# coding: utf-8 # Copyright 2018 IBM All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """ The IBM Watson™ Assistant service combines machine learning, natural language understanding, and integrated dialog tools to create conversation flows between your apps and your users. """ from __future__ import absolute_import import json from .watson_service import WatsonService ############################################################################## # Service ############################################################################## class AssistantV2(WatsonService): """The Assistant V2 service.""" default_url = 'https://gateway.watsonplatform.net/assistant/api' def __init__( self, version, url=default_url, username=None, password=None, iam_apikey=None, iam_access_token=None, iam_url=None, ): """ Construct a new client for the Assistant service. :param str version: The API version date to use with the service, in "YYYY-MM-DD" format. Whenever the API is changed in a backwards incompatible way, a new minor version of the API is released. The service uses the API version for the date you specify, or the most recent version before that date. Note that you should not programmatically specify the current date at runtime, in case the API has been updated since your application's release. Instead, specify a version date that is compatible with your application, and don't change it until your application is ready for a later version. :param str url: The base url to use when contacting the service (e.g. "https://gateway.watsonplatform.net/assistant/api"). The base url may differ between Bluemix regions. :param str username: The username used to authenticate with the service. Username and password credentials are only required to run your application locally or outside of Bluemix. When running on Bluemix, the credentials will be automatically loaded from the `VCAP_SERVICES` environment variable. :param str password: The password used to authenticate with the service. Username and password credentials are only required to run your application locally or outside of Bluemix. When running on Bluemix, the credentials will be automatically loaded from the `VCAP_SERVICES` environment variable. :param str iam_apikey: An API key that can be used to request IAM tokens. If this API key is provided, the SDK will manage the token and handle the refreshing. :param str iam_access_token: An IAM access token is fully managed by the application. Responsibility falls on the application to refresh the token, either before it expires or reactively upon receiving a 401 from the service as any requests made with an expired token will fail. :param str iam_url: An optional URL for the IAM service API. Defaults to 'https://iam.bluemix.net/identity/token'. """ WatsonService.__init__( self, vcap_services_name='conversation', url=url, username=username, password=password, iam_apikey=iam_apikey, iam_access_token=iam_access_token, iam_url=iam_url, use_vcap_services=True) self.version = version ######################### # Sessions ######################### def create_session(self, assistant_id, **kwargs): """ Create a session. Create a new session. A session is used to send user input to a skill and receive responses. It also maintains the state of the conversation. :param str assistant_id: Unique identifier of the assistant. You can find the assistant ID of an assistant on the **Assistants** tab of the Watson Assistant tool. For information about creating assistants, see the [documentation](https://console.bluemix.net/docs/services/assistant/create-assistant.html#creating-assistants). **Note:** Currently, the v2 API does not support creating assistants. :param dict headers: A `dict` containing the request headers :return: A `DetailedResponse` containing the result, headers and HTTP status code. :rtype: DetailedResponse """ if assistant_id is None: raise ValueError('assistant_id must be provided') headers = {} if 'headers' in kwargs: headers.update(kwargs.get('headers')) params = {'version': self.version} url = '/v2/assistants/{0}/sessions'.format( *self._encode_path_vars(assistant_id)) response = self.request( method='POST', url=url, headers=headers, params=params, accept_json=True) return response def delete_session(self, assistant_id, session_id, **kwargs): """ Delete session. Deletes a session explicitly before it times out. :param str assistant_id: Unique identifier of the assistant. You can find the assistant ID of an assistant on the **Assistants** tab of the Watson Assistant tool. For information about creating assistants, see the [documentation](https://console.bluemix.net/docs/services/assistant/create-assistant.html#creating-assistants). **Note:** Currently, the v2 API does not support creating assistants. :param str session_id: Unique identifier of the session. :param dict headers: A `dict` containing the request headers :return: A `DetailedResponse` containing the result, headers and HTTP status code. :rtype: DetailedResponse """ if assistant_id is None: raise ValueError('assistant_id must be provided') if session_id is None: raise ValueError('session_id must be provided') headers = {} if 'headers' in kwargs: headers.update(kwargs.get('headers')) params = {'version': self.version} url = '/v2/assistants/{0}/sessions/{1}'.format( *self._encode_path_vars(assistant_id, session_id)) response = self.request( method='DELETE', url=url, headers=headers, params=params, accept_json=True) return response ######################### # Message ######################### def message(self, assistant_id, session_id, input=None, context=None, **kwargs): """ Send user input to assistant. Send user input to an assistant and receive a response. There is no rate limit for this operation. :param str assistant_id: Unique identifier of the assistant. You can find the assistant ID of an assistant on the **Assistants** tab of the Watson Assistant tool. For information about creating assistants, see the [documentation](https://console.bluemix.net/docs/services/assistant/create-assistant.html#creating-assistants). **Note:** Currently, the v2 API does not support creating assistants. :param str session_id: Unique identifier of the session. :param MessageInput input: The user input. :param MessageContext context: State information for the conversation. :param dict headers: A `dict` containing the request headers :return: A `DetailedResponse` containing the result, headers and HTTP status code. :rtype: DetailedResponse """ if assistant_id is None: raise ValueError('assistant_id must be provided') if session_id is None: raise ValueError('session_id must be provided') if input is not None: input = self._convert_model(input, MessageInput) if context is not None: context = self._convert_model(context, MessageContext) headers = {} if 'headers' in kwargs: headers.update(kwargs.get('headers')) params = {'version': self.version} data = {'input': input, 'context': context} url = '/v2/assistants/{0}/sessions/{1}/message'.format( *self._encode_path_vars(assistant_id, session_id)) response = self.request( method='POST', url=url, headers=headers, params=params, json=data, accept_json=True) return response ############################################################################## # Models ############################################################################## class CaptureGroup(object): """ CaptureGroup. :attr str group: A recognized capture group for the entity. :attr list[int] location: (optional) Zero-based character offsets that indicate where the entity value begins and ends in the input text. """ def __init__(self, group, location=None): """ Initialize a CaptureGroup object. :param str group: A recognized capture group for the entity. :param list[int] location: (optional) Zero-based character offsets that indicate where the entity value begins and ends in the input text. """ self.group = group self.location = location @classmethod def _from_dict(cls, _dict): """Initialize a CaptureGroup object from a json dictionary.""" args = {} if 'group' in _dict: args['group'] = _dict.get('group') else: raise ValueError( 'Required property \'group\' not present in CaptureGroup JSON') if 'location' in _dict: args['location'] = _dict.get('location') return cls(**args) def _to_dict(self): """Return a json dictionary representing this model.""" _dict = {} if hasattr(self, 'group') and self.group is not None: _dict['group'] = self.group if hasattr(self, 'location') and self.location is not None: _dict['location'] = self.location return _dict def __str__(self): """Return a `str` version of this CaptureGroup object.""" return json.dumps(self._to_dict(), indent=2) def __eq__(self, other): """Return `true` when self and other are equal, false otherwise.""" if not isinstance(other, self.__class__): return False return self.__dict__ == other.__dict__ def __ne__(self, other): """Return `true` when self and other are not equal, false otherwise.""" return not self == other class DialogLogMessage(object): """ Dialog log message details. :attr str level: The severity of the log message. :attr str message: The text of the log message. """ def __init__(self, level, message): """ Initialize a DialogLogMessage object. :param str level: The severity of the log message. :param str message: The text of the log message. """ self.level = level self.message = message @classmethod def _from_dict(cls, _dict): """Initialize a DialogLogMessage object from a json dictionary.""" args = {} if 'level' in _dict: args['level'] = _dict.get('level') else: raise ValueError( 'Required property \'level\' not present in DialogLogMessage JSON' ) if 'message' in _dict: args['message'] = _dict.get('message') else: raise ValueError( 'Required property \'message\' not present in DialogLogMessage JSON' ) return cls(**args) def _to_dict(self): """Return a json dictionary representing this model.""" _dict = {} if hasattr(self, 'level') and self.level is not None: _dict['level'] = self.level if hasattr(self, 'message') and self.message is not None: _dict['message'] = self.message return _dict def __str__(self): """Return a `str` version of this DialogLogMessage object.""" return json.dumps(self._to_dict(), indent=2) def __eq__(self, other): """Return `true` when self and other are equal, false otherwise.""" if not isinstance(other, self.__class__): return False return self.__dict__ == other.__dict__ def __ne__(self, other): """Return `true` when self and other are not equal, false otherwise.""" return not self == other class DialogNodeAction(object): """ DialogNodeAction. :attr str name: The name of the action. :attr str action_type: (optional) The type of action to invoke. :attr object parameters: (optional) A map of key/value pairs to be provided to the action. :attr str result_variable: The location in the dialog context where the result of the action is stored. :attr str credentials: (optional) The name of the context variable that the client application will use to pass in credentials for the action. """ def __init__(self, name, result_variable, action_type=None, parameters=None, credentials=None): """ Initialize a DialogNodeAction object. :param str name: The name of the action. :param str result_variable: The location in the dialog context where the result of the action is stored. :param str action_type: (optional) The type of action to invoke. :param object parameters: (optional) A map of key/value pairs to be provided to the action. :param str credentials: (optional) The name of the context variable that the client application will use to pass in credentials for the action. """ self.name = name self.action_type = action_type self.parameters = parameters self.result_variable = result_variable self.credentials = credentials @classmethod def _from_dict(cls, _dict): """Initialize a DialogNodeAction object from a json dictionary.""" args = {} if 'name' in _dict: args['name'] = _dict.get('name') else: raise ValueError( 'Required property \'name\' not present in DialogNodeAction JSON' ) if 'type' in _dict or 'action_type' in _dict: args['action_type'] = _dict.get('type') or _dict.get('action_type') if 'parameters' in _dict: args['parameters'] = _dict.get('parameters') if 'result_variable' in _dict: args['result_variable'] = _dict.get('result_variable') else: raise ValueError( 'Required property \'result_variable\' not present in DialogNodeAction JSON' ) if 'credentials' in _dict: args['credentials'] = _dict.get('credentials') return cls(**args) def _to_dict(self): """Return a json dictionary representing this model.""" _dict = {} if hasattr(self, 'name') and self.name is not None: _dict['name'] = self.name if hasattr(self, 'action_type') and self.action_type is not None: _dict['type'] = self.action_type if hasattr(self, 'parameters') and self.parameters is not None: _dict['parameters'] = self.parameters if hasattr(self, 'result_variable') and self.result_variable is not None: _dict['result_variable'] = self.result_variable if hasattr(self, 'credentials') and self.credentials is not None: _dict['credentials'] = self.credentials return _dict def __str__(self): """Return a `str` version of this DialogNodeAction object.""" return json.dumps(self._to_dict(), indent=2) def __eq__(self, other): """Return `true` when self and other are equal, false otherwise.""" if not isinstance(other, self.__class__): return False return self.__dict__ == other.__dict__ def __ne__(self, other): """Return `true` when self and other are not equal, false otherwise.""" return not self == other class DialogNodeOutputOptionsElement(object): """ DialogNodeOutputOptionsElement. :attr str label: The user-facing label for the option. :attr DialogNodeOutputOptionsElementValue value: An object defining the message input to be sent to the assistant if the user selects the corresponding option. """ def __init__(self, label, value): """ Initialize a DialogNodeOutputOptionsElement object. :param str label: The user-facing label for the option. :param DialogNodeOutputOptionsElementValue value: An object defining the message input to be sent to the assistant if the user selects the corresponding option. """ self.label = label self.value = value @classmethod def _from_dict(cls, _dict): """Initialize a DialogNodeOutputOptionsElement object from a json dictionary.""" args = {} if 'label' in _dict: args['label'] = _dict.get('label') else: raise ValueError( 'Required property \'label\' not present in DialogNodeOutputOptionsElement JSON' ) if 'value' in _dict: args['value'] = DialogNodeOutputOptionsElementValue._from_dict( _dict.get('value')) else: raise ValueError( 'Required property \'value\' not present in DialogNodeOutputOptionsElement JSON' ) return cls(**args) def _to_dict(self): """Return a json dictionary representing this model.""" _dict = {} if hasattr(self, 'label') and self.label is not None: _dict['label'] = self.label if hasattr(self, 'value') and self.value is not None: _dict['value'] = self.value._to_dict() return _dict def __str__(self): """Return a `str` version of this DialogNodeOutputOptionsElement object.""" return json.dumps(self._to_dict(), indent=2) def __eq__(self, other): """Return `true` when self and other are equal, false otherwise.""" if not isinstance(other, self.__class__): return False return self.__dict__ == other.__dict__ def __ne__(self, other): """Return `true` when self and other are not equal, false otherwise.""" return not self == other class DialogNodeOutputOptionsElementValue(object): """ An object defining the message input to be sent to the assistant if the user selects the corresponding option. :attr MessageInput input: (optional) The user input. """ def __init__(self, input=None): """ Initialize a DialogNodeOutputOptionsElementValue object. :param MessageInput input: (optional) The user input. """ self.input = input @classmethod def _from_dict(cls, _dict): """Initialize a DialogNodeOutputOptionsElementValue object from a json dictionary.""" args = {} if 'input' in _dict: args['input'] = MessageInput._from_dict(_dict.get('input')) return cls(**args) def _to_dict(self): """Return a json dictionary representing this model.""" _dict = {} if hasattr(self, 'input') and self.input is not None: _dict['input'] = self.input._to_dict() return _dict def __str__(self): """Return a `str` version of this DialogNodeOutputOptionsElementValue object.""" return json.dumps(self._to_dict(), indent=2) def __eq__(self, other): """Return `true` when self and other are equal, false otherwise.""" if not isinstance(other, self.__class__): return False return self.__dict__ == other.__dict__ def __ne__(self, other): """Return `true` when self and other are not equal, false otherwise.""" return not self == other class DialogNodesVisited(object): """ DialogNodesVisited. :attr str dialog_node: (optional) A dialog node that was triggered during processing of the input message. :attr str title: (optional) The title of the dialog node. :attr str conditions: (optional) The conditions that trigger the dialog node. """ def __init__(self, dialog_node=None, title=None, conditions=None): """ Initialize a DialogNodesVisited object. :param str dialog_node: (optional) A dialog node that was triggered during processing of the input message. :param str title: (optional) The title of the dialog node. :param str conditions: (optional) The conditions that trigger the dialog node. """ self.dialog_node = dialog_node self.title = title self.conditions = conditions @classmethod def _from_dict(cls, _dict): """Initialize a DialogNodesVisited object from a json dictionary.""" args = {} if 'dialog_node' in _dict: args['dialog_node'] = _dict.get('dialog_node') if 'title' in _dict: args['title'] = _dict.get('title') if 'conditions' in _dict: args['conditions'] = _dict.get('conditions') return cls(**args) def _to_dict(self): """Return a json dictionary representing this model.""" _dict = {} if hasattr(self, 'dialog_node') and self.dialog_node is not None: _dict['dialog_node'] = self.dialog_node if hasattr(self, 'title') and self.title is not None: _dict['title'] = self.title if hasattr(self, 'conditions') and self.conditions is not None: _dict['conditions'] = self.conditions return _dict def __str__(self): """Return a `str` version of this DialogNodesVisited object.""" return json.dumps(self._to_dict(), indent=2) def __eq__(self, other): """Return `true` when self and other are equal, false otherwise.""" if not isinstance(other, self.__class__): return False return self.__dict__ == other.__dict__ def __ne__(self, other): """Return `true` when self and other are not equal, false otherwise.""" return not self == other class DialogRuntimeResponseGeneric(object): """ DialogRuntimeResponseGeneric. :attr str response_type: The type of response returned by the dialog node. The specified response type must be supported by the client application or channel. **Note:** The **suggestion** response type is part of the disambiguation feature, which is only available for Premium users. :attr str text: (optional) The text of the response. :attr int time: (optional) How long to pause, in milliseconds. :attr bool typing: (optional) Whether to send a "user is typing" event during the pause. :attr str source: (optional) The URL of the image. :attr str title: (optional) The title to show before the response. :attr str description: (optional) The description to show with the the response. :attr str preference: (optional) The preferred type of control to display. :attr list[DialogNodeOutputOptionsElement] options: (optional) An array of objects describing the options from which the user can choose. :attr str message_to_human_agent: (optional) A message to be sent to the human agent who will be taking over the conversation. :attr str topic: (optional) A label identifying the topic of the conversation, derived from the **user_label** property of the relevant node. :attr list[DialogSuggestion] suggestions: (optional) An array of objects describing the possible matching dialog nodes from which the user can choose. **Note:** The **suggestions** property is part of the disambiguation feature, which is only available for Premium users. """ def __init__(self, response_type, text=None, time=None, typing=None, source=None, title=None, description=None, preference=None, options=None, message_to_human_agent=None, topic=None, suggestions=None): """ Initialize a DialogRuntimeResponseGeneric object. :param str response_type: The type of response returned by the dialog node. The specified response type must be supported by the client application or channel. **Note:** The **suggestion** response type is part of the disambiguation feature, which is only available for Premium users. :param str text: (optional) The text of the response. :param int time: (optional) How long to pause, in milliseconds. :param bool typing: (optional) Whether to send a "user is typing" event during the pause. :param str source: (optional) The URL of the image. :param str title: (optional) The title to show before the response. :param str description: (optional) The description to show with the the response. :param str preference: (optional) The preferred type of control to display. :param list[DialogNodeOutputOptionsElement] options: (optional) An array of objects describing the options from which the user can choose. :param str message_to_human_agent: (optional) A message to be sent to the human agent who will be taking over the conversation. :param str topic: (optional) A label identifying the topic of the conversation, derived from the **user_label** property of the relevant node. :param list[DialogSuggestion] suggestions: (optional) An array of objects describing the possible matching dialog nodes from which the user can choose. **Note:** The **suggestions** property is part of the disambiguation feature, which is only available for Premium users. """ self.response_type = response_type self.text = text self.time = time self.typing = typing self.source = source self.title = title self.description = description self.preference = preference self.options = options self.message_to_human_agent = message_to_human_agent self.topic = topic self.suggestions = suggestions @classmethod def _from_dict(cls, _dict): """Initialize a DialogRuntimeResponseGeneric object from a json dictionary.""" args = {} if 'response_type' in _dict: args['response_type'] = _dict.get('response_type') else: raise ValueError( 'Required property \'response_type\' not present in DialogRuntimeResponseGeneric JSON' ) if 'text' in _dict: args['text'] = _dict.get('text') if 'time' in _dict: args['time'] = _dict.get('time') if 'typing' in _dict: args['typing'] = _dict.get('typing') if 'source' in _dict: args['source'] = _dict.get('source') if 'title' in _dict: args['title'] = _dict.get('title') if 'description' in _dict: args['description'] = _dict.get('description') if 'preference' in _dict: args['preference'] = _dict.get('preference') if 'options' in _dict: args['options'] = [ DialogNodeOutputOptionsElement._from_dict(x) for x in (_dict.get('options')) ] if 'message_to_human_agent' in _dict: args['message_to_human_agent'] = _dict.get('message_to_human_agent') if 'topic' in _dict: args['topic'] = _dict.get('topic') if 'suggestions' in _dict: args['suggestions'] = [ DialogSuggestion._from_dict(x) for x in (_dict.get('suggestions')) ] return cls(**args) def _to_dict(self): """Return a json dictionary representing this model.""" _dict = {} if hasattr(self, 'response_type') and self.response_type is not None: _dict['response_type'] = self.response_type if hasattr(self, 'text') and self.text is not None: _dict['text'] = self.text if hasattr(self, 'time') and self.time is not None: _dict['time'] = self.time if hasattr(self, 'typing') and self.typing is not None: _dict['typing'] = self.typing if hasattr(self, 'source') and self.source is not None: _dict['source'] = self.source if hasattr(self, 'title') and self.title is not None: _dict['title'] = self.title if hasattr(self, 'description') and self.description is not None: _dict['description'] = self.description if hasattr(self, 'preference') and self.preference is not None: _dict['preference'] = self.preference if hasattr(self, 'options') and self.options is not None: _dict['options'] = [x._to_dict() for x in self.options] if hasattr(self, 'message_to_human_agent' ) and self.message_to_human_agent is not None: _dict['message_to_human_agent'] = self.message_to_human_agent if hasattr(self, 'topic') and self.topic is not None: _dict['topic'] = self.topic if hasattr(self, 'suggestions') and self.suggestions is not None: _dict['suggestions'] = [x._to_dict() for x in self.suggestions] return _dict def __str__(self): """Return a `str` version of this DialogRuntimeResponseGeneric object.""" return json.dumps(self._to_dict(), indent=2) def __eq__(self, other): """Return `true` when self and other are equal, false otherwise.""" if not isinstance(other, self.__class__): return False return self.__dict__ == other.__dict__ def __ne__(self, other): """Return `true` when self and other are not equal, false otherwise.""" return not self == other class DialogSuggestion(object): """ DialogSuggestion. :attr str label: The user-facing label for the disambiguation option. This label is taken from the **user_label** property of the corresponding dialog node. :attr DialogSuggestionValue value: An object defining the message input to be sent to the assistant if the user selects the corresponding disambiguation option. :attr object output: (optional) The dialog output that will be returned from the Watson Assistant service if the user selects the corresponding option. """ def __init__(self, label, value, output=None): """ Initialize a DialogSuggestion object. :param str label: The user-facing label for the disambiguation option. This label is taken from the **user_label** property of the corresponding dialog node. :param DialogSuggestionValue value: An object defining the message input to be sent to the assistant if the user selects the corresponding disambiguation option. :param object output: (optional) The dialog output that will be returned from the Watson Assistant service if the user selects the corresponding option. """ self.label = label self.value = value self.output = output @classmethod def _from_dict(cls, _dict): """Initialize a DialogSuggestion object from a json dictionary.""" args = {} if 'label' in _dict: args['label'] = _dict.get('label') else: raise ValueError( 'Required property \'label\' not present in DialogSuggestion JSON' ) if 'value' in _dict: args['value'] = DialogSuggestionValue._from_dict(_dict.get('value')) else: raise ValueError( 'Required property \'value\' not present in DialogSuggestion JSON' ) if 'output' in _dict: args['output'] = _dict.get('output') return cls(**args) def _to_dict(self): """Return a json dictionary representing this model.""" _dict = {} if hasattr(self, 'label') and self.label is not None: _dict['label'] = self.label if hasattr(self, 'value') and self.value is not None: _dict['value'] = self.value._to_dict() if hasattr(self, 'output') and self.output is not None: _dict['output'] = self.output return _dict def __str__(self): """Return a `str` version of this DialogSuggestion object.""" return json.dumps(self._to_dict(), indent=2) def __eq__(self, other): """Return `true` when self and other are equal, false otherwise.""" if not isinstance(other, self.__class__): return False return self.__dict__ == other.__dict__ def __ne__(self, other): """Return `true` when self and other are not equal, false otherwise.""" return not self == other class DialogSuggestionValue(object): """ An object defining the message input to be sent to the assistant if the user selects the corresponding disambiguation option. :attr MessageInput input: (optional) The user input. """ def __init__(self, input=None): """ Initialize a DialogSuggestionValue object. :param MessageInput input: (optional) The user input. """ self.input = input @classmethod def _from_dict(cls, _dict): """Initialize a DialogSuggestionValue object from a json dictionary.""" args = {} if 'input' in _dict: args['input'] = MessageInput._from_dict(_dict.get('input')) return cls(**args) def _to_dict(self): """Return a json dictionary representing this model.""" _dict = {} if hasattr(self, 'input') and self.input is not None: _dict['input'] = self.input._to_dict() return _dict def __str__(self): """Return a `str` version of this DialogSuggestionValue object.""" return json.dumps(self._to_dict(), indent=2) def __eq__(self, other): """Return `true` when self and other are equal, false otherwise.""" if not isinstance(other, self.__class__): return False return self.__dict__ == other.__dict__ def __ne__(self, other): """Return `true` when self and other are not equal, false otherwise.""" return not self == other class MessageContext(object): """ State information for the conversation. :attr MessageContextGlobal global_: (optional) Contains information that can be shared by all skills within the Assistant. :attr MessageContextSkills skills: (optional) Contains information specific to particular skills within the Assistant. """ def __init__(self, global_=None, skills=None): """ Initialize a MessageContext object. :param MessageContextGlobal global_: (optional) Contains information that can be shared by all skills within the Assistant. :param MessageContextSkills skills: (optional) Contains information specific to particular skills within the Assistant. """ self.global_ = global_ self.skills = skills @classmethod def _from_dict(cls, _dict): """Initialize a MessageContext object from a json dictionary.""" args = {} if 'global' in _dict: args['global_'] = MessageContextGlobal._from_dict( _dict.get('global')) if 'skills' in _dict: args['skills'] = MessageContextSkills._from_dict( _dict.get('skills')) return cls(**args) def _to_dict(self): """Return a json dictionary representing this model.""" _dict = {} if hasattr(self, 'global_') and self.global_ is not None: _dict['global'] = self.global_._to_dict() if hasattr(self, 'skills') and self.skills is not None: _dict['skills'] = self.skills._to_dict() return _dict def __str__(self): """Return a `str` version of this MessageContext object.""" return json.dumps(self._to_dict(), indent=2) def __eq__(self, other): """Return `true` when self and other are equal, false otherwise.""" if not isinstance(other, self.__class__): return False return self.__dict__ == other.__dict__ def __ne__(self, other): """Return `true` when self and other are not equal, false otherwise.""" return not self == other class MessageContextGlobal(object): """ Contains information that can be shared by all skills within the Assistant. :attr MessageContextGlobalSystem system: (optional) Properties that are shared by all skills used by the assistant. """ def __init__(self, system=None): """ Initialize a MessageContextGlobal object. :param MessageContextGlobalSystem system: (optional) Properties that are shared by all skills used by the assistant. """ self.system = system @classmethod def _from_dict(cls, _dict): """Initialize a MessageContextGlobal object from a json dictionary.""" args = {} if 'system' in _dict: args['system'] = MessageContextGlobalSystem._from_dict( _dict.get('system')) return cls(**args) def _to_dict(self): """Return a json dictionary representing this model.""" _dict = {} if hasattr(self, 'system') and self.system is not None: _dict['system'] = self.system._to_dict() return _dict def __str__(self): """Return a `str` version of this MessageContextGlobal object.""" return json.dumps(self._to_dict(), indent=2) def __eq__(self, other): """Return `true` when self and other are equal, false otherwise.""" if not isinstance(other, self.__class__): return False return self.__dict__ == other.__dict__ def __ne__(self, other): """Return `true` when self and other are not equal, false otherwise.""" return not self == other class MessageContextGlobalSystem(object): """ Properties that are shared by all skills used by the assistant. :attr str timezone: (optional) The user time zone. The assistant uses the time zone to correctly resolve relative time references. :attr str user_id: (optional) A string value that identifies the user who is interacting with the assistant. The client must provide a unique identifier for each individual end user who accesses the application. For Plus and Premium plans, this user ID is used to identify unique users for billing purposes. This string cannot contain carriage return, newline, or tab characters. :attr int turn_count: (optional) A counter that is automatically incremented with each turn of the conversation. A value of 1 indicates that this is the the first turn of a new conversation, which can affect the behavior of some skills. """ def __init__(self, timezone=None, user_id=None, turn_count=None): """ Initialize a MessageContextGlobalSystem object. :param str timezone: (optional) The user time zone. The assistant uses the time zone to correctly resolve relative time references. :param str user_id: (optional) A string value that identifies the user who is interacting with the assistant. The client must provide a unique identifier for each individual end user who accesses the application. For Plus and Premium plans, this user ID is used to identify unique users for billing purposes. This string cannot contain carriage return, newline, or tab characters. :param int turn_count: (optional) A counter that is automatically incremented with each turn of the conversation. A value of 1 indicates that this is the the first turn of a new conversation, which can affect the behavior of some skills. """ self.timezone = timezone self.user_id = user_id self.turn_count = turn_count @classmethod def _from_dict(cls, _dict): """Initialize a MessageContextGlobalSystem object from a json dictionary.""" args = {} if 'timezone' in _dict: args['timezone'] = _dict.get('timezone') if 'user_id' in _dict: args['user_id'] = _dict.get('user_id') if 'turn_count' in _dict: args['turn_count'] = _dict.get('turn_count') return cls(**args) def _to_dict(self): """Return a json dictionary representing this model.""" _dict = {} if hasattr(self, 'timezone') and self.timezone is not None: _dict['timezone'] = self.timezone if hasattr(self, 'user_id') and self.user_id is not None: _dict['user_id'] = self.user_id if hasattr(self, 'turn_count') and self.turn_count is not None: _dict['turn_count'] = self.turn_count return _dict def __str__(self): """Return a `str` version of this MessageContextGlobalSystem object.""" return json.dumps(self._to_dict(), indent=2) def __eq__(self, other): """Return `true` when self and other are equal, false otherwise.""" if not isinstance(other, self.__class__): return False return self.__dict__ == other.__dict__ def __ne__(self, other): """Return `true` when self and other are not equal, false otherwise.""" return not self == other class MessageContextSkill(object): """ Contains information specific to a particular skill within the Assistant. :attr str user_defined: (optional) Arbitrary variables that can be read and written to by a particular skill within the Assistant. """ def __init__(self, user_defined=None): """ Initialize a MessageContextSkill object. :param str user_defined: (optional) Arbitrary variables that can be read and written to by a particular skill within the Assistant. """ self.user_defined = user_defined @classmethod def _from_dict(cls, _dict): """Initialize a MessageContextSkill object from a json dictionary.""" args = {} if 'user_defined' in _dict: args['user_defined'] = _dict.get('user_defined') return cls(**args) def _to_dict(self): """Return a json dictionary representing this model.""" _dict = {} if hasattr(self, 'user_defined') and self.user_defined is not None: _dict['user_defined'] = self.user_defined return _dict def __str__(self): """Return a `str` version of this MessageContextSkill object.""" return json.dumps(self._to_dict(), indent=2) def __eq__(self, other): """Return `true` when self and other are equal, false otherwise.""" if not isinstance(other, self.__class__): return False return self.__dict__ == other.__dict__ def __ne__(self, other): """Return `true` when self and other are not equal, false otherwise.""" return not self == other class MessageContextSkills(object): """ Contains information specific to particular skills within the Assistant. """ def __init__(self, **kwargs): """ Initialize a MessageContextSkills object. :param **kwargs: (optional) Any additional properties. """ for _key, _value in kwargs.items(): setattr(self, _key, _value) @classmethod def _from_dict(cls, _dict): """Initialize a MessageContextSkills object from a json dictionary.""" args = {} xtra = _dict.copy() args.update(xtra) return cls(**args) def _to_dict(self): """Return a json dictionary representing this model.""" _dict = {} if hasattr(self, '_additionalProperties'): for _key in self._additionalProperties: _value = getattr(self, _key, None) if _value is not None: _dict[_key] = _value return _dict def __setattr__(self, name, value): properties = {} if not hasattr(self, '_additionalProperties'): super(MessageContextSkills, self).__setattr__( '_additionalProperties', set()) if name not in properties: self._additionalProperties.add(name) super(MessageContextSkills, self).__setattr__(name, value) def __str__(self): """Return a `str` version of this MessageContextSkills object.""" return json.dumps(self._to_dict(), indent=2) def __eq__(self, other): """Return `true` when self and other are equal, false otherwise.""" if not isinstance(other, self.__class__): return False return self.__dict__ == other.__dict__ def __ne__(self, other): """Return `true` when self and other are not equal, false otherwise.""" return not self == other class MessageInput(object): """ The user input. :attr str message_type: (optional) The type of user input. Currently, only text input is supported. :attr str text: (optional) The text of the user input. This string cannot contain carriage return, newline, or tab characters, and it must be no longer than 2048 characters. :attr MessageInputOptions options: (optional) Optional properties that control how the assistant responds. :attr list[RuntimeIntent] intents: (optional) Intents to use when evaluating the user input. Include intents from the previous response to continue using those intents rather than trying to recognize intents in the new input. :attr list[RuntimeEntity] entities: (optional) Entities to use when evaluating the message. Include entities from the previous response to continue using those entities rather than detecting entities in the new input. :attr str suggestion_id: (optional) For internal use only. """ def __init__(self, message_type=None, text=None, options=None, intents=None, entities=None, suggestion_id=None): """ Initialize a MessageInput object. :param str message_type: (optional) The type of user input. Currently, only text input is supported. :param str text: (optional) The text of the user input. This string cannot contain carriage return, newline, or tab characters, and it must be no longer than 2048 characters. :param MessageInputOptions options: (optional) Optional properties that control how the assistant responds. :param list[RuntimeIntent] intents: (optional) Intents to use when evaluating the user input. Include intents from the previous response to continue using those intents rather than trying to recognize intents in the new input. :param list[RuntimeEntity] entities: (optional) Entities to use when evaluating the message. Include entities from the previous response to continue using those entities rather than detecting entities in the new input. :param str suggestion_id: (optional) For internal use only. """ self.message_type = message_type self.text = text self.options = options self.intents = intents self.entities = entities self.suggestion_id = suggestion_id @classmethod def _from_dict(cls, _dict): """Initialize a MessageInput object from a json dictionary.""" args = {} if 'message_type' in _dict: args['message_type'] = _dict.get('message_type') if 'text' in _dict: args['text'] = _dict.get('text') if 'options' in _dict: args['options'] = MessageInputOptions._from_dict( _dict.get('options')) if 'intents' in _dict: args['intents'] = [ RuntimeIntent._from_dict(x) for x in (_dict.get('intents')) ] if 'entities' in _dict: args['entities'] = [ RuntimeEntity._from_dict(x) for x in (_dict.get('entities')) ] if 'suggestion_id' in _dict: args['suggestion_id'] = _dict.get('suggestion_id') return cls(**args) def _to_dict(self): """Return a json dictionary representing this model.""" _dict = {} if hasattr(self, 'message_type') and self.message_type is not None: _dict['message_type'] = self.message_type if hasattr(self, 'text') and self.text is not None: _dict['text'] = self.text if hasattr(self, 'options') and self.options is not None: _dict['options'] = self.options._to_dict() if hasattr(self, 'intents') and self.intents is not None: _dict['intents'] = [x._to_dict() for x in self.intents] if hasattr(self, 'entities') and self.entities is not None: _dict['entities'] = [x._to_dict() for x in self.entities] if hasattr(self, 'suggestion_id') and self.suggestion_id is not None: _dict['suggestion_id'] = self.suggestion_id return _dict def __str__(self): """Return a `str` version of this MessageInput object.""" return json.dumps(self._to_dict(), indent=2) def __eq__(self, other): """Return `true` when self and other are equal, false otherwise.""" if not isinstance(other, self.__class__): return False return self.__dict__ == other.__dict__ def __ne__(self, other): """Return `true` when self and other are not equal, false otherwise.""" return not self == other class MessageInputOptions(object): """ Optional properties that control how the assistant responds. :attr bool debug: (optional) Whether to return additional diagnostic information. Set to `true` to return additional information under the `output.debug` key. :attr bool restart: (optional) Whether to start a new conversation with this user input. Specify `true` to clear the state information stored by the session. :attr bool alternate_intents: (optional) Whether to return more than one intent. Set to `true` to return all matching intents. :attr bool return_context: (optional) Whether to return session context with the response. If you specify `true`, the response will include the `context` property. """ def __init__(self, debug=None, restart=None, alternate_intents=None, return_context=None): """ Initialize a MessageInputOptions object. :param bool debug: (optional) Whether to return additional diagnostic information. Set to `true` to return additional information under the `output.debug` key. :param bool restart: (optional) Whether to start a new conversation with this user input. Specify `true` to clear the state information stored by the session. :param bool alternate_intents: (optional) Whether to return more than one intent. Set to `true` to return all matching intents. :param bool return_context: (optional) Whether to return session context with the response. If you specify `true`, the response will include the `context` property. """ self.debug = debug self.restart = restart self.alternate_intents = alternate_intents self.return_context = return_context @classmethod def _from_dict(cls, _dict): """Initialize a MessageInputOptions object from a json dictionary.""" args = {} if 'debug' in _dict: args['debug'] = _dict.get('debug') if 'restart' in _dict: args['restart'] = _dict.get('restart') if 'alternate_intents' in _dict: args['alternate_intents'] = _dict.get('alternate_intents') if 'return_context' in _dict: args['return_context'] = _dict.get('return_context') return cls(**args) def _to_dict(self): """Return a json dictionary representing this model.""" _dict = {} if hasattr(self, 'debug') and self.debug is not None: _dict['debug'] = self.debug if hasattr(self, 'restart') and self.restart is not None: _dict['restart'] = self.restart if hasattr(self, 'alternate_intents') and self.alternate_intents is not None: _dict['alternate_intents'] = self.alternate_intents if hasattr(self, 'return_context') and self.return_context is not None: _dict['return_context'] = self.return_context return _dict def __str__(self): """Return a `str` version of this MessageInputOptions object.""" return json.dumps(self._to_dict(), indent=2) def __eq__(self, other): """Return `true` when self and other are equal, false otherwise.""" if not isinstance(other, self.__class__): return False return self.__dict__ == other.__dict__ def __ne__(self, other): """Return `true` when self and other are not equal, false otherwise.""" return not self == other class MessageOutput(object): """ Assistant output to be rendered or processed by the client. :attr list[DialogRuntimeResponseGeneric] generic: (optional) Output intended for any channel. It is the responsibility of the client application to implement the supported response types. :attr list[RuntimeIntent] intents: (optional) An array of intents recognized in the user input, sorted in descending order of confidence. :attr list[RuntimeEntity] entities: (optional) An array of entities identified in the user input. :attr list[DialogNodeAction] actions: (optional) An array of objects describing any actions requested by the dialog node. :attr MessageOutputDebug debug: (optional) Additional detailed information about a message response and how it was generated. :attr object user_defined: (optional) Arbitrary variables that can be read and written to by a particular skill within the Assistant. """ def __init__(self, generic=None, intents=None, entities=None, actions=None, debug=None, user_defined=None): """ Initialize a MessageOutput object. :param list[DialogRuntimeResponseGeneric] generic: (optional) Output intended for any channel. It is the responsibility of the client application to implement the supported response types. :param list[RuntimeIntent] intents: (optional) An array of intents recognized in the user input, sorted in descending order of confidence. :param list[RuntimeEntity] entities: (optional) An array of entities identified in the user input. :param list[DialogNodeAction] actions: (optional) An array of objects describing any actions requested by the dialog node. :param MessageOutputDebug debug: (optional) Additional detailed information about a message response and how it was generated. :param object user_defined: (optional) Arbitrary variables that can be read and written to by a particular skill within the Assistant. """ self.generic = generic self.intents = intents self.entities = entities self.actions = actions self.debug = debug self.user_defined = user_defined @classmethod def _from_dict(cls, _dict): """Initialize a MessageOutput object from a json dictionary.""" args = {} if 'generic' in _dict: args['generic'] = [ DialogRuntimeResponseGeneric._from_dict(x) for x in (_dict.get('generic')) ] if 'intents' in _dict: args['intents'] = [ RuntimeIntent._from_dict(x) for x in (_dict.get('intents')) ] if 'entities' in _dict: args['entities'] = [ RuntimeEntity._from_dict(x) for x in (_dict.get('entities')) ] if 'actions' in _dict: args['actions'] = [ DialogNodeAction._from_dict(x) for x in (_dict.get('actions')) ] if 'debug' in _dict: args['debug'] = MessageOutputDebug._from_dict(_dict.get('debug')) if 'user_defined' in _dict: args['user_defined'] = _dict.get('user_defined') return cls(**args) def _to_dict(self): """Return a json dictionary representing this model.""" _dict = {} if hasattr(self, 'generic') and self.generic is not None: _dict['generic'] = [x._to_dict() for x in self.generic] if hasattr(self, 'intents') and self.intents is not None: _dict['intents'] = [x._to_dict() for x in self.intents] if hasattr(self, 'entities') and self.entities is not None: _dict['entities'] = [x._to_dict() for x in self.entities] if hasattr(self, 'actions') and self.actions is not None: _dict['actions'] = [x._to_dict() for x in self.actions] if hasattr(self, 'debug') and self.debug is not None: _dict['debug'] = self.debug._to_dict() if hasattr(self, 'user_defined') and self.user_defined is not None: _dict['user_defined'] = self.user_defined return _dict def __str__(self): """Return a `str` version of this MessageOutput object.""" return json.dumps(self._to_dict(), indent=2) def __eq__(self, other): """Return `true` when self and other are equal, false otherwise.""" if not isinstance(other, self.__class__): return False return self.__dict__ == other.__dict__ def __ne__(self, other): """Return `true` when self and other are not equal, false otherwise.""" return not self == other class MessageOutputDebug(object): """ Additional detailed information about a message response and how it was generated. :attr list[DialogNodesVisited] nodes_visited: (optional) An array of objects containing detailed diagnostic information about the nodes that were triggered during processing of the input message. :attr list[DialogLogMessage] log_messages: (optional) An array of up to 50 messages logged with the request. :attr bool branch_exited: (optional) Assistant sets this to true when this message response concludes or interrupts a dialog. :attr str branch_exited_reason: (optional) When `branch_exited` is set to `true` by the Assistant, the `branch_exited_reason` specifies whether the dialog completed by itself or got interrupted. """ def __init__(self, nodes_visited=None, log_messages=None, branch_exited=None, branch_exited_reason=None): """ Initialize a MessageOutputDebug object. :param list[DialogNodesVisited] nodes_visited: (optional) An array of objects containing detailed diagnostic information about the nodes that were triggered during processing of the input message. :param list[DialogLogMessage] log_messages: (optional) An array of up to 50 messages logged with the request. :param bool branch_exited: (optional) Assistant sets this to true when this message response concludes or interrupts a dialog. :param str branch_exited_reason: (optional) When `branch_exited` is set to `true` by the Assistant, the `branch_exited_reason` specifies whether the dialog completed by itself or got interrupted. """ self.nodes_visited = nodes_visited self.log_messages = log_messages self.branch_exited = branch_exited self.branch_exited_reason = branch_exited_reason @classmethod def _from_dict(cls, _dict): """Initialize a MessageOutputDebug object from a json dictionary.""" args = {} if 'nodes_visited' in _dict: args['nodes_visited'] = [ DialogNodesVisited._from_dict(x) for x in (_dict.get('nodes_visited')) ] if 'log_messages' in _dict: args['log_messages'] = [ DialogLogMessage._from_dict(x) for x in (_dict.get('log_messages')) ] if 'branch_exited' in _dict: args['branch_exited'] = _dict.get('branch_exited') if 'branch_exited_reason' in _dict: args['branch_exited_reason'] = _dict.get('branch_exited_reason') return cls(**args) def _to_dict(self): """Return a json dictionary representing this model.""" _dict = {} if hasattr(self, 'nodes_visited') and self.nodes_visited is not None: _dict['nodes_visited'] = [x._to_dict() for x in self.nodes_visited] if hasattr(self, 'log_messages') and self.log_messages is not None: _dict['log_messages'] = [x._to_dict() for x in self.log_messages] if hasattr(self, 'branch_exited') and self.branch_exited is not None: _dict['branch_exited'] = self.branch_exited if hasattr(self, 'branch_exited_reason' ) and self.branch_exited_reason is not None: _dict['branch_exited_reason'] = self.branch_exited_reason return _dict def __str__(self): """Return a `str` version of this MessageOutputDebug object.""" return json.dumps(self._to_dict(), indent=2) def __eq__(self, other): """Return `true` when self and other are equal, false otherwise.""" if not isinstance(other, self.__class__): return False return self.__dict__ == other.__dict__ def __ne__(self, other): """Return `true` when self and other are not equal, false otherwise.""" return not self == other class MessageResponse(object): """ A response from the Watson Assistant service. :attr MessageOutput output: Assistant output to be rendered or processed by the client. :attr MessageContext context: (optional) State information for the conversation. """ def __init__(self, output, context=None): """ Initialize a MessageResponse object. :param MessageOutput output: Assistant output to be rendered or processed by the client. :param MessageContext context: (optional) State information for the conversation. """ self.output = output self.context = context @classmethod def _from_dict(cls, _dict): """Initialize a MessageResponse object from a json dictionary.""" args = {} if 'output' in _dict: args['output'] = MessageOutput._from_dict(_dict.get('output')) else: raise ValueError( 'Required property \'output\' not present in MessageResponse JSON' ) if 'context' in _dict: args['context'] = MessageContext._from_dict(_dict.get('context')) return cls(**args) def _to_dict(self): """Return a json dictionary representing this model.""" _dict = {} if hasattr(self, 'output') and self.output is not None: _dict['output'] = self.output._to_dict() if hasattr(self, 'context') and self.context is not None: _dict['context'] = self.context._to_dict() return _dict def __str__(self): """Return a `str` version of this MessageResponse object.""" return json.dumps(self._to_dict(), indent=2) def __eq__(self, other): """Return `true` when self and other are equal, false otherwise.""" if not isinstance(other, self.__class__): return False return self.__dict__ == other.__dict__ def __ne__(self, other): """Return `true` when self and other are not equal, false otherwise.""" return not self == other class RuntimeEntity(object): """ A term from the request that was identified as an entity. :attr str entity: An entity detected in the input. :attr list[int] location: An array of zero-based character offsets that indicate where the detected entity values begin and end in the input text. :attr str value: The term in the input text that was recognized as an entity value. :attr float confidence: (optional) A decimal percentage that represents Watson's confidence in the entity. :attr object metadata: (optional) Any metadata for the entity. :attr list[CaptureGroup] groups: (optional) The recognized capture groups for the entity, as defined by the entity pattern. """ def __init__(self, entity, location, value, confidence=None, metadata=None, groups=None): """ Initialize a RuntimeEntity object. :param str entity: An entity detected in the input. :param list[int] location: An array of zero-based character offsets that indicate where the detected entity values begin and end in the input text. :param str value: The term in the input text that was recognized as an entity value. :param float confidence: (optional) A decimal percentage that represents Watson's confidence in the entity. :param object metadata: (optional) Any metadata for the entity. :param list[CaptureGroup] groups: (optional) The recognized capture groups for the entity, as defined by the entity pattern. """ self.entity = entity self.location = location self.value = value self.confidence = confidence self.metadata = metadata self.groups = groups @classmethod def _from_dict(cls, _dict): """Initialize a RuntimeEntity object from a json dictionary.""" args = {} if 'entity' in _dict: args['entity'] = _dict.get('entity') else: raise ValueError( 'Required property \'entity\' not present in RuntimeEntity JSON' ) if 'location' in _dict: args['location'] = _dict.get('location') else: raise ValueError( 'Required property \'location\' not present in RuntimeEntity JSON' ) if 'value' in _dict: args['value'] = _dict.get('value') else: raise ValueError( 'Required property \'value\' not present in RuntimeEntity JSON') if 'confidence' in _dict: args['confidence'] = _dict.get('confidence') if 'metadata' in _dict: args['metadata'] = _dict.get('metadata') if 'groups' in _dict: args['groups'] = [ CaptureGroup._from_dict(x) for x in (_dict.get('groups')) ] return cls(**args) def _to_dict(self): """Return a json dictionary representing this model.""" _dict = {} if hasattr(self, 'entity') and self.entity is not None: _dict['entity'] = self.entity if hasattr(self, 'location') and self.location is not None: _dict['location'] = self.location if hasattr(self, 'value') and self.value is not None: _dict['value'] = self.value if hasattr(self, 'confidence') and self.confidence is not None: _dict['confidence'] = self.confidence if hasattr(self, 'metadata') and self.metadata is not None: _dict['metadata'] = self.metadata if hasattr(self, 'groups') and self.groups is not None: _dict['groups'] = [x._to_dict() for x in self.groups] return _dict def __str__(self): """Return a `str` version of this RuntimeEntity object.""" return json.dumps(self._to_dict(), indent=2) def __eq__(self, other): """Return `true` when self and other are equal, false otherwise.""" if not isinstance(other, self.__class__): return False return self.__dict__ == other.__dict__ def __ne__(self, other): """Return `true` when self and other are not equal, false otherwise.""" return not self == other class RuntimeIntent(object): """ An intent identified in the user input. :attr str intent: The name of the recognized intent. :attr float confidence: A decimal percentage that represents Watson's confidence in the intent. """ def __init__(self, intent, confidence): """ Initialize a RuntimeIntent object. :param str intent: The name of the recognized intent. :param float confidence: A decimal percentage that represents Watson's confidence in the intent. """ self.intent = intent self.confidence = confidence @classmethod def _from_dict(cls, _dict): """Initialize a RuntimeIntent object from a json dictionary.""" args = {} if 'intent' in _dict: args['intent'] = _dict.get('intent') else: raise ValueError( 'Required property \'intent\' not present in RuntimeIntent JSON' ) if 'confidence' in _dict: args['confidence'] = _dict.get('confidence') else: raise ValueError( 'Required property \'confidence\' not present in RuntimeIntent JSON' ) return cls(**args) def _to_dict(self): """Return a json dictionary representing this model.""" _dict = {} if hasattr(self, 'intent') and self.intent is not None: _dict['intent'] = self.intent if hasattr(self, 'confidence') and self.confidence is not None: _dict['confidence'] = self.confidence return _dict def __str__(self): """Return a `str` version of this RuntimeIntent object.""" return json.dumps(self._to_dict(), indent=2) def __eq__(self, other): """Return `true` when self and other are equal, false otherwise.""" if not isinstance(other, self.__class__): return False return self.__dict__ == other.__dict__ def __ne__(self, other): """Return `true` when self and other are not equal, false otherwise.""" return not self == other class SessionResponse(object): """ SessionResponse. :attr str session_id: The session ID. """ def __init__(self, session_id): """ Initialize a SessionResponse object. :param str session_id: The session ID. """ self.session_id = session_id @classmethod def _from_dict(cls, _dict): """Initialize a SessionResponse object from a json dictionary.""" args = {} if 'session_id' in _dict: args['session_id'] = _dict.get('session_id') else: raise ValueError( 'Required property \'session_id\' not present in SessionResponse JSON' ) return cls(**args) def _to_dict(self): """Return a json dictionary representing this model.""" _dict = {} if hasattr(self, 'session_id') and self.session_id is not None: _dict['session_id'] = self.session_id return _dict def __str__(self): """Return a `str` version of this SessionResponse object.""" return json.dumps(self._to_dict(), indent=2) def __eq__(self, other): """Return `true` when self and other are equal, false otherwise.""" if not isinstance(other, self.__class__): return False return self.__dict__ == other.__dict__ def __ne__(self, other): """Return `true` when self and other are not equal, false otherwise.""" return not self == other