# frozen_string_literal: true # WARNING ABOUT GENERATED CODE # # This file is generated. See the contributing guide for more information: # https://github.com/aws/aws-sdk-ruby/blob/version-3/CONTRIBUTING.md # # WARNING ABOUT GENERATED CODE require 'seahorse/client/plugins/content_length.rb' require 'aws-sdk-core/plugins/credentials_configuration.rb' require 'aws-sdk-core/plugins/logging.rb' require 'aws-sdk-core/plugins/param_converter.rb' require 'aws-sdk-core/plugins/param_validator.rb' require 'aws-sdk-core/plugins/user_agent.rb' require 'aws-sdk-core/plugins/helpful_socket_errors.rb' require 'aws-sdk-core/plugins/retry_errors.rb' require 'aws-sdk-core/plugins/global_configuration.rb' require 'aws-sdk-core/plugins/regional_endpoint.rb' require 'aws-sdk-core/plugins/endpoint_discovery.rb' require 'aws-sdk-core/plugins/endpoint_pattern.rb' require 'aws-sdk-core/plugins/response_paging.rb' require 'aws-sdk-core/plugins/stub_responses.rb' require 'aws-sdk-core/plugins/idempotency_token.rb' require 'aws-sdk-core/plugins/jsonvalue_converter.rb' require 'aws-sdk-core/plugins/client_metrics_plugin.rb' require 'aws-sdk-core/plugins/client_metrics_send_plugin.rb' require 'aws-sdk-core/plugins/transfer_encoding.rb' require 'aws-sdk-core/plugins/http_checksum.rb' require 'aws-sdk-core/plugins/signature_v4.rb' require 'aws-sdk-core/plugins/protocols/rest_json.rb' Aws::Plugins::GlobalConfiguration.add_identifier(:lexmodelbuildingservice) module Aws::LexModelBuildingService # An API client for LexModelBuildingService. To construct a client, you need to configure a `:region` and `:credentials`. # # client = Aws::LexModelBuildingService::Client.new( # region: region_name, # credentials: credentials, # # ... # ) # # For details on configuring region and credentials see # the [developer guide](/sdk-for-ruby/v3/developer-guide/setup-config.html). # # See {#initialize} for a full list of supported configuration options. class Client < Seahorse::Client::Base include Aws::ClientStubs @identifier = :lexmodelbuildingservice set_api(ClientApi::API) add_plugin(Seahorse::Client::Plugins::ContentLength) add_plugin(Aws::Plugins::CredentialsConfiguration) add_plugin(Aws::Plugins::Logging) add_plugin(Aws::Plugins::ParamConverter) add_plugin(Aws::Plugins::ParamValidator) add_plugin(Aws::Plugins::UserAgent) add_plugin(Aws::Plugins::HelpfulSocketErrors) add_plugin(Aws::Plugins::RetryErrors) add_plugin(Aws::Plugins::GlobalConfiguration) add_plugin(Aws::Plugins::RegionalEndpoint) add_plugin(Aws::Plugins::EndpointDiscovery) add_plugin(Aws::Plugins::EndpointPattern) add_plugin(Aws::Plugins::ResponsePaging) add_plugin(Aws::Plugins::StubResponses) add_plugin(Aws::Plugins::IdempotencyToken) add_plugin(Aws::Plugins::JsonvalueConverter) add_plugin(Aws::Plugins::ClientMetricsPlugin) add_plugin(Aws::Plugins::ClientMetricsSendPlugin) add_plugin(Aws::Plugins::TransferEncoding) add_plugin(Aws::Plugins::HttpChecksum) add_plugin(Aws::Plugins::SignatureV4) add_plugin(Aws::Plugins::Protocols::RestJson) # @overload initialize(options) # @param [Hash] options # @option options [required, Aws::CredentialProvider] :credentials # Your AWS credentials. This can be an instance of any one of the # following classes: # # * `Aws::Credentials` - Used for configuring static, non-refreshing # credentials. # # * `Aws::SharedCredentials` - Used for loading static credentials from a # shared file, such as `~/.aws/config`. # # * `Aws::AssumeRoleCredentials` - Used when you need to assume a role. # # * `Aws::AssumeRoleWebIdentityCredentials` - Used when you need to # assume a role after providing credentials via the web. # # * `Aws::SSOCredentials` - Used for loading credentials from AWS SSO using an # access token generated from `aws login`. # # * `Aws::ProcessCredentials` - Used for loading credentials from a # process that outputs to stdout. # # * `Aws::InstanceProfileCredentials` - Used for loading credentials # from an EC2 IMDS on an EC2 instance. # # * `Aws::ECSCredentials` - Used for loading credentials from # instances running in ECS. # # * `Aws::CognitoIdentityCredentials` - Used for loading credentials # from the Cognito Identity service. # # When `:credentials` are not configured directly, the following # locations will be searched for credentials: # # * `Aws.config[:credentials]` # * The `:access_key_id`, `:secret_access_key`, and `:session_token` options. # * ENV['AWS_ACCESS_KEY_ID'], ENV['AWS_SECRET_ACCESS_KEY'] # * `~/.aws/credentials` # * `~/.aws/config` # * EC2/ECS IMDS instance profile - When used by default, the timeouts # are very aggressive. Construct and pass an instance of # `Aws::InstanceProfileCredentails` or `Aws::ECSCredentials` to # enable retries and extended timeouts. # # @option options [required, String] :region # The AWS region to connect to. The configured `:region` is # used to determine the service `:endpoint`. When not passed, # a default `:region` is searched for in the following locations: # # * `Aws.config[:region]` # * `ENV['AWS_REGION']` # * `ENV['AMAZON_REGION']` # * `ENV['AWS_DEFAULT_REGION']` # * `~/.aws/credentials` # * `~/.aws/config` # # @option options [String] :access_key_id # # @option options [Boolean] :active_endpoint_cache (false) # When set to `true`, a thread polling for endpoints will be running in # the background every 60 secs (default). Defaults to `false`. # # @option options [Boolean] :adaptive_retry_wait_to_fill (true) # Used only in `adaptive` retry mode. When true, the request will sleep # until there is sufficent client side capacity to retry the request. # When false, the request will raise a `RetryCapacityNotAvailableError` and will # not retry instead of sleeping. # # @option options [Boolean] :client_side_monitoring (false) # When `true`, client-side metrics will be collected for all API requests from # this client. # # @option options [String] :client_side_monitoring_client_id ("") # Allows you to provide an identifier for this client which will be attached to # all generated client side metrics. Defaults to an empty string. # # @option options [String] :client_side_monitoring_host ("127.0.0.1") # Allows you to specify the DNS hostname or IPv4 or IPv6 address that the client # side monitoring agent is running on, where client metrics will be published via UDP. # # @option options [Integer] :client_side_monitoring_port (31000) # Required for publishing client metrics. The port that the client side monitoring # agent is running on, where client metrics will be published via UDP. # # @option options [Aws::ClientSideMonitoring::Publisher] :client_side_monitoring_publisher (Aws::ClientSideMonitoring::Publisher) # Allows you to provide a custom client-side monitoring publisher class. By default, # will use the Client Side Monitoring Agent Publisher. # # @option options [Boolean] :convert_params (true) # When `true`, an attempt is made to coerce request parameters into # the required types. # # @option options [Boolean] :correct_clock_skew (true) # Used only in `standard` and adaptive retry modes. Specifies whether to apply # a clock skew correction and retry requests with skewed client clocks. # # @option options [Boolean] :disable_host_prefix_injection (false) # Set to true to disable SDK automatically adding host prefix # to default service endpoint when available. # # @option options [String] :endpoint # The client endpoint is normally constructed from the `:region` # option. You should only configure an `:endpoint` when connecting # to test or custom endpoints. This should be a valid HTTP(S) URI. # # @option options [Integer] :endpoint_cache_max_entries (1000) # Used for the maximum size limit of the LRU cache storing endpoints data # for endpoint discovery enabled operations. Defaults to 1000. # # @option options [Integer] :endpoint_cache_max_threads (10) # Used for the maximum threads in use for polling endpoints to be cached, defaults to 10. # # @option options [Integer] :endpoint_cache_poll_interval (60) # When :endpoint_discovery and :active_endpoint_cache is enabled, # Use this option to config the time interval in seconds for making # requests fetching endpoints information. Defaults to 60 sec. # # @option options [Boolean] :endpoint_discovery (false) # When set to `true`, endpoint discovery will be enabled for operations when available. # # @option options [Aws::Log::Formatter] :log_formatter (Aws::Log::Formatter.default) # The log formatter. # # @option options [Symbol] :log_level (:info) # The log level to send messages to the `:logger` at. # # @option options [Logger] :logger # The Logger instance to send log messages to. If this option # is not set, logging will be disabled. # # @option options [Integer] :max_attempts (3) # An integer representing the maximum number attempts that will be made for # a single request, including the initial attempt. For example, # setting this value to 5 will result in a request being retried up to # 4 times. Used in `standard` and `adaptive` retry modes. # # @option options [String] :profile ("default") # Used when loading credentials from the shared credentials file # at HOME/.aws/credentials. When not specified, 'default' is used. # # @option options [Proc] :retry_backoff # A proc or lambda used for backoff. Defaults to 2**retries * retry_base_delay. # This option is only used in the `legacy` retry mode. # # @option options [Float] :retry_base_delay (0.3) # The base delay in seconds used by the default backoff function. This option # is only used in the `legacy` retry mode. # # @option options [Symbol] :retry_jitter (:none) # A delay randomiser function used by the default backoff function. # Some predefined functions can be referenced by name - :none, :equal, :full, # otherwise a Proc that takes and returns a number. This option is only used # in the `legacy` retry mode. # # @see https://www.awsarchitectureblog.com/2015/03/backoff.html # # @option options [Integer] :retry_limit (3) # The maximum number of times to retry failed requests. Only # ~ 500 level server errors and certain ~ 400 level client errors # are retried. Generally, these are throttling errors, data # checksum errors, networking errors, timeout errors, auth errors, # endpoint discovery, and errors from expired credentials. # This option is only used in the `legacy` retry mode. # # @option options [Integer] :retry_max_delay (0) # The maximum number of seconds to delay between retries (0 for no limit) # used by the default backoff function. This option is only used in the # `legacy` retry mode. # # @option options [String] :retry_mode ("legacy") # Specifies which retry algorithm to use. Values are: # # * `legacy` - The pre-existing retry behavior. This is default value if # no retry mode is provided. # # * `standard` - A standardized set of retry rules across the AWS SDKs. # This includes support for retry quotas, which limit the number of # unsuccessful retries a client can make. # # * `adaptive` - An experimental retry mode that includes all the # functionality of `standard` mode along with automatic client side # throttling. This is a provisional mode that may change behavior # in the future. # # # @option options [String] :secret_access_key # # @option options [String] :session_token # # @option options [Boolean] :stub_responses (false) # Causes the client to return stubbed responses. By default # fake responses are generated and returned. You can specify # the response data to return or errors to raise by calling # {ClientStubs#stub_responses}. See {ClientStubs} for more information. # # ** Please note ** When response stubbing is enabled, no HTTP # requests are made, and retries are disabled. # # @option options [Boolean] :validate_params (true) # When `true`, request parameters are validated before # sending the request. # # @option options [URI::HTTP,String] :http_proxy A proxy to send # requests through. Formatted like 'http://proxy.com:123'. # # @option options [Float] :http_open_timeout (15) The number of # seconds to wait when opening a HTTP session before raising a # `Timeout::Error`. # # @option options [Integer] :http_read_timeout (60) The default # number of seconds to wait for response data. This value can # safely be set per-request on the session. # # @option options [Float] :http_idle_timeout (5) The number of # seconds a connection is allowed to sit idle before it is # considered stale. Stale connections are closed and removed # from the pool before making a request. # # @option options [Float] :http_continue_timeout (1) The number of # seconds to wait for a 100-continue response before sending the # request body. This option has no effect unless the request has # "Expect" header set to "100-continue". Defaults to `nil` which # disables this behaviour. This value can safely be set per # request on the session. # # @option options [Boolean] :http_wire_trace (false) When `true`, # HTTP debug output will be sent to the `:logger`. # # @option options [Boolean] :ssl_verify_peer (true) When `true`, # SSL peer certificates are verified when establishing a # connection. # # @option options [String] :ssl_ca_bundle Full path to the SSL # certificate authority bundle file that should be used when # verifying peer certificates. If you do not pass # `:ssl_ca_bundle` or `:ssl_ca_directory` the the system default # will be used if available. # # @option options [String] :ssl_ca_directory Full path of the # directory that contains the unbundled SSL certificate # authority files for verifying peer certificates. If you do # not pass `:ssl_ca_bundle` or `:ssl_ca_directory` the the # system default will be used if available. # def initialize(*args) super end # @!group API Operations # Creates a new version of the bot based on the `$LATEST` version. If # the `$LATEST` version of this resource hasn't changed since you # created the last version, Amazon Lex doesn't create a new version. It # returns the last created version. # # You can update only the `$LATEST` version of the bot. You can't # update the numbered versions that you create with the # `CreateBotVersion` operation. # # # # When you create the first version of a bot, Amazon Lex sets the # version to 1. Subsequent versions increment by 1. For more # information, see versioning-intro. # # This operation requires permission for the `lex:CreateBotVersion` # action. # # @option params [required, String] :name # The name of the bot that you want to create a new version of. The name # is case sensitive. # # @option params [String] :checksum # Identifies a specific revision of the `$LATEST` version of the bot. If # you specify a checksum and the `$LATEST` version of the bot has a # different checksum, a `PreconditionFailedException` exception is # returned and Amazon Lex doesn't publish a new version. If you don't # specify a checksum, Amazon Lex publishes the `$LATEST` version. # # @return [Types::CreateBotVersionResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::CreateBotVersionResponse#name #name} => String # * {Types::CreateBotVersionResponse#description #description} => String # * {Types::CreateBotVersionResponse#intents #intents} => Array<Types::Intent> # * {Types::CreateBotVersionResponse#clarification_prompt #clarification_prompt} => Types::Prompt # * {Types::CreateBotVersionResponse#abort_statement #abort_statement} => Types::Statement # * {Types::CreateBotVersionResponse#status #status} => String # * {Types::CreateBotVersionResponse#failure_reason #failure_reason} => String # * {Types::CreateBotVersionResponse#last_updated_date #last_updated_date} => Time # * {Types::CreateBotVersionResponse#created_date #created_date} => Time # * {Types::CreateBotVersionResponse#idle_session_ttl_in_seconds #idle_session_ttl_in_seconds} => Integer # * {Types::CreateBotVersionResponse#voice_id #voice_id} => String # * {Types::CreateBotVersionResponse#checksum #checksum} => String # * {Types::CreateBotVersionResponse#version #version} => String # * {Types::CreateBotVersionResponse#locale #locale} => String # * {Types::CreateBotVersionResponse#child_directed #child_directed} => Boolean # * {Types::CreateBotVersionResponse#enable_model_improvements #enable_model_improvements} => Boolean # * {Types::CreateBotVersionResponse#detect_sentiment #detect_sentiment} => Boolean # # @example Request syntax with placeholder values # # resp = client.create_bot_version({ # name: "BotName", # required # checksum: "String", # }) # # @example Response structure # # resp.name #=> String # resp.description #=> String # resp.intents #=> Array # resp.intents[0].intent_name #=> String # resp.intents[0].intent_version #=> String # resp.clarification_prompt.messages #=> Array # resp.clarification_prompt.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.clarification_prompt.messages[0].content #=> String # resp.clarification_prompt.messages[0].group_number #=> Integer # resp.clarification_prompt.max_attempts #=> Integer # resp.clarification_prompt.response_card #=> String # resp.abort_statement.messages #=> Array # resp.abort_statement.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.abort_statement.messages[0].content #=> String # resp.abort_statement.messages[0].group_number #=> Integer # resp.abort_statement.response_card #=> String # resp.status #=> String, one of "BUILDING", "READY", "READY_BASIC_TESTING", "FAILED", "NOT_BUILT" # resp.failure_reason #=> String # resp.last_updated_date #=> Time # resp.created_date #=> Time # resp.idle_session_ttl_in_seconds #=> Integer # resp.voice_id #=> String # resp.checksum #=> String # resp.version #=> String # resp.locale #=> String, one of "de-DE", "en-AU", "en-GB", "en-IN", "en-US", "es-419", "es-ES", "es-US", "fr-FR", "fr-CA", "it-IT", "ja-JP" # resp.child_directed #=> Boolean # resp.enable_model_improvements #=> Boolean # resp.detect_sentiment #=> Boolean # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/CreateBotVersion AWS API Documentation # # @overload create_bot_version(params = {}) # @param [Hash] params ({}) def create_bot_version(params = {}, options = {}) req = build_request(:create_bot_version, params) req.send_request(options) end # Creates a new version of an intent based on the `$LATEST` version of # the intent. If the `$LATEST` version of this intent hasn't changed # since you last updated it, Amazon Lex doesn't create a new version. # It returns the last version you created. # # You can update only the `$LATEST` version of the intent. You can't # update the numbered versions that you create with the # `CreateIntentVersion` operation. # # # # When you create a version of an intent, Amazon Lex sets the version to # 1. Subsequent versions increment by 1. For more information, see # versioning-intro. # # This operation requires permissions to perform the # `lex:CreateIntentVersion` action. # # @option params [required, String] :name # The name of the intent that you want to create a new version of. The # name is case sensitive. # # @option params [String] :checksum # Checksum of the `$LATEST` version of the intent that should be used to # create the new version. If you specify a checksum and the `$LATEST` # version of the intent has a different checksum, Amazon Lex returns a # `PreconditionFailedException` exception and doesn't publish a new # version. If you don't specify a checksum, Amazon Lex publishes the # `$LATEST` version. # # @return [Types::CreateIntentVersionResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::CreateIntentVersionResponse#name #name} => String # * {Types::CreateIntentVersionResponse#description #description} => String # * {Types::CreateIntentVersionResponse#slots #slots} => Array<Types::Slot> # * {Types::CreateIntentVersionResponse#sample_utterances #sample_utterances} => Array<String> # * {Types::CreateIntentVersionResponse#confirmation_prompt #confirmation_prompt} => Types::Prompt # * {Types::CreateIntentVersionResponse#rejection_statement #rejection_statement} => Types::Statement # * {Types::CreateIntentVersionResponse#follow_up_prompt #follow_up_prompt} => Types::FollowUpPrompt # * {Types::CreateIntentVersionResponse#conclusion_statement #conclusion_statement} => Types::Statement # * {Types::CreateIntentVersionResponse#dialog_code_hook #dialog_code_hook} => Types::CodeHook # * {Types::CreateIntentVersionResponse#fulfillment_activity #fulfillment_activity} => Types::FulfillmentActivity # * {Types::CreateIntentVersionResponse#parent_intent_signature #parent_intent_signature} => String # * {Types::CreateIntentVersionResponse#last_updated_date #last_updated_date} => Time # * {Types::CreateIntentVersionResponse#created_date #created_date} => Time # * {Types::CreateIntentVersionResponse#version #version} => String # * {Types::CreateIntentVersionResponse#checksum #checksum} => String # * {Types::CreateIntentVersionResponse#kendra_configuration #kendra_configuration} => Types::KendraConfiguration # * {Types::CreateIntentVersionResponse#input_contexts #input_contexts} => Array<Types::InputContext> # * {Types::CreateIntentVersionResponse#output_contexts #output_contexts} => Array<Types::OutputContext> # # @example Request syntax with placeholder values # # resp = client.create_intent_version({ # name: "IntentName", # required # checksum: "String", # }) # # @example Response structure # # resp.name #=> String # resp.description #=> String # resp.slots #=> Array # resp.slots[0].name #=> String # resp.slots[0].description #=> String # resp.slots[0].slot_constraint #=> String, one of "Required", "Optional" # resp.slots[0].slot_type #=> String # resp.slots[0].slot_type_version #=> String # resp.slots[0].value_elicitation_prompt.messages #=> Array # resp.slots[0].value_elicitation_prompt.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.slots[0].value_elicitation_prompt.messages[0].content #=> String # resp.slots[0].value_elicitation_prompt.messages[0].group_number #=> Integer # resp.slots[0].value_elicitation_prompt.max_attempts #=> Integer # resp.slots[0].value_elicitation_prompt.response_card #=> String # resp.slots[0].priority #=> Integer # resp.slots[0].sample_utterances #=> Array # resp.slots[0].sample_utterances[0] #=> String # resp.slots[0].response_card #=> String # resp.slots[0].obfuscation_setting #=> String, one of "NONE", "DEFAULT_OBFUSCATION" # resp.slots[0].default_value_spec.default_value_list #=> Array # resp.slots[0].default_value_spec.default_value_list[0].default_value #=> String # resp.sample_utterances #=> Array # resp.sample_utterances[0] #=> String # resp.confirmation_prompt.messages #=> Array # resp.confirmation_prompt.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.confirmation_prompt.messages[0].content #=> String # resp.confirmation_prompt.messages[0].group_number #=> Integer # resp.confirmation_prompt.max_attempts #=> Integer # resp.confirmation_prompt.response_card #=> String # resp.rejection_statement.messages #=> Array # resp.rejection_statement.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.rejection_statement.messages[0].content #=> String # resp.rejection_statement.messages[0].group_number #=> Integer # resp.rejection_statement.response_card #=> String # resp.follow_up_prompt.prompt.messages #=> Array # resp.follow_up_prompt.prompt.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.follow_up_prompt.prompt.messages[0].content #=> String # resp.follow_up_prompt.prompt.messages[0].group_number #=> Integer # resp.follow_up_prompt.prompt.max_attempts #=> Integer # resp.follow_up_prompt.prompt.response_card #=> String # resp.follow_up_prompt.rejection_statement.messages #=> Array # resp.follow_up_prompt.rejection_statement.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.follow_up_prompt.rejection_statement.messages[0].content #=> String # resp.follow_up_prompt.rejection_statement.messages[0].group_number #=> Integer # resp.follow_up_prompt.rejection_statement.response_card #=> String # resp.conclusion_statement.messages #=> Array # resp.conclusion_statement.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.conclusion_statement.messages[0].content #=> String # resp.conclusion_statement.messages[0].group_number #=> Integer # resp.conclusion_statement.response_card #=> String # resp.dialog_code_hook.uri #=> String # resp.dialog_code_hook.message_version #=> String # resp.fulfillment_activity.type #=> String, one of "ReturnIntent", "CodeHook" # resp.fulfillment_activity.code_hook.uri #=> String # resp.fulfillment_activity.code_hook.message_version #=> String # resp.parent_intent_signature #=> String # resp.last_updated_date #=> Time # resp.created_date #=> Time # resp.version #=> String # resp.checksum #=> String # resp.kendra_configuration.kendra_index #=> String # resp.kendra_configuration.query_filter_string #=> String # resp.kendra_configuration.role #=> String # resp.input_contexts #=> Array # resp.input_contexts[0].name #=> String # resp.output_contexts #=> Array # resp.output_contexts[0].name #=> String # resp.output_contexts[0].time_to_live_in_seconds #=> Integer # resp.output_contexts[0].turns_to_live #=> Integer # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/CreateIntentVersion AWS API Documentation # # @overload create_intent_version(params = {}) # @param [Hash] params ({}) def create_intent_version(params = {}, options = {}) req = build_request(:create_intent_version, params) req.send_request(options) end # Creates a new version of a slot type based on the `$LATEST` version of # the specified slot type. If the `$LATEST` version of this resource has # not changed since the last version that you created, Amazon Lex # doesn't create a new version. It returns the last version that you # created. # # You can update only the `$LATEST` version of a slot type. You can't # update the numbered versions that you create with the # `CreateSlotTypeVersion` operation. # # # # When you create a version of a slot type, Amazon Lex sets the version # to 1. Subsequent versions increment by 1. For more information, see # versioning-intro. # # This operation requires permissions for the # `lex:CreateSlotTypeVersion` action. # # @option params [required, String] :name # The name of the slot type that you want to create a new version for. # The name is case sensitive. # # @option params [String] :checksum # Checksum for the `$LATEST` version of the slot type that you want to # publish. If you specify a checksum and the `$LATEST` version of the # slot type has a different checksum, Amazon Lex returns a # `PreconditionFailedException` exception and doesn't publish the new # version. If you don't specify a checksum, Amazon Lex publishes the # `$LATEST` version. # # @return [Types::CreateSlotTypeVersionResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::CreateSlotTypeVersionResponse#name #name} => String # * {Types::CreateSlotTypeVersionResponse#description #description} => String # * {Types::CreateSlotTypeVersionResponse#enumeration_values #enumeration_values} => Array<Types::EnumerationValue> # * {Types::CreateSlotTypeVersionResponse#last_updated_date #last_updated_date} => Time # * {Types::CreateSlotTypeVersionResponse#created_date #created_date} => Time # * {Types::CreateSlotTypeVersionResponse#version #version} => String # * {Types::CreateSlotTypeVersionResponse#checksum #checksum} => String # * {Types::CreateSlotTypeVersionResponse#value_selection_strategy #value_selection_strategy} => String # * {Types::CreateSlotTypeVersionResponse#parent_slot_type_signature #parent_slot_type_signature} => String # * {Types::CreateSlotTypeVersionResponse#slot_type_configurations #slot_type_configurations} => Array<Types::SlotTypeConfiguration> # # @example Request syntax with placeholder values # # resp = client.create_slot_type_version({ # name: "SlotTypeName", # required # checksum: "String", # }) # # @example Response structure # # resp.name #=> String # resp.description #=> String # resp.enumeration_values #=> Array # resp.enumeration_values[0].value #=> String # resp.enumeration_values[0].synonyms #=> Array # resp.enumeration_values[0].synonyms[0] #=> String # resp.last_updated_date #=> Time # resp.created_date #=> Time # resp.version #=> String # resp.checksum #=> String # resp.value_selection_strategy #=> String, one of "ORIGINAL_VALUE", "TOP_RESOLUTION" # resp.parent_slot_type_signature #=> String # resp.slot_type_configurations #=> Array # resp.slot_type_configurations[0].regex_configuration.pattern #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/CreateSlotTypeVersion AWS API Documentation # # @overload create_slot_type_version(params = {}) # @param [Hash] params ({}) def create_slot_type_version(params = {}, options = {}) req = build_request(:create_slot_type_version, params) req.send_request(options) end # Deletes all versions of the bot, including the `$LATEST` version. To # delete a specific version of the bot, use the DeleteBotVersion # operation. The `DeleteBot` operation doesn't immediately remove the # bot schema. Instead, it is marked for deletion and removed later. # # Amazon Lex stores utterances indefinitely for improving the ability of # your bot to respond to user inputs. These utterances are not removed # when the bot is deleted. To remove the utterances, use the # DeleteUtterances operation. # # If a bot has an alias, you can't delete it. Instead, the `DeleteBot` # operation returns a `ResourceInUseException` exception that includes a # reference to the alias that refers to the bot. To remove the reference # to the bot, delete the alias. If you get the same exception again, # delete the referring alias until the `DeleteBot` operation is # successful. # # This operation requires permissions for the `lex:DeleteBot` action. # # @option params [required, String] :name # The name of the bot. The name is case sensitive. # # @return [Struct] Returns an empty {Seahorse::Client::Response response}. # # @example Request syntax with placeholder values # # resp = client.delete_bot({ # name: "BotName", # required # }) # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/DeleteBot AWS API Documentation # # @overload delete_bot(params = {}) # @param [Hash] params ({}) def delete_bot(params = {}, options = {}) req = build_request(:delete_bot, params) req.send_request(options) end # Deletes an alias for the specified bot. # # You can't delete an alias that is used in the association between a # bot and a messaging channel. If an alias is used in a channel # association, the `DeleteBot` operation returns a # `ResourceInUseException` exception that includes a reference to the # channel association that refers to the bot. You can remove the # reference to the alias by deleting the channel association. If you get # the same exception again, delete the referring association until the # `DeleteBotAlias` operation is successful. # # @option params [required, String] :name # The name of the alias to delete. The name is case sensitive. # # @option params [required, String] :bot_name # The name of the bot that the alias points to. # # @return [Struct] Returns an empty {Seahorse::Client::Response response}. # # @example Request syntax with placeholder values # # resp = client.delete_bot_alias({ # name: "AliasName", # required # bot_name: "BotName", # required # }) # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/DeleteBotAlias AWS API Documentation # # @overload delete_bot_alias(params = {}) # @param [Hash] params ({}) def delete_bot_alias(params = {}, options = {}) req = build_request(:delete_bot_alias, params) req.send_request(options) end # Deletes the association between an Amazon Lex bot and a messaging # platform. # # This operation requires permission for the # `lex:DeleteBotChannelAssociation` action. # # @option params [required, String] :name # The name of the association. The name is case sensitive. # # @option params [required, String] :bot_name # The name of the Amazon Lex bot. # # @option params [required, String] :bot_alias # An alias that points to the specific version of the Amazon Lex bot to # which this association is being made. # # @return [Struct] Returns an empty {Seahorse::Client::Response response}. # # @example Request syntax with placeholder values # # resp = client.delete_bot_channel_association({ # name: "BotChannelName", # required # bot_name: "BotName", # required # bot_alias: "AliasName", # required # }) # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/DeleteBotChannelAssociation AWS API Documentation # # @overload delete_bot_channel_association(params = {}) # @param [Hash] params ({}) def delete_bot_channel_association(params = {}, options = {}) req = build_request(:delete_bot_channel_association, params) req.send_request(options) end # Deletes a specific version of a bot. To delete all versions of a bot, # use the DeleteBot operation. # # This operation requires permissions for the `lex:DeleteBotVersion` # action. # # @option params [required, String] :name # The name of the bot. # # @option params [required, String] :version # The version of the bot to delete. You cannot delete the `$LATEST` # version of the bot. To delete the `$LATEST` version, use the DeleteBot # operation. # # @return [Struct] Returns an empty {Seahorse::Client::Response response}. # # @example Request syntax with placeholder values # # resp = client.delete_bot_version({ # name: "BotName", # required # version: "NumericalVersion", # required # }) # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/DeleteBotVersion AWS API Documentation # # @overload delete_bot_version(params = {}) # @param [Hash] params ({}) def delete_bot_version(params = {}, options = {}) req = build_request(:delete_bot_version, params) req.send_request(options) end # Deletes all versions of the intent, including the `$LATEST` version. # To delete a specific version of the intent, use the # DeleteIntentVersion operation. # # You can delete a version of an intent only if it is not referenced. To # delete an intent that is referred to in one or more bots (see # how-it-works), you must remove those references first. # # If you get the `ResourceInUseException` exception, it provides an # example reference that shows where the intent is referenced. To remove # the reference to the intent, either update the bot or delete it. If # you get the same exception when you attempt to delete the intent # again, repeat until the intent has no references and the call to # `DeleteIntent` is successful. # # # # This operation requires permission for the `lex:DeleteIntent` action. # # @option params [required, String] :name # The name of the intent. The name is case sensitive. # # @return [Struct] Returns an empty {Seahorse::Client::Response response}. # # @example Request syntax with placeholder values # # resp = client.delete_intent({ # name: "IntentName", # required # }) # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/DeleteIntent AWS API Documentation # # @overload delete_intent(params = {}) # @param [Hash] params ({}) def delete_intent(params = {}, options = {}) req = build_request(:delete_intent, params) req.send_request(options) end # Deletes a specific version of an intent. To delete all versions of a # intent, use the DeleteIntent operation. # # This operation requires permissions for the `lex:DeleteIntentVersion` # action. # # @option params [required, String] :name # The name of the intent. # # @option params [required, String] :version # The version of the intent to delete. You cannot delete the `$LATEST` # version of the intent. To delete the `$LATEST` version, use the # DeleteIntent operation. # # @return [Struct] Returns an empty {Seahorse::Client::Response response}. # # @example Request syntax with placeholder values # # resp = client.delete_intent_version({ # name: "IntentName", # required # version: "NumericalVersion", # required # }) # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/DeleteIntentVersion AWS API Documentation # # @overload delete_intent_version(params = {}) # @param [Hash] params ({}) def delete_intent_version(params = {}, options = {}) req = build_request(:delete_intent_version, params) req.send_request(options) end # Deletes all versions of the slot type, including the `$LATEST` # version. To delete a specific version of the slot type, use the # DeleteSlotTypeVersion operation. # # You can delete a version of a slot type only if it is not referenced. # To delete a slot type that is referred to in one or more intents, you # must remove those references first. # # If you get the `ResourceInUseException` exception, the exception # provides an example reference that shows the intent where the slot # type is referenced. To remove the reference to the slot type, either # update the intent or delete it. If you get the same exception when you # attempt to delete the slot type again, repeat until the slot type has # no references and the `DeleteSlotType` call is successful. # # # # This operation requires permission for the `lex:DeleteSlotType` # action. # # @option params [required, String] :name # The name of the slot type. The name is case sensitive. # # @return [Struct] Returns an empty {Seahorse::Client::Response response}. # # @example Request syntax with placeholder values # # resp = client.delete_slot_type({ # name: "SlotTypeName", # required # }) # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/DeleteSlotType AWS API Documentation # # @overload delete_slot_type(params = {}) # @param [Hash] params ({}) def delete_slot_type(params = {}, options = {}) req = build_request(:delete_slot_type, params) req.send_request(options) end # Deletes a specific version of a slot type. To delete all versions of a # slot type, use the DeleteSlotType operation. # # This operation requires permissions for the # `lex:DeleteSlotTypeVersion` action. # # @option params [required, String] :name # The name of the slot type. # # @option params [required, String] :version # The version of the slot type to delete. You cannot delete the # `$LATEST` version of the slot type. To delete the `$LATEST` version, # use the DeleteSlotType operation. # # @return [Struct] Returns an empty {Seahorse::Client::Response response}. # # @example Request syntax with placeholder values # # resp = client.delete_slot_type_version({ # name: "SlotTypeName", # required # version: "NumericalVersion", # required # }) # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/DeleteSlotTypeVersion AWS API Documentation # # @overload delete_slot_type_version(params = {}) # @param [Hash] params ({}) def delete_slot_type_version(params = {}, options = {}) req = build_request(:delete_slot_type_version, params) req.send_request(options) end # Deletes stored utterances. # # Amazon Lex stores the utterances that users send to your bot. # Utterances are stored for 15 days for use with the GetUtterancesView # operation, and then stored indefinitely for use in improving the # ability of your bot to respond to user input. # # Use the `DeleteUtterances` operation to manually delete stored # utterances for a specific user. When you use the `DeleteUtterances` # operation, utterances stored for improving your bot's ability to # respond to user input are deleted immediately. Utterances stored for # use with the `GetUtterancesView` operation are deleted after 15 days. # # This operation requires permissions for the `lex:DeleteUtterances` # action. # # @option params [required, String] :bot_name # The name of the bot that stored the utterances. # # @option params [required, String] :user_id # The unique identifier for the user that made the utterances. This is # the user ID that was sent in the [PostContent][1] or [PostText][2] # operation request that contained the utterance. # # # # [1]: http://docs.aws.amazon.com/lex/latest/dg/API_runtime_PostContent.html # [2]: http://docs.aws.amazon.com/lex/latest/dg/API_runtime_PostText.html # # @return [Struct] Returns an empty {Seahorse::Client::Response response}. # # @example Request syntax with placeholder values # # resp = client.delete_utterances({ # bot_name: "BotName", # required # user_id: "UserId", # required # }) # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/DeleteUtterances AWS API Documentation # # @overload delete_utterances(params = {}) # @param [Hash] params ({}) def delete_utterances(params = {}, options = {}) req = build_request(:delete_utterances, params) req.send_request(options) end # Returns metadata information for a specific bot. You must provide the # bot name and the bot version or alias. # # This operation requires permissions for the `lex:GetBot` action. # # @option params [required, String] :name # The name of the bot. The name is case sensitive. # # @option params [required, String] :version_or_alias # The version or alias of the bot. # # @return [Types::GetBotResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetBotResponse#name #name} => String # * {Types::GetBotResponse#description #description} => String # * {Types::GetBotResponse#intents #intents} => Array<Types::Intent> # * {Types::GetBotResponse#enable_model_improvements #enable_model_improvements} => Boolean # * {Types::GetBotResponse#nlu_intent_confidence_threshold #nlu_intent_confidence_threshold} => Float # * {Types::GetBotResponse#clarification_prompt #clarification_prompt} => Types::Prompt # * {Types::GetBotResponse#abort_statement #abort_statement} => Types::Statement # * {Types::GetBotResponse#status #status} => String # * {Types::GetBotResponse#failure_reason #failure_reason} => String # * {Types::GetBotResponse#last_updated_date #last_updated_date} => Time # * {Types::GetBotResponse#created_date #created_date} => Time # * {Types::GetBotResponse#idle_session_ttl_in_seconds #idle_session_ttl_in_seconds} => Integer # * {Types::GetBotResponse#voice_id #voice_id} => String # * {Types::GetBotResponse#checksum #checksum} => String # * {Types::GetBotResponse#version #version} => String # * {Types::GetBotResponse#locale #locale} => String # * {Types::GetBotResponse#child_directed #child_directed} => Boolean # * {Types::GetBotResponse#detect_sentiment #detect_sentiment} => Boolean # # # @example Example: To get information about a bot # # # This example shows how to get configuration information for a bot. # # resp = client.get_bot({ # name: "DocOrderPizza", # version_or_alias: "$LATEST", # }) # # resp.to_h outputs the following: # { # version: "$LATEST", # name: "DocOrderPizzaBot", # abort_statement: { # messages: [ # { # content: "I don't understand. Can you try again?", # content_type: "PlainText", # }, # { # content: "I'm sorry, I don't understand.", # content_type: "PlainText", # }, # ], # }, # checksum: "20172ee3-fa06-49b2-bbc5-667c090303e9", # child_directed: true, # clarification_prompt: { # max_attempts: 1, # messages: [ # { # content: "I'm sorry, I didn't hear that. Can you repeate what you just said?", # content_type: "PlainText", # }, # { # content: "Can you say that again?", # content_type: "PlainText", # }, # ], # }, # created_date: Time.parse(1494360160.133), # description: "Orders a pizza from a local pizzeria.", # idle_session_ttl_in_seconds: 300, # intents: [ # { # intent_name: "DocOrderPizza", # intent_version: "$LATEST", # }, # ], # last_updated_date: Time.parse(1494360160.133), # locale: "en-US", # status: "NOT_BUILT", # } # # @example Request syntax with placeholder values # # resp = client.get_bot({ # name: "BotName", # required # version_or_alias: "String", # required # }) # # @example Response structure # # resp.name #=> String # resp.description #=> String # resp.intents #=> Array # resp.intents[0].intent_name #=> String # resp.intents[0].intent_version #=> String # resp.enable_model_improvements #=> Boolean # resp.nlu_intent_confidence_threshold #=> Float # resp.clarification_prompt.messages #=> Array # resp.clarification_prompt.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.clarification_prompt.messages[0].content #=> String # resp.clarification_prompt.messages[0].group_number #=> Integer # resp.clarification_prompt.max_attempts #=> Integer # resp.clarification_prompt.response_card #=> String # resp.abort_statement.messages #=> Array # resp.abort_statement.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.abort_statement.messages[0].content #=> String # resp.abort_statement.messages[0].group_number #=> Integer # resp.abort_statement.response_card #=> String # resp.status #=> String, one of "BUILDING", "READY", "READY_BASIC_TESTING", "FAILED", "NOT_BUILT" # resp.failure_reason #=> String # resp.last_updated_date #=> Time # resp.created_date #=> Time # resp.idle_session_ttl_in_seconds #=> Integer # resp.voice_id #=> String # resp.checksum #=> String # resp.version #=> String # resp.locale #=> String, one of "de-DE", "en-AU", "en-GB", "en-IN", "en-US", "es-419", "es-ES", "es-US", "fr-FR", "fr-CA", "it-IT", "ja-JP" # resp.child_directed #=> Boolean # resp.detect_sentiment #=> Boolean # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/GetBot AWS API Documentation # # @overload get_bot(params = {}) # @param [Hash] params ({}) def get_bot(params = {}, options = {}) req = build_request(:get_bot, params) req.send_request(options) end # Returns information about an Amazon Lex bot alias. For more # information about aliases, see versioning-aliases. # # This operation requires permissions for the `lex:GetBotAlias` action. # # @option params [required, String] :name # The name of the bot alias. The name is case sensitive. # # @option params [required, String] :bot_name # The name of the bot. # # @return [Types::GetBotAliasResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetBotAliasResponse#name #name} => String # * {Types::GetBotAliasResponse#description #description} => String # * {Types::GetBotAliasResponse#bot_version #bot_version} => String # * {Types::GetBotAliasResponse#bot_name #bot_name} => String # * {Types::GetBotAliasResponse#last_updated_date #last_updated_date} => Time # * {Types::GetBotAliasResponse#created_date #created_date} => Time # * {Types::GetBotAliasResponse#checksum #checksum} => String # * {Types::GetBotAliasResponse#conversation_logs #conversation_logs} => Types::ConversationLogsResponse # # @example Request syntax with placeholder values # # resp = client.get_bot_alias({ # name: "AliasName", # required # bot_name: "BotName", # required # }) # # @example Response structure # # resp.name #=> String # resp.description #=> String # resp.bot_version #=> String # resp.bot_name #=> String # resp.last_updated_date #=> Time # resp.created_date #=> Time # resp.checksum #=> String # resp.conversation_logs.log_settings #=> Array # resp.conversation_logs.log_settings[0].log_type #=> String, one of "AUDIO", "TEXT" # resp.conversation_logs.log_settings[0].destination #=> String, one of "CLOUDWATCH_LOGS", "S3" # resp.conversation_logs.log_settings[0].kms_key_arn #=> String # resp.conversation_logs.log_settings[0].resource_arn #=> String # resp.conversation_logs.log_settings[0].resource_prefix #=> String # resp.conversation_logs.iam_role_arn #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/GetBotAlias AWS API Documentation # # @overload get_bot_alias(params = {}) # @param [Hash] params ({}) def get_bot_alias(params = {}, options = {}) req = build_request(:get_bot_alias, params) req.send_request(options) end # Returns a list of aliases for a specified Amazon Lex bot. # # This operation requires permissions for the `lex:GetBotAliases` # action. # # @option params [required, String] :bot_name # The name of the bot. # # @option params [String] :next_token # A pagination token for fetching the next page of aliases. If the # response to this call is truncated, Amazon Lex returns a pagination # token in the response. To fetch the next page of aliases, specify the # pagination token in the next request. # # @option params [Integer] :max_results # The maximum number of aliases to return in the response. The default # is 50. . # # @option params [String] :name_contains # Substring to match in bot alias names. An alias will be returned if # any part of its name matches the substring. For example, "xyz" # matches both "xyzabc" and "abcxyz." # # @return [Types::GetBotAliasesResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetBotAliasesResponse#bot_aliases #bot_aliases} => Array<Types::BotAliasMetadata> # * {Types::GetBotAliasesResponse#next_token #next_token} => String # # The returned {Seahorse::Client::Response response} is a pageable response and is Enumerable. For details on usage see {Aws::PageableResponse PageableResponse}. # # @example Request syntax with placeholder values # # resp = client.get_bot_aliases({ # bot_name: "BotName", # required # next_token: "NextToken", # max_results: 1, # name_contains: "AliasName", # }) # # @example Response structure # # resp.bot_aliases #=> Array # resp.bot_aliases[0].name #=> String # resp.bot_aliases[0].description #=> String # resp.bot_aliases[0].bot_version #=> String # resp.bot_aliases[0].bot_name #=> String # resp.bot_aliases[0].last_updated_date #=> Time # resp.bot_aliases[0].created_date #=> Time # resp.bot_aliases[0].checksum #=> String # resp.bot_aliases[0].conversation_logs.log_settings #=> Array # resp.bot_aliases[0].conversation_logs.log_settings[0].log_type #=> String, one of "AUDIO", "TEXT" # resp.bot_aliases[0].conversation_logs.log_settings[0].destination #=> String, one of "CLOUDWATCH_LOGS", "S3" # resp.bot_aliases[0].conversation_logs.log_settings[0].kms_key_arn #=> String # resp.bot_aliases[0].conversation_logs.log_settings[0].resource_arn #=> String # resp.bot_aliases[0].conversation_logs.log_settings[0].resource_prefix #=> String # resp.bot_aliases[0].conversation_logs.iam_role_arn #=> String # resp.next_token #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/GetBotAliases AWS API Documentation # # @overload get_bot_aliases(params = {}) # @param [Hash] params ({}) def get_bot_aliases(params = {}, options = {}) req = build_request(:get_bot_aliases, params) req.send_request(options) end # Returns information about the association between an Amazon Lex bot # and a messaging platform. # # This operation requires permissions for the # `lex:GetBotChannelAssociation` action. # # @option params [required, String] :name # The name of the association between the bot and the channel. The name # is case sensitive. # # @option params [required, String] :bot_name # The name of the Amazon Lex bot. # # @option params [required, String] :bot_alias # An alias pointing to the specific version of the Amazon Lex bot to # which this association is being made. # # @return [Types::GetBotChannelAssociationResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetBotChannelAssociationResponse#name #name} => String # * {Types::GetBotChannelAssociationResponse#description #description} => String # * {Types::GetBotChannelAssociationResponse#bot_alias #bot_alias} => String # * {Types::GetBotChannelAssociationResponse#bot_name #bot_name} => String # * {Types::GetBotChannelAssociationResponse#created_date #created_date} => Time # * {Types::GetBotChannelAssociationResponse#type #type} => String # * {Types::GetBotChannelAssociationResponse#bot_configuration #bot_configuration} => Hash<String,String> # * {Types::GetBotChannelAssociationResponse#status #status} => String # * {Types::GetBotChannelAssociationResponse#failure_reason #failure_reason} => String # # @example Request syntax with placeholder values # # resp = client.get_bot_channel_association({ # name: "BotChannelName", # required # bot_name: "BotName", # required # bot_alias: "AliasName", # required # }) # # @example Response structure # # resp.name #=> String # resp.description #=> String # resp.bot_alias #=> String # resp.bot_name #=> String # resp.created_date #=> Time # resp.type #=> String, one of "Facebook", "Slack", "Twilio-Sms", "Kik" # resp.bot_configuration #=> Hash # resp.bot_configuration["String"] #=> String # resp.status #=> String, one of "IN_PROGRESS", "CREATED", "FAILED" # resp.failure_reason #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/GetBotChannelAssociation AWS API Documentation # # @overload get_bot_channel_association(params = {}) # @param [Hash] params ({}) def get_bot_channel_association(params = {}, options = {}) req = build_request(:get_bot_channel_association, params) req.send_request(options) end # Returns a list of all of the channels associated with the specified # bot. # # The `GetBotChannelAssociations` operation requires permissions for the # `lex:GetBotChannelAssociations` action. # # @option params [required, String] :bot_name # The name of the Amazon Lex bot in the association. # # @option params [required, String] :bot_alias # An alias pointing to the specific version of the Amazon Lex bot to # which this association is being made. # # @option params [String] :next_token # A pagination token for fetching the next page of associations. If the # response to this call is truncated, Amazon Lex returns a pagination # token in the response. To fetch the next page of associations, specify # the pagination token in the next request. # # @option params [Integer] :max_results # The maximum number of associations to return in the response. The # default is 50. # # @option params [String] :name_contains # Substring to match in channel association names. An association will # be returned if any part of its name matches the substring. For # example, "xyz" matches both "xyzabc" and "abcxyz." To return all # bot channel associations, use a hyphen ("-") as the `nameContains` # parameter. # # @return [Types::GetBotChannelAssociationsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetBotChannelAssociationsResponse#bot_channel_associations #bot_channel_associations} => Array<Types::BotChannelAssociation> # * {Types::GetBotChannelAssociationsResponse#next_token #next_token} => String # # The returned {Seahorse::Client::Response response} is a pageable response and is Enumerable. For details on usage see {Aws::PageableResponse PageableResponse}. # # @example Request syntax with placeholder values # # resp = client.get_bot_channel_associations({ # bot_name: "BotName", # required # bot_alias: "AliasNameOrListAll", # required # next_token: "NextToken", # max_results: 1, # name_contains: "BotChannelName", # }) # # @example Response structure # # resp.bot_channel_associations #=> Array # resp.bot_channel_associations[0].name #=> String # resp.bot_channel_associations[0].description #=> String # resp.bot_channel_associations[0].bot_alias #=> String # resp.bot_channel_associations[0].bot_name #=> String # resp.bot_channel_associations[0].created_date #=> Time # resp.bot_channel_associations[0].type #=> String, one of "Facebook", "Slack", "Twilio-Sms", "Kik" # resp.bot_channel_associations[0].bot_configuration #=> Hash # resp.bot_channel_associations[0].bot_configuration["String"] #=> String # resp.bot_channel_associations[0].status #=> String, one of "IN_PROGRESS", "CREATED", "FAILED" # resp.bot_channel_associations[0].failure_reason #=> String # resp.next_token #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/GetBotChannelAssociations AWS API Documentation # # @overload get_bot_channel_associations(params = {}) # @param [Hash] params ({}) def get_bot_channel_associations(params = {}, options = {}) req = build_request(:get_bot_channel_associations, params) req.send_request(options) end # Gets information about all of the versions of a bot. # # The `GetBotVersions` operation returns a `BotMetadata` object for each # version of a bot. For example, if a bot has three numbered versions, # the `GetBotVersions` operation returns four `BotMetadata` objects in # the response, one for each numbered version and one for the `$LATEST` # version. # # The `GetBotVersions` operation always returns at least one version, # the `$LATEST` version. # # This operation requires permissions for the `lex:GetBotVersions` # action. # # @option params [required, String] :name # The name of the bot for which versions should be returned. # # @option params [String] :next_token # A pagination token for fetching the next page of bot versions. If the # response to this call is truncated, Amazon Lex returns a pagination # token in the response. To fetch the next page of versions, specify the # pagination token in the next request. # # @option params [Integer] :max_results # The maximum number of bot versions to return in the response. The # default is 10. # # @return [Types::GetBotVersionsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetBotVersionsResponse#bots #bots} => Array<Types::BotMetadata> # * {Types::GetBotVersionsResponse#next_token #next_token} => String # # The returned {Seahorse::Client::Response response} is a pageable response and is Enumerable. For details on usage see {Aws::PageableResponse PageableResponse}. # # @example Request syntax with placeholder values # # resp = client.get_bot_versions({ # name: "BotName", # required # next_token: "NextToken", # max_results: 1, # }) # # @example Response structure # # resp.bots #=> Array # resp.bots[0].name #=> String # resp.bots[0].description #=> String # resp.bots[0].status #=> String, one of "BUILDING", "READY", "READY_BASIC_TESTING", "FAILED", "NOT_BUILT" # resp.bots[0].last_updated_date #=> Time # resp.bots[0].created_date #=> Time # resp.bots[0].version #=> String # resp.next_token #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/GetBotVersions AWS API Documentation # # @overload get_bot_versions(params = {}) # @param [Hash] params ({}) def get_bot_versions(params = {}, options = {}) req = build_request(:get_bot_versions, params) req.send_request(options) end # Returns bot information as follows: # # * If you provide the `nameContains` field, the response includes # information for the `$LATEST` version of all bots whose name # contains the specified string. # # * If you don't specify the `nameContains` field, the operation # returns information about the `$LATEST` version of all of your bots. # # This operation requires permission for the `lex:GetBots` action. # # @option params [String] :next_token # A pagination token that fetches the next page of bots. If the response # to this call is truncated, Amazon Lex returns a pagination token in # the response. To fetch the next page of bots, specify the pagination # token in the next request. # # @option params [Integer] :max_results # The maximum number of bots to return in the response that the request # will return. The default is 10. # # @option params [String] :name_contains # Substring to match in bot names. A bot will be returned if any part of # its name matches the substring. For example, "xyz" matches both # "xyzabc" and "abcxyz." # # @return [Types::GetBotsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetBotsResponse#bots #bots} => Array<Types::BotMetadata> # * {Types::GetBotsResponse#next_token #next_token} => String # # The returned {Seahorse::Client::Response response} is a pageable response and is Enumerable. For details on usage see {Aws::PageableResponse PageableResponse}. # # # @example Example: To get a list of bots # # # This example shows how to get a list of all of the bots in your account. # # resp = client.get_bots({ # max_results: 5, # next_token: "", # }) # # resp.to_h outputs the following: # { # bots: [ # { # version: "$LATEST", # name: "DocOrderPizzaBot", # created_date: Time.parse(1494360160.133), # description: "Orders a pizza from a local pizzeria.", # last_updated_date: Time.parse(1494360160.133), # status: "NOT_BUILT", # }, # ], # } # # @example Request syntax with placeholder values # # resp = client.get_bots({ # next_token: "NextToken", # max_results: 1, # name_contains: "BotName", # }) # # @example Response structure # # resp.bots #=> Array # resp.bots[0].name #=> String # resp.bots[0].description #=> String # resp.bots[0].status #=> String, one of "BUILDING", "READY", "READY_BASIC_TESTING", "FAILED", "NOT_BUILT" # resp.bots[0].last_updated_date #=> Time # resp.bots[0].created_date #=> Time # resp.bots[0].version #=> String # resp.next_token #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/GetBots AWS API Documentation # # @overload get_bots(params = {}) # @param [Hash] params ({}) def get_bots(params = {}, options = {}) req = build_request(:get_bots, params) req.send_request(options) end # Returns information about a built-in intent. # # This operation requires permission for the `lex:GetBuiltinIntent` # action. # # @option params [required, String] :signature # The unique identifier for a built-in intent. To find the signature for # an intent, see [Standard Built-in Intents][1] in the *Alexa Skills # Kit*. # # # # [1]: https://developer.amazon.com/public/solutions/alexa/alexa-skills-kit/docs/built-in-intent-ref/standard-intents # # @return [Types::GetBuiltinIntentResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetBuiltinIntentResponse#signature #signature} => String # * {Types::GetBuiltinIntentResponse#supported_locales #supported_locales} => Array<String> # * {Types::GetBuiltinIntentResponse#slots #slots} => Array<Types::BuiltinIntentSlot> # # @example Request syntax with placeholder values # # resp = client.get_builtin_intent({ # signature: "BuiltinIntentSignature", # required # }) # # @example Response structure # # resp.signature #=> String # resp.supported_locales #=> Array # resp.supported_locales[0] #=> String, one of "de-DE", "en-AU", "en-GB", "en-IN", "en-US", "es-419", "es-ES", "es-US", "fr-FR", "fr-CA", "it-IT", "ja-JP" # resp.slots #=> Array # resp.slots[0].name #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/GetBuiltinIntent AWS API Documentation # # @overload get_builtin_intent(params = {}) # @param [Hash] params ({}) def get_builtin_intent(params = {}, options = {}) req = build_request(:get_builtin_intent, params) req.send_request(options) end # Gets a list of built-in intents that meet the specified criteria. # # This operation requires permission for the `lex:GetBuiltinIntents` # action. # # @option params [String] :locale # A list of locales that the intent supports. # # @option params [String] :signature_contains # Substring to match in built-in intent signatures. An intent will be # returned if any part of its signature matches the substring. For # example, "xyz" matches both "xyzabc" and "abcxyz." To find the # signature for an intent, see [Standard Built-in Intents][1] in the # *Alexa Skills Kit*. # # # # [1]: https://developer.amazon.com/public/solutions/alexa/alexa-skills-kit/docs/built-in-intent-ref/standard-intents # # @option params [String] :next_token # A pagination token that fetches the next page of intents. If this API # call is truncated, Amazon Lex returns a pagination token in the # response. To fetch the next page of intents, use the pagination token # in the next request. # # @option params [Integer] :max_results # The maximum number of intents to return in the response. The default # is 10. # # @return [Types::GetBuiltinIntentsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetBuiltinIntentsResponse#intents #intents} => Array<Types::BuiltinIntentMetadata> # * {Types::GetBuiltinIntentsResponse#next_token #next_token} => String # # The returned {Seahorse::Client::Response response} is a pageable response and is Enumerable. For details on usage see {Aws::PageableResponse PageableResponse}. # # @example Request syntax with placeholder values # # resp = client.get_builtin_intents({ # locale: "de-DE", # accepts de-DE, en-AU, en-GB, en-IN, en-US, es-419, es-ES, es-US, fr-FR, fr-CA, it-IT, ja-JP # signature_contains: "String", # next_token: "NextToken", # max_results: 1, # }) # # @example Response structure # # resp.intents #=> Array # resp.intents[0].signature #=> String # resp.intents[0].supported_locales #=> Array # resp.intents[0].supported_locales[0] #=> String, one of "de-DE", "en-AU", "en-GB", "en-IN", "en-US", "es-419", "es-ES", "es-US", "fr-FR", "fr-CA", "it-IT", "ja-JP" # resp.next_token #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/GetBuiltinIntents AWS API Documentation # # @overload get_builtin_intents(params = {}) # @param [Hash] params ({}) def get_builtin_intents(params = {}, options = {}) req = build_request(:get_builtin_intents, params) req.send_request(options) end # Gets a list of built-in slot types that meet the specified criteria. # # For a list of built-in slot types, see [Slot Type Reference][1] in the # *Alexa Skills Kit*. # # This operation requires permission for the `lex:GetBuiltInSlotTypes` # action. # # # # [1]: https://developer.amazon.com/public/solutions/alexa/alexa-skills-kit/docs/built-in-intent-ref/slot-type-reference # # @option params [String] :locale # A list of locales that the slot type supports. # # @option params [String] :signature_contains # Substring to match in built-in slot type signatures. A slot type will # be returned if any part of its signature matches the substring. For # example, "xyz" matches both "xyzabc" and "abcxyz." # # @option params [String] :next_token # A pagination token that fetches the next page of slot types. If the # response to this API call is truncated, Amazon Lex returns a # pagination token in the response. To fetch the next page of slot # types, specify the pagination token in the next request. # # @option params [Integer] :max_results # The maximum number of slot types to return in the response. The # default is 10. # # @return [Types::GetBuiltinSlotTypesResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetBuiltinSlotTypesResponse#slot_types #slot_types} => Array<Types::BuiltinSlotTypeMetadata> # * {Types::GetBuiltinSlotTypesResponse#next_token #next_token} => String # # The returned {Seahorse::Client::Response response} is a pageable response and is Enumerable. For details on usage see {Aws::PageableResponse PageableResponse}. # # @example Request syntax with placeholder values # # resp = client.get_builtin_slot_types({ # locale: "de-DE", # accepts de-DE, en-AU, en-GB, en-IN, en-US, es-419, es-ES, es-US, fr-FR, fr-CA, it-IT, ja-JP # signature_contains: "String", # next_token: "NextToken", # max_results: 1, # }) # # @example Response structure # # resp.slot_types #=> Array # resp.slot_types[0].signature #=> String # resp.slot_types[0].supported_locales #=> Array # resp.slot_types[0].supported_locales[0] #=> String, one of "de-DE", "en-AU", "en-GB", "en-IN", "en-US", "es-419", "es-ES", "es-US", "fr-FR", "fr-CA", "it-IT", "ja-JP" # resp.next_token #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/GetBuiltinSlotTypes AWS API Documentation # # @overload get_builtin_slot_types(params = {}) # @param [Hash] params ({}) def get_builtin_slot_types(params = {}, options = {}) req = build_request(:get_builtin_slot_types, params) req.send_request(options) end # Exports the contents of a Amazon Lex resource in a specified format. # # @option params [required, String] :name # The name of the bot to export. # # @option params [required, String] :version # The version of the bot to export. # # @option params [required, String] :resource_type # The type of resource to export. # # @option params [required, String] :export_type # The format of the exported data. # # @return [Types::GetExportResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetExportResponse#name #name} => String # * {Types::GetExportResponse#version #version} => String # * {Types::GetExportResponse#resource_type #resource_type} => String # * {Types::GetExportResponse#export_type #export_type} => String # * {Types::GetExportResponse#export_status #export_status} => String # * {Types::GetExportResponse#failure_reason #failure_reason} => String # * {Types::GetExportResponse#url #url} => String # # @example Request syntax with placeholder values # # resp = client.get_export({ # name: "Name", # required # version: "NumericalVersion", # required # resource_type: "BOT", # required, accepts BOT, INTENT, SLOT_TYPE # export_type: "ALEXA_SKILLS_KIT", # required, accepts ALEXA_SKILLS_KIT, LEX # }) # # @example Response structure # # resp.name #=> String # resp.version #=> String # resp.resource_type #=> String, one of "BOT", "INTENT", "SLOT_TYPE" # resp.export_type #=> String, one of "ALEXA_SKILLS_KIT", "LEX" # resp.export_status #=> String, one of "IN_PROGRESS", "READY", "FAILED" # resp.failure_reason #=> String # resp.url #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/GetExport AWS API Documentation # # @overload get_export(params = {}) # @param [Hash] params ({}) def get_export(params = {}, options = {}) req = build_request(:get_export, params) req.send_request(options) end # Gets information about an import job started with the `StartImport` # operation. # # @option params [required, String] :import_id # The identifier of the import job information to return. # # @return [Types::GetImportResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetImportResponse#name #name} => String # * {Types::GetImportResponse#resource_type #resource_type} => String # * {Types::GetImportResponse#merge_strategy #merge_strategy} => String # * {Types::GetImportResponse#import_id #import_id} => String # * {Types::GetImportResponse#import_status #import_status} => String # * {Types::GetImportResponse#failure_reason #failure_reason} => Array<String> # * {Types::GetImportResponse#created_date #created_date} => Time # # @example Request syntax with placeholder values # # resp = client.get_import({ # import_id: "String", # required # }) # # @example Response structure # # resp.name #=> String # resp.resource_type #=> String, one of "BOT", "INTENT", "SLOT_TYPE" # resp.merge_strategy #=> String, one of "OVERWRITE_LATEST", "FAIL_ON_CONFLICT" # resp.import_id #=> String # resp.import_status #=> String, one of "IN_PROGRESS", "COMPLETE", "FAILED" # resp.failure_reason #=> Array # resp.failure_reason[0] #=> String # resp.created_date #=> Time # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/GetImport AWS API Documentation # # @overload get_import(params = {}) # @param [Hash] params ({}) def get_import(params = {}, options = {}) req = build_request(:get_import, params) req.send_request(options) end # Returns information about an intent. In addition to the intent name, # you must specify the intent version. # # This operation requires permissions to perform the `lex:GetIntent` # action. # # @option params [required, String] :name # The name of the intent. The name is case sensitive. # # @option params [required, String] :version # The version of the intent. # # @return [Types::GetIntentResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetIntentResponse#name #name} => String # * {Types::GetIntentResponse#description #description} => String # * {Types::GetIntentResponse#slots #slots} => Array<Types::Slot> # * {Types::GetIntentResponse#sample_utterances #sample_utterances} => Array<String> # * {Types::GetIntentResponse#confirmation_prompt #confirmation_prompt} => Types::Prompt # * {Types::GetIntentResponse#rejection_statement #rejection_statement} => Types::Statement # * {Types::GetIntentResponse#follow_up_prompt #follow_up_prompt} => Types::FollowUpPrompt # * {Types::GetIntentResponse#conclusion_statement #conclusion_statement} => Types::Statement # * {Types::GetIntentResponse#dialog_code_hook #dialog_code_hook} => Types::CodeHook # * {Types::GetIntentResponse#fulfillment_activity #fulfillment_activity} => Types::FulfillmentActivity # * {Types::GetIntentResponse#parent_intent_signature #parent_intent_signature} => String # * {Types::GetIntentResponse#last_updated_date #last_updated_date} => Time # * {Types::GetIntentResponse#created_date #created_date} => Time # * {Types::GetIntentResponse#version #version} => String # * {Types::GetIntentResponse#checksum #checksum} => String # * {Types::GetIntentResponse#kendra_configuration #kendra_configuration} => Types::KendraConfiguration # * {Types::GetIntentResponse#input_contexts #input_contexts} => Array<Types::InputContext> # * {Types::GetIntentResponse#output_contexts #output_contexts} => Array<Types::OutputContext> # # # @example Example: To get a information about an intent # # # This example shows how to get information about an intent. # # resp = client.get_intent({ # version: "$LATEST", # name: "DocOrderPizza", # }) # # resp.to_h outputs the following: # { # version: "$LATEST", # name: "DocOrderPizza", # checksum: "ca9bc13d-afc8-4706-bbaf-091f7a5935d6", # conclusion_statement: { # messages: [ # { # content: "All right, I ordered you a {Crust} crust {Type} pizza with {Sauce} sauce.", # content_type: "PlainText", # }, # { # content: "OK, your {Crust} crust {Type} pizza with {Sauce} sauce is on the way.", # content_type: "PlainText", # }, # ], # response_card: "foo", # }, # confirmation_prompt: { # max_attempts: 1, # messages: [ # { # content: "Should I order your {Crust} crust {Type} pizza with {Sauce} sauce?", # content_type: "PlainText", # }, # ], # }, # created_date: Time.parse(1494359783.453), # description: "Order a pizza from a local pizzeria.", # fulfillment_activity: { # type: "ReturnIntent", # }, # last_updated_date: Time.parse(1494359783.453), # rejection_statement: { # messages: [ # { # content: "Ok, I'll cancel your order.", # content_type: "PlainText", # }, # { # content: "I cancelled your order.", # content_type: "PlainText", # }, # ], # }, # sample_utterances: [ # "Order me a pizza.", # "Order me a {Type} pizza.", # "I want a {Crust} crust {Type} pizza", # "I want a {Crust} crust {Type} pizza with {Sauce} sauce.", # ], # slots: [ # { # name: "Type", # description: "The type of pizza to order.", # priority: 1, # sample_utterances: [ # "Get me a {Type} pizza.", # "A {Type} pizza please.", # "I'd like a {Type} pizza.", # ], # slot_constraint: "Required", # slot_type: "DocPizzaType", # slot_type_version: "$LATEST", # value_elicitation_prompt: { # max_attempts: 1, # messages: [ # { # content: "What type of pizza would you like?", # content_type: "PlainText", # }, # { # content: "Vegie or cheese pizza?", # content_type: "PlainText", # }, # { # content: "I can get you a vegie or a cheese pizza.", # content_type: "PlainText", # }, # ], # }, # }, # { # name: "Crust", # description: "The type of pizza crust to order.", # priority: 2, # sample_utterances: [ # "Make it a {Crust} crust.", # "I'd like a {Crust} crust.", # ], # slot_constraint: "Required", # slot_type: "DocPizzaCrustType", # slot_type_version: "$LATEST", # value_elicitation_prompt: { # max_attempts: 1, # messages: [ # { # content: "What type of crust would you like?", # content_type: "PlainText", # }, # { # content: "Thick or thin crust?", # content_type: "PlainText", # }, # ], # }, # }, # { # name: "Sauce", # description: "The type of sauce to use on the pizza.", # priority: 3, # sample_utterances: [ # "Make it {Sauce} sauce.", # "I'd like {Sauce} sauce.", # ], # slot_constraint: "Required", # slot_type: "DocPizzaSauceType", # slot_type_version: "$LATEST", # value_elicitation_prompt: { # max_attempts: 1, # messages: [ # { # content: "White or red sauce?", # content_type: "PlainText", # }, # { # content: "Garlic or tomato sauce?", # content_type: "PlainText", # }, # ], # }, # }, # ], # } # # @example Request syntax with placeholder values # # resp = client.get_intent({ # name: "IntentName", # required # version: "Version", # required # }) # # @example Response structure # # resp.name #=> String # resp.description #=> String # resp.slots #=> Array # resp.slots[0].name #=> String # resp.slots[0].description #=> String # resp.slots[0].slot_constraint #=> String, one of "Required", "Optional" # resp.slots[0].slot_type #=> String # resp.slots[0].slot_type_version #=> String # resp.slots[0].value_elicitation_prompt.messages #=> Array # resp.slots[0].value_elicitation_prompt.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.slots[0].value_elicitation_prompt.messages[0].content #=> String # resp.slots[0].value_elicitation_prompt.messages[0].group_number #=> Integer # resp.slots[0].value_elicitation_prompt.max_attempts #=> Integer # resp.slots[0].value_elicitation_prompt.response_card #=> String # resp.slots[0].priority #=> Integer # resp.slots[0].sample_utterances #=> Array # resp.slots[0].sample_utterances[0] #=> String # resp.slots[0].response_card #=> String # resp.slots[0].obfuscation_setting #=> String, one of "NONE", "DEFAULT_OBFUSCATION" # resp.slots[0].default_value_spec.default_value_list #=> Array # resp.slots[0].default_value_spec.default_value_list[0].default_value #=> String # resp.sample_utterances #=> Array # resp.sample_utterances[0] #=> String # resp.confirmation_prompt.messages #=> Array # resp.confirmation_prompt.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.confirmation_prompt.messages[0].content #=> String # resp.confirmation_prompt.messages[0].group_number #=> Integer # resp.confirmation_prompt.max_attempts #=> Integer # resp.confirmation_prompt.response_card #=> String # resp.rejection_statement.messages #=> Array # resp.rejection_statement.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.rejection_statement.messages[0].content #=> String # resp.rejection_statement.messages[0].group_number #=> Integer # resp.rejection_statement.response_card #=> String # resp.follow_up_prompt.prompt.messages #=> Array # resp.follow_up_prompt.prompt.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.follow_up_prompt.prompt.messages[0].content #=> String # resp.follow_up_prompt.prompt.messages[0].group_number #=> Integer # resp.follow_up_prompt.prompt.max_attempts #=> Integer # resp.follow_up_prompt.prompt.response_card #=> String # resp.follow_up_prompt.rejection_statement.messages #=> Array # resp.follow_up_prompt.rejection_statement.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.follow_up_prompt.rejection_statement.messages[0].content #=> String # resp.follow_up_prompt.rejection_statement.messages[0].group_number #=> Integer # resp.follow_up_prompt.rejection_statement.response_card #=> String # resp.conclusion_statement.messages #=> Array # resp.conclusion_statement.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.conclusion_statement.messages[0].content #=> String # resp.conclusion_statement.messages[0].group_number #=> Integer # resp.conclusion_statement.response_card #=> String # resp.dialog_code_hook.uri #=> String # resp.dialog_code_hook.message_version #=> String # resp.fulfillment_activity.type #=> String, one of "ReturnIntent", "CodeHook" # resp.fulfillment_activity.code_hook.uri #=> String # resp.fulfillment_activity.code_hook.message_version #=> String # resp.parent_intent_signature #=> String # resp.last_updated_date #=> Time # resp.created_date #=> Time # resp.version #=> String # resp.checksum #=> String # resp.kendra_configuration.kendra_index #=> String # resp.kendra_configuration.query_filter_string #=> String # resp.kendra_configuration.role #=> String # resp.input_contexts #=> Array # resp.input_contexts[0].name #=> String # resp.output_contexts #=> Array # resp.output_contexts[0].name #=> String # resp.output_contexts[0].time_to_live_in_seconds #=> Integer # resp.output_contexts[0].turns_to_live #=> Integer # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/GetIntent AWS API Documentation # # @overload get_intent(params = {}) # @param [Hash] params ({}) def get_intent(params = {}, options = {}) req = build_request(:get_intent, params) req.send_request(options) end # Gets information about all of the versions of an intent. # # The `GetIntentVersions` operation returns an `IntentMetadata` object # for each version of an intent. For example, if an intent has three # numbered versions, the `GetIntentVersions` operation returns four # `IntentMetadata` objects in the response, one for each numbered # version and one for the `$LATEST` version. # # The `GetIntentVersions` operation always returns at least one version, # the `$LATEST` version. # # This operation requires permissions for the `lex:GetIntentVersions` # action. # # @option params [required, String] :name # The name of the intent for which versions should be returned. # # @option params [String] :next_token # A pagination token for fetching the next page of intent versions. If # the response to this call is truncated, Amazon Lex returns a # pagination token in the response. To fetch the next page of versions, # specify the pagination token in the next request. # # @option params [Integer] :max_results # The maximum number of intent versions to return in the response. The # default is 10. # # @return [Types::GetIntentVersionsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetIntentVersionsResponse#intents #intents} => Array<Types::IntentMetadata> # * {Types::GetIntentVersionsResponse#next_token #next_token} => String # # The returned {Seahorse::Client::Response response} is a pageable response and is Enumerable. For details on usage see {Aws::PageableResponse PageableResponse}. # # @example Request syntax with placeholder values # # resp = client.get_intent_versions({ # name: "IntentName", # required # next_token: "NextToken", # max_results: 1, # }) # # @example Response structure # # resp.intents #=> Array # resp.intents[0].name #=> String # resp.intents[0].description #=> String # resp.intents[0].last_updated_date #=> Time # resp.intents[0].created_date #=> Time # resp.intents[0].version #=> String # resp.next_token #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/GetIntentVersions AWS API Documentation # # @overload get_intent_versions(params = {}) # @param [Hash] params ({}) def get_intent_versions(params = {}, options = {}) req = build_request(:get_intent_versions, params) req.send_request(options) end # Returns intent information as follows: # # * If you specify the `nameContains` field, returns the `$LATEST` # version of all intents that contain the specified string. # # * If you don't specify the `nameContains` field, returns information # about the `$LATEST` version of all intents. # # The operation requires permission for the `lex:GetIntents` action. # # @option params [String] :next_token # A pagination token that fetches the next page of intents. If the # response to this API call is truncated, Amazon Lex returns a # pagination token in the response. To fetch the next page of intents, # specify the pagination token in the next request. # # @option params [Integer] :max_results # The maximum number of intents to return in the response. The default # is 10. # # @option params [String] :name_contains # Substring to match in intent names. An intent will be returned if any # part of its name matches the substring. For example, "xyz" matches # both "xyzabc" and "abcxyz." # # @return [Types::GetIntentsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetIntentsResponse#intents #intents} => Array<Types::IntentMetadata> # * {Types::GetIntentsResponse#next_token #next_token} => String # # The returned {Seahorse::Client::Response response} is a pageable response and is Enumerable. For details on usage see {Aws::PageableResponse PageableResponse}. # # # @example Example: To get a list of intents # # # This example shows how to get a list of all of the intents in your account. # # resp = client.get_intents({ # max_results: 10, # next_token: "", # }) # # resp.to_h outputs the following: # { # intents: [ # { # version: "$LATEST", # name: "DocOrderPizza", # created_date: Time.parse(1494359783.453), # description: "Order a pizza from a local pizzeria.", # last_updated_date: Time.parse(1494359783.453), # }, # ], # } # # @example Request syntax with placeholder values # # resp = client.get_intents({ # next_token: "NextToken", # max_results: 1, # name_contains: "IntentName", # }) # # @example Response structure # # resp.intents #=> Array # resp.intents[0].name #=> String # resp.intents[0].description #=> String # resp.intents[0].last_updated_date #=> Time # resp.intents[0].created_date #=> Time # resp.intents[0].version #=> String # resp.next_token #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/GetIntents AWS API Documentation # # @overload get_intents(params = {}) # @param [Hash] params ({}) def get_intents(params = {}, options = {}) req = build_request(:get_intents, params) req.send_request(options) end # Provides details about an ongoing or complete migration from an Amazon # Lex V1 bot to an Amazon Lex V2 bot. Use this operation to view the # migration alerts and warnings related to the migration. # # @option params [required, String] :migration_id # The unique identifier of the migration to view. The `migrationID` is # returned by the operation. # # @return [Types::GetMigrationResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetMigrationResponse#migration_id #migration_id} => String # * {Types::GetMigrationResponse#v1_bot_name #v1_bot_name} => String # * {Types::GetMigrationResponse#v1_bot_version #v1_bot_version} => String # * {Types::GetMigrationResponse#v1_bot_locale #v1_bot_locale} => String # * {Types::GetMigrationResponse#v2_bot_id #v2_bot_id} => String # * {Types::GetMigrationResponse#v2_bot_role #v2_bot_role} => String # * {Types::GetMigrationResponse#migration_status #migration_status} => String # * {Types::GetMigrationResponse#migration_strategy #migration_strategy} => String # * {Types::GetMigrationResponse#migration_timestamp #migration_timestamp} => Time # * {Types::GetMigrationResponse#alerts #alerts} => Array<Types::MigrationAlert> # # @example Request syntax with placeholder values # # resp = client.get_migration({ # migration_id: "MigrationId", # required # }) # # @example Response structure # # resp.migration_id #=> String # resp.v1_bot_name #=> String # resp.v1_bot_version #=> String # resp.v1_bot_locale #=> String, one of "de-DE", "en-AU", "en-GB", "en-IN", "en-US", "es-419", "es-ES", "es-US", "fr-FR", "fr-CA", "it-IT", "ja-JP" # resp.v2_bot_id #=> String # resp.v2_bot_role #=> String # resp.migration_status #=> String, one of "IN_PROGRESS", "COMPLETED", "FAILED" # resp.migration_strategy #=> String, one of "CREATE_NEW", "UPDATE_EXISTING" # resp.migration_timestamp #=> Time # resp.alerts #=> Array # resp.alerts[0].type #=> String, one of "ERROR", "WARN" # resp.alerts[0].message #=> String # resp.alerts[0].details #=> Array # resp.alerts[0].details[0] #=> String # resp.alerts[0].reference_urls #=> Array # resp.alerts[0].reference_urls[0] #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/GetMigration AWS API Documentation # # @overload get_migration(params = {}) # @param [Hash] params ({}) def get_migration(params = {}, options = {}) req = build_request(:get_migration, params) req.send_request(options) end # Gets a list of migrations between Amazon Lex V1 and Amazon Lex V2. # # @option params [String] :sort_by_attribute # The field to sort the list of migrations by. You can sort by the # Amazon Lex V1 bot name or the date and time that the migration was # started. # # @option params [String] :sort_by_order # The order so sort the list. # # @option params [String] :v1_bot_name_contains # Filters the list to contain only bots whose name contains the # specified string. The string is matched anywhere in bot name. # # @option params [String] :migration_status_equals # Filters the list to contain only migrations in the specified state. # # @option params [Integer] :max_results # The maximum number of migrations to return in the response. The # default is 10. # # @option params [String] :next_token # A pagination token that fetches the next page of migrations. If the # response to this operation is truncated, Amazon Lex returns a # pagination token in the response. To fetch the next page of # migrations, specify the pagination token in the request. # # @return [Types::GetMigrationsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetMigrationsResponse#migration_summaries #migration_summaries} => Array<Types::MigrationSummary> # * {Types::GetMigrationsResponse#next_token #next_token} => String # # The returned {Seahorse::Client::Response response} is a pageable response and is Enumerable. For details on usage see {Aws::PageableResponse PageableResponse}. # # @example Request syntax with placeholder values # # resp = client.get_migrations({ # sort_by_attribute: "V1_BOT_NAME", # accepts V1_BOT_NAME, MIGRATION_DATE_TIME # sort_by_order: "ASCENDING", # accepts ASCENDING, DESCENDING # v1_bot_name_contains: "BotName", # migration_status_equals: "IN_PROGRESS", # accepts IN_PROGRESS, COMPLETED, FAILED # max_results: 1, # next_token: "NextToken", # }) # # @example Response structure # # resp.migration_summaries #=> Array # resp.migration_summaries[0].migration_id #=> String # resp.migration_summaries[0].v1_bot_name #=> String # resp.migration_summaries[0].v1_bot_version #=> String # resp.migration_summaries[0].v1_bot_locale #=> String, one of "de-DE", "en-AU", "en-GB", "en-IN", "en-US", "es-419", "es-ES", "es-US", "fr-FR", "fr-CA", "it-IT", "ja-JP" # resp.migration_summaries[0].v2_bot_id #=> String # resp.migration_summaries[0].v2_bot_role #=> String # resp.migration_summaries[0].migration_status #=> String, one of "IN_PROGRESS", "COMPLETED", "FAILED" # resp.migration_summaries[0].migration_strategy #=> String, one of "CREATE_NEW", "UPDATE_EXISTING" # resp.migration_summaries[0].migration_timestamp #=> Time # resp.next_token #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/GetMigrations AWS API Documentation # # @overload get_migrations(params = {}) # @param [Hash] params ({}) def get_migrations(params = {}, options = {}) req = build_request(:get_migrations, params) req.send_request(options) end # Returns information about a specific version of a slot type. In # addition to specifying the slot type name, you must specify the slot # type version. # # This operation requires permissions for the `lex:GetSlotType` action. # # @option params [required, String] :name # The name of the slot type. The name is case sensitive. # # @option params [required, String] :version # The version of the slot type. # # @return [Types::GetSlotTypeResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetSlotTypeResponse#name #name} => String # * {Types::GetSlotTypeResponse#description #description} => String # * {Types::GetSlotTypeResponse#enumeration_values #enumeration_values} => Array<Types::EnumerationValue> # * {Types::GetSlotTypeResponse#last_updated_date #last_updated_date} => Time # * {Types::GetSlotTypeResponse#created_date #created_date} => Time # * {Types::GetSlotTypeResponse#version #version} => String # * {Types::GetSlotTypeResponse#checksum #checksum} => String # * {Types::GetSlotTypeResponse#value_selection_strategy #value_selection_strategy} => String # * {Types::GetSlotTypeResponse#parent_slot_type_signature #parent_slot_type_signature} => String # * {Types::GetSlotTypeResponse#slot_type_configurations #slot_type_configurations} => Array<Types::SlotTypeConfiguration> # # # @example Example: To get information about a slot type # # # This example shows how to get information about a slot type. # # resp = client.get_slot_type({ # version: "$LATEST", # name: "DocPizzaCrustType", # }) # # resp.to_h outputs the following: # { # version: "$LATEST", # name: "DocPizzaCrustType", # checksum: "210b3d5a-90a3-4b22-ac7e-f50c2c71095f", # created_date: Time.parse(1494359274.403), # description: "Available crust types", # enumeration_values: [ # { # value: "thick", # }, # { # value: "thin", # }, # ], # last_updated_date: Time.parse(1494359274.403), # } # # @example Request syntax with placeholder values # # resp = client.get_slot_type({ # name: "SlotTypeName", # required # version: "Version", # required # }) # # @example Response structure # # resp.name #=> String # resp.description #=> String # resp.enumeration_values #=> Array # resp.enumeration_values[0].value #=> String # resp.enumeration_values[0].synonyms #=> Array # resp.enumeration_values[0].synonyms[0] #=> String # resp.last_updated_date #=> Time # resp.created_date #=> Time # resp.version #=> String # resp.checksum #=> String # resp.value_selection_strategy #=> String, one of "ORIGINAL_VALUE", "TOP_RESOLUTION" # resp.parent_slot_type_signature #=> String # resp.slot_type_configurations #=> Array # resp.slot_type_configurations[0].regex_configuration.pattern #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/GetSlotType AWS API Documentation # # @overload get_slot_type(params = {}) # @param [Hash] params ({}) def get_slot_type(params = {}, options = {}) req = build_request(:get_slot_type, params) req.send_request(options) end # Gets information about all versions of a slot type. # # The `GetSlotTypeVersions` operation returns a `SlotTypeMetadata` # object for each version of a slot type. For example, if a slot type # has three numbered versions, the `GetSlotTypeVersions` operation # returns four `SlotTypeMetadata` objects in the response, one for each # numbered version and one for the `$LATEST` version. # # The `GetSlotTypeVersions` operation always returns at least one # version, the `$LATEST` version. # # This operation requires permissions for the `lex:GetSlotTypeVersions` # action. # # @option params [required, String] :name # The name of the slot type for which versions should be returned. # # @option params [String] :next_token # A pagination token for fetching the next page of slot type versions. # If the response to this call is truncated, Amazon Lex returns a # pagination token in the response. To fetch the next page of versions, # specify the pagination token in the next request. # # @option params [Integer] :max_results # The maximum number of slot type versions to return in the response. # The default is 10. # # @return [Types::GetSlotTypeVersionsResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetSlotTypeVersionsResponse#slot_types #slot_types} => Array<Types::SlotTypeMetadata> # * {Types::GetSlotTypeVersionsResponse#next_token #next_token} => String # # The returned {Seahorse::Client::Response response} is a pageable response and is Enumerable. For details on usage see {Aws::PageableResponse PageableResponse}. # # @example Request syntax with placeholder values # # resp = client.get_slot_type_versions({ # name: "SlotTypeName", # required # next_token: "NextToken", # max_results: 1, # }) # # @example Response structure # # resp.slot_types #=> Array # resp.slot_types[0].name #=> String # resp.slot_types[0].description #=> String # resp.slot_types[0].last_updated_date #=> Time # resp.slot_types[0].created_date #=> Time # resp.slot_types[0].version #=> String # resp.next_token #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/GetSlotTypeVersions AWS API Documentation # # @overload get_slot_type_versions(params = {}) # @param [Hash] params ({}) def get_slot_type_versions(params = {}, options = {}) req = build_request(:get_slot_type_versions, params) req.send_request(options) end # Returns slot type information as follows: # # * If you specify the `nameContains` field, returns the `$LATEST` # version of all slot types that contain the specified string. # # * If you don't specify the `nameContains` field, returns information # about the `$LATEST` version of all slot types. # # The operation requires permission for the `lex:GetSlotTypes` action. # # @option params [String] :next_token # A pagination token that fetches the next page of slot types. If the # response to this API call is truncated, Amazon Lex returns a # pagination token in the response. To fetch next page of slot types, # specify the pagination token in the next request. # # @option params [Integer] :max_results # The maximum number of slot types to return in the response. The # default is 10. # # @option params [String] :name_contains # Substring to match in slot type names. A slot type will be returned if # any part of its name matches the substring. For example, "xyz" # matches both "xyzabc" and "abcxyz." # # @return [Types::GetSlotTypesResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetSlotTypesResponse#slot_types #slot_types} => Array<Types::SlotTypeMetadata> # * {Types::GetSlotTypesResponse#next_token #next_token} => String # # The returned {Seahorse::Client::Response response} is a pageable response and is Enumerable. For details on usage see {Aws::PageableResponse PageableResponse}. # # # @example Example: To get a list of slot types # # # This example shows how to get a list of all of the slot types in your account. # # resp = client.get_slot_types({ # max_results: 10, # next_token: "", # }) # # resp.to_h outputs the following: # { # slot_types: [ # { # version: "$LATEST", # name: "DocPizzaCrustType", # created_date: Time.parse(1494359274.403), # description: "Available crust types", # last_updated_date: Time.parse(1494359274.403), # }, # { # version: "$LATEST", # name: "DocPizzaSauceType", # created_date: Time.parse(1494356442.23), # description: "Available pizza sauces", # last_updated_date: Time.parse(1494356442.23), # }, # { # version: "$LATEST", # name: "DocPizzaType", # created_date: Time.parse(1494359198.656), # description: "Available pizzas", # last_updated_date: Time.parse(1494359198.656), # }, # ], # } # # @example Request syntax with placeholder values # # resp = client.get_slot_types({ # next_token: "NextToken", # max_results: 1, # name_contains: "SlotTypeName", # }) # # @example Response structure # # resp.slot_types #=> Array # resp.slot_types[0].name #=> String # resp.slot_types[0].description #=> String # resp.slot_types[0].last_updated_date #=> Time # resp.slot_types[0].created_date #=> Time # resp.slot_types[0].version #=> String # resp.next_token #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/GetSlotTypes AWS API Documentation # # @overload get_slot_types(params = {}) # @param [Hash] params ({}) def get_slot_types(params = {}, options = {}) req = build_request(:get_slot_types, params) req.send_request(options) end # Use the `GetUtterancesView` operation to get information about the # utterances that your users have made to your bot. You can use this # list to tune the utterances that your bot responds to. # # For example, say that you have created a bot to order flowers. After # your users have used your bot for a while, use the `GetUtterancesView` # operation to see the requests that they have made and whether they # have been successful. You might find that the utterance "I want # flowers" is not being recognized. You could add this utterance to the # `OrderFlowers` intent so that your bot recognizes that utterance. # # After you publish a new version of a bot, you can get information # about the old version and the new so that you can compare the # performance across the two versions. # # Utterance statistics are generated once a day. Data is available for # the last 15 days. You can request information for up to 5 versions of # your bot in each request. Amazon Lex returns the most frequent # utterances received by the bot in the last 15 days. The response # contains information about a maximum of 100 utterances for each # version. # # If you set `childDirected` field to true when you created your bot, if # you are using slot obfuscation with one or more slots, or if you opted # out of participating in improving Amazon Lex, utterances are not # available. # # This operation requires permissions for the `lex:GetUtterancesView` # action. # # @option params [required, String] :bot_name # The name of the bot for which utterance information should be # returned. # # @option params [required, Array] :bot_versions # An array of bot versions for which utterance information should be # returned. The limit is 5 versions per request. # # @option params [required, String] :status_type # To return utterances that were recognized and handled, use `Detected`. # To return utterances that were not recognized, use `Missed`. # # @return [Types::GetUtterancesViewResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::GetUtterancesViewResponse#bot_name #bot_name} => String # * {Types::GetUtterancesViewResponse#utterances #utterances} => Array<Types::UtteranceList> # # @example Request syntax with placeholder values # # resp = client.get_utterances_view({ # bot_name: "BotName", # required # bot_versions: ["Version"], # required # status_type: "Detected", # required, accepts Detected, Missed # }) # # @example Response structure # # resp.bot_name #=> String # resp.utterances #=> Array # resp.utterances[0].bot_version #=> String # resp.utterances[0].utterances #=> Array # resp.utterances[0].utterances[0].utterance_string #=> String # resp.utterances[0].utterances[0].count #=> Integer # resp.utterances[0].utterances[0].distinct_users #=> Integer # resp.utterances[0].utterances[0].first_uttered_date #=> Time # resp.utterances[0].utterances[0].last_uttered_date #=> Time # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/GetUtterancesView AWS API Documentation # # @overload get_utterances_view(params = {}) # @param [Hash] params ({}) def get_utterances_view(params = {}, options = {}) req = build_request(:get_utterances_view, params) req.send_request(options) end # Gets a list of tags associated with the specified resource. Only bots, # bot aliases, and bot channels can have tags associated with them. # # @option params [required, String] :resource_arn # The Amazon Resource Name (ARN) of the resource to get a list of tags # for. # # @return [Types::ListTagsForResourceResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::ListTagsForResourceResponse#tags #tags} => Array<Types::Tag> # # @example Request syntax with placeholder values # # resp = client.list_tags_for_resource({ # resource_arn: "AmazonResourceName", # required # }) # # @example Response structure # # resp.tags #=> Array # resp.tags[0].key #=> String # resp.tags[0].value #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/ListTagsForResource AWS API Documentation # # @overload list_tags_for_resource(params = {}) # @param [Hash] params ({}) def list_tags_for_resource(params = {}, options = {}) req = build_request(:list_tags_for_resource, params) req.send_request(options) end # Creates an Amazon Lex conversational bot or replaces an existing bot. # When you create or update a bot you are only required to specify a # name, a locale, and whether the bot is directed toward children under # age 13. You can use this to add intents later, or to remove intents # from an existing bot. When you create a bot with the minimum # information, the bot is created or updated but Amazon Lex returns the # ` response FAILED. You can build the bot after you add one or more # intents. For more information about Amazon Lex bots, see how-it-works. #

If you specify the name of an existing bot, the fields in the # request replace the existing values in the $LATEST version of the bot. # Amazon Lex removes any fields that you don't provide values for in the # request, except for the idleTTLInSeconds and privacySettings fields, # which are set to their default values. If you don't specify values for # required fields, Amazon Lex throws an exception. This operation # requires permissions for the lex:PutBot action. For more information, # see security-iam. # ` # # @option params [required, String] :name # The name of the bot. The name is *not* case sensitive. # # @option params [String] :description # A description of the bot. # # @option params [Array] :intents # An array of `Intent` objects. Each intent represents a command that a # user can express. For example, a pizza ordering bot might support an # OrderPizza intent. For more information, see how-it-works. # # @option params [Boolean] :enable_model_improvements # Set to `true` to enable access to natural language understanding # improvements. # # When you set the `enableModelImprovements` parameter to `true` you can # use the `nluIntentConfidenceThreshold` parameter to configure # confidence scores. For more information, see [Confidence Scores][1]. # # You can only set the `enableModelImprovements` parameter in certain # Regions. If you set the parameter to `true`, your bot has access to # accuracy improvements. # # The Regions where you can set the `enableModelImprovements` parameter # to `true` are: # # * US East (N. Virginia) (us-east-1) # # * US West (Oregon) (us-west-2) # # * Asia Pacific (Sydney) (ap-southeast-2) # # * EU (Ireland) (eu-west-1) # # In other Regions, the `enableModelImprovements` parameter is set to # `true` by default. In these Regions setting the parameter to `false` # throws a `ValidationException` exception. # # # # [1]: https://docs.aws.amazon.com/lex/latest/dg/confidence-scores.html # # @option params [Float] :nlu_intent_confidence_threshold # Determines the threshold where Amazon Lex will insert the # `AMAZON.FallbackIntent`, `AMAZON.KendraSearchIntent`, or both when # returning alternative intents in a [PostContent][1] or [PostText][2] # response. `AMAZON.FallbackIntent` and `AMAZON.KendraSearchIntent` are # only inserted if they are configured for the bot. # # You must set the `enableModelImprovements` parameter to `true` to use # confidence scores in the following regions. # # * US East (N. Virginia) (us-east-1) # # * US West (Oregon) (us-west-2) # # * Asia Pacific (Sydney) (ap-southeast-2) # # * EU (Ireland) (eu-west-1) # # In other Regions, the `enableModelImprovements` parameter is set to # `true` by default. # # For example, suppose a bot is configured with the confidence threshold # of 0.80 and the `AMAZON.FallbackIntent`. Amazon Lex returns three # alternative intents with the following confidence scores: IntentA # (0.70), IntentB (0.60), IntentC (0.50). The response from the # `PostText` operation would be: # # * AMAZON.FallbackIntent # # * IntentA # # * IntentB # # * IntentC # # # # [1]: https://docs.aws.amazon.com/lex/latest/dg/API_runtime_PostContent.html # [2]: https://docs.aws.amazon.com/lex/latest/dg/API_runtime_PostText.html # # @option params [Types::Prompt] :clarification_prompt # When Amazon Lex doesn't understand the user's intent, it uses this # message to get clarification. To specify how many times Amazon Lex # should repeat the clarification prompt, use the `maxAttempts` field. # If Amazon Lex still doesn't understand, it sends the message in the # `abortStatement` field. # # When you create a clarification prompt, make sure that it suggests the # correct response from the user. for example, for a bot that orders # pizza and drinks, you might create this clarification prompt: "What # would you like to do? You can say 'Order a pizza' or 'Order a # drink.'" # # If you have defined a fallback intent, it will be invoked if the # clarification prompt is repeated the number of times defined in the # `maxAttempts` field. For more information, see [ # AMAZON.FallbackIntent][1]. # # If you don't define a clarification prompt, at runtime Amazon Lex # will return a 400 Bad Request exception in three cases: # # * Follow-up prompt - When the user responds to a follow-up prompt but # does not provide an intent. For example, in response to a follow-up # prompt that says "Would you like anything else today?" the user # says "Yes." Amazon Lex will return a 400 Bad Request exception # because it does not have a clarification prompt to send to the user # to get an intent. # # * Lambda function - When using a Lambda function, you return an # `ElicitIntent` dialog type. Since Amazon Lex does not have a # clarification prompt to get an intent from the user, it returns a # 400 Bad Request exception. # # * PutSession operation - When using the `PutSession` operation, you # send an `ElicitIntent` dialog type. Since Amazon Lex does not have a # clarification prompt to get an intent from the user, it returns a # 400 Bad Request exception. # # # # [1]: https://docs.aws.amazon.com/lex/latest/dg/built-in-intent-fallback.html # # @option params [Types::Statement] :abort_statement # When Amazon Lex can't understand the user's input in context, it # tries to elicit the information a few times. After that, Amazon Lex # sends the message defined in `abortStatement` to the user, and then # cancels the conversation. To set the number of retries, use the # `valueElicitationPrompt` field for the slot type. # # For example, in a pizza ordering bot, Amazon Lex might ask a user # "What type of crust would you like?" If the user's response is not # one of the expected responses (for example, "thin crust, "deep # dish," etc.), Amazon Lex tries to elicit a correct response a few # more times. # # For example, in a pizza ordering application, `OrderPizza` might be # one of the intents. This intent might require the `CrustType` slot. # You specify the `valueElicitationPrompt` field when you create the # `CrustType` slot. # # If you have defined a fallback intent the cancel statement will not be # sent to the user, the fallback intent is used instead. For more # information, see [ AMAZON.FallbackIntent][1]. # # # # [1]: https://docs.aws.amazon.com/lex/latest/dg/built-in-intent-fallback.html # # @option params [Integer] :idle_session_ttl_in_seconds # The maximum time in seconds that Amazon Lex retains the data gathered # in a conversation. # # A user interaction session remains active for the amount of time # specified. If no conversation occurs during this time, the session # expires and Amazon Lex deletes any data provided before the timeout. # # For example, suppose that a user chooses the OrderPizza intent, but # gets sidetracked halfway through placing an order. If the user # doesn't complete the order within the specified time, Amazon Lex # discards the slot information that it gathered, and the user must # start over. # # If you don't include the `idleSessionTTLInSeconds` element in a # `PutBot` operation request, Amazon Lex uses the default value. This is # also true if the request replaces an existing bot. # # The default is 300 seconds (5 minutes). # # @option params [String] :voice_id # The Amazon Polly voice ID that you want Amazon Lex to use for voice # interactions with the user. The locale configured for the voice must # match the locale of the bot. For more information, see [Voices in # Amazon Polly][1] in the *Amazon Polly Developer Guide*. # # # # [1]: https://docs.aws.amazon.com/polly/latest/dg/voicelist.html # # @option params [String] :checksum # Identifies a specific revision of the `$LATEST` version. # # When you create a new bot, leave the `checksum` field blank. If you # specify a checksum you get a `BadRequestException` exception. # # When you want to update a bot, set the `checksum` field to the # checksum of the most recent revision of the `$LATEST` version. If you # don't specify the ` checksum` field, or if the checksum does not # match the `$LATEST` version, you get a `PreconditionFailedException` # exception. # # @option params [String] :process_behavior # If you set the `processBehavior` element to `BUILD`, Amazon Lex builds # the bot so that it can be run. If you set the element to `SAVE` Amazon # Lex saves the bot, but doesn't build it. # # If you don't specify this value, the default value is `BUILD`. # # @option params [required, String] :locale # Specifies the target locale for the bot. Any intent used in the bot # must be compatible with the locale of the bot. # # The default is `en-US`. # # @option params [required, Boolean] :child_directed # For each Amazon Lex bot created with the Amazon Lex Model Building # Service, you must specify whether your use of Amazon Lex is related to # a website, program, or other application that is directed or targeted, # in whole or in part, to children under age 13 and subject to the # Children's Online Privacy Protection Act (COPPA) by specifying `true` # or `false` in the `childDirected` field. By specifying `true` in the # `childDirected` field, you confirm that your use of Amazon Lex **is** # related to a website, program, or other application that is directed # or targeted, in whole or in part, to children under age 13 and subject # to COPPA. By specifying `false` in the `childDirected` field, you # confirm that your use of Amazon Lex **is not** related to a website, # program, or other application that is directed or targeted, in whole # or in part, to children under age 13 and subject to COPPA. You may not # specify a default value for the `childDirected` field that does not # accurately reflect whether your use of Amazon Lex is related to a # website, program, or other application that is directed or targeted, # in whole or in part, to children under age 13 and subject to COPPA. # # If your use of Amazon Lex relates to a website, program, or other # application that is directed in whole or in part, to children under # age 13, you must obtain any required verifiable parental consent under # COPPA. For information regarding the use of Amazon Lex in connection # with websites, programs, or other applications that are directed or # targeted, in whole or in part, to children under age 13, see the # [Amazon Lex FAQ.][1] # # # # [1]: https://aws.amazon.com/lex/faqs#data-security # # @option params [Boolean] :detect_sentiment # When set to `true` user utterances are sent to Amazon Comprehend for # sentiment analysis. If you don't specify `detectSentiment`, the # default is `false`. # # @option params [Boolean] :create_version # When set to `true` a new numbered version of the bot is created. This # is the same as calling the `CreateBotVersion` operation. If you don't # specify `createVersion`, the default is `false`. # # @option params [Array] :tags # A list of tags to add to the bot. You can only add tags when you # create a bot, you can't use the `PutBot` operation to update the tags # on a bot. To update tags, use the `TagResource` operation. # # @return [Types::PutBotResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::PutBotResponse#name #name} => String # * {Types::PutBotResponse#description #description} => String # * {Types::PutBotResponse#intents #intents} => Array<Types::Intent> # * {Types::PutBotResponse#enable_model_improvements #enable_model_improvements} => Boolean # * {Types::PutBotResponse#nlu_intent_confidence_threshold #nlu_intent_confidence_threshold} => Float # * {Types::PutBotResponse#clarification_prompt #clarification_prompt} => Types::Prompt # * {Types::PutBotResponse#abort_statement #abort_statement} => Types::Statement # * {Types::PutBotResponse#status #status} => String # * {Types::PutBotResponse#failure_reason #failure_reason} => String # * {Types::PutBotResponse#last_updated_date #last_updated_date} => Time # * {Types::PutBotResponse#created_date #created_date} => Time # * {Types::PutBotResponse#idle_session_ttl_in_seconds #idle_session_ttl_in_seconds} => Integer # * {Types::PutBotResponse#voice_id #voice_id} => String # * {Types::PutBotResponse#checksum #checksum} => String # * {Types::PutBotResponse#version #version} => String # * {Types::PutBotResponse#locale #locale} => String # * {Types::PutBotResponse#child_directed #child_directed} => Boolean # * {Types::PutBotResponse#create_version #create_version} => Boolean # * {Types::PutBotResponse#detect_sentiment #detect_sentiment} => Boolean # * {Types::PutBotResponse#tags #tags} => Array<Types::Tag> # # # @example Example: To create a bot # # # This example shows how to create a bot for ordering pizzas. # # resp = client.put_bot({ # name: "DocOrderPizzaBot", # abort_statement: { # messages: [ # { # content: "I don't understand. Can you try again?", # content_type: "PlainText", # }, # { # content: "I'm sorry, I don't understand.", # content_type: "PlainText", # }, # ], # }, # child_directed: true, # clarification_prompt: { # max_attempts: 1, # messages: [ # { # content: "I'm sorry, I didn't hear that. Can you repeat what you just said?", # content_type: "PlainText", # }, # { # content: "Can you say that again?", # content_type: "PlainText", # }, # ], # }, # description: "Orders a pizza from a local pizzeria.", # idle_session_ttl_in_seconds: 300, # intents: [ # { # intent_name: "DocOrderPizza", # intent_version: "$LATEST", # }, # ], # locale: "en-US", # process_behavior: "SAVE", # }) # # resp.to_h outputs the following: # { # version: "$LATEST", # name: "DocOrderPizzaBot", # abort_statement: { # messages: [ # { # content: "I don't understand. Can you try again?", # content_type: "PlainText", # }, # { # content: "I'm sorry, I don't understand.", # content_type: "PlainText", # }, # ], # }, # checksum: "20172ee3-fa06-49b2-bbc5-667c090303e9", # child_directed: true, # clarification_prompt: { # max_attempts: 1, # messages: [ # { # content: "I'm sorry, I didn't hear that. Can you repeate what you just said?", # content_type: "PlainText", # }, # { # content: "Can you say that again?", # content_type: "PlainText", # }, # ], # }, # created_date: Time.parse(1494360160.133), # description: "Orders a pizza from a local pizzeria.", # idle_session_ttl_in_seconds: 300, # intents: [ # { # intent_name: "DocOrderPizza", # intent_version: "$LATEST", # }, # ], # last_updated_date: Time.parse(1494360160.133), # locale: "en-US", # status: "NOT_BUILT", # } # # @example Request syntax with placeholder values # # resp = client.put_bot({ # name: "BotName", # required # description: "Description", # intents: [ # { # intent_name: "IntentName", # required # intent_version: "Version", # required # }, # ], # enable_model_improvements: false, # nlu_intent_confidence_threshold: 1.0, # clarification_prompt: { # messages: [ # required # { # content_type: "PlainText", # required, accepts PlainText, SSML, CustomPayload # content: "ContentString", # required # group_number: 1, # }, # ], # max_attempts: 1, # required # response_card: "ResponseCard", # }, # abort_statement: { # messages: [ # required # { # content_type: "PlainText", # required, accepts PlainText, SSML, CustomPayload # content: "ContentString", # required # group_number: 1, # }, # ], # response_card: "ResponseCard", # }, # idle_session_ttl_in_seconds: 1, # voice_id: "String", # checksum: "String", # process_behavior: "SAVE", # accepts SAVE, BUILD # locale: "de-DE", # required, accepts de-DE, en-AU, en-GB, en-IN, en-US, es-419, es-ES, es-US, fr-FR, fr-CA, it-IT, ja-JP # child_directed: false, # required # detect_sentiment: false, # create_version: false, # tags: [ # { # key: "TagKey", # required # value: "TagValue", # required # }, # ], # }) # # @example Response structure # # resp.name #=> String # resp.description #=> String # resp.intents #=> Array # resp.intents[0].intent_name #=> String # resp.intents[0].intent_version #=> String # resp.enable_model_improvements #=> Boolean # resp.nlu_intent_confidence_threshold #=> Float # resp.clarification_prompt.messages #=> Array # resp.clarification_prompt.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.clarification_prompt.messages[0].content #=> String # resp.clarification_prompt.messages[0].group_number #=> Integer # resp.clarification_prompt.max_attempts #=> Integer # resp.clarification_prompt.response_card #=> String # resp.abort_statement.messages #=> Array # resp.abort_statement.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.abort_statement.messages[0].content #=> String # resp.abort_statement.messages[0].group_number #=> Integer # resp.abort_statement.response_card #=> String # resp.status #=> String, one of "BUILDING", "READY", "READY_BASIC_TESTING", "FAILED", "NOT_BUILT" # resp.failure_reason #=> String # resp.last_updated_date #=> Time # resp.created_date #=> Time # resp.idle_session_ttl_in_seconds #=> Integer # resp.voice_id #=> String # resp.checksum #=> String # resp.version #=> String # resp.locale #=> String, one of "de-DE", "en-AU", "en-GB", "en-IN", "en-US", "es-419", "es-ES", "es-US", "fr-FR", "fr-CA", "it-IT", "ja-JP" # resp.child_directed #=> Boolean # resp.create_version #=> Boolean # resp.detect_sentiment #=> Boolean # resp.tags #=> Array # resp.tags[0].key #=> String # resp.tags[0].value #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/PutBot AWS API Documentation # # @overload put_bot(params = {}) # @param [Hash] params ({}) def put_bot(params = {}, options = {}) req = build_request(:put_bot, params) req.send_request(options) end # Creates an alias for the specified version of the bot or replaces an # alias for the specified bot. To change the version of the bot that the # alias points to, replace the alias. For more information about # aliases, see versioning-aliases. # # This operation requires permissions for the `lex:PutBotAlias` action. # # @option params [required, String] :name # The name of the alias. The name is *not* case sensitive. # # @option params [String] :description # A description of the alias. # # @option params [required, String] :bot_version # The version of the bot. # # @option params [required, String] :bot_name # The name of the bot. # # @option params [String] :checksum # Identifies a specific revision of the `$LATEST` version. # # When you create a new bot alias, leave the `checksum` field blank. If # you specify a checksum you get a `BadRequestException` exception. # # When you want to update a bot alias, set the `checksum` field to the # checksum of the most recent revision of the `$LATEST` version. If you # don't specify the ` checksum` field, or if the checksum does not # match the `$LATEST` version, you get a `PreconditionFailedException` # exception. # # @option params [Types::ConversationLogsRequest] :conversation_logs # Settings for conversation logs for the alias. # # @option params [Array] :tags # A list of tags to add to the bot alias. You can only add tags when you # create an alias, you can't use the `PutBotAlias` operation to update # the tags on a bot alias. To update tags, use the `TagResource` # operation. # # @return [Types::PutBotAliasResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::PutBotAliasResponse#name #name} => String # * {Types::PutBotAliasResponse#description #description} => String # * {Types::PutBotAliasResponse#bot_version #bot_version} => String # * {Types::PutBotAliasResponse#bot_name #bot_name} => String # * {Types::PutBotAliasResponse#last_updated_date #last_updated_date} => Time # * {Types::PutBotAliasResponse#created_date #created_date} => Time # * {Types::PutBotAliasResponse#checksum #checksum} => String # * {Types::PutBotAliasResponse#conversation_logs #conversation_logs} => Types::ConversationLogsResponse # * {Types::PutBotAliasResponse#tags #tags} => Array<Types::Tag> # # @example Request syntax with placeholder values # # resp = client.put_bot_alias({ # name: "AliasName", # required # description: "Description", # bot_version: "Version", # required # bot_name: "BotName", # required # checksum: "String", # conversation_logs: { # log_settings: [ # required # { # log_type: "AUDIO", # required, accepts AUDIO, TEXT # destination: "CLOUDWATCH_LOGS", # required, accepts CLOUDWATCH_LOGS, S3 # kms_key_arn: "KmsKeyArn", # resource_arn: "ResourceArn", # required # }, # ], # iam_role_arn: "IamRoleArn", # required # }, # tags: [ # { # key: "TagKey", # required # value: "TagValue", # required # }, # ], # }) # # @example Response structure # # resp.name #=> String # resp.description #=> String # resp.bot_version #=> String # resp.bot_name #=> String # resp.last_updated_date #=> Time # resp.created_date #=> Time # resp.checksum #=> String # resp.conversation_logs.log_settings #=> Array # resp.conversation_logs.log_settings[0].log_type #=> String, one of "AUDIO", "TEXT" # resp.conversation_logs.log_settings[0].destination #=> String, one of "CLOUDWATCH_LOGS", "S3" # resp.conversation_logs.log_settings[0].kms_key_arn #=> String # resp.conversation_logs.log_settings[0].resource_arn #=> String # resp.conversation_logs.log_settings[0].resource_prefix #=> String # resp.conversation_logs.iam_role_arn #=> String # resp.tags #=> Array # resp.tags[0].key #=> String # resp.tags[0].value #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/PutBotAlias AWS API Documentation # # @overload put_bot_alias(params = {}) # @param [Hash] params ({}) def put_bot_alias(params = {}, options = {}) req = build_request(:put_bot_alias, params) req.send_request(options) end # Creates an intent or replaces an existing intent. # # To define the interaction between the user and your bot, you use one # or more intents. For a pizza ordering bot, for example, you would # create an `OrderPizza` intent. # # To create an intent or replace an existing intent, you must provide # the following: # # * Intent name. For example, `OrderPizza`. # # * Sample utterances. For example, "Can I order a pizza, please." and # "I want to order a pizza." # # * Information to be gathered. You specify slot types for the # information that your bot will request from the user. You can # specify standard slot types, such as a date or a time, or custom # slot types such as the size and crust of a pizza. # # * How the intent will be fulfilled. You can provide a Lambda function # or configure the intent to return the intent information to the # client application. If you use a Lambda function, when all of the # intent information is available, Amazon Lex invokes your Lambda # function. If you configure your intent to return the intent # information to the client application. # # You can specify other optional information in the request, such as: # # * A confirmation prompt to ask the user to confirm an intent. For # example, "Shall I order your pizza?" # # * A conclusion statement to send to the user after the intent has been # fulfilled. For example, "I placed your pizza order." # # * A follow-up prompt that asks the user for additional activity. For # example, asking "Do you want to order a drink with your pizza?" # # If you specify an existing intent name to update the intent, Amazon # Lex replaces the values in the `$LATEST` version of the intent with # the values in the request. Amazon Lex removes fields that you don't # provide in the request. If you don't specify the required fields, # Amazon Lex throws an exception. When you update the `$LATEST` version # of an intent, the `status` field of any bot that uses the `$LATEST` # version of the intent is set to `NOT_BUILT`. # # For more information, see how-it-works. # # This operation requires permissions for the `lex:PutIntent` action. # # @option params [required, String] :name # The name of the intent. The name is *not* case sensitive. # # The name can't match a built-in intent name, or a built-in intent # name with "AMAZON." removed. For example, because there is a # built-in intent called `AMAZON.HelpIntent`, you can't create a custom # intent called `HelpIntent`. # # For a list of built-in intents, see [Standard Built-in Intents][1] in # the *Alexa Skills Kit*. # # # # [1]: https://developer.amazon.com/public/solutions/alexa/alexa-skills-kit/docs/built-in-intent-ref/standard-intents # # @option params [String] :description # A description of the intent. # # @option params [Array] :slots # An array of intent slots. At runtime, Amazon Lex elicits required slot # values from the user using prompts defined in the slots. For more # information, see how-it-works. # # @option params [Array] :sample_utterances # An array of utterances (strings) that a user might say to signal the # intent. For example, "I want \\\{PizzaSize\\} pizza", "Order # \\\{Quantity\\} \\\{PizzaSize\\} pizzas". # # In each utterance, a slot name is enclosed in curly braces. # # @option params [Types::Prompt] :confirmation_prompt # Prompts the user to confirm the intent. This question should have a # yes or no answer. # # Amazon Lex uses this prompt to ensure that the user acknowledges that # the intent is ready for fulfillment. For example, with the # `OrderPizza` intent, you might want to confirm that the order is # correct before placing it. For other intents, such as intents that # simply respond to user questions, you might not need to ask the user # for confirmation before providing the information. # # You you must provide both the `rejectionStatement` and the # `confirmationPrompt`, or neither. # # # # @option params [Types::Statement] :rejection_statement # When the user answers "no" to the question defined in # `confirmationPrompt`, Amazon Lex responds with this statement to # acknowledge that the intent was canceled. # # You must provide both the `rejectionStatement` and the # `confirmationPrompt`, or neither. # # # # @option params [Types::FollowUpPrompt] :follow_up_prompt # Amazon Lex uses this prompt to solicit additional activity after # fulfilling an intent. For example, after the `OrderPizza` intent is # fulfilled, you might prompt the user to order a drink. # # The action that Amazon Lex takes depends on the user's response, as # follows: # # * If the user says "Yes" it responds with the clarification prompt # that is configured for the bot. # # * if the user says "Yes" and continues with an utterance that # triggers an intent it starts a conversation for the intent. # # * If the user says "No" it responds with the rejection statement # configured for the the follow-up prompt. # # * If it doesn't recognize the utterance it repeats the follow-up # prompt again. # # The `followUpPrompt` field and the `conclusionStatement` field are # mutually exclusive. You can specify only one. # # @option params [Types::Statement] :conclusion_statement # The statement that you want Amazon Lex to convey to the user after the # intent is successfully fulfilled by the Lambda function. # # This element is relevant only if you provide a Lambda function in the # `fulfillmentActivity`. If you return the intent to the client # application, you can't specify this element. # # The `followUpPrompt` and `conclusionStatement` are mutually exclusive. # You can specify only one. # # # # @option params [Types::CodeHook] :dialog_code_hook # Specifies a Lambda function to invoke for each user input. You can # invoke this Lambda function to personalize user interaction. # # For example, suppose your bot determines that the user is John. Your # Lambda function might retrieve John's information from a backend # database and prepopulate some of the values. For example, if you find # that John is gluten intolerant, you might set the corresponding intent # slot, `GlutenIntolerant`, to true. You might find John's phone number # and set the corresponding session attribute. # # @option params [Types::FulfillmentActivity] :fulfillment_activity # Required. Describes how the intent is fulfilled. For example, after a # user provides all of the information for a pizza order, # `fulfillmentActivity` defines how the bot places an order with a local # pizza store. # # You might configure Amazon Lex to return all of the intent information # to the client application, or direct it to invoke a Lambda function # that can process the intent (for example, place an order with a # pizzeria). # # @option params [String] :parent_intent_signature # A unique identifier for the built-in intent to base this intent on. To # find the signature for an intent, see [Standard Built-in Intents][1] # in the *Alexa Skills Kit*. # # # # [1]: https://developer.amazon.com/public/solutions/alexa/alexa-skills-kit/docs/built-in-intent-ref/standard-intents # # @option params [String] :checksum # Identifies a specific revision of the `$LATEST` version. # # When you create a new intent, leave the `checksum` field blank. If you # specify a checksum you get a `BadRequestException` exception. # # When you want to update a intent, set the `checksum` field to the # checksum of the most recent revision of the `$LATEST` version. If you # don't specify the ` checksum` field, or if the checksum does not # match the `$LATEST` version, you get a `PreconditionFailedException` # exception. # # @option params [Boolean] :create_version # When set to `true` a new numbered version of the intent is created. # This is the same as calling the `CreateIntentVersion` operation. If # you do not specify `createVersion`, the default is `false`. # # @option params [Types::KendraConfiguration] :kendra_configuration # Configuration information required to use the # `AMAZON.KendraSearchIntent` intent to connect to an Amazon Kendra # index. For more information, see [ AMAZON.KendraSearchIntent][1]. # # # # [1]: http://docs.aws.amazon.com/lex/latest/dg/built-in-intent-kendra-search.html # # @option params [Array] :input_contexts # An array of `InputContext` objects that lists the contexts that must # be active for Amazon Lex to choose the intent in a conversation with # the user. # # @option params [Array] :output_contexts # An array of `OutputContext` objects that lists the contexts that the # intent activates when the intent is fulfilled. # # @return [Types::PutIntentResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::PutIntentResponse#name #name} => String # * {Types::PutIntentResponse#description #description} => String # * {Types::PutIntentResponse#slots #slots} => Array<Types::Slot> # * {Types::PutIntentResponse#sample_utterances #sample_utterances} => Array<String> # * {Types::PutIntentResponse#confirmation_prompt #confirmation_prompt} => Types::Prompt # * {Types::PutIntentResponse#rejection_statement #rejection_statement} => Types::Statement # * {Types::PutIntentResponse#follow_up_prompt #follow_up_prompt} => Types::FollowUpPrompt # * {Types::PutIntentResponse#conclusion_statement #conclusion_statement} => Types::Statement # * {Types::PutIntentResponse#dialog_code_hook #dialog_code_hook} => Types::CodeHook # * {Types::PutIntentResponse#fulfillment_activity #fulfillment_activity} => Types::FulfillmentActivity # * {Types::PutIntentResponse#parent_intent_signature #parent_intent_signature} => String # * {Types::PutIntentResponse#last_updated_date #last_updated_date} => Time # * {Types::PutIntentResponse#created_date #created_date} => Time # * {Types::PutIntentResponse#version #version} => String # * {Types::PutIntentResponse#checksum #checksum} => String # * {Types::PutIntentResponse#create_version #create_version} => Boolean # * {Types::PutIntentResponse#kendra_configuration #kendra_configuration} => Types::KendraConfiguration # * {Types::PutIntentResponse#input_contexts #input_contexts} => Array<Types::InputContext> # * {Types::PutIntentResponse#output_contexts #output_contexts} => Array<Types::OutputContext> # # # @example Example: To create an intent # # # This example shows how to create an intent for ordering pizzas. # # resp = client.put_intent({ # name: "DocOrderPizza", # conclusion_statement: { # messages: [ # { # content: "All right, I ordered you a {Crust} crust {Type} pizza with {Sauce} sauce.", # content_type: "PlainText", # }, # { # content: "OK, your {Crust} crust {Type} pizza with {Sauce} sauce is on the way.", # content_type: "PlainText", # }, # ], # response_card: "foo", # }, # confirmation_prompt: { # max_attempts: 1, # messages: [ # { # content: "Should I order your {Crust} crust {Type} pizza with {Sauce} sauce?", # content_type: "PlainText", # }, # ], # }, # description: "Order a pizza from a local pizzeria.", # fulfillment_activity: { # type: "ReturnIntent", # }, # rejection_statement: { # messages: [ # { # content: "Ok, I'll cancel your order.", # content_type: "PlainText", # }, # { # content: "I cancelled your order.", # content_type: "PlainText", # }, # ], # }, # sample_utterances: [ # "Order me a pizza.", # "Order me a {Type} pizza.", # "I want a {Crust} crust {Type} pizza", # "I want a {Crust} crust {Type} pizza with {Sauce} sauce.", # ], # slots: [ # { # name: "Type", # description: "The type of pizza to order.", # priority: 1, # sample_utterances: [ # "Get me a {Type} pizza.", # "A {Type} pizza please.", # "I'd like a {Type} pizza.", # ], # slot_constraint: "Required", # slot_type: "DocPizzaType", # slot_type_version: "$LATEST", # value_elicitation_prompt: { # max_attempts: 1, # messages: [ # { # content: "What type of pizza would you like?", # content_type: "PlainText", # }, # { # content: "Vegie or cheese pizza?", # content_type: "PlainText", # }, # { # content: "I can get you a vegie or a cheese pizza.", # content_type: "PlainText", # }, # ], # }, # }, # { # name: "Crust", # description: "The type of pizza crust to order.", # priority: 2, # sample_utterances: [ # "Make it a {Crust} crust.", # "I'd like a {Crust} crust.", # ], # slot_constraint: "Required", # slot_type: "DocPizzaCrustType", # slot_type_version: "$LATEST", # value_elicitation_prompt: { # max_attempts: 1, # messages: [ # { # content: "What type of crust would you like?", # content_type: "PlainText", # }, # { # content: "Thick or thin crust?", # content_type: "PlainText", # }, # ], # }, # }, # { # name: "Sauce", # description: "The type of sauce to use on the pizza.", # priority: 3, # sample_utterances: [ # "Make it {Sauce} sauce.", # "I'd like {Sauce} sauce.", # ], # slot_constraint: "Required", # slot_type: "DocPizzaSauceType", # slot_type_version: "$LATEST", # value_elicitation_prompt: { # max_attempts: 1, # messages: [ # { # content: "White or red sauce?", # content_type: "PlainText", # }, # { # content: "Garlic or tomato sauce?", # content_type: "PlainText", # }, # ], # }, # }, # ], # }) # # resp.to_h outputs the following: # { # version: "$LATEST", # name: "DocOrderPizza", # checksum: "ca9bc13d-afc8-4706-bbaf-091f7a5935d6", # conclusion_statement: { # messages: [ # { # content: "All right, I ordered you a {Crust} crust {Type} pizza with {Sauce} sauce.", # content_type: "PlainText", # }, # { # content: "OK, your {Crust} crust {Type} pizza with {Sauce} sauce is on the way.", # content_type: "PlainText", # }, # ], # response_card: "foo", # }, # confirmation_prompt: { # max_attempts: 1, # messages: [ # { # content: "Should I order your {Crust} crust {Type} pizza with {Sauce} sauce?", # content_type: "PlainText", # }, # ], # }, # created_date: Time.parse(1494359783.453), # description: "Order a pizza from a local pizzeria.", # fulfillment_activity: { # type: "ReturnIntent", # }, # last_updated_date: Time.parse(1494359783.453), # rejection_statement: { # messages: [ # { # content: "Ok, I'll cancel your order.", # content_type: "PlainText", # }, # { # content: "I cancelled your order.", # content_type: "PlainText", # }, # ], # }, # sample_utterances: [ # "Order me a pizza.", # "Order me a {Type} pizza.", # "I want a {Crust} crust {Type} pizza", # "I want a {Crust} crust {Type} pizza with {Sauce} sauce.", # ], # slots: [ # { # name: "Sauce", # description: "The type of sauce to use on the pizza.", # priority: 3, # sample_utterances: [ # "Make it {Sauce} sauce.", # "I'd like {Sauce} sauce.", # ], # slot_constraint: "Required", # slot_type: "DocPizzaSauceType", # slot_type_version: "$LATEST", # value_elicitation_prompt: { # max_attempts: 1, # messages: [ # { # content: "White or red sauce?", # content_type: "PlainText", # }, # { # content: "Garlic or tomato sauce?", # content_type: "PlainText", # }, # ], # }, # }, # { # name: "Type", # description: "The type of pizza to order.", # priority: 1, # sample_utterances: [ # "Get me a {Type} pizza.", # "A {Type} pizza please.", # "I'd like a {Type} pizza.", # ], # slot_constraint: "Required", # slot_type: "DocPizzaType", # slot_type_version: "$LATEST", # value_elicitation_prompt: { # max_attempts: 1, # messages: [ # { # content: "What type of pizza would you like?", # content_type: "PlainText", # }, # { # content: "Vegie or cheese pizza?", # content_type: "PlainText", # }, # { # content: "I can get you a vegie or a cheese pizza.", # content_type: "PlainText", # }, # ], # }, # }, # { # name: "Crust", # description: "The type of pizza crust to order.", # priority: 2, # sample_utterances: [ # "Make it a {Crust} crust.", # "I'd like a {Crust} crust.", # ], # slot_constraint: "Required", # slot_type: "DocPizzaCrustType", # slot_type_version: "$LATEST", # value_elicitation_prompt: { # max_attempts: 1, # messages: [ # { # content: "What type of crust would you like?", # content_type: "PlainText", # }, # { # content: "Thick or thin crust?", # content_type: "PlainText", # }, # ], # }, # }, # ], # } # # @example Request syntax with placeholder values # # resp = client.put_intent({ # name: "IntentName", # required # description: "Description", # slots: [ # { # name: "SlotName", # required # description: "Description", # slot_constraint: "Required", # required, accepts Required, Optional # slot_type: "CustomOrBuiltinSlotTypeName", # slot_type_version: "Version", # value_elicitation_prompt: { # messages: [ # required # { # content_type: "PlainText", # required, accepts PlainText, SSML, CustomPayload # content: "ContentString", # required # group_number: 1, # }, # ], # max_attempts: 1, # required # response_card: "ResponseCard", # }, # priority: 1, # sample_utterances: ["Utterance"], # response_card: "ResponseCard", # obfuscation_setting: "NONE", # accepts NONE, DEFAULT_OBFUSCATION # default_value_spec: { # default_value_list: [ # required # { # default_value: "SlotDefaultValueString", # required # }, # ], # }, # }, # ], # sample_utterances: ["Utterance"], # confirmation_prompt: { # messages: [ # required # { # content_type: "PlainText", # required, accepts PlainText, SSML, CustomPayload # content: "ContentString", # required # group_number: 1, # }, # ], # max_attempts: 1, # required # response_card: "ResponseCard", # }, # rejection_statement: { # messages: [ # required # { # content_type: "PlainText", # required, accepts PlainText, SSML, CustomPayload # content: "ContentString", # required # group_number: 1, # }, # ], # response_card: "ResponseCard", # }, # follow_up_prompt: { # prompt: { # required # messages: [ # required # { # content_type: "PlainText", # required, accepts PlainText, SSML, CustomPayload # content: "ContentString", # required # group_number: 1, # }, # ], # max_attempts: 1, # required # response_card: "ResponseCard", # }, # rejection_statement: { # required # messages: [ # required # { # content_type: "PlainText", # required, accepts PlainText, SSML, CustomPayload # content: "ContentString", # required # group_number: 1, # }, # ], # response_card: "ResponseCard", # }, # }, # conclusion_statement: { # messages: [ # required # { # content_type: "PlainText", # required, accepts PlainText, SSML, CustomPayload # content: "ContentString", # required # group_number: 1, # }, # ], # response_card: "ResponseCard", # }, # dialog_code_hook: { # uri: "LambdaARN", # required # message_version: "MessageVersion", # required # }, # fulfillment_activity: { # type: "ReturnIntent", # required, accepts ReturnIntent, CodeHook # code_hook: { # uri: "LambdaARN", # required # message_version: "MessageVersion", # required # }, # }, # parent_intent_signature: "BuiltinIntentSignature", # checksum: "String", # create_version: false, # kendra_configuration: { # kendra_index: "KendraIndexArn", # required # query_filter_string: "QueryFilterString", # role: "roleArn", # required # }, # input_contexts: [ # { # name: "InputContextName", # required # }, # ], # output_contexts: [ # { # name: "OutputContextName", # required # time_to_live_in_seconds: 1, # required # turns_to_live: 1, # required # }, # ], # }) # # @example Response structure # # resp.name #=> String # resp.description #=> String # resp.slots #=> Array # resp.slots[0].name #=> String # resp.slots[0].description #=> String # resp.slots[0].slot_constraint #=> String, one of "Required", "Optional" # resp.slots[0].slot_type #=> String # resp.slots[0].slot_type_version #=> String # resp.slots[0].value_elicitation_prompt.messages #=> Array # resp.slots[0].value_elicitation_prompt.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.slots[0].value_elicitation_prompt.messages[0].content #=> String # resp.slots[0].value_elicitation_prompt.messages[0].group_number #=> Integer # resp.slots[0].value_elicitation_prompt.max_attempts #=> Integer # resp.slots[0].value_elicitation_prompt.response_card #=> String # resp.slots[0].priority #=> Integer # resp.slots[0].sample_utterances #=> Array # resp.slots[0].sample_utterances[0] #=> String # resp.slots[0].response_card #=> String # resp.slots[0].obfuscation_setting #=> String, one of "NONE", "DEFAULT_OBFUSCATION" # resp.slots[0].default_value_spec.default_value_list #=> Array # resp.slots[0].default_value_spec.default_value_list[0].default_value #=> String # resp.sample_utterances #=> Array # resp.sample_utterances[0] #=> String # resp.confirmation_prompt.messages #=> Array # resp.confirmation_prompt.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.confirmation_prompt.messages[0].content #=> String # resp.confirmation_prompt.messages[0].group_number #=> Integer # resp.confirmation_prompt.max_attempts #=> Integer # resp.confirmation_prompt.response_card #=> String # resp.rejection_statement.messages #=> Array # resp.rejection_statement.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.rejection_statement.messages[0].content #=> String # resp.rejection_statement.messages[0].group_number #=> Integer # resp.rejection_statement.response_card #=> String # resp.follow_up_prompt.prompt.messages #=> Array # resp.follow_up_prompt.prompt.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.follow_up_prompt.prompt.messages[0].content #=> String # resp.follow_up_prompt.prompt.messages[0].group_number #=> Integer # resp.follow_up_prompt.prompt.max_attempts #=> Integer # resp.follow_up_prompt.prompt.response_card #=> String # resp.follow_up_prompt.rejection_statement.messages #=> Array # resp.follow_up_prompt.rejection_statement.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.follow_up_prompt.rejection_statement.messages[0].content #=> String # resp.follow_up_prompt.rejection_statement.messages[0].group_number #=> Integer # resp.follow_up_prompt.rejection_statement.response_card #=> String # resp.conclusion_statement.messages #=> Array # resp.conclusion_statement.messages[0].content_type #=> String, one of "PlainText", "SSML", "CustomPayload" # resp.conclusion_statement.messages[0].content #=> String # resp.conclusion_statement.messages[0].group_number #=> Integer # resp.conclusion_statement.response_card #=> String # resp.dialog_code_hook.uri #=> String # resp.dialog_code_hook.message_version #=> String # resp.fulfillment_activity.type #=> String, one of "ReturnIntent", "CodeHook" # resp.fulfillment_activity.code_hook.uri #=> String # resp.fulfillment_activity.code_hook.message_version #=> String # resp.parent_intent_signature #=> String # resp.last_updated_date #=> Time # resp.created_date #=> Time # resp.version #=> String # resp.checksum #=> String # resp.create_version #=> Boolean # resp.kendra_configuration.kendra_index #=> String # resp.kendra_configuration.query_filter_string #=> String # resp.kendra_configuration.role #=> String # resp.input_contexts #=> Array # resp.input_contexts[0].name #=> String # resp.output_contexts #=> Array # resp.output_contexts[0].name #=> String # resp.output_contexts[0].time_to_live_in_seconds #=> Integer # resp.output_contexts[0].turns_to_live #=> Integer # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/PutIntent AWS API Documentation # # @overload put_intent(params = {}) # @param [Hash] params ({}) def put_intent(params = {}, options = {}) req = build_request(:put_intent, params) req.send_request(options) end # Creates a custom slot type or replaces an existing custom slot type. # # To create a custom slot type, specify a name for the slot type and a # set of enumeration values, which are the values that a slot of this # type can assume. For more information, see how-it-works. # # If you specify the name of an existing slot type, the fields in the # request replace the existing values in the `$LATEST` version of the # slot type. Amazon Lex removes the fields that you don't provide in # the request. If you don't specify required fields, Amazon Lex throws # an exception. When you update the `$LATEST` version of a slot type, if # a bot uses the `$LATEST` version of an intent that contains the slot # type, the bot's `status` field is set to `NOT_BUILT`. # # This operation requires permissions for the `lex:PutSlotType` action. # # @option params [required, String] :name # The name of the slot type. The name is *not* case sensitive. # # The name can't match a built-in slot type name, or a built-in slot # type name with "AMAZON." removed. For example, because there is a # built-in slot type called `AMAZON.DATE`, you can't create a custom # slot type called `DATE`. # # For a list of built-in slot types, see [Slot Type Reference][1] in the # *Alexa Skills Kit*. # # # # [1]: https://developer.amazon.com/public/solutions/alexa/alexa-skills-kit/docs/built-in-intent-ref/slot-type-reference # # @option params [String] :description # A description of the slot type. # # @option params [Array] :enumeration_values # A list of `EnumerationValue` objects that defines the values that the # slot type can take. Each value can have a list of `synonyms`, which # are additional values that help train the machine learning model about # the values that it resolves for a slot. # # A regular expression slot type doesn't require enumeration values. # All other slot types require a list of enumeration values. # # When Amazon Lex resolves a slot value, it generates a resolution list # that contains up to five possible values for the slot. If you are # using a Lambda function, this resolution list is passed to the # function. If you are not using a Lambda function you can choose to # return the value that the user entered or the first value in the # resolution list as the slot value. The `valueSelectionStrategy` field # indicates the option to use. # # @option params [String] :checksum # Identifies a specific revision of the `$LATEST` version. # # When you create a new slot type, leave the `checksum` field blank. If # you specify a checksum you get a `BadRequestException` exception. # # When you want to update a slot type, set the `checksum` field to the # checksum of the most recent revision of the `$LATEST` version. If you # don't specify the ` checksum` field, or if the checksum does not # match the `$LATEST` version, you get a `PreconditionFailedException` # exception. # # @option params [String] :value_selection_strategy # Determines the slot resolution strategy that Amazon Lex uses to return # slot type values. The field can be set to one of the following values: # # * `ORIGINAL_VALUE` - Returns the value entered by the user, if the # user value is similar to the slot value. # # * `TOP_RESOLUTION` - If there is a resolution list for the slot, # return the first value in the resolution list as the slot type # value. If there is no resolution list, null is returned. # # If you don't specify the `valueSelectionStrategy`, the default is # `ORIGINAL_VALUE`. # # @option params [Boolean] :create_version # When set to `true` a new numbered version of the slot type is created. # This is the same as calling the `CreateSlotTypeVersion` operation. If # you do not specify `createVersion`, the default is `false`. # # @option params [String] :parent_slot_type_signature # The built-in slot type used as the parent of the slot type. When you # define a parent slot type, the new slot type has all of the same # configuration as the parent. # # Only `AMAZON.AlphaNumeric` is supported. # # @option params [Array] :slot_type_configurations # Configuration information that extends the parent built-in slot type. # The configuration is added to the settings for the parent slot type. # # @return [Types::PutSlotTypeResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::PutSlotTypeResponse#name #name} => String # * {Types::PutSlotTypeResponse#description #description} => String # * {Types::PutSlotTypeResponse#enumeration_values #enumeration_values} => Array<Types::EnumerationValue> # * {Types::PutSlotTypeResponse#last_updated_date #last_updated_date} => Time # * {Types::PutSlotTypeResponse#created_date #created_date} => Time # * {Types::PutSlotTypeResponse#version #version} => String # * {Types::PutSlotTypeResponse#checksum #checksum} => String # * {Types::PutSlotTypeResponse#value_selection_strategy #value_selection_strategy} => String # * {Types::PutSlotTypeResponse#create_version #create_version} => Boolean # * {Types::PutSlotTypeResponse#parent_slot_type_signature #parent_slot_type_signature} => String # * {Types::PutSlotTypeResponse#slot_type_configurations #slot_type_configurations} => Array<Types::SlotTypeConfiguration> # # # @example Example: To Create a Slot Type # # # This example shows how to create a slot type that describes pizza sauces. # # resp = client.put_slot_type({ # name: "PizzaSauceType", # description: "Available pizza sauces", # enumeration_values: [ # { # value: "red", # }, # { # value: "white", # }, # ], # }) # # resp.to_h outputs the following: # { # version: "$LATEST", # name: "DocPizzaSauceType", # checksum: "cfd00ed1-775d-4357-947c-aca7e73b44ba", # created_date: Time.parse(1494356442.23), # description: "Available pizza sauces", # enumeration_values: [ # { # value: "red", # }, # { # value: "white", # }, # ], # last_updated_date: Time.parse(1494356442.23), # } # # @example Request syntax with placeholder values # # resp = client.put_slot_type({ # name: "SlotTypeName", # required # description: "Description", # enumeration_values: [ # { # value: "Value", # required # synonyms: ["Value"], # }, # ], # checksum: "String", # value_selection_strategy: "ORIGINAL_VALUE", # accepts ORIGINAL_VALUE, TOP_RESOLUTION # create_version: false, # parent_slot_type_signature: "CustomOrBuiltinSlotTypeName", # slot_type_configurations: [ # { # regex_configuration: { # pattern: "RegexPattern", # required # }, # }, # ], # }) # # @example Response structure # # resp.name #=> String # resp.description #=> String # resp.enumeration_values #=> Array # resp.enumeration_values[0].value #=> String # resp.enumeration_values[0].synonyms #=> Array # resp.enumeration_values[0].synonyms[0] #=> String # resp.last_updated_date #=> Time # resp.created_date #=> Time # resp.version #=> String # resp.checksum #=> String # resp.value_selection_strategy #=> String, one of "ORIGINAL_VALUE", "TOP_RESOLUTION" # resp.create_version #=> Boolean # resp.parent_slot_type_signature #=> String # resp.slot_type_configurations #=> Array # resp.slot_type_configurations[0].regex_configuration.pattern #=> String # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/PutSlotType AWS API Documentation # # @overload put_slot_type(params = {}) # @param [Hash] params ({}) def put_slot_type(params = {}, options = {}) req = build_request(:put_slot_type, params) req.send_request(options) end # Starts a job to import a resource to Amazon Lex. # # @option params [required, String, StringIO, File] :payload # A zip archive in binary format. The archive should contain one file, a # JSON file containing the resource to import. The resource should match # the type specified in the `resourceType` field. # # @option params [required, String] :resource_type # Specifies the type of resource to export. Each resource also exports # any resources that it depends on. # # * A bot exports dependent intents. # # * An intent exports dependent slot types. # # @option params [required, String] :merge_strategy # Specifies the action that the `StartImport` operation should take when # there is an existing resource with the same name. # # * FAIL\_ON\_CONFLICT - The import operation is stopped on the first # conflict between a resource in the import file and an existing # resource. The name of the resource causing the conflict is in the # `failureReason` field of the response to the `GetImport` operation. # # OVERWRITE\_LATEST - The import operation proceeds even if there is a # conflict with an existing resource. The $LASTEST version of the # existing resource is overwritten with the data from the import file. # # @option params [Array] :tags # A list of tags to add to the imported bot. You can only add tags when # you import a bot, you can't add tags to an intent or slot type. # # @return [Types::StartImportResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::StartImportResponse#name #name} => String # * {Types::StartImportResponse#resource_type #resource_type} => String # * {Types::StartImportResponse#merge_strategy #merge_strategy} => String # * {Types::StartImportResponse#import_id #import_id} => String # * {Types::StartImportResponse#import_status #import_status} => String # * {Types::StartImportResponse#tags #tags} => Array<Types::Tag> # * {Types::StartImportResponse#created_date #created_date} => Time # # @example Request syntax with placeholder values # # resp = client.start_import({ # payload: "data", # required # resource_type: "BOT", # required, accepts BOT, INTENT, SLOT_TYPE # merge_strategy: "OVERWRITE_LATEST", # required, accepts OVERWRITE_LATEST, FAIL_ON_CONFLICT # tags: [ # { # key: "TagKey", # required # value: "TagValue", # required # }, # ], # }) # # @example Response structure # # resp.name #=> String # resp.resource_type #=> String, one of "BOT", "INTENT", "SLOT_TYPE" # resp.merge_strategy #=> String, one of "OVERWRITE_LATEST", "FAIL_ON_CONFLICT" # resp.import_id #=> String # resp.import_status #=> String, one of "IN_PROGRESS", "COMPLETE", "FAILED" # resp.tags #=> Array # resp.tags[0].key #=> String # resp.tags[0].value #=> String # resp.created_date #=> Time # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/StartImport AWS API Documentation # # @overload start_import(params = {}) # @param [Hash] params ({}) def start_import(params = {}, options = {}) req = build_request(:start_import, params) req.send_request(options) end # Starts migrating a bot from Amazon Lex V1 to Amazon Lex V2. Migrate # your bot when you want to take advantage of the new features of Amazon # Lex V2. # # For more information, see [Migrating a bot][1] in the *Amazon Lex # developer guide*. # # # # [1]: https://docs.aws.amazon.com/lex/latest/dg/migrate.html # # @option params [required, String] :v1_bot_name # The name of the Amazon Lex V1 bot that you are migrating to Amazon Lex # V2. # # @option params [required, String] :v1_bot_version # The version of the bot to migrate to Amazon Lex V2. You can migrate # the `$LATEST` version as well as any numbered version. # # @option params [required, String] :v2_bot_name # The name of the Amazon Lex V2 bot that you are migrating the Amazon # Lex V1 bot to. # # * If the Amazon Lex V2 bot doesn't exist, you must use the # `CREATE_NEW` migration strategy. # # * If the Amazon Lex V2 bot exists, you must use the `UPDATE_EXISTING` # migration strategy to change the contents of the Amazon Lex V2 bot. # # @option params [required, String] :v2_bot_role # The IAM role that Amazon Lex uses to run the Amazon Lex V2 bot. # # @option params [required, String] :migration_strategy # The strategy used to conduct the migration. # # * `CREATE_NEW` - Creates a new Amazon Lex V2 bot and migrates the # Amazon Lex V1 bot to the new bot. # # * `UPDATE_EXISTING` - Overwrites the existing Amazon Lex V2 bot # metadata and the locale being migrated. It doesn't change any other # locales in the Amazon Lex V2 bot. If the locale doesn't exist, a # new locale is created in the Amazon Lex V2 bot. # # @return [Types::StartMigrationResponse] Returns a {Seahorse::Client::Response response} object which responds to the following methods: # # * {Types::StartMigrationResponse#v1_bot_name #v1_bot_name} => String # * {Types::StartMigrationResponse#v1_bot_version #v1_bot_version} => String # * {Types::StartMigrationResponse#v1_bot_locale #v1_bot_locale} => String # * {Types::StartMigrationResponse#v2_bot_id #v2_bot_id} => String # * {Types::StartMigrationResponse#v2_bot_role #v2_bot_role} => String # * {Types::StartMigrationResponse#migration_id #migration_id} => String # * {Types::StartMigrationResponse#migration_strategy #migration_strategy} => String # * {Types::StartMigrationResponse#migration_timestamp #migration_timestamp} => Time # # @example Request syntax with placeholder values # # resp = client.start_migration({ # v1_bot_name: "BotName", # required # v1_bot_version: "Version", # required # v2_bot_name: "V2BotName", # required # v2_bot_role: "IamRoleArn", # required # migration_strategy: "CREATE_NEW", # required, accepts CREATE_NEW, UPDATE_EXISTING # }) # # @example Response structure # # resp.v1_bot_name #=> String # resp.v1_bot_version #=> String # resp.v1_bot_locale #=> String, one of "de-DE", "en-AU", "en-GB", "en-IN", "en-US", "es-419", "es-ES", "es-US", "fr-FR", "fr-CA", "it-IT", "ja-JP" # resp.v2_bot_id #=> String # resp.v2_bot_role #=> String # resp.migration_id #=> String # resp.migration_strategy #=> String, one of "CREATE_NEW", "UPDATE_EXISTING" # resp.migration_timestamp #=> Time # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/StartMigration AWS API Documentation # # @overload start_migration(params = {}) # @param [Hash] params ({}) def start_migration(params = {}, options = {}) req = build_request(:start_migration, params) req.send_request(options) end # Adds the specified tags to the specified resource. If a tag key # already exists, the existing value is replaced with the new value. # # @option params [required, String] :resource_arn # The Amazon Resource Name (ARN) of the bot, bot alias, or bot channel # to tag. # # @option params [required, Array] :tags # A list of tag keys to add to the resource. If a tag key already # exists, the existing value is replaced with the new value. # # @return [Struct] Returns an empty {Seahorse::Client::Response response}. # # @example Request syntax with placeholder values # # resp = client.tag_resource({ # resource_arn: "AmazonResourceName", # required # tags: [ # required # { # key: "TagKey", # required # value: "TagValue", # required # }, # ], # }) # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/TagResource AWS API Documentation # # @overload tag_resource(params = {}) # @param [Hash] params ({}) def tag_resource(params = {}, options = {}) req = build_request(:tag_resource, params) req.send_request(options) end # Removes tags from a bot, bot alias or bot channel. # # @option params [required, String] :resource_arn # The Amazon Resource Name (ARN) of the resource to remove the tags # from. # # @option params [required, Array] :tag_keys # A list of tag keys to remove from the resource. If a tag key does not # exist on the resource, it is ignored. # # @return [Struct] Returns an empty {Seahorse::Client::Response response}. # # @example Request syntax with placeholder values # # resp = client.untag_resource({ # resource_arn: "AmazonResourceName", # required # tag_keys: ["TagKey"], # required # }) # # @see http://docs.aws.amazon.com/goto/WebAPI/lex-models-2017-04-19/UntagResource AWS API Documentation # # @overload untag_resource(params = {}) # @param [Hash] params ({}) def untag_resource(params = {}, options = {}) req = build_request(:untag_resource, params) req.send_request(options) end # @!endgroup # @param params ({}) # @api private def build_request(operation_name, params = {}) handlers = @handlers.for(operation_name) context = Seahorse::Client::RequestContext.new( operation_name: operation_name, operation: config.api.operation(operation_name), client: self, params: params, config: config) context[:gem_name] = 'aws-sdk-lexmodelbuildingservice' context[:gem_version] = '1.49.0' Seahorse::Client::Request.new(handlers, context) end # @api private # @deprecated def waiter_names [] end class << self # @api private attr_reader :identifier # @api private def errors_module Errors end end end end