update) { |page| page.alert(\"Cannot delete role #{@role.name}\") }}\n end\n end\n end", "def destroy\n\nrol = Role.where(:id=>current_user.role).first\n\n if rol.nombre == \"ACRM\"\n\n\n @colegiatura = Colegiatura.find(params[:id])\n @colegiatura.destroy\n\n\nelse\n flash[:error] ='No tienes permiso para realizar esta accion'\n\nend\n \n respond_to do |format|\n format.html { redirect_to colegiaturas_url }\n format.json { head :ok }\n end\n end", "def destroy\n @app_role = AppRole.find(params[:id])\n @app_role.destroy\n\n respond_to do |format|\n format.html { redirect_to app_roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n @member_function.destroy\n respond_to do |format|\n format.html { redirect_to member_functions_url, notice: 'Member function was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @rolepermission.destroy\n respond_to do |format|\n format.html { redirect_to rolepermissions_url, notice: 'Rolepermission was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role_permission.destroy\n respond_to do |format|\n format.html { redirect_to role_permissions_url, notice: 'Role permission was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @worship_role.destroy\n respond_to do |format|\n format.html { redirect_to worship_roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n @role_auth_ref.destroy\n respond_to do |format|\n format.html { redirect_to role_auth_refs_url, notice: 'Role auth ref was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n\n\nrol = Role.where(:id=>current_user.role).first\n if rol.nombre == \"ACRM\"\n \n \n\n @status_de_la_inscripcion = StatusDeLaInscripcion.find(params[:id])\n @status_de_la_inscripcion.destroy\n\nelse\n flash[:error] ='No tienes permiso para realizar esta accion'\n\nend\n \n\n respond_to do |format|\n format.html { redirect_to status_de_la_inscripcions_url }\n format.json { head :ok }\n end\n end", "def destroy\n @role = Role.find(params[:id])\n @role.destroy\n\n respond_to do |format|\n format.html { redirect_to(roles_url) }\n format.xml { head :ok }\n end\n end", "def destroy\n @role = Role.find(params[:id])\n @role.destroy\n\n respond_to do |format|\n format.html { redirect_to(roles_url) }\n format.xml { head :ok }\n end\n end", "def destroy\n @lab_role = LabRole.find(params[:id])\n @lab_role.destroy\n\n respond_to do |format|\n format.html { redirect_to lab_roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n @sulabh_user_role.destroy\n respond_to do |format|\n format.html { redirect_to sulabh_user_roles_url, notice: 'Sulabh user role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @userrole = Userrole.find(params[:id])\n @userrole.destroy\n\n respond_to do |format|\n format.html { redirect_to(userroles_url) }\n format.xml { head :ok }\n end\n end", "def destroy\n\n\n\nrol = Role.where(:id=>current_user.role).first\n if rol.nombre == \"ACRM\"\n flash[:notice] ='Por favor seleccione un programa para reemplazar el programa a borrar actual, esta accion no puede ser revertida.'\n respond_to do |format|\n format.html { redirect_to borrar_url }\n format.json { head :ok }\n end\n \n else\n flash[:error] ='No tienes permiso para realizar esta accion'\n respond_to do |format|\n format.html { redirect_to programas_url }\n format.json { head :ok }\n end\n end\n end", "def destroy\n @venue_role.destroy\n respond_to do |format|\n format.html { redirect_to venue_roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n @lab_permissions_role = LabPermissionsRole.find(params[:id])\n @lab_permissions_role.destroy\n\n respond_to do |format|\n format.html { redirect_to lab_permissions_roles_url }\n format.json { head :no_content }\n end\n end", "def destroy\n\n\nrol = Role.where(:id=>current_user.role).first\n if rol.nombre == \"ACRM\"\n \n \n @status_de_interes_de_prospecto_validado = StatusDeInteresDeProspectoValidado.find(params[:id])\n @status_de_interes_de_prospecto_validado.destroy\n\n\nelse\n flash[:error] ='No tienes permiso para realizar esta accion'\n\nend\n \n respond_to do |format|\n format.html { redirect_to status_de_interes_de_prospecto_validados_url }\n format.json { head :ok }\n end\n end", "def destroy\n @profile_role.destroy\n respond_to do |format|\n format.html { redirect_to profile_roles_url, notice: 'Profile role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n\n\nrol = Role.where(:id=>current_user.role).first\n if rol.nombre == \"ACRM\"\n\n \n @status_del_tramite_de_beca = StatusDelTramiteDeBeca.find(params[:id])\n @status_del_tramite_de_beca.destroy\nelse\n flash[:error] ='No tienes permiso para realizar esta accion'\n\nend\n\n\n\n respond_to do |format|\n format.html { redirect_to status_del_tramite_de_becas_url }\n format.json { head :ok }\n end\n end", "def destroy\n @entity_role.destroy\n respond_to do |format|\n format.html { redirect_to entity_roles_url, notice: 'Entity role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @company = Company.find(params[:company_id])\n @role = Role.find(params[:id])\n @role.destroy\n \n respond_to do |format|\n format.html { redirect_to company_roles_path(@company) }\n format.json { head :no_content }\n end\n end", "def destroy\n @movie_role.destroy\n respond_to do |format|\n format.html { redirect_to movie_roles_url, notice: 'Movie role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @user_role = UserRole.find(params[:id])\n @user_role.destroy\n\n respond_to do |format|\n format.html { redirect_to(user_roles_url) }\n format.xml { head :ok }\n end\n end", "def destroy\n\nrol = Role.where(:id=>current_user.role).first\n if rol.nombre == \"ACRM\"\n\n @subsede = Subsede.find(params[:id])\n @subsede.destroy\nelse\n flash[:error] ='No tienes permiso para realizar esta accion'\n\nend\n\n \n \n\n respond_to do |format|\n format.html { redirect_to subsedes_url }\n format.json { head :ok }\n end\n end", "def destroy\n @org_role.destroy\n respond_to do |format|\n format.html { redirect_to org_roles_url, notice: 'Org role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @permissionviewrole.destroy\n respond_to do |format|\n format.html { redirect_to permissionviewroles_url, notice: 'Permissionviewrole was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role = Role.find_by_id(params[:id])\n @role.destroy\n\n respond_to do |format|\n format.html { redirect_to(roles_url, :notice => \"User role removed.\") }\n format.xml { head :ok }\n end\n end", "def destroy\n\nrol = Role.where(:id=>current_user.role).first\n if rol.nombre == \"ACRM\"\n\n\n @correo = Correo.find(params[:id])\n @correo.destroy\n\nelse\n @correo = Correo.find(params[:id])\n flash[:error] ='No tienes permiso para realizar esta accion'\n redirect_to \"/correos/#{@correo.id}/edit/\"\n return\nend\n\n\n\n respond_to do |format|\n format.html { redirect_to \"/correos\", notice: 'correo was successfully deleted.' }\n format.json { head :ok }\n end\n end", "def delete_role(optional={})\n\t\targs = self.class.new_params\n\t\targs[:query]['Action'] = 'DeleteRole'\n\t\targs[:region] = optional[:_region] if (optional.key? :_region)\n\t\targs[:scheme] = 'https'\n\t\tif optional.key? :_method\n\t\t\traise ArgumentError, '_method must be GET|POST' unless 'GET|POST'.split('|').include? optional[:_method]\n\t\t\targs[:method] = optional[:_method]\n\t\tend\n\t\tif optional.key? :role_name\n\t\t\targs[:query]['RoleName'] = optional[:role_name]\n\t\tend\n\t\tself.run(args)\n\tend", "def destroy\n @titan_role.destroy\n respond_to do |format|\n format.html { redirect_to titan_roles_url, notice: 'Titan role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @user_to_role.destroy\n respond_to do |format|\n format.html { redirect_to user_to_roles_url, notice: 'User to role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @admin_role_ref.destroy\n respond_to do |format|\n format.html { redirect_to admin_role_refs_url, notice: 'Admin role ref was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @role_user = RoleUser.find(params[:id])\n @role_user.destroy\n\n respond_to do |format|\n format.html { redirect_to(role_users_url) }\n format.xml { head :ok }\n format.json { render :text => '{status: \"success\"}'}\n end\n end", "def destroy\n\nrol = Role.where(:id=>current_user.role).first\n if rol.nombre == \"ACRM\"\n\n @status_ref_pago_insc = StatusRefPagoInsc.find(params[:id])\n @status_ref_pago_insc.destroy\nelse\n flash[:error] ='No tienes permiso para realizar esta accion'\n\nend\n\n \n \n\n respond_to do |format|\n format.html { redirect_to status_ref_pago_inscs_url }\n format.json { head :ok }\n end\n end", "def destroy\n @rolid = params[:id]\n Role.destroy(@rolid)\n end", "def destroy\n @security_agent_role.destroy\n respond_to do |format|\n format.html { redirect_to security_agent_roles_url, notice: 'Security agent role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n\nrol = Role.where(:id=>current_user.role).first\n if rol.nombre == \"ACRM\"\n\n\n \n @territorio = Territorio.find(params[:id])\n @territorio.destroy\n\nelse\n flash[:error] ='No tienes permiso para realizar esta accion'\n\nend\n\n\n\n respond_to do |format|\n format.html { redirect_to territorios_url }\n format.json { head :ok }\n end\n end", "def destroy\n\n\n\nrol = Role.where(:id=>current_user.role).first\n if rol.nombre == \"ACRM\"\n \n\n @plan_de_ventum = PlanDeVentum.find(params[:id])\n @plan_de_ventum.destroy\n\nelse\n flash[:error] ='No tienes permiso para realizar esta accion'\n\nend\n \n \n \n\n respond_to do |format|\n format.html { redirect_to plan_de_venta_url }\n format.json { head :ok }\n end\n end", "def destroy\n @funcionario = Funcionario.find(params[:id])\n @funcionario.destroy\n\n respond_to do |format|\n format.html { redirect_to funcionarios_url }\n format.json { head :no_content }\n end\n end", "def destroy\n\n\n\nrol = Role.where(:id=>current_user.role).first\n if rol.nombre == \"ACRM\"\n\n @favorito = Favorito.find(params[:id])\n @favorito.destroy\nelse\n flash[:error] ='No tienes permiso para realizar esta accion'\n\nend\n \n \n\n respond_to do |format|\n format.html { redirect_to favoritos_url }\n format.json { head :ok }\n end\n end", "def destroy\n\n\nrol = Role.where(:id=>current_user.role).first\n if rol.nombre == \"ACRM\"\n \n @status_de_la_notificacion = StatusDeLaNotificacion.find(params[:id])\n @status_de_la_notificacion.destroy\n\nelse\n flash[:error] ='No tienes permiso para realizar esta accion'\n\nend\n \n \n \n\n respond_to do |format|\n format.html { redirect_to status_de_la_notificacions_url }\n format.json { head :ok }\n end\n end", "def destroy\n @team_user_role.destroy\n respond_to do |format|\n format.html { redirect_to team_user_roles_url, notice: 'Team user role was successfully destroyed.' }\n format.json { head :no_content }\n end\n end", "def destroy\n @team_role.destroy\n respond_to do |format|\n format.html { redirect_to lab_team_roles_path(@lab) }\n format.json { head :no_content }\n end\n end", "def delete(role:, type:)\n\t\t\t\t\tconnection.post(build_path('removeRoles'), nil, roleNames: [role].flatten.join(','),\n\t\t\t\t\t\ttype: type).code == '200'\n\t\t\t\tend", "def destroy\n @user = User.find params[:user_id]\n @role = Role.find params[:id]\n\n @user.roles.delete @role\n flash[:notice] = 'Assigment was successfully destroyed.'\n\n respond_to do |format|\n format.html { redirect_to :back }\n format.xml { head :ok }\n end\n end", "def delete_role\n\t\t@role = Role.find(params[:id])\n\n\t\tif @role.destroy\n\t\t\tredirect_to \"/details\"\n\t\telse\n\t\t\treder :action => \"delete_role\"\n\t\tend\n\tend", "def destroy\n\n @role.stop_user_id = session[:user_id]\n @role.stoped_at = DateTime.now\n @role.state = \"N\"\n @role.save\n respond_to do |format|\n format.html { redirect_to roles_url }\n format.json { head :no_content }\n end\n end" ]

[ "0.7129084", "0.70189804", "0.7010891", "0.7004442", "0.69502735", "0.69491225", "0.6949014", "0.69430315", "0.69271135", "0.69168305", "0.6910375", "0.6874708", "0.68575794", "0.6843911", "0.68059534", "0.68025565", "0.68025565", "0.68025565", "0.68025565", "0.68025565", "0.68025565", "0.6792315", "0.6766106", "0.67557317", "0.67557317", "0.67543983", "0.6747362", "0.6734914", "0.6731666", "0.6729097", "0.6724703", "0.6722624", "0.6708088", "0.670333", "0.6690903", "0.668654", "0.6684524", "0.6676413", "0.6661457", "0.6657024", "0.6651966", "0.6649426", "0.66491824", "0.66457707", "0.66323", "0.6615516", "0.6613154", "0.6607946", "0.66054165", "0.659893", "0.659456", "0.6590636", "0.65901786", "0.65880805", "0.6582747", "0.65809613", "0.6579855", "0.6572114", "0.6569321", "0.6566954", "0.6560319", "0.6560255", "0.6560255", "0.65591806", "0.6558791", "0.6555838", "0.6554853", "0.6551745", "0.6548934", "0.6548361", "0.6548325", "0.65435684", "0.6529618", "0.6515953", "0.65104383", "0.6503122", "0.65004355", "0.6488585", "0.64838827", "0.6482574", "0.6470331", "0.6467248", "0.6463103", "0.64485043", "0.64412916", "0.64376247", "0.6430369", "0.6429666", "0.6427572", "0.6418457", "0.6417045", "0.64144826", "0.64125144", "0.6406233", "0.63939923", "0.63885504", "0.6383354", "0.6382698", "0.6381783", "0.6374776" ]

[ "def set_required_actions\n # TODO: check what fields change to asign required fields\n end", "def action_hook; end", "def run_actions; end", "def define_action_hook; end", "def actions; end", "def define_action_helpers\n if super && action == :save\n @instance_helper_module.class_eval do\n define_method(:valid?) do |*args|\n self.class.state_machines.fire_event_attributes(self, :save, false) { super(*args) }\n end\n end\n end\n end", "def add_actions; end", "def callbacks; end", "def callbacks; end", "def setup *actions, &proc\n (@setup_procs ||= []) << [proc, actions.size > 0 ? actions : [:*]]\n end", "def define_action_helpers; end", "def post_setup\n end", "def action_methods; end", "def action_methods; end", "def action_methods; end", "def before_setup; end", "def action_run\n end", "def execute(setup)\n @action.call(setup)\n end", "def define_action_helpers?; end", "def set_actions\n actions :all\n end", "def action_done(action)\n dispatch = { :migrate => :done_migrating, :map => :done_mapping, :reduce =>\n :done_reducing, :finalize => :done_finalizing } \n self.send dispatch[action[:action]], action\n end", "def dependencies action, &block\n @actions.each do |other|\n if action[:requires].include? other[:provide]\n block.call other\n end\n end\n end", "def setup!\n return unless @setup_procs\n http_actions = actions\n @setup_procs.each do |setup_proc|\n proc, actions = setup_proc\n @setup__actions = actions.map do |action|\n\n action.is_a?(Regexp) ?\n http_actions.select { |a| a.to_s =~ action } :\n action.is_a?(String) && action =~ /\\A\\./ ?\n http_actions.map { |a| a.to_s << action if format?(a).include?(action) }.compact :\n action\n\n end.flatten\n self.class_exec &proc\n @setup__actions = nil\n end\n @setup_procs = nil\n end", "def before_actions(*logic)\n self.before_actions = logic\n end", "def setup_handler\n end", "def set_action(opts)\n opts = check_params(opts,[:actions])\n super(opts)\n end", "def setup(action)\n @targets.clear\n unless action.item.target_filters.empty?\n @targets = SES::TargetManager.make_targets(action)\n else\n item = action.item\n if item.for_opponent?\n @targets = $game_troop.alive_members\n elsif item.for_dead_friend?\n @targets = $game_party.battle_members.select { |actor| actor.dead? }\n else\n $game_party.battle_members.select { |actor| actor.alive? }\n end\n end\n @item_max = @targets.size\n create_contents\n refresh\n show\n activate\n end", "def action; end", "def action; end", "def action; end", "def action; end", "def action; end", "def workflow\n end", "def revisable_shared_setup(args, block)\n class << self\n attr_accessor :revisable_options\n end\n options = args.extract_options!\n self.revisable_options = Options.new(options, &block)\n \n self.send(:include, Common)\n self.send(:extend, Validations) unless self.revisable_options.no_validation_scoping?\n self.send(:include, WithoutScope::QuotedColumnConditions)\n end", "def setup\n @action = SampleActionAndroid.new(os_name: 'android',\n app_name: APP_PATH)\n end", "def before(action)\n invoke_callbacks *self.class.send(action).before\n end", "def process_action(...)\n send_action(...)\n end", "def before_dispatch(env); end", "def after_actions(*logic)\n self.after_actions = logic\n end", "def setup\n # override and do something appropriate\n end", "def setup(client)\n return unless @setup\n actions = @setup['setup'].select { |action| action['do'] }.map { |action| Action.new(action['do']) }\n actions.each do |action|\n action.execute(client)\n end\n self\n end", "def setup(_context)\n end", "def setup(resources) ; end", "def validate_actions\n errors.add(:base, :should_give_at_least_one_action) if !manage? && !forecasting? && !read? && !api?\n end", "def setup\n @resource_config = {\n :callbacks => {\n :before_create => nil,\n :after_create => nil,\n :before_update => nil,\n :after_update => nil,\n :before_destroy => nil,\n :after_destroy => nil,\n },\n :child_assoc => nil,\n :model => nil,\n :parent => nil,\n :path => nil,\n :permission => {},\n :properties => {},\n :relation => {\n :create => nil,\n :delete => nil,\n },\n :roles => nil,\n }\n end", "def determine_valid_action\n\n end", "def process_shared\n handle_taxes\n handle_shippings\n create_adjustments_from_params\n handle_status\n handle_inventory_refunds\n handle_payment_transactions\n order.updater.update\n end", "def startcompany(action)\n @done = true\n action.setup\n end", "def init_actions\n am = action_manager()\n am.add_action(Action.new(\"&Disable selection\") { @selection_mode = :none; unbind_key(32); bind_key(32, :scroll_forward); } )\n am.add_action(Action.new(\"&Edit Toggle\") { @edit_toggle = !@edit_toggle; $status_message.value = \"Edit toggle is #{@edit_toggle}\" })\n end", "def event_callbacks(event, metadata={})\n case event\n when :reset, :review\n if confirmed\n update_attributes(confirmed: false)\n end\n when :confirm\n confirm\n # trigger :order for all applicable items\n # NOTE: :order event is common to both physical and digital items\n items.each do |i|\n if i.event_permitted(:order)\n user_id = last_transition.user_id\n i.trigger!(:order, { order_id: id, user_id: user_id })\n end\n end\n when :complete_work\n request = metadata[:request]\n work_complete_notification(request)\n when :close\n close\n end\n if event != :close && !open\n reopen\n end\n end", "def setup_action\n return unless PONY::ERRNO::check_sequence(current_act)\n new_sequence = @action_sequence[@sequence_index+1...@action_sequence.size]\n @sequence_index = 0\n new_sequence = DND::SkillSequence::ACTS[@acts[1]] + new_sequence\n execute_sequence\n end", "def define_tasks\n define_weave_task\n connect_common_tasks\n end", "def setup(&block)\n define_method(:setup, &block)\n end", "def setup\n transition_to(:setup)\n end", "def setup\n transition_to(:setup)\n end", "def action\n end", "def setup( *args )\n\t\t\tself.class.setupBlocks.each {|sblock|\n\t\t\t\tdebugMsg \"Calling setup block method #{sblock}\"\n\t\t\t\tself.send( sblock )\n\t\t\t}\n\t\t\tsuper( *args )\n\t\tend", "def config(action, *args); end", "def setup\n @setup_proc.call(self) if @setup_proc\n end", "def before_action \n end", "def setup_callbacks\n defined_callbacks.each do |meth|\n unless respond_to?(\"call_#{meth}_callbacks\".to_sym)\n self.class.module_eval <<-EOE\n def call_#{meth}_callbacks(*args)\n plugin_store.each {|a| a.call_#{meth}_callbacks(*args) } if respond_to?(:plugin_store) && plugin_store\n self.send :#{meth}, *args if respond_to?(:#{meth})\n end\n EOE\n end\n end\n end", "def action\n end", "def matt_custom_action_begin(label); end", "def setup\n # override this if needed\n end", "def setup\n\t\t\t\t\t\t# Do nothing\n\t\t\t\tend", "def setup\n\t\t\t\t\t\t# Do nothing\n\t\t\t\tend", "def action(options,&callback)\n new_action = Action===options ? options : Action.new(options,&callback)\n # replace any with (shared name/alias or both default) + same arity\n @actions.delete_if do |existing_action|\n ((existing_action.names & new_action.names).size > 0 ||\n existing_action.default? && new_action.default?) &&\n existing_action.required.size == new_action.required.size &&\n existing_action.optional.size <= new_action.optional.size\n end\n @actions = (@actions + [new_action]).sort\n new_action\n end", "def set_target_and_action target, action\n self.target = target\n self.action = 'sugarcube_handle_action:'\n @sugarcube_action = action\n end", "def after(action)\n invoke_callbacks *options_for(action).after\n end", "def pre_task\n end", "def setup(server)\n server.on('beforeMethod', method(:before_method), 10)\n end", "def add_actions\n attribute = machine.attribute\n name = self.name\n \n owner_class.class_eval do\n define_method(name) {self.class.state_machines[attribute].events[name].fire(self)}\n define_method(\"#{name}!\") {self.class.state_machines[attribute].events[name].fire!(self)}\n define_method(\"can_#{name}?\") {self.class.state_machines[attribute].events[name].can_fire?(self)}\n end\n end", "def init_actions\n @select_action = SelectAction.new\n @endpoint_mouse_action = EndpointMouseAction.new\n @move_action = MoveAction.new\n end", "def setup_signals; end", "def after_created\r\n return unless compile_time\r\n Array(action).each do |action|\r\n run_action(action)\r\n end\r\nend", "def after_created\r\n return unless compile_time\r\n Array(action).each do |action|\r\n run_action(action)\r\n end\r\nend", "def set_target_and_action target, action\n self.target = target\n self.action = 'sugarcube_handle_action:'\n @sugarcube_action = action.respond_to?('weak!') ? action.weak! : action\n end", "def initialize(*args)\n super\n @action = :set\nend", "def after_set_callback; end", "def setup\n #implement in subclass;\n end", "def lookup_action; end", "def setup &block\n if block_given?\n @setup = block\n else\n @setup.call\n end\n end", "def setup_action\n return TSBS.error(@acts[0], 1, @used_sequence) if @acts.size < 2\n actions = TSBS::AnimLoop[@acts[1]]\n if actions.nil?\n show_action_error(@acts[1])\n end\n @sequence_stack.push(@acts[1])\n @used_sequence = @acts[1]\n actions.each do |acts|\n @acts = acts\n execute_sequence\n break if @break_action\n end\n @sequence_stack.pop\n @used_sequence = @sequence_stack[-1]\n end", "def release_actions; end", "def around_hooks; end", "def save_action; end", "def setup(easy)\n super\n easy.customrequest = @verb\n end", "def action_target()\n \n end", "def setup\n callback(:setup) do\n notify(:setup)\n migration_check.last_deployed_commit\n end\n end", "def setup\n return unless @setup\n\n actions = @setup['setup'].select { |action| action['do'] }.map { |action| Action.new(action['do']) }\n run_actions_and_retry(actions)\n self\n end", "def before_setup\n # do nothing by default\n end", "def my_actions(options)\n @setup = false\n get_template_part(\"custom_used\",\"action_users\",true)\n end", "def default_action; end", "def setup(&blk)\n @setup_block = blk\n end", "def callback_phase\n super\n end", "def advice\n end", "def _handle_action_missing(*args); end", "def duas1(action)\n action.call\n action.call\nend", "def shared_action(name, &block)\n @controller.shared_actions[name] = block\n end", "def before_action action, &block\n @audience[:before][action] ||= Set.new\n @audience[:before][action] << block\n end", "def setup_initial_state\n\n state_a = State.new(\"a\", 0)\n state_b = State.new(\"b\", 0)\n state_c = State.new(\"c\", 10)\n\n move_to_b = Action.new(\"move_to_b\", 1, state_b)\n\n move_to_c = Action.new(\"move_to_c\", 1, state_c)\n\n state_a.actions = [move_to_b, move_to_c]\n\n return state_a\n \nend" ]

[ "0.6163163", "0.6045976", "0.5946146", "0.591683", "0.5890051", "0.58349305", "0.5776858", "0.5703237", "0.5703237", "0.5652805", "0.5621621", "0.54210985", "0.5411113", "0.5411113", "0.5411113", "0.5391541", "0.53794575", "0.5357573", "0.53402257", "0.53394014", "0.53321576", "0.53124547", "0.529654", "0.5296262", "0.52952296", "0.52600986", "0.52442724", "0.52385926", "0.52385926", "0.52385926", "0.52385926", "0.52385926", "0.5232394", "0.523231", "0.5227454", "0.52226824", "0.52201617", "0.5212327", "0.52079266", "0.52050185", "0.51754695", "0.51726824", "0.51710224", "0.5166172", "0.5159343", "0.51578903", "0.51522785", "0.5152022", "0.51518047", "0.51456624", "0.51398855", "0.5133759", "0.5112076", "0.5111866", "0.5111866", "0.5110294", "0.5106169", "0.509231", "0.50873137", "0.5081088", "0.508059", "0.50677156", "0.50562143", "0.5050554", "0.50474834", "0.50474834", "0.5036181", "0.5026331", "0.5022976", "0.5015441", "0.50121695", "0.5000944", "0.5000019", "0.4996878", "0.4989888", "0.4989888", "0.49864885", "0.49797225", "0.49785787", "0.4976161", "0.49683493", "0.4965126", "0.4958034", "0.49559742", "0.4954353", "0.49535993", "0.4952725", "0.49467874", "0.49423352", "0.49325448", "0.49282882", "0.49269363", "0.49269104", "0.49252945", "0.4923091", "0.49194667", "0.49174926", "0.49173003", "0.49171105", "0.4915879", "0.49155936" ]

[ "def strong_params\n params.require(:user).permit(param_whitelist)\n end", "def strong_params\n params.require(:listing_member).permit(param_whitelist)\n end", "def allow_params_authentication!; end", "def allowed_params\n ALLOWED_PARAMS\n end", "def default_param_whitelist\n [\"mode\"]\n end", "def param_whitelist\n [:role, :title]\n end", "def expected_permitted_parameter_names; end", "def safe_params\n params.except(:host, :port, :protocol).permit!\n end", "def strong_params\n params.require(:team_member).permit(param_whitelist)\n end", "def permitir_parametros\n \t\tparams.permit!\n \tend", "def strong_params\n params.require(:community).permit(param_whitelist)\n end", "def permitted_strong_parameters\n :all #or an array of parameters, example: [:name, :email]\n end", "def strong_params\n params.require(:education).permit(param_whitelist)\n end", "def restricted_params\n #params.require(self.controller_name.classify.underscore.to_sym).permit([])\n raise(\"No strong params set, override restricted_params method in your controller. E.g. params.require(:model).permit(:attribute1, :attribute2)\")\n end", "def allowed_params\n params.require(:user).permit(:username, :email, :password, :password_confirmation)\n end", "def param_whitelist\n [:rating, :review]\n end", "def param_whitelist\n whitelist = [\n :username, :name,\n :parent_id,\n :headline, :description, :video,\n :policy, :signup_mode, :category,\n :website, :facebook, :twitter, :linkedin,\n :founded_at,\n privacy: [\n :events,\n :resources\n ],\n permission: [\n :profile,\n :members,\n :children,\n :statistics,\n :posts,\n :listings,\n :resources,\n :events\n ],\n location: [\n :description,\n :street,\n :city,\n :state,\n :zip,\n :country,\n :latitude,\n :longitude\n ]\n ]\n \n if action_name === 'update'\n whitelist.delete(:parent_id)\n unless current_user.role_in(@community) === 'owner'\n whitelist.delete(:privacy)\n whitelist.delete(:permission)\n end\n end\n \n whitelist\n end", "def param_whitelist\n if @user.present? && current_user != @user\n return [:followed]\n end\n \n whitelist = [\n :username, :email, :password,\n :first_name, :last_name,\n :birthday, :gender,\n :headline, :biography, :ask_about, :focus,\n :website, :facebook, :linkedin, :twitter, :github,\n roles: [],\n skills: [],\n interests: [],\n privacy: { contact: [] },\n location: [\n :description,\n :street,\n :city,\n :state,\n :zip,\n :country,\n :latitude,\n :longitude\n ]\n ]\n \n if action_name === 'update'\n whitelist.delete(:email)\n whitelist.delete(:password)\n end\n \n whitelist\n end", "def user_params \n \tparams.require(:user).permit(:name, :email, :password, :password_confirmation)# preventing CSTR\n end", "def user_params\n params.permit(:name, :phoneNumber, :address, :postalCode, :local, :link, :counter, :latitude, :longitude) \n end", "def valid_params_request?; end", "def strong_params\n params.require(:experience).permit(param_whitelist)\n end", "def trim_whitelisted(params, whitelist)\n # remove any parameters that are not whitelisted\n params.each do |key, value|\n # if white listed\n if whitelist.include? key\n # strip the parameters of any extra spaces, save as string\n params[key] = value.to_s.strip\n else\n # delete any unauthorized parameters\n params.delete key\n end\n end\n params\n end", "def whitelist_url_params\n params.require(:whitelist_url).permit(:domain)\n end", "def allowed_params\n params.require(:allowed).permit(:email)\n end", "def permitted_params\n []\n end", "def trim_whitelisted(params, whitelist)\n # remove any parameters that are not whitelisted\n params.each do |key, value|\n # if white listed\n if whitelist.include? key\n # strip the parameters of any extra spaces, save as string\n params[key] = value.to_s.strip\n else\n # delete any unauthorized parameters\n params.delete key\n end\n end\n params\n end", "def safe_params\n params.permit(:id, :name, :origin, :emails => []); #emails is an array\n end", "def query_param\n\t\tparams.permit(:first_name, :last_name, :phone)\n\tend", "def strong_params\n params.require(:success_metric).permit(param_whitelist)\n end", "def devise_filter\r\n logger.debug(\"In devise_filter =>PARAMS: #{params.inspect}\")\r\n\r\n # White list for sign_up\r\n devise_parameter_sanitizer.for(:sign_up) { |u| u.permit(user_whitelist) }\r\n\r\n # White list for account update\r\n devise_parameter_sanitizer.for(:account_update) { |u| u.permit(user_whitelist, :current_password) }\r\n\r\n # White list for Invitation creation\r\n devise_parameter_sanitizer.for(:invite) { |u| u.permit(:account_type, :email, :invitation_token)}\r\n\r\n # White list for accept invitation\r\n devise_parameter_sanitizer.for(:accept_invitation) { |u| u.permit(user_whitelist, :invitation_token)}\r\n\r\n end", "def whitelisted_user_params\n params.require(:user).\n permit( :first_name, :last_name, :email,:password,:password_confirmation,:birthday,:gender)\n end", "def user_params\n ActionController::Parameters.permit_all_parameters = true\n params.require(:user) #.permit(:name, :surname, :phone, :password, :email, :time_zone)\n end", "def strong_params\n params.require(:metric_change).permit(param_whitelist)\n end", "def safe_params\n params.require(:user).permit(:name)\n end", "def get_params\n\t\treturn ActionController::Parameters.new(self.attributes).permit(\"account_id\", \"title\", \"category\", \"introduction\", \"tags\", \"segment_type\", \"visible\", \"status\", \"main_image\")\n\tend", "def grant_params\n @whitelisted = params.require(:grant).permit(:name, :description, :agency_id, :acronym)\n end", "def check_params; true; end", "def param_whitelist\n whitelist = [\n :description,\n :progress,\n :kpi_id\n ]\n \n unless action_name === 'create'\n whitelist.delete(:kpi_id)\n end\n \n whitelist\n end", "def quote_params\n params.permit!\n end", "def valid_params?; end", "def paramunold_params\n params.require(:paramunold).permit!\n end", "def user_params\n\t\tparams.permit(:nickname, :avatar, :description, :password, :gender, :birthday, :email, :phone, :qq_id, :wechat_id)\n\tend", "def filtered_parameters; end", "def user_params\n params.permit(\n \t:id,\n \t:email, \n \t:first_name, \n \t:last_name, \n \t:password, \n \t:confirm_token, \n \t:phone_number,\n \t:facebook_link,\n \t:car_model,\n \t:license_plate)\n end", "def filtering_params\n params.permit(:email, :name)\n end", "def check_params\n true\n end", "def wx_public_params\n params.require(:wx_public).permit(:nickname, :manager, :alias)\n end", "def allowed_params\n params.require(:user).permit(:email, :password, :role, :first_name, :last_name, :password_confirmation)\n end", "def allowed_params\n params.require(:user).permit(:email, :password, :role, :first_name, :last_name, :password_confirmation)\n end", "def listing_params\n\t\tparams.permit(:address, :transit_info, :rules, :other_info, :lat, :lng)\n\tend", "def social_account_params\n\t\t\tparams.require(:social_account).permit!\n\t\tend", "def safe_params\n resurce_name = self.class.resource_name\n params_method_name = \"#{resurce_name}_params\".to_sym\n if params[resurce_name]\n if respond_to?(params_method_name) || private_methods.include?(params_method_name)\n send(params_method_name)\n else\n raise ActiveModel::ForbiddenAttributesError, \"Please, define the '#{params_method_name}' method in #{self.class.name}\"\n end\n end\n end", "def url_params\n params.require(:url).permit(:short_url, :original_url, :clicks, :ip_addresses)\n end", "def user_params\n params.require(:user).permit(:uri, :username, :password, :realname, :email, :publicvisible)\n end", "def model_params\n\t\tparams.require(:manager).permit(\n\t :user_name,\n :password,\n :email,\n \t\t\t)\n\tend", "def article_params_whitelist\n params.require(:article).permit(:title, :description, category_ids: [])\n end", "def college_whitelist_params\n params.require(:college_whitelist).permit(:status)\n end", "def active_code_params\n params[:active_code].permit\n end", "def filtering_params\n params.permit(:email)\n end", "def valid_params(params)\n params.permit(:user_id, :photo_id, :originX, :originY, :width, :height)\n end", "def ip_address_params\n\t\t\tparams.require(:ip_address).permit!\n end", "def pull_request_params\n whitelist = [\n :url,\n :id,\n :html_url,\n :diff_url,\n :patch_url,\n :issue_url,\n :number,\n :state,\n :locked,\n :title\n ]\n params.require(:pull_request).permit(whitelist)\n end", "def reserved_params\n params.require(:reserved).permit(:name, :email, :pax, :address, :KTP, :title)\n end", "def post_params\n if current_user.admin? \n params.permit(:title, :body, :city, :country, :gps_location, :privacy, :visible, :latitude, :longitude, images: [], files: [])\n else \n params.permit(:title, :body, :city, :country, :gps_location, :privacy,:latitude, :longitude, images: [], files: [])\n end \n end", "def list_params\n params.permit(:name)\n end", "def filter_parameters; end", "def filter_parameters; end", "def vineyard_params\n params.permit(:vineyard_name, :email, :website_url, :phone, :address, :city, :region, :postcode, :country, :specialty, :description, :pet_friendly, :holiday, :tours, :events, :family_friendly, :cover_image, :image_one, :image_two, :image_three, :image_four, :user_id, :base64)\n end", "def available_activity_params\n # params.require(:available_activity).permit(:type,:geometry,:properties)\n whitelisted = ActionController::Parameters.new({\n type: params.require(:available_activity)[:type],\n geometry: params.require(:available_activity)[:geometry].try(:permit!).to_h,\n properties: params.require(:available_activity)[:properties].try(:permit!).to_h\n }).try(:permit!)\n end", "def user_params\n params.permit(:name, :username, :email, :password, :img_url, :bg_url, :coinbank)\n end", "def user_params_pub\n\t \tparams[:user].permit(:hruid)\n\t end", "def user_params\n params.permit(:id, :email, :password, :nickname, :status, :avatar, :flat_picture, :flatsharing_id, :member,\n :user, :color, :solde)\n end", "def validate_search_inputs\n @whitelisted = params.fetch(:user, nil)\n if @whitelisted.blank?\n render_error(400, \"#{I18n.t('general_error.params_missing_key')}\": [I18n.t('general_error.params_missing_value', model: \"review\")])\n return\n else\n @whitelisted = @whitelisted.permit(:name, :uen, :description)\n end\n end", "def param_whitelist\n [\n :title,\n :description,\n :organization,\n :team_id,\n :started_at,\n :finished_at,\n location: [\n :description,\n :street,\n :city,\n :state,\n :zip,\n :country,\n :latitude,\n :longitude\n ]\n ]\n end", "def url_whitelist; end", "def admin_social_network_params\n params.require(:social_network).permit!\n end", "def filter_params\n params.require(:filters).permit(:letters)\n end", "def origin_params\n params.permit(:country, :state, :city, :postal_code, :address, :description)\n end", "def valid_params(params)\n params.permit(:login, :first_name, :last_name, \n :password, :password_confirmation)\n end", "def sensitive_params=(params)\n @sensitive_params = params\n end", "def permit_request_params\n params.permit(:address)\n end", "def user_params\n # Ensure a user can't give themselves admin priveleges\n params.delete(:admin) if current_user.admin?\n params.require(:user).permit(:name, :email, :admin, :image)\n end", "def secure_params\n params.require(:location).permit(:name)\n end", "def strong_params\n params.require( :setting ).\n permit( :global_scan_limit, :per_user_scan_limit,\n :target_whitelist_patterns, :target_blacklist_patterns )\n end", "def question_params\n params.require(:survey_question).permit(question_whitelist)\n end", "def case_insensitive_params\n params.require(:case_insensitive).permit(:name)\n end", "def empire_master_no_match_params\n params.require(:empire_master_no_match).permit(:uid, :last_name, :list, :search_date, :double, :source)\n end", "def maintenance_request_params\n params[:maintenance_request].permit! #allow all parameters for now\n end", "def unwanted_params\n params.require(:unwanted).permit(:title, :description, :image)\n end", "def url_params\n params[:url].permit(:full)\n end", "def backend_user_params\n params.permit!\n end", "def filter_params\n\t\treturn params[:candidate].permit(:name_for_filter)\n\tend", "def speed_measurement_params\n\n #fuckit, to lazy to deal with permit crap right now\n ActionController::Parameters.permit_all_parameters = true\n\n params[:speed_measurement]\n end", "def user_params\n params.permit(:name, :age, :username, :display_photo, :password)\n end", "def get_params\r\n #params.require(:article).permit(:title, :permalink, :content, :source_site, :introtext, :type_id, :order_by, :searchable, :created_by, :edited_by, :published_by, :published_on, :user_id)\r\n params.require(:article).permit!\r\n\r\n end", "def pub_params\n params.require(:pub).permit(:name, :description, :phone, :email, :hidden, :city_id, :address)\n end", "def pass_params\n params[:pass].permit(:name, :price, :description, :colour, :events)\n end", "def droptraining_params\n params.permit(:training_id,:user_id, :utf8, :authenticity_token, :commit)\n end", "def person_params\n # params whitelist does *not* include admin, sub, remember_token\n # TBD: share this whitelist with the list used by configuration_permitted_parameters\n # TBD: should current_password be on this list? -- for now, leaving off, since it seems to work without\n # NOTE: do not include 'admin' in this list!\n params.require(:person).permit(\n :name, \n :email, \n :description,\n :password, \n :password_confirmation\n )\n end", "def parameter_params\n params.require(:parameter).permit(:name, :description, :param_code, :param_value, :active_from, :active_to)\n end" ]

[ "0.69792545", "0.6781151", "0.67419964", "0.674013", "0.6734356", "0.6591046", "0.6502396", "0.6496313", "0.6480641", "0.6477825", "0.64565", "0.6438387", "0.63791263", "0.63740575", "0.6364131", "0.63192815", "0.62991166", "0.62978333", "0.6292148", "0.6290449", "0.6290076", "0.62894756", "0.6283177", "0.6242471", "0.62382483", "0.6217549", "0.6214457", "0.6209053", "0.6193042", "0.6177802", "0.6174604", "0.61714715", "0.6161512", "0.6151757", "0.6150663", "0.61461", "0.61213595", "0.611406", "0.6106206", "0.6105114", "0.6089039", "0.6081015", "0.6071004", "0.60620916", "0.6019971", "0.601788", "0.6011056", "0.6010898", "0.6005122", "0.6005122", "0.6001556", "0.6001049", "0.59943926", "0.5992201", "0.59909594", "0.5990628", "0.5980841", "0.59669393", "0.59589154", "0.5958826", "0.5957911", "0.5957385", "0.5953072", "0.59526145", "0.5943361", "0.59386164", "0.59375334", "0.59375334", "0.5933856", "0.59292704", "0.59254247", "0.5924164", "0.59167904", "0.59088355", "0.5907542", "0.59064597", "0.5906243", "0.5898226", "0.589687", "0.5896091", "0.5894501", "0.5894289", "0.5891739", "0.58860534", "0.5882406", "0.587974", "0.58738774", "0.5869024", "0.58679986", "0.5867561", "0.5865932", "0.5864461", "0.58639693", "0.58617616", "0.5861436", "0.5860451", "0.58602303", "0.5854586", "0.58537364", "0.5850427", "0.5850199" ]

[ "def feed_url\n # Check attributes\n if @site.config[:base_url].nil?\n raise RuntimeError.new('Cannot build Atom feed: site configuration has no base_url')\n end\n\n @item[:feed_url] || @site.config[:base_url] + @item.path\n end", "def feed_url\n blog_url + \"posts.atom\"\n end", "def feed_url\n if @tag\n \"#{tag_url(@tag)}feed/\"\n elsif @search\n \"#{search_url(@search)}feed/\"\n else\n '/feed/'\n end\n end", "def feed_url\n blog_index_url(format: :rss)\n end", "def feed\n @data.feed ||= parsed_document.xpath(\"//link\").select{ |link|\n link.attributes[\"type\"] && link.attributes[\"type\"].value =~ /(atom|rss)/\n }.map { |link|\n absolutify_url(link.attributes[\"href\"].value)\n }.first rescue nil\n end", "def feed_url\n \"http://#{@account}.github.com/feed.xml\"\n end", "def url_for(item)\n # Check attributes\n if @site.config[:base_url].nil?\n raise RuntimeError.new('Cannot build Atom feed: site configuration has no base_url')\n end\n\n # Build URL\n if item[:custom_url_in_feed]\n item[:custom_url_in_feed]\n elsif item[:custom_path_in_feed]\n @site.config[:base_url] + item[:custom_path_in_feed]\n elsif item.path\n @site.config[:base_url] + item.path\n end\n end", "def get_feed(feed_url = nil)\n unless feed_url.blank?\n # trim the url element\n feed_url.strip!\n begin\n feed = Atom::Feed.load_feed(URI.parse(feed_url))\n rescue\n feed = nil\n end\n feed\n end\n end", "def parse_feed_url\n url = sanitize_url(self.url)\n Feedbag.find(url)[0]\n end", "def fb_url\n \"http://feeds.feedburner.com/#{Blog.feedburner}\"\n end", "def feed\n @feed ||= (parsed_feed('rss') || parsed_feed('atom'))\n end", "def feed\n @feed ||= (parsed_feed('rss') || parsed_feed('atom'))\n end", "def inspect\n return \"#<FeedTools::Feed:0x#{self.object_id.to_s(16)} URL:#{self.href}>\"\n end", "def rss_url\n [@page.path, 'rss'] * '.'\n end", "def atom_feed_link(repo_param, ref=nil)\n \"<a href=\\\"\" + prefix_url(\"#{repo_param}#{\"/#{ref}\" if !ref.nil?}.atom\") + \"\\\" title=\\\"Atom Feed\\\" class=\\\"atom\\\">Feed</a>\"\n end", "def meeting_feed_url\n \"#{@baseurl}/rss/rss.aspx\"\n end", "def feed_url(url=self.blog_url)\n blog = Nokogiri::HTML(open(url))\n \n # select \n if (feed = blog.xpath(\"html/head/link[@rel='alternate']\")).present?\n feed.attribute(\"href\").text\n else\n nil\n end\n end", "def href\n if @href_overridden != true || @href.nil?\n original_href = @href\n \n override_href = lambda do |current_href|\n begin\n if current_href.nil? && self.feed_data != nil\n # The current url is nil and we have feed data to go on\n true\n elsif current_href != nil && !([\"http\", \"https\"].include?(\n URI.parse(current_href.to_s).scheme))\n if self.feed_data != nil\n # The current url is set, but isn't a http/https url and\n # we have feed data to use to replace the current url with\n true\n else\n # The current url is set, but isn't a http/https url but\n # we don't have feed data to use to replace the current url\n # with so we'll have to wait until we do\n false\n end\n else\n # The current url is set to an http/https url and there's\n # no compelling reason to override it\n false\n end\n rescue\n # Something went wrong, so we should err on the side of caution\n # and attempt to override the url\n true\n end\n end\n if override_href.call(@href) && self.feed_data != nil\n begin\n links = FeedTools::GenericHelper.recursion_trap(:feed_href) do\n self.links\n end\n link = FeedTools::GenericHelper.recursion_trap(:feed_href) do\n self.link\n end\n if links != nil\n for link_object in links\n if link_object.rel == 'self'\n if link_object.href != link ||\n (link_object.href =~ /xml/ ||\n link_object.href =~ /atom/ ||\n link_object.href =~ /feed/)\n @href = link_object.href\n @href_overridden = true\n @links = nil\n @link = nil\n return @href\n end\n end\n end\n end\n rescue Exception\n end\n @links = nil\n @link = nil\n \n # rdf:about is ordered last because a lot of people put the url to\n # the feed inside it instead of a link to their blog.\n # Ordering it last gives them as many chances as humanly possible\n # for them to redeem themselves. If the link turns out to be the\n # same as the blog link, it will be reset to the original value.\n @href = FeedTools::XmlHelper.try_xpaths(self.channel_node, [\n \"admin:feed/@rdf:resource\",\n \"admin:feed/@resource\",\n \"feed/@rdf:resource\",\n \"feed/@resource\",\n \"@rdf:about\",\n \"@about\",\n \"newLocation/text()\",\n \"atom10:link[@rel='self']/@href\"\n ], :select_result_value => true) do |result|\n override_href.call(FeedTools::UriHelper.normalize_url(result))\n end\n begin\n if !(@href =~ /^file:/) &&\n !FeedTools::UriHelper.is_uri?(@href)\n @href = FeedTools::UriHelper.resolve_relative_uri(\n @href, [self.base_uri])\n end\n rescue\n end\n if self.configurations[:url_normalization_enabled]\n @href = FeedTools::UriHelper.normalize_url(@href)\n end \n @href.strip! unless @href.nil?\n @href = nil if @href.blank?\n @href_overridden = true\n if @href == nil\n @href = original_href\n @href_overridden = false\n end\n if @href == self.link\n @href = original_href\n @href_overridden = false\n end\n if @href_overridden == true\n @links = nil\n @link = nil\n end\n end\n end\n return @href\n end", "def feed_urls\n urls = [[settings.posts_title, '/feed/']]\n\n if word = @tag || @search\n urls.push [settings.tag_title(word), \"#{tag_url(word)}feed/\"]\n urls.push [settings.search_title(word), \"#{search_url(word)}feed/\"]\n end\n\n return urls\n end", "def feed_path( feed )\n \"/feed/#{feed.key}\"\n end", "def guid\n return '' if @feed.channel.link.nil?\n @feed.channel.link\n end", "def blog_feed_url \n if Crunchbase::Company.get(crunchbase_slug).blog_feed_url.nil?\n \" \"\n else\n Crunchbase::Company.get(crunchbase_slug).blog_feed_url\n end\n end", "def feed_tag(mime, url, options={})\n full_mime = (mime == :atom) ? 'application/atom+xml' : 'application/rss+xml'\n tag(:link, { :rel => 'alternate', :type => full_mime, :title => mime, :href => url }.update(options))\n end", "def questions_feed_url\n view_context.questions_url(:format => \"atom\")\n end", "def add_feed_url\n return false if parse_feed_url.nil?\n update_attribute(:feed_url, parse_feed_url)\n end", "def feed!\n http_fetch(feed_url)\n end", "def retrieve_feed\n uri = URI.parse(@feed_url)\n Net::HTTP.get_response(uri).body\n end", "def atomlink(xml)\n # Effectively memoize this XMLAttr object, since we can use it for\n # ever parsed page.\n @atomlink ||= GProv::Provision::EntryBase::XMLAttr.new(:link, :xpath => %{/xmlns:feed/xmlns:link[@rel = \"next\"]/@href})\n\n # REVIEW This might be utilizing behavior that's unexpected. This\n # retrieves a fully qualified URL, which means that it might be\n # bypassing some of the logic in the GProv::Conection code. Instead of\n # passing in the base resource URI like the rest of GProv, we're\n # blindly using this\n #\n # So instead of retrieving this:\n #\n # /group/2.0/:domain/<group>@<domain>/member?start=<string>\n #\n # We're retrieving this:\n #\n # https://apps-apis.google.com/a/feeds/group/2.0/<domain>/<group>@<domain>/member?start=<string>\n #\n # This works, since by the nature of this request the group and domain\n # are filled in correctly. However, it ignores the baseuri respected by\n # the rest of this library, the :domain symbol, and other behaviors.\n # This should continue to work, but if HTTParty stops allowing fully\n # qualified URLs like this and merely prepends the current baseuri to\n # this string then the world will explode.\n link = @atomlink.parse(xml)\n link unless link.empty?\n end", "def get_feed_url_from_blog(host_) \n body = get_page(host_)\n return if (!body)\n \n html_doc = Nokogiri::HTML(body) # parse it to extract the link tags...\n feed_link = html_doc.at(FEED_AUTODISCOVERY_XPATH)\n return URI.join(host_, feed_link.to_s).to_s rescue nil\nend", "def feed_id\n \"http://#{@account.downcase}.github.com/\"\n end", "def set_feed_url\n @feed_url = FeedUrl.find(params[:id])\n end", "def site_feed(site_id)\n FEED_URL + CGI::escape(site_id || '')\n end", "def site_feed(site_id)\n FEED_URL + CGI::escape(site_id || '')\n end", "def icon\n return '' if @feed.channel.image.nil?\n @feed.channel.image.url\n end", "def path\n if @site.config[\"feed\"] && @site.config[\"feed\"][\"path\"]\n @site.config[\"feed\"][\"path\"]\n else\n \"feed.xml\"\n end\n end", "def newsfeed_feed_link\n $tracer.trace(__method__)\n return ToolTag.new(div.className(\"/tabs/\").a.at(0).innerText(\"/the feed/\"), __method__)\n end", "def url\n @url ||= if single_post?\n single_post.url.gsub(/\\.html$/, \".#{@format}\")\n else\n URL.new({\n template: @config['bundle_permalink'],\n placeholders: url_placeholders,\n permalink: nil }).to_s\n end\n end", "def url\n @url.to_s\n end", "def auto_discovery_feed(options = { })\n with_options(options.reverse_merge(:only_path => true)) do |opts|\n @auto_discovery_url_rss = opts.url_for(:format => 'rss', :only_path => false)\n @auto_discovery_url_atom = opts.url_for(:format => 'atom', :only_path => false)\n end\n end", "def url\n @gapi[\"selfLink\"]\n end", "def url\n @gapi[\"selfLink\"]\n end", "def url\n @attributes.fetch('url', nil)\n end", "def url\n if links.alternate\n links.alternate.href\n elsif links.self\n links.self.href\n else\n links.map.each do |l|\n l.href\n end.compact.first\n end\n end", "def feed(name, options = {})\n if rel = feeds._links[name]\n get rel.href, :accept => rel.type, :options => options\n end\n end", "def url\n @author_url ||= begin\n \"http://twitter.com/#{self.screenname}\" if self.screenname\n end\n end", "def getURL\r\n\t\t\t\t\treturn @url\r\n\t\t\t\tend", "def getURL\r\n\t\t\t\t\treturn @url\r\n\t\t\t\tend", "def getURL\r\n\t\t\t\t\treturn @url\r\n\t\t\t\tend", "def getURL\r\n\t\t\t\t\treturn @url\r\n\t\t\t\tend", "def getURL\r\n\t\t\t\t\treturn @url\r\n\t\t\t\tend", "def hub_url\n\t\tfeed = Nokogiri::XML(open(@feed_url))\n\t\tif (hub = feed.xpath(\"//*[@rel='hub']\")).present?\n\t\t\thub.attribute(\"href\").text\n\t\telse\n\t\t\tnil\n\t\tend\n\tend", "def document_feed_url\n return \"https://docs.google.com/feeds/default/private/full/\" + CGI.escape(self.resource_id)\n end", "def url\n u = read_attribute(:url)\n u !~ /\\Ahttp/i ? \"http://#{u}\" : u\n end", "def url\n @attributes[:url]\n end", "def url\n @attributes[:url]\n end", "def links_feed\n end", "def post_url\n if forum?\n # By using including :posts, we ensure that the user's browser\n # will display the link as 'followed' when he makes a post,\n # so the link color will only change back to 'unfollowed' \n # if someone *else* makes a post.\n forum_topic_url(@forum, @topic, :posts => @topic.posts.count)\n elsif blog?\n blog_post_url(@blog, @post)\n end\n end", "def feed_url\n client_url = 'https://kitsu.io'\n # Direct to user notifications list when more than one action\n return \"#{client_url}/notifications\" if activities.length > 1\n\n model_type, model_id = activity['foreign_id'].split(':')\n path = ''\n case model_type\n when 'Follow'\n path = \"/users/#{actor_id}\"\n when 'Post'\n path = \"/posts/#{model_id}\"\n when 'Comment'\n path = \"/comments/#{model_id}\"\n when 'PostLike'\n target_id = activity['target'].split(':').last\n path = \"/posts/#{target_id}\"\n when 'CommentLike'\n target_id = activity['target'].split(':').last\n path = \"/comments/#{target_id}\"\n when 'GroupInvite'\n path = \"/group-invite/#{model_id}\"\n end\n\n \"#{client_url}#{path}\"\n end", "def url_attribute\n @url\n end", "def url\n if not (self.type == :link || self.type == :image)\n raise NodeError, \"can't get URL for non-link or image\"\n end\n CMark.node_get_url(@pointer)\n end", "def feed\n get '/users/self/feed', auth_params\n end", "def newsfeed\n Post.newsfeed_for(self)\n end", "def links\n nodes = @doc.xpath(\"atom:feed/atom:link\", ::AtomFeed::NS) || []\n nodes.map { |node| AtomLink.new(node) }\n end", "def rss_autodiscovery_link(title, url)\n case url\n when Hash\n url = url_for(url)\n when String\n url = h(url)\n end\n \n \"<link rel='alternate' type='application/rss+xml' \" +\n \"title='#{h title}' href='#{url}' />\"\n end", "def scope\n raise NotInitializedError.new('@uri') unless uri\n \"http://#{uri}/feeds\"\n end", "def url\n uri.to_s\n end", "def url\n @url\n end", "def url\n @url\n end", "def url\n uri.to_s\n end", "def initialize(feed_url: DEFAULT_FEED_URL)\n @feed_url = feed_url\n end", "def find_feed\n @feed = @node.content\n end", "def term_url\n Config.config_value(term_config, :url)\n end", "def _url\n return @link['href'] unless _templated?\n\n @url ||= _uri_template.expand(@uri_variables || {}).to_s\n end", "def feed_urls\n nil\n end", "def feed_url=(url)\n self.feed_updated_at = nil unless url == feed_url \n super(url)\n end", "def url\n self.class.url\n end", "def url\n @url ||= URL.new(\n :template => url_template,\n :placeholders => url_placeholders,\n :permalink => permalink\n ).to_s\n end", "def comment_url\n BLOG.email.to_url(name, File.join(BLOG.url, url))\n end", "def human_url\n return self.alternate_link\n end", "def base_url\n ENV.fetch(\"FREEFEED_BASE_URL\")\n end", "def url\n \"#{Rails.configuration.baseurl}#{tag_path(self)}\"\n end", "def link\n @link ||= uri.to_s\n end", "def rss_links \n\t\tdoc.xpath(\"//link[@type=\\\"application/rss+xml\\\"]\").map do |link|\n\t\t\tif link['href'] =~ /^http:\\/\\//\n\t\t\t\tlink['href']\n\t\t\telse\n\t\t\t\t\"#{@url}#{link['href']}\"\n\t\t\tend\n\t\tend\n\tend", "def get_blog_feed\n # fetching a single feed\n @feed = []# Feedzirra::Feed.fetch_and_parse(\"http://norastable.wordpress.com/feed/\")\n end", "def set_feed_rss_url\n begin\n @feed = current_user.backup_sources.blog.find(params[:id])\n @feed.rss_url = params[:value]\n if @feed.save\n current_user.completed_setup_step(1)\n render :text => @feed.send(:rss_url).to_s\n else\n render :text => @feed.errors.full_messages\n end\n rescue Exception => e\n render :text => e.to_s\n end\n end", "def feed\n\t\t\tpost = { \"token\" => @token }\n\t\t\tdocxml = nil\n\t\t\tdocxml = nessus_request('feed', post)\n\t\t\tif docxml.nil?\n\t\t\t\treturn\n\t\t\tend\n\t\t\tfeed = docxml.root.elements['contents'].elements['feed'].text\n\t\t\tversion = docxml.root.elements['contents'].elements['server_version'].text\n\t\t\tweb_version = docxml.root.elements['contents'].elements['web_server_version'].text\n\t\t\treturn feed, version, web_version\n\t\tend", "def rss_tag(relative_path = '/feed')\n content_tag :link, nil, rel: 'alternate', type: 'application/rss+xml', title: 'RSS', href: url(relative_path, absolute_path: true)\n end", "def url\n @url ||= URL.new(\n :template => template,\n :placeholders => url_placeholders,\n :permalink => permalink\n ).to_s\n end", "def url\n @manifest_options[:url] || \"\"\n end", "def url\n @url ||= args.dig(:url)\n end", "def url\n @url ||= \"https://#{@host}/#{druid_without_prefix}.xml\"\n end", "def hub_url(url=feed_url)\n feed = Nokogiri::XML(open(url))\n \n # xpath of //*[@rel='hub'] is used instead of //link[@rel='hub'] since \n # the link element may be under different XML namespaces, e.g.\n # <atom:link> or <rss:link> etc\n if (hub = feed.xpath(\"//*[@rel='hub']\")).present?\n hub.attribute(\"href\").text\n else\n nil\n end\n end", "def stream_feed\n @stream_feed ||= stream_feed_for\n end", "def url\n uri\n end", "def url\n uri\n end", "def local_rss\n \"file:///\" + Rails.root.join(\"data\",\"cl-rss\", base_url.split(\"//\").last + \".rss\").to_s\n end", "def url\n @url\n end", "def feed\n tag = params[:tag] || \"home\"\n return render_feed(params[:type].to_sym, tag)\n end", "def url() \n\t #'http://' << ENV['DOMAIN'] << \n\t '/' << self.author.username.to_s << '/' << self.name.to_s\n end", "def url\n @url ||= URL.new(\n template: template,\n placeholders: url_placeholders,\n permalink: permalink\n ).to_s\n end" ]

[ "0.8189752", "0.8045675", "0.80272216", "0.7354845", "0.73023635", "0.7296556", "0.69810784", "0.68862134", "0.682987", "0.6778568", "0.6778359", "0.6778359", "0.6641019", "0.662592", "0.6592789", "0.6582007", "0.65684175", "0.65267074", "0.65093833", "0.64482504", "0.64296335", "0.6363348", "0.6340578", "0.6281333", "0.6277657", "0.6231162", "0.622187", "0.6205329", "0.6178881", "0.6168381", "0.61299205", "0.60640365", "0.60640365", "0.60486007", "0.60103184", "0.599539", "0.5971288", "0.5936389", "0.59052825", "0.5883433", "0.5883433", "0.5883101", "0.58544505", "0.5821649", "0.58078736", "0.579651", "0.579651", "0.579651", "0.579651", "0.579651", "0.5790103", "0.5787947", "0.5758302", "0.57437223", "0.57437223", "0.5727228", "0.5719492", "0.5712171", "0.5704788", "0.5700309", "0.56983197", "0.56931096", "0.56788373", "0.5673626", "0.5657661", "0.56467915", "0.5645373", "0.5645373", "0.5639627", "0.56389165", "0.563708", "0.5630134", "0.5622891", "0.5621766", "0.5611018", "0.56083935", "0.5601753", "0.5550962", "0.5533743", "0.55091137", "0.5497356", "0.54937375", "0.54899657", "0.5485202", "0.5484512", "0.54785824", "0.54646164", "0.54492193", "0.5447508", "0.54437107", "0.54408926", "0.543847", "0.54376614", "0.543622", "0.543622", "0.54323137", "0.5430616", "0.54260296", "0.54006374", "0.54003906" ]

[ "def posts\n Post.filter(:tag_id => self.tag_id)\n end", "def related_posts(posts)\n related = []\n return related unless posts.size > 1\n\n posts.each do |post|\n if post.categories == self.categories && post != self && post.date < self.date\n related << post\n end\n end\n\n related\n end", "def relevant_posts\n\t\tfollowed_posts = Post.followed(@user)\n\t\ttagged_posts = Post.tagged_by_user(@user)\n\t\tfollowed_posts | tagged_posts\n\tend", "def related_posts\n if @_related_posts.nil?\n @_related_posts = []\n \n if @headers[:related] && @headers[:related] == 'none'\n return @_related_posts\n \n elsif @headers[:related] && @headers[:related].is_a?(Array)\n @_related_posts = @headers[:related].map{ |slug| Post.find(slug) }\n \n else\n @_related_posts = Post.find_tagged_with(tags.first).delete_if{ |post| post.slug == self.slug }[0...5]\n \n end\n end\n\n @_related_posts\n end", "def all_related_tags\n (all_posts + all_archived_posts).reject do |post|\n (post.tags & current_post.tags).empty?\n end.map{ |post| post.tags }.flatten.uniq.sort\n end", "def related_tags_in(folder = :posts)\n (related_posts_in(folder) << current_post).map{ |post| post.tags }.flatten.uniq.sort\n end", "def related_posts\n return [] unless docs.count > 1\n\n highest_freq = tag_freq.values.max\n related_scores = Hash.new(0)\n\n docs.each do |doc|\n doc.data[\"tags\"].each do |tag|\n if self.data[\"tags\"].include?(tag) && doc != self\n cat_freq = tag_freq[tag]\n related_scores[doc] += (1 + highest_freq - cat_freq)\n end\n end\n end\n\n sort_related_posts(related_scores)\n end", "def related_posts_in(folder = :posts)\n posts = case folder\n when :posts\n all_posts\n when :archive\n all_archived_posts\n when :drafts\n all_drafted_posts\n else\n return nil\n end\n posts.reject do |post|\n (post.tags & current_post.tags).empty? || post == current_post\n end\n end", "def get_posts(initial_scope, tag, order, filter, running = true)\n if initial_scope.nil?\n posts = Post.all\n else\n posts = initial_scope\n end\n\n unless tag.blank?\n posts = posts.tagged_with(tag)\n end\n\n # apply scopes for ordering\n posts = posts.popular if order == \"popular\"\n posts = posts.newest if order == \"newest\"\n posts = posts.liked if order == \"liked\"\n\n # apply scopes for filtering\n posts = posts.last_week if filter == \"week\"\n posts = posts.last_month if filter == \"month\"\n\n # only return running videos\n if running\n #posts = posts.running\n end\n\n return posts\n end", "def show\n @posts = Post.find(params[:id])\n @related_posts = Post.tagged_with(@posts.tag_list, any: true).limit(6)\n render layout: \"else\"\n end", "def find_related_posts\n @related_posts = @post.find_related_tags.limit(amount_of_related_posts_to_display)\n amount_of_related_posts = @related_posts.length\n\n if amount_of_related_posts != amount_of_related_posts_to_display && (amount_of_related_posts + @popular_posts.length) >= amount_of_related_posts_to_display\n @related_posts = @related_posts.to_a.concat(@popular_posts[0...amount_of_related_posts_to_display - amount_of_related_posts])\n end\n end", "def getPosts()\n\t\tself.post\n\tend", "def get_blog_posts\n return @items.select { |item| item.identifier.index('/blog/') == 0 && item[:published] }.reverse\nend", "def get_all_posts()\n return Post.where(:parent_id => nil )\n end", "def index\n if params[:tag]\n @posts = Post.most_recent.published.paginate(:page => params[:page], per_page: 6).tagged_with(params[:tag])\n else\n @posts = Post.most_recent.published.paginate(:page => params[:page], per_page: 6)\n end\n end", "def related_products\n return [] if self.tags.empty?\n products = Product.visible.tagged_with(self.tags.map{|tag| tag.to_s}, :any => true)\n products - [self]\n end", "def get_posts_for_year_and_tags\n posts = get_posts_for_year\n posts = get_posts_for_tags posts\n posts\n end", "def posts \n Post.all.select {|post| post.author == self}\n end", "def friends_and_own_posts\n myfriends = friends\n our_posts = []\n myfriends.each do |f|\n f.posts.each do |p|\n our_posts << p\n end\n end\n posts.each do |p|\n our_posts << p\n end\n our_posts\n end", "def find_tags\n @tags = BlogPost.tag_counts_on(:tags)\n end", "def find_published(*args)\r\n published.find(*args)\r\n end", "def index\n @posts = Post.eager_loading.last_published\n end", "def related_posts\n @related_posts ||= Jekyll::RelatedPosts.new(self).build\n end", "def posts\n @posts ||= retrieve_posts\n end", "def get_posts\n if logged_in? && current_user.has_role?('administrator')\n @blog.posts.find(:all, {:limit => 10, :order => \"updated_at DESC\"})\n else\n @blog.enabled_posts_shortlist\n end\n end", "def show\n\t @tags = @posts.tags\n end", "def related_posts; end", "def get_posts(person)\n person.out_e(:POSTED).in_v(type: 'post')\nend", "def resource_posts\n if forum?\n @topic.posts\n elsif blog?\n @blog.posts.paginate(:page => params[:page])\n end \n end", "def search_by_tags\n tag_ids = params[:term].present? ? Tag.search(params[:term]).select(:id) : []\n posts = PostsQuery.new.by_tags(tag_ids)\n related_posts = PostsQuery.new(posts).related_posts\n posts = posts.merge(related_posts.distinct)\n posts = posts.where.not(id: User.unscoped.find(@user_id).blocking_posts) if @user_id.present?\n posts = posts.paginate(pagination_params)\n render json: posts, user_id: @user_id, meta: pagination_dict(posts)\n end", "def filter_posts_by_ids(post_ids)\n @posts = super(post_ids)\n if SiteSetting.private_replies_enabled && @topic.custom_fields.keys.include?('private_replies') && @topic.custom_fields['private_replies']\n if !@user\n @posts = @posts.where('posts.post_number = 1')\n end\n if @topic.user.id != @user.id && !@user.admin? # Topic starter and admin can see it all\n replied_users = Post.where('topic_id = ? AND deleted_at IS NULL' ,@topic.id).pluck(:user_id)\n if not (replied_users.include?(@user.id))\n @posts = @posts.where('posts.post_number = 1')\n end\n end\n end\n @posts\n end", "def unpublished_posts\n @blog_posts = BlogPost.where(:deleted => '0').where(:publish => \"0\").order('created_at DESC')\n end", "def show\n if params[:tag]\n @posts = @post.tagged_with(params[:tag])\n @tags = related_tags(@posts)\n @tagsHash = related_tags_hash(@posts)\n @relatedPostsCalendar = post_calendar(@posts)\n \n # @posts = Post.tagged_with_paginate(params[:tag], params[:page])\n else\n @posts = [@post]\n @tags = related_tags(@posts)\n @tagsHash = related_tags_hash(@posts)\n @relatedPostsCalendar = post_calendar(@posts)\n end\n @postsCalendar = post_calendar(Post.all)\n end", "def first_published_post\n posts.each do | post|\n if post.status == \"Published\"\n return post\n end\n end \n return nil \n end", "def posts\n return @posts\n end", "def posts\n return @posts\n end", "def index\n if params[:tag]\n @posts = Post.tagged_with(params[:tag])\n else\n @posts = Post.order(\"created_at desc\")\n end\n @posts = @posts.page params[:page]\n\nend", "def all_posts\r\n\t\t#eager load author to avoid N+1 query\r\n\t\tmy_posts = extract_post_info( posts.includes(:author) )\r\n\t\tleft_posts = extract_post_info( left_friends_posts.includes(:author) )\r\n\t\tright_posts = extract_post_info( right_friends_posts.includes(:author) )\r\n\r\n\t\tresult = my_posts + left_posts + right_posts\r\n\t\t#sort by udpated_at, so the most recent post is at top\r\n\t\tresult.sort_by {|post| post[:post].updated_at }.reverse[0..9]\r\n\tend", "def apply_tag_filter\n return if params[:tag].blank?\n params[:tag].tap do |tag|\n @posts = @posts.tagged_with tag\n add_breadcrumb \"by tag \\\"#{tag}\\\"\"\n end\n end", "def posts\n\t\tif params[:query] && params[:query].empty?\n\t\t\t@search_results = Post.where(guest: false).includes(:taggings).page(params[:page])\n\t\telse\n\t\t\t@search_results = Post.where(guest: false)\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t.includes(:taggings)\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t.search_by_tags(params[:query]).page(params[:page])\n\t\tend\n\t\t\n\t\trender 'single_search'\n\tend", "def index\n options = {:page => params[:page] || 1, :per_page => 2}\n @posts = (params[:tag].blank? ? Post.published.search(params[:search], options) : Post.published.paginate_tagged_with(params[:tag], options))\n respond_to do |format|\n format.html{}\n format.xml{ render :xml => @posts }\n end\n end", "def posts\n return [] unless valid?\n\n @posts ||=\n Course::Discussion::Post.forum_posts.from_course(@course).\n includes(topic: { actable: :forum }).\n calculated(:upvotes, :downvotes).\n where(created_at: start_time..end_time).\n where(creator_id: @user)\n end", "def related_topics\n Topic.where(:language => language).tagged_with(tags.map(&:name), :any => true).reject { |t| t == self }\n end", "def retrieve_posts\n query = \"SELECT * FROM `wp_posts` WHERE `post_type` = 'post' AND post_status = 'publish'\"\n db[query]\n end", "def posts\n Post.all.select {|post| post.author == self}\nend", "def visible_posts_for(user, args = {})\n search_conditions = {\n where: {\n friends_only: false,\n user_id: self.id\n },\n page: args[:page],\n per_page: 20,\n include: [:user, :attachments, comments: [:attachments]],\n order: {created_at: :desc}\n }\n user = User.find(user) if user.is_a?(String) or user.is_a?(Fixnum)\n if args[:latest_post_id]\n search_conditions[:where].merge!({ record_id: {gt: args[:latest_post_id] }})\n end\n if (user and self.friends_with?(user)) or user == self\n search_conditions[:where].delete(:friends_only)\n end\n Post.search(search_conditions).results\n end", "def find_by_publish\n user = User.current_user\n filtered_records = []\n user_groups = []\n tag = ActsAsTaggableOn::Tag.find_by_name('publish')\n\n # Always allow find access to owned location\n if user\n filtered_records << user.location\n end\n\n if tag\n # No need to bother without any publication tags\n location_hashes = []\n \n # Omni is the default group even for non-logged in users\n user_groups << Group.find_by_name('_omni')\n \n if user\n Group.all.each do |group|\n user_groups << group if group.members.include?(user)\n end\n end\n \n # Retrieve all locations where user's group(s) have publication access\n user_groups.each do |user_group|\n sql = \"SELECT DISTINCT id AS location_id FROM locations WHERE id IN (SELECT taggable_id FROM taggings WHERE taggable_type='Location' AND tag_id=#{tag.id} AND context='access' AND tagger_type='Group' AND tagger_id=#{user_group.id})\"\n location_hashes += ActiveRecord::Base.connection.execute(sql)\n end\n \n if user\n # Retrieve all locations where user has publication access\n sql = \"SELECT DISTINCT id AS location_id FROM locations WHERE id IN (SELECT taggable_id FROM taggings WHERE taggable_type='Location' AND tag_id=#{tag.id} AND context='access' AND tagger_type='User' AND tagger_id=#{user.id})\"\n location_hashes += ActiveRecord::Base.connection.execute(sql)\n end\n \n # No need to retrieve location object more than once\n location_hashes.uniq_by! {|hash| hash['location_id'] }\n\n locations = []\n location_hashes.each do |hash|\n locations << hash['location_id']\n end\n\n # Possibly paranoid guard against publication locations not being readable\n all.each do |location|\n filtered_records << location if locations.include?(location.id)\n end\n\n end # No need to bother without any publication tags\n filtered_records\n end", "def index\n\n if params[:tag]\n @posts = Post.tagged_with(params[:tag])\nelsif params[:category]\n @category_id = Category.find_by(name: params[:category]).id\n @posts = Post.where(category_id: @category_id).order(\"created_at DESC\")\nelsif params[:subcategory]\n @subcategory_id = Subcategory.find_by(name: params[:subcategory]).id\n @posts = Post.where(subcategory_id: @subcategory_id).order(\"created_at DESC\")\nelse\n @posts = Post.all.order(\"created_at DESC\")\nend\n\n\n @posts = @posts.page params[:page]\nend", "def get_tags\n\ttags = Set.new\n\t@site.articles.each do |post|\n\t\tif(post[:tags].nil?) \n\t\t\tpost[:tags] = Array.new\n\t\t\tpost[:tags] << \"(none)\"\n\t\t\ttags << \"(none)\"\n\t\telse\n\t\t\tpost[:tags].each do |tag|\n\t\t\t\ttags << tag\n\t\t\tend\n\t\tend\n\tend\n\ttags.to_a\nend", "def published( options = {} )\n all( default_options.merge( :conditions => ['blogs.published_at IS NOT NULL'] ).merge( options ) )\n end", "def children_of(post)\n posts.find_all { |t| t.parent_post == post.id }\n end", "def retrieve_posts\n # Get posts\n rss = RSS::Parser.parse(AWL_RSS_URL)\n\n # Grab shortened URLs\n links = rss.items.map(&:guid).map(&:content)\n\n @articles = []\n\n links.each do |link|\n @articles << Article.new(link)\n end\n\n # TODO: Only grab the tags for articles that haven't already be tweeted\n @articles.map(&:retrieve_tags)\n end", "def index\n @posts = if params[:tag]\n Post.tagged_with(params[:tag])\n else\n Post.scoped\n end\n @posts = @posts.where(:published => true).order(\"created_at DESC\")\n @posts = @posts.paginate(:page => params[:page], :per_page => 4) unless params[:count] == \"all\"\n\n respond_to do |format|\n format.html # index.html.erb\n format.rss { render :layout => false }\n format.xml { render :xml => @posts }\n end\n end", "def get_related\n tag = params['query']\n\n\n @articles = getRelatedPapers(tag, -1)\n @found = 1\n if @articles.nil?\n @msg = \"None found, try again...\"\n @found = 0\n @articles = []\n end\n\n render \"articles\"\n end", "def get_tag_tree_posts(tag_tree, tags)\n tag_walk = generate_tag_walk(tags)\n if tag_walk.nil?\n return nil\n end\n\n posts = Array.new\n\n # Typical breadth-first search using the\n # existence of a branch in the tag_walk to\n # determine whether a node is traversed.\n\n queue = [tag_tree]\n\n # Consulted with @thatwasawesome for this efficient algorithm.\n while queue.length > 0\n node = queue.shift\n\n # We return every touched node's post, if\n # it has one.\n if node.has_key?(TAG_TREE_POST_KEY)\n posts.push(node[TAG_TREE_POST_KEY])\n end\n\n tag_walk.each do |tag|\n if node.has_key?(tag)\n queue.push(node[tag])\n end\n end\n\n end\n\n return posts\n end", "def index \n if params[:tag]\n @posts = Post.tagged_with(params[:tag])\n else\n @posts = Post.all.paginate(page: params[:page], per_page: 20)\n end\n end", "def show \n @tag = Tag.find params[:id]\n @posts = Post.search_by_tag_id(params[:id], params[:page])\n end", "def posts\n Post.all_for_event(self.id)\n end", "def all\n post_owners = [current_user.id] + Friendship.where(:user2_id => current_user, :approved => true).pluck(:user1_id)\n @posts = Post.where('owner_id' => post_owners).order(created_at: :desc).page(params[:page]).per_page(POSTS_PER_PAGE)\n end", "def get_posts posts\n # Get the 6 latest -- TODO this should be configurable\n limit = 6\n # Our page number\n page = (params[:page].to_i - 1) || 1\n # Our query if there is one set\n @query = params[:query] || ''\n # Get the latest posts by go_live\n posts = posts.order('go_live DESC')\n # Make sure we are only getting those that are published\n posts = posts.where( :state => :published )\n # Make sure we are talking about posts or messages\n t = Post.arel_table\n posts = posts.where( t[:object_type].matches(:post).or(t[:object_type].matches(:message)))\n # Make sure they don't have a password.. those are \"private\"\n posts = posts.where( :password => nil )\n # If a query is set, use it\n posts = posts.where([\"content like ?\", '%'+@query+'%'] ) if @query.present?\n # Get our filtered post count for pagination\n filtered_post_count = posts.count\n # Limit the number of posts to show\n posts = posts.limit(limit)\n # Set the offset if we aren't on the first page.\n posts = posts.offset(limit.to_i * page.to_i) if page > 0\n # Need this to show a previous/next button\n @pagination_number_of_pages = (filtered_post_count / limit) +1\n @pagination_current_page = (page.to_i + 1) > 0 ? (page.to_i + 1) : 1\n\n posts\n end", "def get_user_posts\n Post.joins(:user).where(users: {id: self.id})\n end", "def find_all_tagged_with(*args)\n find_tagged_with(*args)\n end", "def related_posts(posts)\n return [] unless posts.size > 1\n highest_freq = category_freq(posts).values.max\n related_scores = Hash.new(0)\n posts.each do |post|\n post.categories.each do |category|\n if self.categories.include?(category) && post != self\n cat_freq = category_freq(posts)[category]\n related_scores[post] += (1+highest_freq-cat_freq)\n end\n end\n end\n\n sort_related_posts(related_scores)\n end", "def collect_blog_posts\n\t\treturn @all_blog_posts\n\tend", "def posts\n Event.source(self).posts.order(created_at: :desc)\n end", "def tagwise(tag_css_class, post_css_class)\n html = \" \"\n Rails.cache.fetch(\"posts_by_tags\") do\n Post.where.not(tag: nil).pluck(:tag).uniq.each do |tag|\n html += %Q[<p class=\"#{tag_css_class}\">#{tag}</p>]\n Post.where(tag: tag).each do |post|\n html+= %Q[\n <div class=\"#{post_css_class}\">\n <ul>\n <li><a href=\"#{post_path(post)}\">#{post.title}</a></li>\n </ul>\n </div>\n ]\n end\n end\n html\n end\n end", "def find_unpublished(*args)\r\n unpublished.find(*args)\r\n end", "def index\n if params[:tag]\n @posts = Post.tagged_with(params[:tag])\n elsif params[:search]\n @posts = Post.search(params[:search])\n else\n @posts = Post.all.newest\n end\n end", "def posts\n posts = @client.entries(content_type: 'post').items\n posts || []\n end", "def related_posts_search_query\n \"source:#{canonical_url}\"\n end", "def get_posts(name)\n posts = []\n blog(name).articles.each do |post|\n posts.push(post)\n end\n return posts\n end", "def posts\n waterfall(@site.posts.docs,\n true\n )\n end", "def posts\n backend.wall_page(self).posts\n end", "def get_adjacent_post( in_same_term = false, excluded_terms = '', previous = true, taxonomy = 'category' )\n # TODO default_filter based on @post language\n if previous\n if Railspress.multi_language\n Railspress::Post.published.joins(:languages).where(default_filter).where('post_date < ?', @post.post_date).order(post_date: :desc).first\n else\n Railspress::Post.published.where('post_date < ?', @post.post_date).order(post_date: :desc).first\n end\n else\n if Railspress.multi_language\n Railspress::Post.published.joins(:languages).where(default_filter).where('post_date > ?', @post.post_date).order(post_date: :asc).first\n else\n Railspress::Post.published.where('post_date > ?', @post.post_date).order(post_date: :asc).first\n end\n end\n end", "def post\n array = []\n Post.post.each do |element|\n if element.user_id == self.user_id\n array << element\n end\n end\n array.each do |post|\n puts post.title\n end\n end", "def next_posts\n Post.\n eager(:tumblr).\n eager(:tags).\n where('skip is not ?', true).\n where(:posted => false).\n where('tumblr_id not in (?)', skippable_tumblr_ids).\n order(:score.desc, :fetched.desc)\n end", "def articles_tagged(tag, options = {})\n tag = Tag.first(:name => tag)\n return 0 unless tag\n t = self.taggings.paginate(options.merge(:tag_id => tag.id))\n collection = t.collect{|tagging| tagging.article}\n collection = collection.delete_if{|a| !a.published?}\n \n collection.instance_variable_set(:@pages, t.pages)\n collection.instance_variable_set(:@current_page, t.current_page)\n def collection.pages; @pages; end\n def collection.current_page; @current_page; end\n \n collection\n end", "def posts( params={} )\n posts = get_connections(\"posts\", params)\n return map_connections posts, :to => Facebook::Graph::Post\n end", "def posts( params={} )\n posts = get_connections(\"posts\", params)\n return map_connections posts, :to => Facebook::Graph::Post\n end", "def posts_through_search hashtag, since\n warn \"DEPRECATION WARNING: Facebook has deprecated searching for posts. It is no \" +\n \"longer available for new applications and will cease to work for existing \" +\n \"applications in April 2015.\"\n\n posts = FbGraph::Post.search(hashtag.tag_name_with_hash, since: since.to_i, return_ssl_resources: 1, access_token: config.access_token)\n\n # Facebook search is fairly unpredictable, so ensure the query is actually mentioned\n posts.select { |post| matches? post, hashtag.tag_name }\n end", "def parent_posts\n posts.find_all { |p| p.parent_post.nil? }\n end", "def Popular\n votes = Vote.where(:positive => true)\n publish = votes.joins(Post)\n users = publish.where(:users => self.id).group_by(:posts).order('COUNT(posts.id) DESC').limit(1)\n users[0].posts\n end", "def my_posts\n Post.where(user_id: self.id)\n end", "def get(options = EMPTY_HASH)\n parameters = Specification.new(\n tag: Types::Tags,\n dt: Types::Time,\n url: Types::URL,\n meta: Types::Boolean\n ).parameters(options)\n posts_from client.get(\"/posts/get\", parameters)\n end", "def find_all_tagged_objs\n Tagging.where(tagger: self).map{|tagging| tagging.tagged_obj}.uniq\n end", "def post_content_all(selected_user)\n #load trusts that are associated with interests containing the same beads combination as the current interest\n loaded_trustors = trustors(selected_user)\n \n public_posts = self.posts.find(:all,\n :conditions => [\"posts.p_private = ?\", 0],\n :order => 'posts.updated_at DESC')\n if loaded_trustors.present?\n private_posts = self.posts.find(:all,\n :conditions => [\"posts.p_private = ? AND posts.user_id IN (?)\", 1, loaded_trustors],\n :order => 'posts.updated_at DESC')\n else private_posts = []\n end\n \n return private_posts + public_posts\n end", "def friends_posts\r\n\t\tPost.where(user_id: [Friendship.where(user_id: id).map{|f| f.friend_id}])\r\n\tend", "def index\n @posts = Post.includes(:tags).all.page(params[:page]).per(PER).order(id:\"DESC\")\n end", "def get_posts_for_user filter, page, per_page, user_id, status, open\n if filter == \"open\"\n @posts = Post.paginate(page: page, :per_page => per_page, :conditions => ['user_id = ? AND status = ? AND open = ?', user_id, status, open])\n elsif filter == \"watched\"\n @posts = []\n Watchedpost.find_each(:conditions => ['user_id = ?', user_id], :select => 'post_id') do |watched_post|\n @posts << Post.first(:conditions => ['id = ?', watched_post.post_id])\n end\n @posts = @posts.paginate(:page => params[:page], :per_page => 20)\n elsif filter == \"archived\"\n @posts = Post.paginate(page: params[:page], :per_page => 20, :conditions => ['user_id = ? AND status = ? AND open = ?', user_id, STATUS_ACTIVE, false]) \n else\n\n end\n end", "def get_posts\n posts = Post.order(\"post_date DESC\").where('post_date <= ?', Time.now)\n posts = posts.limit(count_limit) unless count_limit.blank?\n posts = posts.where(\"posts.post_date >= ?\", Time.now - past_days_limit.days) unless past_days_limit.blank?\n posts = posts.where(\"posts.blog_id IN (?)\", [blog.id] + blog_ids )\n end", "def get_all_entries\n @feed_entries = FeedEntry.find(:all, :conditions => { :person_id => self.id}, :order => 'published_at DESC')\n end", "def items_with_tag(tag, items=nil)\n items = sorted_articles if items.nil?\n items.select { |item| has_tag?( item, tag ) }\n end", "def get_user_posts_by_following\n self.following.collect do |followed|\n followed.get_user_posts\n end\n end", "def get_posts(graph, facebook_id)\n graph.get_connections(facebook_id, \"feed\", { limit: 10 })\n end", "def posts_by_author(author_name, posts = nil)\n posts ||= published_weblog\n posts.select { |post| post._unwrap.attributes[:author_name] == author_name }\n end", "def current_posts\n if view_status != 3\n posts\n else\n posts.not_termins\n end\n end", "def index\n return @posts = Post.published.paginate(:page => params[:page]).order('id DESC') unless current_user\n @posts = Post.all.paginate(:page => params[:page]).order('id DESC')\n end", "def index\n @tags_posts = TagsPost.all\n end", "def the_posts_pagination( args = {} )\n get_the_posts_pagination( args )\n end", "def the_products\n the_posts('commerce')\n end" ]

[ "0.70107466", "0.65423054", "0.64985144", "0.62661654", "0.6187279", "0.6146282", "0.60891026", "0.60037285", "0.5998329", "0.59940445", "0.59483457", "0.5932731", "0.5927019", "0.5925813", "0.592269", "0.58151984", "0.5809469", "0.57857776", "0.57148397", "0.5699944", "0.56947184", "0.568857", "0.5677544", "0.56643087", "0.56220263", "0.5609749", "0.55985236", "0.55762297", "0.55467594", "0.5536742", "0.55317175", "0.55315596", "0.5523192", "0.5507096", "0.5500284", "0.5500284", "0.5493176", "0.54611325", "0.54409397", "0.54344296", "0.543358", "0.5427366", "0.54035604", "0.5397019", "0.53950495", "0.5394603", "0.53862655", "0.5384306", "0.5384042", "0.5358828", "0.53576964", "0.5353465", "0.53480697", "0.5341679", "0.5331026", "0.53205", "0.5319083", "0.53128636", "0.5303859", "0.53012186", "0.5292484", "0.52810925", "0.5270222", "0.5262933", "0.52608424", "0.52411705", "0.5240983", "0.52372545", "0.5232613", "0.52224016", "0.52215725", "0.52183783", "0.52178836", "0.5217175", "0.52144027", "0.5213734", "0.5211299", "0.52104", "0.52104", "0.52090645", "0.520615", "0.520391", "0.5189087", "0.51842624", "0.5180572", "0.5174656", "0.51736915", "0.5153467", "0.5151572", "0.51510495", "0.51502025", "0.51462865", "0.5142625", "0.5141634", "0.5140776", "0.51367676", "0.51360524", "0.5134501", "0.51332176", "0.5132857" ]

[ "def unpublished_posts\n @blog_posts = BlogPost.where(:deleted => '0').where(:publish => \"0\").order('created_at DESC')\n end", "def uncategorized\n @posts = Refinery::Blog::Post.uncategorized.page(params[:page])\n end", "def get_unpublished_count\n @unpublished_posts = Post.where(:published => false).size\n end", "def unpublished\n respond_with(published_query(false) + Page.where(:published_on.exists => false).all)\n end", "def posts\n Post.filter(:tag_id => self.tag_id)\n end", "def find_unpublished(*args)\r\n unpublished.find(*args)\r\n end", "def get_unpublished_books\n @grid_title = \"Not Published\"\n\n # get task 'Production Complete' which is a published book\n published_task = Task.find_by_name(\"Production Complete\")\n workflow_task = published_task.workflow.root\n\n # get all tasks in the workflow that occur before production compelete.\n not_published_tasks = []\n while next_task = workflow_task.next_task\n\n # we don't want to include published_task\n break if next_task.id == published_task.id\n\n not_published_tasks.push next_task.name\n workflow_task = next_task\n end\n @projects = ProjectGridTableRow.includes(project: [:cover_template])\n .where(\"production_task_name in (?)\", not_published_tasks)\n .not_archived\n end", "def unpublished\n @submissions = @profile.submissions.unpublished.ungrouped.order(created_at: :desc)\n @submission = Submission.new\n respond_to do |format|\n format.html { render }\n format.json { render '/submissions/index' }\n end\n end", "def unpublished\n @pages = Page.unpublished\n respond_with(@pages)\n end", "def unpublished; end", "def posts\n @posts ||= retrieve_posts\n end", "def unpublish\n status_id = STATUSES.index('draft')\n published_at = nil\n end", "def get_all_posts()\n return Post.where(:parent_id => nil )\n end", "def unpublished\n @pages = Page.unpublished\n\n respond_to do |format|\n format.json {render json: @pages}\n format.xml {render xml: @pages}\n end\n end", "def current_posts\n if view_status != 3\n posts\n else\n posts.not_termins\n end\n end", "def index\n @posts = Post.eager_loading.last_published\n end", "def unpublished?\n (status == UNPUBLISHED)\n end", "def unpublished?\n (status == UNPUBLISHED)\n end", "def unpublished?\n (status == UNPUBLISHED)\n end", "def unpublished?\n (status == UNPUBLISHED)\n end", "def unpublished?\n (status == UNPUBLISHED)\n end", "def index\n @admin_posts = Post.where(\"type <> 'VideoPost'\")\n end", "def find_unpublished_jobs(params:)\n response = HTTParty.get(\"#{@host}/api/jobs/unpublished_jobs\", query: params)\n \n return response['jobs']\n end", "def scoped_collection\n Article.unscoped.podcasts\n end", "def posts\n return [] unless valid?\n\n @posts ||=\n Course::Discussion::Post.forum_posts.from_course(@course).\n includes(topic: { actable: :forum }).\n calculated(:upvotes, :downvotes).\n where(created_at: start_time..end_time).\n where(creator_id: @user)\n end", "def getPosts()\n\t\tself.post\n\tend", "def posts\n return @posts\n end", "def posts\n return @posts\n end", "def unpublish\n self.published = false\n end", "def unpublished!\n self.update_attribute(:status, UNPUBLISHED)\n end", "def posts\n Post.all(self).sort_by { |entry| entry.created }.reverse\n end", "def posts\n posts = @client.entries(content_type: 'post').items\n posts || []\n end", "def unpublish!\n self.update_attributes(status: UNPUBLISHED, featured: false)\n end", "def unpublish!\n self.update_attributes(status: UNPUBLISHED, featured: false)\n end", "def unpublish!\n self.update_attributes(status: UNPUBLISHED, featured: false)\n end", "def get_posts(initial_scope, tag, order, filter, running = true)\n if initial_scope.nil?\n posts = Post.all\n else\n posts = initial_scope\n end\n\n unless tag.blank?\n posts = posts.tagged_with(tag)\n end\n\n # apply scopes for ordering\n posts = posts.popular if order == \"popular\"\n posts = posts.newest if order == \"newest\"\n posts = posts.liked if order == \"liked\"\n\n # apply scopes for filtering\n posts = posts.last_week if filter == \"week\"\n posts = posts.last_month if filter == \"month\"\n\n # only return running videos\n if running\n #posts = posts.running\n end\n\n return posts\n end", "def posts\n self.object.posts.sort_by{|post| post.id}.reverse\n end", "def all_related_tags\n (all_posts + all_archived_posts).reject do |post|\n (post.tags & current_post.tags).empty?\n end.map{ |post| post.tags }.flatten.uniq.sort\n end", "def posts\n backend.wall_page(self).posts\n end", "def get_posts\n if logged_in? && current_user.has_role?('administrator')\n @blog.posts.find(:all, {:limit => 10, :order => \"updated_at DESC\"})\n else\n @blog.enabled_posts_shortlist\n end\n end", "def unpublished?\n self.status == \"Unpublished\"\n end", "def posts(options={})\n tags = self.self_and_descendants\n post_ids = Tagging.filter([[:tag_id, tags.collect(&:id)]]).select(:post_id).collect(&:post_id).uniq\n query = Post.filter([[:id, post_ids]]).filter(:is_draft => false).reverse_order(:created_at)\n if options[:non_sticky] && sticky = self.sticky_post\n query = query.filter(\"posts.id <> ?\", sticky.id)\n end \n if options[:page] \n query = query.paginate(options[:page], options[:per_page] || 10)\n end\n query\n end", "def post_content_all_without_memories(selected_user)\n loaded_trustors = trustors(selected_user)\n public_posts = self.posts.find(:all,\n #:include => :memorizations,\n :conditions => [\"NOT EXISTS (SELECT * FROM memorizations WHERE memorizations.user_id = ? AND memorizations.post_id = posts.id) AND posts.p_private = ?\",selected_user.id,0],\n :order => 'posts.created_at DESC')\n if loaded_trustors.present?\n private_posts = self.posts.find(:all,\n #:include => :memorizations,\n :conditions => [\"NOT EXISTS (SELECT * FROM memorizations WHERE memorizations.user_id = ? AND memorizations.post_id = posts.id) AND posts.p_private = ? AND posts.user_id IN (?)\",selected_user.id,1, loaded_trustors],\n :order => 'posts.created_at DESC')\n else private_posts = []\n end\n return private_posts + public_posts\n end", "def index\n if params[:tag]\n @posts = Post.most_recent.published.paginate(:page => params[:page], per_page: 6).tagged_with(params[:tag])\n else\n @posts = Post.most_recent.published.paginate(:page => params[:page], per_page: 6)\n end\n end", "def show\n @categories = CMS::BlogCategory.order(name: :asc)\n @unpublished_blogs = CMS::BlogPage.where(author: current_person).unpublished if user_signed_in?\n end", "def remove_posts usr\n ConversationProcessor.new(self).remove_posts usr\n end", "def index\n @posts = Post.published.order('published_at DESC')\n end", "def unapply_on_publishing\n @apply_on_publishing = false\n return self\n end", "def unpublish\n self.status = \"Unpublished\"\n end", "def posts\n Posts.new(self)\n end", "def get_blog_posts\n return @items.select { |item| item.identifier.index('/blog/') == 0 && item[:published] }.reverse\nend", "def index\n return @posts = Post.published.paginate(:page => params[:page]).order('id DESC') unless current_user\n @posts = Post.all.paginate(:page => params[:page]).order('id DESC')\n end", "def unpublish!\n self.update_attribute(:status, \"Unpublished\")\n end", "def retrieve_posts\n query = \"SELECT * FROM `wp_posts` WHERE `post_type` = 'post' AND post_status = 'publish'\"\n db[query]\n end", "def unpublish\r\n return unless published?\r\n self.unpublish_at = 1.minute.ago\r\n end", "def recent_posts\n posts.reverse[0,25]\n end", "def get_rss\n all( :conditions => ['published_at IS NOT NULL'], :order => 'published_at DESC', :limit => per_page )\n end", "def index\n @blogs = CMS::BlogPage.featured.order(created_at: :desc)\n @categories = CMS::BlogCategory.order(name: :asc)\n @unpublished_blogs = CMS::BlogPage.where(author: current_person).unpublished if user_signed_in?\n end", "def filter_posts_by_ids(post_ids)\n @posts = super(post_ids)\n if SiteSetting.private_replies_enabled && @topic.custom_fields.keys.include?('private_replies') && @topic.custom_fields['private_replies']\n if !@user\n @posts = @posts.where('posts.post_number = 1')\n end\n if @topic.user.id != @user.id && !@user.admin? # Topic starter and admin can see it all\n replied_users = Post.where('topic_id = ? AND deleted_at IS NULL' ,@topic.id).pluck(:user_id)\n if not (replied_users.include?(@user.id))\n @posts = @posts.where('posts.post_number = 1')\n end\n end\n end\n @posts\n end", "def show\n @post = @community.posts.new\n @posts = @community.posts.order('created_at DESC').not_reported\n end", "def hidden\n @posts = Post.hidden.order(face_date: :desc).page(params[:page]).per(20)\n end", "def unpublish!\n self.update_attribute(:status, UNPUBLISHED)\n end", "def related_posts_in(folder = :posts)\n posts = case folder\n when :posts\n all_posts\n when :archive\n all_archived_posts\n when :drafts\n all_drafted_posts\n else\n return nil\n end\n posts.reject do |post|\n (post.tags & current_post.tags).empty? || post == current_post\n end\n end", "def unread_unsent_notifications\n @unread_unsent_notifications ||= notification.class.for_target(notification.target)\n .joins(:deliveries)\n .where.not(id: notification.id)\n .where('notify_user_notifications.read_at IS NULL AND notify_user_deliveries.sent_at IS NULL')\n end", "def get_raw_posts\n if @settings[:feed_url].present?\n return Feedzirra::Feed.fetch_and_parse(@settings[:feed_url]).entries\n end\n nil\n end", "def related_posts\n if @_related_posts.nil?\n @_related_posts = []\n \n if @headers[:related] && @headers[:related] == 'none'\n return @_related_posts\n \n elsif @headers[:related] && @headers[:related].is_a?(Array)\n @_related_posts = @headers[:related].map{ |slug| Post.find(slug) }\n \n else\n @_related_posts = Post.find_tagged_with(tags.first).delete_if{ |post| post.slug == self.slug }[0...5]\n \n end\n end\n\n @_related_posts\n end", "def collect_blog_posts\n\t\treturn @all_blog_posts\n\tend", "def unpublished=(_arg0); end", "def index\n @without_magazine = Post.without_magazine\n respond_to do |format|\n format.html # index.html.erb\n format.json { render json: @posts }\n end\n end", "def index\n @posts = Post.order(\"published_at DESC\").all\n end", "def published( options = {} )\n all( default_options.merge( :conditions => ['blogs.published_at IS NOT NULL'] ).merge( options ) )\n end", "def drafts\n blog.drafts.articles\n end", "def posts\n Event.source(self).posts.order(created_at: :desc)\n end", "def unseen\n messages = current_user.received_messages.where(seen: false)\n render json: messages\n end", "def index\n @tags_posts = TagsPost.all\n end", "def ultimos_posts()\n Post.all(:conditions => { :postable_id => self.id, :postable_type => 'Marca' }, \n :limit => POSTS_SIZE, :order => 'created_at DESC' )\n end", "def show\n\t @tags = @posts.tags\n end", "def untranslated\n find_all do |entry|\n entry.untranslated?\n end\n end", "def user_posts(user, tag = nil)\n was_subscribed = true\n ret = []\n\n # unless we already subscribed, subscribe to user\n unless subs.keys.include?(user)\n sub(user)\n was_subscribed = false\n end\n \n # grab list of user's posts\n inbox_dates.keys.each do |date|\n ret += inbox(date).find_all do |post| \n post['user'] == user && (tag == nil || post['tags'].include?(tag))\n end\n end\n\n # unsubscribe from user unless we were already subscribed\n unsub(user) unless was_subscribed\n\n # return list of user's posts\n ret\n end", "def published_templates\n\t\treturn templates.where(\"published = ?\", true)\n\tend", "def posts\n Post.all_for_event(self.id)\n end", "def my_posts\n Post.where(user_id: self.id)\n end", "def find_all_pending_publication\n find(:all, :conditions => [\"responses.status = ? AND responses.published_at < ?\", \n 'created', Time.now.utc - 30.days])\n end", "def get(options = EMPTY_HASH)\n parameters = Specification.new(\n tag: Types::Tags,\n dt: Types::Time,\n url: Types::URL,\n meta: Types::Boolean\n ).parameters(options)\n posts_from client.get(\"/posts/get\", parameters)\n end", "def unpublished?\n @is_unpublished ||= begin\n raise NotFetchedError unless fetched?\n !!(@data =~ /<h2>Cache is Unpublished<\\/h2>/)\n end\n end", "def index\n @posts = Post.where(dumpster: false)\n \n end", "def user_posts(user, tag = nil)\n was_subscribed = true\n ret = []\n\n # unless we already subscribed, subscribe to user\n unless subs.keys.include?(user)\n sub(user)\n was_subscribed = false\n end\n \n # grab list of user's posts\n inbox_dates.keys.each do |date|\n ret += inbox(date).find_all do |post| \n post['user'] == user && (tag == nil || post['tags'].include?(tag))\n end\n end\n\n # unsubscribe from user unless we were already subscribed\n unsub(user) unless was_subscribed\n\n # return list of user's posts\n ret\n end", "def blog\n @posts = Post.page(params[:page]).order('created_at DESC').where(:industry_category_id => nil)\n end", "def index\n @posts =\n (accessible_to_secret_zone? ? Post.all : Post.public_only)\n .order(updated_at: :desc)\n end", "def get_posts(name)\n posts = []\n blog(name).articles.each do |post|\n posts.push(post)\n end\n return posts\n end", "def all\n get(\"#{domain}/unsubscribes\")\n end", "def index\n @post_tags = PostTag.all\n end", "def posts\n Dir[\"#{posts_dir}/**\"].select {|e| e !~ /~$/ }\n end", "def non_archived_notes\n notes.select { |n| n.archived.blank? }.sort_by!(&:created_at)\n end", "def find_all_pending_publication\n find(:all, :conditions => [\"kases.status = ? AND kases.published_at < ?\", \n 'created', Time.now.utc - 30.days])\n end", "def get_posts_for_user\n @posts = policy_scope(Post)\n end", "def view_posts\n self.user.posts.map do |post|\n post.reload.content\n end\n end", "def not_sent\n @collection.reject(&:sent?)\n end", "def get_public_posts(user_id)\n return db.execute(\"SELECT * FROM post WHERE user_id = ? AND public = ?\",user_id, \"on\")\n end", "def index\n @posts = Post.where(user_id: current_user.id).order(created_at: 'desc')\n @otherposts = Post.where.not(user_id: current_user.id).order(created_at: 'desc')\n end" ]

[ "0.7790635", "0.6904209", "0.68857396", "0.6801351", "0.6366795", "0.62834615", "0.6262135", "0.6210821", "0.61708796", "0.6092508", "0.6090917", "0.608085", "0.5914339", "0.59019935", "0.58835316", "0.5829606", "0.58235514", "0.58235514", "0.58235514", "0.58235514", "0.58235514", "0.5809169", "0.57933885", "0.57674575", "0.57512647", "0.5715474", "0.57017875", "0.57017875", "0.5700789", "0.5694966", "0.5688446", "0.5646958", "0.5641698", "0.5641698", "0.5641698", "0.5617904", "0.5585566", "0.5575452", "0.55653584", "0.5556593", "0.55510896", "0.5541087", "0.55344933", "0.5534092", "0.55237275", "0.5518325", "0.5513359", "0.54949045", "0.549273", "0.5488097", "0.54856026", "0.5477256", "0.54675317", "0.54603875", "0.54525954", "0.54485106", "0.54363495", "0.5421724", "0.5405697", "0.53869003", "0.53826946", "0.53813475", "0.5379175", "0.5361946", "0.5357887", "0.53492737", "0.532993", "0.53044623", "0.52983123", "0.52981675", "0.52822775", "0.52797127", "0.5269648", "0.5260641", "0.525536", "0.5251847", "0.52401906", "0.5230726", "0.5230658", "0.5229338", "0.5223015", "0.5213641", "0.5211527", "0.5204097", "0.52029896", "0.51964444", "0.5186947", "0.51852316", "0.517467", "0.5166398", "0.5159559", "0.5148915", "0.51409596", "0.51361316", "0.5128825", "0.5126181", "0.51189977", "0.51186234", "0.51131195", "0.5111309" ]

[ "def url\n File.join(*tag_path)\n end", "def url\n \"#{Rails.configuration.baseurl}#{tag_path(self)}\"\n end", "def tag_url(tag)\n \"/tags/#{tag}/\"\n end", "def url\n @url.to_s\n end", "def url\n uri.to_s\n end", "def url\n end", "def url\n @url\n end", "def url\n @url\n end", "def url\n uri.to_s\n end", "def url\n @url\n end", "def url\n super\n end", "def url\n raise NotImplementedError, 'this should be overridden by subclass'\n end", "def url\n @attributes[:url]\n end", "def url\n @attributes[:url]\n end", "def url\n \"#{self.public_path}/#{self.slug}\"\n end", "def url_attribute\n @url\n end", "def url\n @attributes.fetch('url', nil)\n end", "def url\n \"http://#{self.domain}/#{self.path}\"\n end", "def url\n @url ||= URL.new(\n template: template,\n placeholders: url_placeholders,\n permalink: permalink\n ).to_s\n end", "def tags_url\n view_context.tags_url\n end", "def url\n self.class.url\n end", "def url\n ''\n end", "def url\n uri\n end", "def url\n uri\n end", "def url\n [ @parent.url, @name ].join('/')\n end", "def url\n \t@url.to_s\n end", "def url\n self.name\n end", "def url\n end", "def url\n connection.build_url(url_chunk, params).to_s\n end", "def section_tag_url(tag)\n \"/tags/#{tag}\"\n end", "def atom_url\n Config.site.url.chomp('/') + R(TagController, :atom, CGI.escape(name))\n end", "def url\n @gapi[\"selfLink\"]\n end", "def url\n @gapi[\"selfLink\"]\n end", "def url\n [ Configuration.url, @path ].join\n end", "def url\n sprintf(\"%s/%s\",\n ::Configuration.instance.handles[:base_url],\n self.handle)\n end", "def tag_path(tag)\n sitemap.find_resource_by_path(TagPages.link(self.blog.options, tag)).try(:url)\n end", "def to_s\n url\n end", "def url\n @url ||= URL.new(\n :template => template,\n :placeholders => url_placeholders,\n :permalink => permalink\n ).to_s\n end", "def href; end", "def to_s; @url; end", "def url\n @url ||= URL.new(\n :template => url_template,\n :placeholders => url_placeholders,\n :permalink => permalink\n ).to_s\n end", "def term_url\n Config.config_value(term_config, :url)\n end", "def url\n return nil if self['url'].blank?\n \n appending = case self['url']\n when /amazon.com/i then AFFILIATES[:amazon][:tag] ? \"tag=#{AFFILIATES[:amazon][:tag]}\" : nil\n else nil\n end\n \n [self['url'], appending].compact.join( self['url']['?'] ? '&' : '?' )\n end", "def url(path)\n path\n end", "def to_url\n\t\t\tto_uri.to_s\n\t\tend", "def url; end", "def url; end", "def url; end", "def url; end", "def url; end", "def url; end", "def url; end", "def url; end", "def url; end", "def url; end", "def url; end", "def url; end", "def url; end", "def url; end", "def url; end", "def url; end", "def url; end", "def url; end", "def url; end", "def url\n\t\tagencia_path(self)\n\tend", "def _url\n return @link['href'] unless _templated?\n\n @url ||= _uri_template.expand(@uri_variables || {}).to_s\n end", "def url(style = self.default)\n path = self.path(style)\n host = self.host\n host = self.aliases[path.hash % self.aliases.count] unless self.aliases.empty?\n return \"#{host}#{path}\"\n end", "def link() url; end", "def link() url; end", "def url\n ::File.join \"/\", path.to_s\n end", "def url\n @url ||= args.dig(:url)\n end", "def to_s\n url\n end", "def getURL\r\n\t\t\t\t\treturn @url\r\n\t\t\t\tend", "def getURL\r\n\t\t\t\t\treturn @url\r\n\t\t\t\tend", "def getURL\r\n\t\t\t\t\treturn @url\r\n\t\t\t\tend", "def getURL\r\n\t\t\t\t\treturn @url\r\n\t\t\t\tend", "def getURL\r\n\t\t\t\t\treturn @url\r\n\t\t\t\tend", "def url\n @doc.url\n end", "def url\n '/' + self.class.name.underscore.gsub('_node', '')\n end", "def url\n self[:url].blank? ? \"/\" : self[:url]\n end", "def url\n if @resource.element\n @resource.uri.sub /\\{.*\\}/, @testcase.id.to_s\n else\n @resource.uri\n end\n end", "def url\n @url.is_a?(Hash) ? url_for(@url.merge(:only_path => true)) : @url\n end", "def url\n @url ||= @collection.nil? ? self.relative_path : ::Jekyll::URL.new({\n template: @collection.url_template,\n placeholders: {\n collection: @collection.label,\n path: self.relative_path[\n @collection.relative_directory.size..self.relative_path.size],\n },\n }).to_s\n end", "def url\n\t\tagencia_paquete_path(self)\n\tend", "def url\n @hash[\"Url\"]\n end", "def url\n URI.parse(endpoint).join(path.to_s).to_s\n end", "def to_url\n self.class.to_url\n end", "def instance_url\n \"#{parsed_resource_url}/#{self.id}\"\n end", "def url\n @url ||= if single_post?\n single_post.url.gsub(/\\.html$/, \".#{@format}\")\n else\n URL.new({\n template: @config['bundle_permalink'],\n placeholders: url_placeholders,\n permalink: nil }).to_s\n end\n end", "def url() \n\t #'http://' << ENV['DOMAIN'] << \n\t '/' << self.author.username.to_s << '/' << self.name.to_s\n end", "def url\n if not (self.type == :link || self.type == :image)\n raise NodeError, \"can't get URL for non-link or image\"\n end\n CMark.node_get_url(@pointer)\n end", "def url\n item_path(object)\n end", "def permalink\n return \"#{uri}\"\n end", "def url\n return permalink if permalink\n\n @url ||= (ext == '.html') ? template.gsub(':name', basename) : \"/#{name}\"\n end", "def url(value)\n merge(url: value.to_s)\n end", "def url\n options[:url]\n end", "def url\n @parser.request_url\n end", "def url\n return @url if @url\n\n url = permalink ?\n if site.config['relative_permalinks']\n File.join(@dir, permalink)\n else\n permalink\n end :\n {\n 'lang' => self.lang,\n 'categories' => self.categories,\n 'basename' => self.basename,\n }.inject(template) { |result, token|\n result.gsub(/:#{token.first}/, token.last)\n }.gsub(/\\/\\//, '/')\n\n # sanitize url\n @url = url.split('/').reject { |part| part =~ /^\\.+$/ }.join('/')\n @url += '/' if url =~ /\\/$/\n @url.gsub!(/\\A([^\\/])/, '/\\1')\n @url\n end", "def human_url\n return self.alternate_link\n end", "def url\n u = read_attribute(:url)\n u !~ /\\Ahttp/i ? \"http://#{u}\" : u\n end" ]

[ "0.85160387", "0.79829544", "0.78193897", "0.7657365", "0.7513979", "0.7494812", "0.732616", "0.732616", "0.7267077", "0.7247402", "0.72277766", "0.7187304", "0.71772933", "0.71772933", "0.7171092", "0.716413", "0.7153856", "0.71492064", "0.7115767", "0.7096625", "0.70937216", "0.7091378", "0.7088132", "0.7088132", "0.70803857", "0.7056649", "0.70549923", "0.70235604", "0.7022156", "0.7002808", "0.7001719", "0.69786114", "0.69786114", "0.6936932", "0.69280624", "0.69222236", "0.69202363", "0.69199014", "0.6916476", "0.6896176", "0.688555", "0.6842183", "0.6833429", "0.6822622", "0.6820506", "0.6820211", "0.6820211", "0.6820211", "0.6820211", "0.6820211", "0.6820211", "0.6820211", "0.6820211", "0.6820211", "0.6820211", "0.6820211", "0.6820211", "0.6820211", "0.6820211", "0.6820211", "0.6820211", "0.6820211", "0.6820211", "0.6820211", "0.6813532", "0.6805087", "0.68040574", "0.68024904", "0.68024904", "0.67842156", "0.6779812", "0.6766725", "0.6764164", "0.6764164", "0.6764164", "0.6764164", "0.6764164", "0.6762302", "0.6757932", "0.67534614", "0.6739734", "0.6729381", "0.67281383", "0.67223144", "0.6710336", "0.6709708", "0.6707715", "0.66870755", "0.66867924", "0.66792905", "0.66701937", "0.6655313", "0.6648558", "0.6644358", "0.6616796", "0.6614183", "0.66033965", "0.65979415", "0.65948725", "0.65847486" ]

[ "def new\n @trial = Trial.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @trial }\n end\n end", "def show\n @trial = Trial.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.json { render json: @trial }\n end\n end", "def create_trial_from_xml(trial_xml)\n trial = Trial.new\n trial[:org_study_id] = trial_xml.xpath(\"//id_info//org_study_id\").text\n trial[:secondary_id] = trial_xml.xpath(\"//id_info//secondary_id\").text\n trial[:nct_id] = trial_xml.xpath(\"//nct_id\").text\n trial[:nct_alias] = trial_xml.xpath(\"//nct_alias\").text\n trial[:brief_title] = trial_xml.xpath(\"//brief_title\").text\n trial[:official_title] = trial_xml.xpath(\"//official_title\").text\n trial[:lead_sponsor_name] = trial_xml.xpath(\"//sponsors//lead_sponsor//agency\").text\n trial[:lead_sponsor_class] = trial_xml.xpath(\"//sponsors//lead_sponsor//agency_class\").text\n trial[:brief_summary] = trial_xml.xpath(\"//brief_summary//textblock\").text\n trial[:detailed_description] = trial_xml.xpath(\"//detailed_description//textblock\").text\n trial[:overall_status] = trial_xml.xpath(\"//overall_status\").text\n trial[:start_date] = trial_xml.xpath(\"//start_date\").text\n trial[:phase] = trial_xml.xpath(\"//phase\").text\n trial[:study_type] = trial_xml.xpath(\"//study_type\").text\n trial[:study_design] = trial_xml.xpath(\"//study_design\").text\n trial[:primary_outcome_measure] = trial_xml.xpath(\"//primary_outcome//measure\").text\n trial[:primary_outcome_time_frame] = trial_xml.xpath(\"//primary_outcome//time_frame\").text\n trial[:primary_outcome_safety_issue] = trial_xml.xpath(\"//primary_outcome//safety_issue\").text\n trial[:secondary_outcome_measure] = trial_xml.xpath(\"//secondary_outcome//measure\").text\n trial[:secondary_outcome_time_frame] = trial_xml.xpath(\"//secondary_outcome//time_frame\").text\n trial[:secondary_outcome_safety_issue] = trial_xml.xpath(\"//secondary_outcome//safety_issue\").text\n trial[:number_of_groups] = trial_xml.xpath(\"//number_of_arms\").text\n trial[:enrollment] = trial_xml.xpath(\"//enrollment\").text\n trial[:condition] = trial_xml.xpath(\"//condition\").text\n trial[:arm_group_label] = trial_xml.xpath(\"//arm_group//arm_group_label\").text\n trial[:arm_group_description] = trial_xml.xpath(\"//arm_group//description\").text\n trial[:eligibility_criteria_text] = trial_xml.xpath(\"//eligibility//criteria//textblock\").text\n trial[:gender] = trial_xml.xpath(\"//eligibility//gender\").text\n trial[:minimum_age] = clean_raw_age(trial_xml.xpath(\"//eligibility//minimum_age\").text, \"0\")\n trial[:maximum_age] = clean_raw_age(trial_xml.xpath(\"//eligibility//maximum_age\").text, \"150\")\n trial[:overall_official_name] = trial_xml.xpath(\"//overall_official//last_name\").text\n trial[:overall_official_role] = trial_xml.xpath(\"//overall_official//role\").text\n trial[:overall_official_affiliation] = trial_xml.xpath(\"//overall_official//affiliation\").text\n trial[:overall_contact_name] = trial_xml.xpath(\"//overall_contact//last_name\").text\n trial[:overall_contact_email] = trial_xml.xpath(\"//overall_contact//email\").text\n trial[:overall_contact_phone] = trial_xml.xpath(\"//overall_contact//phone\").text\n trial[:results_reference_citation] = trial_xml.xpath(\"//results_reference//citation\").text\n trial[:results_reference_PMID] = trial_xml.xpath(\"//results_reference//pmid\").text\n trial[:verification_date] = trial_xml.xpath(\"//verification_date\").text\n trial[:lastchanged_date] = trial_xml.xpath(\"//lastchanged_date\").text\n trial[:firstreceived_date] = trial_xml.xpath(\"//firstreceived_date\").text\n trial[:responsible_party_type] = trial_xml.xpath(\"//responsible_party_type\").text\n trial[:keyword] = trial_xml.xpath(\"//keyword\").text\n trial[:is_fda_regulated] = trial_xml.xpath(\"//is_fda_regulated\").text\n trial[:has_expanded_access] = trial_xml.xpath(\"//has_expanded_access\").text\n trial[:condition_browse_mesh_term] = trial_xml.xpath(\"//condition_browse//mesh_term\").text\n trial.save\n trial\nend", "def create\n @trial = Trial.new(params[:trial])\n\n respond_to do |format|\n if @trial.save\n flash[:notice] = 'Trial was successfully created.'\n format.html { redirect_to(@trial) }\n format.xml { render :xml => @trial, :status => :created, :location => @trial }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @trial.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n @trial = Trial.new(params[:trial])\n\n respond_to do |format|\n if @trial.save\n format.html { redirect_to(@trial, :notice => 'Trial was successfully created.') }\n format.xml { render :xml => @trial, :status => :created, :location => @trial }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @trial.errors, :status => :unprocessable_entity }\n end\n end\n end", "def set_trial\n @trial = Trial.find(params[:id])\n end", "def show\n @trial_params = TrialParam.where trial_id: @trial.trial_id\n @trial_values = TrialValue.where trial_id: @trial.trial_id\n @trial_system_attributes = TrialSystemAttribute.where trial_id: @trial.trial_id\n @trial_user_attributes = TrialUserAttribute.where trial_id: @trial.trial_id\n end", "def set_trial\n @trial = Trial.find(params[:id])\n end", "def show\n @my_time_trial = MyTimeTrial.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.json { render :json => @my_time_trial }\n end\n end", "def index\n @trial_documents = TrialDocument.all\n end", "def index\n @runs = current_user.runs.all(:order => 'created_at DESC')\n @goal = current_user.goals.first\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @runs }\n end\n end", "def new\n @trial = Trial.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @trial }\n end\n end", "def index\n @tests = TkdTest.all\n \n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @tests }\n end\n end", "def trips\n get '/gtfs/trips'\n end", "def index\n @trial_models = TrialModel.all\n end", "def index\n @trials = Trial.accessible_by(current_ability).includes(:organization)\n end", "def index\n trips = Trip.all\n respond_with trips\n end", "def index\n @trips = Trip.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @trips }\n end\n end", "def index\n @trips = Trip.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @trips }\n end\n end", "def index\n @contests = Contest.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @contests }\n end\n end", "def test_articlerss\n get :articlerss, :id => 1 \n assert_response :success\n assert_nothing_raised do\n assert REXML::Document.new(@response.body)\n end\n end", "def show\n @trip_story = TripStory.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @trip_story }\n end\n end", "def create\n @trial = Trial.new(trial_params)\n\n respond_to do |format|\n if @trial.save\n format.html { redirect_to @trial, notice: 'Trial was successfully created.' }\n format.json { render action: 'show', status: :created, location: @trial }\n else\n format.html { render action: 'new' }\n format.json { render json: @trial.errors, status: :unprocessable_entity }\n end\n end\n end", "def index\n @trips = Trip.find(:all)\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @trips }\n end\n end", "def show\n if params[:format] == 'xml'\n send_file @test_plan.jmx.path, :type => 'application/xml', :disposition => 'attachment'\n end\n end", "def request(resource, method = \"get\", args = nil)\n \t \n \t @now_playing_url = 'http://62.216.251.203:80/nowplaying'\n \t @submission_url = 'http://62.216.251.205:80/protocol_1.2'\n \t @session_id = '17E61E13454CDD8B68E8D7DEEEDF6170'\n \t \n \t if @base_url == Scrobbler::API_URL\n \t pieces = resource.split('/')\n pieces.shift\n \t api_version = pieces.shift\n if api_version == \"1.0\"\n folder = pieces.shift\n file = pieces.last[0, pieces.last.index('.xml')]\n base_pieces = pieces.last.split('?')\n\n file = if base_pieces.size > 1\n # if query string params are in resource they are underscore separated for filenames\n base_pieces.last.split('&').inject(\"#{file}_\") { |str, pair| str << pair.split('=').join('_') + '_'; str }.chop!\n else\n file\n end\n\n File.read(File.dirname(__FILE__) + \"/../fixtures/xml/#{folder}/#{file}.xml\")\n elsif api_version == \"2.0\"\n method_pieces = pieces.last.split('&')\n api_method = method_pieces.shift\n if api_method == '?method=artist.search'\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/search/artist.xml\")\n elsif api_method == '?method=album.search'\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/search/album.xml\")\n elsif api_method == '?method=track.search'\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/search/track.xml\")\n elsif pieces.last =~ /[?&]method=album\\.getinfo/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/album/info.xml\")\n elsif pieces.last =~ /[?&]method=artist\\.gettoptags/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/artist/toptags.xml\")\n elsif pieces.last =~ /[?&]method=artist\\.search/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/artist/search.xml\")\n elsif pieces.last =~ /[?&]method=artist\\.gettopfans/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/artist/fans.xml\")\n elsif pieces.last =~ /[?&]method=artist\\.gettoptracks/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/artist/toptracks.xml\")\n elsif pieces.last =~ /[?&]method=artist\\.gettopalbums/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/artist/topalbums.xml\")\n elsif pieces.last =~ /[?&]method=artist\\.getsimilar/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/artist/similar.xml\")\n elsif pieces.last =~ /[?&]method=album\\.search/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/album/search.xml\")\n elsif pieces.last =~ /[?&]method=tag\\.gettoptracks/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/tag/toptracks.xml\")\n elsif pieces.last =~ /[?&]method=tag\\.gettopartists/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/tag/topartists.xml\")\n elsif pieces.last =~ /[?&]method=tag\\.gettopalbums/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/tag/topalbums.xml\")\n elsif pieces.last =~ /[?&]method=track\\.gettoptags/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/track/toptags.xml\")\n elsif pieces.last =~ /[?&]method=track\\.gettopfans/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/track/fans.xml\")\n elsif pieces.last =~ /[?&]method=track\\.search/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/track/search.xml\")\n elsif pieces.last =~ /[?&]method=user\\.getlovedtracks/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/user/lovedtracks.xml\")\n elsif pieces.last =~ /[?&]method=user\\.gettopartists/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/user/topartists.xml\")\n elsif pieces.last =~ /[?&]method=user\\.gettopalbums/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/user/topalbums.xml\")\n elsif pieces.last =~ /[?&]method=user\\.gettoptracks/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/user/toptracks.xml\")\n elsif pieces.last =~ /[?&]method=user\\.getfriends/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/user/friends.xml\")\n elsif pieces.last =~ /[?&]method=user\\.gettoptags/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/user/toptags.xml\")\n elsif pieces.last =~ /[?&]method=user\\.getneighbours/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/user/neighbours.xml\")\n elsif pieces.last =~ /[?&]method=user\\.getrecenttracks/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/user/recenttracks.xml\")\n elsif pieces.last =~ /[?&]method=user\\.playlists/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/user/playlists.xml\")\n elsif pieces.last =~ /[?&]method=event\\.getinfo/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/event/event.xml\")\n elsif pieces.last =~ /[?&]method=event\\.getshouts/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/event/shouts.xml\")\n elsif pieces.last =~ /[?&]method=user\\.getweeklyalbumchart/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/user/weeklyalbumchart.xml\")\n elsif pieces.last =~ /[?&]method=user\\.getweeklyartistchart/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/user/weeklyartistchart.xml\")\n elsif pieces.last =~ /[?&]method=user\\.getweeklytrackchart/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/user/weeklytrackchart.xml\")\n elsif pieces.last =~ /[?&]method=user\\.getevents/\n return File.read(File.dirname(__FILE__) + \"/../fixtures/xml/user/events.xml\")\n else\n old_request(resource, method, args)\n end\n end\n \t elsif @base_url == Scrobbler::AUTH_URL\n if args[:hs] == \"true\" && args[:p] == Scrobbler::AUTH_VER.to_s && args[:c] == 'rbs' &&\n args[:v] == '0.2.13' && args[:u] == 'chunky' && !args[:t].blank? &&\n args[:a] == Digest::MD5.hexdigest('7813258ef8c6b632dde8cc80f6bda62f' + args[:t])\n \n \"OK\\n#{@session_id}\\n#{@now_playing_url}\\n#{@submission_url}\"\n end\n elsif @base_url == @now_playing_url\n if args[:s] == @session_id && ![args[:a], args[:t], args[:b], args[:n]].any?(&:blank?)\n 'OK'\n end \n elsif @base_url == @submission_url\n if args[:s] == @session_id && \n ![args['a[0]'], args['t[0]'], args['i[0]'], args['o[0]'], args['l[0]'], args['b[0]']].any?(&:blank?)\n 'OK'\n end\n\t end\n\t end", "def index\n @goals = Goal.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @goals }\n end\n end", "def index\n @testcases = Testcase.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @testcases }\n end\n end", "def index\n @traffics = Traffic.find(:all, :order => \"created_at\")\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @traffics }\n end\n end", "def destroy\n @trial = Trial.find(params[:id])\n @trial.destroy\n\n respond_to do |format|\n format.html { redirect_to(trials_url) }\n format.xml { head :ok }\n end\n end", "def destroy\n @trial = Trial.find(params[:id])\n @trial.destroy\n\n respond_to do |format|\n format.html { redirect_to(trials_url) }\n format.xml { head :ok }\n end\n end", "def index\n @xml_samples = XmlSample.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.json { render json: @xml_samples }\n format.xml { render xml: @xml_samples }\n end\n end", "def workload\n @sprint = Sprint.find(params[:id])\n\n respond_to do |format|\n format.html # workload.html.erb\n format.xml { render :xml => @sprint }\n end\n end", "def show\n @testing = Testing.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @testing }\n end\n end", "def index\n\t@trips = Trip.all\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @trips }\n end\n end", "def show\n @test_suite = TestSuite.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @test_suite }\n end\n end", "def index\n @goaltemplates = Goaltemplate.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @goaltemplates }\n end\n end", "def show\n @test_plan = TestPlan.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @test_plan }\n end\n end", "def index\n @associated_trials = AssociatedTrial.all\n end", "def read(id=nil)\r\n request = Net::HTTP.new(@uri.host, @uri.port)\r\n if id.nil?\r\n response = request.get(\"#{@uri.path}.xml\") \r\n else\r\n response = request.get(\"#{@uri.path}/#{id}.xml\") \r\n end\r\n response.body\r\n end", "def flight(id)\n perform_get(\"/flights/#{id}.xml\")\n end", "def show\n @medium_trial = MediumTrial.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.json { render json: @medium_trial }\n end\n end", "def show\n @trip_enrollment = TripEnrollment.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @trip_enrollment }\n end\n end", "def show\n @tps_report = TpsReport.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @tps_report }\n end\n end", "def show\n @experiment = Experiment.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @experiment }\n end\n end", "def xml(id)\n http.get(\"/nfse/#{id}/xml\") do |response|\n response.headers.fetch(\"Location\") { \"\" }\n end\n end", "def show\n @technician = Technician.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @technician }\n end\n end", "def index\n @countdowns = Countdown.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @countdowns }\n end\n end", "def show \n @doc = \"Nothing\"\n @scenario = Scenario.find(params[:id])\n\tdir_name = \"#{Rails.root}/data/#{session[:session_id]}\"\n\tDir.mkdir(dir_name) unless File.exists?(dir_name)\n\n\tbuild_xml()\n\n respond_to do |format|\n format.html # show.html.erb\n format.json { render json: @scenario }\n end\n end", "def tournaments\n get('sports/en/tournaments.xml')\n end", "def show\n @tracker = Tracker.find(params[:id])\n\n respond_to do |format|\n format.html # show.erb\n format.xml { render :xml => @tracker.to_xml }\n end\n end", "def update\n @trial = Trial.find(params[:id])\n\n respond_to do |format|\n if @trial.update_attributes(params[:trial])\n flash[:notice] = 'Trial was successfully updated.'\n format.html { redirect_to(@trial) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @trial.errors, :status => :unprocessable_entity }\n end\n end\n end", "def do_some_stuff_with_trimet_response trimet\n xml = Nokogiri::XML(trimet)\n xml.xpath(\"//xmlns:itinerary\").each do |itinerary|\n puts \"itinerary #{itinerary[\"id\"]}\"\n legs = itinerary.xpath(\"xmlns:leg\")\n legs.each do |leg|\n if leg == legs.last \n break \n end\n transitMode = leg.attribute('mode').text\n routeName = leg.xpath(\"xmlns:route/xmlns:name\").text.strip\n stopDescription = leg.xpath(\"xmlns:to/xmlns:description\").text.strip\n if transitMode.eql?(\"Walk\") \n puts \"#{transitMode} to #{stopDescription}\"\n else \n puts \"#{transitMode} #{routeName} to #{stopDescription}\"\n end\n end\n end\n end", "def index\n @trip_stories = TripStory.all\n @main_header = \"Trip Write-ups\"\n \n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @trip_stories }\n end\n end", "def new\n @my_time_trial = MyTimeTrial.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render :json => @my_time_trial }\n end\n end", "def index\n @test_scores = @participant.test_scores.find(:all)\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @test_scores }\n end\n end", "def show\n @trip = Trip.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @trip }\n end\n end", "def show\n @trip = Trip.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @trip }\n end\n end", "def show\n @gtfs_trip = GtfsTrip.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @gtfs_trip }\n end\n end", "def show\n @test_case = TestCase.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @test_case }\n end\n end", "def show\n @goal = Goal.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @goal }\n end\n end", "def show\n @test = TkdTest.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @test }\n end\n end", "def show\n @goaltemplate = Goaltemplate.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @goaltemplate }\n end\n end", "def index\n @tour_requests = TourRequest.all\n end", "def get_xml\n response = @api.request(:get, @location, type: 'xml')\n response.body if response.status == 200\n end", "def index\n get_tasks\n get_priorities\n get_users\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @tasks }\n end\n end", "def show\n @xml_sample = XmlSample.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.json { render json: @xml_sample }\n end\n end", "def index\n @additions = Addition.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @additions }\n end\n end", "def take_two\n response.headers[\"Content-Type\"] = 'text/xml'\n\n take_two = Program.find_by_slug!('take-two')\n @segments = take_two.episodes.published.first.segments.first(2)\n render template: 'feeds/take_two.xml.builder', format: :xml\n end", "def test_history_visible\n # check that a visible way is returned properly\n get :history, :id => ways(:visible_way).id\n assert_response :success\n end", "def stories(project, api_key, filter='')\n\treq = Net::HTTP::Get.new(\n \"/services/v3/projects/#{project}/stories?filter=#{filter}\",\n {'X-TrackerToken'=>api_key}\n )\n res = Net::HTTP.start(@pt_uri.host, @pt_uri.port) {|http|\n http.request(req)\n }\n\n return res.body\nend", "def show\n @tstat = Tstat.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @tstat }\n end\n end", "def index\n @tutors = Tutor.find(:all)\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @tutors }\n end\n end", "def show\n @test_subject_evaluation = @test_subject.test_subject_evaluations.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @test_subject_evaluation }\n end\n end", "def index\n @lifts = Lift.all\n @exercises = Exercise.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @lifts }\n end\n end", "def show\n @contest = Contest.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @contest }\n end\n end", "def index\n @evil_wizards = EvilWizard.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @evil_wizards }\n end\n end", "def get(options = {})\n @response_xml = options[:cache_file] ? File.read(options[:cache_file]) : http_get(options)\n response = Response.parse(response_xml, options) do | inner_response, elements |\n parse_reports(inner_response, elements)\n end\n response.response_items.first # there is is only one\n end", "def show\n @survey_tung = SurveyTung.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @survey_tung }\n end\n end", "def get(path, params={})\n params = merge_set_up_params(params)\n @token = \"b3688c52-9235-45ca-b01f-c5b2b83a4f4f\"\n @result = Typhoeus::Request.get(API_URL + path, :params => params,\n :headers => {\"Authorization\" => \"Basic#{@token}\"})\n puts @result.body\n # check if the url looks correct in the log\n puts @result.effective_url\n # parse the result to json\n return JSON.parse(@result.body)\n end", "def read(id=nil)\n request = Net::HTTP.new(@uri.host, @uri.port)\n if id.nil?\n response = request.get(\"#{@uri.path}.xml\")\n else\n response = request.get(\"#{@uri.path}/#{id}.xml\")\n end\n\n response.body\n end", "def show\n @expectation = RiGse::Expectation.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @expectation }\n end\n end", "def posttestrail(runId, caseId, statusId, versionId, elapsedseconds)\r\n\r\n uri = \"http://testrailgw.jupiter.bbc.co.uk/?action=add_result_for_case&run_id=#{runId}&case_id=#{caseId}&status_id=#{statusId}&version=#{versionId}&elapsed_seconds=#{elapsedseconds}&sharedSecret=thI5iSourSHAREDsecret\"\r\n #uri = \"http://testrailgw.jupiter.bbc.co.uk/?action=add_result_for_case&run_id=110324&case_id=665022&status_id=1&version=Test&elapsed_seconds=12&sharedSecret=thI5iSourSHAREDsecret\"\r\n\r\n uri = uri.gsub(\" \", \"%20\")\r\n xml_data = open(uri).read\r\n if(xml_data.include? '\"test_id\":')\r\n recorded = xml_data.split('\"test_id\":')[1]\r\n testID = recorded.split(',\"status_id\"')[0]\r\n puts \"TestID:\"+testID\r\n else\r\n puts xml_data\r\n fail \"Cannot Post result to Testrail, check Webservice\"\r\n end\r\n\r\n timeStamp = Time.now.strftime (\"posted at %H:%M %d/%m/%Y\")\r\n files = \"//zgbwcfs3005.jupiter.bbc.co.uk/QA/Jenkins/Jupiter/ICETEAresultupdatelog.txt\"\r\n f = File.open(files,'a')\r\n f.write \"#{testID} #{timeStamp}\"\r\n f.close\r\nend", "def show\n @traffic = Traffic.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @traffic }\n end\n end", "def getXMLTicket(path)\n resp2 = @@conn.get do |req|\n req.url path\n req.headers['Authorization'] = 'Basic aHIuc2VsbGVydEBnbWFpbC5jb206c2VzMTEy' #@TODO make this a param\n req.headers['Content-Type'] = 'application/xml'\n end\n # puts \"Responce : \" + resp2['body'].inspect\n # puts \"Responce2 : \" + resp2.body.to_s()\n \n return resp2.body.to_s()\n end", "def index\n @tourpoints = Tourpoint.paginate(:per_page => 10, :page => params[:page])\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @tourpoints }\n end\n end", "def index\n @click_to_talks = ClickToTalk.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @click_to_talks }\n end\n end", "def trades\n Client.current.get(\"#{resource_url}/trades\")\n end", "def index\n @long_term_goals = LongTermGoal.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @long_term_goals }\n end\n end", "def index\n @participants = Participant.all\n\n respond_to do |format|\n format.html # index.html.erb\n #format.xml { render :xml => @participants }\n end\n end", "def api_xml(path,method=:get,options={})\n xml_message(amee,\"/data\"+path,method,options)\n end", "def show\n @test_score = @participant.test_scores.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @test_score }\n end\n end", "def show\n @step = TaskrequestsStep.find(params[:taskrequests_step_id])\n @absence_request = @step.absence_requests.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @absence_request }\n end\n end", "def show\n @tour_program = TourProgram.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @tour_program }\n end\n end", "def show\n @test_test = TestTest.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @test_test }\n end\n end", "def index\n @karma = Karma.all\n\n respond_to do |format|\n format.html # index.html.erb\n format.xml { render :xml => @karma }\n end\n end", "def show\n @timing = Timing.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @timing }\n end\n end", "def rest_get(uri)\n \n request = Net::HTTP::Get.new uri\n request.add_field(\"Accept\",\"application/xml\")\n auth_admin(request)\n \n Net::HTTP.start(uri.host, uri.port) do |http|\n response = http.request request\n response.value\n\n doc = REXML::Document.new response.body\n \n return doc\n \n end\n \nend", "def get(path, params={})\n params = merge_set_up_params(params)\n JSON.parse(Typhoeus::Request.get(API_URL + path, :params => params).body)[\"response\"]\n end" ]

[ "0.6455325", "0.63403314", "0.62679386", "0.6238086", "0.6176045", "0.59208447", "0.58383536", "0.5796926", "0.5773541", "0.56708795", "0.56697667", "0.5644533", "0.5641433", "0.5606891", "0.55835944", "0.5575981", "0.553889", "0.55211014", "0.55211014", "0.55147", "0.5509353", "0.5506769", "0.54976267", "0.54966104", "0.5491602", "0.54787904", "0.547402", "0.54730016", "0.5470754", "0.54646647", "0.54646647", "0.544918", "0.543981", "0.54380184", "0.54359657", "0.5426521", "0.5425504", "0.54011786", "0.5392021", "0.53877515", "0.53875184", "0.5380352", "0.5375906", "0.53749484", "0.53723615", "0.5362874", "0.53593856", "0.5357326", "0.53571916", "0.5353079", "0.53516144", "0.53377086", "0.53358907", "0.53342426", "0.53273004", "0.5320806", "0.5311542", "0.5311542", "0.5303931", "0.53022444", "0.52869374", "0.52795637", "0.5276721", "0.52717304", "0.5270453", "0.52699715", "0.5257258", "0.52560014", "0.5255676", "0.5255546", "0.5255008", "0.52532625", "0.52501756", "0.52485615", "0.5246313", "0.52426064", "0.52415884", "0.5238373", "0.5230973", "0.52306086", "0.5227995", "0.5224372", "0.52213037", "0.5210624", "0.52086496", "0.5207526", "0.52062637", "0.52019256", "0.5192471", "0.51874787", "0.5185584", "0.5182705", "0.51825875", "0.5181558", "0.51807266", "0.5180037", "0.51775885", "0.5171807", "0.5166558" ]

[ "def new\n @trial = Trial.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @trial }\n end\n end", "def create\n @trial = Trial.new(params[:trial])\n\n respond_to do |format|\n if @trial.save\n flash[:notice] = 'Trial was successfully created.'\n format.html { redirect_to(@trial) }\n format.xml { render :xml => @trial, :status => :created, :location => @trial }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @trial.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n @trial = Trial.new(params[:trial])\n\n respond_to do |format|\n if @trial.save\n format.html { redirect_to(@trial, :notice => 'Trial was successfully created.') }\n format.xml { render :xml => @trial, :status => :created, :location => @trial }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @trial.errors, :status => :unprocessable_entity }\n end\n end\n end", "def new\n @testcase = Testcase.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @testcase }\n end\n end", "def create\n @trial = Trial.new(trial_params)\n\n respond_to do |format|\n if @trial.save\n format.html { redirect_to @trial, notice: 'Trial was successfully created.' }\n format.json { render action: 'show', status: :created, location: @trial }\n else\n format.html { render action: 'new' }\n format.json { render json: @trial.errors, status: :unprocessable_entity }\n end\n end\n end", "def new\n @my_time_trial = MyTimeTrial.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render :json => @my_time_trial }\n end\n end", "def show\n @trial = Trial.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @trial }\n end\n end", "def show\n @trial = Trial.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @trial }\n end\n end", "def new\n @old_twit = OldTwit.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @old_twit }\n end\n end", "def new\n @goaltemplate = Goaltemplate.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @goaltemplate }\n end\n end", "def new\n @trip = Trip.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @trip }\n end\n end", "def new\n @trip = Trip.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @trip }\n end\n end", "def new\n @trip = Trip.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @trip }\n end\n end", "def new\n head :status => 405\n return\n \n @participant = Participant.new\n\n respond_to do |format|\n format.html # new.html.erb\n #format.xml { render :xml => @participant }\n end\n end", "def new\n @goal = Mg::Goal.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @goal }\n end\n end", "def new\n @test_plan = TestPlan.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @test_plan }\n end\n end", "def new\n @travel = Travel.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @travel }\n end\n end", "def new\n @travel = Travel.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @travel }\n end\n end", "def new\n @tracker = Tracker.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @tracker }\n end\n end", "def new\n respond_to do |format|\n format.html { render_template } # new.html.erb\n format.xml { render xml: @get_started_page }\n end\n end", "def new\n @tstat = Tstat.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @tstat }\n end\n end", "def new\n @medium_trial = MediumTrial.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @medium_trial }\n end\n end", "def new\n @gtfs_trip = GtfsTrip.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @gtfs_trip }\n end\n end", "def new\n @contest = Contest.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @contest }\n end\n end", "def new\n @contest = Contest.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @contest }\n end\n end", "def new\n @contest = Contest.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @contest }\n end\n end", "def new_rest\n @instrument_version = InstrumentVersion.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @instrument_version }\n end\n end", "def new\n @tso = Tso.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @tso }\n end\n end", "def new\n @lift = Lift.new\n @exercises = Exercise.all\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @lift }\n end\n end", "def new\n @tour = Tour.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @tour }\n end\n end", "def new\n @traffic = Traffic.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @traffic }\n end\n end", "def new\n @test_case = TestCase.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @test_case }\n end\n end", "def new\n @test_suite = TestSuite.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @test_suite }\n end\n end", "def new\n @tps_report = TpsReport.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @tps_report }\n end\n end", "def new\n @technician = Technician.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @technician }\n end\n end", "def new\n @experiment = Experiment.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @experiment }\n end\n end", "def new\n @experiment = Experiment.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @experiment }\n end\n end", "def new\n @research = Research.new\n @page_title = \"Request research from White House 2 members\"\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @research.to_xml(:except => [:email]) }\n end\n end", "def new\n @sprint = Sprint.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @sprint }\n end\n end", "def new\n @sprint = Sprint.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @sprint }\n end\n end", "def new\n @test_plant = TestPlant.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @test_plant }\n end\n end", "def new\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @participant }\n end\n end", "def new\n @atest = Atest.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @atest }\n end\n end", "def new\n @rant = Rant.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @rant }\n end\n end", "def new\n @t1 = T1.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @t1 }\n end\n end", "def new\n @sprint = Sprint.new\n \n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @sprint }\n end\n end", "def new\n @xml_sample = XmlSample.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @xml_sample }\n end\n end", "def new\n @participant = Participant.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @participant }\n end\n end", "def new\n @participant = Participant.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @participant }\n end\n end", "def new\n @participant = Participant.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @participant }\n end\n end", "def new_rest\n @question_localized = QuestionLocalized.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @question_localized }\n end\n end", "def new\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => new_vurl }\n end\n end", "def new\n @tour_program = TourProgram.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @tour_program }\n end\n end", "def new\n @goal_removed = GoalRemoved.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @goal_removed }\n end\n end", "def new\n @threat = Threat.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @threat }\n end\n end", "def new\n @assert = Assert.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @assert }\n end\n end", "def new\n @assert = Assert.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @assert }\n end\n end", "def new\n @addition = Addition.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @addition }\n end\n end", "def new\n \t@step = Step.new(:tutorial=>@tutorial)\n authorize! :new, @step\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @step }\n end\n end", "def new\n @mode = params[:mode]\n @eventID = params[:event_id]\n @trial = Trial.new\n if !@eventID.nil?\n @event = Event.find(@eventID)\n @trial.event_id = @eventID\n end\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @trial }\n end\n end", "def new\n @trip_story = TripStory.new\n @main_header = \"New Trip Write-up\"\n \n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @trip_story }\n end\n end", "def new\n @quest = Quest.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @quest }\n end\n end", "def new\n @want = Want.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @want }\n end\n end", "def new\n @scratch = Scratch.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @scratch }\n end\n end", "def new\n @test = TkdTest.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @test }\n end\n end", "def new\n @probe = Probe.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @probe }\n end\n end", "def new\n @countdown = Countdown.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @countdown }\n end\n end", "def new\n @timing = Timing.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @timing }\n end\n end", "def new\n @flight = Flight.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @flight }\n end\n end", "def new\n @trip_feature = TripFeature.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @trip_feature }\n end\n end", "def new\n @quest_template = QuestTemplate.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @quest_template }\n end\n end", "def create_trial_from_xml(trial_xml)\n trial = Trial.new\n trial[:org_study_id] = trial_xml.xpath(\"//id_info//org_study_id\").text\n trial[:secondary_id] = trial_xml.xpath(\"//id_info//secondary_id\").text\n trial[:nct_id] = trial_xml.xpath(\"//nct_id\").text\n trial[:nct_alias] = trial_xml.xpath(\"//nct_alias\").text\n trial[:brief_title] = trial_xml.xpath(\"//brief_title\").text\n trial[:official_title] = trial_xml.xpath(\"//official_title\").text\n trial[:lead_sponsor_name] = trial_xml.xpath(\"//sponsors//lead_sponsor//agency\").text\n trial[:lead_sponsor_class] = trial_xml.xpath(\"//sponsors//lead_sponsor//agency_class\").text\n trial[:brief_summary] = trial_xml.xpath(\"//brief_summary//textblock\").text\n trial[:detailed_description] = trial_xml.xpath(\"//detailed_description//textblock\").text\n trial[:overall_status] = trial_xml.xpath(\"//overall_status\").text\n trial[:start_date] = trial_xml.xpath(\"//start_date\").text\n trial[:phase] = trial_xml.xpath(\"//phase\").text\n trial[:study_type] = trial_xml.xpath(\"//study_type\").text\n trial[:study_design] = trial_xml.xpath(\"//study_design\").text\n trial[:primary_outcome_measure] = trial_xml.xpath(\"//primary_outcome//measure\").text\n trial[:primary_outcome_time_frame] = trial_xml.xpath(\"//primary_outcome//time_frame\").text\n trial[:primary_outcome_safety_issue] = trial_xml.xpath(\"//primary_outcome//safety_issue\").text\n trial[:secondary_outcome_measure] = trial_xml.xpath(\"//secondary_outcome//measure\").text\n trial[:secondary_outcome_time_frame] = trial_xml.xpath(\"//secondary_outcome//time_frame\").text\n trial[:secondary_outcome_safety_issue] = trial_xml.xpath(\"//secondary_outcome//safety_issue\").text\n trial[:number_of_groups] = trial_xml.xpath(\"//number_of_arms\").text\n trial[:enrollment] = trial_xml.xpath(\"//enrollment\").text\n trial[:condition] = trial_xml.xpath(\"//condition\").text\n trial[:arm_group_label] = trial_xml.xpath(\"//arm_group//arm_group_label\").text\n trial[:arm_group_description] = trial_xml.xpath(\"//arm_group//description\").text\n trial[:eligibility_criteria_text] = trial_xml.xpath(\"//eligibility//criteria//textblock\").text\n trial[:gender] = trial_xml.xpath(\"//eligibility//gender\").text\n trial[:minimum_age] = clean_raw_age(trial_xml.xpath(\"//eligibility//minimum_age\").text, \"0\")\n trial[:maximum_age] = clean_raw_age(trial_xml.xpath(\"//eligibility//maximum_age\").text, \"150\")\n trial[:overall_official_name] = trial_xml.xpath(\"//overall_official//last_name\").text\n trial[:overall_official_role] = trial_xml.xpath(\"//overall_official//role\").text\n trial[:overall_official_affiliation] = trial_xml.xpath(\"//overall_official//affiliation\").text\n trial[:overall_contact_name] = trial_xml.xpath(\"//overall_contact//last_name\").text\n trial[:overall_contact_email] = trial_xml.xpath(\"//overall_contact//email\").text\n trial[:overall_contact_phone] = trial_xml.xpath(\"//overall_contact//phone\").text\n trial[:results_reference_citation] = trial_xml.xpath(\"//results_reference//citation\").text\n trial[:results_reference_PMID] = trial_xml.xpath(\"//results_reference//pmid\").text\n trial[:verification_date] = trial_xml.xpath(\"//verification_date\").text\n trial[:lastchanged_date] = trial_xml.xpath(\"//lastchanged_date\").text\n trial[:firstreceived_date] = trial_xml.xpath(\"//firstreceived_date\").text\n trial[:responsible_party_type] = trial_xml.xpath(\"//responsible_party_type\").text\n trial[:keyword] = trial_xml.xpath(\"//keyword\").text\n trial[:is_fda_regulated] = trial_xml.xpath(\"//is_fda_regulated\").text\n trial[:has_expanded_access] = trial_xml.xpath(\"//has_expanded_access\").text\n trial[:condition_browse_mesh_term] = trial_xml.xpath(\"//condition_browse//mesh_term\").text\n trial.save\n trial\nend", "def new\n @temp = Temp.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @temp }\n end\n end", "def new\n @test_test = TestTest.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @test_test }\n end\n end", "def new\n @reqinfo = Reqinfo.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @reqinfo }\n end\n end", "def new\r\n respond_to do |format|\r\n format.html # new.html.erb\r\n format.xml { render :xml => @participant }\r\n end\r\n end", "def new\n @trace = Trace.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @trace }\n end\n end", "def new\n @task = Task.new\n @sprint = Sprint.find(params[:id])\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @task }\n end\n end", "def new\n @feat = @person.feats.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @feat }\n end\n end", "def new\n #\n # Grab the directory number in link from email, check against email address and code in link\n #\n # Open page and load from directory\n #\n @experiment = Experiment.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @experiment }\n end\n end", "def new\n @trivia = Trivia.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @trivia }\n end\n end", "def new\n @suite = Suite.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @suite }\n end\n end", "def new\n @tourpoint = Tourpoint.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @tourpoint }\n end\n end", "def new\n @test = Mg::Test.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @test }\n end\n end", "def new\n @scenario = Scenario.new\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @scenario }\n end\n end", "def new\n @subscription = Subscription.new\n @subscription.confirmed = true\n get_list_and_segments\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @subscription }\n end\n end", "def new\n @testing = Testing.new\n @testing.build_documents\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @testing }\n end\n end", "def new\n @utest = @project.unit_tests.new\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @utest }\n end\n end", "def new\n @renewal = Renewal.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @renewal }\n end\n end", "def new\n @click_to_talk = ClickToTalk.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @click_to_talk }\n end\n end", "def new\n @test_score = @participant.test_scores.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @test_score }\n end\n end", "def new\n @tpago = Tpago.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @tpago }\n end\n end", "def new\n @survey = Survey.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @survey }\n end\n end", "def new\n @survey = Survey.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @survey }\n end\n end", "def new\n @survey = Survey.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @survey }\n end\n end", "def new\n @survey = Survey.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @survey }\n end\n end", "def new\n @survey = Survey.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @survey }\n end\n end", "def new\n @survey = Survey.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @survey }\n end\n end", "def new\n logger.debug 'new_some interesting information'\n @comdty = Comdty.new\n setvariables\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @comdty }\n end\n end", "def new\n @field_trip = FieldTrip.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @field_trip }\n end\n end" ]

[ "0.72461754", "0.7164848", "0.7125318", "0.65755737", "0.64915645", "0.6489564", "0.6454047", "0.6454047", "0.63882256", "0.63846743", "0.6348695", "0.6348695", "0.6348695", "0.63227135", "0.6318691", "0.6307796", "0.62801623", "0.62801623", "0.6264935", "0.62607425", "0.6256778", "0.6253611", "0.6232797", "0.62060916", "0.62060916", "0.62060916", "0.6204511", "0.61898184", "0.61849713", "0.6168705", "0.61675376", "0.6164099", "0.6162292", "0.6152759", "0.615263", "0.61506534", "0.61506534", "0.61479956", "0.6142042", "0.6142042", "0.613799", "0.613669", "0.61312747", "0.61294174", "0.612763", "0.6124995", "0.6114085", "0.6106061", "0.6106061", "0.6106061", "0.61013687", "0.6091014", "0.6087358", "0.6082828", "0.6078377", "0.6076366", "0.6076366", "0.607597", "0.60755193", "0.6073742", "0.60727125", "0.60672545", "0.6066465", "0.6063496", "0.6061056", "0.6059221", "0.605608", "0.6044988", "0.60412526", "0.603877", "0.60339546", "0.6032865", "0.6030419", "0.6023361", "0.60159457", "0.60109586", "0.60079575", "0.59916747", "0.5991336", "0.5988887", "0.5985547", "0.5982764", "0.5982728", "0.59802043", "0.5977517", "0.59774286", "0.5976822", "0.5976067", "0.5974898", "0.5973571", "0.59729916", "0.59692514", "0.59680223", "0.59680223", "0.59680223", "0.59680223", "0.59680223", "0.59680223", "0.5967063", "0.59668624" ]

[ "def create\n @trial = Trial.new(params[:trial])\n\n respond_to do |format|\n if @trial.save\n format.html { redirect_to(@trial, :notice => 'Trial was successfully created.') }\n format.xml { render :xml => @trial, :status => :created, :location => @trial }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @trial.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n @trial = Trial.new(trial_params)\n\n respond_to do |format|\n if @trial.save\n format.html { redirect_to @trial, notice: 'Trial was successfully created.' }\n format.json { render action: 'show', status: :created, location: @trial }\n else\n format.html { render action: 'new' }\n format.json { render json: @trial.errors, status: :unprocessable_entity }\n end\n end\n end", "def create_trial_from_xml(trial_xml)\n trial = Trial.new\n trial[:org_study_id] = trial_xml.xpath(\"//id_info//org_study_id\").text\n trial[:secondary_id] = trial_xml.xpath(\"//id_info//secondary_id\").text\n trial[:nct_id] = trial_xml.xpath(\"//nct_id\").text\n trial[:nct_alias] = trial_xml.xpath(\"//nct_alias\").text\n trial[:brief_title] = trial_xml.xpath(\"//brief_title\").text\n trial[:official_title] = trial_xml.xpath(\"//official_title\").text\n trial[:lead_sponsor_name] = trial_xml.xpath(\"//sponsors//lead_sponsor//agency\").text\n trial[:lead_sponsor_class] = trial_xml.xpath(\"//sponsors//lead_sponsor//agency_class\").text\n trial[:brief_summary] = trial_xml.xpath(\"//brief_summary//textblock\").text\n trial[:detailed_description] = trial_xml.xpath(\"//detailed_description//textblock\").text\n trial[:overall_status] = trial_xml.xpath(\"//overall_status\").text\n trial[:start_date] = trial_xml.xpath(\"//start_date\").text\n trial[:phase] = trial_xml.xpath(\"//phase\").text\n trial[:study_type] = trial_xml.xpath(\"//study_type\").text\n trial[:study_design] = trial_xml.xpath(\"//study_design\").text\n trial[:primary_outcome_measure] = trial_xml.xpath(\"//primary_outcome//measure\").text\n trial[:primary_outcome_time_frame] = trial_xml.xpath(\"//primary_outcome//time_frame\").text\n trial[:primary_outcome_safety_issue] = trial_xml.xpath(\"//primary_outcome//safety_issue\").text\n trial[:secondary_outcome_measure] = trial_xml.xpath(\"//secondary_outcome//measure\").text\n trial[:secondary_outcome_time_frame] = trial_xml.xpath(\"//secondary_outcome//time_frame\").text\n trial[:secondary_outcome_safety_issue] = trial_xml.xpath(\"//secondary_outcome//safety_issue\").text\n trial[:number_of_groups] = trial_xml.xpath(\"//number_of_arms\").text\n trial[:enrollment] = trial_xml.xpath(\"//enrollment\").text\n trial[:condition] = trial_xml.xpath(\"//condition\").text\n trial[:arm_group_label] = trial_xml.xpath(\"//arm_group//arm_group_label\").text\n trial[:arm_group_description] = trial_xml.xpath(\"//arm_group//description\").text\n trial[:eligibility_criteria_text] = trial_xml.xpath(\"//eligibility//criteria//textblock\").text\n trial[:gender] = trial_xml.xpath(\"//eligibility//gender\").text\n trial[:minimum_age] = clean_raw_age(trial_xml.xpath(\"//eligibility//minimum_age\").text, \"0\")\n trial[:maximum_age] = clean_raw_age(trial_xml.xpath(\"//eligibility//maximum_age\").text, \"150\")\n trial[:overall_official_name] = trial_xml.xpath(\"//overall_official//last_name\").text\n trial[:overall_official_role] = trial_xml.xpath(\"//overall_official//role\").text\n trial[:overall_official_affiliation] = trial_xml.xpath(\"//overall_official//affiliation\").text\n trial[:overall_contact_name] = trial_xml.xpath(\"//overall_contact//last_name\").text\n trial[:overall_contact_email] = trial_xml.xpath(\"//overall_contact//email\").text\n trial[:overall_contact_phone] = trial_xml.xpath(\"//overall_contact//phone\").text\n trial[:results_reference_citation] = trial_xml.xpath(\"//results_reference//citation\").text\n trial[:results_reference_PMID] = trial_xml.xpath(\"//results_reference//pmid\").text\n trial[:verification_date] = trial_xml.xpath(\"//verification_date\").text\n trial[:lastchanged_date] = trial_xml.xpath(\"//lastchanged_date\").text\n trial[:firstreceived_date] = trial_xml.xpath(\"//firstreceived_date\").text\n trial[:responsible_party_type] = trial_xml.xpath(\"//responsible_party_type\").text\n trial[:keyword] = trial_xml.xpath(\"//keyword\").text\n trial[:is_fda_regulated] = trial_xml.xpath(\"//is_fda_regulated\").text\n trial[:has_expanded_access] = trial_xml.xpath(\"//has_expanded_access\").text\n trial[:condition_browse_mesh_term] = trial_xml.xpath(\"//condition_browse//mesh_term\").text\n trial.save\n trial\nend", "def create\n @time_trial = TimeTrial.new(time_trial_params)\n @time_trial.save\n end", "def trial_params\n params.require(:trial).permit(:id, :name, :description, :summary, :organization_id, :question_id,{ :question_ids => []})\n end", "def create\n @associated_trial = AssociatedTrial.new(associated_trial_params)\n\n respond_to do |format|\n if @associated_trial.save\n format.html { redirect_to @associated_trial, notice: 'Associated trial was successfully created.' }\n format.json { render :show, status: :created, location: @associated_trial }\n else\n format.html { render :new }\n format.json { render json: @associated_trial.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @my_time_trial = MyTimeTrial.new(params[:my_time_trial])\n\n respond_to do |format|\n if @my_time_trial.save\n format.html { redirect_to @my_time_trial, :notice => 'My time trial was successfully created.' }\n format.json { render :json => @my_time_trial, :status => :created, :location => @my_time_trial }\n else\n format.html { render :action => \"new\" }\n format.json { render :json => @my_time_trial.errors, :status => :unprocessable_entity }\n end\n end\n end", "def posttestrail(runId, caseId, statusId, versionId, elapsedseconds)\r\n\r\n uri = \"http://testrailgw.jupiter.bbc.co.uk/?action=add_result_for_case&run_id=#{runId}&case_id=#{caseId}&status_id=#{statusId}&version=#{versionId}&elapsed_seconds=#{elapsedseconds}&sharedSecret=thI5iSourSHAREDsecret\"\r\n #uri = \"http://testrailgw.jupiter.bbc.co.uk/?action=add_result_for_case&run_id=110324&case_id=665022&status_id=1&version=Test&elapsed_seconds=12&sharedSecret=thI5iSourSHAREDsecret\"\r\n\r\n uri = uri.gsub(\" \", \"%20\")\r\n xml_data = open(uri).read\r\n if(xml_data.include? '\"test_id\":')\r\n recorded = xml_data.split('\"test_id\":')[1]\r\n testID = recorded.split(',\"status_id\"')[0]\r\n puts \"TestID:\"+testID\r\n else\r\n puts xml_data\r\n fail \"Cannot Post result to Testrail, check Webservice\"\r\n end\r\n\r\n timeStamp = Time.now.strftime (\"posted at %H:%M %d/%m/%Y\")\r\n files = \"//zgbwcfs3005.jupiter.bbc.co.uk/QA/Jenkins/Jupiter/ICETEAresultupdatelog.txt\"\r\n f = File.open(files,'a')\r\n f.write \"#{testID} #{timeStamp}\"\r\n f.close\r\nend", "def trial_params\n params.require(:trial).permit(:trial_id, :number, :study_id, :state, :value, :datetime_start, :datetime_complete)\n end", "def set_trial\n @trial = Trial.find(params[:id])\n end", "def create\n @trial_model = TrialModel.new(trial_model_params)\n\n respond_to do |format|\n if @trial_model.save\n format.html { redirect_to @trial_model, notice: 'Trial model was successfully created.' }\n format.json { render :show, status: :created, location: @trial_model }\n else\n format.html { render :new }\n format.json { render json: @trial_model.errors, status: :unprocessable_entity }\n end\n end\n end", "def set_trial\n @trial = Trial.find(params[:id])\n end", "def new\n @trial = Trial.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @trial }\n end\n end", "def create\n @medium_trial = MediumTrial.new(params[:medium_trial])\n\n respond_to do |format|\n if @medium_trial.save\n format.html { redirect_to @medium_trial, notice: 'Medium trial was successfully created.' }\n format.json { render json: @medium_trial, status: :created, location: @medium_trial }\n else\n format.html { render action: \"new\" }\n format.json { render json: @medium_trial.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @trial_site = TrialSite.new(trial_site_params)\n\n respond_to do |format|\n if @trial_site.save\n format.html { redirect_to @trial_site, notice: 'Trial site was successfully created.' }\n format.json { render :show, status: :created, location: @trial_site }\n else\n format.html { render :new }\n format.json { render json: @trial_site.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @mosttinytrial = Mosttinytrial.new(params[:mosttinytrial])\n\n respond_to do |format|\n if @mosttinytrial.save\n format.html { redirect_to @mosttinytrial, notice: 'Mosttinytrial was successfully created.' }\n format.json { render json: @mosttinytrial, status: :created, location: @mosttinytrial }\n else\n format.html { render action: \"new\" }\n format.json { render json: @mosttinytrial.errors, status: :unprocessable_entity }\n end\n end\n end", "def new\n @trial = Trial.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render json: @trial }\n end\n end", "def create #creates a new trial object in db\n @trial = Trial.new(params[:trial])\n if @trial.enrolledGoal == nil\n @trial.enrolledGoal = 0\n end \n if @trial.trialID == nil\n @trial.trialID = 0\n end\n if @trial.completedGoal == nil\n @trial.completedGoal = 0\n end \n logger.info(@trial.endDate)\n\n @trial.endDate = Date.strptime(params[:trial][:endDate], '%m/%d/%Y')\n\n\n @trial.startDate = Date.strptime(params[:trial][:startDate], '%m/%d/%Y')\n @trial.userowner = session[:userID]\n respond_to do |format|\n if @trial.save\n entry = @trial.entries.create(:input_at => @trial.startDate, :enrolled => 0, :active => 0, :completed => 0, :withdrawn => 0, :refused => 0,:lost => 0, :trial_id => @trial.id)\n #@trial.users << @current_crc\n @trial.users << @user = User.find(session[:userID])\n \n session[:current_trial] = @trial.id\n logger.info(\"our current session, create\")\n logger.info(session[:current_trial])\n session[:current_tab] = 'settings'\n # format.html { redirect_to @trial, notice: 'Trial was successfully created.' }\n format.json { head :no_content }\n format.html {redirect_to :controller => 'home', :action => 'index' }\n else\n format.html { render action: \"new\" }\n format.json { render json: @trial.errors, status: :unprocessable_entity }\n end\n end\n end", "def test_post_sample_traces\n header 'Content-Type', 'application/json'\n\n (0..4).each do |i|\n data = File.read \"sample-traces/#{i}.json\"\n post('/traces', data, 'CONTENT_TYPE': 'application/json')\n assert last_response.ok?\n end\n end", "def trial_model_params\n params.require(:trial_model).permit(:trial_attribute)\n end", "def time_trial_params\n params.require(:time_trial).permit(:firstname, :lastname, :email, :time, :cheater)\n end", "def create\n @testsuite = Testsuite.new(testsuite_params)\n\n respond_to do |format|\n if @testsuite.save\n format.html { redirect_to @testsuite, notice: 'Testsuite was successfully created.' }\n format.json { render :show, status: :created, location: @testsuite }\n else\n format.html { render :new }\n format.json { render json: @testsuite.errors, status: :unprocessable_entity }\n end\n end\n end", "def set_time_trial\n @time_trial = TimeTrial.find(params[:id])\n end", "def create\n @test_plan = TestPlan.new(params[:test_plan])\n\n respond_to do |format|\n if @test_plan.save\n format.html { redirect_to(@test_plan, :notice => 'Test plan was successfully created.') }\n format.xml { render :xml => @test_plan, :status => :created, :location => @test_plan }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @test_plan.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n @testcase = Testcase.new(params[:testcase])\n\n respond_to do |format|\n if @testcase.save\n flash[:notice] = 'Testcase was successfully created.'\n format.html { redirect_to(@testcase) }\n format.xml { render :xml => @testcase, :status => :created, :location => @testcase }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @testcase.errors, :status => :unprocessable_entity }\n end\n end\n end", "def destroy\n @trial = Trial.find(params[:id])\n @trial.destroy\n\n respond_to do |format|\n format.html { redirect_to(trials_url) }\n format.xml { head :ok }\n end\n end", "def destroy\n @trial = Trial.find(params[:id])\n @trial.destroy\n\n respond_to do |format|\n format.html { redirect_to(trials_url) }\n format.xml { head :ok }\n end\n end", "def create\n puts \"My assert Attributes: #{params[:assert]}\"\n @assert = Assert.new(params[:assert])\n\n respond_to do |format|\n if @assert.save\n format.html { redirect_to @assert, notice: 'Assert was successfully created.' }\n format.json { render json: @assert, status: :created, location: @assert }\n else\n format.html { render action: \"new\" }\n format.json { render json: @assert.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @test = TkdTest.new(params[:tkd_test])\n\n respond_to do |format|\n if @test.save\n format.html { redirect_to(:back, :notice => 'Test was successfully created.') }\n format.xml { render :xml => @test, :status => :created, :location => @test }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @test.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n @trial = Trial.find(params[:id])\n\n respond_to do |format|\n if @trial.update_attributes(params[:trial])\n flash[:notice] = 'Trial was successfully updated.'\n format.html { redirect_to(@trial) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @trial.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n @treq = Treq.new(params[:treq])\n \n respond_to do |format|\n if @treq.save\n unless params[:treq_files].blank?\n params[:treq_files]['file'].each do |a|\n @treq_file = @treq.treq_files.create!(:file => a, :treq_id => @treq.id)\n end\n end\n TreqNotifier.submit_treq(@treq).deliver\n format.html { redirect_to @treq, notice: 'Treq was successfully created.' }\n format.json { render json: @treq, status: :created, location: @treq }\n else\n format.html { render action: \"new\", alert: \"Test Requset has been submitted.\"}\n format.json { render json: @treq.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n if @test.done.blank?\n redirect_to root_path, warning: \"This test have not finished yet\"\n return\n end\n params[:submission] = {}\n params[:submission][:user_id] = current_user.id\n @submission = @test.submissions.create(submission_params)\n respond_to do |format|\n if @submission.save\n @test.questions.each do |question|\n question.answers.each do |answer|\n answer.answers_of_questions.create({choice: false, question_id: question.id, submission_id: @submission.id})\n end\n end\n format.html { redirect_to edit_test_submission_path(@test, @submission) }\n else\n format.html { render :new }\n end\n end\n end", "def update\n p = trial_params.clone\n if p[\"question_ids\"].nil?\n p[\"question_ids\"] = []\n end\n\n respond_to do |format|\n if @trial.update(p)\n format.html { redirect_to @trial, notice: 'Trial was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @trial.errors, status: :unprocessable_entity }\n end\n end\n end", "def create_trial_sites_from_xml(trial_xml)\n sites = []\n trial_xml.xpath(\"//location\").each do |site|\n status = site.at(\"status\").text if site.at(\"status\")\n country = site.at(\"country\").text if site.at(\"country\")\n if status == \"Recruiting\" && (country == \"United States\" || country == \"Canada\")\n new_site = Site.new\n new_site.name = site.at(\"name\").text if site.at(\"name\")\n new_site.city = site.at(\"city\").text if site.at(\"city\")\n new_site.state = site.at(\"state\").text if site.at(\"state\")\n new_site.zip = site.at(\"zip\").text if site.at(\"zip\")\n new_site.country = country\n new_site.status = status\n new_site.contact_name = site.at(\"contact/last_name\").text if site.at(\"contact/last_name\")\n new_site.contact_phone = site.at(\"contact/phone\").text if site.at(\"contact/phone\")\n new_site.contact_phone_ext = site.at(\"contact/phone_ext\").text if site.at(\"contact/phone_ext\")\n new_site.contact_email = site.at(\"contact/email\").text if site.at(\"contact/email\")\n new_site.investigator_name = site.at(\"investigator/last_name\").text if site.at(\"investigator/last_name\")\n new_site.investigator_role = site.at(\"investigator/role\").text if site.at(\"investigator/role\")\n lat_long = find_lat_long({ zip: new_site.zip, city: new_site.city, state: new_site.state, country: new_site.country })\n new_site.latitude = lat_long[0]\n new_site.longitude = lat_long[1]\n new_site.save\n sites << new_site\n end\n end\n sites\nend", "def associated_trial_params\n params.require(:associated_trial).permit(:trial_identifier, :identifier_type_id, :trial_id, :official_title, :lock_version, :research_category_name)\n end", "def post\n Typhoeus.post(@url,\n body: @results_hash.to_json,\n headers: { 'Content-Type' => 'application/json' })\n end", "def create\n @taken_step = TakenStep.new(taken_step_params)\n\n respond_to do |format|\n if @taken_step.save\n format.html { redirect_to @taken_step, notice: 'Steps Taken was successfully created.' }\n format.json { render :show, status: :created, location: @taken_step }\n else\n format.html { render :new }\n format.json { render json: @taken_step.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n #not sure why this was here...? @trips = Trip.all\n\n @expense_report = ExpenseReport.new(expense_report_params)\n authorize @expense_report\n @expense_report.submitter = current_account.accountable\n\n @expense_report.actual_expenses.each do |exp|\n exp.requests.each do |req|\n req.amount_from_total = req.percentrequested * exp.total\n req.destination = @expense_report.trip.destination\n req.expense_type = 'actual'\n end\n end\n\n\n respond_to do |format|\n if @expense_report.save\n format.html { redirect_to home_index_path, notice: 'Expense report was successfully created.' }\n format.json { render :show, status: :created, location: @expense_report }\n else\n format.html { render :new }\n format.json { render json: @expense_report.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @test_suite = TestSuite.new(params[:test_suite])\n\n respond_to do |format|\n if @test_suite.save\n format.html { redirect_to(@test_suite, :notice => 'Test suite was successfully created.') }\n format.xml { render :xml => @test_suite, :status => :created, :location => @test_suite }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @test_suite.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n @httparty_test = HttpartyTest.new(httparty_test_params)\n\n respond_to do |format|\n if @httparty_test.save\n format.html { redirect_to @httparty_test, notice: 'Httparty test was successfully created.' }\n format.json { render :show, status: :created, location: @httparty_test }\n else\n format.html { render :new }\n format.json { render json: @httparty_test.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @trip = Trip.new(trip_params)\n authorize @trip\n @trip.submitter = current_account.accountable\n\n\n @trip.estimated_expenses.each do |exp|\n exp.requests.each do |req|\n req.amount_from_total = req.percentrequested * exp.total\n req.destination = @trip.destination\n req.expense_type = 'estimated'\n end\n end\n\n respond_to do |format|\n if @trip.save\n format.html { redirect_to home_index_path, notice: 'Trip was successfully created.' }\n format.json { render :show, status: :created, location: @trip }\n else\n format.html { render :new }\n format.json { render json: @trip.errors, status: :unprocessable_entity }\n end\n end\n end", "def new\n @my_time_trial = MyTimeTrial.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.json { render :json => @my_time_trial }\n end\n end", "def create\n @testcase = Testcase.new(params[:testcase])\n\n respond_to do |format|\n if @testcase.save\n format.html { redirect_to @testcase, :notice => 'Test was successfully created.' }\n format.json { render :json => @testcase, :status => :created, :location => @test }\n else\n format.html { render :action => \"new\" }\n format.json { render :json => @testcase.errors, :status => :unprocessable_entity }\n end\n end\n end", "def test_new_microtask\r\n #@assignment = assignments(:Assignment_Microtask1)\r\n questionnaire_id = questionnaires(:questionnaire1).id\r\n instructorid = users(:instructor1).id\r\n courseid = courses(:course_object_oriented).id,\r\n number_of_topics = SignUpTopic.count\r\n # create a new assignment\r\n post :new, :assignment => { :name => \"Assignment_Microtask1\",\r\n :directory_path => \"CSC517_instructor1/Assignment_Microtask1\",\r\n :submitter_count => 0,\r\n :course_id => courseid,\r\n :instructor_id => instructorid,\r\n :num_reviews => 1,\r\n :num_review_of_reviews => 0,\r\n :num_review_of_reviewers => 0,\r\n :review_questionnaire_id => questionnaire_id,\r\n :reviews_visible_to_all => 0,\r\n :require_signup => 0,\r\n :num_reviewers => 3,\r\n :team_assignment => 0,\r\n :team_count => 1,\r\n :microtask => true }\r\n\r\n assert_response 200\r\n assert Assignment.find(:all, :conditions => \"name = 'Assignment_Microtask1'\")\r\n\r\n end", "def start_trial\n self.trial_started_at = Time.now if self.new_record?\n end", "def index\n @trial_documents = TrialDocument.all\n end", "def create\n @step = Step.new(params[:step])\n @test_case = TestCase.find(params[:test_case_id])\n @step.test_case_id = @test_case.id\n\n if @step.save\n flash[:notice] = \"Successfully created step.\"\n end\n respond_with @step\n end", "def create\n @task = @trial.tasks.new(task_params)\n\n respond_to do |format|\n if @task.save\n comment_task_create_action\n format.html { redirect_to [@committee, @trial], notice: t(:task_successfully_created) }\n else\n format.html do\n redirect_to [@committee, @trial],\n alert: @task.errors.full_messages.to_sentence\n end\n end\n end\n end", "def post_outcome_request\n raise IMS::LTI::InvalidLTIConfigError, \"\" unless has_required_attributes?\n\n res = post_service_request(@lis_outcome_service_url,\n 'application/xml',\n generate_request_xml)\n\n @outcome_response = extend_outcome_response(OutcomeResponse.new)\n @outcome_response.process_post_response(res)\n end", "def create\n @question = Question.new(question_params)\n\n respond_to do |format|\n if @question.save\n QuestionMailer.trial_email(@question).deliver_now\n format.html { redirect_to root_path, notice: 'Your submission was successfully submitted.' }\n format.json { render :show, status: :created, location: @question }\n else\n format.html { render :new }\n format.json { render json: @question.errors, status: :unprocessable_entity }\n end\n end\n end", "def show\n @trial = Trial.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @trial }\n end\n end", "def show\n @trial = Trial.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @trial }\n end\n end", "def create\n @tktest = Tktest.new(params[:tktest])\n\n respond_to do |format|\n if @tktest.save\n format.html { redirect_to @tktest, notice: 'Tktest was successfully created.' }\n format.json { render json: @tktest, status: :created, location: @tktest }\n else\n format.html { render action: \"new\" }\n format.json { render json: @tktest.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n trip = Trip.create(trip_params)\n\n respond_with trip\n end", "def create_retry_test method_name, instructions\n retry_test_uri = HOST + \"retry_test\"\n uri = URI.parse retry_test_uri\n headers = {\"Content-Type\" => \"application/json\"}\n data = {\"instructions\" => {method_name => instructions.to_a}}.to_json\n http = Net::HTTP.new uri.host, uri.port\n request = Net::HTTP::Post.new uri.request_uri, headers\n request.body = data\n http.request request\n end", "def create\n @assert = Assert.new(params[:assert])\n\n respond_to do |format|\n if @assert.save\n format.html { redirect_to @assert, notice: 'Assert was successfully created.' }\n format.json { render json: @assert, status: :created, location: @assert }\n else\n format.html { render action: \"new\" }\n format.json { render json: @assert.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @trainees = TraineeBatch.new(params[:participants][:ids], params[:training_calendar_id])\n respond_to do |format|\n if @trainees.save\n format.html { redirect_to training_calendar_path(params[:training_calendar_id]), :notice => 'The participant(s) were successfully added.' }\n format.json { render :json => @trainees, :status => :created, :location => @trainees }\n else\n format.html { render :action => \"new\" }\n format.json { render :json => @trainees.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n @weekly_expectation = WeeklyExpectation.new(params[:weekly_expectation])\n\n respond_to do |format|\n if @weekly_expectation.save\n format.html { redirect_to @weekly_expectation, notice: 'Weekly expectation was successfully created.' }\n format.json { render json: @weekly_expectation, status: :created, location: @weekly_expectation }\n else\n format.html { render action: \"new\" }\n format.json { render json: @weekly_expectation.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @tenure = Tenure.new(params[:tenure])\n\n respond_to do |format|\n if @tenure.save\n format.html { redirect_to @tenure, notice: 'Tenure was successfully created.' }\n format.json { render json: @tenure, status: :created, location: @tenure }\n else\n format.html { render action: \"new\" }\n format.json { render json: @tenure.errors, status: :unprocessable_entity }\n end\n end\n end", "def trips\n get '/gtfs/trips'\n end", "def create\n logger.debug \"---------------------\"\n logger.debug \"---------------------\"\n @testing = Testing.new(params[:testing])\n\n respond_to do |format|\n if @testing.save\n format.html { redirect_to(@testing, :notice => 'Testing was successfully created.') }\n format.xml { render :xml => @testing, :status => :created, :location => @testing }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @testing.errors, :status => :unprocessable_entity }\n end\n end\n end", "def destroy\n @trial.destroy\n respond_to do |format|\n format.html { redirect_to trials_url }\n format.json { head :no_content }\n end\n end", "def create(name=\"Default Name\", age=\"50\")\r\n xml_req =\r\n \"<?xml version='1.0' encoding='UTF-8'?>\r\n <person>\r\n <name>#{name}</name>\r\n <age>#{age}</age>\r\n </person>\"\r\n \r\n request = Net::HTTP::Post.new(@url)\r\n request.add_field \"Content-Type\", \"application/xml\"\r\n request.body = xml_req\r\n \r\n http = Net::HTTP.new(@uri.host, @uri.port)\r\n response = http.request(request)\r\n response.body \r\n end", "def create\n @tester = Tester.new(params[:tester])\n \n\n respond_to do |format|\n if @tester.save\n tester = @tester\n session[:tester_id] = tester.id\n format.html { redirect_to @tester, notice: 'Tester was successfully created.' }\n format.json { render json: @tester, status: :created, location: @tester }\n else\n format.html { render action: \"new\" }\n format.json { render json: @tester.errors, status: :unprocessable_entity }\n end\n end\n end", "def index\n @associated_trials = AssociatedTrial.all\n end", "def create\n @survey_tung = SurveyTung.new(params[:survey_tung])\n\n respond_to do |format|\n if @survey_tung.save\n format.html { redirect_to(@survey_tung, :notice => 'Survey tung was successfully created.') }\n format.xml { render :xml => @survey_tung, :status => :created, :location => @survey_tung }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @survey_tung.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n @testpat = Testpat.new(testpat_params)\n\n respond_to do |format|\n if @testpat.save\n format.html { redirect_to @testpat, notice: 'Testpat was successfully created.' }\n format.json { render action: 'show', status: :created, location: @testpat }\n else\n format.html { render action: 'new' }\n format.json { render json: @testpat.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @testcase = Testcase.find(params[:testcase_id])\n @step = @testcase.steps.new(step_params)\n byebug\n if @step.save\n render :show, status: :created\n else\n render json: @step.errors, status: :unprocessable_entity\n end\n end", "def create\n @stepsix = Stepsix.new(params[:stepsix])\n\n respond_to do |format|\n if @stepsix.save\n format.html { redirect_to(root_path, :notice => 'Stepsix was successfully created.') }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @stepsix.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n @test_suite = TestSuite.new(test_suite_params)\n\n respond_to do |format|\n if @test_suite.save\n format.html { redirect_to @test_suite, notice: 'Test suite was successfully created.' }\n format.json { render :show, status: :created, location: @test_suite }\n else\n format.html { render :new }\n format.json { render json: @test_suite.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @test_stall = TestStall.new(test_stall_params)\n\n respond_to do |format|\n if @test_stall.save\n format.html { redirect_to @test_stall, notice: 'Test stall was successfully created.' }\n format.json { render :show, status: :created, location: @test_stall }\n else\n format.html { render :new }\n format.json { render json: @test_stall.errors, status: :unprocessable_entity }\n end\n end\n end", "def generatesingletestplan\n\trelease = params[:release]\n\tpriority = params[:priority]\n\texectype = params[:exectype]\n\ttimelimit = params[:timelimit]\n\t# получаем с сервера нужные данные\n\tmds = Hash.new()\n\tTCPSocket.open('172.20.5.130', 2000){ |client|\n\t\t# say Hello to server\n\t\tclient.puts \"MasterOnline\"\n\t\tclient.gets\n\t\tclient.puts \"master_set get_singletestplan #{release} #{priority} #{exectype} #{timelimit}\"\n\t\tmds = JSON.parse(client.gets)\n\t\tclient.puts \"master_set close_connection\"\n\t}\n\t# подготавливаем данные для отправки на веб страницу\n\tnewTree = mds\n\t#newTree = newTree[\"TestItem\"][0]\n\t# новое дерево\n\t# вводим фиктивную вершину\n\tvalue = Hash.new()\n\tvalue[:data] = \"Тестирование \" + release\n\t\tfalseAttr = Hash.new()\n\t\tfalseAttr[:class] = \"jstree-checked\"\n\t\tfalseAttr[:id] = \"0001\"\n\t\tfalseAttr[:MethodName] = \"\"\n\t\tfalseAttr[:UnitName] = \"\"\n\tvalue[:attr] = falseAttr\n\t# получаем дерево\n\tchildrens = Array.new()\n\tnewTree[\"TestItem\"].each do |x|\n\t\ttree = createTreeForView(x)\n\t\tchildrens.push(tree)\n\tend\n\tvalue[:children] = childrens\n\trawarray = { :data => value}\n\tmds_for_send = rawarray.to_json\n\trender :text => mds_for_send\n end", "def post\n Rentlinx.client.post(self)\n end", "def create\n @tps_report = TpsReport.new(params[:tps_report])\n\n respond_to do |format|\n if @tps_report.save\n format.html { redirect_to(@tps_report, :notice => 'Tps report was successfully created.') }\n format.xml { render :xml => @tps_report, :status => :created, :location => @tps_report }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @tps_report.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n runway = qx_take_off_params[:runway].split(\"/\")\n runway.each do |item|\n qx_take_off_params[:runway_id] = Qx::Runway.get_runay_id(qx_take_off_params[:airport_id], item)\n @qx_take_off = Qx::TakeOff.new(qx_take_off_params)\n end\n\n\n p runway\n\n respond_to do |format|\n if @qx_take_off.save\n format.html { redirect_to @qx_take_off, notice: 'Take off was successfully created.' }\n format.json { render :show, status: :created, location: @qx_take_off }\n else\n format.html { render :new }\n format.json { render json: @qx_take_off.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @test_suite = TestSuite.new(params[:test_suite])\n\n respond_to do |format|\n if @test_suite.save\n format.html { redirect_to @test_suite, notice: 'Test suite was successfully created.' }\n format.json { render json: @test_suite, status: :created, location: @test_suite }\n else\n format.html { render action: \"new\" }\n format.json { render json: @test_suite.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @witness = Witness.new(witness_params)\n\n respond_to do |format|\n if @witness.save\n WitnessMailer.new_witness(@witness).deliver_later\n format.html { redirect_to \"https://petro.com.co/gracias-testigos/\", notice: 'Witness was successfully created.' }\n else\n format.html { render :new }\n end\n end\n end", "def create\n @trax = Trax.new(trax_params)\n\n respond_to do |format|\n if @trax.save\n format.html { redirect_to @trax, notice: 'Trax was successfully created.' }\n format.json { render :show, status: :created, location: @trax }\n else\n format.html { render :new }\n format.json { render json: @trax.errors, status: :unprocessable_entity }\n end\n end\n end", "def set_trial_document\n @trial_document = TrialDocument.find(params[:id])\n end", "def create_twit(twit)\n RestClient.post configuration.base_url + '/twits',\n { twit: twit }.to_json,\n content_type: :json,\n accept: :json\n end", "def suscriber_wm\n\t\turi = URI(\"http://staging.benchprep.com/api/v1/test/fixtures.json\")\t\n\n\t\tres = Net::HTTP.post_form(uri, 'email' => 'integration-tester+1@benchprep.com&enrollments_persona=subscriber&devices_persona=web_and_mobile')\n\t\t# write this output to a file\n\t\toutput = File.open( \"spec/fixtures/sp_wm_persona.json\",'w' ){|f| \n\t\t\tf.flock(File::LOCK_EX)\n\t\t\tf.write(res.body)\n\t\t}\n\n\t\t# Now parse this string as json\n\t\tjson = File.read('spec/fixtures/sp_wm_persona.json')\n\t\templs = JSON.parse(json)\n\n\t\treturn empls #pretty printed output\n\tend", "def post(path, data = {})\n # Allow format override\n format = data.delete(:format) || @format\n # Clear cache\n expire_matching \"#{raw_path(path)}.*\"\n # Extract return unit params\n query_params = {}\n query_params[:returnUnit] = data.delete(:returnUnit) if data[:returnUnit]\n query_params[:returnPerUnit] = data.delete(:returnPerUnit) if data[:returnPerUnit]\n # Create POST request\n post_params = {\n :verbose => DEBUG,\n :method => \"post\",\n :body => form_encode(data)\n }\n post_params[:params] = query_params unless query_params.empty?\n post = Typhoeus::Request.new(\"#{protocol}#{@server}#{path}\", post_params)\n # Send request\n do_request(post, format) \n end", "def create\n @assertion = Assertion.new(assertion_params)\n @assertion[:verify] = { type: \"hosted\", url: \"http://frozen-dawn-78535.herokuapp.com/assertions/#{@assertion.id}\" }\n\n respond_to do |format|\n if @assertion.save\n format.html { redirect_to assertions_path, notice: 'Assertion was successfully created.' }\n format.json { render :show, status: :created, location: @assertion }\n else\n format.html { render :new }\n format.json { render json: @assertion.errors, status: :unprocessable_entity }\n end\n end\n end", "def do_submission(path, xml = nil)\n if xml.nil?\n form = create(:form, question_types: %w(integer integer))\n form.publish!\n xml = build_odk_submission(form)\n end\n\n # write xml to file\n require 'fileutils'\n FileUtils.mkpath('test/fixtures')\n fixture_file = Rails.root.join('test/fixtures/', ODK_XML_FILE)\n File.open(fixture_file.to_s, 'w') { |f| f.write(xml) }\n\n # Upload and do request.\n uploaded = fixture_file_upload(fixture_file, 'text/xml')\n post(path, {:xml_submission_file => uploaded, :format => 'xml'}, 'HTTP_AUTHORIZATION' => encode_credentials(@user.login, 'password'))\n assigns(:response)\n end", "def create\n @tour_request = TourRequest.new(tour_request_params)\n\n respond_to do |format|\n if @tour_request.save\n format.html { redirect_to @tour_request, notice: 'Tour request was successfully created.' }\n format.json { render :show, status: :created, location: @tour_request }\n else\n format.html { render :new }\n format.json { render json: @tour_request.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @timetable = Timetable.new(timetable_params)\n @timetable.save\n respond_with [@timetable.lesson,@timetable]\n end", "def create\n @moresmalltrial = Moresmalltrial.new(params[:moresmalltrial])\n\n respond_to do |format|\n if @moresmalltrial.save\n format.html { redirect_to @moresmalltrial, notice: 'Moresmalltrial was successfully created.' }\n format.json { render json: @moresmalltrial, status: :created, location: @moresmalltrial }\n else\n format.html { render action: \"new\" }\n format.json { render json: @moresmalltrial.errors, status: :unprocessable_entity }\n end\n end\n end", "def create\n @rant = Rant.new(params[:rant])\n\n respond_to do |format|\n if @rant.save\n format.html { redirect_to(@rant, :notice => 'Rant was successfully created.') }\n format.xml { render :xml => @rant, :status => :created, :location => @rant }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @rant.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n @technician = Technician.new(params[:technician])\n\n respond_to do |format|\n if @technician.save\n format.html { redirect_to(@technician, :notice => 'Technician was successfully created.') }\n format.xml { render :xml => @technician, :status => :created, :location => @technician }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @technician.errors, :status => :unprocessable_entity }\n end\n end\n end", "def test_save_advice\r\n \r\n post :save_advice, :id => @Questionnaire, :advice => { \"1\"=> { :advice => \"test\" } } \r\n \r\n assert_response :redirect\r\n assert_equal \"The questionnaire's question advice was successfully saved\", flash[:notice]\r\n assert_redirected_to :action => 'list'\r\n end", "def create\n @gtfs_trip = GtfsTrip.new(params[:gtfs_trip])\n\n respond_to do |format|\n if @gtfs_trip.save\n format.html { redirect_to(@gtfs_trip, :notice => 'Gtfs trip was successfully created.') }\n format.xml { render :xml => @gtfs_trip, :status => :created, :location => @gtfs_trip }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @gtfs_trip.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n @smoke_test = SmokeTest.new(params[:smoke_test])\n\n respond_to do |format|\n if @smoke_test.save\n format.html { redirect_to(@smoke_test, :notice => 'Smoke test was successfully created.') }\n format.json { render :json => @smoke_test, :status => :created, :location => @smoke_test }\n format.xml { render :xml => @smoke_test, :status => :created, :location => @smoke_test }\n else\n format.html { render :action => \"new\" }\n format.json { render :json => @smoke_test.errors, :status => :unprocessable_entity }\n format.xml { render :xml => @smoke_test.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n @trip_story = TripStory.new(params[:trip_story])\n\n respond_to do |format|\n if @trip_story.save\n flash[:notice] = 'TripStory was successfully created.'\n format.html { redirect_to(@trip_story) }\n format.xml { render :xml => @trip_story, :status => :created, :location => @trip_story }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @trip_story.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n HTTParty.post(create_url, :options => { :headers => HEADERS })\n end", "def index\n @trial_models = TrialModel.all\n end", "def test_index \n post :index \n assert_response :success \n end", "def create\n @initial_survey = InitialSurvey.new(initial_survey_params)\n cookies[:user] = @initial_survey.user\n\n respond_to do |format|\n if @initial_survey.save\n format.html { redirect_to new_simulation_path, notice: 'Initial survey was successfully created.' }\n format.json { render :show, status: :created, location: @initial_survey }\n else\n format.html { render :new }\n format.json { render json: @initial_survey.errors, status: :unprocessable_entity }\n end\n end\n end", "def testing_params\n params.require(:testing).permit(:requiredtests, :name, :customer, :description, :supplier, :supplierrefferenceno, :leadtime, :testdate, :results, :retestdate, :reresults, :cost, :trackingsheet)\n end", "def show\n @trial = Trial.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.json { render json: @trial }\n end\n end", "def create\n @stepthirteen = Stepthirteen.new(params[:stepthirteen])\n\n respond_to do |format|\n if @stepthirteen.save\n format.html { redirect_to(root_path, :notice => 'Stepthirteen was successfully created.') }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @stepthirteen.errors, :status => :unprocessable_entity }\n end\n end\n end" ]

[ "0.7127306", "0.6726273", "0.6597655", "0.6336137", "0.6316415", "0.62623215", "0.6139367", "0.6121985", "0.60838497", "0.5993323", "0.5978392", "0.59493846", "0.5913752", "0.58503157", "0.5799361", "0.5752214", "0.5673787", "0.56559587", "0.55617106", "0.5474019", "0.54655564", "0.5342064", "0.5327969", "0.5311458", "0.53024185", "0.52798724", "0.52798724", "0.52615535", "0.5259527", "0.5236699", "0.5228422", "0.5220747", "0.519932", "0.5197611", "0.51948637", "0.51947445", "0.5194293", "0.519357", "0.51935697", "0.51793957", "0.5177411", "0.51614165", "0.51481247", "0.5139449", "0.51331055", "0.5121395", "0.51134455", "0.51054406", "0.51007694", "0.5100374", "0.50990665", "0.50990665", "0.50958437", "0.509061", "0.50853366", "0.508153", "0.506523", "0.50617737", "0.50522393", "0.5051525", "0.50376034", "0.5036817", "0.5033889", "0.50315154", "0.50309306", "0.5028534", "0.5026303", "0.5018929", "0.50163186", "0.5015584", "0.50059295", "0.5005665", "0.4998695", "0.49932152", "0.4993049", "0.4992686", "0.49899378", "0.49892253", "0.49852857", "0.49823198", "0.49777246", "0.49761295", "0.49704066", "0.49656004", "0.49632785", "0.49627873", "0.49554053", "0.49550024", "0.49544212", "0.49513808", "0.49509317", "0.4950001", "0.4947911", "0.4945331", "0.49434698", "0.4941692", "0.49391553", "0.49389532", "0.49367055", "0.49329028" ]

[ "def update\n p = trial_params.clone\n if p[\"question_ids\"].nil?\n p[\"question_ids\"] = []\n end\n\n respond_to do |format|\n if @trial.update(p)\n format.html { redirect_to @trial, notice: 'Trial was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: 'edit' }\n format.json { render json: @trial.errors, status: :unprocessable_entity }\n end\n end\n end", "def set_trial\n @trial = Trial.find(params[:id])\n end", "def set_trial\n @trial = Trial.find(params[:id])\n end", "def update opts = {}\n opts[:headers] ||= {}\n opts[:headers]['Content-Type'] ||= 'text/xml'\n post 'update', opts\n end", "def test_should_update_project_via_API_XML\r\n get \"/logout\"\r\n put \"/projects/1.xml\", :project => {:user_id => 1,\r\n :url => 'http://www.apiproject.com',\r\n :name => 'API Project',\r\n :description => 'API Project Desc' }\r\n assert_response 401\r\n end", "def update\n @my_time_trial = MyTimeTrial.find(params[:id])\n\n respond_to do |format|\n if @my_time_trial.update_attributes(params[:my_time_trial])\n format.html { redirect_to @my_time_trial, :notice => 'My time trial was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render :action => \"edit\" }\n format.json { render :json => @my_time_trial.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n @trial = Trial.new(params[:trial])\n\n respond_to do |format|\n if @trial.save\n flash[:notice] = 'Trial was successfully created.'\n format.html { redirect_to(@trial) }\n format.xml { render :xml => @trial, :status => :created, :location => @trial }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @trial.errors, :status => :unprocessable_entity }\n end\n end\n end", "def test_put_invoices_1_xml\n @parameters = {:invoice => {:number => 'NewNumber'}}\n \n Redmine::ApiTest::Base.should_allow_api_authentication(:put,\n '/invoices/1.xml',\n {:invoice => {:number => 'NewNumber'}},\n {:success_code => :ok})\n \n assert_no_difference('Invoice.count') do\n put '/invoices/1.xml', @parameters, credentials('admin')\n end\n \n invoice = Invoice.find(1)\n assert_equal \"NewNumber\", invoice.number\n \n end", "def create\n @trial = Trial.new(params[:trial])\n\n respond_to do |format|\n if @trial.save\n format.html { redirect_to(@trial, :notice => 'Trial was successfully created.') }\n format.xml { render :xml => @trial, :status => :created, :location => @trial }\n else\n format.html { render :action => \"new\" }\n format.xml { render :xml => @trial.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @trial_document.update(trial_document_params)\n format.html { redirect_to @trial_document, notice: 'Trial document was successfully updated.' }\n format.json { render :show, status: :ok, location: @trial_document }\n else\n format.html { render :edit }\n format.json { render json: @trial_document.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @associated_trial.update(associated_trial_params)\n format.html { redirect_to @associated_trial, notice: 'Associated trial was successfully updated.' }\n format.json { render :show, status: :ok, location: @associated_trial }\n else\n format.html { render :edit }\n format.json { render json: @associated_trial.errors, status: :unprocessable_entity }\n end\n end\n end", "def test_should_update_invite_via_API_XML\r\n get \"/logout\"\r\n put \"/invites/1.xml\", :invite => {:message => 'API Invite 1',\r\n :accepted => false,\r\n :email => 'test@email.com',\r\n :user_id => 1 }\r\n assert_response 401\r\n end", "def update\n respond_to do |format|\n if @trial_model.update(trial_model_params)\n format.html { redirect_to @trial_model, notice: 'Trial model was successfully updated.' }\n format.json { render :show, status: :ok, location: @trial_model }\n else\n format.html { render :edit }\n format.json { render json: @trial_model.errors, status: :unprocessable_entity }\n end\n end\n end", "def set_trial_document\n @trial_document = TrialDocument.find(params[:id])\n end", "def update\n respond_to do |format|\n if @time_trial.update(time_trial_params)\n format.html { redirect_to @time_trial, notice: 'Time trial was successfully updated.' }\n format.json { render :show, status: :ok, location: @time_trial }\n else\n format.html { render :edit }\n format.json { render json: @time_trial.errors, status: :unprocessable_entity }\n end\n end\n end", "def update(id, name=\"Updated Name\", age=\"55\")\r\n xml_req =\r\n \"<?xml version='1.0' encoding='UTF-8'?>\r\n <person>\r\n <id type='integer'>#{id}</id>\r\n <name>#{name}</name>\r\n <age>#{age}</age> \r\n </person>\"\r\n request = Net::HTTP::Put.new(\"#{@url}/#{id}.xml\")\r\n request.add_field \"Content-Type\", \"application/xml\"\r\n request.body = xml_req\r\n http = Net::HTTP.new(@uri.host, @uri.port)\r\n response = http.request(request)\r\n # no response body will be returned\r\n case response\r\n when Net::HTTPSuccess\r\n return \"#{response.code} OK\"\r\n else\r\n return \"#{response.code} ERROR\"\r\n end\r\n end", "def set_time_trial\n @time_trial = TimeTrial.find(params[:id])\n end", "def test_put\n header 'Content-Type', 'application/json'\n\n data = File.read 'sample-traces/0.json'\n post('/traces', data, 'CONTENT_TYPE': 'application/json')\n\n contents = last_response.body\n contents_id = contents['_id']\n\n data = File.read 'sample-traces/1.json'\n put(\"/traces/#{contents_id}\", data, 'CONTENT_TYPE': 'application/json')\n contents = last_response.body\n\n assert_equal contents_id, contents['_id']\n end", "def update\n @mosttinytrial = Mosttinytrial.find(params[:id])\n\n respond_to do |format|\n if @mosttinytrial.update_attributes(params[:mosttinytrial])\n format.html { redirect_to @mosttinytrial, notice: 'Mosttinytrial was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @mosttinytrial.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @testcase = Testcase.find(params[:id])\n\n respond_to do |format|\n if @testcase.update_attributes(params[:testcase])\n flash[:notice] = 'Testcase was successfully updated.'\n format.html { redirect_to(@testcase) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @testcase.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update #updates the settings of a trial, like its start and end dates and its goals\n @trial = Trial.find(params[:id])\n logger.info(\"updating trial:\")\n logger.info(@trial)\n\n session[:current_tab] = 'settings'\n params[:trial][:startDate] = Date.strptime(params[:trial][:startDate], '%m/%d/%Y')\n params[:trial][:endDate] = Date.strptime(params[:trial][:endDate], '%m/%d/%Y')\n\n respond_to do |format|\n if @trial.update_attributes(params[:trial])\n format.html { redirect_to :controller => 'home', :action => 'index'}\n format.json { head :no_content }\n else\n flash[:nameerror] = 'You must have a Trial Name!'\n format.html {redirect_to :back} #{ render action: \"edit\" }\n format.json { render json: @trial.errors, status: :unprocessable_entity }\n end\n end\n end", "def create_trial_from_xml(trial_xml)\n trial = Trial.new\n trial[:org_study_id] = trial_xml.xpath(\"//id_info//org_study_id\").text\n trial[:secondary_id] = trial_xml.xpath(\"//id_info//secondary_id\").text\n trial[:nct_id] = trial_xml.xpath(\"//nct_id\").text\n trial[:nct_alias] = trial_xml.xpath(\"//nct_alias\").text\n trial[:brief_title] = trial_xml.xpath(\"//brief_title\").text\n trial[:official_title] = trial_xml.xpath(\"//official_title\").text\n trial[:lead_sponsor_name] = trial_xml.xpath(\"//sponsors//lead_sponsor//agency\").text\n trial[:lead_sponsor_class] = trial_xml.xpath(\"//sponsors//lead_sponsor//agency_class\").text\n trial[:brief_summary] = trial_xml.xpath(\"//brief_summary//textblock\").text\n trial[:detailed_description] = trial_xml.xpath(\"//detailed_description//textblock\").text\n trial[:overall_status] = trial_xml.xpath(\"//overall_status\").text\n trial[:start_date] = trial_xml.xpath(\"//start_date\").text\n trial[:phase] = trial_xml.xpath(\"//phase\").text\n trial[:study_type] = trial_xml.xpath(\"//study_type\").text\n trial[:study_design] = trial_xml.xpath(\"//study_design\").text\n trial[:primary_outcome_measure] = trial_xml.xpath(\"//primary_outcome//measure\").text\n trial[:primary_outcome_time_frame] = trial_xml.xpath(\"//primary_outcome//time_frame\").text\n trial[:primary_outcome_safety_issue] = trial_xml.xpath(\"//primary_outcome//safety_issue\").text\n trial[:secondary_outcome_measure] = trial_xml.xpath(\"//secondary_outcome//measure\").text\n trial[:secondary_outcome_time_frame] = trial_xml.xpath(\"//secondary_outcome//time_frame\").text\n trial[:secondary_outcome_safety_issue] = trial_xml.xpath(\"//secondary_outcome//safety_issue\").text\n trial[:number_of_groups] = trial_xml.xpath(\"//number_of_arms\").text\n trial[:enrollment] = trial_xml.xpath(\"//enrollment\").text\n trial[:condition] = trial_xml.xpath(\"//condition\").text\n trial[:arm_group_label] = trial_xml.xpath(\"//arm_group//arm_group_label\").text\n trial[:arm_group_description] = trial_xml.xpath(\"//arm_group//description\").text\n trial[:eligibility_criteria_text] = trial_xml.xpath(\"//eligibility//criteria//textblock\").text\n trial[:gender] = trial_xml.xpath(\"//eligibility//gender\").text\n trial[:minimum_age] = clean_raw_age(trial_xml.xpath(\"//eligibility//minimum_age\").text, \"0\")\n trial[:maximum_age] = clean_raw_age(trial_xml.xpath(\"//eligibility//maximum_age\").text, \"150\")\n trial[:overall_official_name] = trial_xml.xpath(\"//overall_official//last_name\").text\n trial[:overall_official_role] = trial_xml.xpath(\"//overall_official//role\").text\n trial[:overall_official_affiliation] = trial_xml.xpath(\"//overall_official//affiliation\").text\n trial[:overall_contact_name] = trial_xml.xpath(\"//overall_contact//last_name\").text\n trial[:overall_contact_email] = trial_xml.xpath(\"//overall_contact//email\").text\n trial[:overall_contact_phone] = trial_xml.xpath(\"//overall_contact//phone\").text\n trial[:results_reference_citation] = trial_xml.xpath(\"//results_reference//citation\").text\n trial[:results_reference_PMID] = trial_xml.xpath(\"//results_reference//pmid\").text\n trial[:verification_date] = trial_xml.xpath(\"//verification_date\").text\n trial[:lastchanged_date] = trial_xml.xpath(\"//lastchanged_date\").text\n trial[:firstreceived_date] = trial_xml.xpath(\"//firstreceived_date\").text\n trial[:responsible_party_type] = trial_xml.xpath(\"//responsible_party_type\").text\n trial[:keyword] = trial_xml.xpath(\"//keyword\").text\n trial[:is_fda_regulated] = trial_xml.xpath(\"//is_fda_regulated\").text\n trial[:has_expanded_access] = trial_xml.xpath(\"//has_expanded_access\").text\n trial[:condition_browse_mesh_term] = trial_xml.xpath(\"//condition_browse//mesh_term\").text\n trial.save\n trial\nend", "def update\n @stepsix = Stepsix.find(params[:id])\n\n respond_to do |format|\n if @stepsix.update_attributes(params[:stepsix])\n format.html { redirect_to(root_path, :notice => 'Stepsix was successfully updated.') }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @stepsix.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update(id, name= \"Updated Name\")\n xml_req =\n \"<?xml version='1.0' encoding='UTF-8'?>\n <customer>\n <id type='integer'>#{id}</id>\n <name>#{name}</name>\n </customer>\"\n\n request = Net::HTTP::Put.new(\"#{@url}/#{id}.xml\")\n request.add_field \"Content-Type\", \"application/xml\"\n request.body = xml_req\n\n http = Net::HTTP.new(@uri.host, @uri.port)\n response = http.request(request)\n\n # no response body will be returned\n case response\n when Net::HTTPSuccess\n return \"#{response.code} OK\"\n else\n return \"#{response.code} ERROR\"\n end\n end", "def update\n @tso = Tso.find(params[:id])\n\n respond_to do |format|\n if @tso.update_attributes(params[:tso])\n flash[:notice] = 'Tso was successfully updated.'\n format.html { redirect_to(@tso) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @tso.errors, :status => :unprocessable_entity }\n end\n end\n end", "def test_should_update_link_via_API_XML\r\n get \"/logout\"\r\n put \"/links/1.xml\", :link => {:user_id => 1,\r\n :title => 'API Link 1',\r\n :url => 'http://www.api.com'}\r\n assert_response 401\r\n end", "def update\n @t1 = T1.find(params[:id])\n\n respond_to do |format|\n if @t1.update_attributes(params[:t1])\n flash[:notice] = 'T1 was successfully updated.'\n format.html { redirect_to(@t1) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @t1.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n @trip_story = TripStory.find(params[:id])\n\n respond_to do |format|\n if @trip_story.update_attributes(params[:trip_story])\n flash[:notice] = 'TripStory was successfully updated.'\n format.html { redirect_to(@trip_story) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @trip_story.errors, :status => :unprocessable_entity }\n end\n end\n end", "def put(uri, xml)\r\n req = Net::HTTP::Put.new(uri)\r\n req[\"content-type\"] = \"application/xml\"\r\n req.body = xml\r\n request(req)\r\n end", "def update\n @step = Step.find(params[:id])\n @test_case = TestCase.find(params[:test_case_id])\n @step.test_case_id = @test_case.id\n\n if @step.update_attributes(params[:step])\n flash[:notice] = 'Step was successfully updated.'\n end\n respond_with @step\n end", "def update!\n @authorize = nil\n update_plan! &&\n resp = put(\"/users/#{username}.xml\", {\n :user_key => apikey,\n \"user[first_name]\" => first_name,\n \"user[last_name]\" => last_name\n })\n end", "def destroy\n @trial = Trial.find(params[:id])\n @trial.destroy\n\n respond_to do |format|\n format.html { redirect_to(trials_url) }\n format.xml { head :ok }\n end\n end", "def destroy\n @trial = Trial.find(params[:id])\n @trial.destroy\n\n respond_to do |format|\n format.html { redirect_to(trials_url) }\n format.xml { head :ok }\n end\n end", "def create\n @trial = Trial.new(trial_params)\n\n respond_to do |format|\n if @trial.save\n format.html { redirect_to @trial, notice: 'Trial was successfully created.' }\n format.json { render action: 'show', status: :created, location: @trial }\n else\n format.html { render action: 'new' }\n format.json { render json: @trial.errors, status: :unprocessable_entity }\n end\n end\n end", "def solveticket(assigneeid, ticketidxml)\n\n raise ArgumentError.new(\"no assignee is present\") if assigneeid.empty?\n raise ArgumentError.new(\"ticketid is present text provided\") if ticketidxml.empty?\n\n xml = createsolvedticketxml(assigneeid)\n\n begin\n resource = RestClient::Resource.new @hostname, @username, @password\n url = 'tickets/'+ ticketidxml\n httpresponse = resource[url].put xml.to_s, :content_type => 'application/xml', :accept => '*/*'\n processresponse(httpresponse) # call success handler\n rescue => e\n processerror(e) # call error handler\n end\n\n end", "def rest_update(uri, method: Net::HTTP::Put)\n request = Net::HTTP::Get.new uri\n request.add_field(\"Accept\",\"application/xml\")\n auth_admin(request)\n \n Net::HTTP.start(uri.host, uri.port) do |http|\n response = http.request request\n response.value\n\n doc = REXML::Document.new response.body\n \n doc = strip_class_attributes(yield doc)\n \n request2 = method.new uri\n request2.content_type = 'application/xml'\n auth_admin(request2)\n\n request2.body=doc.to_s\n \n response2 = http.request request2\n response.value\n\n end\n \nend", "def update\n @atest = Atest.find(params[:id])\n\n respond_to do |format|\n if @atest.update_attributes(params[:atest])\n flash[:notice] = 'Atest was successfully updated.'\n format.html { redirect_to(@atest) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @atest.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n @step = TaskrequestsStep.find(params[:taskrequests_step_id])\n @absence_request = @step.absence_requests.find(params[:id])\n\n respond_to do |format|\n if @absence_request.update_attributes(params[:absence_request])\n format.html { redirect_to(@absence_request, :notice => 'Absence request was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @absence_request.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update_tenant_maintenance_window(args = {}) \n id = args['id']\n temp_path = \"/tenants.json/maintenance/{tenantId}\"\n path = temp_path\nargs.keys.each do |key|\n if (key == \"tenantId\")\n args.delete(key)\n path = temp_path.gsub(\"{#{key}}\", id)\n end\nend\n puts \" PATH : #{path}\"\n put(path, args)\nend", "def trial_params\n params.require(:trial).permit(:id, :name, :description, :summary, :organization_id, :question_id,{ :question_ids => []})\n end", "def update\n @test_test = TestTest.find(params[:id])\n\n respond_to do |format|\n if @test_test.update_attributes(params[:test_test])\n format.html { redirect_to(@test_test, :notice => 'TestTest was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @test_test.errors, :status => :unprocessable_entity }\n end\n end\n end", "def test_update\n\n doc_one = document_types(:doc_one)\n document_type = DocumentType.find(doc_one.id)\n document_type.name = 'Test'\n\n get(:update, { :document_type => document_type.attributes }, cathy_admin_session)\n assert_equal('Update recorded', flash['notice'])\n assert_equal('Test', document_type.name)\n assert_redirected_to(:action => 'edit', :id => document_type.id)\n \n end", "def update\n @xml_sample = XmlSample.find(params[:id])\n \n respond_to do |format|\n format.html do\n @xml_sample = XmlSample.update_attributes(params[:xml_sample])\n if @xml_sample.save\n return redirect_to @xml_sample, notice: 'Xml sample was successfully updated.'\n else\n return render action: \"new\"\n end\n end\n format.xml do\n rexml = REXML::Document.new(params[\"xml\"])\n attr = Hash.from_xml(rexml.to_s)\n if @xml_sample.update_attributes(attr[\"xmlsample\"])\n xml = {msg: \"complete\", status: \"OK\"}.to_xml\n else\n xml = {msg: \"failed\", status: \"NG\"}.to_xml\n end\n return render xml: xml\n end\n end\n end", "def update\n @testcase = Testcase.find(params[:id])\n\n respond_to do |format|\n if @testcase.update_attributes(params[:testcase])\n format.html { redirect_to @testcase, :notice => 'Test was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render :action => \"edit\" }\n format.json { render :json => @testcase.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n @medium_trial = MediumTrial.find(params[:id])\n\n respond_to do |format|\n if @medium_trial.update_attributes(params[:medium_trial])\n format.html { redirect_to @medium_trial, notice: 'Medium trial was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @medium_trial.errors, status: :unprocessable_entity }\n end\n end\n end", "def test_put_expenses_1_xml\n @parameters = {:expense => {:description => 'NewDescription'}}\n if ActiveRecord::VERSION::MAJOR < 4\n Redmine::ApiTest::Base.should_allow_api_authentication(:put,\n '/expenses/1.xml',\n {:expense => {:description => 'NewDescription'}},\n {:success_code => :ok})\n end\n\n assert_no_difference('Expense.count') do\n put '/expenses/1.xml', @parameters, credentials('admin')\n end\n\n expense = Expense.find(1)\n assert_equal \"NewDescription\", expense.description\n end", "def update\n @test = TkdTest.find(params[:id])\n\n respond_to do |format|\n if @test.update_attributes(params[:tkd_test])\n format.html { redirect_to(@test, :notice => 'Test was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @test.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n logger.debug \"---------------------\"\n logger.debug \"---------------------\"\n @testing = Testing.find(params[:id])\n\n respond_to do |format|\n if @testing.update_attributes(params[:testing])\n format.html { redirect_to(@testing, :notice => 'Testing was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @testing.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n @stepthirteen = Stepthirteen.find(params[:id])\n\n respond_to do |format|\n if @stepthirteen.update_attributes(params[:stepthirteen])\n format.html { redirect_to(@stepthirteen, :notice => 'Stepthirteen was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @stepthirteen.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n @assert = Assert.find(params[:id])\n\n respond_to do |format|\n if @assert.update_attributes(params[:assert])\n format.html { redirect_to @assert, notice: 'Assert was successfully updated.' }\n format.json { head :ok }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @assert.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @test_plan = TestPlan.find(params[:id])\n\n respond_to do |format|\n if @test_plan.update_attributes(params[:test_plan])\n format.html { redirect_to(@test_plan, :notice => 'Test plan was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @test_plan.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n @assert = Assert.find(params[:id])\n\n respond_to do |format|\n if @assert.update_attributes(params[:assert])\n format.html { redirect_to @assert, notice: 'Assert was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @assert.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @test_suite = TestSuite.find(params[:id])\n\n respond_to do |format|\n if @test_suite.update_attributes(params[:test_suite])\n format.html { redirect_to(@test_suite, :notice => 'Test suite was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @test_suite.errors, :status => :unprocessable_entity }\n end\n end\n end", "def test_put_success\n put \"/blah\", @test_obj do |response|\n assert response.ok?, \"Update test object failed\"\n end\n end", "def update\n @gtfs_trip = GtfsTrip.find(params[:id])\n\n respond_to do |format|\n if @gtfs_trip.update_attributes(params[:gtfs_trip])\n format.html { redirect_to(@gtfs_trip, :notice => 'Gtfs trip was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @gtfs_trip.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update!(params)\n res = @client.put(path, nil, params, \"Content-Type\" => \"application/json\")\n @attributes = res.json if res.status == 201\n res\n end", "def update_job_success(job_id, success)\n RestClient.put \"#{rest_jobs_url}/#{job_id}\", {\"passed\" => success}.to_json, :content_type => :json\nend", "def show\n @trial = Trial.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @trial }\n end\n end", "def show\n @trial = Trial.find(params[:id])\n\n respond_to do |format|\n format.html # show.html.erb\n format.xml { render :xml => @trial }\n end\n end", "def update_current_tenant_maintenance_window(args = {}) \n id = args['id']\n temp_path = \"/tenants.json/maintenance\"\n path = temp_path\nargs.keys.each do |key|\n if (key == \"tenantId\")\n args.delete(key)\n path = temp_path.gsub(\"{#{key}}\", id)\n end\nend\n puts \" PATH : #{path}\"\n put(path, args)\nend", "def put(path, opts = {})\n request(:put, path, opts).body\n end", "def save\n @client.patch(@endpoint, :content=>@changed)\n return nil\n end", "def update\n @tenure = Tenure.find(params[:id])\n\n respond_to do |format|\n if @tenure.update_attributes(params[:tenure])\n format.html { redirect_to @tenure, notice: 'Tenure was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @tenure.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @task = Task.find(params[:id])\n @sprint = Sprint.find(@task.sprint_id)\n\n respond_to do |format|\n if @task.update_attributes(params[:task])\n flash[:notice] = 'Task was successfully updated.'\n format.html { redirect_to(@task) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @task.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n @technician = Technician.find(params[:id])\n\n respond_to do |format|\n if @technician.update_attributes(params[:technician])\n format.html { redirect_to(@technician, :notice => 'Technician was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @technician.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n url = 'https://casa-core.herokuapp.com/api/units/' + params[:id]\n query = {\n 'name' => params[:name]\n }\n response = HTTParty.put(url, :query => query, :headers => { \"Authorization\" => AUTH, \"Host\" => HOST})\n\n if response.code == 200\n redirect_to unit_path(params[:id]), notice: 'Unit was successfully updated.'\n else\n redirect_to unit_path(params[:id]), notice: 'Sheesh! Minor hiccup...run that again!'\n end\n end", "def update_job_success(job_id, success)\n RestClient.put \"#{rest_jobs_url}/#{job_id}\", { 'passed' => success }.to_json, :content_type => :json\nend", "def update_job_success(job_id, success)\n RestClient.put \"#{rest_jobs_url}/#{job_id}\", { 'passed' => success }.to_json, :content_type => :json\nend", "def update_job_success(job_id, success)\n RestClient.put \"#{rest_jobs_url}/#{job_id}\", { 'passed' => success }.to_json, :content_type => :json\nend", "def update\n @trip = Trip.find(params[:id])\n\n respond_to do |format|\n if @trip.update_attributes(params[:trip])\n format.html { redirect_to(@trip, :notice => 'Trip was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @trip.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n @trip_enrollment = TripEnrollment.find(params[:id])\n\n respond_to do |format|\n if @trip_enrollment.update_attributes(params[:trip_enrollment])\n flash[:notice] = 'TripEnrollment was successfully updated.'\n format.html { redirect_to(@trip_enrollment) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @trip_enrollment.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n @step = Step.find(params[:id])\n @tutorial = @step.tutorial\n authorize! :update, @step\n respond_to do |format|\n if @step.update_attributes(params[:step])\n format.html { redirect_to(@tutorial, :notice => 'Step was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @step.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @testsuite.update(testsuite_params)\n format.html { redirect_to @testsuite, notice: 'Testsuite was successfully updated.' }\n format.json { render :show, status: :ok, location: @testsuite }\n else\n format.html { render :edit }\n format.json { render json: @testsuite.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @trial_site.update(trial_site_params)\n format.html { redirect_to @trial_site, notice: 'Trial site was successfully updated.' }\n format.json { render :show, status: :ok, location: @trial_site }\n else\n format.html { render :edit }\n format.json { render json: @trial_site.errors, status: :unprocessable_entity }\n end\n end\n end", "def update_intest\n @context = 1\n update_submission\n end", "def put payload, path = \"\"\n make_request(path, \"put\", payload)\n end", "def update_tenant_circle(args = {}) \n put(\"/tenantcircles.json/#{args[:circleId]}\", args)\nend", "def update\n @tktest = Tktest.find(params[:id])\n\n respond_to do |format|\n if @tktest.update_attributes(params[:tktest])\n format.html { redirect_to @tktest, notice: 'Tktest was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @tktest.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @trial = Trial.find(params[:id])\n \n startTime = Time.zone.parse(params[:trial][\"start\"])\n endTime = Time.zone.parse(params[:trial][\"end\"])\n \n # move to model with before_save.\n # See http://stackoverflow.com/questions/1424777/how-to-convert-user-input-hours-minutes-seconds\n if !startTime.nil? && !endTime.nil?\n elapsedTime = endTime - startTime\n @trial.elapsed = elapsedTime\n end\n \n #params[:trial][\"start\"] = '2008-10-10 12:11:10.000'\n\n respond_to do |format|\n if @trial.update_attributes(params[:trial])\n format.html { redirect_to(@trial, :notice => 'Trial was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @trial.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n respond_to do |format|\n if @trax.update(trax_params)\n format.html { redirect_to @trax, notice: 'Trax was successfully updated.' }\n format.json { render :show, status: :ok, location: @trax }\n else\n format.html { render :edit }\n format.json { render json: @trax.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n @expectation_stem = RiGse::ExpectationStem.find(params[:id])\n\n respond_to do |format|\n if @expectation_stem.update_attributes(params[:expectation_stem])\n flash[:notice] = 'RiGse::ExpectationStem.was successfully updated.'\n format.html { redirect_to(@expectation_stem) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @expectation_stem.errors, :status => :unprocessable_entity }\n end\n end\n end", "def trial_params\n params.require(:trial).permit(:trial_id, :number, :study_id, :state, :value, :datetime_start, :datetime_complete)\n end", "def set_trial_site\n @trial_site = TrialSite.find(params[:id])\n end", "def update\n @test_case = TestCase.find(params[:id])\n\n respond_to do |format|\n if @test_case.update_attributes(params[:test_case])\n format.html { redirect_to(@test_case, :notice => 'TestCase was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @test_case.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n @tourpoint = Tourpoint.find(params[:id])\n\n respond_to do |format|\n if @tourpoint.update_attributes(params[:tourpoint])\n flash[:notice] = 'Tourpoint was successfully updated.'\n format.html { redirect_to(@tourpoint) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @tourpoint.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update!(**args)\n @next_page_token = args[:next_page_token] if args.key?(:next_page_token)\n @trials = args[:trials] if args.key?(:trials)\n end", "def set_trial_model\n @trial_model = TrialModel.find(params[:id])\n end", "def posttestrail(runId, caseId, statusId, versionId, elapsedseconds)\r\n\r\n uri = \"http://testrailgw.jupiter.bbc.co.uk/?action=add_result_for_case&run_id=#{runId}&case_id=#{caseId}&status_id=#{statusId}&version=#{versionId}&elapsed_seconds=#{elapsedseconds}&sharedSecret=thI5iSourSHAREDsecret\"\r\n #uri = \"http://testrailgw.jupiter.bbc.co.uk/?action=add_result_for_case&run_id=110324&case_id=665022&status_id=1&version=Test&elapsed_seconds=12&sharedSecret=thI5iSourSHAREDsecret\"\r\n\r\n uri = uri.gsub(\" \", \"%20\")\r\n xml_data = open(uri).read\r\n if(xml_data.include? '\"test_id\":')\r\n recorded = xml_data.split('\"test_id\":')[1]\r\n testID = recorded.split(',\"status_id\"')[0]\r\n puts \"TestID:\"+testID\r\n else\r\n puts xml_data\r\n fail \"Cannot Post result to Testrail, check Webservice\"\r\n end\r\n\r\n timeStamp = Time.now.strftime (\"posted at %H:%M %d/%m/%Y\")\r\n files = \"//zgbwcfs3005.jupiter.bbc.co.uk/QA/Jenkins/Jupiter/ICETEAresultupdatelog.txt\"\r\n f = File.open(files,'a')\r\n f.write \"#{testID} #{timeStamp}\"\r\n f.close\r\nend", "def update\n @expectation = RiGse::Expectation.find(params[:id])\n\n respond_to do |format|\n if @expectation.update_attributes(params[:expectation])\n flash[:notice] = 'RiGse::Expectation.was successfully updated.'\n format.html { redirect_to(@expectation) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @expectation.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n @tune = Tune.find(params[:id])\n\n respond_to do |format|\n if @tune.update_attributes(params[:tune])\n format.html { redirect_to @tune, notice: 'Tune was successfully updated.' }\n format.json { head :no_content }\n else\n format.html { render action: \"edit\" }\n format.json { render json: @tune.errors, status: :unprocessable_entity }\n end\n end\n end", "def update\n authorize @trip\n\n\n @trip.estimated_expenses.each do |exp|\n exp.requests.each do |req|\n req.amount_from_total = req.percentrequested * exp.total\n req.destination = @trip.destination\n req.expense_type = 'estimated'\n end\n end\n\n respond_to do |format|\n if @trip.update(trip_params)\n format.html { redirect_to @trip, notice: 'Trip was successfully updated.' }\n format.json { render :show, status: :ok, location: @trip }\n else\n format.html { render :edit }\n format.json { render json: @trip.errors, status: :unprocessable_entity }\n end\n end\n end", "def update_rest\n @question_localized = QuestionLocalized.find(params[:id])\n\n respond_to do |format|\n if @question_localized.update_attributes(params[:question_localized])\n flash[:notice] = 'QuestionLocalized was successfully updated.'\n format.html { redirect_to(@question_localized) }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @question_localized.errors, :status => :unprocessable_entity }\n end\n end\n end", "def new\n @trial = Trial.new\n\n respond_to do |format|\n format.html # new.html.erb\n format.xml { render :xml => @trial }\n end\n end", "def update\n @rant = Rant.find(params[:id])\n\n respond_to do |format|\n if @rant.update_attributes(params[:rant])\n format.html { redirect_to(@rant, :notice => 'Rant was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @rant.errors, :status => :unprocessable_entity }\n end\n end\n end", "def create\n @time_trial = TimeTrial.new(time_trial_params)\n @time_trial.save\n end", "def test_should_update_membership\n login_as(:john)\n put :update, :id => 1, :membership => { }\n assert_response :redirect\n end", "def test_should_update_membership\n login_as(:john)\n put :update, :id => 1, :membership => { }\n assert_response :redirect\n end", "def test_should_update_profile\n # login_as(:patrick)\n # put :update, :id => profiles(:profile_00006).id, :profile => { }\n # assert_redirected_to profile_path(assigns(:profile))\n end", "def update\n @testmethod = Testmethod.find(params[:id])\n\n respond_to do |format|\n if @testmethod.update_attributes(params[:testmethod])\n format.html { redirect_to(@testmethod, :notice => 'Test Method was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @testmethod.errors, :status => :unprocessable_entity }\n end\n end\n end", "def update\n @trip_feature = TripFeature.find(params[:id])\n\n respond_to do |format|\n if @trip_feature.update_attributes(params[:trip_feature])\n format.html { redirect_to(@trip_feature, :notice => 'TripFeature was successfully updated.') }\n format.xml { head :ok }\n else\n format.html { render :action => \"edit\" }\n format.xml { render :xml => @trip_feature.errors, :status => :unprocessable_entity }\n end\n end\n end" ]

[ "0.62472373", "0.62109756", "0.62040067", "0.6133514", "0.59581023", "0.59560335", "0.5946118", "0.59452057", "0.5937637", "0.5857082", "0.5854942", "0.58395743", "0.5803279", "0.57890713", "0.5788552", "0.5725071", "0.5717323", "0.56885856", "0.5655561", "0.5604429", "0.5560515", "0.55448836", "0.5515287", "0.5510452", "0.55033463", "0.54900014", "0.54725105", "0.5461798", "0.5456321", "0.545155", "0.5446464", "0.544433", "0.544433", "0.54439926", "0.54419565", "0.54314417", "0.54276234", "0.54110736", "0.54037434", "0.53807724", "0.5374838", "0.5360426", "0.5359666", "0.53550017", "0.5352816", "0.5343577", "0.53324527", "0.53299385", "0.5317082", "0.5316668", "0.53072774", "0.53046614", "0.5282803", "0.5282162", "0.5281968", "0.5278505", "0.52758604", "0.52688503", "0.52688503", "0.52659446", "0.5264353", "0.5263009", "0.5258244", "0.52572894", "0.52485484", "0.5241015", "0.5219838", "0.5219838", "0.5219838", "0.5213981", "0.5208856", "0.5207744", "0.5204181", "0.5203504", "0.5202743", "0.5200172", "0.5199767", "0.5190281", "0.51867473", "0.51791406", "0.5178209", "0.517494", "0.5170632", "0.516712", "0.51654613", "0.51638865", "0.5163428", "0.5159721", "0.5159235", "0.5156518", "0.5151953", "0.5148619", "0.5147575", "0.51468694", "0.51440656", "0.5141413", "0.5141413", "0.51342857", "0.51319927", "0.5131938" ]