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Class: Aws::LexRuntimeV2::Client

Inherits:
Seahorse::Client::Base show all
Includes:
ClientStubs
Defined in:
gems/aws-sdk-lexruntimev2/lib/aws-sdk-lexruntimev2/client.rb

Overview

An API client for LexRuntimeV2. To construct a client, you need to configure a :region and :credentials.

client = Aws::LexRuntimeV2::Client.new(
  region: region_name,
  credentials: credentials,
  # ...
)

For details on configuring region and credentials see the developer guide.

See #initialize for a full list of supported configuration options.

Instance Attribute Summary

Attributes inherited from Seahorse::Client::Base

#config, #handlers

API Operations collapse

Instance Method Summary collapse

Methods included from ClientStubs

#api_requests, #stub_data, #stub_responses

Methods inherited from Seahorse::Client::Base

add_plugin, api, clear_plugins, define, new, #operation_names, plugins, remove_plugin, set_api, set_plugins

Methods included from Seahorse::Client::HandlerBuilder

#handle, #handle_request, #handle_response

Constructor Details

#initialize(options) ⇒ Client

Returns a new instance of Client.

Parameters:

  • options (Hash)

Options Hash (options):

  • :credentials (required, Aws::CredentialProvider)

    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.
  • :region (required, String)

    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
  • :access_key_id (String)
  • :active_endpoint_cache (Boolean) — default: false

    When set to true, a thread polling for endpoints will be running in the background every 60 secs (default). Defaults to false.

  • :adaptive_retry_wait_to_fill (Boolean) — default: 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.

  • :client_side_monitoring (Boolean) — default: false

    When true, client-side metrics will be collected for all API requests from this client.

  • :client_side_monitoring_client_id (String) — default: ""

    Allows you to provide an identifier for this client which will be attached to all generated client side metrics. Defaults to an empty string.

  • :client_side_monitoring_host (String) — default: "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.

  • :client_side_monitoring_port (Integer) — default: 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.

  • :client_side_monitoring_publisher (Aws::ClientSideMonitoring::Publisher) — default: Aws::ClientSideMonitoring::Publisher

    Allows you to provide a custom client-side monitoring publisher class. By default, will use the Client Side Monitoring Agent Publisher.

  • :convert_params (Boolean) — default: true

    When true, an attempt is made to coerce request parameters into the required types.

  • :correct_clock_skew (Boolean) — default: true

    Used only in standard and adaptive retry modes. Specifies whether to apply a clock skew correction and retry requests with skewed client clocks.

  • :disable_host_prefix_injection (Boolean) — default: false

    Set to true to disable SDK automatically adding host prefix to default service endpoint when available.

  • :endpoint (String)

    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.

  • :endpoint_cache_max_entries (Integer) — default: 1000

    Used for the maximum size limit of the LRU cache storing endpoints data for endpoint discovery enabled operations. Defaults to 1000.

  • :endpoint_cache_max_threads (Integer) — default: 10

    Used for the maximum threads in use for polling endpoints to be cached, defaults to 10.

  • :endpoint_cache_poll_interval (Integer) — default: 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.

  • :endpoint_discovery (Boolean) — default: false

    When set to true, endpoint discovery will be enabled for operations when available.

  • :event_stream_handler (Proc)

    When an EventStream or Proc object is provided, it will be used as callback for each chunk of event stream response received along the way.

  • :input_event_stream_handler (Proc)

    When an EventStream or Proc object is provided, it can be used for sending events for the event stream.

  • :log_formatter (Aws::Log::Formatter) — default: Aws::Log::Formatter.default

    The log formatter.

  • :log_level (Symbol) — default: :info

    The log level to send messages to the :logger at.

  • :logger (Logger)

    The Logger instance to send log messages to. If this option is not set, logging will be disabled.

  • :max_attempts (Integer) — default: 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.

  • :output_event_stream_handler (Proc)

    When an EventStream or Proc object is provided, it will be used as callback for each chunk of event stream response received along the way.

  • :profile (String) — default: "default"

    Used when loading credentials from the shared credentials file at HOME/.aws/credentials. When not specified, 'default' is used.

  • :retry_backoff (Proc)

    A proc or lambda used for backoff. Defaults to 2**retries * retry_base_delay. This option is only used in the legacy retry mode.

  • :retry_base_delay (Float) — default: 0.3

    The base delay in seconds used by the default backoff function. This option is only used in the legacy retry mode.

  • :retry_jitter (Symbol) — default: :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

  • :retry_limit (Integer) — default: 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.

  • :retry_max_delay (Integer) — default: 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.

  • :retry_mode (String) — default: "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.

  • :secret_access_key (String)
  • :session_token (String)
  • :stub_responses (Boolean) — default: 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.

  • :validate_params (Boolean) — default: true

    When true, request parameters are validated before sending the request.

  • :http_proxy (URI::HTTP, String)

    A proxy to send requests through. Formatted like 'http://proxy.com:123'.

  • :http_open_timeout (Float) — default: 15

    The number of seconds to wait when opening a HTTP session before raising a Timeout::Error.

  • :http_read_timeout (Integer) — default: 60

    The default number of seconds to wait for response data. This value can safely be set per-request on the session.

  • :http_idle_timeout (Float) — default: 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.

  • :http_continue_timeout (Float) — default: 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.

  • :http_wire_trace (Boolean) — default: false

    When true, HTTP debug output will be sent to the :logger.

  • :ssl_verify_peer (Boolean) — default: true

    When true, SSL peer certificates are verified when establishing a connection.

  • :ssl_ca_bundle (String)

    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.

  • :ssl_ca_directory (String)

    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.



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# File 'gems/aws-sdk-lexruntimev2/lib/aws-sdk-lexruntimev2/client.rb', line 335

def initialize(*args)
  super
end

Instance Method Details

#delete_session(params = {}) ⇒ Types::DeleteSessionResponse

Removes session information for a specified bot, alias, and user ID.

You can use this operation to restart a conversation with a bot. When you remove a session, the entire history of the session is removed so that you can start again.

You don't need to delete a session. Sessions have a time limit and will expire. Set the session time limit when you create the bot. The default is 5 minutes, but you can specify anything between 1 minute and 24 hours.

If you specify a bot or alias ID that doesn't exist, you receive a BadRequestException.

If the locale doesn't exist in the bot, or if the locale hasn't been enables for the alias, you receive a BadRequestException.

Examples:

Request syntax with placeholder values


resp = client.delete_session({
  bot_id: "BotIdentifier", # required
  bot_alias_id: "BotAliasIdentifier", # required
  locale_id: "LocaleId", # required
  session_id: "SessionId", # required
})

Response structure


resp.bot_id #=> String
resp.bot_alias_id #=> String
resp.locale_id #=> String
resp.session_id #=> String

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :bot_id (required, String)

    The identifier of the bot that contains the session data.

  • :bot_alias_id (required, String)

    The alias identifier in use for the bot that contains the session data.

  • :locale_id (required, String)

    The locale where the session is in use.

  • :session_id (required, String)

    The identifier of the session to delete.

Returns:

See Also:



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# File 'gems/aws-sdk-lexruntimev2/lib/aws-sdk-lexruntimev2/client.rb', line 398

def delete_session(params = {}, options = {})
  req = build_request(:delete_session, params)
  req.send_request(options)
end

#get_session(params = {}) ⇒ Types::GetSessionResponse

Returns session information for a specified bot, alias, and user.

For example, you can use this operation to retrieve session information for a user that has left a long-running session in use.

If the bot, alias, or session identifier doesn't exist, Amazon Lex returns a BadRequestException. If the locale doesn't exist or is not enabled for the alias, you receive a BadRequestException.

Examples:

Request syntax with placeholder values


resp = client.get_session({
  bot_id: "BotIdentifier", # required
  bot_alias_id: "BotAliasIdentifier", # required
  locale_id: "LocaleId", # required
  session_id: "SessionId", # required
})

Response structure


resp.session_id #=> String
resp.messages #=> Array
resp.messages[0].content #=> String
resp.messages[0].content_type #=> String, one of "CustomPayload", "ImageResponseCard", "PlainText", "SSML"
resp.messages[0].image_response_card.title #=> String
resp.messages[0].image_response_card.subtitle #=> String
resp.messages[0].image_response_card.image_url #=> String
resp.messages[0].image_response_card.buttons #=> Array
resp.messages[0].image_response_card.buttons[0].text #=> String
resp.messages[0].image_response_card.buttons[0].value #=> String
resp.interpretations #=> Array
resp.interpretations[0].nlu_confidence.score #=> Float
resp.interpretations[0].sentiment_response.sentiment #=> String, one of "MIXED", "NEGATIVE", "NEUTRAL", "POSITIVE"
resp.interpretations[0].sentiment_response.sentiment_score.positive #=> Float
resp.interpretations[0].sentiment_response.sentiment_score.negative #=> Float
resp.interpretations[0].sentiment_response.sentiment_score.neutral #=> Float
resp.interpretations[0].sentiment_response.sentiment_score.mixed #=> Float
resp.interpretations[0].intent.name #=> String
resp.interpretations[0].intent.slots #=> Hash
resp.interpretations[0].intent.slots["NonEmptyString"].value.original_value #=> String
resp.interpretations[0].intent.slots["NonEmptyString"].value.interpreted_value #=> String
resp.interpretations[0].intent.slots["NonEmptyString"].value.resolved_values #=> Array
resp.interpretations[0].intent.slots["NonEmptyString"].value.resolved_values[0] #=> String
resp.interpretations[0].intent.state #=> String, one of "Failed", "Fulfilled", "InProgress", "ReadyForFulfillment", "Waiting"
resp.interpretations[0].intent.confirmation_state #=> String, one of "Confirmed", "Denied", "None"
resp.session_state.dialog_action.type #=> String, one of "Close", "ConfirmIntent", "Delegate", "ElicitIntent", "ElicitSlot"
resp.session_state.dialog_action.slot_to_elicit #=> String
resp.session_state.intent.name #=> String
resp.session_state.intent.slots #=> Hash
resp.session_state.intent.slots["NonEmptyString"].value.original_value #=> String
resp.session_state.intent.slots["NonEmptyString"].value.interpreted_value #=> String
resp.session_state.intent.slots["NonEmptyString"].value.resolved_values #=> Array
resp.session_state.intent.slots["NonEmptyString"].value.resolved_values[0] #=> String
resp.session_state.intent.state #=> String, one of "Failed", "Fulfilled", "InProgress", "ReadyForFulfillment", "Waiting"
resp.session_state.intent.confirmation_state #=> String, one of "Confirmed", "Denied", "None"
resp.session_state.active_contexts #=> Array
resp.session_state.active_contexts[0].name #=> String
resp.session_state.active_contexts[0].time_to_live.time_to_live_in_seconds #=> Integer
resp.session_state.active_contexts[0].time_to_live.turns_to_live #=> Integer
resp.session_state.active_contexts[0].context_attributes #=> Hash
resp.session_state.active_contexts[0].context_attributes["ParameterName"] #=> String
resp.session_state.session_attributes #=> Hash
resp.session_state.session_attributes["NonEmptyString"] #=> String
resp.session_state.originating_request_id #=> String

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :bot_id (required, String)

    The identifier of the bot that contains the session data.

  • :bot_alias_id (required, String)

    The alias identifier in use for the bot that contains the session data.

  • :locale_id (required, String)

    The locale where the session is in use.

  • :session_id (required, String)

    The identifier of the session to return.

Returns:

See Also:



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# File 'gems/aws-sdk-lexruntimev2/lib/aws-sdk-lexruntimev2/client.rb', line 492

def get_session(params = {}, options = {})
  req = build_request(:get_session, params)
  req.send_request(options)
end

#put_session(params = {}) ⇒ Types::PutSessionResponse

Creates a new session or modifies an existing session with an Amazon Lex bot. Use this operation to enable your application to set the state of the bot.

Examples:

Request syntax with placeholder values


resp = client.put_session({
  bot_id: "BotIdentifier", # required
  bot_alias_id: "BotAliasIdentifier", # required
  locale_id: "LocaleId", # required
  session_id: "SessionId", # required
  messages: [
    {
      content: "Text",
      content_type: "CustomPayload", # accepts CustomPayload, ImageResponseCard, PlainText, SSML
      image_response_card: {
        title: "AttachmentTitle", # required
        subtitle: "AttachmentTitle",
        image_url: "AttachmentUrl",
        buttons: [
          {
            text: "ButtonText", # required
            value: "ButtonValue", # required
          },
        ],
      },
    },
  ],
  session_state: { # required
    dialog_action: {
      type: "Close", # required, accepts Close, ConfirmIntent, Delegate, ElicitIntent, ElicitSlot
      slot_to_elicit: "NonEmptyString",
    },
    intent: {
      name: "NonEmptyString", # required
      slots: {
        "NonEmptyString" => {
          value: {
            original_value: "NonEmptyString",
            interpreted_value: "NonEmptyString", # required
            resolved_values: ["NonEmptyString"],
          },
        },
      },
      state: "Failed", # accepts Failed, Fulfilled, InProgress, ReadyForFulfillment, Waiting
      confirmation_state: "Confirmed", # accepts Confirmed, Denied, None
    },
    active_contexts: [
      {
        name: "ActiveContextName", # required
        time_to_live: { # required
          time_to_live_in_seconds: 1, # required
          turns_to_live: 1, # required
        },
        context_attributes: {
          "ParameterName" => "Text",
        },
      },
    ],
    session_attributes: {
      "NonEmptyString" => "String",
    },
    originating_request_id: "NonEmptyString",
  },
  request_attributes: {
    "NonEmptyString" => "String",
  },
  response_content_type: "NonEmptyString",
})

Response structure


resp.content_type #=> String
resp.messages #=> String
resp.session_state #=> String
resp.request_attributes #=> String
resp.session_id #=> String
resp.audio_stream #=> IO

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :bot_id (required, String)

    The identifier of the bot that receives the session data.

  • :bot_alias_id (required, String)

    The alias identifier of the bot that receives the session data.

  • :locale_id (required, String)

    The locale where the session is in use.

  • :session_id (required, String)

    The identifier of the session that receives the session data.

  • :messages (Array<Types::Message>)

    A list of messages to send to the user. Messages are sent in the order that they are defined in the list.

  • :session_state (required, Types::SessionState)

    Sets the state of the session with the user. You can use this to set the current intent, attributes, context, and dialog action. Use the dialog action to determine the next step that Amazon Lex should use in the conversation with the user.

  • :request_attributes (Hash<String,String>)

    Request-specific information passed between Amazon Lex and the client application.

    The namespace x-amz-lex: is reserved for special attributes. Don't create any request attributes with the prefix x-amz-lex:.

  • :response_content_type (String)

    The message that Amazon Lex returns in the response can be either text or speech depending on the value of this parameter.

    • If the value is text/plain; charset=utf-8, Amazon Lex returns text in the response.

    ^

Returns:

See Also:



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# File 'gems/aws-sdk-lexruntimev2/lib/aws-sdk-lexruntimev2/client.rb', line 627

def put_session(params = {}, options = {}, &block)
  req = build_request(:put_session, params)
  req.send_request(options, &block)
end

#recognize_text(params = {}) ⇒ Types::RecognizeTextResponse

Sends user input to Amazon Lex. Client applications use this API to send requests to Amazon Lex at runtime. Amazon Lex then interprets the user input using the machine learning model that it build for the bot.

In response, Amazon Lex returns the next message to convey to the user and an optional response card to display.

Examples:

Request syntax with placeholder values


resp = client.recognize_text({
  bot_id: "BotIdentifier", # required
  bot_alias_id: "BotAliasIdentifier", # required
  locale_id: "LocaleId", # required
  session_id: "SessionId", # required
  text: "Text", # required
  session_state: {
    dialog_action: {
      type: "Close", # required, accepts Close, ConfirmIntent, Delegate, ElicitIntent, ElicitSlot
      slot_to_elicit: "NonEmptyString",
    },
    intent: {
      name: "NonEmptyString", # required
      slots: {
        "NonEmptyString" => {
          value: {
            original_value: "NonEmptyString",
            interpreted_value: "NonEmptyString", # required
            resolved_values: ["NonEmptyString"],
          },
        },
      },
      state: "Failed", # accepts Failed, Fulfilled, InProgress, ReadyForFulfillment, Waiting
      confirmation_state: "Confirmed", # accepts Confirmed, Denied, None
    },
    active_contexts: [
      {
        name: "ActiveContextName", # required
        time_to_live: { # required
          time_to_live_in_seconds: 1, # required
          turns_to_live: 1, # required
        },
        context_attributes: {
          "ParameterName" => "Text",
        },
      },
    ],
    session_attributes: {
      "NonEmptyString" => "String",
    },
    originating_request_id: "NonEmptyString",
  },
  request_attributes: {
    "NonEmptyString" => "String",
  },
})

Response structure


resp.messages #=> Array
resp.messages[0].content #=> String
resp.messages[0].content_type #=> String, one of "CustomPayload", "ImageResponseCard", "PlainText", "SSML"
resp.messages[0].image_response_card.title #=> String
resp.messages[0].image_response_card.subtitle #=> String
resp.messages[0].image_response_card.image_url #=> String
resp.messages[0].image_response_card.buttons #=> Array
resp.messages[0].image_response_card.buttons[0].text #=> String
resp.messages[0].image_response_card.buttons[0].value #=> String
resp.session_state.dialog_action.type #=> String, one of "Close", "ConfirmIntent", "Delegate", "ElicitIntent", "ElicitSlot"
resp.session_state.dialog_action.slot_to_elicit #=> String
resp.session_state.intent.name #=> String
resp.session_state.intent.slots #=> Hash
resp.session_state.intent.slots["NonEmptyString"].value.original_value #=> String
resp.session_state.intent.slots["NonEmptyString"].value.interpreted_value #=> String
resp.session_state.intent.slots["NonEmptyString"].value.resolved_values #=> Array
resp.session_state.intent.slots["NonEmptyString"].value.resolved_values[0] #=> String
resp.session_state.intent.state #=> String, one of "Failed", "Fulfilled", "InProgress", "ReadyForFulfillment", "Waiting"
resp.session_state.intent.confirmation_state #=> String, one of "Confirmed", "Denied", "None"
resp.session_state.active_contexts #=> Array
resp.session_state.active_contexts[0].name #=> String
resp.session_state.active_contexts[0].time_to_live.time_to_live_in_seconds #=> Integer
resp.session_state.active_contexts[0].time_to_live.turns_to_live #=> Integer
resp.session_state.active_contexts[0].context_attributes #=> Hash
resp.session_state.active_contexts[0].context_attributes["ParameterName"] #=> String
resp.session_state.session_attributes #=> Hash
resp.session_state.session_attributes["NonEmptyString"] #=> String
resp.session_state.originating_request_id #=> String
resp.interpretations #=> Array
resp.interpretations[0].nlu_confidence.score #=> Float
resp.interpretations[0].sentiment_response.sentiment #=> String, one of "MIXED", "NEGATIVE", "NEUTRAL", "POSITIVE"
resp.interpretations[0].sentiment_response.sentiment_score.positive #=> Float
resp.interpretations[0].sentiment_response.sentiment_score.negative #=> Float
resp.interpretations[0].sentiment_response.sentiment_score.neutral #=> Float
resp.interpretations[0].sentiment_response.sentiment_score.mixed #=> Float
resp.interpretations[0].intent.name #=> String
resp.interpretations[0].intent.slots #=> Hash
resp.interpretations[0].intent.slots["NonEmptyString"].value.original_value #=> String
resp.interpretations[0].intent.slots["NonEmptyString"].value.interpreted_value #=> String
resp.interpretations[0].intent.slots["NonEmptyString"].value.resolved_values #=> Array
resp.interpretations[0].intent.slots["NonEmptyString"].value.resolved_values[0] #=> String
resp.interpretations[0].intent.state #=> String, one of "Failed", "Fulfilled", "InProgress", "ReadyForFulfillment", "Waiting"
resp.interpretations[0].intent.confirmation_state #=> String, one of "Confirmed", "Denied", "None"
resp.request_attributes #=> Hash
resp.request_attributes["NonEmptyString"] #=> String
resp.session_id #=> String

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :bot_id (required, String)

    The identifier of the bot that processes the request.

  • :bot_alias_id (required, String)

    The alias identifier in use for the bot that processes the request.

  • :locale_id (required, String)

    The locale where the session is in use.

  • :session_id (required, String)

    The identifier of the user session that is having the conversation.

  • :text (required, String)

    The text that the user entered. Amazon Lex interprets this text.

  • :session_state (Types::SessionState)

    The current state of the dialog between the user and the bot.

  • :request_attributes (Hash<String,String>)

    Request-specific information passed between the client application and Amazon Lex

    The namespace x-amz-lex: is reserved for special attributes. Don't create any request attributes with the prefix x-amz-lex:.

Returns:

See Also:



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# File 'gems/aws-sdk-lexruntimev2/lib/aws-sdk-lexruntimev2/client.rb', line 774

def recognize_text(params = {}, options = {})
  req = build_request(:recognize_text, params)
  req.send_request(options)
end

#recognize_utterance(params = {}) ⇒ Types::RecognizeUtteranceResponse

Sends user input to Amazon Lex. You can send text or speech. Clients use this API to send text and audio requests to Amazon Lex at runtime. Amazon Lex interprets the user input using the machine learning model built for the bot.

Examples:

Request syntax with placeholder values


resp = client.recognize_utterance({
  bot_id: "BotIdentifier", # required
  bot_alias_id: "BotAliasIdentifier", # required
  locale_id: "LocaleId", # required
  session_id: "SessionId", # required
  session_state: "SensitiveNonEmptyString",
  request_attributes: "SensitiveNonEmptyString",
  request_content_type: "NonEmptyString", # required
  response_content_type: "NonEmptyString",
  input_stream: "data",
})

Response structure


resp.input_mode #=> String
resp.content_type #=> String
resp.messages #=> String
resp.interpretations #=> String
resp.session_state #=> String
resp.request_attributes #=> String
resp.session_id #=> String
resp.input_transcript #=> String
resp.audio_stream #=> IO

Parameters:

  • params (Hash) (defaults to: {})

    ({})

Options Hash (params):

  • :bot_id (required, String)

    The identifier of the bot that should receive the request.

  • :bot_alias_id (required, String)

    The alias identifier in use for the bot that should receive the request.

  • :locale_id (required, String)

    The locale where the session is in use.

  • :session_id (required, String)

    The identifier of the session in use.

  • :session_state (String)

    Sets the state of the session with the user. You can use this to set the current intent, attributes, context, and dialog action. Use the dialog action to determine the next step that Amazon Lex should use in the conversation with the user.

  • :request_attributes (String)

    Request-specific information passed between the client application and Amazon Lex

    The namespace x-amz-lex: is reserved for special attributes. Don't create any request attributes for prefix x-amz-lex:.

  • :request_content_type (required, String)

    Indicates the format for audio input or that the content is text. The header must start with one of the following prefixes:

    • PCM format, audio data must be in little-endian byte order.

      • audio/l16; rate=16000; channels=1

      • audio/x-l16; sample-rate=16000; channel-count=1

      • audio/lpcm; sample-rate=8000; sample-size-bits=16; channel-count=1; is-big-endian=false

    • Opus format

      • audio/x-cbr-opus-with-preamble;preamble-size=0;bit-rate=256000;frame-size-milliseconds=4

      ^

    • Text format

      • text/plain; charset=utf-8

      ^

  • :response_content_type (String)

    The message that Amazon Lex returns in the response can be either text or speech based on the responseContentType value.

    • If the value is text/plain;charset=utf-8, Amazon Lex returns text in the response.

    • If the value begins with audio/, Amazon Lex returns speech in the response. Amazon Lex uses Amazon Polly to generate the speech using the configuration that you specified in the requestContentType parameter. For example, if you specify audio/mpeg as the value, Amazon Lex returns speech in the MPEG format.

    • If the value is audio/pcm, the speech returned is audio/pcm at 16 KHz in 16-bit, little-endian format.

    • The following are the accepted values:

      • audio/mpeg

      • audio/ogg

      • audio/pcm (16 KHz)

      • audio/* (defaults to mpeg)

      • text/plain; charset=utf-8

  • :input_stream (String, IO)

    User input in PCM or Opus audio format or text format as described in the requestContentType parameter.

Returns:

See Also:



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# File 'gems/aws-sdk-lexruntimev2/lib/aws-sdk-lexruntimev2/client.rb', line 909

def recognize_utterance(params = {}, options = {}, &block)
  req = build_request(:recognize_utterance, params)
  req.send_request(options, &block)
end