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def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def wait_for_ansible(appliance):
appliance.server.settings.enable_server_roles("embedded_ansible")
appliance.wait_for_embedded_ansible()
yield
appliance.server.settings.disable_server_roles("embedded_ansible") |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def test_action_run_ansible_playbook_target_machine(request, ansible_catalog_item, ansible_action,
policy_for_testing, full_template_vm_modscope, ansible_credential, service_request,
service):
"""Tests a policy with ansible playbook action against target machine.
Polarion:
assignee: sbulage
initialEstimate: 1/6h
casecomponent: Ansible
"""
vm = full_template_vm_modscope
with update(ansible_action):
ansible_action.run_ansible_playbook = {"inventory": {"target_machine": True}}
added_tag = vm.add_tag()
request.addfinalizer(lambda: vm.remove_tag(added_tag))
wait_for(service_request.exists, num_sec=600)
service_request.wait_for_request()
view = navigate_to(service, "Details")
assert view.provisioning.details.get_text_of("Hosts") == vm.ip_address
assert view.provisioning.results.get_text_of("Status") == "successful" |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def wait_unit (self, uids, state=[DONE, FAILED, CANCELED], timeout=-1.0) :
"""
Wait for given unit(s) to enter given state
"""
raise Exception ("%s.wait_unit() is not implemented" % self.__class__.__name__) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def _resource_exhausted_exception_is_retryable(self, exc):
if isinstance(exc, google.api_core.exceptions.ResourceExhausted):
# ResourceExhausted errors are only retried if a valid
# RetryInfo is provided with the error.
#
# TODO: Remove hasattr logic when we require google-api-core >= 2.2.0.
# ResourceExhausted added details/_details in google-api-core 2.2.0.
details = None
if hasattr(exc, "details"):
details = exc.details
elif hasattr(exc, "_details"):
details = exc._details
if details is not None:
for detail in details:
if isinstance(detail, google.rpc.error_details_pb2.RetryInfo):
retry_delay = detail.retry_delay
if retry_delay is not None:
delay = max(
0,
float(retry_delay.seconds)
+ (float(retry_delay.nanos) / 1e9),
)
if self._retry_delay_callback:
self._retry_delay_callback(delay)
time.sleep(delay)
return True
return False |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def done(unused=None):
self._changed = True # Let can_read know there may be something new to read
self.scheduler_wakeup() |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def done(value=None):
if value:
self._changed = True # alert can_read that the database has changed
self._value = value
self.scheduler_wakeup() |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def manager_post_save_handler(sender, instance, created, **kwargs):
"""Run newly created (spawned) processes."""
if (
instance.status == Data.STATUS_DONE
or instance.status == Data.STATUS_ERROR
or created
):
# Run manager at the end of the potential transaction. Otherwise
# tasks are send to workers before transaction ends and therefore
# workers cannot access objects created inside transaction.
transaction.on_commit(lambda: commit_signal(instance.id)) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def validate(self):
self._assignment = None
if self.is_new():
if self.assigned_by == self.allocated_to:
assignment_message = frappe._("{0} self assigned this task: {1}").format(get_fullname(self.assigned_by), self.description)
else:
assignment_message = frappe._("{0} assigned {1}: {2}").format(get_fullname(self.assigned_by), get_fullname(self.allocated_to), self.description)
self._assignment = {
"text": assignment_message,
"comment_type": "Assigned"
}
else:
# NOTE the previous value is only available in validate method
if self.get_db_value("status") != self.status:
if self.allocated_to == frappe.session.user:
removal_message = frappe._("{0} removed their assignment.").format(
get_fullname(frappe.session.user))
else:
removal_message = frappe._("Assignment of {0} removed by {1}").format(
get_fullname(self.allocated_to), get_fullname(frappe.session.user))
self._assignment = {
"text": removal_message,
"comment_type": "Assignment Completed"
} |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def _responsive_sleep(self, seconds, wait_log_interval=0, wait_reason=""):
try:
if self.count >= 2:
raise KeyboardInterrupt
self.count += 1
except AttributeError:
self.count = 0 |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def set_agent_report_state(self, report_state_callback):
"""Set Agent Report State."""
self.agent_report_state = report_state_callback |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def in_thread():
while True:
event = self._completion_queue.poll()
with self._condition:
self._events[event.tag].append(event)
self._due[event.tag] -= 1
self._condition.notify_all()
if self._due[event.tag] <= 0:
self._due.pop(event.tag)
if not self._due:
return |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def event_with_tag(self, tag):
with self._condition:
while True:
if self._events[tag]:
return self._events[tag].pop(0)
else:
self._condition.wait() |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def Caller_Places_Call (self, Number):
self.Step (Message = "Caller places call to " + str (Number) + "...")
self.Log (Message = "Dialling through caller agent...")
self.Caller.dial (Number) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def Receptionist_Places_Call (self, Number):
self.Step (Message = "Receptionist places call to " + str (Number) + "...")
self.Log (Message = "Dialling through receptionist agent...")
self.Receptionist.dial (Number) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def Caller_Hears_Dialtone (self):
self.Step (Message = "Caller hears dial-tone...")
self.Log (Message = "Caller agent waits for dial-tone...")
self.Caller.sip_phone.Wait_For_Dialtone () |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def Receptionist_Hears_Dialtone (self):
self.Step (Message = "Receptionist hears dial-tone...")
self.Log (Message = "Receptionist agent waits for dial-tone...")
self.Receptionist.sip_phone.Wait_For_Dialtone () |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def Call_Announced_As_Locked (self, Call_ID):
self.Step (Message = "Call-Flow-Control sends out 'call_lock'...")
try:
self.Receptionist.event_stack.WaitFor (event_type = "call_lock",
call_id = Call_ID,
timeout = 20.0)
except TimeOutReached:
logging.critical (self.Receptionist.event_stack.dump_stack ())
self.fail ("No 'call_lock' event arrived from Call-Flow-Control.")
if not self.Receptionist.event_stack.stack_contains (event_type = "call_lock",
destination = self.Reception,
call_id = Call_ID):
logging.critical (self.Receptionist.event_stack.dump_stack ())
self.fail ("The arrived 'call_lock' event was not for the expected reception (destination).") |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def Call_Announced_As_Unlocked (self, Call_ID):
self.Step (Message = "Call-Flow-Control sends out 'call_unlock'...")
try:
self.Receptionist.event_stack.WaitFor (event_type = "call_unlock",
call_id = Call_ID)
except TimeOutReached:
logging.critical (self.Receptionist.event_stack.dump_stack ())
self.fail ("No 'call_unlock' event arrived from Call-Flow-Control.")
if not self.Receptionist.event_stack.stack_contains (event_type = "call_unlock",
destination = self.Reception,
call_id = Call_ID):
logging.critical (self.Receptionist.event_stack.dump_stack ())
self.fail ("The arrived 'call_unlock' event was not for the expected reception (destination).") |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def Call_Allocation_Acknowledgement (self, Call_ID, Receptionist_ID):
self.Step (Message = "Receptionist's client waits for 'call_pickup'...")
try:
self.Receptionist.event_stack.WaitFor (event_type = "call_pickup",
call_id = Call_ID)
except TimeOutReached:
logging.critical (self.Receptionist.event_stack.dump_stack ())
self.fail ("No 'call_pickup' event arrived from Call-Flow-Control.")
try:
Event = self.Receptionist.event_stack.Get_Latest_Event (Event_Type = "call_pickup",
Call_ID = Call_ID)
except:
logging.critical (self.Receptionist.event_stack.dump_stack ())
self.fail ("Could not extract the received 'call_pickup' event from the Call-Flow-Control client.")
try:
if not Event['call']['assigned_to'] == Receptionist_ID:
logging.critical (self.Receptionist.event_stack.dump_stack ())
self.fail ("The arrived 'call_pickup' event was for " + str (Event['call']['assigned_to']) + ", and not for " + str (Receptionist_ID) + " as expected.")
except:
logging.critical (self.Receptionist.event_stack.dump_stack ())
raise
self.Log (Message = "Call picked up: " + pformat (Event))
return Event |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def last_time_resync_initiated(self):
""" Get last_time_resync_initiated value.
Notes:
Time that the resync was initiated |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def start(self, action_name: str) -> None:
"""Defines how to start recording an action.""" |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def setup_args(cls):
return setup_args() |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def _ccode(self, printer):
return "fabs(%s)" % printer._print(self.args[0]) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def call_process(cls, cmd):
if cls.is_error:
raise subprocess.CalledProcessError(-1, cmd=cmd, output="Couldn't call xset.")
if cmd[1:] == ["q"]:
track = cls.info[cls.index]
output = "\n".join(track)
return output |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def ajouter(self):
"""Méthode appelée lors de l'ajout de la commande à l'interpréteur"""
cle = self.noeud.get_masque("cle")
cle.proprietes["regex"] = r"'[a-z0-9_:]{3,}'" |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def send(self, command):
if self._bufferedCommands is None:
self._bufferedCommands = command
else:
self._bufferedCommands += "\n" + command |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def getUseageMessage(self):
return ("- TECHORANGE -\n"
"useage:\n"
"index - download entry page of TECHORANGE \n"
"tag - download not obtained tag page \n"
"news [tag] - download not obtained news [of given tag] \n") |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def runSpider(self, lstSubcommand=None):
strSubcommand = lstSubcommand[0]
strArg1 = None
if len(lstSubcommand) == 2:
strArg1 = lstSubcommand[1]
self.initDriver() #init selenium driver
self.dicSubCommandHandler[strSubcommand](strArg1)
self.quitDriver() #quit selenium driver |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def __init__(self, completekey='tab', stdin=None, stdout=None):
"""Instantiate a line-oriented interpreter framework.
The optional argument 'completekey' is the readline name of a
completion key; it defaults to the Tab key. If completekey is
not None and the readline module is available, command completion
is done automatically. The optional arguments stdin and stdout
specify alternate input and output file objects; if not specified,
sys.stdin and sys.stdout are used.
"""
if stdin is not None:
self.stdin = stdin
else:
self.stdin = sys.stdin
if stdout is not None:
self.stdout = stdout
else:
self.stdout = sys.stdout
self.cmdqueue = []
self.completekey = completekey
if not self.use_rawinput and self.completekey:
try:
import editline
self.editline = editline.editline("CMD",
self.stdin, self.stdout, sys.stderr)
self.editline.rl_completer = self.complete
except ImportError:
print("Failed to import editline")
pass |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def cmdloop(self, intro=None):
"""Repeatedly issue a prompt, accept input, parse an initial prefix
off the received input, and dispatch to action methods, passing them
the remainder of the line as argument.
"""
self.preloop()
try:
if intro is not None:
self.intro = intro
if self.intro:
self.stdout.write(str(self.intro)+"\n")
stop = None
while not stop:
if self.cmdqueue:
line = self.cmdqueue.pop(0)
else:
if self.use_rawinput:
try:
line = input(self.prompt)
except EOFError:
line = 'EOF'
else:
self.editline.prompt = self.prompt
line = self.editline.readline()
if not len(line):
line = 'EOF'
else:
line = line.rstrip('\r\n')
line = self.precmd(line)
stop = self.onecmd(line)
stop = self.postcmd(stop, line)
self.postloop()
finally:
pass |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def precmd(self, line):
"""Hook method executed just before the command line is
interpreted, but after the input prompt is generated and issued.
"""
return line |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def preloop(self):
"""Hook method executed once when the cmdloop() method is called."""
pass |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def parseline(self, line):
"""Parse the line into a command name and a string containing
the arguments. Returns a tuple containing (command, args, line).
'command' and 'args' may be None if the line couldn't be parsed.
"""
line = line.strip()
if not line:
return None, None, line
elif line[0] == '?':
line = 'help ' + line[1:]
elif line[0] == '!':
if hasattr(self, 'do_shell'):
line = 'shell ' + line[1:]
else:
return None, None, line
i, n = 0, len(line)
while i < n and line[i] in self.identchars: i = i+1
cmd, arg = line[:i], line[i:].strip()
return cmd, arg, line |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def onecmd(self, line):
"""Interpret the argument as though it had been typed in response
to the prompt.
This may be overridden, but should not normally need to be;
see the precmd() and postcmd() methods for useful execution hooks.
The return value is a flag indicating whether interpretation of
commands by the interpreter should stop.
"""
cmd, arg, line = self.parseline(line)
if not line:
return self.emptyline()
if cmd is None:
return self.default(line)
self.lastcmd = line
if line == 'EOF' :
print("")
print("Bye")
sys.exit(0)
if cmd == '':
return self.default(line)
else:
try:
func = getattr(self, 'do_' + cmd)
except AttributeError:
return self.default(line)
return func(arg) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def emptyline(self):
"""Called when an empty line is entered in response to the prompt.
If this method is not overridden, it repeats the last nonempty
command entered.
"""
if self.lastcmd:
return self.onecmd(self.lastcmd) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def default(self, line):
"""Called on an input line when the command prefix is not recognized.
If this method is not overridden, it prints an error message and
returns.
"""
self.stdout.write('*** Unknown syntax: %s (%d)\n' % (line,len(line))) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def completedefault(self, *ignored):
"""Method called to complete an input line when no command-specific
complete_*() method is available.
By default, it returns an empty list.
"""
return [] |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def completenames(self, text, *ignored):
dotext = 'do_'+text
return [a[3:] for a in self.get_names() if a.startswith(dotext)] |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def complete(self, text, state):
"""Return the next possible completion for 'text'.
If a command has not been entered, then complete against command list.
Otherwise try to call complete_<command> to get list of completions.
"""
if state == 0:
origline = self.editline.get_line_buffer()
line = origline.lstrip()
stripped = len(origline) - len(line)
begidx = self.editline.get_begidx() - stripped
endidx = self.editline.get_endidx() - stripped
if begidx>0:
cmd, args, foo = self.parseline(line)
if cmd == '':
compfunc = self.completedefault
else:
try:
compfunc = getattr(self, 'complete_' + cmd)
except AttributeError:
compfunc = self.completedefault
else:
compfunc = self.completenames
self.completion_matches = compfunc(text, line, begidx, endidx)
try:
return self.completion_matches[state]
except IndexError:
return None |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def complete_help(self, *args):
commands = set(self.completenames(*args))
topics = set(a[5:] for a in self.get_names()
if a.startswith('help_' + args[0]))
return list(commands | topics) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def do_help(self, arg):
'List available commands with "help" or detailed help with "help cmd".'
if arg:
# XXX check arg syntax
try:
func = getattr(self, 'help_' + arg)
except AttributeError:
try:
doc=getattr(self, 'do_' + arg).__doc__
if doc:
self.stdout.write("%s\n"%str(doc))
return
except AttributeError:
pass
self.stdout.write("%s\n"%str(self.nohelp % (arg,)))
return
func()
else:
names = self.get_names()
cmds_doc = []
cmds_undoc = []
help = {}
for name in names:
if name[:5] == 'help_':
help[name[5:]]=1
names.sort()
# There can be duplicates if routines overridden
prevname = ''
for name in names:
if name[:3] == 'do_':
if name == prevname:
continue
prevname = name
cmd=name[3:]
if cmd in help:
cmds_doc.append(cmd)
del help[cmd]
elif getattr(self, name).__doc__:
cmds_doc.append(cmd)
else:
cmds_undoc.append(cmd)
self.stdout.write("%s\n"%str(self.doc_leader))
self.print_topics(self.doc_header, cmds_doc, 15,80)
self.print_topics(self.misc_header, list(help.keys()),15,80)
self.print_topics(self.undoc_header, cmds_undoc, 15,80) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def print_topics(self, header, cmds, cmdlen, maxcol):
if cmds:
self.stdout.write("%s\n"%str(header))
if self.ruler:
self.stdout.write("%s\n"%str(self.ruler * len(header)))
self.columnize(cmds, maxcol-1)
self.stdout.write("\n") |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def disassemble(buf, base=0, arch=ARCH_32):
if arch == ARCH_32:
d = x86.i386Disasm()
elif arch == ARCH_64:
d = x64.Amd64Disasm()
else:
raise RuntimeError('unknown arch: ' + str(arch))
offset = 0
while True:
if offset >= len(buf):
break
o = d.disasm(buf, offset, base)
yield "0x%x: %s" % (base + offset, str(o))
offset += o.size |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def main():
import sys
return sys.exit(_main(*sys.argv[1:])) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def __init__(self):
args = self.arg_parser.parse_known_args()[0]
super(ScikitBase, self).__init__()
self.pipeline = self.load_pipeline(args.pipeline)
if args.feature_names:
self.feature_names = self.load_pipeline(args.feature_names) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def _make_loop_cmds(self, themefile, zones, block, loop_items):
""" Given loop-items from the theme file, return a list of loop
commands.
"""
loop_cmds = []
pkt = self.cmd_packet
for item in loop_items:
item_type = themefile.get_action_type(item)
item_colours = themefile.get_action_colours(item)
if item_type == AlienFXThemeFile.KW_ACTION_TYPE_FIXED:
if len(item_colours) != 1:
logging.warning("fixed must have exactly one colour value")
continue
loop_cmds.append(
pkt.make_cmd_set_colour(block, zones, item_colours[0]))
elif item_type == AlienFXThemeFile.KW_ACTION_TYPE_BLINK:
if len(item_colours) != 1:
logging.warning("blink must have exactly one colour value")
continue
loop_cmds.append(
pkt.make_cmd_set_blink_colour(block, zones, item_colours[0]))
elif item_type == AlienFXThemeFile.KW_ACTION_TYPE_MORPH:
if len(item_colours) != 2:
logging.warning("morph must have exactly two colour values")
continue
loop_cmds.append(
pkt.make_cmd_set_morph_colour(
block, zones, item_colours[0], item_colours[1]))
else:
logging.warning("unknown loop item type: {}".format(item_type))
return loop_cmds |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def format_rpms(rpms):
return format_line(prefix='rpms'.rjust(RJUST), values=rpms) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def parse():
"""Parse command-line arguments."""
parser = argparse.ArgumentParser()
parser.add_argument('--bootstrap', action='store_true')
parser.add_argument('--no-shell-file', action='store_true')
return parser.parse_args() |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def main():
"""Script entry point."""
if os.name != 'nt':
return 1
return print_banner(**vars(parse())) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def _run(self, cmds, input_data):
''' Actually executes the command. This makes mocking easier. '''
curr_env = os.environ.copy()
curr_env.update({'KUBECONFIG': self.kubeconfig})
proc = subprocess.Popen(cmds,
stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
env=curr_env)
stdout, stderr = proc.communicate(input_data)
return proc.returncode, stdout.decode('utf-8'), stderr.decode('utf-8') |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def openshift_cmd(self, cmd, oadm=False, output=False, output_type='json', input_data=None):
'''Base command for oc '''
cmds = [self.oc_binary]
if oadm:
cmds.append('adm')
cmds.extend(cmd)
if self.all_namespaces:
cmds.extend(['--all-namespaces'])
elif self.namespace is not None and self.namespace.lower() not in ['none', 'emtpy']: # E501
cmds.extend(['-n', self.namespace])
rval = {}
results = ''
err = None
if self.verbose:
print(' '.join(cmds))
try:
returncode, stdout, stderr = self._run(cmds, input_data)
except OSError as ex:
returncode, stdout, stderr = 1, '', 'Failed to execute {}: {}'.format(subprocess.list2cmdline(cmds), ex)
rval = {"returncode": returncode,
"results": results,
"cmd": ' '.join(cmds)}
if returncode == 0:
if output:
if output_type == 'json':
try:
rval['results'] = json.loads(stdout)
except ValueError as verr:
if "No JSON object could be decoded" in verr.args:
err = verr.args
elif output_type == 'raw':
rval['results'] = stdout
if self.verbose:
print("STDOUT: {0}".format(stdout))
print("STDERR: {0}".format(stderr))
if err:
rval.update({"err": err,
"stderr": stderr,
"stdout": stdout,
"cmd": cmds})
else:
rval.update({"stderr": stderr,
"stdout": stdout,
"results": {}})
return rval |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def get_options():
usage="%prog: [options] output_filename"
parser = OptionParser(option_class=eng_option, usage=usage)
parser.add_option("-a", "--address", type="string", default="addr=192.168.10.2",
help="Address of UHD device, [default=%default]")
parser.add_option("-A", "--antenna", type="string", default=None,
help="select Rx Antenna where appropriate")
parser.add_option("", "--samp-rate", type="eng_float", default=1e6,
help="set sample rate (bandwidth) [default=%default]")
parser.add_option("-f", "--freq", type="eng_float", default=None,
help="set frequency to FREQ", metavar="FREQ")
parser.add_option("-g", "--gain", type="eng_float", default=None,
help="set gain in dB (default is midpoint)")
parser.add_option( "-s","--output-shorts", action="store_true", default=False,
help="output interleaved shorts instead of complex floats")
parser.add_option("-N", "--nsamples", type="eng_float", default=None,
help="number of samples to collect [default=+inf]")
parser.add_option("-v", "--verbose", action="store_true", default=False,
help="verbose output")
parser.add_option("", "--lo-offset", type="eng_float", default=None,
help="set daughterboard LO offset to OFFSET [default=hw default]")
(options, args) = parser.parse_args ()
if len(args) != 1:
parser.print_help()
raise SystemExit, 1 |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def ps():
u'''run ls command on local machine.'''
local('ps ax') |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def choice(question, options, default):
"Ask the user to choose from a short list of named options"
while True:
sys.stdout.write("{} ({}) [{}]: ".format(question, "/".join(options), default))
answer = sys.stdin.readline().strip()
if len(answer) == 0:
return default
for opt in options:
if answer == opt:
return answer |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def optionlist(question, options, default=0):
"Ask the user to choose from a list of options"
for i, option in enumerate(options):
print("%d: %s" % (i + 1, option[0]))
while True:
sys.stdout.write("%s (1-%d) [%d]: " % (question, len(options), default + 1))
answer = sys.stdin.readline().strip()
if len(answer) == 0:
return options[default][1]
try:
optno = int(answer)
if optno > 0 and optno <= len(options):
return options[optno - 1][1]
except Exception:
pass |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def usage():
print("Usage: %s WORKFLOW_DIR" % sys.argv[0]) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def main():
example_1() |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def _run_command(cmd):
try:
proc = subprocess.Popen(cmd.split(), stdout=subprocess.PIPE,
stderr=subprocess.STDOUT)
out, err = proc.communicate()
except OSError:
raise RuntimeError('Invalid command {}'.format(cmd))
if proc.returncode != 0:
print(out)
raise(RuntimeError('Command failed with exit code {}.'.format(
proc.returncode)))
return out |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def argument():
parser = ArgumentParser()
parser.add_argument("-d", "--dir", dest="myDirVariable",
help="Choose dir", metavar="DIR", required=True)
parser.add_argument("-n", metavar='N', type=int,
dest="number_of_selected_files",
help="Number of selected structure",
required=True)
parser.add_argument("-k", metavar='K', type=int,
dest="k_number_of_options",
help="Number of possibility structure, less then selected files",
required=True)
parser.add_argument("-q", metavar='Q', type=int,
dest="mixing_koeficient", help="Mixing koeficient",
default=1)
parser.add_argument("-r", metavar='R', type=int,
dest="repeat", help="Number of repetitions",
default=1)
parser.add_argument("--verbose", help="increase output verbosity",
action="store_true")
args = parser.parse_args()
global files
global list_of_random_items_modified
files = listdir(args.myDirVariable)
list_of_random_items_modified = [None]*args.k_number_of_options
return(args) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def subfunction(self):
run(function(self)) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def i_press_operator(operator):
if "(" in operator:
exec(f"bpy.ops.{operator}")
else:
exec(f"bpy.ops.{operator}()") |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def show_options(opt):
sys.stdout.write("{} version: {} (Last modified {} {}, {})\n".format(
version.title, version.version, *version.date))
sys.stdout.write("Output file format: %s\n" % opt.output_file_format)
sys.stdout.write("Suffix of output files: %s\n" % opt.output_filename_suffix)
sys.stdout.write("Output directory: %s\n" % opt.output_dir)
sys.stdout.write("Spatial resolution: %d\n" % opt.spatial_resolution)
sys.stdout.write("Shell width: %d metric units\n" % opt.shell_width)
sys.stdout.write("Interpoint distances calculated: %s\n"
% stringconv.yes_or_no(opt.determine_interpoint_dists))
if opt.determine_interpoint_dists:
sys.stdout.write("Interpoint distance mode: %s\n" % opt.interpoint_dist_mode.capitalize())
sys.stdout.write("Shortest interpoint distances: %s\n"
% stringconv.yes_or_no(opt.interpoint_shortest_dist))
sys.stdout.write("Lateral interpoint distances: %s\n"
% stringconv.yes_or_no(opt.interpoint_lateral_dist))
sys.stdout.write("Monte Carlo simulations performed: %s\n"
% stringconv.yes_or_no(opt.run_monte_carlo))
if opt.run_monte_carlo:
sys.stdout.write("Number of Monte Carlo runs: %d\n"
% opt.monte_carlo_runs)
sys.stdout.write("Monte Carlo simulation window: %s\n"
% opt.monte_carlo_simulation_window)
sys.stdout.write("Strict localization in simulation window: %s\n"
% stringconv.yes_or_no(opt.monte_carlo_strict_location))
sys.stdout.write("Clusters determined: %s\n" % stringconv.yes_or_no(opt.determine_clusters))
if opt.determine_clusters:
sys.stdout.write("Within-cluster distance: %d\n" % opt.within_cluster_dist) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def doProcess(self, recipe):
self.tagList = []
self.buildReqsComputedForTags = set()
self.suggestBuildRequires = set()
# read the system and %(destdir)s tag databases
for directory in (recipe.macros.destdir+'/etc/conary/tags/',
'/etc/conary/tags/'):
if os.path.isdir(directory):
for filename in os.listdir(directory):
path = util.joinPaths(directory, filename)
self.tagList.append(tags.TagFile(path, recipe.macros, True))
self.fullReqs = self.recipe._getTransitiveBuildRequiresNames()
_addInfo.doProcess(self, recipe) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def _getRubyLoadPath(self, macros, rubyInvocation, bootstrap):
# Returns tuple of (invocationString, loadPathList)
destdir = macros.destdir
if bootstrap:
rubyLibPath = [destdir + x for x in self.bootstrapRubyLibs]
rubyInvocation = (('LD_LIBRARY_PATH=%(destdir)s%(libdir)s '
'RUBYLIB="'+':'.join(rubyLibPath)+'" '
+rubyInvocation)%macros)
rubyLoadPath = util.popen(
"%s -e 'puts $:'" %
rubyInvocation).readlines()
# get gem dir if rubygems is installed
if os.access('%(bindir)s/gem' %macros, os.X_OK):
rubyLoadPath.extend(
util.popen("%s -rubygems -e 'puts Gem.default_dir'" %
rubyInvocation).readlines())
rubyLoadPath = [ x.strip() for x in rubyLoadPath if x.startswith('/') ]
loadPathList = rubyLoadPath[:]
if bootstrap:
rubyLoadPath = [ destdir+x for x in rubyLoadPath ]
rubyInvocation = ('LD_LIBRARY_PATH=%(destdir)s%(libdir)s'
' RUBYLIB="'+':'.join(rubyLoadPath)+'"'
' %(destdir)s/%(ruby)s') % macros
return (rubyInvocation, loadPathList) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def _perlDestInc(destdir, perlDestInc):
return ' '.join(['-I' + destdir + x for x in perlDestInc]) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def prepareInstallListTemplate(self, fileList):
create = []
for dir_ in fileList.keys():
create.append('SetOutPath "$INSTDIR\\{}"'.format(dir_))
for file_ in fileList[dir_]:
create.append('FILE "{}\\{}\\{}"'.format(OUT_DIR, dir_, file_))
return "\n".join(create) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def prepareDeleteListTemplate(self, fileList):
delete = []
for dir_ in fileList.keys():
for file_ in fileList[dir_]:
delete.append('DELETE "$INSTDIR\\{}\\{}"'.format(dir_, file_))
delete.append('RMdir "$INSTDIR\\{}"'.format(file_))
return "\n".join(delete) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def replace_getOp(line):
line2 = line
if 'MI->getOperand(0)' in line:
line2 = line.replace('MI->getOperand(0)', 'MCInst_getOperand(MI, 0)')
elif 'MI->getOperand(1)' in line:
line2 = line.replace('MI->getOperand(1)', 'MCInst_getOperand(MI, 1)')
elif 'MI->getOperand(2)' in line:
line2 = line.replace('MI->getOperand(2)', 'MCInst_getOperand(MI, 2)')
elif 'MI->getOperand(3)' in line:
line2 = line.replace('MI->getOperand(3)', 'MCInst_getOperand(MI, 3)')
elif 'MI->getOperand(4)' in line:
line2 = line.replace('MI->getOperand(4)', 'MCInst_getOperand(MI, 4)')
elif 'MI->getOperand(5)' in line:
line2 = line.replace('MI->getOperand(5)', 'MCInst_getOperand(MI, 5)')
elif 'MI->getOperand(6)' in line:
line2 = line.replace('MI->getOperand(6)', 'MCInst_getOperand(MI, 6)')
elif 'MI->getOperand(7)' in line:
line2 = line.replace('MI->getOperand(7)', 'MCInst_getOperand(MI, 7)')
elif 'MI->getOperand(8)' in line:
line2 = line.replace('MI->getOperand(8)', 'MCInst_getOperand(MI, 8)')
return line2 |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def __rmul__(self, v):
return torch.utils.data.ConcatDataset([self] * v) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def __getitem__(self, index):
"""Return example at given index.
Args:
index(int): The index of the example to retrieve
Returns:
tuple: A 3-tuple with ``(img1, img2, flow)``.
The flow is a numpy array of shape (2, H, W) and the images are PIL images.
``flow`` is None if ``split="test"``.
If a valid flow mask is generated within the ``transforms`` parameter,
a 4-tuple with ``(img1, img2, flow, valid_flow_mask)`` is returned.
"""
return super().__getitem__(index) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def __getitem__(self, index):
"""Return example at given index.
Args:
index(int): The index of the example to retrieve
Returns:
tuple: A 4-tuple with ``(img1, img2, flow, valid_flow_mask)`` where ``valid_flow_mask``
is a numpy boolean mask of shape (H, W)
indicating which flow values are valid. The flow is a numpy array of
shape (2, H, W) and the images are PIL images. ``flow`` and ``valid_flow_mask`` are None if
``split="test"``.
"""
return super().__getitem__(index) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def sls(n, d):
gg = te.reduce_axis((0, lengths[n]))
indices_idx = length_offsets[n] + gg
data_idx = indices[indices_idx]
data_val = data[data_idx, d]
return te.sum(data_val, axis=gg) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def __get_linearForce_title_keys(lf):
if 'force_r' in lf:
return ['Force r', 'Force z'], ['force_r', 'force_z']
return ['Force x', 'Force y'], ['force_x', 'force_y'] |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def _expandsets(kindpats, ctx):
"""Returns the kindpats list with the 'set' patterns expanded."""
fset = set()
other = []
for kind, pat, source in kindpats:
if kind == "set":
if not ctx:
raise error.ProgrammingError("fileset expression with no " "context")
s = ctx.getfileset(pat)
fset.update(s)
continue
other.append((kind, pat, source))
return fset, other |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def _donormalize(patterns, default, root, cwd, auditor, warn):
"""Convert 'kind:pat' from the patterns list to tuples with kind and
normalized and rooted patterns and with listfiles expanded."""
kindpats = []
for kind, pat in [_patsplit(p, default) for p in patterns]:
if kind in cwdrelativepatternkinds:
pat = pathutil.canonpath(root, cwd, pat, auditor)
elif kind in ("relglob", "path", "rootfilesin"):
pat = util.normpath(pat)
elif kind in ("listfile", "listfile0"):
try:
files = decodeutf8(util.readfile(pat))
if kind == "listfile0":
files = files.split("\0")
else:
files = files.splitlines()
files = [f for f in files if f]
except EnvironmentError:
raise error.Abort(_("unable to read file list (%s)") % pat)
for k, p, source in _donormalize(files, default, root, cwd, auditor, warn):
kindpats.append((k, p, pat))
continue
elif kind == "include":
try:
fullpath = os.path.join(root, util.localpath(pat))
includepats = readpatternfile(fullpath, warn)
for k, p, source in _donormalize(
includepats, default, root, cwd, auditor, warn
):
kindpats.append((k, p, source or pat))
except error.Abort as inst:
raise error.Abort("%s: %s" % (pat, inst[0]))
except IOError as inst:
if warn:
warn(
_("skipping unreadable pattern file '%s': %s\n")
% (pat, inst.strerror)
)
continue
# else: re or relre - which cannot be normalized
kindpats.append((kind, pat, ""))
return kindpats |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def test_ccode_loops_multiple_contractions():
from sympy.tensor import IndexedBase, Idx
from sympy import symbols
n, m, o, p = symbols('n m o p', integer=True)
a = IndexedBase('a')
b = IndexedBase('b')
y = IndexedBase('y')
i = Idx('i', m)
j = Idx('j', n)
k = Idx('k', o)
l = Idx('l', p)
s = (
'for (int i=0; i<m; i++){\n'
' y[i] = 0;\n'
'}\n'
'for (int i=0; i<m; i++){\n'
' for (int j=0; j<n; j++){\n'
' for (int k=0; k<o; k++){\n'
' for (int l=0; l<p; l++){\n'
' y[i] = y[i] + b[%s]*a[%s];\n' % (j*o*p + k*p + l, i*n*o*p + j*o*p + k*p + l) +\
' }\n'
' }\n'
' }\n'
'}'
)
c = ccode(b[j, k, l]*a[i, j, k, l], assign_to=y[i])
assert c == s |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def values(cls, dataset, dim, expanded=True, flat=True, compute=True,
keep_index=False):
dim = dataset.get_dimension(dim, strict=True)
data = dataset.data[dim.name]
if not expanded:
data = data.unique()
return data.values_host if compute else data.values
elif keep_index:
return data
elif compute:
return data.values_host
try:
return data.values
except Exception:
return data.values_host |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def groupby(cls, dataset, dimensions, container_type, group_type, **kwargs):
# Get dimensions information
dimensions = [dataset.get_dimension(d).name for d in dimensions]
kdims = [kdim for kdim in dataset.kdims if kdim not in dimensions]
# Update the kwargs appropriately for Element group types
group_kwargs = {}
group_type = dict if group_type == 'raw' else group_type
if issubclass(group_type, Element):
group_kwargs.update(util.get_param_values(dataset))
group_kwargs['kdims'] = kdims
group_kwargs.update(kwargs)
# Propagate dataset
group_kwargs['dataset'] = dataset.dataset
# Find all the keys along supplied dimensions
keys = product(*(dataset.data[dimensions[0]].unique().values_host for d in dimensions))
# Iterate over the unique entries applying selection masks
grouped_data = []
for unique_key in util.unique_iterator(keys):
group_data = dataset.select(**dict(zip(dimensions, unique_key)))
if not len(group_data):
continue
group_data = group_type(group_data, **group_kwargs)
grouped_data.append((unique_key, group_data))
if issubclass(container_type, NdMapping):
with item_check(False), sorted_context(False):
kdims = [dataset.get_dimension(d) for d in dimensions]
return container_type(grouped_data, kdims=kdims)
else:
return container_type(grouped_data) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def select_mask(cls, dataset, selection):
"""
Given a Dataset object and a dictionary with dimension keys and
selection keys (i.e. tuple ranges, slices, sets, lists, or literals)
return a boolean mask over the rows in the Dataset object that
have been selected.
"""
mask = None
for dim, sel in selection.items():
if isinstance(sel, tuple):
sel = slice(*sel)
arr = cls.values(dataset, dim, keep_index=True)
if util.isdatetime(arr) and util.pd:
try:
sel = util.parse_datetime_selection(sel)
except:
pass
new_masks = []
if isinstance(sel, slice):
with warnings.catch_warnings():
warnings.filterwarnings('ignore', r'invalid value encountered')
if sel.start is not None:
new_masks.append(sel.start <= arr)
if sel.stop is not None:
new_masks.append(arr < sel.stop)
if not new_masks:
continue
new_mask = new_masks[0]
for imask in new_masks[1:]:
new_mask &= imask
elif isinstance(sel, (set, list)):
for v in sel:
new_masks.append(arr==v)
if not new_masks:
continue
new_mask = new_masks[0]
for imask in new_masks[1:]:
new_mask |= imask
elif callable(sel):
new_mask = sel(arr)
else:
new_mask = arr == sel
if mask is None:
mask = new_mask
else:
mask &= new_mask
return mask |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def add_dimension(cls, dataset, dimension, dim_pos, values, vdim):
data = dataset.data.copy()
if dimension.name not in data:
data[dimension.name] = values
return data |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def iloc(cls, dataset, index):
import cudf
rows, cols = index
scalar = False
columns = list(dataset.data.columns)
if isinstance(cols, slice):
cols = [d.name for d in dataset.dimensions()][cols]
elif np.isscalar(cols):
scalar = np.isscalar(rows)
cols = [dataset.get_dimension(cols).name]
else:
cols = [dataset.get_dimension(d).name for d in index[1]]
col_index = [columns.index(c) for c in cols]
if np.isscalar(rows):
rows = [rows]
if scalar:
return dataset.data[cols[0]].iloc[rows[0]]
result = dataset.data.iloc[rows, col_index]
# cuDF does not handle single rows and cols indexing correctly
# as of cudf=0.10.0 so we have to convert Series back to DataFrame
if isinstance(result, cudf.Series):
if len(cols) == 1:
result = result.to_frame(cols[0])
else:
result = result.to_frame().T
return result |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def sort(cls, dataset, by=[], reverse=False):
cols = [dataset.get_dimension(d, strict=True).name for d in by]
return dataset.data.sort_values(by=cols, ascending=not reverse) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def permutation_subjects(y):
"""Permute class labels of Contextual Disorder dataset.
"""
y_perm = np.random.randint(0, 2, len(y)/2)
y_perm = np.concatenate((y_perm, np.logical_not(y_perm).astype(int)))
return y_perm |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def permutation_subjects_ktst(y):
"""Permute class labels of Contextual Disorder dataset for KTST.
"""
yp = np.random.randint(0, 2, len(y)/2)
yp = np.concatenate((yp, np.logical_not(yp).astype(int)))
y_perm = np.arange(len(y))
for i in range(len(y)/2):
if yp[i] == 1:
y_perm[i] = len(y)/2+i
y_perm[len(y)/2+i] = i
return y_perm |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def _filter_examples_by_class(target_values, downsampling_dict,
test_mode=False):
"""Filters examples by target value.
E = number of examples
:param target_values: length-E numpy array of target values (integer class
labels).
:param downsampling_dict: Dictionary, where each key is the integer
ID for a target class (-2 for "dead storm") and the corresponding value
is the number of examples desired from said class. If
`downsampling_dict is None`, `example_dict` will be returned
without modification.
:param test_mode: Never mind. Just leave this alone.
:return: indices_to_keep: 1-D numpy array with indices of examples to keep.
These are all integers in [0, E - 1].
"""
num_examples = len(target_values)
if downsampling_dict is None:
return numpy.linspace(0, num_examples - 1, num=num_examples, dtype=int)
indices_to_keep = numpy.array([], dtype=int)
class_keys = list(downsampling_dict.keys())
for this_class in class_keys:
this_num_storm_objects = downsampling_dict[this_class]
these_indices = numpy.where(target_values == this_class)[0]
this_num_storm_objects = min(
[this_num_storm_objects, len(these_indices)]
)
if this_num_storm_objects == 0:
continue
if test_mode:
these_indices = these_indices[:this_num_storm_objects]
else:
these_indices = numpy.random.choice(
these_indices, size=this_num_storm_objects, replace=False)
indices_to_keep = numpy.concatenate((indices_to_keep, these_indices))
return indices_to_keep |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def _subset_sounding_data(
example_dict, netcdf_dataset_object, example_indices_to_keep,
field_names_to_keep, heights_to_keep_m_agl):
"""Subsets sounding data by field and height.
:param example_dict: See doc for `_subset_radar_data`.
:param netcdf_dataset_object: Same.
:param example_indices_to_keep: Same.
:param field_names_to_keep: 1-D list of field names to keep. If None, will
keep all fields.
:param heights_to_keep_m_agl: 1-D numpy array of heights to keep. If None,
will keep all heights.
:return: example_dict: Same as input but with the following exceptions.
[1] Keys "sounding_field_names" and "sounding_heights_m_agl" may have
different values.
[2] Key "sounding_matrix" has been added.
"""
if field_names_to_keep is None:
field_names_to_keep = copy.deepcopy(example_dict[SOUNDING_FIELDS_KEY])
if heights_to_keep_m_agl is None:
heights_to_keep_m_agl = example_dict[SOUNDING_HEIGHTS_KEY] + 0
error_checking.assert_is_numpy_array(
numpy.array(field_names_to_keep), num_dimensions=1
)
heights_to_keep_m_agl = numpy.round(heights_to_keep_m_agl).astype(int)
error_checking.assert_is_numpy_array(
heights_to_keep_m_agl, num_dimensions=1)
sounding_matrix = numpy.array(
netcdf_dataset_object.variables[SOUNDING_MATRIX_KEY][
example_indices_to_keep, ...
],
dtype=float
)
# TODO(thunderhoser): This is a HACK.
spfh_index = example_dict[SOUNDING_FIELDS_KEY].index(
soundings.SPECIFIC_HUMIDITY_NAME)
temp_index = example_dict[SOUNDING_FIELDS_KEY].index(
soundings.TEMPERATURE_NAME)
pressure_index = example_dict[SOUNDING_FIELDS_KEY].index(
soundings.PRESSURE_NAME)
theta_v_index = example_dict[SOUNDING_FIELDS_KEY].index(
soundings.VIRTUAL_POTENTIAL_TEMPERATURE_NAME)
sounding_matrix[..., spfh_index][
numpy.isnan(sounding_matrix[..., spfh_index])
] = 0.
nan_example_indices, nan_height_indices = numpy.where(numpy.isnan(
sounding_matrix[..., theta_v_index]
))
if len(nan_example_indices) > 0:
this_temp_matrix_kelvins = sounding_matrix[..., temp_index][
nan_example_indices, nan_height_indices]
this_pressure_matrix_pa = sounding_matrix[..., pressure_index][
nan_example_indices, nan_height_indices]
this_thetav_matrix_kelvins = (
temp_conversion.temperatures_to_potential_temperatures(
temperatures_kelvins=this_temp_matrix_kelvins,
total_pressures_pascals=this_pressure_matrix_pa)
)
sounding_matrix[..., theta_v_index][
nan_example_indices, nan_height_indices
] = this_thetav_matrix_kelvins
these_indices = numpy.array([
example_dict[SOUNDING_FIELDS_KEY].index(f)
for f in field_names_to_keep
], dtype=int)
sounding_matrix = sounding_matrix[..., these_indices]
these_indices = numpy.array([
numpy.where(example_dict[SOUNDING_HEIGHTS_KEY] == h)[0][0]
for h in heights_to_keep_m_agl
], dtype=int)
sounding_matrix = sounding_matrix[..., these_indices, :]
example_dict[SOUNDING_FIELDS_KEY] = field_names_to_keep
example_dict[SOUNDING_HEIGHTS_KEY] = heights_to_keep_m_agl
example_dict[SOUNDING_MATRIX_KEY] = sounding_matrix
return example_dict |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def reduce_examples_3d_to_2d(example_dict, list_of_operation_dicts):
"""Reduces examples from 3-D to 2-D.
If the examples contain both 2-D azimuthal-shear images and 3-D
reflectivity images:
- Keys "reflectivity_image_matrix_dbz" and "az_shear_image_matrix_s01" are
required.
- "radar_heights_m_agl" should contain only reflectivity heights.
- "radar_field_names" should contain only the names of azimuthal-shear
fields.
If the examples contain 3-D radar images and no 2-D images:
- Key "radar_image_matrix" is required.
- Each field in "radar_field_names" appears at each height in
"radar_heights_m_agl".
- Thus, there are F_r elements in "radar_field_names", H_r elements in
"radar_heights_m_agl", and F_r * H_r field-height pairs.
After dimensionality reduction (from 3-D to 2-D):
- Keys "reflectivity_image_matrix_dbz", "az_shear_image_matrix_s01", and
"radar_heights_m_agl" will be absent.
- Key "radar_image_matrix" will be present. The dimensions will be
E x M x N x C.
- Key "radar_field_names" will be a length-C list, where the [j]th item is
the field name for the [j]th channel of radar_image_matrix
(radar_image_matrix[..., j]).
- Key "min_radar_heights_m_agl" will be a length-C numpy array, where the
[j]th item is the MINIMUM height for the [j]th channel of
radar_image_matrix.
- Key "max_radar_heights_m_agl" will be a length-C numpy array, where the
[j]th item is the MAX height for the [j]th channel of radar_image_matrix.
- Key "radar_layer_operation_names" will be a length-C list, where the [j]th
item is the name of the operation used to create the [j]th channel of
radar_image_matrix.
:param example_dict: See doc for `write_example_file`.
:param list_of_operation_dicts: See doc for `_check_layer_operation`.
:return: example_dict: See general discussion above, for how the input
`example_dict` is changed to the output `example_dict`.
"""
if RADAR_IMAGE_MATRIX_KEY in example_dict:
num_radar_dimensions = len(
example_dict[RADAR_IMAGE_MATRIX_KEY].shape
) - 2
assert num_radar_dimensions == 3
new_radar_image_matrix = None
new_field_names = []
new_min_heights_m_agl = []
new_max_heights_m_agl = []
new_operation_names = []
if AZ_SHEAR_IMAGE_MATRIX_KEY in example_dict:
new_radar_image_matrix = example_dict[AZ_SHEAR_IMAGE_MATRIX_KEY] + 0.
for this_field_name in example_dict[RADAR_FIELDS_KEY]:
new_field_names.append(this_field_name)
new_operation_names.append(MAX_OPERATION_NAME)
if this_field_name == radar_utils.LOW_LEVEL_SHEAR_NAME:
new_min_heights_m_agl.append(0)
new_max_heights_m_agl.append(2000)
else:
new_min_heights_m_agl.append(3000)
new_max_heights_m_agl.append(6000)
for this_operation_dict in list_of_operation_dicts:
this_new_matrix, this_operation_dict = _apply_layer_operation(
example_dict=example_dict, operation_dict=this_operation_dict)
this_new_matrix = numpy.expand_dims(this_new_matrix, axis=-1)
if new_radar_image_matrix is None:
new_radar_image_matrix = this_new_matrix + 0.
else:
new_radar_image_matrix = numpy.concatenate(
(new_radar_image_matrix, this_new_matrix), axis=-1
)
new_field_names.append(this_operation_dict[RADAR_FIELD_KEY])
new_min_heights_m_agl.append(this_operation_dict[MIN_HEIGHT_KEY])
new_max_heights_m_agl.append(this_operation_dict[MAX_HEIGHT_KEY])
new_operation_names.append(this_operation_dict[OPERATION_NAME_KEY])
example_dict.pop(REFL_IMAGE_MATRIX_KEY, None)
example_dict.pop(AZ_SHEAR_IMAGE_MATRIX_KEY, None)
example_dict.pop(RADAR_HEIGHTS_KEY, None)
example_dict[RADAR_IMAGE_MATRIX_KEY] = new_radar_image_matrix
example_dict[RADAR_FIELDS_KEY] = new_field_names
example_dict[MIN_RADAR_HEIGHTS_KEY] = numpy.array(
new_min_heights_m_agl, dtype=int)
example_dict[MAX_RADAR_HEIGHTS_KEY] = numpy.array(
new_max_heights_m_agl, dtype=int)
example_dict[RADAR_LAYER_OPERATION_NAMES_KEY] = new_operation_names
return example_dict |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def set_categories(self, categories: List[str]):
"""Sets the categories for Confusion Matrix.
Args:
categories: List of strings specifying the categories.
"""
self._categories = []
annotation_specs = []
for category in categories:
annotation_spec = {'displayName': category}
self._categories.append(category)
annotation_specs.append(annotation_spec)
self._values['annotationSpecs'] = annotation_specs
self._matrix = [[0
for i in range(len(self._categories))]
for j in range(len(self._categories))]
self._values['row'] = self._matrix |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def log_row(self, row_category: str, row: List[int]):
"""Logs a confusion matrix row.
Args:
row_category: Category to which the row belongs.
row: List of integers specifying the values for the row.
Raises:
ValueError: If row_category is not in the list of categories set in
set_categories or size of the row does not match the size of
categories.
"""
if row_category not in self._categories:
raise ValueError('Invalid category: {} passed. Expected one of: {}'.\
format(row_category, self._categories))
if len(row) != len(self._categories):
raise ValueError('Invalid row. Expected size: {} got: {}'.\
format(len(self._categories), len(row)))
self._matrix[self._categories.index(row_category)] = row |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def log_cell(self, row_category: str, col_category: str, value: int):
"""Logs a cell in the confusion matrix.
Args:
row_category: String representing the name of the row category.
col_category: String representing the name of the column category.
value: Int value of the cell.
Raises:
ValueError: If row_category or col_category is not in the list of
categories set in set_categories.
"""
if row_category not in self._categories:
raise ValueError('Invalid category: {} passed. Expected one of: {}'.\
format(row_category, self._categories))
if col_category not in self._categories:
raise ValueError('Invalid category: {} passed. Expected one of: {}'.\
format(row_category, self._categories))
self._matrix[self._categories.index(row_category)][
self._categories.index(col_category)] = value |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def getASASAS(self):
temp = []
temp.append(self.getAp1())
temp.append(self.getLenp1())
temp.append(self.getAp2())
temp.append(self.getLenp2())
temp.append(self.getAp3())
temp.append(self.getLenp3())
return temp |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def _apply_mask(y_true, sample_weight, masked_tokens, dtype):
if sample_weight is None:
sample_weight = tf.ones_like(y_true, dtype)
else:
sample_weight = tf.cast(sample_weight, dtype)
for token in masked_tokens:
mask = tf.cast(tf.not_equal(y_true, token), dtype)
sample_weight = sample_weight * mask
return sample_weight |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def _restore_vars(v_list, t_list):
"""Restore variables in v_list from t_list."""
ops = []
for v, t in zip(v_list, t_list):
ops.append(v.assign(t))
return ops |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def _scale_vars(s, v_list):
"""Scale all variables in v_list by s."""
return [s * v for v in v_list] |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def row_col(self, ind):
i = 0
for r in range(self.nr):
for c in range(self.nc):
if i == ind:
return r, c
i += 1 |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def define(self, dimensions):
return {d: ('middle', 2, 2) for d in dimensions} |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def _get_no_zone_code(self):
""" Return a zone code corresponding to all non-visible zones."""
zone_codes = [self.zone_map[x] for x in self.zone_map]
return ~reduce(lambda x,y: x|y, zone_codes, 0) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def _get_zone_codes(self, zone_names):
""" Given zone names, return the zone codes they refer to.
"""
zones = 0
for zone in zone_names:
if zone in self.zone_map:
zones |= self.zone_map[zone]
return zones |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def get_diff(b):
'''Just the internals of the difference method'''
return b['b2'].subtract(b['b1']).select(['sur_refl_b02'], ['b1']) |
def setup_keyring(keyring_name):
'''Setup the keyring'''
keyring_path = os.path.join("test", "outputdata", keyring_name)
# Delete the entire keyring
shutil.rmtree(keyring_path, ignore_errors=True)
os.makedirs(keyring_path)
gpg = GPG(gnupghome=keyring_path, gpgbinary="gpg")
for key_name in ["key1_private", "key1_public"]:
with open(os.path.join("test", "inputdata", key_name + ".txt"), "r") as keyfile:
key_str = "".join(keyfile.readlines())
import_result = gpg.import_keys(key_str)
print("Import result:", type(import_result))
print(import_result.__dict__)
if import_result.count == 1 and len(set(import_result.fingerprints)) == 1:
print("Got one import result")
return gpg | def format_pwms(pwms):
return format_line(prefix='pwms'.rjust(RJUST), values=pwms) |