<html lang="en">
<head>
<meta charset="utf-8">
<title>Location Selection Demo</title>
<meta name="viewport" content="width=device-width, initial-scale=1">
<link href="https://fonts.googleapis.com/icon?family=Material+Icons" rel="stylesheet">
</head>
<body>
<h1>Location Selection Demo - FindPickupPointsForPlace</h1>
<div class="container">
<section class="form-container">
<form id="form-pups-for-place" name="location-selection">
<label class="form-label" for="placeId">Place ID</label>
<input type="text" id="placeId" name="placeId" value="ChIJwTUa-q_Mj4ARff4yludGH-M" />
<label class="form-label" for="languageCode">Language Code</label>
<input type="text" id="languageCode" name="languageCode" value="en-US" />
<label class="form-label" for="regionCode">Region Code</label>
<input type="text" id="regionCode" name="regionCode" value="US" />
<label class="form-label" for="searchLocation-latitude">Search Location - Latitude</label>
<input type="text" id="searchLocation-latitude" name="searchLocation-latitude" value="37.329472" />
<label class="form-label" for="searchLocation-longitude">Search Location - Longitude</label>
<input type="text" id="searchLocation-longitude" name="searchLocation-longitude" value="-121.890449" />
<label class="form-label" for="orderBy">Order By</label>
<select id="orderBy" name="orderBy">
<option value="DISTANCE_FROM_SEARCH_LOCATION" selected>DISTANCE_FROM_SEARCH_LOCATION</option>
<option value="WALKING_ETA_FROM_SEARCH_LOCATION">WALKING_ETA_FROM_SEARCH_LOCATION</option>
<option value="DRIVING_ETA_FROM_PICKUP_POINT_TO_DESTINATION">DRIVING_ETA_FROM_PICKUP_POINT_TO_DESTINATION</option>
</select>
<label class="form-label" for="destination-latitude">Destination - Latitude</label>
<input type="text" id="destination-latitude" name="destination-latitude" value="" />
<label class="form-label" for="destination-longitude">Destination - Longitude</label>
<input type="text" id="destination-longitude" name="destination-longitude" value="" />
<label class="form-label" for="maxResults">Max Results</label>
<input type="number" id="maxResults" name="maxResults" min="1" value="5" step="1" />
<fieldset>
<legend>Travel Modes</legend>
<div>
<input type="checkbox" id="walking" name="travelModes" value="WALKING" checked>
<label for="walking" class="form-checkbox-label">WALKING</label>
</div>
<div>
<input type="checkbox" id="driving" name="travelModes" value="DRIVING" checked>
<label for="driving" class="form-checkbox-label">DRIVING</label>
</div>
<div>
<input type="checkbox" id="twoWheeler" name="travelModes" value="TWO_WHEELER">
<label for="twoWheeler" class="form-checkbox-label">TWO_WHEELER</label>
</div>
</fieldset>
<label class="form-label" for="computeWalkingEta">Compute Walking ETA</label>
<select id="computeWalkingEta" name="computeWalkingEta" class="boolean">
<option value="true">true</option>
<option value="false" selected>false</option>
</select>
<label class="form-label" for="computeDrivingEta">Compute Driving ETA</label>
<select id="computeDrivingEta" name="computeDrivingEta" class="boolean">
<option value="true">true</option>
<option value="false" selected>false</option>
</select>
<input class="submit-button" type="submit" value="Call" />
</form>
</section>
<section>
<div id="map" class="map"></div>
</section>
</div>
<section class="output-container">
<h2>Response</h2>
<pre id="output"></pre>
</section>
</body>
</html>
body {
font-family: 'Google Sans';
}
.container {
display: grid;
grid-template-columns: 30% 1fr;
grid-template-rows: 100%;
grid-column-gap: 20px;
grid-row-gap: 0px;
}
h1 {
font-size: 24px;
margin-top: 20px;
margin-bottom: 20px;
font-weight: bold;
}
h2 {
font-size: 18px;
font-weight: bold;
}
h1,
.form-container,
.output-container {
margin-left: 20px;
}
.map,
.output-container {
margin-right: 20px;
}
.form-container {
border: 1px solid black;
padding: 20px;
}
.map {
border: 1px solid black;
min-height: 800px;
}
.output-container {
margin-top: 20px;
}
#output {
border: 1px solid red;
font-family: 'Google Sans';
min-height: 150px;
}
label:not(.form-checkbox-label), legend {
overflow-wrap: break-word;
font-weight: bold;
}
input:not([type="checkbox"]), select, fieldset {
font-family: 'Google Sans';
width: 100%;
padding: 5px 5px;
margin: 0 0 20px 0;
display: inline-block;
border: 1px solid #ccc;
border-radius: 8px;
box-sizing: border-box;
}
input[type="submit"] {
min-width: 150px;
background-color: green; /* Blue */
border: none;
color: white;
padding: 15px 15px;
text-decoration: none;
display: inline-block;
font-size: 16px;
border-radius: 20px;
width: 50%;
}
input[type="submit"]:hover {
background-color: darkseagreen;
}
input[type="submit"]:active {
background-color: darkseagreen;
box-shadow: 0 5px #666;
transform: translateY(4px);
}
.info-label {
font-weight: bold;
}
const MAPS_API_KEY = ''; // Put your API Key for Maps SDK here
const LS_API_KEY = ''; // Put your API Key for Location Selection APIs here
const MAPS_URL = `https://maps.googleapis.com/maps/api/js?key=${
MAPS_API_KEY}&libraries=places,geometry&callback=initMap`;
const LS_BASE_URL = 'https://locationselection.googleapis.com/v1beta';
const API_URL_PUPS_FOR_PLACE =
`${LS_BASE_URL}:findPickupPointsForPlace?key=${LS_API_KEY}`;
const API_URL_PUPS_FOR_LOCATION =
`${LS_BASE_URL}:findPickupPointsForLocation?key=${LS_API_KEY}`;
const API_URL_NEARBY_PLACES =
`${LS_BASE_URL}:findNearbyPlaces?key=${LS_API_KEY}`;
const FORM_ID_PUPS_FOR_LOCATION = 'form-pups-for-location';
const FORM_ID_PUPS_FOR_PLACE = 'form-pups-for-place';
const FORM_ID_NEARBY_PLACES = 'form-nearby-places';
const FORM_TO_API_URL_MAP = {
[FORM_ID_PUPS_FOR_LOCATION]: API_URL_PUPS_FOR_LOCATION,
[FORM_ID_PUPS_FOR_PLACE]: API_URL_PUPS_FOR_PLACE,
[FORM_ID_NEARBY_PLACES]: API_URL_NEARBY_PLACES,
};
const RED_PIN = 'http://maps.google.com/mapfiles/ms/icons/red-dot.png';
const GREEN_PIN = 'http://maps.google.com/mapfiles/ms/icons/green-dot.png';
const BLUE_PIN = 'http://maps.google.com/mapfiles/ms/icons/blue-dot.png';
const DEFAULT_ZOOM_LEVEL = 18;
// codepoint from https://fonts.google.com/icons
const SEARCH_LOCATION_MARKER = '\ue7f2';
const GOOGLEPLEX = {
lat: 37.422001,
lng: -122.084061
};
let map;
let polyLines = [];
let polygons = [];
let mapMarkers = [];
let entranceMarkers = [];
function loadMap() {
const script = document.createElement('script');
script.src = MAPS_URL;
document.body.appendChild(script);
}
function initMap() {
map = new google.maps.Map(
document.getElementById('map'),
{center: GOOGLEPLEX, zoom: DEFAULT_ZOOM_LEVEL});
}
function setupForm() {
const form = document.getElementsByTagName('form')[0];
form.addEventListener('submit', onFormSubmit);
}
function onFormSubmit(evt) {
evt.preventDefault();
evt.stopPropagation();
const formData = new FormData(evt.target);
fetchAPIResults(formData);
}
function transformFormData(fd) {
let transformedFd = {
localizationPreferences: {},
};
const formId = document.getElementsByTagName('form')[0].id;
if (formId === FORM_ID_PUPS_FOR_LOCATION ||
formId === FORM_ID_PUPS_FOR_PLACE) {
transformedFd = {localizationPreferences: {}, travelModes: []};
}
const addSearchLocation = () => {
if (transformedFd.searchLocation == null) {
transformedFd.searchLocation = {};
}
};
const addDestination = () => {
if (transformedFd.destination == null) {
transformedFd.destination = {};
}
};
fd.forEach((value, key) => {
switch (key) {
case 'travelModes':
transformedFd.travelModes.push(value);
break;
case 'languageCode':
transformedFd.localizationPreferences[key] = value;
break;
case 'regionCode':
transformedFd.localizationPreferences[key] = value;
break;
case 'searchLocation-latitude':
if (value) {
addSearchLocation();
transformedFd.searchLocation['latitude'] = value;
}
break;
case 'searchLocation-longitude':
if (value) {
addSearchLocation();
transformedFd.searchLocation['longitude'] = value;
}
break;
case 'destination-latitude':
if (value) {
addDestination();
transformedFd.destination['latitude'] = value;
}
break;
case 'destination-longitude':
if (value) {
addDestination();
transformedFd.destination['longitude'] = value;
}
break;
default:
transformedFd[key] = value;
break;
}
});
const json = JSON.stringify(transformedFd, undefined, 2);
return json;
}
async function fetchAPIResults(fd) {
const formId = document.getElementsByTagName('form')[0].id;
const url = FORM_TO_API_URL_MAP[formId];
const transformedFd = transformFormData(fd);
const response = await fetch(url, {method: 'POST', body: transformedFd});
const result = await response.json();
// Display JSON
displayAPIResults(result);
// Update map
let searchLocation = {};
if (JSON.parse(transformedFd).searchLocation) {
searchLocation = {
lat: Number(JSON.parse(transformedFd).searchLocation.latitude),
lng: Number(JSON.parse(transformedFd).searchLocation.longitude),
};
}
switch (formId) {
case FORM_ID_PUPS_FOR_PLACE:
markPickupPointsForPlace(result);
break;
case FORM_ID_PUPS_FOR_LOCATION:
markPickupPointsForLocation(result, searchLocation);
break;
case FORM_ID_NEARBY_PLACES:
markNearbyPlaces(result, searchLocation);
break;
default:
break;
}
}
function displayAPIResults(data) {
const output = document.getElementById('output');
output.textContent = JSON.stringify(data, undefined, 2);
}
function markNearbyPlaces(data, searchLocation) {
if (data.error) {
resetMap();
return;
}
const places = [];
for (const placeResult of data.placeResults) {
places.push(placeResult.place);
}
resetMap(searchLocation);
markPlaces(places, searchLocation);
for (const place of places) {
markEntrances(place.associatedCompounds, place);
}
markSearchLocation(searchLocation, '');
for (const place of places) {
mapPolygons(place.associatedCompounds);
}
}
function markPickupPointsForPlace(data) {
if (data.error) {
resetMap();
return;
}
const place = data.placeResult.place;
const pickupPoints = data.pickupPointResults;
const searchLocation = {
lat: place.geometry.location.latitude,
lng: place.geometry.location.longitude
};
resetMap(searchLocation);
markPickupPoints(place, pickupPoints, searchLocation);
markEntrances(place.associatedCompounds, place);
markSearchLocation(searchLocation, place.displayName);
createPolyLinesOneToMany(searchLocation, pickupPoints);
mapPolygons(place.associatedCompounds);
}
function markPickupPointsForLocation(data, searchLocation) {
if (data.error) {
resetMap();
return;
}
const placeIdToPlace = {};
// A dict, and the key is placeId(str)s and the value is a list of pups.
const placePickupPoints = {};
data.placeResults.forEach(result => {
placeIdToPlace[result.place.placeId] = result.place;
placePickupPoints[result.place.placeId] = [];
});
data.placePickupPointResults.forEach(result => {
placePickupPoints[result.associatedPlaceId].push(result.pickupPointResult);
})
resetMap(searchLocation);
for (const placeId in placePickupPoints) {
const place = placeIdToPlace[placeId];
const pups = placePickupPoints[placeId];
markEntrances(place.associatedCompounds, place);
markPickupPoints(place, pups, searchLocation);
createPolyLinesOneToMany(searchLocation, pups);
mapPolygons(place.associatedCompounds);
}
// update the marker rank to global order
for (let i = 0; i < mapMarkers.length; i++) {
mapMarkers[i].label = String(i);
}
markSearchLocation(searchLocation, '');
}
function markPlaces(places, searchLocation) {
for (const place of places) {
const placeLocation = place.geometry.location;
const infoWindow =
new google.maps.InfoWindow({content: createInfoWindow(place, null)});
const marker = new google.maps.Marker({
position: toLatLngLiteral(placeLocation),
animation: google.maps.Animation.DROP,
map: map,
});
marker.addListener('click', () => {
infoWindow.open(map, marker);
});
map.addListener('click', () => {
infoWindow.close();
});
mapMarkers.push(marker);
}
}
function markEntrances(compounds, place) {
if (!compounds) {
return;
}
for (const compound of compounds) {
if (!compound.entrances) {
continue;
}
for (const entrance of compound.entrances) {
const entranceMarker = new google.maps.Marker({
position: toLatLngLiteral(entrance.location),
icon: {
url: BLUE_PIN,
},
animation: google.maps.Animation.DROP,
map: map,
});
const infoWindow =
new google.maps.InfoWindow({content: createInfoWindow(place, null)});
entranceMarker.addListener('click', () => {
infoWindow.open(map, entranceMarker);
});
map.addListener('click', () => {
infoWindow.close();
});
entranceMarkers.push(entranceMarker);
}
}
}
function mapPolygons(many) {
if (!many) {
return;
}
for (const toPoint of many) {
const data = toPoint.geometry.displayBoundary;
if (data == null || data.coordinates == null) {
continue;
}
const value = data.coordinates;
const polyArray = JSON.parse(JSON.stringify(value))[0];
const usedColors = [];
const finalLatLngs = [];
let color = '';
for (let i = 0; i < polyArray.length; ++i) {
if (polyArray[i] != null && polyArray[i].length > 0) {
color = getColor(usedColors);
usedColors.push(color);
if (isArrLatLng(polyArray[i])) {
finalLatLngs.push({lat: polyArray[i][1], lng: polyArray[i][0]});
}
}
}
const poly = new google.maps.Polygon({
strokeColor: color,
strokeOpacity: 0.2,
strokeWeight: 5,
fillColor: color,
fillOpacity: 0.1,
paths: finalLatLngs,
map: map,
});
polygons.push(poly);
}
}
function getColor(usedColors) {
let color = generateStrokeColor();
while (usedColors.includes(color)) {
color = generateStrokeColor();
}
return color;
}
function generateStrokeColor() {
return Math.floor(Math.random() * 16777215).toString(16);
}
function isArrLatLng(currArr) {
if (!currArr || currArr.length !== 2) {
return false;
}
return ((typeof currArr[0]) === 'number') &&
((typeof currArr[1]) === 'number');
}
function toLatLngLiteral(latlng) {
return {lat: latlng.latitude, lng: latlng.longitude};
}
function pickupHasRestrictions(pickupPointData) {
let hasRestrictions = false;
const travelDetails = pickupPointData.travelDetails;
for (let i = 0; i < travelDetails.length; i++) {
if (travelDetails[i].trafficRestriction !== 'NO_RESTRICTION') {
hasRestrictions = true;
}
}
return hasRestrictions;
}
function markPickupPoints(place, pickupPoints, searchLocation) {
for (let i = 0; i < pickupPoints.length; i++) {
const pickupPointData = pickupPoints[i];
const pickupPoint = pickupPoints[i].pickupPoint;
const pupIcon =
pickupHasRestrictions(pickupPointData) ? RED_PIN : GREEN_PIN;
const contentString = createInfoWindow(place, pickupPoint);
const pupInfoWindow = new google.maps.InfoWindow({content: contentString});
const marker = new google.maps.Marker({
position: toLatLngLiteral(pickupPoint.location),
label: {
text: String(i),
fontWeight: 'bold',
fontSize: '20px',
color: '#000'
},
animation: google.maps.Animation.DROP,
map,
icon: {
url: pupIcon,
anchor: new google.maps.Point(14, 43),
labelOrigin: new google.maps.Point(-5, 5)
},
});
marker.addListener('click', () => {
pupInfoWindow.open(map, marker);
});
map.addListener('click', () => {
pupInfoWindow.close();
});
mapMarkers.push(marker);
}
}
function createInfoWindow(place, pickupPoint) {
let result = [];
const addResult = (value, key, map) =>
result.push(`<p><span class="info-label">${key}:</span> ${value}</p>`);
const formatAddress = (address) => address.lines.join(',');
const placeFieldMap = new Map();
if (place !== null) {
placeFieldMap.set('Place', '');
placeFieldMap.set('Name', place.displayName);
placeFieldMap.set('Place ID', place.placeId);
placeFieldMap.set('Address', formatAddress(place.address.formattedAddress));
}
const pickupPointFieldMap = new Map();
if (pickupPoint !== null) {
pickupPointFieldMap.set('Pickup point', '');
pickupPointFieldMap.set('Name', pickupPoint.displayName);
}
placeFieldMap.forEach(addResult);
result.push('<hr/>');
pickupPointFieldMap.forEach(addResult);
return result.join('');
}
function markSearchLocation(location, label) {
const infoWindow =
new google.maps.InfoWindow({content: `<p><b>Name: </b>${label}</p>`});
const marker = new google.maps.Marker({
position: location,
map,
label: {
text: SEARCH_LOCATION_MARKER,
fontFamily: 'Material Icons',
color: '#ffffff',
fontSize: '18px',
fontWeight: 'bold',
},
});
marker.addListener('click', () => {
infoWindow.open(map, marker);
});
map.addListener('click', () => {
infoWindow.close();
});
mapMarkers.push(marker);
}
function createPolyLinesOneToMany(one, many) {
const lineSymbol = {
path: google.maps.SymbolPath.FORWARD_CLOSED_ARROW,
};
for (const toPoint of many) {
const line = new google.maps.Polyline({
path: [one, toLatLngLiteral(toPoint.pickupPoint.location)],
icons: [
{
icon: lineSymbol,
offset: '100%',
},
],
map: map,
});
polyLines.push(line);
}
}
/******* Reset the map ******/
function deleteMarkers() {
for (const mapMarker of mapMarkers) {
mapMarker.setMap(null);
}
mapMarkers = [];
}
function deletePolyLines() {
for (const polyLine of polyLines) {
polyLine.setMap(null);
}
polyLines = [];
}
function deleteEntranceMarkers() {
for (const entranceMarker of entranceMarkers) {
entranceMarker.setMap(null);
}
entranceMarkers = [];
}
function clearPolygons() {
for (let i = 0; i < polygons.length; i++) {
polygons[i].setMap(null);
}
polygons = [];
}
function resetMap(searchLocation) {
if (searchLocation) {
map.setCenter(searchLocation);
} else {
map.setCenter(GOOGLEPLEX);
}
map.setZoom(DEFAULT_ZOOM_LEVEL);
deleteMarkers();
deletePolyLines();
deleteEntranceMarkers();
clearPolygons();
}
// Initiate map & set form event handlers
loadMap();
setupForm();
<html lang="en">
<head>
<meta charset="utf-8">
<title>Location Selection Demo</title>
<meta name="viewport" content="width=device-width, initial-scale=1">
<link href="https://fonts.googleapis.com/icon?family=Material+Icons" rel="stylesheet">
</head>
<body>
<h1>Location Selection Demo - FindPickupPointsForLocation</h1>
<div class="container">
<section class="form-container">
<form id="form-pups-for-location" name="location-selection">
<label class="form-label" for="languageCode">Language Code</label>
<input type="text" id="languageCode" name="languageCode" value="en-US" />
<label class="form-label" for="regionCode">Region Code</label>
<input type="text" id="regionCode" name="regionCode" value="US" />
<label class="form-label" for="searchLocation-latitude">Search Location - Latitude</label>
<input type="text" id="searchLocation-latitude" name="searchLocation-latitude" value="-23.482049" />
<label class="form-label" for="searchLocation-longitude">Search Location - Longitude</label>
<input type="text" id="searchLocation-longitude" name="searchLocation-longitude" value="-46.602135" />
<label class="form-label" for="orderBy">Order By</label>
<select id="orderBy" name="orderBy">
<option value="DISTANCE_FROM_SEARCH_LOCATION" selected>DISTANCE_FROM_SEARCH_LOCATION</option>
<option value="WALKING_ETA_FROM_SEARCH_LOCATION">WALKING_ETA_FROM_SEARCH_LOCATION</option>
<option value="DRIVING_ETA_FROM_PICKUP_POINT_TO_DESTINATION">DRIVING_ETA_FROM_PICKUP_POINT_TO_DESTINATION</option>
</select>
<label class="form-label" for="destination-latitude">Destination - Latitude</label>
<input type="text" id="destination-latitude" name="destination-latitude" value="" />
<label class="form-label" for="destination-longitude">Destination - Longitude</label>
<input type="text" id="destination-longitude" name="destination-longitude" value="" />
<label class="form-label" for="maxResults">Max Results</label>
<input type="number" id="maxResults" name="maxResults" min="1" value="5" step="1" />
<fieldset>
<legend>Travel Modes</legend>
<div>
<input type="checkbox" id="walking" name="travelModes" value="WALKING" checked>
<label for="walking" class="form-checkbox-label">WALKING</label>
</div>
<div>
<input type="checkbox" id="driving" name="travelModes" value="DRIVING" checked>
<label for="driving" class="form-checkbox-label">DRIVING</label>
</div>
<div>
<input type="checkbox" id="twoWheeler" name="travelModes" value="TWO_WHEELER">
<label for="twoWheeler" class="form-checkbox-label">TWO_WHEELER</label>
</div>
</fieldset>
<label class="form-label" for="computeWalkingEta">Compute Walking ETA</label>
<select id="computeWalkingEta" name="computeWalkingEta" class="boolean">
<option value="true">true</option>
<option value="false" selected>false</option>
</select>
<label class="form-label" for="computeDrivingEta">Compute Driving ETA</label>
<select id="computeDrivingEta" name="computeDrivingEta" class="boolean">
<option value="true">true</option>
<option value="false" selected>false</option>
</select>
<input class="submit-button" type="submit" value="Call" />
</form>
</section>
<section>
<div id="map" class="map"></div>
</section>
</div>
<section class="output-container">
<h2>Response</h2>
<pre id="output"></pre>
</section>
</body>
</html>
body {
font-family: 'Google Sans';
}
.container {
display: grid;
grid-template-columns: 30% 1fr;
grid-template-rows: 100%;
grid-column-gap: 20px;
grid-row-gap: 0px;
}
h1 {
font-size: 24px;
margin-top: 20px;
margin-bottom: 20px;
font-weight: bold;
}
h2 {
font-size: 18px;
font-weight: bold;
}
h1,
.form-container,
.output-container {
margin-left: 20px;
}
.map,
.output-container {
margin-right: 20px;
}
.form-container {
border: 1px solid black;
padding: 20px;
}
.map {
border: 1px solid black;
min-height: 800px;
}
.output-container {
margin-top: 20px;
}
#output {
border: 1px solid red;
font-family: 'Google Sans';
min-height: 150px;
}
label:not(.form-checkbox-label), legend {
overflow-wrap: break-word;
font-weight: bold;
}
input:not([type="checkbox"]), select, fieldset {
font-family: 'Google Sans';
width: 100%;
padding: 5px 5px;
margin: 0 0 20px 0;
display: inline-block;
border: 1px solid #ccc;
border-radius: 8px;
box-sizing: border-box;
}
input[type="submit"] {
min-width: 150px;
background-color: green; /* Blue */
border: none;
color: white;
padding: 15px 15px;
text-decoration: none;
display: inline-block;
font-size: 16px;
border-radius: 20px;
width: 50%;
}
input[type="submit"]:hover {
background-color: darkseagreen;
}
input[type="submit"]:active {
background-color: darkseagreen;
box-shadow: 0 5px #666;
transform: translateY(4px);
}
.info-label {
font-weight: bold;
}
const MAPS_API_KEY = ''; // Put your API Key for Maps SDK here
const LS_API_KEY = ''; // Put your API Key for Location Selection APIs here
const MAPS_URL = `https://maps.googleapis.com/maps/api/js?key=${
MAPS_API_KEY}&libraries=places,geometry&callback=initMap`;
const LS_BASE_URL = 'https://locationselection.googleapis.com/v1beta';
const API_URL_PUPS_FOR_PLACE =
`${LS_BASE_URL}:findPickupPointsForPlace?key=${LS_API_KEY}`;
const API_URL_PUPS_FOR_LOCATION =
`${LS_BASE_URL}:findPickupPointsForLocation?key=${LS_API_KEY}`;
const API_URL_NEARBY_PLACES =
`${LS_BASE_URL}:findNearbyPlaces?key=${LS_API_KEY}`;
const FORM_ID_PUPS_FOR_LOCATION = 'form-pups-for-location';
const FORM_ID_PUPS_FOR_PLACE = 'form-pups-for-place';
const FORM_ID_NEARBY_PLACES = 'form-nearby-places';
const FORM_TO_API_URL_MAP = {
[FORM_ID_PUPS_FOR_LOCATION]: API_URL_PUPS_FOR_LOCATION,
[FORM_ID_PUPS_FOR_PLACE]: API_URL_PUPS_FOR_PLACE,
[FORM_ID_NEARBY_PLACES]: API_URL_NEARBY_PLACES,
};
const RED_PIN = 'http://maps.google.com/mapfiles/ms/icons/red-dot.png';
const GREEN_PIN = 'http://maps.google.com/mapfiles/ms/icons/green-dot.png';
const BLUE_PIN = 'http://maps.google.com/mapfiles/ms/icons/blue-dot.png';
const DEFAULT_ZOOM_LEVEL = 18;
// codepoint from https://fonts.google.com/icons
const SEARCH_LOCATION_MARKER = '\ue7f2';
const GOOGLEPLEX = {
lat: 37.422001,
lng: -122.084061
};
let map;
let polyLines = [];
let polygons = [];
let mapMarkers = [];
let entranceMarkers = [];
function loadMap() {
const script = document.createElement('script');
script.src = MAPS_URL;
document.body.appendChild(script);
}
function initMap() {
map = new google.maps.Map(
document.getElementById('map'),
{center: GOOGLEPLEX, zoom: DEFAULT_ZOOM_LEVEL});
}
function setupForm() {
const form = document.getElementsByTagName('form')[0];
form.addEventListener('submit', onFormSubmit);
}
function onFormSubmit(evt) {
evt.preventDefault();
evt.stopPropagation();
const formData = new FormData(evt.target);
fetchAPIResults(formData);
}
function transformFormData(fd) {
let transformedFd = {
localizationPreferences: {},
};
const formId = document.getElementsByTagName('form')[0].id;
if (formId === FORM_ID_PUPS_FOR_LOCATION ||
formId === FORM_ID_PUPS_FOR_PLACE) {
transformedFd = {localizationPreferences: {}, travelModes: []};
}
const addSearchLocation = () => {
if (transformedFd.searchLocation == null) {
transformedFd.searchLocation = {};
}
};
const addDestination = () => {
if (transformedFd.destination == null) {
transformedFd.destination = {};
}
};
fd.forEach((value, key) => {
switch (key) {
case 'travelModes':
transformedFd.travelModes.push(value);
break;
case 'languageCode':
transformedFd.localizationPreferences[key] = value;
break;
case 'regionCode':
transformedFd.localizationPreferences[key] = value;
break;
case 'searchLocation-latitude':
if (value) {
addSearchLocation();
transformedFd.searchLocation['latitude'] = value;
}
break;
case 'searchLocation-longitude':
if (value) {
addSearchLocation();
transformedFd.searchLocation['longitude'] = value;
}
break;
case 'destination-latitude':
if (value) {
addDestination();
transformedFd.destination['latitude'] = value;
}
break;
case 'destination-longitude':
if (value) {
addDestination();
transformedFd.destination['longitude'] = value;
}
break;
default:
transformedFd[key] = value;
break;
}
});
const json = JSON.stringify(transformedFd, undefined, 2);
return json;
}
async function fetchAPIResults(fd) {
const formId = document.getElementsByTagName('form')[0].id;
const url = FORM_TO_API_URL_MAP[formId];
const transformedFd = transformFormData(fd);
const response = await fetch(url, {method: 'POST', body: transformedFd});
const result = await response.json();
// Display JSON
displayAPIResults(result);
// Update map
let searchLocation = {};
if (JSON.parse(transformedFd).searchLocation) {
searchLocation = {
lat: Number(JSON.parse(transformedFd).searchLocation.latitude),
lng: Number(JSON.parse(transformedFd).searchLocation.longitude),
};
}
switch (formId) {
case FORM_ID_PUPS_FOR_PLACE:
markPickupPointsForPlace(result);
break;
case FORM_ID_PUPS_FOR_LOCATION:
markPickupPointsForLocation(result, searchLocation);
break;
case FORM_ID_NEARBY_PLACES:
markNearbyPlaces(result, searchLocation);
break;
default:
break;
}
}
function displayAPIResults(data) {
const output = document.getElementById('output');
output.textContent = JSON.stringify(data, undefined, 2);
}
function markNearbyPlaces(data, searchLocation) {
if (data.error) {
resetMap();
return;
}
const places = [];
for (const placeResult of data.placeResults) {
places.push(placeResult.place);
}
resetMap(searchLocation);
markPlaces(places, searchLocation);
for (const place of places) {
markEntrances(place.associatedCompounds, place);
}
markSearchLocation(searchLocation, '');
for (const place of places) {
mapPolygons(place.associatedCompounds);
}
}
function markPickupPointsForPlace(data) {
if (data.error) {
resetMap();
return;
}
const place = data.placeResult.place;
const pickupPoints = data.pickupPointResults;
const searchLocation = {
lat: place.geometry.location.latitude,
lng: place.geometry.location.longitude
};
resetMap(searchLocation);
markPickupPoints(place, pickupPoints, searchLocation);
markEntrances(place.associatedCompounds, place);
markSearchLocation(searchLocation, place.displayName);
createPolyLinesOneToMany(searchLocation, pickupPoints);
mapPolygons(place.associatedCompounds);
}
function markPickupPointsForLocation(data, searchLocation) {
if (data.error) {
resetMap();
return;
}
const placeIdToPlace = {};
// A dict, and the key is placeId(str)s and the value is a list of pups.
const placePickupPoints = {};
data.placeResults.forEach(result => {
placeIdToPlace[result.place.placeId] = result.place;
placePickupPoints[result.place.placeId] = [];
});
data.placePickupPointResults.forEach(result => {
placePickupPoints[result.associatedPlaceId].push(result.pickupPointResult);
})
resetMap(searchLocation);
for (const placeId in placePickupPoints) {
const place = placeIdToPlace[placeId];
const pups = placePickupPoints[placeId];
markEntrances(place.associatedCompounds, place);
markPickupPoints(place, pups, searchLocation);
createPolyLinesOneToMany(searchLocation, pups);
mapPolygons(place.associatedCompounds);
}
// update the marker rank to global order
for (let i = 0; i < mapMarkers.length; i++) {
mapMarkers[i].label = String(i);
}
markSearchLocation(searchLocation, '');
}
function markPlaces(places, searchLocation) {
for (const place of places) {
const placeLocation = place.geometry.location;
const infoWindow =
new google.maps.InfoWindow({content: createInfoWindow(place, null)});
const marker = new google.maps.Marker({
position: toLatLngLiteral(placeLocation),
animation: google.maps.Animation.DROP,
map: map,
});
marker.addListener('click', () => {
infoWindow.open(map, marker);
});
map.addListener('click', () => {
infoWindow.close();
});
mapMarkers.push(marker);
}
}
function markEntrances(compounds, place) {
if (!compounds) {
return;
}
for (const compound of compounds) {
if (!compound.entrances) {
continue;
}
for (const entrance of compound.entrances) {
const entranceMarker = new google.maps.Marker({
position: toLatLngLiteral(entrance.location),
icon: {
url: BLUE_PIN,
},
animation: google.maps.Animation.DROP,
map: map,
});
const infoWindow =
new google.maps.InfoWindow({content: createInfoWindow(place, null)});
entranceMarker.addListener('click', () => {
infoWindow.open(map, entranceMarker);
});
map.addListener('click', () => {
infoWindow.close();
});
entranceMarkers.push(entranceMarker);
}
}
}
function mapPolygons(many) {
if (!many) {
return;
}
for (const toPoint of many) {
const data = toPoint.geometry.displayBoundary;
if (data == null || data.coordinates == null) {
continue;
}
const value = data.coordinates;
const polyArray = JSON.parse(JSON.stringify(value))[0];
const usedColors = [];
const finalLatLngs = [];
let color = '';
for (let i = 0; i < polyArray.length; ++i) {
if (polyArray[i] != null && polyArray[i].length > 0) {
color = getColor(usedColors);
usedColors.push(color);
if (isArrLatLng(polyArray[i])) {
finalLatLngs.push({lat: polyArray[i][1], lng: polyArray[i][0]});
}
}
}
const poly = new google.maps.Polygon({
strokeColor: color,
strokeOpacity: 0.2,
strokeWeight: 5,
fillColor: color,
fillOpacity: 0.1,
paths: finalLatLngs,
map: map,
});
polygons.push(poly);
}
}
function getColor(usedColors) {
let color = generateStrokeColor();
while (usedColors.includes(color)) {
color = generateStrokeColor();
}
return color;
}
function generateStrokeColor() {
return Math.floor(Math.random() * 16777215).toString(16);
}
function isArrLatLng(currArr) {
if (!currArr || currArr.length !== 2) {
return false;
}
return ((typeof currArr[0]) === 'number') &&
((typeof currArr[1]) === 'number');
}
function toLatLngLiteral(latlng) {
return {lat: latlng.latitude, lng: latlng.longitude};
}
function pickupHasRestrictions(pickupPointData) {
let hasRestrictions = false;
const travelDetails = pickupPointData.travelDetails;
for (let i = 0; i < travelDetails.length; i++) {
if (travelDetails[i].trafficRestriction !== 'NO_RESTRICTION') {
hasRestrictions = true;
}
}
return hasRestrictions;
}
function markPickupPoints(place, pickupPoints, searchLocation) {
for (let i = 0; i < pickupPoints.length; i++) {
const pickupPointData = pickupPoints[i];
const pickupPoint = pickupPoints[i].pickupPoint;
const pupIcon =
pickupHasRestrictions(pickupPointData) ? RED_PIN : GREEN_PIN;
const contentString = createInfoWindow(place, pickupPoint);
const pupInfoWindow = new google.maps.InfoWindow({content: contentString});
const marker = new google.maps.Marker({
position: toLatLngLiteral(pickupPoint.location),
label: {
text: String(i),
fontWeight: 'bold',
fontSize: '20px',
color: '#000'
},
animation: google.maps.Animation.DROP,
map,
icon: {
url: pupIcon,
anchor: new google.maps.Point(14, 43),
labelOrigin: new google.maps.Point(-5, 5)
},
});
marker.addListener('click', () => {
pupInfoWindow.open(map, marker);
});
map.addListener('click', () => {
pupInfoWindow.close();
});
mapMarkers.push(marker);
}
}
function createInfoWindow(place, pickupPoint) {
let result = [];
const addResult = (value, key, map) =>
result.push(`<p><span class="info-label">${key}:</span> ${value}</p>`);
const formatAddress = (address) => address.lines.join(',');
const placeFieldMap = new Map();
if (place !== null) {
placeFieldMap.set('Place', '');
placeFieldMap.set('Name', place.displayName);
placeFieldMap.set('Place ID', place.placeId);
placeFieldMap.set('Address', formatAddress(place.address.formattedAddress));
}
const pickupPointFieldMap = new Map();
if (pickupPoint !== null) {
pickupPointFieldMap.set('Pickup point', '');
pickupPointFieldMap.set('Name', pickupPoint.displayName);
}
placeFieldMap.forEach(addResult);
result.push('<hr/>');
pickupPointFieldMap.forEach(addResult);
return result.join('');
}
function markSearchLocation(location, label) {
const infoWindow =
new google.maps.InfoWindow({content: `<p><b>Name: </b>${label}</p>`});
const marker = new google.maps.Marker({
position: location,
map,
label: {
text: SEARCH_LOCATION_MARKER,
fontFamily: 'Material Icons',
color: '#ffffff',
fontSize: '18px',
fontWeight: 'bold',
},
});
marker.addListener('click', () => {
infoWindow.open(map, marker);
});
map.addListener('click', () => {
infoWindow.close();
});
mapMarkers.push(marker);
}
function createPolyLinesOneToMany(one, many) {
const lineSymbol = {
path: google.maps.SymbolPath.FORWARD_CLOSED_ARROW,
};
for (const toPoint of many) {
const line = new google.maps.Polyline({
path: [one, toLatLngLiteral(toPoint.pickupPoint.location)],
icons: [
{
icon: lineSymbol,
offset: '100%',
},
],
map: map,
});
polyLines.push(line);
}
}
/******* Reset the map ******/
function deleteMarkers() {
for (const mapMarker of mapMarkers) {
mapMarker.setMap(null);
}
mapMarkers = [];
}
function deletePolyLines() {
for (const polyLine of polyLines) {
polyLine.setMap(null);
}
polyLines = [];
}
function deleteEntranceMarkers() {
for (const entranceMarker of entranceMarkers) {
entranceMarker.setMap(null);
}
entranceMarkers = [];
}
function clearPolygons() {
for (let i = 0; i < polygons.length; i++) {
polygons[i].setMap(null);
}
polygons = [];
}
function resetMap(searchLocation) {
if (searchLocation) {
map.setCenter(searchLocation);
} else {
map.setCenter(GOOGLEPLEX);
}
map.setZoom(DEFAULT_ZOOM_LEVEL);
deleteMarkers();
deletePolyLines();
deleteEntranceMarkers();
clearPolygons();
}
// Initiate map & set form event handlers
loadMap();
setupForm();
<html lang="en">
<head>
<meta charset="utf-8">
<title>Location Selection Demo</title>
<meta name="viewport" content="width=device-width, initial-scale=1">
<link href="https://fonts.googleapis.com/icon?family=Material+Icons" rel="stylesheet">
</head>
<body>
<h1>Location Selection Demo - FindNearbyPlaces</h1>
<div class="container">
<section class="form-container">
<form id="form-nearby-places" name="location-selection">
<label class="form-label" for="languageCode">Language Code</label>
<input type="text" id="languageCode" name="languageCode" value="en-US" />
<label class="form-label" for="regionCode">Region Code</label>
<input type="text" id="regionCode" name="regionCode" value="US" />
<label class="form-label" for="searchLocation-latitude">Search Location - Latitude</label>
<input type="text" id="searchLocation-latitude" name="searchLocation-latitude" value="37.365647" />
<label class="form-label" for="searchLocation-longitude">Search Location - Longitude</label>
<input type="text" id="searchLocation-longitude" name="searchLocation-longitude" value="-121.925356" />
<label class="form-label" for="maxResults">Max Results</label>
<input type="number" id="maxResults" name="maxResults" min="1" value="5" step="1" />
<input class="submit-button" type="submit" value="Call" />
</form>
</section>
<section>
<div id="map" class="map"></div>
</section>
</div>
<section class="output-container">
<h2>Response</h2>
<pre id="output"></pre>
</section>
</body>
</html>
body {
font-family: 'Google Sans';
}
.container {
display: grid;
grid-template-columns: 30% 1fr;
grid-template-rows: 100%;
grid-column-gap: 20px;
grid-row-gap: 0px;
}
h1 {
font-size: 24px;
margin-top: 20px;
margin-bottom: 20px;
font-weight: bold;
}
h2 {
font-size: 18px;
font-weight: bold;
}
h1,
.form-container,
.output-container {
margin-left: 20px;
}
.map,
.output-container {
margin-right: 20px;
}
.form-container {
border: 1px solid black;
padding: 20px;
}
.map {
border: 1px solid black;
min-height: 800px;
}
.output-container {
margin-top: 20px;
}
#output {
border: 1px solid red;
font-family: 'Google Sans';
min-height: 150px;
}
label:not(.form-checkbox-label), legend {
overflow-wrap: break-word;
font-weight: bold;
}
input:not([type="checkbox"]), select, fieldset {
font-family: 'Google Sans';
width: 100%;
padding: 5px 5px;
margin: 0 0 20px 0;
display: inline-block;
border: 1px solid #ccc;
border-radius: 8px;
box-sizing: border-box;
}
input[type="submit"] {
min-width: 150px;
background-color: green; /* Blue */
border: none;
color: white;
padding: 15px 15px;
text-decoration: none;
display: inline-block;
font-size: 16px;
border-radius: 20px;
width: 50%;
}
input[type="submit"]:hover {
background-color: darkseagreen;
}
input[type="submit"]:active {
background-color: darkseagreen;
box-shadow: 0 5px #666;
transform: translateY(4px);
}
.info-label {
font-weight: bold;
}
const MAPS_API_KEY = ''; // Put your API Key for Maps SDK here
const LS_API_KEY = ''; // Put your API Key for Location Selection APIs here
const MAPS_URL = `https://maps.googleapis.com/maps/api/js?key=${
MAPS_API_KEY}&libraries=places,geometry&callback=initMap`;
const LS_BASE_URL = 'https://locationselection.googleapis.com/v1beta';
const API_URL_PUPS_FOR_PLACE =
`${LS_BASE_URL}:findPickupPointsForPlace?key=${LS_API_KEY}`;
const API_URL_PUPS_FOR_LOCATION =
`${LS_BASE_URL}:findPickupPointsForLocation?key=${LS_API_KEY}`;
const API_URL_NEARBY_PLACES =
`${LS_BASE_URL}:findNearbyPlaces?key=${LS_API_KEY}`;
const FORM_ID_PUPS_FOR_LOCATION = 'form-pups-for-location';
const FORM_ID_PUPS_FOR_PLACE = 'form-pups-for-place';
const FORM_ID_NEARBY_PLACES = 'form-nearby-places';
const FORM_TO_API_URL_MAP = {
[FORM_ID_PUPS_FOR_LOCATION]: API_URL_PUPS_FOR_LOCATION,
[FORM_ID_PUPS_FOR_PLACE]: API_URL_PUPS_FOR_PLACE,
[FORM_ID_NEARBY_PLACES]: API_URL_NEARBY_PLACES,
};
const RED_PIN = 'http://maps.google.com/mapfiles/ms/icons/red-dot.png';
const GREEN_PIN = 'http://maps.google.com/mapfiles/ms/icons/green-dot.png';
const BLUE_PIN = 'http://maps.google.com/mapfiles/ms/icons/blue-dot.png';
const DEFAULT_ZOOM_LEVEL = 18;
// codepoint from https://fonts.google.com/icons
const SEARCH_LOCATION_MARKER = '\ue7f2';
const GOOGLEPLEX = {
lat: 37.422001,
lng: -122.084061
};
let map;
let polyLines = [];
let polygons = [];
let mapMarkers = [];
let entranceMarkers = [];
function loadMap() {
const script = document.createElement('script');
script.src = MAPS_URL;
document.body.appendChild(script);
}
function initMap() {
map = new google.maps.Map(
document.getElementById('map'),
{center: GOOGLEPLEX, zoom: DEFAULT_ZOOM_LEVEL});
}
function setupForm() {
const form = document.getElementsByTagName('form')[0];
form.addEventListener('submit', onFormSubmit);
}
function onFormSubmit(evt) {
evt.preventDefault();
evt.stopPropagation();
const formData = new FormData(evt.target);
fetchAPIResults(formData);
}
function transformFormData(fd) {
let transformedFd = {
localizationPreferences: {},
};
const formId = document.getElementsByTagName('form')[0].id;
if (formId === FORM_ID_PUPS_FOR_LOCATION ||
formId === FORM_ID_PUPS_FOR_PLACE) {
transformedFd = {localizationPreferences: {}, travelModes: []};
}
const addSearchLocation = () => {
if (transformedFd.searchLocation == null) {
transformedFd.searchLocation = {};
}
};
const addDestination = () => {
if (transformedFd.destination == null) {
transformedFd.destination = {};
}
};
fd.forEach((value, key) => {
switch (key) {
case 'travelModes':
transformedFd.travelModes.push(value);
break;
case 'languageCode':
transformedFd.localizationPreferences[key] = value;
break;
case 'regionCode':
transformedFd.localizationPreferences[key] = value;
break;
case 'searchLocation-latitude':
if (value) {
addSearchLocation();
transformedFd.searchLocation['latitude'] = value;
}
break;
case 'searchLocation-longitude':
if (value) {
addSearchLocation();
transformedFd.searchLocation['longitude'] = value;
}
break;
case 'destination-latitude':
if (value) {
addDestination();
transformedFd.destination['latitude'] = value;
}
break;
case 'destination-longitude':
if (value) {
addDestination();
transformedFd.destination['longitude'] = value;
}
break;
default:
transformedFd[key] = value;
break;
}
});
const json = JSON.stringify(transformedFd, undefined, 2);
return json;
}
async function fetchAPIResults(fd) {
const formId = document.getElementsByTagName('form')[0].id;
const url = FORM_TO_API_URL_MAP[formId];
const transformedFd = transformFormData(fd);
const response = await fetch(url, {method: 'POST', body: transformedFd});
const result = await response.json();
// Display JSON
displayAPIResults(result);
// Update map
let searchLocation = {};
if (JSON.parse(transformedFd).searchLocation) {
searchLocation = {
lat: Number(JSON.parse(transformedFd).searchLocation.latitude),
lng: Number(JSON.parse(transformedFd).searchLocation.longitude),
};
}
switch (formId) {
case FORM_ID_PUPS_FOR_PLACE:
markPickupPointsForPlace(result);
break;
case FORM_ID_PUPS_FOR_LOCATION:
markPickupPointsForLocation(result, searchLocation);
break;
case FORM_ID_NEARBY_PLACES:
markNearbyPlaces(result, searchLocation);
break;
default:
break;
}
}
function displayAPIResults(data) {
const output = document.getElementById('output');
output.textContent = JSON.stringify(data, undefined, 2);
}
function markNearbyPlaces(data, searchLocation) {
if (data.error) {
resetMap();
return;
}
const places = [];
for (const placeResult of data.placeResults) {
places.push(placeResult.place);
}
resetMap(searchLocation);
markPlaces(places, searchLocation);
for (const place of places) {
markEntrances(place.associatedCompounds, place);
}
markSearchLocation(searchLocation, '');
for (const place of places) {
mapPolygons(place.associatedCompounds);
}
}
function markPickupPointsForPlace(data) {
if (data.error) {
resetMap();
return;
}
const place = data.placeResult.place;
const pickupPoints = data.pickupPointResults;
const searchLocation = {
lat: place.geometry.location.latitude,
lng: place.geometry.location.longitude
};
resetMap(searchLocation);
markPickupPoints(place, pickupPoints, searchLocation);
markEntrances(place.associatedCompounds, place);
markSearchLocation(searchLocation, place.displayName);
createPolyLinesOneToMany(searchLocation, pickupPoints);
mapPolygons(place.associatedCompounds);
}
function markPickupPointsForLocation(data, searchLocation) {
if (data.error) {
resetMap();
return;
}
const placeIdToPlace = {};
// A dict, and the key is placeId(str)s and the value is a list of pups.
const placePickupPoints = {};
data.placeResults.forEach(result => {
placeIdToPlace[result.place.placeId] = result.place;
placePickupPoints[result.place.placeId] = [];
});
data.placePickupPointResults.forEach(result => {
placePickupPoints[result.associatedPlaceId].push(result.pickupPointResult);
})
resetMap(searchLocation);
for (const placeId in placePickupPoints) {
const place = placeIdToPlace[placeId];
const pups = placePickupPoints[placeId];
markEntrances(place.associatedCompounds, place);
markPickupPoints(place, pups, searchLocation);
createPolyLinesOneToMany(searchLocation, pups);
mapPolygons(place.associatedCompounds);
}
// update the marker rank to global order
for (let i = 0; i < mapMarkers.length; i++) {
mapMarkers[i].label = String(i);
}
markSearchLocation(searchLocation, '');
}
function markPlaces(places, searchLocation) {
for (const place of places) {
const placeLocation = place.geometry.location;
const infoWindow =
new google.maps.InfoWindow({content: createInfoWindow(place, null)});
const marker = new google.maps.Marker({
position: toLatLngLiteral(placeLocation),
animation: google.maps.Animation.DROP,
map: map,
});
marker.addListener('click', () => {
infoWindow.open(map, marker);
});
map.addListener('click', () => {
infoWindow.close();
});
mapMarkers.push(marker);
}
}
function markEntrances(compounds, place) {
if (!compounds) {
return;
}
for (const compound of compounds) {
if (!compound.entrances) {
continue;
}
for (const entrance of compound.entrances) {
const entranceMarker = new google.maps.Marker({
position: toLatLngLiteral(entrance.location),
icon: {
url: BLUE_PIN,
},
animation: google.maps.Animation.DROP,
map: map,
});
const infoWindow =
new google.maps.InfoWindow({content: createInfoWindow(place, null)});
entranceMarker.addListener('click', () => {
infoWindow.open(map, entranceMarker);
});
map.addListener('click', () => {
infoWindow.close();
});
entranceMarkers.push(entranceMarker);
}
}
}
function mapPolygons(many) {
if (!many) {
return;
}
for (const toPoint of many) {
const data = toPoint.geometry.displayBoundary;
if (data == null || data.coordinates == null) {
continue;
}
const value = data.coordinates;
const polyArray = JSON.parse(JSON.stringify(value))[0];
const usedColors = [];
const finalLatLngs = [];
let color = '';
for (let i = 0; i < polyArray.length; ++i) {
if (polyArray[i] != null && polyArray[i].length > 0) {
color = getColor(usedColors);
usedColors.push(color);
if (isArrLatLng(polyArray[i])) {
finalLatLngs.push({lat: polyArray[i][1], lng: polyArray[i][0]});
}
}
}
const poly = new google.maps.Polygon({
strokeColor: color,
strokeOpacity: 0.2,
strokeWeight: 5,
fillColor: color,
fillOpacity: 0.1,
paths: finalLatLngs,
map: map,
});
polygons.push(poly);
}
}
function getColor(usedColors) {
let color = generateStrokeColor();
while (usedColors.includes(color)) {
color = generateStrokeColor();
}
return color;
}
function generateStrokeColor() {
return Math.floor(Math.random() * 16777215).toString(16);
}
function isArrLatLng(currArr) {
if (!currArr || currArr.length !== 2) {
return false;
}
return ((typeof currArr[0]) === 'number') &&
((typeof currArr[1]) === 'number');
}
function toLatLngLiteral(latlng) {
return {lat: latlng.latitude, lng: latlng.longitude};
}
function pickupHasRestrictions(pickupPointData) {
let hasRestrictions = false;
const travelDetails = pickupPointData.travelDetails;
for (let i = 0; i < travelDetails.length; i++) {
if (travelDetails[i].trafficRestriction !== 'NO_RESTRICTION') {
hasRestrictions = true;
}
}
return hasRestrictions;
}
function markPickupPoints(place, pickupPoints, searchLocation) {
for (let i = 0; i < pickupPoints.length; i++) {
const pickupPointData = pickupPoints[i];
const pickupPoint = pickupPoints[i].pickupPoint;
const pupIcon =
pickupHasRestrictions(pickupPointData) ? RED_PIN : GREEN_PIN;
const contentString = createInfoWindow(place, pickupPoint);
const pupInfoWindow = new google.maps.InfoWindow({content: contentString});
const marker = new google.maps.Marker({
position: toLatLngLiteral(pickupPoint.location),
label: {
text: String(i),
fontWeight: 'bold',
fontSize: '20px',
color: '#000'
},
animation: google.maps.Animation.DROP,
map,
icon: {
url: pupIcon,
anchor: new google.maps.Point(14, 43),
labelOrigin: new google.maps.Point(-5, 5)
},
});
marker.addListener('click', () => {
pupInfoWindow.open(map, marker);
});
map.addListener('click', () => {
pupInfoWindow.close();
});
mapMarkers.push(marker);
}
}
function createInfoWindow(place, pickupPoint) {
let result = [];
const addResult = (value, key, map) =>
result.push(`<p><span class="info-label">${key}:</span> ${value}</p>`);
const formatAddress = (address) => address.lines.join(',');
const placeFieldMap = new Map();
if (place !== null) {
placeFieldMap.set('Place', '');
placeFieldMap.set('Name', place.displayName);
placeFieldMap.set('Place ID', place.placeId);
placeFieldMap.set('Address', formatAddress(place.address.formattedAddress));
}
const pickupPointFieldMap = new Map();
if (pickupPoint !== null) {
pickupPointFieldMap.set('Pickup point', '');
pickupPointFieldMap.set('Name', pickupPoint.displayName);
}
placeFieldMap.forEach(addResult);
result.push('<hr/>');
pickupPointFieldMap.forEach(addResult);
return result.join('');
}
function markSearchLocation(location, label) {
const infoWindow =
new google.maps.InfoWindow({content: `<p><b>Name: </b>${label}</p>`});
const marker = new google.maps.Marker({
position: location,
map,
label: {
text: SEARCH_LOCATION_MARKER,
fontFamily: 'Material Icons',
color: '#ffffff',
fontSize: '18px',
fontWeight: 'bold',
},
});
marker.addListener('click', () => {
infoWindow.open(map, marker);
});
map.addListener('click', () => {
infoWindow.close();
});
mapMarkers.push(marker);
}
function createPolyLinesOneToMany(one, many) {
const lineSymbol = {
path: google.maps.SymbolPath.FORWARD_CLOSED_ARROW,
};
for (const toPoint of many) {
const line = new google.maps.Polyline({
path: [one, toLatLngLiteral(toPoint.pickupPoint.location)],
icons: [
{
icon: lineSymbol,
offset: '100%',
},
],
map: map,
});
polyLines.push(line);
}
}
/******* Reset the map ******/
function deleteMarkers() {
for (const mapMarker of mapMarkers) {
mapMarker.setMap(null);
}
mapMarkers = [];
}
function deletePolyLines() {
for (const polyLine of polyLines) {
polyLine.setMap(null);
}
polyLines = [];
}
function deleteEntranceMarkers() {
for (const entranceMarker of entranceMarkers) {
entranceMarker.setMap(null);
}
entranceMarkers = [];
}
function clearPolygons() {
for (let i = 0; i < polygons.length; i++) {
polygons[i].setMap(null);
}
polygons = [];
}
function resetMap(searchLocation) {
if (searchLocation) {
map.setCenter(searchLocation);
} else {
map.setCenter(GOOGLEPLEX);
}
map.setZoom(DEFAULT_ZOOM_LEVEL);
deleteMarkers();
deletePolyLines();
deleteEntranceMarkers();
clearPolygons();
}
// Initiate map & set form event handlers
loadMap();
setupForm();
Antes de usar a API Location Selection para pesquisar pontos de embarque, siga estas instruções e faça a integração com a biblioteca de cliente.
O serviço de seleção de local oferece três APIs para a seleção de embarque e desembarque: FindNearbyPlaces
, FindPickupPointsForPlace
e FindPickupPointsForLocation
.
Use FindNearbyPlaces
para buscar lugares perto da pesquisa ou do local do dispositivo. Os lugares são classificados pela proximidade do local e o destaque deles no transporte por aplicativo. FindNearbyPlaces
retorna uma lista de lugares que podem ser mostrados para permitir que o usuário faça a melhor seleção. Depois que um local for selecionado, use FindPickupPointsForPlace
para buscar pontos de embarque nele.
Use FindPickupPointsForLocation
para buscar lugares e pontos de embarque associados perto da pesquisa ou do local do dispositivo na mesma chamada RPC. Cada ponto de embarque
está associado a um lugar. Os pontos de embarque são classificados pela proximidade do local e o destaque deles no transporte por aplicativo. Os pontos de retirada de vários lugares são ordenados juntos. FindPickupPointsForLocation
combina
FindNearbyPlaces
e FindPickupPointsForPlace
. Por exemplo, digamos que o local da solicitação esteja próximo às Place P1, P2 e P3. Se o melhor ponto de embarque T1 estiver associado ao lugar P2 e o próximo melhor ponto de embarque estiver associado ao lugar P1, os resultados vão ter a ordem [T1:P2, T2:P1, ...].
A classificação dos pontos de retirada depende dos critérios fornecidos na solicitação.
Para mais informações, consulte
Como otimizar embarques para várias viagens.
Pesquisa por local
Se preferir mostrar lugares para o usuário antes da seleção deles ou mostrar lugares por perto arrastando um alfinete, use esta chamada RPC:
FindNearbyPlacesRequest find_nearby_places_request =
FindNearbyPlacesRequest.newBuilder()
.setLocalizationPreferences(LocalizationPreferences.newBuilder()
// Language used for localizing text such as name or address.
.setLanguageCode("en")
.setRegionCode("US")
.build())
// Rider's location or location of dragged pin.
.setSearchLocation(LatLng.newBuilder().setLatitude(37.365647).setLongitude(-121.925356))
// Number of places requested.
.setMaxResults(3)
.build();
FindNearbyPlacesResponse findNearbyPlacesResponse =
locationSelectionBetaClient.findNearbyPlaces(find_nearby_places_request);
A chamada RPC retorna uma lista classificada de respostas de lugares que atendem aos critérios de entrada, ordenadas por uma combinação de proximidade e destaque. Você pode permitir que o passageiro escolha um lugar ou use o primeiro resultado e prossiga para a seleção do ponto de embarque. Cada resposta de lugar tem um place_id
exclusivo que pode ser usado em FindPickupPointsForPlaceRequest
para buscar pontos de retirada. Para mais informações, consulte Pesquisar por ID de lugar.
FindPickupPointsForLocationRequest FindPickupPointsForLocationRequest =
FindPickupPointsForLocationRequest.newBuilder()
// Language used for localizing text such as name and address.
.setLocalizationPreferences(LocalizationPreferences.newBuilder().setRegionCode("US").setLanguageCode("en"))
// The search location of the rider or the dropped pin.
.setSearchLocation(LatLng.newBuilder().setLatitude(-23.482049).setLongitude(-46.602135))
// The max results returned.
.setMaxResults(5)
// List of travel modes. At least one of the travel modes must be supported by the pickup points.
.addTravelModes(TravelMode.DRIVING)
// Specifies the sorting order of matching pickup points.
.setOrderBy(PickupPointOrder.DISTANCE_FROM_SEARCH_LOCATION)
.build();
FindPickupPointsForLocationResponse FindPickupPointsForLocationResponse =
locationSelectionService.FindPickupPointsForLocation(
RpcClientContext.create(), FindPickupPointsForLocationRequest);
A chamada RPC retorna uma lista classificada de pontos de retirada que atendem aos critérios
de entrada, ordenada por uma combinação de proximidade e destaque. Essa chamada RPC
combina FindNearbyPlaces
e FindPickupPointsForPlaceRequest
e pode ser
usada em vez de combinar as outras duas chamadas.
Pesquisar por ID de lugar
Você pode conseguir um place_id
usando FindNearbyPlaces
ou o serviço Autocomplete da API Places. Em seguida, use a seguinte chamada de RPC para fornecer os pontos de embarque ideais para o lugar especificado:
FindPickupPointsForPlaceRequest findPickupPointsForPlaceRequest =
FindPickupPointsForPlaceRequest.newBuilder()
// Language used for localizing text such as name and address.
.setLocalizationPreferences(LocalizationPreferences.newBuilder().setRegionCode("US").setLanguageCode("en"))
// Place ID of the place for which pickup points are being fetched;
// for example, Hilton Hotel, Downtown San Jose.
.setPlaceId("ChIJwTUa-q_Mj4ARff4yludGH-M")
// List of travel modes. At least one of the travel modes must be supported by the pickup points.
.addTravelModes(TravelMode.DRIVING)
// Rider's location or location of dragged pin.
// It is recommended to use the same location that was used in `FindNearbyPlaces` for better quality.
.setSearchLocation(LatLng.newBuilder().setLatitude(37.329472).setLongitude(-121.890449))
.setOrderBy(PickupPointOrder.DISTANCE_FROM_SEARCH_LOCATION)
.setMaxResults(5)
.build();
FindPickupPointsForPlaceResponse findPickupPointsForPlaceResponse =
locationSelectionBetaClient.findPickupPointsForPlace(findPickupPointsForPlaceRequest);
FindPickupPointsForPlace
retorna PickupPointResponses
com lat/lngs para os pontos em que um passageiro pode ser embarcado.
Otimizar retiradas para várias viagens
Para viagens compartilhadas ou ida e volta, o FindPickupPointsForPlace
aceita pedidos de pontos de retirada até DRIVING_ETA_FROM_PICKUP_POINT_TO_DESTINATION
. Assim, é possível retornar um ponto de embarque para a próxima viagem, otimizado de acordo com o trajeto atual do motorista.
Exemplo
FindPickupPointsForPlaceRequest findPickupPointsForPlaceRequest =
FindPickupPointsForPlaceRequest.newBuilder()
// Language used for localizing text such as name and address.
.setLocalizationPreferences(LocalizationPreferences.newBuilder().setRegionCode("US").setLanguageCode("en"))
// Place ID of the place for which pickup points are being fetched;
// for example, Hilton Hotel, Downtown San Jose.
.setPlaceId("ChIJwTUa-q_Mj4ARff4yludGH-M")
// List of travel modes. At least one of the travel modes must be supported by the pickup points.
.addTravelModes(TravelMode.DRIVING)
// Second rider's location or location of dragged pin.
.setSearchLocation(LatLng.newBuilder().setLatitude(37.329472).setLongitude(-121.890449))
// Location of the driver's next drop off after picking up the second
// rider. Note, it is not necessarily the second rider's destination.
.setDestination(LatLng.newBuilder().setLatitude(37.329472).setLongitude(-121.890449))
.setOrderBy(PickupPointOrder.DRIVING_ETA_FROM_PICKUP_POINT_TO_DESTINATION)
.setComputeDrivingEta(true)
.setMaxResults(5)
.build();
FindPickupPointsForPlaceResponse findPickupPointsForPlaceResponse =
locationSelectionBetaClient.findPickupPointsForPlace(findPickupPointsForPlaceRequest);
Exibição de contornos, entradas e saídas de edifícios
Na mensagem de resposta do proto do lugar, o campo associatedCompounds
identifica os compostos associados ao lugar. A mensagem composta
contém três tipos de informações:
- Tipo composto: uma das quatro opções
compoundBuilding
: um único edifício autônomo, como um shopping ou
supermercado.
compoundSection
: um composto dentro de um complexo maior, como uma única
loja em um shopping.
compoundGrounds
: tudo o que está associado a uma compoundBuilding
,
como um shopping, o estacionamento e todos os outros edifícios dentro desse estacionamento.
unrecognized
: o valor padrão
- Geometria: as coordenadas do polígono delineado, armazenadas em uma estrutura GeoJSON no campo
displayBoundary
. Essas coordenadas são usadas para construir o contorno da seção, do edifício ou dos terrenos.
- Entradas: as coordenadas de latitude e longitude de todas as entradas e saídas localizadas.
Ela retorna qualquer tipo composto associado ao local de pesquisa. Se o local de pesquisa estiver em uma loja específica em um shopping center, a seleção de local retornará:
* a loja específica, as entradas e saídas e o contorno da loja;
* o edifício composto (o shopping), suas entradas e saídas e o contorno do shopping
* o terreno (o shopping + estacionamento), suas entradas e saídas e o contorno de todo o terreno
Esta imagem mostra os três tipos compostos sendo retornados.
Esta imagem mostra vários locais dentro de um aeroporto, com os limites de um edifício dentro do aeroporto e do aeroporto e todos os terrenos relacionados a ele.