// Copyright 2021 Google LLC // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. syntax = "proto3"; package google.maps.routes.v1; import "google/geo/type/viewport.proto"; import "google/maps/routes/v1/polyline.proto"; import "google/maps/routes/v1/waypoint.proto"; import "google/protobuf/duration.proto"; import "google/type/money.proto"; option cc_enable_arenas = true; option csharp_namespace = "Google.Maps.Routes.V1"; option go_package = "google.golang.org/genproto/googleapis/maps/routes/v1;routes"; option java_multiple_files = true; option java_outer_classname = "RouteProto"; option java_package = "com.google.maps.routes.v1"; option objc_class_prefix = "GMRS"; option php_namespace = "Google\\Maps\\Routes\\V1"; // Encapsulates a route, which consists of a series of connected road segments // that join beginning, ending, and intermediate waypoints. message Route { // A collection of legs (path segments between waypoints) that make-up the // route. Each leg corresponds to the trip between two non-`via` Waypoints. // For example, a route with no intermediate waypoints has only one leg. A // route that includes one non-`via` intermediate waypoint has two legs. A // route that includes one `via` intermediate waypoint has one leg. The order // of the legs matches the order of Waypoints from `origin` to `intermediates` // to `destination`. repeated RouteLeg legs = 1; // The travel distance of the route, in meters. int32 distance_meters = 2; // The length of time needed to navigate the route. If you set the // `route_preference` to `TRAFFIC_UNAWARE`, then this value is the same as // `static_duration`. If you set the `route_preference` to either // `TRAFFIC_AWARE` or `TRAFFIC_AWARE_OPTIMAL`, then this value is calculated // taking traffic conditions into account. google.protobuf.Duration duration = 3; // The duration of traveling through the route without taking traffic // conditions into consideration. google.protobuf.Duration static_duration = 4; // The overall route polyline. This polyline will be the combined polyline of // all `legs`. Polyline polyline = 5; // A description of the route. string description = 6; // An array of warnings to show when displaying the route. repeated string warnings = 7; // The viewport bounding box of the polyline. google.geo.type.Viewport viewport = 8; // Additional information about the route. RouteTravelAdvisory travel_advisory = 9; } // Encapsulates the additional information that the user should be informed // about, such as possible traffic zone restriction etc. message RouteTravelAdvisory { // The traffic restriction that applies to the route. A vehicle that is // subject to the restriction is not allowed to travel on the route. As of // October 2019, only Jakarta, Indonesia takes into consideration. TrafficRestriction traffic_restriction = 1; // Encapsulates information about tolls on the Route. // This field is only populated if we expect there are tolls on the Route. // If this field is set but the estimated_price subfield is not populated, // we expect that road contains tolls but we do not know an estimated price. // If this field is not set, then we expect there is no toll on the Route. TollInfo toll_info = 2; // Speed reading intervals detailing traffic density. Applicable in case of // `TRAFFIC_AWARE` and `TRAFFIC_AWARE_OPTIMAL` routing preferences. // The intervals cover the entire polyline of the route without overlap. // The start point of a specified interval is the same as the end point of the // preceding interval. // // Example: // // polyline: A ---- B ---- C ---- D ---- E ---- F ---- G // speed_reading_intervals: [A,C), [C,D), [D,G). repeated SpeedReadingInterval speed_reading_intervals = 3; } // Encapsulates the additional information that the user should be informed // about, such as possible traffic zone restriction etc. on a route leg. message RouteLegTravelAdvisory { // Encapsulates information about tolls on the specific RouteLeg. // This field is only populated if we expect there are tolls on the RouteLeg. // If this field is set but the estimated_price subfield is not populated, // we expect that road contains tolls but we do not know an estimated price. // If this field does not exist, then there is no toll on the RouteLeg. TollInfo toll_info = 1; // Speed reading intervals detailing traffic density. Applicable in case of // `TRAFFIC_AWARE` and `TRAFFIC_AWARE_OPTIMAL` routing preferences. // The intervals cover the entire polyline of the RouteLg without overlap. // The start point of a specified interval is the same as the end point of the // preceding interval. // // Example: // // polyline: A ---- B ---- C ---- D ---- E ---- F ---- G // speed_reading_intervals: [A,C), [C,D), [D,G). repeated SpeedReadingInterval speed_reading_intervals = 2; } // Encapsulates the additional information that the user should be informed // about, such as possible traffic zone restriction on a leg step. message RouteLegStepTravelAdvisory { // Speed reading intervals detailing traffic density. Applicable in case of // `TRAFFIC_AWARE` and `TRAFFIC_AWARE_OPTIMAL` routing preferences. // The intervals cover the entire polyline of the RouteLegStep without // overlap. The start point of a specified interval is the same as the end // point of the preceding interval. // // Example: // // polyline: A ---- B ---- C ---- D ---- E ---- F ---- G // speed_reading_intervals: [A,C), [C,D), [D,G). repeated SpeedReadingInterval speed_reading_intervals = 1; } // Encapsulates the traffic restriction applied to the route. As of October // 2019, only Jakarta, Indonesia takes into consideration. message TrafficRestriction { // The restriction based on the vehicle's license plate last character. If // this field does not exist, then no restriction on route. LicensePlateLastCharacterRestriction license_plate_last_character_restriction = 1; } // Encapsulates the license plate last character restriction. message LicensePlateLastCharacterRestriction { // The allowed last character of a license plate of a vehicle. Only vehicles // whose license plate's last characters match these are allowed to travel on // the route. If empty, no vehicle is allowed. repeated string allowed_last_characters = 1; } // Encapsulates a segment between non-`via` waypoints. message RouteLeg { // The travel distance of the route leg, in meters. int32 distance_meters = 1; // The length of time needed to navigate the leg. If the `route_preference` // is set to `TRAFFIC_UNAWARE`, then this value is the same as // `static_duration`. If the `route_preference` is either `TRAFFIC_AWARE` or // `TRAFFIC_AWARE_OPTIMAL`, then this value is calculated taking traffic // conditions into account. google.protobuf.Duration duration = 2; // The duration of traveling through the leg, calculated without taking // traffic conditions into consideration. google.protobuf.Duration static_duration = 3; // The overall polyline for this leg. This includes that each `step`'s // polyline. Polyline polyline = 4; // The start location of this leg. This might be different from the provided // `origin`. For example, when the provided `origin` is not near a road, this // is a point on the road. Location start_location = 5; // The end location of this leg. This might be different from the provided // `destination`. For example, when the provided `destination` is not near a // road, this is a point on the road. Location end_location = 6; // An array of steps denoting segments within this leg. Each step represents // one navigation instruction. repeated RouteLegStep steps = 7; // Encapsulates the additional information that the user should be informed // about, such as possible traffic zone restriction etc. on a route leg. RouteLegTravelAdvisory travel_advisory = 8; } // Encapsulates toll information on a `Route` or on a `RouteLeg`. message TollInfo { // The monetary amount of tolls for the corresponding Route or RouteLeg. // This list contains a money amount for each currency that is expected // to be charged by the toll stations. Typically this list will contain only // one item for routes with tolls in one currency. For international trips, // this list may contain multiple items to reflect tolls in different // currencies. repeated google.type.Money estimated_price = 1; } // Encapsulates a segment of a `RouteLeg`. A step corresponds to a single // navigation instruction. Route legs are made up of steps. message RouteLegStep { // The travel distance of this step, in meters. In some circumstances, this // field might not have a value. int32 distance_meters = 1; // The duration of travel through this step without taking traffic conditions // into consideration. In some circumstances, this field might not have a // value. google.protobuf.Duration static_duration = 2; // The polyline associated with this step. Polyline polyline = 3; // The start location of this step. Location start_location = 4; // The end location of this step. Location end_location = 5; // Navigation instructions. NavigationInstruction navigation_instruction = 6; // Encapsulates the additional information that the user should be informed // about, such as possible traffic zone restriction on a leg step. RouteLegStepTravelAdvisory travel_advisory = 7; } message NavigationInstruction { // Encapsulates the navigation instructions for the current step (e.g., turn // left, merge, straight, etc.). This field determines which icon to display. Maneuver maneuver = 1; // Instructions for navigating this step. string instructions = 2; } // A set of values that specify the navigation action to take for the current // step (e.g., turn left, merge, straight, etc.). enum Maneuver { // Not used. MANEUVER_UNSPECIFIED = 0; // Turn slightly to the left. TURN_SLIGHT_LEFT = 1; // Turn sharply to the left. TURN_SHARP_LEFT = 2; // Make a left u-turn. UTURN_LEFT = 3; // Turn left. TURN_LEFT = 4; // Turn slightly to the right. TURN_SLIGHT_RIGHT = 5; // Turn sharply to the right. TURN_SHARP_RIGHT = 6; // Make a right u-turn. UTURN_RIGHT = 7; // Turn right. TURN_RIGHT = 8; // Go straight. STRAIGHT = 9; // Take the left ramp. RAMP_LEFT = 10; // Take the right ramp. RAMP_RIGHT = 11; // Merge into traffic. MERGE = 12; // Take the left fork. FORK_LEFT = 13; // Take the right fork. FORK_RIGHT = 14; // Take the ferry. FERRY = 15; // Take the train leading onto the ferry. FERRY_TRAIN = 16; // Turn left at the roundabout. ROUNDABOUT_LEFT = 17; // Turn right at the roundabout. ROUNDABOUT_RIGHT = 18; } // Traffic density indicator on a contiguous segment of a polyline or path. // Given a path with points P_0, P_1, ... , P_N (zero-based index), the // SpeedReadingInterval defines an interval and describes its traffic using the // following categories. message SpeedReadingInterval { // The classification of polyline speed based on traffic data. enum Speed { // Default value. This value is unused. SPEED_UNSPECIFIED = 0; // Normal speed, no slowdown is detected. NORMAL = 1; // Slowdown detected, but no traffic jam formed. SLOW = 2; // Traffic jam detected. TRAFFIC_JAM = 3; } // The starting index of this interval in the polyline. // In JSON, when the index is 0, the field appears to be unpopulated. int32 start_polyline_point_index = 1; // The ending index of this interval in the polyline. // In JSON, when the index is 0, the field appears to be unpopulated. int32 end_polyline_point_index = 2; // Traffic speed in this interval. Speed speed = 3; }