Class: Aws::GeoRoutes::Client

Inherits:

Seahorse::Client::Base

• Object
• Seahorse::Client::Base
• Aws::GeoRoutes::Client

Includes:

ClientStubs

Defined in:

lib/aws-sdk-georoutes/client.rb

Overview

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

client = Aws::GeoRoutes::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 Attribute Summary

• .identifier ⇒ Object readonly private

API Operations

• #calculate_isolines(params = {}) ⇒ Types::CalculateIsolinesResponse

  Calculates areas that can be reached within specified time or distance thresholds from a given point.

• #calculate_route_matrix(params = {}) ⇒ Types::CalculateRouteMatrixResponse

  Use ‘CalculateRouteMatrix` to compute results for all pairs of Origins to Destinations.

• #calculate_routes(params = {}) ⇒ Types::CalculateRoutesResponse

  ‘CalculateRoutes` computes routes given the following required parameters: `Origin` and `Destination`.

• #optimize_waypoints(params = {}) ⇒ Types::OptimizeWaypointsResponse

  ‘OptimizeWaypoints` calculates the optimal order to travel between a set of waypoints to minimize either the travel time or the distance travelled during the journey, based on road network restrictions and the traffic pattern data.

• #snap_to_roads(params = {}) ⇒ Types::SnapToRoadsResponse

  ‘SnapToRoads` matches GPS trace to roads most likely traveled on.

Class Method Summary

• .errors_module ⇒ Object private

Instance Method Summary

• #build_request(operation_name, params = {}) ⇒ Object private
• #initialize(options) ⇒ Client constructor

  A new instance of Client.

• #waiter_names ⇒ Object deprecated private Deprecated.

Constructor Details

#initialize(options) ⇒ Client

Returns a new instance of Client.

Parameters:

• options (Hash)

Options Hash (options):

• :plugins (Array<Seahorse::Client::Plugin>) — default: []] —

  A list of plugins to apply to the client. Each plugin is either a class name or an instance of a plugin class.

• :credentials (required, Aws::CredentialProvider) —

  Your AWS credentials used for authentication. This can be any class that includes and implements ‘Aws::CredentialProvider`, or 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`

  • The ‘:access_key_id`, `:secret_access_key`, `:session_token`, and `:account_id` options.

  • ‘ENV`, `ENV`, `ENV`, and `ENV`.

  • ‘~/.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::InstanceProfileCredentials` or `Aws::ECSCredentials` to enable retries and extended timeouts. Instance profile credential fetching can be disabled by setting `ENV` to `true`.

• :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`

  • ‘ENV`

  • ‘ENV`

  • ‘ENV`

  • ‘~/.aws/credentials`

  • ‘~/.aws/config`

• :access_key_id (String)
• :account_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.

• :auth_scheme_preference (Array<String>) —

  A list of preferred authentication schemes to use when making a request. Supported values are: ‘sigv4`, `sigv4a`, `httpBearerAuth`, and `noAuth`. When set using `ENV` or in shared config as `auth_scheme_preference`, the value should be a comma-separated list.

• :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.

• :defaults_mode (String) — default: "legacy" —

  See DefaultsModeConfiguration for a list of the accepted modes and the configuration defaults that are included.

• :disable_host_prefix_injection (Boolean) — default: false —

  When ‘true`, the SDK will not prepend the modeled host prefix to the endpoint.

• :disable_request_compression (Boolean) — default: false —

  When set to ‘true’ the request body will not be compressed for supported operations.

• :endpoint (String, URI::HTTPS, URI::HTTP) —

  Normally you should not configure the ‘:endpoint` option directly. This is normally constructed from the `:region` option. Configuring `:endpoint` is normally reserved for connecting to test or custom endpoints. The endpoint should be a URI formatted like:

  'http://example.com'
  'https://example.com'
  'http://example.com:123'
  

• :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.

• :ignore_configured_endpoint_urls (Boolean) —

  Setting to true disables use of endpoint URLs provided via environment variables and the shared configuration file.

• :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.

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

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

• :request_checksum_calculation (String) — default: "when_supported" —

  Determines when a checksum will be calculated for request payloads. Values are:

  • ‘when_supported` - (default) When set, a checksum will be calculated for all request payloads of operations modeled with the `httpChecksum` trait where `requestChecksumRequired` is `true` and/or a `requestAlgorithmMember` is modeled.

  • ‘when_required` - When set, a checksum will only be calculated for request payloads of operations modeled with the `httpChecksum` trait where `requestChecksumRequired` is `true` or where a `requestAlgorithmMember` is modeled and supplied.

• :request_min_compression_size_bytes (Integer) — default: 10240 —

  The minimum size in bytes that triggers compression for request bodies. The value must be non-negative integer value between 0 and 10485780 bytes inclusive.

• :response_checksum_validation (String) — default: "when_supported" —

  Determines when checksum validation will be performed on response payloads. Values are:

  • ‘when_supported` - (default) When set, checksum validation is performed on all response payloads of operations modeled with the `httpChecksum` trait where `responseAlgorithms` is modeled, except when no modeled checksum algorithms are supported.

  • ‘when_required` - When set, checksum validation is not performed on response payloads of operations unless the checksum algorithm is supported and the `requestValidationModeMember` member is set to `ENABLED`.

• :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 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.

• :sdk_ua_app_id (String) —

  A unique and opaque application ID that is appended to the User-Agent header as app/sdk_ua_app_id. It should have a maximum length of 50. This variable is sourced from environment variable AWS_SDK_UA_APP_ID or the shared config profile attribute sdk_ua_app_id.

• :secret_access_key (String)
• :session_token (String)
• :sigv4a_signing_region_set (Array) —

  A list of regions that should be signed with SigV4a signing. When not passed, a default ‘:sigv4a_signing_region_set` is searched for in the following locations:

  • ‘Aws.config`

  • ‘ENV`

  • ‘~/.aws/config`

• :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.

• :telemetry_provider (Aws::Telemetry::TelemetryProviderBase) — default: Aws::Telemetry::NoOpTelemetryProvider —

  Allows you to provide a telemetry provider, which is used to emit telemetry data. By default, uses ‘NoOpTelemetryProvider` which will not record or emit any telemetry data. The SDK supports the following telemetry providers:

  • OpenTelemetry (OTel) - To use the OTel provider, install and require the

  ‘opentelemetry-sdk` gem and then, pass in an instance of a `Aws::Telemetry::OTelProvider` for telemetry provider.

• :token_provider (Aws::TokenProvider) —

  Your Bearer token used for authentication. This can be any class that includes and implements ‘Aws::TokenProvider`, or instance of any one of the following classes:

  • ‘Aws::StaticTokenProvider` - Used for configuring static, non-refreshing tokens.

  • ‘Aws::SSOTokenProvider` - Used for loading tokens from AWS SSO using an access token generated from `aws login`.

  When ‘:token_provider` is not configured directly, the `Aws::TokenProviderChain` will be used to search for tokens configured for your profile in shared configuration files.

• :use_dualstack_endpoint (Boolean) —

  When set to ‘true`, dualstack enabled endpoints (with `.aws` TLD) will be used if available.

• :use_fips_endpoint (Boolean) —

  When set to ‘true`, fips compatible endpoints will be used if available. When a `fips` region is used, the region is normalized and this config is set to `true`.

• :validate_params (Boolean) — default: true —

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

• :endpoint_provider (Aws::GeoRoutes::EndpointProvider) —

  The endpoint provider used to resolve endpoints. Any object that responds to ‘#resolve_endpoint(parameters)` where `parameters` is a Struct similar to `Aws::GeoRoutes::EndpointParameters`.

• :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_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_open_timeout (Float) — default: 15 —

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

• :http_proxy (URI::HTTP, String) —

  A proxy to send requests through. Formatted like ‘proxy.com:123’.

• :http_read_timeout (Float) — default: 60 —

  The default number of seconds to wait for response data. 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`.

• :on_chunk_received (Proc) —

  When a Proc object is provided, it will be used as callback when each chunk of the response body is received. It provides three arguments: the chunk, the number of bytes received, and the total number of bytes in the response (or nil if the server did not send a ‘content-length`).

• :on_chunk_sent (Proc) —

  When a Proc object is provided, it will be used as callback when each chunk of the request body is sent. It provides three arguments: the chunk, the number of bytes read from the body, and the total number of bytes in the body.

• :raise_response_errors (Boolean) — default: true —

  When ‘true`, response errors are raised.

• :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.

• :ssl_ca_store (String) —

  Sets the X509::Store to verify peer certificate.

• :ssl_cert (OpenSSL::X509::Certificate) —

  Sets a client certificate when creating http connections.

• :ssl_key (OpenSSL::PKey) —

  Sets a client key when creating http connections.

• :ssl_timeout (Float) —

  Sets the SSL timeout in seconds

• :ssl_verify_peer (Boolean) — default: true —

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

# File 'lib/aws-sdk-georoutes/client.rb', line 473

def initialize(*args)
  super
end

Class Attribute Details

.identifier ⇒ Object (readonly)

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/aws-sdk-georoutes/client.rb', line 2556

def identifier
  @identifier
end

Class Method Details

.errors_module ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/aws-sdk-georoutes/client.rb', line 2559

def errors_module
  Errors
end

Instance Method Details

#build_request(operation_name, params = {}) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

Parameters:

• params ({}) (defaults to: {})

# File 'lib/aws-sdk-georoutes/client.rb', line 2529

def build_request(operation_name, params = {})
  handlers = @handlers.for(operation_name)
  tracer = config.telemetry_provider.tracer_provider.tracer(
    Aws::Telemetry.module_to_tracer_name('Aws::GeoRoutes')
  )
  context = Seahorse::Client::RequestContext.new(
    operation_name: operation_name,
    operation: config.api.operation(operation_name),
    client: self,
    params: params,
    config: config,
    tracer: tracer
  )
  context[:gem_name] = 'aws-sdk-georoutes'
  context[:gem_version] = '1.21.0'
  Seahorse::Client::Request.new(handlers, context)
end

#calculate_isolines(params = {}) ⇒ Types::CalculateIsolinesResponse

Calculates areas that can be reached within specified time or distance thresholds from a given point. For example, you can use this operation to determine the area within a 30-minute drive of a store location, find neighborhoods within walking distance of a school, or identify delivery zones based on drive time.

Isolines (also known as isochrones for time-based calculations) are useful for various applications including:

• Service area visualization - Show customers the area you can serve within promised delivery times

• Site selection - Analyze potential business locations based on population within travel distance

• Site selection - Determine areas that can be reached within specified response times

<note markdown=“1”> Route preferences such as avoiding toll roads or ferries are treated as preferences rather than absolute restrictions. If a viable route cannot be calculated while honoring all preferences, some may be ignored.

</note>

For more information, see [Calculate isolines] in the *Amazon Location Service Developer Guide*.

[1]: docs.aws.amazon.com/location/latest/developerguide/calculate-isolines.html

Examples:

Request syntax with placeholder values

resp = client.calculate_isolines({
  allow: {
    hot: false,
    hov: false,
  },
  arrival_time: "TimestampWithTimezoneOffset",
  avoid: {
    areas: [
      {
        except: [
          {
            bounding_box: [1.0],
            corridor: {
              line_string: [ # required
                [1.0],
              ],
              radius: 1, # required
            },
            polygon: [
              [
                [1.0],
              ],
            ],
            polyline_corridor: {
              polyline: "Polyline", # required
              radius: 1, # required
            },
            polyline_polygon: ["PolylineRing"],
          },
        ],
        geometry: { # required
          bounding_box: [1.0],
          corridor: {
            line_string: [ # required
              [1.0],
            ],
            radius: 1, # required
          },
          polygon: [
            [
              [1.0],
            ],
          ],
          polyline_corridor: {
            polyline: "Polyline", # required
            radius: 1, # required
          },
          polyline_polygon: ["PolylineRing"],
        },
      },
    ],
    car_shuttle_trains: false,
    controlled_access_highways: false,
    dirt_roads: false,
    ferries: false,
    seasonal_closure: false,
    toll_roads: false,
    toll_transponders: false,
    truck_road_types: ["TruckRoadType"],
    tunnels: false,
    u_turns: false,
    zone_categories: [
      {
        category: "CongestionPricing", # accepts CongestionPricing, Environmental, Vignette
      },
    ],
  },
  depart_now: false,
  departure_time: "TimestampWithTimezoneOffset",
  destination: [1.0],
  destination_options: {
    avoid_actions_for_distance: 1,
    heading: 1.0,
    matching: {
      name_hint: "SensitiveString",
      on_road_threshold: 1,
      radius: 1,
      strategy: "MatchAny", # accepts MatchAny, MatchMostSignificantRoad
    },
    side_of_street: {
      position: [1.0], # required
      use_with: "AnyStreet", # accepts AnyStreet, DividedStreetOnly
    },
  },
  isoline_geometry_format: "FlexiblePolyline", # accepts FlexiblePolyline, Simple
  isoline_granularity: {
    max_points: 1,
    max_resolution: 1,
  },
  key: "ApiKey",
  optimize_isoline_for: "AccurateCalculation", # accepts AccurateCalculation, BalancedCalculation, FastCalculation
  optimize_routing_for: "FastestRoute", # accepts FastestRoute, ShortestRoute
  origin: [1.0],
  origin_options: {
    avoid_actions_for_distance: 1,
    heading: 1.0,
    matching: {
      name_hint: "SensitiveString",
      on_road_threshold: 1,
      radius: 1,
      strategy: "MatchAny", # accepts MatchAny, MatchMostSignificantRoad
    },
    side_of_street: {
      position: [1.0], # required
      use_with: "AnyStreet", # accepts AnyStreet, DividedStreetOnly
    },
  },
  thresholds: { # required
    distance: [1],
    time: [1],
  },
  traffic: {
    flow_event_threshold_override: 1,
    usage: "IgnoreTrafficData", # accepts IgnoreTrafficData, UseTrafficData
  },
  travel_mode: "Car", # accepts Car, Pedestrian, Scooter, Truck
  travel_mode_options: {
    car: {
      engine_type: "Electric", # accepts Electric, InternalCombustion, PluginHybrid
      license_plate: {
        last_character: "IsolineVehicleLicensePlateLastCharacterString",
      },
      max_speed: 1.0,
      occupancy: 1,
    },
    scooter: {
      engine_type: "Electric", # accepts Electric, InternalCombustion, PluginHybrid
      license_plate: {
        last_character: "IsolineVehicleLicensePlateLastCharacterString",
      },
      max_speed: 1.0,
      occupancy: 1,
    },
    truck: {
      axle_count: 1,
      engine_type: "Electric", # accepts Electric, InternalCombustion, PluginHybrid
      gross_weight: 1,
      hazardous_cargos: ["Combustible"], # accepts Combustible, Corrosive, Explosive, Flammable, Gas, HarmfulToWater, Organic, Other, Poison, PoisonousInhalation, Radioactive
      height: 1,
      height_above_first_axle: 1,
      kpra_length: 1,
      length: 1,
      license_plate: {
        last_character: "IsolineVehicleLicensePlateLastCharacterString",
      },
      max_speed: 1.0,
      occupancy: 1,
      payload_capacity: 1,
      tire_count: 1,
      trailer: {
        axle_count: 1,
        trailer_count: 1,
      },
      truck_type: "LightTruck", # accepts LightTruck, StraightTruck, Tractor
      tunnel_restriction_code: "TunnelRestrictionCode",
      weight_per_axle: 1,
      weight_per_axle_group: {
        single: 1,
        tandem: 1,
        triple: 1,
        quad: 1,
        quint: 1,
      },
      width: 1,
    },
  },
})

Response structure

resp.arrival_time #=> String
resp.departure_time #=> String
resp.isoline_geometry_format #=> String, one of "FlexiblePolyline", "Simple"
resp.isolines #=> Array
resp.isolines[0].connections #=> Array
resp.isolines[0].connections[0].from_polygon_index #=> Integer
resp.isolines[0].connections[0].geometry.line_string #=> Array
resp.isolines[0].connections[0].geometry.line_string[0] #=> Array
resp.isolines[0].connections[0].geometry.line_string[0][0] #=> Float
resp.isolines[0].connections[0].geometry.polyline #=> String
resp.isolines[0].connections[0].to_polygon_index #=> Integer
resp.isolines[0].distance_threshold #=> Integer
resp.isolines[0].geometries #=> Array
resp.isolines[0].geometries[0].polygon #=> Array
resp.isolines[0].geometries[0].polygon[0] #=> Array
resp.isolines[0].geometries[0].polygon[0][0] #=> Array
resp.isolines[0].geometries[0].polygon[0][0][0] #=> Float
resp.isolines[0].geometries[0].polyline_polygon #=> Array
resp.isolines[0].geometries[0].polyline_polygon[0] #=> String
resp.isolines[0].time_threshold #=> Integer
resp.pricing_bucket #=> String
resp.snapped_destination #=> Array
resp.snapped_destination[0] #=> Float
resp.snapped_origin #=> Array
resp.snapped_origin[0] #=> Float

Parameters:

• params (Hash) (defaults to: {}) —

  ({})

Options Hash (params):

• :allow (Types::IsolineAllowOptions) —

  Enables special road types or features that should be considered for routing even if they might be restricted by default for the selected travel mode. These include high-occupancy vehicle and toll lanes.

• :arrival_time (String) —

  Determine areas from which ‘Destination` can be reached by this time, taking into account predicted traffic conditions and working backward to account for congestion patterns. This attribute cannot be used together with `DepartureTime` or `DepartNow`. Specified as an ISO-8601 timestamp with timezone offset.

  Time format: ‘YYYY-MM-DDThh:mm:ss.sssZ | YYYY-MM-DDThh:mm:ss.sss+hh:mm`

  Examples:

  ‘2020-04-22T17:57:24Z`

  ‘2020-04-22T17:57:24+02:00`

• :avoid (Types::IsolineAvoidanceOptions) —

  Specifies road types, features, or areas to avoid (if possible) when calculating reachable areas. These are treated as preferences rather than strict constraints—if a route cannot be calculated without using an avoided feature, that avoidance preference may be ignored.

• :depart_now (Boolean) —

  When true, uses the current time as the departure time and takes current traffic conditions into account. This attribute cannot be used together with ‘DepartureTime` or `ArrivalTime`.

• :departure_time (String) —

  Determine areas that can be reached when departing at this time, taking into account predicted traffic conditions. This attribute cannot be used together with ‘ArrivalTime` or `DepartNow`. Specified as an ISO-8601 timestamp with timezone offset.

  Time format:‘YYYY-MM-DDThh:mm:ss.sssZ | YYYY-MM-DDThh:mm:ss.sss+hh:mm`

  Examples:

  ‘2020-04-22T17:57:24Z`

  ‘2020-04-22T17:57:24+02:00`

• :destination (Array<Float>) —

  An optional destination point, specified as ‘[longitude, latitude]` coordinates. When provided, the service calculates areas from which this destination can be reached within the specified thresholds. This reverses the usual isoline calculation to show areas that could reach your location, rather than areas you could reach from your location. Either `Origin` or `Destination` must be provided.

• :destination_options (Types::IsolineDestinationOptions) —

  Options that control how the destination point is matched to the road network and how routes can approach it. These options help improve travel time accuracy by accounting for real-world access to the destination.

• :isoline_geometry_format (String) —

  The format of the returned IsolineGeometry.

  Default value:‘FlexiblePolyline`

• :isoline_granularity (Types::IsolineGranularityOptions) —

  Controls the detail level of the generated isolines. Higher granularity produces smoother shapes but requires more processing time and results in larger responses.

• :key (String) —

  An Amazon Location Service API Key with access to this action. If omitted, the request must be signed using Signature Version 4.

• :optimize_isoline_for (String) —

  Controls the trade-off between calculation speed and isoline precision. Choose ‘ FastCalculation` for quicker results with less detail, `AccurateCalculation` for more precise results, or `BalancedCalculation` for a middle ground.

  Default value: ‘BalancedCalculation`

• :optimize_routing_for (String) —

  Determines whether routes prioritize shortest travel time (‘FastestRoute`) or shortest physical distance (`ShortestRoute`) when calculating reachable areas.

  Default value: ‘FastestRoute`

• :origin (Array<Float>) —

  The starting point for isoline calculations, specified as ‘[longitude, latitude]` coordinates. For example, this could be a store location, service center, or any point from which you want to calculate reachable areas. Either `Origin` or `Destination` must be provided.

• :origin_options (Types::IsolineOriginOptions) —

  Options that control how the origin point is matched to the road network and how routes can depart from it. These options help improve travel time accuracy by accounting for real-world access from the origin.

• :thresholds (required, Types::IsolineThresholds) —

  The distance or time thresholds used to determine reachable areas. You can specify up to five thresholds (which all must be the same type) to calculate multiple isolines in a single request. For example, to determine the areas that are reachable within 10 and 20 minutes of the origin, specify time thresholds of 600 and 1200 seconds.

  You incur a calculation charge for each threshold. Using a large number of thresholds in a request can lead to unexpected charges. For more information, see [Routes pricing] in the *Amazon Location Service Developer Guide*.

  [1]: docs.aws.amazon.com/location/latest/developerguide/routes-pricing.html

• :traffic (Types::IsolineTrafficOptions) —

  Configures how real-time and historical traffic data affects isoline calculations. Traffic patterns can significantly impact reachable areas, especially during peak hours.

• :travel_mode (String) —

  The mode of transportation to use for calculations. This affects which road types or features can be used, estimated speed, and the traffic levels that are applied.

  • ‘Car`—Standard passenger vehicle routing using roads accessible to cars

  • ‘Pedestrian`—Walking routes using pedestrian paths, sidewalks, and crossings

  • ‘Scooter`—Light two-wheeled vehicle routing using roads and paths accessible to scooters

  • ‘Truck`—Commercial truck routing considering vehicle dimensions, weight restrictions, and hazardous material regulations

  <note markdown=“1”> The mode ‘Scooter` also applies to motorcycles; set this to `Scooter` when calculating isolines for motorcycles.

  </note>
  

  Default value: ‘Car`

• :travel_mode_options (Types::IsolineTravelModeOptions) —

  Additional attributes that refine how reachable areas are calculated based on specific vehicle characteristics. These options help produce more accurate results by accounting for real-world constraints and capabilities.

  For example:

  • For trucks (‘Truck`), specify dimensions, weight limits, and hazardous cargo restrictions to ensure isolines only include roads that can physically and legally accommodate the vehicle

  • For cars (‘Car`), set maximum speed capabilities or indicate high-occupancy vehicle eligibility to better estimate reachable areas

  • For scooters (‘Scooter`), specify engine type and speed limitations to more accurately model their travel capabilities

  Without these options, calculations use default assumptions that may not match your specific use case.

Returns:

• (Types::CalculateIsolinesResponse) —

  Returns a response object which responds to the following methods:

  • #arrival_time => String

  • #departure_time => String

  • #isoline_geometry_format => String

  • #isolines => Array&lt;Types::Isoline&gt;

  • #pricing_bucket => String

  • #snapped_destination => Array&lt;Float&gt;

  • #snapped_origin => Array&lt;Float&gt;

See Also:

• AWS API Documentation

# File 'lib/aws-sdk-georoutes/client.rb', line 891

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

#calculate_route_matrix(params = {}) ⇒ Types::CalculateRouteMatrixResponse

Use ‘CalculateRouteMatrix` to compute results for all pairs of Origins to Destinations. Each row corresponds to one entry in Origins. Each entry in the row corresponds to the route from that entry in Origins to an entry in Destinations positions.

For more information, see [Calculate route matrix] in the *Amazon Location Service Developer Guide*.

[1]: docs.aws.amazon.com/location/latest/developerguide/calculate-route-matrix.html

Examples:

Request syntax with placeholder values

resp = client.calculate_route_matrix({
  allow: {
    hot: false,
    hov: false,
  },
  avoid: {
    areas: [
      {
        geometry: { # required
          bounding_box: [1.0],
          polygon: [
            [
              [1.0],
            ],
          ],
          polyline_polygon: ["PolylineRing"],
        },
      },
    ],
    car_shuttle_trains: false,
    controlled_access_highways: false,
    dirt_roads: false,
    ferries: false,
    toll_roads: false,
    toll_transponders: false,
    truck_road_types: ["TruckRoadType"],
    tunnels: false,
    u_turns: false,
    zone_categories: [
      {
        category: "CongestionPricing", # accepts CongestionPricing, Environmental, Vignette
      },
    ],
  },
  depart_now: false,
  departure_time: "TimestampWithTimezoneOffset",
  destinations: [ # required
    {
      options: {
        avoid_actions_for_distance: 1,
        heading: 1.0,
        matching: {
          name_hint: "SensitiveString",
          on_road_threshold: 1,
          radius: 1,
          strategy: "MatchAny", # accepts MatchAny, MatchMostSignificantRoad
        },
        side_of_street: {
          position: [1.0], # required
          use_with: "AnyStreet", # accepts AnyStreet, DividedStreetOnly
        },
      },
      position: [1.0], # required
    },
  ],
  exclude: {
    countries: ["CountryCode"], # required
  },
  key: "ApiKey",
  optimize_routing_for: "FastestRoute", # accepts FastestRoute, ShortestRoute
  origins: [ # required
    {
      options: {
        avoid_actions_for_distance: 1,
        heading: 1.0,
        matching: {
          name_hint: "SensitiveString",
          on_road_threshold: 1,
          radius: 1,
          strategy: "MatchAny", # accepts MatchAny, MatchMostSignificantRoad
        },
        side_of_street: {
          position: [1.0], # required
          use_with: "AnyStreet", # accepts AnyStreet, DividedStreetOnly
        },
      },
      position: [1.0], # required
    },
  ],
  routing_boundary: {
    geometry: {
      auto_circle: {
        margin: 1,
        max_radius: 1,
      },
      circle: {
        center: [1.0], # required
        radius: 1.0, # required
      },
      bounding_box: [1.0],
      polygon: [
        [
          [1.0],
        ],
      ],
    },
    unbounded: false,
  },
  traffic: {
    flow_event_threshold_override: 1,
    usage: "IgnoreTrafficData", # accepts IgnoreTrafficData, UseTrafficData
  },
  travel_mode: "Car", # accepts Car, Pedestrian, Scooter, Truck
  travel_mode_options: {
    car: {
      license_plate: {
        last_character: "RouteMatrixVehicleLicensePlateLastCharacterString",
      },
      max_speed: 1.0,
      occupancy: 1,
    },
    scooter: {
      license_plate: {
        last_character: "RouteMatrixVehicleLicensePlateLastCharacterString",
      },
      max_speed: 1.0,
      occupancy: 1,
    },
    truck: {
      axle_count: 1,
      gross_weight: 1,
      hazardous_cargos: ["Combustible"], # accepts Combustible, Corrosive, Explosive, Flammable, Gas, HarmfulToWater, Organic, Other, Poison, PoisonousInhalation, Radioactive
      height: 1,
      kpra_length: 1,
      length: 1,
      license_plate: {
        last_character: "RouteMatrixVehicleLicensePlateLastCharacterString",
      },
      max_speed: 1.0,
      occupancy: 1,
      payload_capacity: 1,
      trailer: {
        trailer_count: 1,
      },
      truck_type: "LightTruck", # accepts LightTruck, StraightTruck, Tractor
      tunnel_restriction_code: "TunnelRestrictionCode",
      weight_per_axle: 1,
      weight_per_axle_group: {
        single: 1,
        tandem: 1,
        triple: 1,
        quad: 1,
        quint: 1,
      },
      width: 1,
    },
  },
})

Response structure

resp.error_count #=> Integer
resp.pricing_bucket #=> String
resp.route_matrix #=> Array
resp.route_matrix[0] #=> Array
resp.route_matrix[0][0].distance #=> Integer
resp.route_matrix[0][0].duration #=> Integer
resp.route_matrix[0][0].error #=> String, one of "NoMatch", "NoMatchDestination", "NoMatchOrigin", "NoRoute", "OutOfBounds", "OutOfBoundsDestination", "OutOfBoundsOrigin", "Other", "Violation"
resp.routing_boundary.geometry.auto_circle.margin #=> Integer
resp.routing_boundary.geometry.auto_circle.max_radius #=> Integer
resp.routing_boundary.geometry.circle.center #=> Array
resp.routing_boundary.geometry.circle.center[0] #=> Float
resp.routing_boundary.geometry.circle.radius #=> Float
resp.routing_boundary.geometry.bounding_box #=> Array
resp.routing_boundary.geometry.bounding_box[0] #=> Float
resp.routing_boundary.geometry.polygon #=> Array
resp.routing_boundary.geometry.polygon[0] #=> Array
resp.routing_boundary.geometry.polygon[0][0] #=> Array
resp.routing_boundary.geometry.polygon[0][0][0] #=> Float
resp.routing_boundary.unbounded #=> Boolean

Parameters:

• params (Hash) (defaults to: {}) —

  ({})

Options Hash (params):

• :allow (Types::RouteMatrixAllowOptions) —

  Features that are allowed while calculating a route.

• :avoid (Types::RouteMatrixAvoidanceOptions) —

  Features that are avoided while calculating a route. Avoidance is on a best-case basis. If an avoidance can’t be satisfied for a particular case, it violates the avoidance and the returned response produces a notice for the violation. For [GrabMaps] customers, ‘ap-southeast-1` and `ap-southeast-5` regions support only `TollRoads`, `Ferries`, and `ControlledAccessHighways`.

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

• :depart_now (Boolean) —

  Uses the current time as the time of departure.

• :departure_time (String) —

  Time of departure from the origin.

  Time format:‘YYYY-MM-DDThh:mm:ss.sssZ | YYYY-MM-DDThh:mm:ss.sss+hh:mm`

  Examples:

  ‘2020-04-22T17:57:24Z`

  ‘2020-04-22T17:57:24+02:00`

• :destinations (required, Array<Types::RouteMatrixDestination>) —

  List of destinations for the route.

  <note markdown=“1”> Route calculations are billed for each origin and destination pair. If you use a large matrix of origins and destinations, your costs will increase accordingly. For more information, see [Routes pricing] in the *Amazon Location Service Developer Guide*.

  </note>
  

  [1]: docs.aws.amazon.com/location/latest/developerguide/routes-pricing.html

• :exclude (Types::RouteMatrixExclusionOptions) —

  Features to be strictly excluded while calculating the route. Not supported in ‘ap-southeast-1` and `ap-southeast-5` regions for

  GrabMaps][1

  customers.

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

• :key (String) —

  Optional: The API key to be used for authorization. Either an API key or valid SigV4 signature must be provided when making a request.

• :optimize_routing_for (String) —

  Controls the trade-off between finding the shortest travel time (‘FastestRoute`) and the shortest distance (`ShortestRoute`) when calculating reachable areas.

  Default value: ‘FastestRoute`

• :origins (required, Array<Types::RouteMatrixOrigin>) —

  The position for the origin in World Geodetic System (WGS 84) format: [longitude, latitude].

  <note markdown=“1”> Route calculations are billed for each origin and destination pair. Using a large amount of Origins in a request can lead you to incur unexpected charges. For more information, see [Routes pricing] in the *Amazon Location Service Developer Guide*.

  </note>
  

  [1]: docs.aws.amazon.com/location/latest/developerguide/routes-pricing.html

• :routing_boundary (Types::RouteMatrixBoundary) —

  Boundary within which the matrix is to be calculated. All data, origins and destinations outside the boundary are considered invalid. For [GrabMaps] customers, ‘ap-southeast-1` and `ap-southeast-5` regions support only `Unbounded` set to `true`.

  Default value: ‘Unbounded set to true`

  <note markdown=“1”> When request routing boundary was set as AutoCircle, the response routing boundary will return Circle derived from the AutoCircle settings.

  </note>
  

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

• :traffic (Types::RouteMatrixTrafficOptions) —

  Traffic related options. Not supported in ‘ap-southeast-1` and `ap-southeast-5` regions for [GrabMaps] customers.

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

• :travel_mode (String) —

  Specifies the mode of transport when calculating a route. Used in estimating the speed of travel and road compatibility. For

  GrabMaps][1

  customers, ‘ap-southeast-1` and `ap-southeast-5` regions

  support only ‘Car`, `Pedestrian`, and `Scooter`.

  Default value: ‘Car`

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

• :travel_mode_options (Types::RouteMatrixTravelModeOptions) —

  Travel mode related options for the provided travel mode. Not supported in ‘ap-southeast-1` and `ap-southeast-5` regions for

  GrabMaps][1

  customers.

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

Returns:

• (Types::CalculateRouteMatrixResponse) —

  Returns a response object which responds to the following methods:

  • #error_count => Integer

  • #pricing_bucket => String

  • #route_matrix => Array&lt;Array&lt;Types::RouteMatrixEntry&gt;&gt;

  • #routing_boundary => Types::RouteMatrixBoundary

See Also:

• AWS API Documentation

# File 'lib/aws-sdk-georoutes/client.rb', line 1217

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

#calculate_routes(params = {}) ⇒ Types::CalculateRoutesResponse

‘CalculateRoutes` computes routes given the following required parameters: `Origin` and `Destination`.

For more information, see [Calculate routes] in the *Amazon Location Service Developer Guide*.

[1]: docs.aws.amazon.com/location/latest/developerguide/calculate-routes.html

Examples:

Request syntax with placeholder values

resp = client.calculate_routes({
  allow: {
    hot: false,
    hov: false,
  },
  arrival_time: "TimestampWithTimezoneOffset",
  avoid: {
    areas: [
      {
        except: [
          {
            corridor: {
              line_string: [ # required
                [1.0],
              ],
              radius: 1, # required
            },
            bounding_box: [1.0],
            polygon: [
              [
                [1.0],
              ],
            ],
            polyline_corridor: {
              polyline: "Polyline", # required
              radius: 1, # required
            },
            polyline_polygon: ["PolylineRing"],
          },
        ],
        geometry: { # required
          corridor: {
            line_string: [ # required
              [1.0],
            ],
            radius: 1, # required
          },
          bounding_box: [1.0],
          polygon: [
            [
              [1.0],
            ],
          ],
          polyline_corridor: {
            polyline: "Polyline", # required
            radius: 1, # required
          },
          polyline_polygon: ["PolylineRing"],
        },
      },
    ],
    car_shuttle_trains: false,
    controlled_access_highways: false,
    dirt_roads: false,
    ferries: false,
    seasonal_closure: false,
    toll_roads: false,
    toll_transponders: false,
    truck_road_types: ["TruckRoadType"],
    tunnels: false,
    u_turns: false,
    zone_categories: [
      {
        category: "CongestionPricing", # required, accepts CongestionPricing, Environmental, Vignette
      },
    ],
  },
  depart_now: false,
  departure_time: "TimestampWithTimezoneOffset",
  destination: [1.0], # required
  destination_options: {
    avoid_actions_for_distance: 1,
    avoid_u_turns: false,
    heading: 1.0,
    matching: {
      name_hint: "RouteMatchingOptionsNameHintString",
      on_road_threshold: 1,
      radius: 1,
      strategy: "MatchAny", # accepts MatchAny, MatchMostSignificantRoad
    },
    side_of_street: {
      position: [1.0], # required
      use_with: "AnyStreet", # accepts AnyStreet, DividedStreetOnly
    },
    stop_duration: 1,
  },
  driver: {
    schedule: [
      {
        drive_duration: 1, # required
        rest_duration: 1, # required
      },
    ],
  },
  exclude: {
    countries: ["CountryCode"], # required
  },
  instructions_measurement_system: "Metric", # accepts Metric, Imperial
  key: "ApiKey",
  languages: ["LanguageTag"],
  leg_additional_features: ["Elevation"], # accepts Elevation, Incidents, PassThroughWaypoints, Summary, Tolls, TravelStepInstructions, TruckRoadTypes, TypicalDuration, Zones
  leg_geometry_format: "FlexiblePolyline", # accepts FlexiblePolyline, Simple
  max_alternatives: 1,
  optimize_routing_for: "FastestRoute", # accepts FastestRoute, ShortestRoute
  origin: [1.0], # required
  origin_options: {
    avoid_actions_for_distance: 1,
    avoid_u_turns: false,
    heading: 1.0,
    matching: {
      name_hint: "RouteMatchingOptionsNameHintString",
      on_road_threshold: 1,
      radius: 1,
      strategy: "MatchAny", # accepts MatchAny, MatchMostSignificantRoad
    },
    side_of_street: {
      position: [1.0], # required
      use_with: "AnyStreet", # accepts AnyStreet, DividedStreetOnly
    },
  },
  span_additional_features: ["BestCaseDuration"], # accepts BestCaseDuration, CarAccess, Country, Distance, Duration, DynamicSpeed, FunctionalClassification, Gates, Incidents, Names, Notices, PedestrianAccess, RailwayCrossings, Region, RoadAttributes, RouteNumbers, ScooterAccess, SpeedLimit, TollSystems, TruckAccess, TruckRoadTypes, TypicalDuration, Zones, Consumption
  tolls: {
    all_transponders: false,
    all_vignettes: false,
    currency: "CurrencyCode",
    emission_type: {
      co_2_emission_class: "SensitiveString",
      type: "SensitiveString", # required
    },
    vehicle_category: "Minibus", # accepts Minibus
  },
  traffic: {
    flow_event_threshold_override: 1,
    usage: "IgnoreTrafficData", # accepts IgnoreTrafficData, UseTrafficData
  },
  travel_mode: "Car", # accepts Car, Pedestrian, Scooter, Truck
  travel_mode_options: {
    car: {
      engine_type: "Electric", # accepts Electric, InternalCombustion, PluginHybrid
      license_plate: {
        last_character: "RouteVehicleLicensePlateLastCharacterString",
      },
      max_speed: 1.0,
      occupancy: 1,
    },
    pedestrian: {
      speed: 1.0,
    },
    scooter: {
      engine_type: "Electric", # accepts Electric, InternalCombustion, PluginHybrid
      license_plate: {
        last_character: "RouteVehicleLicensePlateLastCharacterString",
      },
      max_speed: 1.0,
      occupancy: 1,
    },
    truck: {
      axle_count: 1,
      engine_type: "Electric", # accepts Electric, InternalCombustion, PluginHybrid
      gross_weight: 1,
      hazardous_cargos: ["Combustible"], # accepts Combustible, Corrosive, Explosive, Flammable, Gas, HarmfulToWater, Organic, Other, Poison, PoisonousInhalation, Radioactive
      height: 1,
      height_above_first_axle: 1,
      kpra_length: 1,
      length: 1,
      license_plate: {
        last_character: "RouteVehicleLicensePlateLastCharacterString",
      },
      max_speed: 1.0,
      occupancy: 1,
      payload_capacity: 1,
      tire_count: 1,
      trailer: {
        axle_count: 1,
        trailer_count: 1,
      },
      truck_type: "LightTruck", # accepts LightTruck, StraightTruck, Tractor
      tunnel_restriction_code: "RouteTruckOptionsTunnelRestrictionCodeString",
      weight_per_axle: 1,
      weight_per_axle_group: {
        single: 1,
        tandem: 1,
        triple: 1,
        quad: 1,
        quint: 1,
      },
      width: 1,
    },
  },
  travel_step_type: "Default", # accepts Default, TurnByTurn
  waypoints: [
    {
      avoid_actions_for_distance: 1,
      avoid_u_turns: false,
      heading: 1.0,
      matching: {
        name_hint: "RouteMatchingOptionsNameHintString",
        on_road_threshold: 1,
        radius: 1,
        strategy: "MatchAny", # accepts MatchAny, MatchMostSignificantRoad
      },
      pass_through: false,
      position: [1.0], # required
      side_of_street: {
        position: [1.0], # required
        use_with: "AnyStreet", # accepts AnyStreet, DividedStreetOnly
      },
      stop_duration: 1,
    },
  ],
})

Response structure

resp.leg_geometry_format #=> String, one of "FlexiblePolyline", "Simple"
resp.notices #=> Array
resp.notices[0].code #=> String, one of "MainLanguageNotFound", "Other", "TravelTimeExceedsDriverWorkHours"
resp.notices[0].impact #=> String, one of "High", "Low"
resp.pricing_bucket #=> String
resp.routes #=> Array
resp.routes[0].legs #=> Array
resp.routes[0].legs[0].ferry_leg_details.after_travel_steps #=> Array
resp.routes[0].legs[0].ferry_leg_details.after_travel_steps[0].duration #=> Integer
resp.routes[0].legs[0].ferry_leg_details.after_travel_steps[0].instruction #=> String
resp.routes[0].legs[0].ferry_leg_details.after_travel_steps[0].type #=> String, one of "Deboard"
resp.routes[0].legs[0].ferry_leg_details.arrival.place.name #=> String
resp.routes[0].legs[0].ferry_leg_details.arrival.place.original_position #=> Array
resp.routes[0].legs[0].ferry_leg_details.arrival.place.original_position[0] #=> Float
resp.routes[0].legs[0].ferry_leg_details.arrival.place.position #=> Array
resp.routes[0].legs[0].ferry_leg_details.arrival.place.position[0] #=> Float
resp.routes[0].legs[0].ferry_leg_details.arrival.place.waypoint_index #=> Integer
resp.routes[0].legs[0].ferry_leg_details.arrival.time #=> String
resp.routes[0].legs[0].ferry_leg_details.before_travel_steps #=> Array
resp.routes[0].legs[0].ferry_leg_details.before_travel_steps[0].duration #=> Integer
resp.routes[0].legs[0].ferry_leg_details.before_travel_steps[0].instruction #=> String
resp.routes[0].legs[0].ferry_leg_details.before_travel_steps[0].type #=> String, one of "Board"
resp.routes[0].legs[0].ferry_leg_details.departure.place.name #=> String
resp.routes[0].legs[0].ferry_leg_details.departure.place.original_position #=> Array
resp.routes[0].legs[0].ferry_leg_details.departure.place.original_position[0] #=> Float
resp.routes[0].legs[0].ferry_leg_details.departure.place.position #=> Array
resp.routes[0].legs[0].ferry_leg_details.departure.place.position[0] #=> Float
resp.routes[0].legs[0].ferry_leg_details.departure.place.waypoint_index #=> Integer
resp.routes[0].legs[0].ferry_leg_details.departure.time #=> String
resp.routes[0].legs[0].ferry_leg_details.notices #=> Array
resp.routes[0].legs[0].ferry_leg_details.notices[0].code #=> String, one of "AccuratePolylineUnavailable", "NoSchedule", "Other", "ViolatedAvoidFerry", "ViolatedAvoidRailFerry", "SeasonalClosure", "PotentialViolatedVehicleRestrictionUsage", "ViolatedAvoidAreas", "ViolatedVehicleRestriction"
resp.routes[0].legs[0].ferry_leg_details.notices[0].impact #=> String, one of "High", "Low"
resp.routes[0].legs[0].ferry_leg_details.pass_through_waypoints #=> Array
resp.routes[0].legs[0].ferry_leg_details.pass_through_waypoints[0].geometry_offset #=> Integer
resp.routes[0].legs[0].ferry_leg_details.pass_through_waypoints[0].place.original_position #=> Array
resp.routes[0].legs[0].ferry_leg_details.pass_through_waypoints[0].place.original_position[0] #=> Float
resp.routes[0].legs[0].ferry_leg_details.pass_through_waypoints[0].place.position #=> Array
resp.routes[0].legs[0].ferry_leg_details.pass_through_waypoints[0].place.position[0] #=> Float
resp.routes[0].legs[0].ferry_leg_details.pass_through_waypoints[0].place.waypoint_index #=> Integer
resp.routes[0].legs[0].ferry_leg_details.route_name #=> String
resp.routes[0].legs[0].ferry_leg_details.spans #=> Array
resp.routes[0].legs[0].ferry_leg_details.spans[0].country #=> String
resp.routes[0].legs[0].ferry_leg_details.spans[0].distance #=> Integer
resp.routes[0].legs[0].ferry_leg_details.spans[0].duration #=> Integer
resp.routes[0].legs[0].ferry_leg_details.spans[0].geometry_offset #=> Integer
resp.routes[0].legs[0].ferry_leg_details.spans[0].names #=> Array
resp.routes[0].legs[0].ferry_leg_details.spans[0].names[0].language #=> String
resp.routes[0].legs[0].ferry_leg_details.spans[0].names[0].value #=> String
resp.routes[0].legs[0].ferry_leg_details.spans[0].region #=> String
resp.routes[0].legs[0].ferry_leg_details.summary.overview.distance #=> Integer
resp.routes[0].legs[0].ferry_leg_details.summary.overview.duration #=> Integer
resp.routes[0].legs[0].ferry_leg_details.summary.travel_only.duration #=> Integer
resp.routes[0].legs[0].ferry_leg_details.travel_steps #=> Array
resp.routes[0].legs[0].ferry_leg_details.travel_steps[0].distance #=> Integer
resp.routes[0].legs[0].ferry_leg_details.travel_steps[0].duration #=> Integer
resp.routes[0].legs[0].ferry_leg_details.travel_steps[0].geometry_offset #=> Integer
resp.routes[0].legs[0].ferry_leg_details.travel_steps[0].instruction #=> String
resp.routes[0].legs[0].ferry_leg_details.travel_steps[0].type #=> String, one of "Depart", "Continue", "Arrive"
resp.routes[0].legs[0].geometry.line_string #=> Array
resp.routes[0].legs[0].geometry.line_string[0] #=> Array
resp.routes[0].legs[0].geometry.line_string[0][0] #=> Float
resp.routes[0].legs[0].geometry.polyline #=> String
resp.routes[0].legs[0].language #=> String
resp.routes[0].legs[0].pedestrian_leg_details.arrival.place.name #=> String
resp.routes[0].legs[0].pedestrian_leg_details.arrival.place.original_position #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.arrival.place.original_position[0] #=> Float
resp.routes[0].legs[0].pedestrian_leg_details.arrival.place.position #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.arrival.place.position[0] #=> Float
resp.routes[0].legs[0].pedestrian_leg_details.arrival.place.side_of_street #=> String, one of "Left", "Right"
resp.routes[0].legs[0].pedestrian_leg_details.arrival.place.waypoint_index #=> Integer
resp.routes[0].legs[0].pedestrian_leg_details.arrival.time #=> String
resp.routes[0].legs[0].pedestrian_leg_details.departure.place.name #=> String
resp.routes[0].legs[0].pedestrian_leg_details.departure.place.original_position #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.departure.place.original_position[0] #=> Float
resp.routes[0].legs[0].pedestrian_leg_details.departure.place.position #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.departure.place.position[0] #=> Float
resp.routes[0].legs[0].pedestrian_leg_details.departure.place.side_of_street #=> String, one of "Left", "Right"
resp.routes[0].legs[0].pedestrian_leg_details.departure.place.waypoint_index #=> Integer
resp.routes[0].legs[0].pedestrian_leg_details.departure.time #=> String
resp.routes[0].legs[0].pedestrian_leg_details.notices #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.notices[0].code #=> String, one of "AccuratePolylineUnavailable", "Other", "ViolatedAvoidDirtRoad", "ViolatedAvoidTunnel", "ViolatedPedestrianOption", "ViolatedAvoidAreas"
resp.routes[0].legs[0].pedestrian_leg_details.notices[0].impact #=> String, one of "High", "Low"
resp.routes[0].legs[0].pedestrian_leg_details.pass_through_waypoints #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.pass_through_waypoints[0].geometry_offset #=> Integer
resp.routes[0].legs[0].pedestrian_leg_details.pass_through_waypoints[0].place.original_position #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.pass_through_waypoints[0].place.original_position[0] #=> Float
resp.routes[0].legs[0].pedestrian_leg_details.pass_through_waypoints[0].place.position #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.pass_through_waypoints[0].place.position[0] #=> Float
resp.routes[0].legs[0].pedestrian_leg_details.pass_through_waypoints[0].place.waypoint_index #=> Integer
resp.routes[0].legs[0].pedestrian_leg_details.spans #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].best_case_duration #=> Integer
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].country #=> String
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].distance #=> Integer
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].duration #=> Integer
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].dynamic_speed.best_case_speed #=> Float
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].dynamic_speed.turn_duration #=> Integer
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].dynamic_speed.typical_speed #=> Float
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].functional_classification #=> Integer
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].geometry_offset #=> Integer
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].incidents #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].incidents[0] #=> Integer
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].names #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].names[0].language #=> String
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].names[0].value #=> String
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].pedestrian_access #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].pedestrian_access[0] #=> String, one of "Allowed", "Indoors", "NoThroughTraffic", "Park", "Stairs", "TollRoad"
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].region #=> String
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].road_attributes #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].road_attributes[0] #=> String, one of "Bridge", "BuiltUpArea", "ControlledAccessHighway", "DirtRoad", "DividedRoad", "Motorway", "PrivateRoad", "Ramp", "RightHandTraffic", "Roundabout", "Tunnel", "UnderConstruction"
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].route_numbers #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].route_numbers[0].direction #=> String, one of "East", "North", "South", "West"
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].route_numbers[0].language #=> String
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].route_numbers[0].value #=> String
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].speed_limit.max_speed #=> Float
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].speed_limit.unlimited #=> Boolean
resp.routes[0].legs[0].pedestrian_leg_details.spans[0].typical_duration #=> Integer
resp.routes[0].legs[0].pedestrian_leg_details.summary.overview.distance #=> Integer
resp.routes[0].legs[0].pedestrian_leg_details.summary.overview.duration #=> Integer
resp.routes[0].legs[0].pedestrian_leg_details.summary.travel_only.duration #=> Integer
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].continue_step_details.intersection #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].continue_step_details.intersection[0].language #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].continue_step_details.intersection[0].value #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].current_road.road_name #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].current_road.road_name[0].language #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].current_road.road_name[0].value #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].current_road.route_number #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].current_road.route_number[0].direction #=> String, one of "East", "North", "South", "West"
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].current_road.route_number[0].language #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].current_road.route_number[0].value #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].current_road.towards #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].current_road.towards[0].language #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].current_road.towards[0].value #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].current_road.type #=> String, one of "Highway", "Rural", "Urban"
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].distance #=> Integer
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].duration #=> Integer
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].exit_number #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].exit_number[0].language #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].exit_number[0].value #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].geometry_offset #=> Integer
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].instruction #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].keep_step_details.intersection #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].keep_step_details.intersection[0].language #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].keep_step_details.intersection[0].value #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].keep_step_details.steering_direction #=> String, one of "Left", "Right", "Straight"
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].keep_step_details.turn_angle #=> Float
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].keep_step_details.turn_intensity #=> String, one of "Sharp", "Slight", "Typical"
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].next_road.road_name #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].next_road.road_name[0].language #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].next_road.road_name[0].value #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].next_road.route_number #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].next_road.route_number[0].direction #=> String, one of "East", "North", "South", "West"
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].next_road.route_number[0].language #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].next_road.route_number[0].value #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].next_road.towards #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].next_road.towards[0].language #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].next_road.towards[0].value #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].next_road.type #=> String, one of "Highway", "Rural", "Urban"
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].roundabout_enter_step_details.intersection #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].roundabout_enter_step_details.intersection[0].language #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].roundabout_enter_step_details.intersection[0].value #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].roundabout_enter_step_details.steering_direction #=> String, one of "Left", "Right", "Straight"
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].roundabout_enter_step_details.turn_angle #=> Float
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].roundabout_enter_step_details.turn_intensity #=> String, one of "Sharp", "Slight", "Typical"
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].roundabout_exit_step_details.intersection #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].roundabout_exit_step_details.intersection[0].language #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].roundabout_exit_step_details.intersection[0].value #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].roundabout_exit_step_details.relative_exit #=> Integer
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].roundabout_exit_step_details.roundabout_angle #=> Float
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].roundabout_exit_step_details.steering_direction #=> String, one of "Left", "Right", "Straight"
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].roundabout_pass_step_details.intersection #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].roundabout_pass_step_details.intersection[0].language #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].roundabout_pass_step_details.intersection[0].value #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].roundabout_pass_step_details.steering_direction #=> String, one of "Left", "Right", "Straight"
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].roundabout_pass_step_details.turn_angle #=> Float
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].roundabout_pass_step_details.turn_intensity #=> String, one of "Sharp", "Slight", "Typical"
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].signpost.labels #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].signpost.labels[0].route_number.direction #=> String, one of "East", "North", "South", "West"
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].signpost.labels[0].route_number.language #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].signpost.labels[0].route_number.value #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].signpost.labels[0].text.language #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].signpost.labels[0].text.value #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].turn_step_details.intersection #=> Array
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].turn_step_details.intersection[0].language #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].turn_step_details.intersection[0].value #=> String
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].turn_step_details.steering_direction #=> String, one of "Left", "Right", "Straight"
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].turn_step_details.turn_angle #=> Float
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].turn_step_details.turn_intensity #=> String, one of "Sharp", "Slight", "Typical"
resp.routes[0].legs[0].pedestrian_leg_details.travel_steps[0].type #=> String, one of "Arrive", "Continue", "Depart", "Keep", "RoundaboutEnter", "RoundaboutExit", "RoundaboutPass", "Turn"
resp.routes[0].legs[0].travel_mode #=> String, one of "Car", "Ferry", "Pedestrian", "Scooter", "Truck", "CarShuttleTrain"
resp.routes[0].legs[0].type #=> String, one of "Ferry", "Pedestrian", "Vehicle"
resp.routes[0].legs[0].vehicle_leg_details.arrival.place.name #=> String
resp.routes[0].legs[0].vehicle_leg_details.arrival.place.original_position #=> Array
resp.routes[0].legs[0].vehicle_leg_details.arrival.place.original_position[0] #=> Float
resp.routes[0].legs[0].vehicle_leg_details.arrival.place.position #=> Array
resp.routes[0].legs[0].vehicle_leg_details.arrival.place.position[0] #=> Float
resp.routes[0].legs[0].vehicle_leg_details.arrival.place.side_of_street #=> String, one of "Left", "Right"
resp.routes[0].legs[0].vehicle_leg_details.arrival.place.waypoint_index #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.arrival.time #=> String
resp.routes[0].legs[0].vehicle_leg_details.departure.place.name #=> String
resp.routes[0].legs[0].vehicle_leg_details.departure.place.original_position #=> Array
resp.routes[0].legs[0].vehicle_leg_details.departure.place.original_position[0] #=> Float
resp.routes[0].legs[0].vehicle_leg_details.departure.place.position #=> Array
resp.routes[0].legs[0].vehicle_leg_details.departure.place.position[0] #=> Float
resp.routes[0].legs[0].vehicle_leg_details.departure.place.side_of_street #=> String, one of "Left", "Right"
resp.routes[0].legs[0].vehicle_leg_details.departure.place.waypoint_index #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.departure.time #=> String
resp.routes[0].legs[0].vehicle_leg_details.incidents #=> Array
resp.routes[0].legs[0].vehicle_leg_details.incidents[0].description #=> String
resp.routes[0].legs[0].vehicle_leg_details.incidents[0].end_time #=> String
resp.routes[0].legs[0].vehicle_leg_details.incidents[0].severity #=> String, one of "Critical", "High", "Medium", "Low"
resp.routes[0].legs[0].vehicle_leg_details.incidents[0].start_time #=> String
resp.routes[0].legs[0].vehicle_leg_details.incidents[0].type #=> String, one of "Accident", "Congestion", "Construction", "DisabledVehicle", "LaneRestriction", "MassTransit", "Other", "PlannedEvent", "RoadClosure", "RoadHazard", "Weather"
resp.routes[0].legs[0].vehicle_leg_details.notices #=> Array
resp.routes[0].legs[0].vehicle_leg_details.notices[0].code #=> String, one of "AccuratePolylineUnavailable", "Other", "PotentialViolatedAvoidTollRoadUsage", "PotentialViolatedCarpoolUsage", "PotentialViolatedTurnRestrictionUsage", "PotentialViolatedVehicleRestrictionUsage", "PotentialViolatedZoneRestrictionUsage", "SeasonalClosure", "TollsDataTemporarilyUnavailable", "TollsDataUnavailable", "TollTransponder", "ViolatedAvoidControlledAccessHighway", "ViolatedAvoidDifficultTurns", "ViolatedAvoidDirtRoad", "ViolatedAvoidSeasonalClosure", "ViolatedAvoidTollRoad", "ViolatedAvoidTollTransponder", "ViolatedAvoidTruckRoadType", "ViolatedAvoidTunnel", "ViolatedAvoidUTurns", "ViolatedBlockedRoad", "ViolatedCarpool", "ViolatedEmergencyGate", "ViolatedStartDirection", "ViolatedTurnRestriction", "ViolatedVehicleRestriction", "ViolatedZoneRestriction", "TravelTimeExceedsDriverWorkHours"
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details #=> Array
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].title #=> String
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.all_hazards_restricted #=> Boolean
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.axle_count.min #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.axle_count.max #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.hazardous_cargos #=> Array
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.hazardous_cargos[0] #=> String, one of "Combustible", "Corrosive", "Explosive", "Flammable", "Gas", "HarmfulToWater", "Organic", "Other", "Poison", "PoisonousInhalation", "Radioactive"
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.max_height #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.max_kpra_length #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.max_length #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.max_payload_capacity #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.max_weight.type #=> String, one of "Current", "Gross", "Unknown"
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.max_weight.value #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.max_weight_per_axle #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.max_weight_per_axle_group.single #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.max_weight_per_axle_group.tandem #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.max_weight_per_axle_group.triple #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.max_weight_per_axle_group.quad #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.max_weight_per_axle_group.quint #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.max_width #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.occupancy.min #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.occupancy.max #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.restricted_times #=> String
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.time_dependent #=> Boolean
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.trailer_count.min #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.trailer_count.max #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.travel_mode #=> Boolean
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.truck_road_type #=> String
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.truck_type #=> String, one of "LightTruck", "StraightTruck", "Tractor"
resp.routes[0].legs[0].vehicle_leg_details.notices[0].details[0].violated_constraints.tunnel_restriction_code #=> String
resp.routes[0].legs[0].vehicle_leg_details.notices[0].impact #=> String, one of "High", "Low"
resp.routes[0].legs[0].vehicle_leg_details.pass_through_waypoints #=> Array
resp.routes[0].legs[0].vehicle_leg_details.pass_through_waypoints[0].geometry_offset #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.pass_through_waypoints[0].place.original_position #=> Array
resp.routes[0].legs[0].vehicle_leg_details.pass_through_waypoints[0].place.original_position[0] #=> Float
resp.routes[0].legs[0].vehicle_leg_details.pass_through_waypoints[0].place.position #=> Array
resp.routes[0].legs[0].vehicle_leg_details.pass_through_waypoints[0].place.position[0] #=> Float
resp.routes[0].legs[0].vehicle_leg_details.pass_through_waypoints[0].place.waypoint_index #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.spans #=> Array
resp.routes[0].legs[0].vehicle_leg_details.spans[0].best_case_duration #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.spans[0].car_access #=> Array
resp.routes[0].legs[0].vehicle_leg_details.spans[0].car_access[0] #=> String, one of "Allowed", "NoThroughTraffic", "TollRoad"
resp.routes[0].legs[0].vehicle_leg_details.spans[0].country #=> String
resp.routes[0].legs[0].vehicle_leg_details.spans[0].distance #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.spans[0].duration #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.spans[0].dynamic_speed.best_case_speed #=> Float
resp.routes[0].legs[0].vehicle_leg_details.spans[0].dynamic_speed.turn_duration #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.spans[0].dynamic_speed.typical_speed #=> Float
resp.routes[0].legs[0].vehicle_leg_details.spans[0].functional_classification #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.spans[0].gate #=> String, one of "Emergency", "KeyAccess", "PermissionRequired"
resp.routes[0].legs[0].vehicle_leg_details.spans[0].geometry_offset #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.spans[0].incidents #=> Array
resp.routes[0].legs[0].vehicle_leg_details.spans[0].incidents[0] #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.spans[0].names #=> Array
resp.routes[0].legs[0].vehicle_leg_details.spans[0].names[0].language #=> String
resp.routes[0].legs[0].vehicle_leg_details.spans[0].names[0].value #=> String
resp.routes[0].legs[0].vehicle_leg_details.spans[0].notices #=> Array
resp.routes[0].legs[0].vehicle_leg_details.spans[0].notices[0] #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.spans[0].railway_crossing #=> String, one of "Protected", "Unprotected"
resp.routes[0].legs[0].vehicle_leg_details.spans[0].region #=> String
resp.routes[0].legs[0].vehicle_leg_details.spans[0].road_attributes #=> Array
resp.routes[0].legs[0].vehicle_leg_details.spans[0].road_attributes[0] #=> String, one of "Bridge", "BuiltUpArea", "ControlledAccessHighway", "DirtRoad", "DividedRoad", "Motorway", "PrivateRoad", "Ramp", "RightHandTraffic", "Roundabout", "Tunnel", "UnderConstruction"
resp.routes[0].legs[0].vehicle_leg_details.spans[0].route_numbers #=> Array
resp.routes[0].legs[0].vehicle_leg_details.spans[0].route_numbers[0].direction #=> String, one of "East", "North", "South", "West"
resp.routes[0].legs[0].vehicle_leg_details.spans[0].route_numbers[0].language #=> String
resp.routes[0].legs[0].vehicle_leg_details.spans[0].route_numbers[0].value #=> String
resp.routes[0].legs[0].vehicle_leg_details.spans[0].scooter_access #=> Array
resp.routes[0].legs[0].vehicle_leg_details.spans[0].scooter_access[0] #=> String, one of "Allowed", "NoThroughTraffic", "TollRoad"
resp.routes[0].legs[0].vehicle_leg_details.spans[0].speed_limit.max_speed #=> Float
resp.routes[0].legs[0].vehicle_leg_details.spans[0].speed_limit.unlimited #=> Boolean
resp.routes[0].legs[0].vehicle_leg_details.spans[0].toll_systems #=> Array
resp.routes[0].legs[0].vehicle_leg_details.spans[0].toll_systems[0] #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.spans[0].truck_access #=> Array
resp.routes[0].legs[0].vehicle_leg_details.spans[0].truck_access[0] #=> String, one of "Allowed", "NoThroughTraffic", "TollRoad"
resp.routes[0].legs[0].vehicle_leg_details.spans[0].truck_road_types #=> Array
resp.routes[0].legs[0].vehicle_leg_details.spans[0].truck_road_types[0] #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.spans[0].typical_duration #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.spans[0].zones #=> Array
resp.routes[0].legs[0].vehicle_leg_details.spans[0].zones[0] #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.summary.overview.best_case_duration #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.summary.overview.distance #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.summary.overview.duration #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.summary.overview.typical_duration #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.summary.travel_only.best_case_duration #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.summary.travel_only.duration #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.summary.travel_only.typical_duration #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.tolls #=> Array
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].country #=> String
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].payment_sites #=> Array
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].payment_sites[0].name #=> String
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].payment_sites[0].position #=> Array
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].payment_sites[0].position[0] #=> Float
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates #=> Array
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].applicable_times #=> String
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].converted_price.currency #=> String
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].converted_price.estimate #=> Boolean
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].converted_price.per_duration #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].converted_price.range #=> Boolean
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].converted_price.range_value.min #=> Float
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].converted_price.range_value.max #=> Float
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].converted_price.value #=> Float
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].id #=> String
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].local_price.currency #=> String
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].local_price.estimate #=> Boolean
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].local_price.per_duration #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].local_price.range #=> Boolean
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].local_price.range_value.min #=> Float
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].local_price.range_value.max #=> Float
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].local_price.value #=> Float
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].name #=> String
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].pass.includes_return_trip #=> Boolean
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].pass.senior_pass #=> Boolean
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].pass.transfer_count #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].pass.trip_count #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].pass.validity_period.period #=> String, one of "Annual", "Days", "ExtendedAnnual", "Minutes", "Months"
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].pass.validity_period.period_count #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].payment_methods #=> Array
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].payment_methods[0] #=> String, one of "BankCard", "Cash", "CashExact", "CreditCard", "PassSubscription", "TravelCard", "Transponder", "VideoToll"
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].transponders #=> Array
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].rates[0].transponders[0].system_name #=> String
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].systems #=> Array
resp.routes[0].legs[0].vehicle_leg_details.tolls[0].systems[0] #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.toll_systems #=> Array
resp.routes[0].legs[0].vehicle_leg_details.toll_systems[0].name #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps #=> Array
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].continue_highway_step_details.intersection #=> Array
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].continue_highway_step_details.intersection[0].language #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].continue_highway_step_details.intersection[0].value #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].continue_highway_step_details.steering_direction #=> String, one of "Left", "Right", "Straight"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].continue_highway_step_details.turn_angle #=> Float
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].continue_highway_step_details.turn_intensity #=> String, one of "Sharp", "Slight", "Typical"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].continue_step_details.intersection #=> Array
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].continue_step_details.intersection[0].language #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].continue_step_details.intersection[0].value #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].current_road.road_name #=> Array
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].current_road.road_name[0].language #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].current_road.road_name[0].value #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].current_road.route_number #=> Array
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].current_road.route_number[0].direction #=> String, one of "East", "North", "South", "West"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].current_road.route_number[0].language #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].current_road.route_number[0].value #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].current_road.towards #=> Array
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].current_road.towards[0].language #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].current_road.towards[0].value #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].current_road.type #=> String, one of "Highway", "Rural", "Urban"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].distance #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].duration #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].enter_highway_step_details.intersection #=> Array
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].enter_highway_step_details.intersection[0].language #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].enter_highway_step_details.intersection[0].value #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].enter_highway_step_details.steering_direction #=> String, one of "Left", "Right", "Straight"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].enter_highway_step_details.turn_angle #=> Float
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].enter_highway_step_details.turn_intensity #=> String, one of "Sharp", "Slight", "Typical"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].exit_number #=> Array
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].exit_number[0].language #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].exit_number[0].value #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].exit_step_details.intersection #=> Array
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].exit_step_details.intersection[0].language #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].exit_step_details.intersection[0].value #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].exit_step_details.relative_exit #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].exit_step_details.steering_direction #=> String, one of "Left", "Right", "Straight"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].exit_step_details.turn_angle #=> Float
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].exit_step_details.turn_intensity #=> String, one of "Sharp", "Slight", "Typical"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].geometry_offset #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].instruction #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].keep_step_details.intersection #=> Array
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].keep_step_details.intersection[0].language #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].keep_step_details.intersection[0].value #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].keep_step_details.steering_direction #=> String, one of "Left", "Right", "Straight"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].keep_step_details.turn_angle #=> Float
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].keep_step_details.turn_intensity #=> String, one of "Sharp", "Slight", "Typical"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].next_road.road_name #=> Array
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].next_road.road_name[0].language #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].next_road.road_name[0].value #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].next_road.route_number #=> Array
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].next_road.route_number[0].direction #=> String, one of "East", "North", "South", "West"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].next_road.route_number[0].language #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].next_road.route_number[0].value #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].next_road.towards #=> Array
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].next_road.towards[0].language #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].next_road.towards[0].value #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].next_road.type #=> String, one of "Highway", "Rural", "Urban"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].ramp_step_details.intersection #=> Array
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].ramp_step_details.intersection[0].language #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].ramp_step_details.intersection[0].value #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].ramp_step_details.steering_direction #=> String, one of "Left", "Right", "Straight"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].ramp_step_details.turn_angle #=> Float
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].ramp_step_details.turn_intensity #=> String, one of "Sharp", "Slight", "Typical"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].roundabout_enter_step_details.intersection #=> Array
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].roundabout_enter_step_details.intersection[0].language #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].roundabout_enter_step_details.intersection[0].value #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].roundabout_enter_step_details.steering_direction #=> String, one of "Left", "Right", "Straight"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].roundabout_enter_step_details.turn_angle #=> Float
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].roundabout_enter_step_details.turn_intensity #=> String, one of "Sharp", "Slight", "Typical"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].roundabout_exit_step_details.intersection #=> Array
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].roundabout_exit_step_details.intersection[0].language #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].roundabout_exit_step_details.intersection[0].value #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].roundabout_exit_step_details.relative_exit #=> Integer
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].roundabout_exit_step_details.roundabout_angle #=> Float
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].roundabout_exit_step_details.steering_direction #=> String, one of "Left", "Right", "Straight"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].roundabout_pass_step_details.intersection #=> Array
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].roundabout_pass_step_details.intersection[0].language #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].roundabout_pass_step_details.intersection[0].value #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].roundabout_pass_step_details.steering_direction #=> String, one of "Left", "Right", "Straight"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].roundabout_pass_step_details.turn_angle #=> Float
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].roundabout_pass_step_details.turn_intensity #=> String, one of "Sharp", "Slight", "Typical"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].signpost.labels #=> Array
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].signpost.labels[0].route_number.direction #=> String, one of "East", "North", "South", "West"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].signpost.labels[0].route_number.language #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].signpost.labels[0].route_number.value #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].signpost.labels[0].text.language #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].signpost.labels[0].text.value #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].turn_step_details.intersection #=> Array
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].turn_step_details.intersection[0].language #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].turn_step_details.intersection[0].value #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].turn_step_details.steering_direction #=> String, one of "Left", "Right", "Straight"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].turn_step_details.turn_angle #=> Float
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].turn_step_details.turn_intensity #=> String, one of "Sharp", "Slight", "Typical"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].type #=> String, one of "Arrive", "Continue", "ContinueHighway", "Depart", "EnterHighway", "Exit", "Keep", "Ramp", "RoundaboutEnter", "RoundaboutExit", "RoundaboutPass", "Turn", "UTurn"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].u_turn_step_details.intersection #=> Array
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].u_turn_step_details.intersection[0].language #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].u_turn_step_details.intersection[0].value #=> String
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].u_turn_step_details.steering_direction #=> String, one of "Left", "Right", "Straight"
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].u_turn_step_details.turn_angle #=> Float
resp.routes[0].legs[0].vehicle_leg_details.travel_steps[0].u_turn_step_details.turn_intensity #=> String, one of "Sharp", "Slight", "Typical"
resp.routes[0].legs[0].vehicle_leg_details.truck_road_types #=> Array
resp.routes[0].legs[0].vehicle_leg_details.truck_road_types[0] #=> String
resp.routes[0].legs[0].vehicle_leg_details.zones #=> Array
resp.routes[0].legs[0].vehicle_leg_details.zones[0].category #=> String, one of "CongestionPricing", "Environmental", "Vignette"
resp.routes[0].legs[0].vehicle_leg_details.zones[0].name #=> String
resp.routes[0].major_road_labels #=> Array
resp.routes[0].major_road_labels[0].road_name.language #=> String
resp.routes[0].major_road_labels[0].road_name.value #=> String
resp.routes[0].major_road_labels[0].route_number.direction #=> String, one of "East", "North", "South", "West"
resp.routes[0].major_road_labels[0].route_number.language #=> String
resp.routes[0].major_road_labels[0].route_number.value #=> String
resp.routes[0].summary.distance #=> Integer
resp.routes[0].summary.duration #=> Integer
resp.routes[0].summary.tolls.total.currency #=> String
resp.routes[0].summary.tolls.total.estimate #=> Boolean
resp.routes[0].summary.tolls.total.range #=> Boolean
resp.routes[0].summary.tolls.total.range_value.min #=> Float
resp.routes[0].summary.tolls.total.range_value.max #=> Float
resp.routes[0].summary.tolls.total.value #=> Float

Parameters:

• params (Hash) (defaults to: {}) —

  ({})

Options Hash (params):

• :allow (Types::RouteAllowOptions) —

  Features that are allowed while calculating a route. Not supported in ‘ap-southeast-1` and `ap-southeast-5` regions for [GrabMaps] customers.

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

• :arrival_time (String) —

  Time of arrival at the destination. Not supported in ‘ap-southeast-1` and `ap-southeast-5` regions for [GrabMaps] customers.

  Time format:‘YYYY-MM-DDThh:mm:ss.sssZ | YYYY-MM-DDThh:mm:ss.sss+hh:mm`

  Examples:

  ‘2020-04-22T17:57:24Z`

  ‘2020-04-22T17:57:24+02:00`

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

• :avoid (Types::RouteAvoidanceOptions) —

  Features that are avoided while calculating a route. Avoidance is on a best-case basis. If an avoidance can’t be satisfied for a particular case, it violates the avoidance and the returned response produces a notice for the violation. For [GrabMaps] customers, ‘ap-southeast-1` and `ap-southeast-5` regions support only `ControlledAccessHighways`, `Ferries`, and `TollRoads`

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

• :depart_now (Boolean) —

  Uses the current time as the time of departure.

• :departure_time (String) —

  Time of departure from the origin.

  Time format:‘YYYY-MM-DDThh:mm:ss.sssZ | YYYY-MM-DDThh:mm:ss.sss+hh:mm`

  Examples:

  ‘2020-04-22T17:57:24Z`

  ‘2020-04-22T17:57:24+02:00`

• :destination (required, Array<Float>) —

  The final position for the route. In the World Geodetic System (WGS 84) format: ‘[longitude, latitude]`.

• :destination_options (Types::RouteDestinationOptions) —

  Destination related options. Not supported in ‘ap-southeast-1` and `ap-southeast-5` regions for [GrabMaps] customers.

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

• :driver (Types::RouteDriverOptions) —

  Driver related options. Not supported in ‘ap-southeast-1` and `ap-southeast-5` regions for [GrabMaps] customers.

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

• :exclude (Types::RouteExclusionOptions) —

  Features to be strictly excluded while calculating the route. Not supported in ‘ap-southeast-1` and `ap-southeast-5` regions for

  GrabMaps][1

  customers.

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

• :instructions_measurement_system (String) —

  Measurement system to be used for instructions within steps in the response.

• :key (String) —

  Optional: The API key to be used for authorization. Either an API key or valid SigV4 signature must be provided when making a request.

• :languages (Array<String>) —

  List of languages for instructions within steps in the response. Not supported in ‘ap-southeast-1` and `ap-southeast-5` regions for

  GrabMaps][1

  customers.

  <note markdown=“1”> Instructions in the requested language are returned only if they are available.

  </note>
  

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

• :leg_additional_features (Array<String>) —

  A list of optional additional parameters such as timezone that can be requested for each result. For [GrabMaps] customers, ‘ap-southeast-1` and `ap-southeast-5` regions support only `PassThroughWaypoints`, `Summary`, and `TravelStepInstructions`

  • ‘Elevation`: Retrieves the elevation information for each location.

  • ‘Incidents`: Provides information on traffic incidents along the route.

  • ‘PassThroughWaypoints`: Indicates waypoints that are passed through without stopping.

  • ‘Summary`: Returns a summary of the route, including distance and duration.

  • ‘Tolls`: Supplies toll cost information along the route.

  • ‘TravelStepInstructions`: Provides step-by-step instructions for travel along the route.

  • ‘TruckRoadTypes`: Returns information about road types suitable for trucks.

  • ‘TypicalDuration`: Gives typical travel duration based on historical data.

  • ‘Zones`: Specifies the time zone information for each waypoint.

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

• :leg_geometry_format (String) —

  Specifies the format of the geometry returned for each leg of the route. You can choose between two different geometry encoding formats.

  ‘FlexiblePolyline`: A compact and precise encoding format for the leg geometry. For more information on the format, see the GitHub repository for [github.com/aws-geospatial/polyline][1].

  ‘Simple`: A less compact encoding, which is easier to decode but may be less precise and result in larger payloads.

  [1]: github.com/aws-geospatial/polyline

• :max_alternatives (Integer) —

  Maximum number of alternative routes to be provided in the response, if available. For [GrabMaps] customers, ‘ap-southeast-1` and `ap-southeast-5` regions support only up to 3 alternative routes.

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

• :optimize_routing_for (String) —

  Controls the trade-off between achieving the shortest travel time (‘FastestRoute`) and achieving the shortest physical distance ((`ShortestRoute`) when calculating each route in the matrix.

  Default value: ‘FastestRoute`

• :origin (required, Array<Float>) —

  The start position for the route in World Geodetic System (WGS 84) format: [longitude, latitude].

• :origin_options (Types::RouteOriginOptions) —

  Specifies how the origin point should be matched to the road network and any routing constraints that apply when the traveler is departing the origin. Not supported in ‘ap-southeast-1` and `ap-southeast-5` regions for [GrabMaps] customers.

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

• :span_additional_features (Array<String>) —

  A list of optional features such as ‘SpeedLimit` that can be requested for a Span. A span is a section of a Leg for which the requested features have the same values. Not supported in `ap-southeast-1` and `ap-southeast-5` regions for [GrabMaps] customers.

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

• :tolls (Types::RouteTollOptions) —

  Toll related options. Not supported in ‘ap-southeast-1` and `ap-southeast-5` regions for [GrabMaps] customers.

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

• :traffic (Types::RouteTrafficOptions) —

  Traffic related options. Not supported in ‘ap-southeast-1` and `ap-southeast-5` regions for [GrabMaps] customers.

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

• :travel_mode (String) —

  Specifies the mode of transport when calculating a route. Used in estimating the speed of travel and road compatibility. For

  GrabMaps][1

  customers, ‘ap-southeast-1` and `ap-southeast-5` regions

  support only ‘Car`, `Pedestrian`, and `Scooter` values.

  Default value: ‘Car`

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

• :travel_mode_options (Types::RouteTravelModeOptions) —

  Travel mode related options for the provided travel mode. For

  GrabMaps][1

  customers, ‘ap-southeast-1` and `ap-southeast-5` regions

  support only ‘Car` and `Pedestrian` travel mode options.

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

• :travel_step_type (String) —

  Type of step returned by the response. ‘Default` provides basic steps intended for web based applications. `TurnByTurn` provides detailed instructions with more granularity intended for a turn based navigation system. For [GrabMaps] customers, `ap-southeast-1` and `ap-southeast-5` regions `Default` does not return any steps.

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

• :waypoints (Array<Types::RouteWaypoint>) —

  List of waypoints between the Origin and Destination. For

  GrabMaps][1

  customers, ‘ap-southeast-1` and `ap-southeast-5` regions

  max length is ‘100`.

  Max length: ‘23`

  [1]: docs.aws.amazon.com/location/latest/developerguide/GrabMaps.html

Returns:

• (Types::CalculateRoutesResponse) —

  Returns a response object which responds to the following methods:

  • #leg_geometry_format => String

  • #notices => Array&lt;Types::RouteResponseNotice&gt;

  • #pricing_bucket => String

  • #routes => Array&lt;Types::Route&gt;

See Also:

• AWS API Documentation

# File 'lib/aws-sdk-georoutes/client.rb', line 2169

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

#optimize_waypoints(params = {}) ⇒ Types::OptimizeWaypointsResponse

‘OptimizeWaypoints` calculates the optimal order to travel between a set of waypoints to minimize either the travel time or the distance travelled during the journey, based on road network restrictions and the traffic pattern data.

For more information, see [Optimize waypoints] in the *Amazon Location Service Developer Guide*.

[1]: docs.aws.amazon.com/location/latest/developerguide/actions-optimize-waypoints.html

Examples:

Request syntax with placeholder values

resp = client.optimize_waypoints({
  avoid: {
    areas: [
      {
        geometry: { # required
          bounding_box: [1.0],
        },
      },
    ],
    car_shuttle_trains: false,
    controlled_access_highways: false,
    dirt_roads: false,
    ferries: false,
    toll_roads: false,
    tunnels: false,
    u_turns: false,
  },
  clustering: {
    algorithm: "DrivingDistance", # required, accepts DrivingDistance, TopologySegment
    driving_distance_options: {
      driving_distance: 1, # required
    },
  },
  departure_time: "TimestampWithTimezoneOffset",
  destination: [1.0],
  destination_options: {
    access_hours: {
      from: { # required
        day_of_week: "Monday", # required, accepts Monday, Tuesday, Wednesday, Thursday, Friday, Saturday, Sunday
        time_of_day: "TimeOfDay", # required
      },
      to: { # required
        day_of_week: "Monday", # required, accepts Monday, Tuesday, Wednesday, Thursday, Friday, Saturday, Sunday
        time_of_day: "TimeOfDay", # required
      },
    },
    appointment_time: "TimestampWithTimezoneOffset",
    heading: 1.0,
    id: "WaypointId",
    service_duration: 1,
    side_of_street: {
      position: [1.0], # required
      use_with: "AnyStreet", # accepts AnyStreet, DividedStreetOnly
    },
  },
  driver: {
    rest_cycles: {
      long_cycle: { # required
        rest_duration: 1, # required
        work_duration: 1, # required
      },
      short_cycle: { # required
        rest_duration: 1, # required
        work_duration: 1, # required
      },
    },
    rest_profile: {
      profile: "WaypointOptimizationRestProfileProfileString", # required
    },
    treat_service_time_as: "Rest", # accepts Rest, Work
  },
  exclude: {
    countries: ["CountryCode"], # required
  },
  key: "ApiKey",
  optimize_sequencing_for: "FastestRoute", # accepts FastestRoute, ShortestRoute
  origin: [1.0], # required
  origin_options: {
    id: "WaypointId",
  },
  traffic: {
    usage: "IgnoreTrafficData", # accepts IgnoreTrafficData, UseTrafficData
  },
  travel_mode: "Car", # accepts Car, Pedestrian, Scooter, Truck
  travel_mode_options: {
    pedestrian: {
      speed: 1.0,
    },
    truck: {
      gross_weight: 1,
      hazardous_cargos: ["Combustible"], # accepts Combustible, Corrosive, Explosive, Flammable, Gas, HarmfulToWater, Organic, Other, Poison, PoisonousInhalation, Radioactive
      height: 1,
      length: 1,
      trailer: {
        trailer_count: 1,
      },
      truck_type: "StraightTruck", # accepts StraightTruck, Tractor
      tunnel_restriction_code: "TunnelRestrictionCode",
      weight_per_axle: 1,
      width: 1,
    },
  },
  waypoints: [
    {
      access_hours: {
        from: { # required
          day_of_week: "Monday", # required, accepts Monday, Tuesday, Wednesday, Thursday, Friday, Saturday, Sunday
          time_of_day: "TimeOfDay", # required
        },
        to: { # required
          day_of_week: "Monday", # required, accepts Monday, Tuesday, Wednesday, Thursday, Friday, Saturday, Sunday
          time_of_day: "TimeOfDay", # required
        },
      },
      appointment_time: "TimestampWithTimezoneOffset",
      before: [1],
      heading: 1.0,
      id: "WaypointId",
      position: [1.0], # required
      service_duration: 1,
      side_of_street: {
        position: [1.0], # required
        use_with: "AnyStreet", # accepts AnyStreet, DividedStreetOnly
      },
    },
  ],
})

Response structure

resp.connections #=> Array
resp.connections[0].distance #=> Integer
resp.connections[0].from #=> String
resp.connections[0].rest_duration #=> Integer
resp.connections[0].to #=> String
resp.connections[0].travel_duration #=> Integer
resp.connections[0].wait_duration #=> Integer
resp.distance #=> Integer
resp.duration #=> Integer
resp.impeding_waypoints #=> Array
resp.impeding_waypoints[0].failed_constraints #=> Array
resp.impeding_waypoints[0].failed_constraints[0].constraint #=> String, one of "AccessHours", "AppointmentTime", "Before", "Heading", "ServiceDuration", "SideOfStreet"
resp.impeding_waypoints[0].failed_constraints[0].reason #=> String
resp.impeding_waypoints[0].id #=> String
resp.impeding_waypoints[0].position #=> Array
resp.impeding_waypoints[0].position[0] #=> Float
resp.optimized_waypoints #=> Array
resp.optimized_waypoints[0].arrival_time #=> String
resp.optimized_waypoints[0].cluster_index #=> Integer
resp.optimized_waypoints[0].departure_time #=> String
resp.optimized_waypoints[0].id #=> String
resp.optimized_waypoints[0].position #=> Array
resp.optimized_waypoints[0].position[0] #=> Float
resp.pricing_bucket #=> String
resp.time_breakdown.rest_duration #=> Integer
resp.time_breakdown.service_duration #=> Integer
resp.time_breakdown.travel_duration #=> Integer
resp.time_breakdown.wait_duration #=> Integer

Parameters:

• params (Hash) (defaults to: {}) —

  ({})

Options Hash (params):

• :avoid (Types::WaypointOptimizationAvoidanceOptions) —

  Features that are avoided. Avoidance is on a best-case basis. If an avoidance can’t be satisfied for a particular case, this setting is ignored.

• :clustering (Types::WaypointOptimizationClusteringOptions) —

  Clustering allows you to specify how nearby waypoints can be clustered to improve the optimized sequence.

• :departure_time (String) —

  Departure time from the waypoint.

  Time format:‘YYYY-MM-DDThh:mm:ss.sssZ | YYYY-MM-DDThh:mm:ss.sss+hh:mm`

  Examples:

  ‘2020-04-22T17:57:24Z`

  ‘2020-04-22T17:57:24+02:00`

• :destination (Array<Float>) —

  The final position for the route in the World Geodetic System (WGS 84) format: ‘[longitude, latitude]`.

• :destination_options (Types::WaypointOptimizationDestinationOptions) —

  Destination related options.

• :driver (Types::WaypointOptimizationDriverOptions) —

  Driver related options.

• :exclude (Types::WaypointOptimizationExclusionOptions) —

  Features to be strictly excluded while calculating the route.

• :key (String) —

  Optional: The API key to be used for authorization. Either an API key or valid SigV4 signature must be provided when making a request.

• :optimize_sequencing_for (String) —

  Specifies the optimization criteria for the calculated sequence.

  Default value: ‘FastestRoute`.

• :origin (required, Array<Float>) —

  The start position for the route in World Geodetic System (WGS 84) format: [longitude, latitude].

• :origin_options (Types::WaypointOptimizationOriginOptions) —

  Origin related options.

• :traffic (Types::WaypointOptimizationTrafficOptions) —

  Traffic-related options.

• :travel_mode (String) —

  Specifies the mode of transport when calculating a route. Used in estimating the speed of travel and road compatibility.

  Default value: ‘Car`

• :travel_mode_options (Types::WaypointOptimizationTravelModeOptions) —

  Travel mode related options for the provided travel mode.

• :waypoints (Array<Types::WaypointOptimizationWaypoint>) —

  List of waypoints between the ‘Origin` and `Destination`.

Returns:

• (Types::OptimizeWaypointsResponse) —

  Returns a response object which responds to the following methods:

  • #connections => Array&lt;Types::WaypointOptimizationConnection&gt;

  • #distance => Integer

  • #duration => Integer

  • #impeding_waypoints => Array&lt;Types::WaypointOptimizationImpedingWaypoint&gt;

  • #optimized_waypoints => Array&lt;Types::WaypointOptimizationOptimizedWaypoint&gt;

  • #pricing_bucket => String

  • #time_breakdown => Types::WaypointOptimizationTimeBreakdown

See Also:

• AWS API Documentation

# File 'lib/aws-sdk-georoutes/client.rb', line 2415

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

#snap_to_roads(params = {}) ⇒ Types::SnapToRoadsResponse

‘SnapToRoads` matches GPS trace to roads most likely traveled on.

For more information, see [Snap to Roads] in the *Amazon Location Service Developer Guide*.

[1]: docs.aws.amazon.com/location/latest/developerguide/snap-to-roads.html

Examples:

Request syntax with placeholder values

resp = client.snap_to_roads({
  key: "ApiKey",
  snapped_geometry_format: "FlexiblePolyline", # accepts FlexiblePolyline, Simple
  snap_radius: 1,
  trace_points: [ # required
    {
      heading: 1.0,
      position: [1.0], # required
      speed: 1.0,
      timestamp: "TimestampWithTimezoneOffset",
    },
  ],
  travel_mode: "Car", # accepts Car, Pedestrian, Scooter, Truck
  travel_mode_options: {
    truck: {
      gross_weight: 1,
      hazardous_cargos: ["Combustible"], # accepts Combustible, Corrosive, Explosive, Flammable, Gas, HarmfulToWater, Organic, Other, Poison, PoisonousInhalation, Radioactive
      height: 1,
      length: 1,
      trailer: {
        trailer_count: 1,
      },
      tunnel_restriction_code: "TunnelRestrictionCode",
      width: 1,
    },
  },
})

Response structure

resp.notices #=> Array
resp.notices[0].code #=> String, one of "TracePointsHeadingIgnored", "TracePointsIgnored", "TracePointsMovedByLargeDistance", "TracePointsNotMatched", "TracePointsOutOfSequence", "TracePointsSpeedEstimated", "TracePointsSpeedIgnored"
resp.notices[0].title #=> String
resp.notices[0].trace_point_indexes #=> Array
resp.notices[0].trace_point_indexes[0] #=> Integer
resp.pricing_bucket #=> String
resp.snapped_geometry.line_string #=> Array
resp.snapped_geometry.line_string[0] #=> Array
resp.snapped_geometry.line_string[0][0] #=> Float
resp.snapped_geometry.polyline #=> String
resp.snapped_geometry_format #=> String, one of "FlexiblePolyline", "Simple"
resp.snapped_trace_points #=> Array
resp.snapped_trace_points[0].confidence #=> Float
resp.snapped_trace_points[0].original_position #=> Array
resp.snapped_trace_points[0].original_position[0] #=> Float
resp.snapped_trace_points[0].snapped_position #=> Array
resp.snapped_trace_points[0].snapped_position[0] #=> Float

Parameters:

• params (Hash) (defaults to: {}) —

  ({})

Options Hash (params):

• :key (String) —

  Optional: The API key to be used for authorization. Either an API key or valid SigV4 signature must be provided when making a request.

• :snapped_geometry_format (String) —

  Chooses what the returned SnappedGeometry format should be.

  Default value: ‘FlexiblePolyline`

• :snap_radius (Integer) —

  The radius around the provided tracepoint that is considered for snapping.

  Unit: ‘meters`

  Default value: ‘300`

• :trace_points (required, Array<Types::RoadSnapTracePoint>) —

  List of trace points to be snapped onto the road network.

• :travel_mode (String) —

  Specifies the mode of transport when calculating a route. Used in estimating the speed of travel and road compatibility.

  Default value: ‘Car`

• :travel_mode_options (Types::RoadSnapTravelModeOptions) —

  Travel mode related options for the provided travel mode.

Returns:

• (Types::SnapToRoadsResponse) —

  Returns a response object which responds to the following methods:

  • #notices => Array&lt;Types::RoadSnapNotice&gt;

  • #pricing_bucket => String

  • #snapped_geometry => Types::RoadSnapSnappedGeometry

  • #snapped_geometry_format => String

  • #snapped_trace_points => Array&lt;Types::RoadSnapSnappedTracePoint&gt;

See Also:

• AWS API Documentation

# File 'lib/aws-sdk-georoutes/client.rb', line 2520

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

#waiter_names ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

Deprecated.

# File 'lib/aws-sdk-georoutes/client.rb', line 2549

def waiter_names
  []
end