# coding: utf-8

from __future__ import absolute_import

import datetime
import pprint
import sys
import typing
from datetime import datetime  # noqa: F401
from typing import Dict, List  # noqa: F401

import six

if sys.version_info < (3, 7):
    import typing

    def is_generic(klass):
        """Determine whether klass is a generic class"""
        return type(klass) == typing.GenericMeta

    def is_dict(klass):
        """Determine whether klass is a Dict"""
        return klass.__extra__ == dict

    def is_list(klass):
        """Determine whether klass is a List"""
        return klass.__extra__ == list

else:

    def is_generic(klass):
        """Determine whether klass is a generic class"""
        return hasattr(klass, "__origin__")

    def is_dict(klass):
        """Determine whether klass is a Dict"""
        return klass.__origin__ == dict

    def is_list(klass):
        """Determine whether klass is a List"""
        return klass.__origin__ == list


def _deserialize(data, klass):
    """Deserializes dict, list, str into an object.

    :param data: dict, list or str.
    :param klass: class literal, or string of class name.

    :return: object.
    """
    if data is None:
        return None

    if klass in six.integer_types or klass in (float, str, bool, bytearray):
        return _deserialize_primitive(data, klass)
    elif klass == object:
        return _deserialize_object(data)
    elif klass == datetime.date:
        return deserialize_date(data)
    elif klass == datetime.datetime:
        return deserialize_datetime(data)
    elif typing_utils.is_generic(klass):
        if typing_utils.is_list(klass):
            return _deserialize_list(data, klass.__args__[0])
        if typing_utils.is_dict(klass):
            return _deserialize_dict(data, klass.__args__[1])
    else:
        return deserialize_model(data, klass)


def _deserialize_primitive(data, klass):
    """Deserializes to primitive type.

    :param data: data to deserialize.
    :param klass: class literal.

    :return: int, long, float, str, bool.
    :rtype: int | long | float | str | bool
    """
    try:
        value = klass(data)
    except UnicodeEncodeError:
        value = six.u(data)
    except TypeError:
        value = data
    return value


def _deserialize_object(value):
    """Return an original value.

    :return: object.
    """
    return value


def deserialize_date(string):
    """Deserializes string to date.

    :param string: str.
    :type string: str
    :return: date.
    :rtype: date
    """
    try:
        from dateutil.parser import parse

        return parse(string).date()
    except ImportError:
        return string


def deserialize_datetime(string):
    """Deserializes string to datetime.

    The string should be in iso8601 datetime format.

    :param string: str.
    :type string: str
    :return: datetime.
    :rtype: datetime
    """
    try:
        from dateutil.parser import parse

        return parse(string)
    except ImportError:
        return string


def deserialize_model(data, klass):
    """Deserializes list or dict to model.

    :param data: dict, list.
    :type data: dict | list
    :param klass: class literal.
    :return: model object.
    """
    instance = klass()

    if not instance.openapi_types:
        return data

    for attr, attr_type in six.iteritems(instance.openapi_types):
        if (
            data is not None
            and instance.attribute_map[attr] in data
            and isinstance(data, (list, dict))
        ):
            value = data[instance.attribute_map[attr]]
            setattr(instance, attr, _deserialize(value, attr_type))

    return instance


def _deserialize_list(data, boxed_type):
    """Deserializes a list and its elements.

    :param data: list to deserialize.
    :type data: list
    :param boxed_type: class literal.

    :return: deserialized list.
    :rtype: list
    """
    return [_deserialize(sub_data, boxed_type) for sub_data in data]


def _deserialize_dict(data, boxed_type):
    """Deserializes a dict and its elements.

    :param data: dict to deserialize.
    :type data: dict
    :param boxed_type: class literal.

    :return: deserialized dict.
    :rtype: dict
    """
    return {k: _deserialize(v, boxed_type) for k, v in six.iteritems(data)}


T = typing.TypeVar("T")


class Model(object):
    # openapiTypes: The key is attribute name and the
    # value is attribute type.
    openapi_types = {}

    # attributeMap: The key is attribute name and the
    # value is json key in definition.
    attribute_map = {}

    @classmethod
    def from_dict(cls: typing.Type[T], dikt) -> T:
        """Returns the dict as a model"""
        return util.deserialize_model(dikt, cls)

    def to_dict(self):
        """Returns the model properties as a dict

        :rtype: dict
        """
        result = {}

        for attr, _ in six.iteritems(self.openapi_types):
            value = getattr(self, attr)
            if isinstance(value, list):
                result[attr] = list(
                    map(lambda x: x.to_dict() if hasattr(x, "to_dict") else x, value)
                )
            elif hasattr(value, "to_dict"):
                result[attr] = value.to_dict()
            elif isinstance(value, dict):
                result[attr] = dict(
                    map(
                        lambda item: (item[0], item[1].to_dict())
                        if hasattr(item[1], "to_dict")
                        else item,
                        value.items(),
                    )
                )
            else:
                result[attr] = value

        return result

    def to_str(self):
        """Returns the string representation of the model

        :rtype: str
        """
        return pprint.pformat(self.to_dict())

    def __repr__(self):
        """For `print` and `pprint`"""
        return self.to_str()

    def __eq__(self, other):
        """Returns true if both objects are equal"""
        return self.__dict__ == other.__dict__

    def __ne__(self, other):
        """Returns true if both objects are not equal"""
        return not self == other


class Drug(Model):
    """NOTE: This class is auto generated by OpenAPI Generator (https://openapi-generator.tech).

    Do not edit the class manually.
    """

    def __init__(self, smiles=None, name=None):  # noqa: E501
        """Drug - a model defined in OpenAPI

        :param smiles: The smiles of this Drug.  # noqa: E501
        :type smiles: str
        :param name: The name of this Drug.  # noqa: E501
        :type name: str
        """
        self.openapi_types = {"smiles": str, "name": str}

        self.attribute_map = {"smiles": "smiles", "name": "name"}

        self._smiles = smiles
        self._name = name

    @classmethod
    def from_dict(cls, dikt) -> "Drug":
        """Returns the dict as a model

        :param dikt: A dict.
        :type: dict
        :return: The Drug of this Drug.  # noqa: E501
        :rtype: Drug
        """
        return util.deserialize_model(dikt, cls)

    @property
    def smiles(self):
        """Gets the smiles of this Drug.


        :return: The smiles of this Drug.
        :rtype: str
        """
        return self._smiles

    @smiles.setter
    def smiles(self, smiles):
        """Sets the smiles of this Drug.


        :param smiles: The smiles of this Drug.
        :type smiles: str
        """
        if smiles is None:
            raise ValueError(
                "Invalid value for `smiles`, must not be `None`"
            )  # noqa: E501

        self._smiles = smiles

    @property
    def name(self):
        """Gets the name of this Drug.


        :return: The name of this Drug.
        :rtype: str
        """
        return self._name

    @name.setter
    def name(self, name):
        """Sets the name of this Drug.


        :param name: The name of this Drug.
        :type name: str
        """

        self._name = name