Esempi di calcolo di una matrice di percorso

Puoi utilizzare il metodo ComputeRouteMatrix con una richiesta e una risposta HTTP o con qualsiasi linguaggio che supporta gRPC, inclusi Java e Go.

Esempi HTTP

L'esempio seguente mostra una richiesta e una risposta HTTP ComputeRouteMatrix.

Richiesta:

curl -X POST -d '{
"origins": [
{
"waypoint": { "location": { "latLng": {
"latitude": 37.420761,
"longitude": -122.081356,
}}},
"routeModifiers": { "avoidFerries": true}
},
{
"waypoint": { "location": { "latLng": {
"latitude": 37.403184,
"longitude": -122.097371,
}}},
"routeModifiers": { "avoidFerries": true}
}
],
"destinations": [
{
"waypoint": { "location": { "latLng": {
"latitude": 37.420999,
"longitude": -122.086894,
}}}
},
{
"waypoint": { "location": { "latLng": {
"latitude": 37.383047,
"longitude": -122.044651,
}}}
}
],
"travelMode": "DRIVE",
"routingPreference": "TRAFFIC_AWARE"
}' -H 'Content-Type: application/json' -H 'X-Goog-Api-Key: <YOUR_API_KEY>' -H 'X-Goog-FieldMask: originIndex,destinationIndex,duration,distanceMeters,status' 'https://routespreferred.googleapis.com/v1alpha:computeRouteMatrix'

Risposta:

[{
  "status": {},
  "distanceMeters": 827,
  "duration": "139s"
}
,
{
  "originIndex": 1,
  "destinationIndex": 1,
  "status": {},
  "distanceMeters": 5597,
  "duration": "383s"
}
,
{
  "originIndex": 1,
  "status": {},
  "distanceMeters": 2926,
  "duration": "316s"
}
,
{
  "destinationIndex": 1,
  "status": {},
  "distanceMeters": 8602,
  "duration": "613s"
}
]

L'esempio seguente mostra una richiesta e una risposta HTTP ComputeRouteMatrix per il calcolo di un prezzo stimato del pedaggio.

Richiesta:

curl -X POST -d '{
"origins": [
{
"waypoint": { "location": { "latLng": {
        "latitude":47.7020056,
        "longitude":-122.3479236,
}}},
"routeModifiers": {
"vehicleInfo":{
      "emissionType": "GASOLINE"
    },
    "tollPasses": [
      "US_MA_EZPASSMA",
      "US_WA_GOOD_TO_GO"
    ]
}
}],
"destinations": [
{
"waypoint": { "location": { "latLng": {
        "latitude":47.6192234,
        "longitude": -122.1676792
}}}
}],
"travelMode": "DRIVE",
"routingPreference": "TRAFFIC_AWARE"
}' -H 'Content-Type: application/json' -H 'X-Goog-Api-Key: <YOUR_API_KEY>' -H 'X-Goog-FieldMask: originIndex,destinationIndex,travelAdvisory,duration,distanceMeters,status' 'https://routespreferred.googleapis.com/v1alpha:computeRouteMatrix'

Risposta:

[{
  "status": {},
  "distanceMeters": 22498,
  "duration": "1251s",
  "travelAdvisory": {
    "tollInfo": {
      "estimatedPrice": [
        {
          "currencyCode": "USD",
          "units": "2",
          "nanos": 700000000
        }
      ]
    }
  }
}
]

Esempi di Java e Go

Gli esempi seguenti mostrano come chiamare il metodo ComputeRouteMatrix con Java o Go. Consulta i repository GitHub di Java e Go corrispondenti per le istruzioni di compilazione.

Java

package com.example;

import com.google.maps.routes.v1.*;
import com.google.type.LatLng;
import io.grpc.CallOptions;
import io.grpc.Channel;
import io.grpc.ClientCall;
import io.grpc.ClientInterceptor;
import io.grpc.ClientInterceptors;
import io.grpc.ForwardingClientCall;
import io.grpc.Metadata;
import io.grpc.MethodDescriptor;
import io.grpc.StatusRuntimeException;
import io.grpc.netty.NettyChannelBuilder;
import java.util.Iterator;
import java.util.concurrent.TimeUnit;
import java.util.logging.Level;
import java.util.logging.Logger;

public class RoutesPreferredClient {
    // For more detail on inserting API keys, see:
    // https://cloud.google.com/endpoints/docs/grpc/restricting-api-access-with-api-keys#java
    // For more detail on system parameters (such as FieldMask), see:
    // https://cloud.google.com/apis/docs/system-parameters
    private static final class RoutesPreferredInterceptor implements ClientInterceptor {
        private final String apiKey;
        private static final Logger logger = Logger.getLogger(RoutesPreferredInterceptor.class.getName());
        private static Metadata.Key<String> API_KEY_HEADER = Metadata.Key.of("x-goog-api-key",
                Metadata.ASCII_STRING_MARSHALLER);
        private static Metadata.Key<String> FIELD_MASK_HEADER = Metadata.Key.of("x-goog-fieldmask",
                Metadata.ASCII_STRING_MARSHALLER);

        public RoutesPreferredInterceptor(String apiKey) {
            this.apiKey = apiKey;
        }

        @Override
        public <ReqT, RespT> ClientCall<ReqT, RespT> interceptCall(MethodDescriptor<ReqT, RespT> method,
                CallOptions callOptions, Channel next) {
            logger.info("Intercepted " + method.getFullMethodName());
            ClientCall<ReqT, RespT> call = next.newCall(method, callOptions);
            call = new ForwardingClientCall.SimpleForwardingClientCall<ReqT, RespT>(call) {
                @Override
                public void start(Listener<RespT> responseListener, Metadata headers) {
                    headers.put(API_KEY_HEADER, apiKey);
                    // Note that setting the field mask to * is OK for testing, but discouraged in
                    // production.
                    // For example, for ComputeRoutes, set the field mask to
                    // "routes.distanceMeters,routes.duration,routes.polyline.encodedPolyline"
                    // in order to get the route distances, durations, and encoded polylines.
                    headers.put(FIELD_MASK_HEADER, "*");
                    super.start(responseListener, headers);
                }
            };
            return call;
        }
    }

    private static final Logger logger = Logger.getLogger(RoutesPreferredClient.class.getName());
    private final RoutesPreferredGrpc.RoutesPreferredBlockingStub blockingStub;

    public RoutesPreferredClient(Channel channel) {
        blockingStub = RoutesPreferredGrpc.newBlockingStub(channel);
    }

    public static Waypoint createWaypointForLatLng(double lat, double lng) {
        return Waypoint.newBuilder()
                .setLocation(Location.newBuilder().setLatLng(LatLng.newBuilder().setLatitude(lat).setLongitude(lng)))
                .build();
    }

    public void computeRoutes() {
        ComputeRoutesRequest request = ComputeRoutesRequest.newBuilder()
                .setOrigin(createWaypointForLatLng(37.420761, -122.081356))
                .setDestination(createWaypointForLatLng(37.420999, -122.086894)).setTravelMode(RouteTravelMode.DRIVE)
                .setRoutingPreference(RoutingPreference.TRAFFIC_AWARE).setComputeAlternativeRoutes(true)
                .setUnits(Units.METRIC).setLanguageCode("en-us")
                .setRouteModifiers(
                        RouteModifiers.newBuilder().setAvoidTolls(false).setAvoidHighways(true).setAvoidFerries(true))
                .setPolylineQuality(PolylineQuality.OVERVIEW).build();
        ComputeRoutesResponse response;
        try {
            logger.info("About to send request: " + request.toString());
            response = blockingStub.withDeadlineAfter(2000, TimeUnit.MILLISECONDS).computeRoutes(request);
        } catch (StatusRuntimeException e) {
            logger.log(Level.WARNING, "RPC failed: {0}", e.getStatus());
            return;
        }
        logger.info("Response: " + response.toString());
    }

    public void computeRouteMatrix() {
        ComputeRouteMatrixRequest request = ComputeRouteMatrixRequest.newBuilder()
                .addOrigins(RouteMatrixOrigin.newBuilder().setWaypoint(createWaypointForLatLng(37.420761, -122.081356))
                        .setRouteModifiers(RouteModifiers.newBuilder().setAvoidTolls(false).setAvoidHighways(true)
                                .setAvoidFerries(true)))
                .addOrigins(RouteMatrixOrigin.newBuilder().setWaypoint(createWaypointForLatLng(37.403184, -122.097371)))
                .addDestinations(RouteMatrixDestination.newBuilder()
                        .setWaypoint(createWaypointForLatLng(37.420999, -122.086894)))
                .addDestinations(RouteMatrixDestination.newBuilder()
                        .setWaypoint(createWaypointForLatLng(37.383047, -122.044651)))
                .setTravelMode(RouteTravelMode.DRIVE).setRoutingPreference(RoutingPreference.TRAFFIC_AWARE).build();
        Iterator<RouteMatrixElement> elements;
        try {
            logger.info("About to send request: " + request.toString());
            elements = blockingStub.withDeadlineAfter(2000, TimeUnit.MILLISECONDS).computeRouteMatrix(request);
        } catch (StatusRuntimeException e) {
            logger.log(Level.WARNING, "RPC failed: {0}", e.getStatus());
            return;
        }

        while (elements.hasNext()) {
            logger.info("Element response: " + elements.next().toString());
        }
    }

    public static void main(String[] args) throws Exception {
        String apiKey = System.getenv("GOOGLE_MAPS_API_KEY");

        // The standard TLS port is 443
        Channel channel = NettyChannelBuilder.forAddress("routespreferred.googleapis.com", 443).build();
        channel = ClientInterceptors.intercept(channel, new RoutesPreferredInterceptor(apiKey));

        RoutesPreferredClient client = new RoutesPreferredClient(channel);
        client.computeRoutes();
        client.computeRouteMatrix();
    }
}
  

Vai

package main

import (
	"context"
	"crypto/tls"
	"io"
	"log"
	"os"
	"time"

	"github.com/golang/protobuf/proto"
	v1 "google.golang.org/genproto/googleapis/maps/routes/v1"
	"google.golang.org/genproto/googleapis/type/latlng"
	"google.golang.org/grpc"
	"google.golang.org/grpc/credentials"
	"google.golang.org/grpc/metadata"
)

const (
	serverAddr = "routespreferred.googleapis.com:443"
	// Note that setting the field mask to * is OK for testing, but discouraged in
	// production.
	// For example, for ComputeRoutes, set the field mask to
	// "routes.distanceMeters,routes.duration,routes.polyline.encodedPolyline"
	// in order to get the route distances, durations, and encoded polylines.
	fieldMask = "*"
)

func createWaypoint(lat float64, lng float64) *v1.Waypoint {
	return &v1.Waypoint{LocationType: &v1.Waypoint_Location{
		Location: &v1.Location{
			LatLng: &latlng.LatLng{Latitude: lat, Longitude: lng},
		},
	}}
}

func callComputeRoutes(client v1.RoutesPreferredClient, ctx *context.Context) {
	request := v1.ComputeRoutesRequest{
		Origin:                   createWaypoint(37.420761, -122.081356),
		Destination:              createWaypoint(37.420999, -122.086894),
		TravelMode:               v1.RouteTravelMode_DRIVE,
		RoutingPreference:        v1.RoutingPreference_TRAFFIC_AWARE,
		ComputeAlternativeRoutes: true,
		Units:                    v1.Units_METRIC,
		LanguageCode:             "en-us",
		RouteModifiers: &v1.RouteModifiers{
			AvoidTolls:    false,
			AvoidHighways: true,
			AvoidFerries:  true,
		},
		PolylineQuality: v1.PolylineQuality_OVERVIEW,
	}
	marshaler := proto.TextMarshaler{}
	log.Printf("Sending request: \n%s", marshaler.Text(&request))
	result, err := client.ComputeRoutes(*ctx, &request)

	if err != nil {
		log.Fatalf("Failed to call ComputeRoutes: %v", err)
	}
	log.Printf("Result: %s", marshaler.Text(result))
}

func callComputeRouteMatrix(client v1.RoutesPreferredClient, ctx *context.Context) {
	request := v1.ComputeRouteMatrixRequest{
		Origins: []*v1.RouteMatrixOrigin{
			{Waypoint: createWaypoint(37.420761, -122.081356), RouteModifiers: &v1.RouteModifiers{
				AvoidTolls:    false,
				AvoidHighways: true,
				AvoidFerries:  true,
			}},
			{Waypoint: createWaypoint(37.403184, -122.097371)},
		},
		Destinations: []*v1.RouteMatrixDestination{
			{Waypoint: createWaypoint(37.420999, -122.086894)},
			{Waypoint: createWaypoint(37.383047, -122.044651)},
		},
		TravelMode:        v1.RouteTravelMode_DRIVE,
		RoutingPreference: v1.RoutingPreference_TRAFFIC_AWARE,
	}
	marshaler := proto.TextMarshaler{}
	log.Printf("Sending request: \n%s", marshaler.Text(&request))
	stream, err := client.ComputeRouteMatrix(*ctx, &request)

	if err != nil {
		log.Fatalf("Failed to call ComputeRouteMatrix: %v", err)
	}
	for {
		element, err := stream.Recv()
		if err == io.EOF {
			break
		}
		if err != nil {
			log.Fatalf("Received error in ComputeRouteMatrix stream: %v", err)
		}
		log.Printf("Element: %s\n", marshaler.Text(element))
	}
}

func main() {
	config := tls.Config{}
	conn, err := grpc.Dial(serverAddr,
		grpc.WithTransportCredentials(credentials.NewTLS(&config)))
	if err != nil {
		log.Fatalf("Failed to connect: %v", err)
	}
	defer conn.Close()
	client := v1.NewRoutesPreferredClient(conn)
	ctx, cancel := context.WithTimeout(context.Background(), 2*time.Second)
	ctx = metadata.AppendToOutgoingContext(ctx, "X-Goog-Api-Key", os.Getenv("GOOGLE_MAPS_API_KEY"))
	ctx = metadata.AppendToOutgoingContext(ctx, "X-Goog-Fieldmask", fieldMask)
	defer cancel()

	callComputeRoutes(client, &ctx)
	callComputeRouteMatrix(client, &ctx)
}
  

Esempio di calcolo delle tariffe per il pedaggio

L'esempio seguente utilizza il metodo computeRouteMatrix per restituire le informazioni sui pedaggi su un percorso con un prezzo stimato quando viene utilizzato un permesso per il pedaggio.

Questa funzionalità è attivata con la maschera di campo routes.travelAdvisory.tollInfo specificata nella richiesta. La tessera per il pedaggio è specificata nel campo route_modifiers. Il prezzo del pedaggio restituito si basa sui prezzi utilizzati dalla tessera specificata. Se viene specificato più di un permesso, viene restituito il prezzo meno costoso.

Richiesta:

curl -X POST -d '{
"origins": [
{
"waypoint": { "location": { "latLng": {
        "latitude":47.7020056,
        "longitude":-122.3479236,
}}},
"routeModifiers": {
"vehicleInfo":{
      "emissionType": "GASOLINE"
    },
    "tollPasses": [
      "US_MA_EZPASSMA",
      "US_WA_GOOD_TO_GO"
    ]
}
}],
"destinations": [
{
"waypoint": { "location": { "latLng": {
        "latitude":47.6192234,
        "longitude": -122.1676792
}}}
}],
"travelMode": "DRIVE",
"routingPreference": "TRAFFIC_AWARE"
}' \
-H 'Content-Type: application/json'  \
-H 'X-Goog-Api-Key: <YOUR_API_KEY>'  \
-H 'X-Goog-FieldMask: originIndex,destinationIndex,travelAdvisory,duration,distanceMeters,status' 'https://routespreferred.googleapis.com/v1alpha:computeRouteMatrix'

Risposta:

[{
  "status": {},
  "distanceMeters": 22495,
  "duration": "1446s",
  "travelAdvisory": {
    "tollInfo": {
      "estimatedPrice": [
        {
          "currencyCode": "USD",
          "units": "4",
          "nanos": 300000000
        }
      ]
    }
  }
}]