Scopri come trovare la posizione attuale di un dispositivo Android e visualizzare i dettagli del luogo (un'attività o un altro punto d'interesse) corrispondente. Segui questo tutorial per creare un'app per Android utilizzando il Maps SDK for Android, il Places SDK for Android e il fornitore di servizi di geolocalizzazione combinato nelle API di geolocalizzazione di Google Play Services.
Ottieni il codice
Clona o scarica il repository di esempi v2 dell'API Google Maps per Android da GitHub.
Visualizza la versione Java dell'attività:
// Copyright 2020 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. package com.example.currentplacedetailsonmap; import android.content.DialogInterface; import android.content.pm.PackageManager; import android.location.Location; import android.os.Bundle; import android.util.Log; import android.view.Menu; import android.view.MenuItem; import android.view.View; import android.widget.FrameLayout; import android.widget.TextView; import androidx.annotation.NonNull; import androidx.appcompat.app.AlertDialog; import androidx.appcompat.app.AppCompatActivity; import androidx.core.app.ActivityCompat; import androidx.core.content.ContextCompat; import com.google.android.gms.location.FusedLocationProviderClient; import com.google.android.gms.location.LocationServices; import com.google.android.gms.maps.CameraUpdateFactory; import com.google.android.gms.maps.GoogleMap; import com.google.android.gms.maps.OnMapReadyCallback; import com.google.android.gms.maps.SupportMapFragment; import com.google.android.gms.maps.model.CameraPosition; import com.google.android.gms.maps.model.LatLng; import com.google.android.gms.maps.model.Marker; import com.google.android.gms.maps.model.MarkerOptions; import com.google.android.gms.tasks.OnCompleteListener; import com.google.android.gms.tasks.Task; import com.google.android.libraries.places.api.Places; import com.google.android.libraries.places.api.model.Place; import com.google.android.libraries.places.api.model.PlaceLikelihood; import com.google.android.libraries.places.api.net.FindCurrentPlaceRequest; import com.google.android.libraries.places.api.net.FindCurrentPlaceResponse; import com.google.android.libraries.places.api.net.PlacesClient; import java.util.Arrays; import java.util.List; /** * An activity that displays a map showing the place at the device's current location. */ public class MapsActivityCurrentPlace extends AppCompatActivity implements OnMapReadyCallback { private static final String TAG = MapsActivityCurrentPlace.class.getSimpleName(); private GoogleMap map; private CameraPosition cameraPosition; // The entry point to the Places API. private PlacesClient placesClient; // The entry point to the Fused Location Provider. private FusedLocationProviderClient fusedLocationProviderClient; // A default location (Sydney, Australia) and default zoom to use when location permission is // not granted. private final LatLng defaultLocation = new LatLng(-33.8523341, 151.2106085); private static final int DEFAULT_ZOOM = 15; private static final int PERMISSIONS_REQUEST_ACCESS_FINE_LOCATION = 1; private boolean locationPermissionGranted; // The geographical location where the device is currently located. That is, the last-known // location retrieved by the Fused Location Provider. private Location lastKnownLocation; // Keys for storing activity state. private static final String KEY_CAMERA_POSITION = "camera_position"; private static final String KEY_LOCATION = "location"; // Used for selecting the current place. private static final int M_MAX_ENTRIES = 5; private String[] likelyPlaceNames; private String[] likelyPlaceAddresses; private List[] likelyPlaceAttributions; private LatLng[] likelyPlaceLatLngs; @Override protected void onCreate(Bundle savedInstanceState) { super.onCreate(savedInstanceState); // Retrieve location and camera position from saved instance state. if (savedInstanceState != null) { lastKnownLocation = savedInstanceState.getParcelable(KEY_LOCATION); cameraPosition = savedInstanceState.getParcelable(KEY_CAMERA_POSITION); } // Retrieve the content view that renders the map. setContentView(R.layout.activity_maps); // Construct a PlacesClient Places.initialize(getApplicationContext(), BuildConfig.PLACES_API_KEY); placesClient = Places.createClient(this); // Construct a FusedLocationProviderClient. fusedLocationProviderClient = LocationServices.getFusedLocationProviderClient(this); // Build the map. SupportMapFragment mapFragment = (SupportMapFragment) getSupportFragmentManager() .findFragmentById(R.id.map); mapFragment.getMapAsync(this); } /** * Saves the state of the map when the activity is paused. */ @Override protected void onSaveInstanceState(Bundle outState) { if (map != null) { outState.putParcelable(KEY_CAMERA_POSITION, map.getCameraPosition()); outState.putParcelable(KEY_LOCATION, lastKnownLocation); } super.onSaveInstanceState(outState); } /** * Sets up the options menu. * @param menu The options menu. * @return Boolean. */ @Override public boolean onCreateOptionsMenu(Menu menu) { getMenuInflater().inflate(R.menu.current_place_menu, menu); return true; } /** * Handles a click on the menu option to get a place. * @param item The menu item to handle. * @return Boolean. */ @Override public boolean onOptionsItemSelected(MenuItem item) { if (item.getItemId() == R.id.option_get_place) { showCurrentPlace(); } return true; } /** * Manipulates the map when it's available. * This callback is triggered when the map is ready to be used. */ @Override public void onMapReady(GoogleMap map) { this.map = map; // Use a custom info window adapter to handle multiple lines of text in the // info window contents. this.map.setInfoWindowAdapter(new GoogleMap.InfoWindowAdapter() { @Override // Return null here, so that getInfoContents() is called next. public View getInfoWindow(Marker arg0) { return null; } @Override public View getInfoContents(Marker marker) { // Inflate the layouts for the info window, title and snippet. View infoWindow = getLayoutInflater().inflate(R.layout.custom_info_contents, (FrameLayout) findViewById(R.id.map), false); TextView title = infoWindow.findViewById(R.id.title); title.setText(marker.getTitle()); TextView snippet = infoWindow.findViewById(R.id.snippet); snippet.setText(marker.getSnippet()); return infoWindow; } }); // Prompt the user for permission. getLocationPermission(); // Turn on the My Location layer and the related control on the map. updateLocationUI(); // Get the current location of the device and set the position of the map. getDeviceLocation(); } /** * Gets the current location of the device, and positions the map's camera. */ private void getDeviceLocation() { /* * Get the best and most recent location of the device, which may be null in rare * cases when a location is not available. */ try { if (locationPermissionGranted) { Task<Location> locationResult = fusedLocationProviderClient.getLastLocation(); locationResult.addOnCompleteListener(this, new OnCompleteListener<Location>() { @Override public void onComplete(@NonNull Task<Location> task) { if (task.isSuccessful()) { // Set the map's camera position to the current location of the device. lastKnownLocation = task.getResult(); if (lastKnownLocation != null) { map.moveCamera(CameraUpdateFactory.newLatLngZoom( new LatLng(lastKnownLocation.getLatitude(), lastKnownLocation.getLongitude()), DEFAULT_ZOOM)); } } else { Log.d(TAG, "Current location is null. Using defaults."); Log.e(TAG, "Exception: %s", task.getException()); map.moveCamera(CameraUpdateFactory .newLatLngZoom(defaultLocation, DEFAULT_ZOOM)); map.getUiSettings().setMyLocationButtonEnabled(false); } } }); } } catch (SecurityException e) { Log.e("Exception: %s", e.getMessage(), e); } } /** * Prompts the user for permission to use the device location. */ private void getLocationPermission() { /* * Request location permission, so that we can get the location of the * device. The result of the permission request is handled by a callback, * onRequestPermissionsResult. */ if (ContextCompat.checkSelfPermission(this.getApplicationContext(), android.Manifest.permission.ACCESS_FINE_LOCATION) == PackageManager.PERMISSION_GRANTED) { locationPermissionGranted = true; } else { ActivityCompat.requestPermissions(this, new String[]{android.Manifest.permission.ACCESS_FINE_LOCATION}, PERMISSIONS_REQUEST_ACCESS_FINE_LOCATION); } } /** * Handles the result of the request for location permissions. */ @Override public void onRequestPermissionsResult(int requestCode, @NonNull String[] permissions, @NonNull int[] grantResults) { locationPermissionGranted = false; if (requestCode == PERMISSIONS_REQUEST_ACCESS_FINE_LOCATION) {// If request is cancelled, the result arrays are empty. if (grantResults.length > 0 && grantResults[0] == PackageManager.PERMISSION_GRANTED) { locationPermissionGranted = true; } } else { super.onRequestPermissionsResult(requestCode, permissions, grantResults); } updateLocationUI(); } /** * Prompts the user to select the current place from a list of likely places, and shows the * current place on the map - provided the user has granted location permission. */ private void showCurrentPlace() { if (map == null) { return; } if (locationPermissionGranted) { // Use fields to define the data types to return. List<Place.Field> placeFields = Arrays.asList(Place.Field.NAME, Place.Field.ADDRESS, Place.Field.LAT_LNG); // Use the builder to create a FindCurrentPlaceRequest. FindCurrentPlaceRequest request = FindCurrentPlaceRequest.newInstance(placeFields); // Get the likely places - that is, the businesses and other points of interest that // are the best match for the device's current location. @SuppressWarnings("MissingPermission") final Task<FindCurrentPlaceResponse> placeResult = placesClient.findCurrentPlace(request); placeResult.addOnCompleteListener (new OnCompleteListener<FindCurrentPlaceResponse>() { @Override public void onComplete(@NonNull Task<FindCurrentPlaceResponse> task) { if (task.isSuccessful() && task.getResult() != null) { FindCurrentPlaceResponse likelyPlaces = task.getResult(); // Set the count, handling cases where less than 5 entries are returned. int count; if (likelyPlaces.getPlaceLikelihoods().size() < M_MAX_ENTRIES) { count = likelyPlaces.getPlaceLikelihoods().size(); } else { count = M_MAX_ENTRIES; } int i = 0; likelyPlaceNames = new String[count]; likelyPlaceAddresses = new String[count]; likelyPlaceAttributions = new List[count]; likelyPlaceLatLngs = new LatLng[count]; for (PlaceLikelihood placeLikelihood : likelyPlaces.getPlaceLikelihoods()) { // Build a list of likely places to show the user. likelyPlaceNames[i] = placeLikelihood.getPlace().getName(); likelyPlaceAddresses[i] = placeLikelihood.getPlace().getAddress(); likelyPlaceAttributions[i] = placeLikelihood.getPlace() .getAttributions(); likelyPlaceLatLngs[i] = placeLikelihood.getPlace().getLatLng(); i++; if (i > (count - 1)) { break; } } // Show a dialog offering the user the list of likely places, and add a // marker at the selected place. MapsActivityCurrentPlace.this.openPlacesDialog(); } else { Log.e(TAG, "Exception: %s", task.getException()); } } }); } else { // The user has not granted permission. Log.i(TAG, "The user did not grant location permission."); // Add a default marker, because the user hasn't selected a place. map.addMarker(new MarkerOptions() .title(getString(R.string.default_info_title)) .position(defaultLocation) .snippet(getString(R.string.default_info_snippet))); // Prompt the user for permission. getLocationPermission(); } } /** * Displays a form allowing the user to select a place from a list of likely places. */ private void openPlacesDialog() { // Ask the user to choose the place where they are now. DialogInterface.OnClickListener listener = new DialogInterface.OnClickListener() { @Override public void onClick(DialogInterface dialog, int which) { // The "which" argument contains the position of the selected item. LatLng markerLatLng = likelyPlaceLatLngs[which]; String markerSnippet = likelyPlaceAddresses[which]; if (likelyPlaceAttributions[which] != null) { markerSnippet = markerSnippet + "\n" + likelyPlaceAttributions[which]; } // Add a marker for the selected place, with an info window // showing information about that place. map.addMarker(new MarkerOptions() .title(likelyPlaceNames[which]) .position(markerLatLng) .snippet(markerSnippet)); // Position the map's camera at the location of the marker. map.moveCamera(CameraUpdateFactory.newLatLngZoom(markerLatLng, DEFAULT_ZOOM)); } }; // Display the dialog. AlertDialog dialog = new AlertDialog.Builder(this) .setTitle(R.string.pick_place) .setItems(likelyPlaceNames, listener) .show(); } /** * Updates the map's UI settings based on whether the user has granted location permission. */ private void updateLocationUI() { if (map == null) { return; } try { if (locationPermissionGranted) { map.setMyLocationEnabled(true); map.getUiSettings().setMyLocationButtonEnabled(true); } else { map.setMyLocationEnabled(false); map.getUiSettings().setMyLocationButtonEnabled(false); lastKnownLocation = null; } } catch (SecurityException e) { Log.e("Exception: %s", e.getMessage()); } } }
Visualizza la versione Kotlin dell'attività:
// Copyright 2020 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. package com.example.currentplacedetailsonmap import android.Manifest import android.annotation.SuppressLint import android.content.DialogInterface import android.content.pm.PackageManager import android.location.Location import android.os.Bundle import android.util.Log import android.view.Menu import android.view.MenuItem import android.view.View import android.widget.FrameLayout import android.widget.TextView import androidx.appcompat.app.AlertDialog import androidx.appcompat.app.AppCompatActivity import androidx.core.app.ActivityCompat import androidx.core.content.ContextCompat import com.google.android.gms.location.FusedLocationProviderClient import com.google.android.gms.location.LocationServices import com.google.android.gms.maps.CameraUpdateFactory import com.google.android.gms.maps.GoogleMap import com.google.android.gms.maps.GoogleMap.InfoWindowAdapter import com.google.android.gms.maps.OnMapReadyCallback import com.google.android.gms.maps.SupportMapFragment import com.google.android.gms.maps.model.CameraPosition import com.google.android.gms.maps.model.LatLng import com.google.android.gms.maps.model.Marker import com.google.android.gms.maps.model.MarkerOptions import com.google.android.libraries.places.api.Places import com.google.android.libraries.places.api.model.Place import com.google.android.libraries.places.api.net.FindCurrentPlaceRequest import com.google.android.libraries.places.api.net.PlacesClient /** * An activity that displays a map showing the place at the device's current location. */ class MapsActivityCurrentPlace : AppCompatActivity(), OnMapReadyCallback { private var map: GoogleMap? = null private var cameraPosition: CameraPosition? = null // The entry point to the Places API. private lateinit var placesClient: PlacesClient // The entry point to the Fused Location Provider. private lateinit var fusedLocationProviderClient: FusedLocationProviderClient // A default location (Sydney, Australia) and default zoom to use when location permission is // not granted. private val defaultLocation = LatLng(-33.8523341, 151.2106085) private var locationPermissionGranted = false // The geographical location where the device is currently located. That is, the last-known // location retrieved by the Fused Location Provider. private var lastKnownLocation: Location? = null private var likelyPlaceNames: Array<String?> = arrayOfNulls(0) private var likelyPlaceAddresses: Array<String?> = arrayOfNulls(0) private var likelyPlaceAttributions: Array<List<*>?> = arrayOfNulls(0) private var likelyPlaceLatLngs: Array<LatLng?> = arrayOfNulls(0) override fun onCreate(savedInstanceState: Bundle?) { super.onCreate(savedInstanceState) // Retrieve location and camera position from saved instance state. if (savedInstanceState != null) { lastKnownLocation = savedInstanceState.getParcelable(KEY_LOCATION) cameraPosition = savedInstanceState.getParcelable(KEY_CAMERA_POSITION) } // Retrieve the content view that renders the map. setContentView(R.layout.activity_maps) // Construct a PlacesClient Places.initialize(applicationContext, BuildConfig.MAPS_API_KEY) placesClient = Places.createClient(this) // Construct a FusedLocationProviderClient. fusedLocationProviderClient = LocationServices.getFusedLocationProviderClient(this) // Build the map. val mapFragment = supportFragmentManager .findFragmentById(R.id.map) as SupportMapFragment? mapFragment?.getMapAsync(this) } /** * Saves the state of the map when the activity is paused. */ override fun onSaveInstanceState(outState: Bundle) { map?.let { map -> outState.putParcelable(KEY_CAMERA_POSITION, map.cameraPosition) outState.putParcelable(KEY_LOCATION, lastKnownLocation) } super.onSaveInstanceState(outState) } /** * Sets up the options menu. * @param menu The options menu. * @return Boolean. */ override fun onCreateOptionsMenu(menu: Menu): Boolean { menuInflater.inflate(R.menu.current_place_menu, menu) return true } /** * Handles a click on the menu option to get a place. * @param item The menu item to handle. * @return Boolean. */ override fun onOptionsItemSelected(item: MenuItem): Boolean { if (item.itemId == R.id.option_get_place) { showCurrentPlace() } return true } /** * Manipulates the map when it's available. * This callback is triggered when the map is ready to be used. */ override fun onMapReady(map: GoogleMap) { this.map = map // Use a custom info window adapter to handle multiple lines of text in the // info window contents. this.map?.setInfoWindowAdapter(object : InfoWindowAdapter { // Return null here, so that getInfoContents() is called next. override fun getInfoWindow(arg0: Marker): View? { return null } override fun getInfoContents(marker: Marker): View { // Inflate the layouts for the info window, title and snippet. val infoWindow = layoutInflater.inflate(R.layout.custom_info_contents, findViewById<FrameLayout>(R.id.map), false) val title = infoWindow.findViewById<TextView>(R.id.title) title.text = marker.title val snippet = infoWindow.findViewById<TextView>(R.id.snippet) snippet.text = marker.snippet return infoWindow } }) // Prompt the user for permission. getLocationPermission() // Turn on the My Location layer and the related control on the map. updateLocationUI() // Get the current location of the device and set the position of the map. getDeviceLocation() } /** * Gets the current location of the device, and positions the map's camera. */ @SuppressLint("MissingPermission") private fun getDeviceLocation() { /* * Get the best and most recent location of the device, which may be null in rare * cases when a location is not available. */ try { if (locationPermissionGranted) { val locationResult = fusedLocationProviderClient.lastLocation locationResult.addOnCompleteListener(this) { task -> if (task.isSuccessful) { // Set the map's camera position to the current location of the device. lastKnownLocation = task.result if (lastKnownLocation != null) { map?.moveCamera(CameraUpdateFactory.newLatLngZoom( LatLng(lastKnownLocation!!.latitude, lastKnownLocation!!.longitude), DEFAULT_ZOOM.toFloat())) } } else { Log.d(TAG, "Current location is null. Using defaults.") Log.e(TAG, "Exception: %s", task.exception) map?.moveCamera(CameraUpdateFactory .newLatLngZoom(defaultLocation, DEFAULT_ZOOM.toFloat())) map?.uiSettings?.isMyLocationButtonEnabled = false } } } } catch (e: SecurityException) { Log.e("Exception: %s", e.message, e) } } /** * Prompts the user for permission to use the device location. */ private fun getLocationPermission() { /* * Request location permission, so that we can get the location of the * device. The result of the permission request is handled by a callback, * onRequestPermissionsResult. */ if (ContextCompat.checkSelfPermission(this.applicationContext, Manifest.permission.ACCESS_FINE_LOCATION) == PackageManager.PERMISSION_GRANTED) { locationPermissionGranted = true } else { ActivityCompat.requestPermissions(this, arrayOf(Manifest.permission.ACCESS_FINE_LOCATION), PERMISSIONS_REQUEST_ACCESS_FINE_LOCATION) } } /** * Handles the result of the request for location permissions. */ override fun onRequestPermissionsResult(requestCode: Int, permissions: Array<String>, grantResults: IntArray) { locationPermissionGranted = false when (requestCode) { PERMISSIONS_REQUEST_ACCESS_FINE_LOCATION -> { // If request is cancelled, the result arrays are empty. if (grantResults.isNotEmpty() && grantResults[0] == PackageManager.PERMISSION_GRANTED) { locationPermissionGranted = true } } else -> super.onRequestPermissionsResult(requestCode, permissions, grantResults) } updateLocationUI() } /** * Prompts the user to select the current place from a list of likely places, and shows the * current place on the map - provided the user has granted location permission. */ @SuppressLint("MissingPermission") private fun showCurrentPlace() { if (map == null) { return } if (locationPermissionGranted) { // Use fields to define the data types to return. val placeFields = listOf(Place.Field.NAME, Place.Field.ADDRESS, Place.Field.LAT_LNG) // Use the builder to create a FindCurrentPlaceRequest. val request = FindCurrentPlaceRequest.newInstance(placeFields) // Get the likely places - that is, the businesses and other points of interest that // are the best match for the device's current location. val placeResult = placesClient.findCurrentPlace(request) placeResult.addOnCompleteListener { task -> if (task.isSuccessful && task.result != null) { val likelyPlaces = task.result // Set the count, handling cases where less than 5 entries are returned. val count = if (likelyPlaces != null && likelyPlaces.placeLikelihoods.size < M_MAX_ENTRIES) { likelyPlaces.placeLikelihoods.size } else { M_MAX_ENTRIES } var i = 0 likelyPlaceNames = arrayOfNulls(count) likelyPlaceAddresses = arrayOfNulls(count) likelyPlaceAttributions = arrayOfNulls<List<*>?>(count) likelyPlaceLatLngs = arrayOfNulls(count) for (placeLikelihood in likelyPlaces?.placeLikelihoods ?: emptyList()) { // Build a list of likely places to show the user. likelyPlaceNames[i] = placeLikelihood.place.name likelyPlaceAddresses[i] = placeLikelihood.place.address likelyPlaceAttributions[i] = placeLikelihood.place.attributions likelyPlaceLatLngs[i] = placeLikelihood.place.latLng i++ if (i > count - 1) { break } } // Show a dialog offering the user the list of likely places, and add a // marker at the selected place. openPlacesDialog() } else { Log.e(TAG, "Exception: %s", task.exception) } } } else { // The user has not granted permission. Log.i(TAG, "The user did not grant location permission.") // Add a default marker, because the user hasn't selected a place. map?.addMarker(MarkerOptions() .title(getString(R.string.default_info_title)) .position(defaultLocation) .snippet(getString(R.string.default_info_snippet))) // Prompt the user for permission. getLocationPermission() } } /** * Displays a form allowing the user to select a place from a list of likely places. */ private fun openPlacesDialog() { // Ask the user to choose the place where they are now. val listener = DialogInterface.OnClickListener { dialog, which -> // The "which" argument contains the position of the selected item. val markerLatLng = likelyPlaceLatLngs[which] var markerSnippet = likelyPlaceAddresses[which] if (likelyPlaceAttributions[which] != null) { markerSnippet = """ $markerSnippet ${likelyPlaceAttributions[which]} """.trimIndent() } if (markerLatLng == null) { return@OnClickListener } // Add a marker for the selected place, with an info window // showing information about that place. map?.addMarker(MarkerOptions() .title(likelyPlaceNames[which]) .position(markerLatLng) .snippet(markerSnippet)) // Position the map's camera at the location of the marker. map?.moveCamera(CameraUpdateFactory.newLatLngZoom(markerLatLng, DEFAULT_ZOOM.toFloat())) } // Display the dialog. AlertDialog.Builder(this) .setTitle(R.string.pick_place) .setItems(likelyPlaceNames, listener) .show() } /** * Updates the map's UI settings based on whether the user has granted location permission. */ @SuppressLint("MissingPermission") private fun updateLocationUI() { if (map == null) { return } try { if (locationPermissionGranted) { map?.isMyLocationEnabled = true map?.uiSettings?.isMyLocationButtonEnabled = true } else { map?.isMyLocationEnabled = false map?.uiSettings?.isMyLocationButtonEnabled = false lastKnownLocation = null getLocationPermission() } } catch (e: SecurityException) { Log.e("Exception: %s", e.message, e) } } companion object { private val TAG = MapsActivityCurrentPlace::class.java.simpleName private const val DEFAULT_ZOOM = 15 private const val PERMISSIONS_REQUEST_ACCESS_FINE_LOCATION = 1 // Keys for storing activity state. private const val KEY_CAMERA_POSITION = "camera_position" private const val KEY_LOCATION = "location" // Used for selecting the current place. private const val M_MAX_ENTRIES = 5 } }
Configurare il progetto di sviluppo
Per creare il progetto del tutorial in Android Studio, segui questi passaggi.
- Scarica e installa Android Studio.
- Aggiungi il pacchetto Google Play Services ad Android Studio.
- Clona o scarica il repository di esempi v2 dell'API Google Maps per Android se non l'hai fatto quando hai iniziato a leggere questo tutorial.
Importa il progetto del tutorial:
- In Android Studio, seleziona File > Nuovo > Importa progetto.
- Vai alla posizione in cui hai salvato il repository di esempi v2 dell'API Google Maps per Android dopo averlo scaricato.
- Trova il progetto CurrentPlaceDetailsOnMap in questa
posizione:
PATH-TO-SAVED-REPO/android-samples/tutorials/java/CurrentPlaceDetailsOnMap
(Java) o
PATH-TO-SAVED-REPO/android-samples/tutorials/kotlin/CurrentPlaceDetailsOnMap
(Kotlin) - Seleziona la directory del progetto, quindi fai clic su Apri. Ora Android Studio compila il progetto utilizzando lo strumento di compilazione Gradle.
Abilita le API necessarie e ottieni una chiave API
Per completare questo tutorial, hai bisogno di un progetto Google Cloud con le API necessarie abilitate e una chiave API autorizzata a utilizzare l'SDK Maps per Android. Per ulteriori dettagli, vedi:
Per visualizzare le API abilitate, vai alla pagina Google Maps Platform in Cloud Console e seleziona il tuo progetto:
Vai alla pagina di Google Maps PlatformSe non vedi che l'API Places è abilitata nel tuo progetto, devi farlo:
Attiva l'API PlacesSe aggiungi limitazioni alla tua chiave API, assicurati di aggiungere l'API Places alla chiave. Per ulteriori informazioni, consulta la pagina Utilizzo delle chiavi API.
Aggiungi la chiave API all'app
- Apri il file
local.properties
del progetto. Aggiungi la stringa seguente e sostituisci
YOUR_API_KEY
con il valore della tua chiave API:MAPS_API_KEY=YOUR_API_KEY
Quando compili l'app, il plug-in Secrets Gradle per Android copia la chiave API e la rende disponibile come variabile di compilazione nel file manifest di Android.
Crea ed esegui la tua app
Collega un dispositivo Android al computer. Segui le istruzioni per attivare le Opzioni sviluppatore sul tuo dispositivo Android e configurare il sistema in modo che rilevi il dispositivo.
In alternativa, puoi utilizzare Gestione AVD per configurare un dispositivo virtuale. Quando scegli un emulatore, assicurati di scegliere un'immagine che includa le API di Google. Per maggiori dettagli, consulta la sezione Configurare un progetto Android Studio.
- In Android Studio, fai clic sull'opzione di menu Esegui (o sull'icona del pulsante di riproduzione). Scegli un dispositivo come richiesto.
Android Studio richiama Gradle per compilare l'app, quindi esegue l'app sul dispositivo o sull'emulatore. Dovresti visualizzare una mappa con una serie di indicatori centrati sulla tua posizione attuale, simile all'immagine in questa pagina.
- Seleziona Ricerca luoghi per aprire un elenco di luoghi (un'attività o un altro punto d'interesse) nelle vicinanze della tua posizione attuale.
- Seleziona un luogo dall'elenco. Alla mappa viene aggiunto un indicatore per il luogo selezionato.
Risoluzione dei problemi:
- Se non vedi una mappa, verifica di aver ottenuto una chiave API e di averla aggiunta all'app, come descritto sopra. Controlla il log in Android Monitor di Android Studio per verificare la presenza di messaggi di errore relativi alla chiave API.
- Se la mappa mostra un solo indicatore situato sul Sydney Harbour Bridge (la posizione predefinita specificata nell'app), verifica di aver concesso all'app l'autorizzazione di accesso alla posizione. L'app richiede l'autorizzazione di accesso alla posizione in fase di esecuzione, seguendo il pattern descritto nella guida alle autorizzazioni di Android. Tieni presente che puoi anche impostare le autorizzazioni direttamente sul dispositivo, scegliendo Impostazioni > App > nome dell'app > Autorizzazioni > Posizione. Per informazioni dettagliate su come gestire le autorizzazioni nel codice, consulta la guida riportata di seguito sulla richiesta dell'autorizzazione di accesso alla posizione nell'app.
- Utilizza gli strumenti di debug di Android Studio per visualizzare i log ed eseguire il debug dell'app.
comprendi il codice
Questa parte del tutorial spiega le parti più importanti dell'app CurrentPlaceDetailsOnMap per aiutarti a capire come creare un'app simile.
Crea un'istanza del client dell'API Places
Questi oggetti sono i punti di contatto principali dell'SDK Places per Android:
- La classe
Places
crea e gestisce i client per l'SDK Places per Android. - L'interfaccia
PlacesClient
recupera la posizione corrente del dispositivo e i luoghi nelle vicinanze.
L'interfaccia LocationServices è l'entry point principale per i servizi di geolocalizzazione di Android.
Per utilizzare le API, procedi nel seguente modo nel metodo
onCreate()
del frammento o dell'attività:
- Inizializza un oggetto
Places
. - Crea un oggetto
PlacesClient
. - Crea un oggetto
FusedLocationProviderClient
.
Ad esempio:
Java
@Override protected void onCreate(Bundle savedInstanceState) { super.onCreate(savedInstanceState); // ... // Retrieve the content view that renders the map. setContentView(R.layout.activity_maps); // Construct a PlacesClient Places.initialize(getApplicationContext(), getString(R.string.maps_api_key)); placesClient = Places.createClient(this); // Construct a FusedLocationProviderClient. fusedLocationProviderClient = LocationServices.getFusedLocationProviderClient(this); }
Kotlin
override fun onCreate(savedInstanceState: Bundle?) { super.onCreate(savedInstanceState) // ... // Retrieve the content view that renders the map. setContentView(R.layout.activity_maps) // Construct a PlacesClient Places.initialize(applicationContext, getString(R.string.maps_api_key)) placesClient = Places.createClient(this) // Construct a FusedLocationProviderClient. fusedLocationProviderClient = LocationServices.getFusedLocationProviderClient(this) }
Richiedi autorizzazione di accesso alla posizione
L'app deve richiedere l'autorizzazione di accesso alla posizione per determinare la posizione del dispositivo e consentire all'utente di toccare il pulsante La mia posizione sulla mappa.
Questo tutorial fornisce il codice necessario per richiedere l'autorizzazione di accesso alla posizione esatta. Per maggiori dettagli, consulta la guida alle autorizzazioni Android.
Aggiungi l'autorizzazione come elemento secondario dell'elemento
<manifest>
nel file manifest Android:<manifest xmlns:android="http://schemas.android.com/apk/res/android" package="com.example.currentplacedetailsonmap"> <uses-permission android:name="android.permission.ACCESS_FINE_LOCATION" /> </manifest>
Richiedi le autorizzazioni di runtime nella tua app, dando all'utente la possibilità di consentire o negare l'autorizzazione di accesso alla posizione. Il seguente codice controlla se l'utente ha concesso l'autorizzazione di accesso alla posizione esatta. In caso contrario, richiede l'autorizzazione:
Java
private void getLocationPermission() { /* * Request location permission, so that we can get the location of the * device. The result of the permission request is handled by a callback, * onRequestPermissionsResult. */ if (ContextCompat.checkSelfPermission(this.getApplicationContext(), android.Manifest.permission.ACCESS_FINE_LOCATION) == PackageManager.PERMISSION_GRANTED) { locationPermissionGranted = true; } else { ActivityCompat.requestPermissions(this, new String[]{android.Manifest.permission.ACCESS_FINE_LOCATION}, PERMISSIONS_REQUEST_ACCESS_FINE_LOCATION); } }
Kotlin
private fun getLocationPermission() { /* * Request location permission, so that we can get the location of the * device. The result of the permission request is handled by a callback, * onRequestPermissionsResult. */ if (ContextCompat.checkSelfPermission(this.applicationContext, Manifest.permission.ACCESS_FINE_LOCATION) == PackageManager.PERMISSION_GRANTED) { locationPermissionGranted = true } else { ActivityCompat.requestPermissions(this, arrayOf(Manifest.permission.ACCESS_FINE_LOCATION), PERMISSIONS_REQUEST_ACCESS_FINE_LOCATION) } }
Sostituisci il callback
onRequestPermissionsResult()
per gestire il risultato della richiesta di autorizzazione:Java
@Override public void onRequestPermissionsResult(int requestCode, @NonNull String[] permissions, @NonNull int[] grantResults) { locationPermissionGranted = false; if (requestCode == PERMISSIONS_REQUEST_ACCESS_FINE_LOCATION) {// If request is cancelled, the result arrays are empty. if (grantResults.length > 0 && grantResults[0] == PackageManager.PERMISSION_GRANTED) { locationPermissionGranted = true; } } else { super.onRequestPermissionsResult(requestCode, permissions, grantResults); } updateLocationUI(); }
Kotlin
override fun onRequestPermissionsResult(requestCode: Int, permissions: Array<String>, grantResults: IntArray) { locationPermissionGranted = false when (requestCode) { PERMISSIONS_REQUEST_ACCESS_FINE_LOCATION -> { // If request is cancelled, the result arrays are empty. if (grantResults.isNotEmpty() && grantResults[0] == PackageManager.PERMISSION_GRANTED) { locationPermissionGranted = true } } else -> super.onRequestPermissionsResult(requestCode, permissions, grantResults) } updateLocationUI() }
Una sezione successiva di questo tutorial descrive il metodo
updateLocationUI()
.
Aggiungere una mappa
Mostra una mappa utilizzando Maps SDK for Android.
Aggiungi un elemento
<fragment>
al file di layout della tua attività,activity_maps.xml
. Questo elemento definisce unSupportMapFragment
che funge da contenitore per la mappa e fornisce l'accesso all'oggettoGoogleMap
. Il tutorial utilizza la versione del frammento della mappa della libreria di supporto Android per garantire la compatibilità con le versioni precedenti del framework Android.<!-- Copyright 2020 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. --> <fragment xmlns:android="http://schemas.android.com/apk/res/android" xmlns:tools="http://schemas.android.com/tools" android:id="@+id/map" android:name="com.google.android.gms.maps.SupportMapFragment" android:layout_width="match_parent" android:layout_height="match_parent" tools:context="com.example.currentplacedetailsonmap.MapsActivityCurrentPlace" />
Nel metodo
onCreate()
dell'attività, imposta il file di layout come visualizzazione dei contenuti:Java
@Override protected void onCreate(Bundle savedInstanceState) { super.onCreate(savedInstanceState); // Retrieve the content view that renders the map. setContentView(R.layout.activity_maps); }
Kotlin
override fun onCreate(savedInstanceState: Bundle?) { super.onCreate(savedInstanceState) // Retrieve the content view that renders the map. setContentView(R.layout.activity_maps) }
Implementa l'interfaccia
OnMapReadyCallback
e sostituisci il metodoonMapReady()
per configurare la mappa quando l'oggettoGoogleMap
è disponibile:Java
@Override public void onMapReady(GoogleMap map) { this.map = map; // ... // Turn on the My Location layer and the related control on the map. updateLocationUI(); // Get the current location of the device and set the position of the map. getDeviceLocation(); }
Kotlin
override fun onMapReady(map: GoogleMap) { this.map = map // ... // Turn on the My Location layer and the related control on the map. updateLocationUI() // Get the current location of the device and set the position of the map. getDeviceLocation() }
Nel metodo
onCreate()
dell'attività, ottieni un handle per il frammento di mappa chiamandoFragmentManager.findFragmentById()
. Quindi utilizzagetMapAsync()
per registrarti al callback della mappa:Java
SupportMapFragment mapFragment = (SupportMapFragment) getSupportFragmentManager() .findFragmentById(R.id.map); mapFragment.getMapAsync(this);
Kotlin
val mapFragment = supportFragmentManager .findFragmentById(R.id.map) as SupportMapFragment? mapFragment?.getMapAsync(this)
Scrivi un metodo
updateLocationUI()
per impostare i controlli della posizione sulla mappa. Se l'utente ha concesso l'autorizzazione di accesso alla posizione, attiva il livello La mia posizione e il relativo controllo sulla mappa, altrimenti disattiva il livello e il controllo e imposta la posizione attuale su null:Java
private void updateLocationUI() { if (map == null) { return; } try { if (locationPermissionGranted) { map.setMyLocationEnabled(true); map.getUiSettings().setMyLocationButtonEnabled(true); } else { map.setMyLocationEnabled(false); map.getUiSettings().setMyLocationButtonEnabled(false); lastKnownLocation = null; } } catch (SecurityException e) { Log.e("Exception: %s", e.getMessage()); } }
Kotlin
@SuppressLint("MissingPermission") private fun updateLocationUI() { if (map == null) { return } try { if (locationPermissionGranted) { map?.isMyLocationEnabled = true map?.uiSettings?.isMyLocationButtonEnabled = true } else { map?.isMyLocationEnabled = false map?.uiSettings?.isMyLocationButtonEnabled = false lastKnownLocation = null getLocationPermission() } } catch (e: SecurityException) { Log.e("Exception: %s", e.message, e) } }
Ottenere la posizione del dispositivo Android e posizionare la mappa
Utilizza il fornitore di posizione combinato per trovare l'ultima posizione nota del dispositivo, quindi utilizza questa posizione per posizionare la mappa. Il tutorial fornisce il codice di cui hai bisogno. Per maggiori dettagli su come ottenere la posizione del dispositivo, consulta la guida al fornitore di servizi di geolocalizzazione combinato nelle API di geolocalizzazione di Google Play Services.
Java
private void getDeviceLocation() { /* * Get the best and most recent location of the device, which may be null in rare * cases when a location is not available. */ try { if (locationPermissionGranted) { Task<Location> locationResult = fusedLocationProviderClient.getLastLocation(); locationResult.addOnCompleteListener(this, new OnCompleteListener<Location>() { @Override public void onComplete(@NonNull Task<Location> task) { if (task.isSuccessful()) { // Set the map's camera position to the current location of the device. lastKnownLocation = task.getResult(); if (lastKnownLocation != null) { map.moveCamera(CameraUpdateFactory.newLatLngZoom( new LatLng(lastKnownLocation.getLatitude(), lastKnownLocation.getLongitude()), DEFAULT_ZOOM)); } } else { Log.d(TAG, "Current location is null. Using defaults."); Log.e(TAG, "Exception: %s", task.getException()); map.moveCamera(CameraUpdateFactory .newLatLngZoom(defaultLocation, DEFAULT_ZOOM)); map.getUiSettings().setMyLocationButtonEnabled(false); } } }); } } catch (SecurityException e) { Log.e("Exception: %s", e.getMessage(), e); } }
Kotlin
@SuppressLint("MissingPermission") private fun getDeviceLocation() { /* * Get the best and most recent location of the device, which may be null in rare * cases when a location is not available. */ try { if (locationPermissionGranted) { val locationResult = fusedLocationProviderClient.lastLocation locationResult.addOnCompleteListener(this) { task -> if (task.isSuccessful) { // Set the map's camera position to the current location of the device. lastKnownLocation = task.result if (lastKnownLocation != null) { map?.moveCamera(CameraUpdateFactory.newLatLngZoom( LatLng(lastKnownLocation!!.latitude, lastKnownLocation!!.longitude), DEFAULT_ZOOM.toFloat())) } } else { Log.d(TAG, "Current location is null. Using defaults.") Log.e(TAG, "Exception: %s", task.exception) map?.moveCamera(CameraUpdateFactory .newLatLngZoom(defaultLocation, DEFAULT_ZOOM.toFloat())) map?.uiSettings?.isMyLocationButtonEnabled = false } } } } catch (e: SecurityException) { Log.e("Exception: %s", e.message, e) } }
Ottenere la località attuale
Utilizza l'SDK Places per Android per ottenere un elenco di luoghi probabili nella posizione corrente del dispositivo. In questo contesto, un luogo è un'attività o un altro punto d'interesse.
Questo tutorial recupera il luogo corrente quando l'utente fa clic su un pulsante Richiedi luogo. Offre all'utente un elenco di luoghi probabili tra cui scegliere, quindi aggiunge un indicatore sulla mappa nella posizione del luogo selezionato. Il tutorial fornisce il codice necessario per interagire con SDK Places per Android. Per maggiori dettagli, consulta la guida su come ottenere la posizione attuale.
- Crea un file di layout (
current_place_menu.xml
) per il menu opzioni e sostituisci il metodoonCreateOptionsMenu()
per configurare il menu opzioni. Per il codice, consulta l'app di esempio inclusa. - Sostituisci il metodo
onOptionsItemSelected()
per ottenere la posizione corrente quando l'utente fa clic sull'opzione Richiedi posizione:Java
@Override public boolean onOptionsItemSelected(MenuItem item) { if (item.getItemId() == R.id.option_get_place) { showCurrentPlace(); } return true; }
Kotlin
override fun onOptionsItemSelected(item: MenuItem): Boolean { if (item.itemId == R.id.option_get_place) { showCurrentPlace() } return true }
Crea un metodo
showCurrentPlace()
per ottenere un elenco di luoghi probabili nella posizione corrente del dispositivo:Java
private void showCurrentPlace() { if (map == null) { return; } if (locationPermissionGranted) { // Use fields to define the data types to return. List<Place.Field> placeFields = Arrays.asList(Place.Field.NAME, Place.Field.ADDRESS, Place.Field.LAT_LNG); // Use the builder to create a FindCurrentPlaceRequest. FindCurrentPlaceRequest request = FindCurrentPlaceRequest.newInstance(placeFields); // Get the likely places - that is, the businesses and other points of interest that // are the best match for the device's current location. @SuppressWarnings("MissingPermission") final Task<FindCurrentPlaceResponse> placeResult = placesClient.findCurrentPlace(request); placeResult.addOnCompleteListener (new OnCompleteListener<FindCurrentPlaceResponse>() { @Override public void onComplete(@NonNull Task<FindCurrentPlaceResponse> task) { if (task.isSuccessful() && task.getResult() != null) { FindCurrentPlaceResponse likelyPlaces = task.getResult(); // Set the count, handling cases where less than 5 entries are returned. int count; if (likelyPlaces.getPlaceLikelihoods().size() < M_MAX_ENTRIES) { count = likelyPlaces.getPlaceLikelihoods().size(); } else { count = M_MAX_ENTRIES; } int i = 0; likelyPlaceNames = new String[count]; likelyPlaceAddresses = new String[count]; likelyPlaceAttributions = new List[count]; likelyPlaceLatLngs = new LatLng[count]; for (PlaceLikelihood placeLikelihood : likelyPlaces.getPlaceLikelihoods()) { // Build a list of likely places to show the user. likelyPlaceNames[i] = placeLikelihood.getPlace().getName(); likelyPlaceAddresses[i] = placeLikelihood.getPlace().getAddress(); likelyPlaceAttributions[i] = placeLikelihood.getPlace() .getAttributions(); likelyPlaceLatLngs[i] = placeLikelihood.getPlace().getLatLng(); i++; if (i > (count - 1)) { break; } } // Show a dialog offering the user the list of likely places, and add a // marker at the selected place. MapsActivityCurrentPlace.this.openPlacesDialog(); } else { Log.e(TAG, "Exception: %s", task.getException()); } } }); } else { // The user has not granted permission. Log.i(TAG, "The user did not grant location permission."); // Add a default marker, because the user hasn't selected a place. map.addMarker(new MarkerOptions() .title(getString(R.string.default_info_title)) .position(defaultLocation) .snippet(getString(R.string.default_info_snippet))); // Prompt the user for permission. getLocationPermission(); } }
Kotlin
@SuppressLint("MissingPermission") private fun showCurrentPlace() { if (map == null) { return } if (locationPermissionGranted) { // Use fields to define the data types to return. val placeFields = listOf(Place.Field.NAME, Place.Field.ADDRESS, Place.Field.LAT_LNG) // Use the builder to create a FindCurrentPlaceRequest. val request = FindCurrentPlaceRequest.newInstance(placeFields) // Get the likely places - that is, the businesses and other points of interest that // are the best match for the device's current location. val placeResult = placesClient.findCurrentPlace(request) placeResult.addOnCompleteListener { task -> if (task.isSuccessful && task.result != null) { val likelyPlaces = task.result // Set the count, handling cases where less than 5 entries are returned. val count = if (likelyPlaces != null && likelyPlaces.placeLikelihoods.size < M_MAX_ENTRIES) { likelyPlaces.placeLikelihoods.size } else { M_MAX_ENTRIES } var i = 0 likelyPlaceNames = arrayOfNulls(count) likelyPlaceAddresses = arrayOfNulls(count) likelyPlaceAttributions = arrayOfNulls<List<*>?>(count) likelyPlaceLatLngs = arrayOfNulls(count) for (placeLikelihood in likelyPlaces?.placeLikelihoods ?: emptyList()) { // Build a list of likely places to show the user. likelyPlaceNames[i] = placeLikelihood.place.name likelyPlaceAddresses[i] = placeLikelihood.place.address likelyPlaceAttributions[i] = placeLikelihood.place.attributions likelyPlaceLatLngs[i] = placeLikelihood.place.latLng i++ if (i > count - 1) { break } } // Show a dialog offering the user the list of likely places, and add a // marker at the selected place. openPlacesDialog() } else { Log.e(TAG, "Exception: %s", task.exception) } } } else { // The user has not granted permission. Log.i(TAG, "The user did not grant location permission.") // Add a default marker, because the user hasn't selected a place. map?.addMarker(MarkerOptions() .title(getString(R.string.default_info_title)) .position(defaultLocation) .snippet(getString(R.string.default_info_snippet))) // Prompt the user for permission. getLocationPermission() } }
Crea un metodo
openPlacesDialog()
per visualizzare un modulo che consenta all'utente di selezionare un luogo da un elenco di luoghi probabili. Aggiungi un indicatore sulla mappa per il luogo selezionato. I contenuti dell'indicatore includono il nome e l'indirizzo del luogo, nonché eventuali attribuzioni fornite dall'API:Java
private void openPlacesDialog() { // Ask the user to choose the place where they are now. DialogInterface.OnClickListener listener = new DialogInterface.OnClickListener() { @Override public void onClick(DialogInterface dialog, int which) { // The "which" argument contains the position of the selected item. LatLng markerLatLng = likelyPlaceLatLngs[which]; String markerSnippet = likelyPlaceAddresses[which]; if (likelyPlaceAttributions[which] != null) { markerSnippet = markerSnippet + "\n" + likelyPlaceAttributions[which]; } // Add a marker for the selected place, with an info window // showing information about that place. map.addMarker(new MarkerOptions() .title(likelyPlaceNames[which]) .position(markerLatLng) .snippet(markerSnippet)); // Position the map's camera at the location of the marker. map.moveCamera(CameraUpdateFactory.newLatLngZoom(markerLatLng, DEFAULT_ZOOM)); } }; // Display the dialog. AlertDialog dialog = new AlertDialog.Builder(this) .setTitle(R.string.pick_place) .setItems(likelyPlaceNames, listener) .show(); }
Kotlin
private fun openPlacesDialog() { // Ask the user to choose the place where they are now. val listener = DialogInterface.OnClickListener { dialog, which -> // The "which" argument contains the position of the selected item. val markerLatLng = likelyPlaceLatLngs[which] var markerSnippet = likelyPlaceAddresses[which] if (likelyPlaceAttributions[which] != null) { markerSnippet = """ $markerSnippet ${likelyPlaceAttributions[which]} """.trimIndent() } if (markerLatLng == null) { return@OnClickListener } // Add a marker for the selected place, with an info window // showing information about that place. map?.addMarker(MarkerOptions() .title(likelyPlaceNames[which]) .position(markerLatLng) .snippet(markerSnippet)) // Position the map's camera at the location of the marker. map?.moveCamera(CameraUpdateFactory.newLatLngZoom(markerLatLng, DEFAULT_ZOOM.toFloat())) } // Display the dialog. AlertDialog.Builder(this) .setTitle(R.string.pick_place) .setItems(likelyPlaceNames, listener) .show() }
Crea un layout personalizzato per i contenuti della finestra informativa. In questo modo, è possibile visualizzare più righe di contenuti nella finestra informativa. Innanzitutto, aggiungi un file di layout XML,
custom_info_contents.xml
, contenente una visualizzazione di testo per il titolo della finestra informativa e un'altra visualizzazione di testo per lo snippet (ovvero i contenuti di testo della finestra informativa):<?xml version="1.0" encoding="utf-8"?> <!-- Copyright 2020 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. --> <LinearLayout xmlns:android="http://schemas.android.com/apk/res/android" android:layout_width="wrap_content" android:layout_height="wrap_content" android:layoutDirection="locale" android:orientation="vertical"> <TextView android:id="@+id/title" android:layout_width="wrap_content" android:layout_height="wrap_content" android:layout_gravity="center_horizontal" android:textColor="#ff000000" android:textStyle="bold" /> <TextView android:id="@+id/snippet" android:layout_width="wrap_content" android:layout_height="wrap_content" android:textColor="#ff7f7f7f" /> </LinearLayout>
Implementa l'interfaccia
InfoWindowAdapter
per gonfiare il layout e caricare i contenuti della finestra informativa:Java
// Use a custom info window adapter to handle multiple lines of text in the // info window contents. this.map.setInfoWindowAdapter(new GoogleMap.InfoWindowAdapter() { @Override // Return null here, so that getInfoContents() is called next. public View getInfoWindow(Marker arg0) { return null; } @Override public View getInfoContents(Marker marker) { // Inflate the layouts for the info window, title and snippet. View infoWindow = getLayoutInflater().inflate(R.layout.custom_info_contents, (FrameLayout) findViewById(R.id.map), false); TextView title = infoWindow.findViewById(R.id.title); title.setText(marker.getTitle()); TextView snippet = infoWindow.findViewById(R.id.snippet); snippet.setText(marker.getSnippet()); return infoWindow; } });
Kotlin
// Use a custom info window adapter to handle multiple lines of text in the // info window contents. this.map?.setInfoWindowAdapter(object : InfoWindowAdapter { // Return null here, so that getInfoContents() is called next. override fun getInfoWindow(arg0: Marker): View? { return null } override fun getInfoContents(marker: Marker): View { // Inflate the layouts for the info window, title and snippet. val infoWindow = layoutInflater.inflate(R.layout.custom_info_contents, findViewById<FrameLayout>(R.id.map), false) val title = infoWindow.findViewById<TextView>(R.id.title) title.text = marker.title val snippet = infoWindow.findViewById<TextView>(R.id.snippet) snippet.text = marker.snippet return infoWindow } })
Salvare lo stato della mappa
Salva la posizione della fotocamera della mappa e la posizione del dispositivo. Quando un utente ruota un dispositivo Android o apporta modifiche alla configurazione, il framework Android distrugge e ricostruisce l'attività della mappa. Per garantire un'esperienza utente fluida, è consigliabile memorizzare lo stato dell'applicazione pertinente e ripristinarlo in caso di necessità.
Questo tutorial fornisce tutto il codice necessario per salvare lo stato della mappa. Per maggiori dettagli, consulta la guida al savedInstanceState
bundle.
Nell'attività della mappa, imposta i valori chiave per memorizzare lo stato dell'attività:
Java
private static final String KEY_CAMERA_POSITION = "camera_position"; private static final String KEY_LOCATION = "location";
Kotlin
private const val KEY_CAMERA_POSITION = "camera_position" private const val KEY_LOCATION = "location"
Implementa il callback
onSaveInstanceState()
per salvare lo stato quando l'attività viene messa in pausa:Java
@Override protected void onSaveInstanceState(Bundle outState) { if (map != null) { outState.putParcelable(KEY_CAMERA_POSITION, map.getCameraPosition()); outState.putParcelable(KEY_LOCATION, lastKnownLocation); } super.onSaveInstanceState(outState); }
Kotlin
override fun onSaveInstanceState(outState: Bundle) { map?.let { map -> outState.putParcelable(KEY_CAMERA_POSITION, map.cameraPosition) outState.putParcelable(KEY_LOCATION, lastKnownLocation) } super.onSaveInstanceState(outState) }
Nel metodo
onCreate()
dell'attività, recupera la posizione del dispositivo e la posizione della fotocamera della mappa, se salvate in precedenza:Java
// Retrieve location and camera position from saved instance state. if (savedInstanceState != null) { lastKnownLocation = savedInstanceState.getParcelable(KEY_LOCATION); cameraPosition = savedInstanceState.getParcelable(KEY_CAMERA_POSITION); }
Kotlin
if (savedInstanceState != null) { lastKnownLocation = savedInstanceState.getParcelable(KEY_LOCATION) cameraPosition = savedInstanceState.getParcelable(KEY_CAMERA_POSITION) }