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Filter Data Along Route.html
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Filter Data Along Route.html
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<!DOCTYPE html>
<html>
<head>
<title>Filter Data Along Route - Azure Maps Web SDK Samples</title>
<meta charset="utf-8" />
<meta http-equiv="x-ua-compatible" content="IE=Edge" />
<meta name="viewport" content="width=device-width, initial-scale=1, shrink-to-fit=no" />
<meta name="description" content="This sample shows how to take a route line, calculate a buffer around it and then filter a set of points to find those that are within the buffer." />
<meta name="keywords" content="map, gis, API, SDK, Turf.js, geospatial, math, points, buffer, within, intersects, intersection" />
<meta name="author" content="Microsoft Azure Maps" />
<!-- Add references to the Azure Maps Map control JavaScript and CSS files. -->
<link rel="stylesheet" href="https://atlas.microsoft.com/sdk/javascript/mapcontrol/2/atlas.min.css" type="text/css" />
<script src="https://atlas.microsoft.com/sdk/javascript/mapcontrol/2/atlas.min.js"></script>
<!-- Add a reference to the Azure Maps Services Module JavaScript file. -->
<script src="https://atlas.microsoft.com/sdk/javascript/service/2/atlas-service.min.js"></script>
<!-- Load turf.js a spatial math library. http://turfjs.org/ -->
<script src='https://npmcdn.com/@turf/turf/turf.min.js'></script>
<script type='text/javascript'>
var map, searchURL, routeURL, points, datasource, routeLine;
function GetMap() {
//Initialize a map instance.
map = new atlas.Map('myMap', {
center: [-122.25, 47.64],
zoom: 11,
view: 'Auto',
//Add your Azure Maps subscription key to the map SDK. Get an Azure Maps key at https://azure.com/maps
authOptions: {
authType: 'subscriptionKey',
subscriptionKey: '<Your Azure Maps Key>'
}
});
//Use SubscriptionKeyCredential with a subscription key
var subscriptionKeyCredential = new atlas.service.SubscriptionKeyCredential(atlas.getSubscriptionKey());
//Use subscriptionKeyCredential to create a pipeline
var pipeline = atlas.service.MapsURL.newPipeline(subscriptionKeyCredential, {
retryOptions: { maxTries: 4 }, // Retry options
});
//Create an instance of the SearchURL client.
searchURL = new atlas.service.SearchURL(pipeline);
//Create an instance of the RouteURL client.
routeURL = new atlas.service.RouteURL(pipeline);
//Wait until the map resources are ready.
map.events.add('ready', function () {
//Create a data source and add it to the map.
datasource = new atlas.source.DataSource();
map.sources.add(datasource);
//Generate 1000 random points within the bounds of the map view using the Turf.js library
points = turf.randomPoint(1000, {
bbox: map.getCamera().bounds
});
//Assign a color property to each point.
for (var i = 0; i < points.features.length; i++) {
points.features[i].properties.color = '#3399ff';
}
datasource.add(points);
map.layers.add([
//Add a layer for rendering line data.
new atlas.layer.PolygonLayer(datasource, null, {
fillColor: 'rgba(255, 0, 255, 0.4)',
filter: ['any', ['==', ['geometry-type'], 'Polygon'], ['==', ['geometry-type'], 'MultiPolygon']] //Only render Polygon or MultiPolygon in this layer.
}),
//Add a layer for rendering line data.
new atlas.layer.LineLayer(datasource, null, {
strokeColor: 'rgb(0, 204, 153)',
strokeWidth: 5,
filter: ['any', ['==', ['geometry-type'], 'LineString'], ['==', ['geometry-type'], 'MultiLineString']] //Only render LineString or MultiLineString in this layer.
}),
//Add a layer for rendering points as symbols.
new atlas.layer.BubbleLayer(datasource, null, {
color: ['get', 'color'],
filter: ['any', ['==', ['geometry-type'], 'Point'], ['==', ['geometry-type'], 'MultiPoint']] //Only render Point or MultiPoints in this layer.
})
]);
});
}
function calculateRoute() {
var start = document.getElementById('startTbx').value;
var end = document.getElementById('endTbx').value;
if (start == '' || end == '') {
alert('Invalid waypoint point specified.');
return;
}
//Geocode the start waypoint.
geocodeQuery(start, function (startPoint) {
if (!startPoint) {
alert('Unable to geocode start waypoint.');
return;
}
//Geocode the end waypoint.
geocodeQuery(end, function (endPoint) {
if (!endPoint) {
alert('Unable to geocode end waypoint.');
return;
}
routeURL.calculateRouteDirections(atlas.service.Aborter.timeout(3000), [startPoint, endPoint], {
maxAlternatives: 0
}).then(r => {
if (r && r.routes && r.routes.length > 0) {
var route = r.routes[0];
var routeCoordinates = [];
for (var legIndex = 0; legIndex < route.legs.length; legIndex++) {
var leg = route.legs[legIndex];
//Convert the route point data into a format that the map control understands.
var legCoordinates = leg.points.map(function (point) {
return [point.longitude, point.latitude];
});
//Combine the route point data for each route leg together to form a single path.
routeCoordinates = routeCoordinates.concat(legCoordinates);
}
//Create a line from the route path points and add it to the data source.
routeLine = new atlas.data.LineString(routeCoordinates);
filterData();
}
});
});
});
}
function filterData() {
if (routeLine) {
var bufferDistance = parseFloat(document.getElementById('bufferDistance').value);
//Create a polygon search area by buffering the route line.
filterArea = turf.buffer(routeLine, bufferDistance, { units: 'miles' });
//Reset the color property of each point.
for (var i = 0; i < points.features.length; i++) {
points.features[i].properties.color = '#3399ff';
}
//Calculate all points that are within the filter area.
var ptsWithin = turf.pointsWithinPolygon(points, filterArea);
//Change to color of all points that are in the filter area to red.
for (var i = 0; i < ptsWithin.features.length; i++) {
ptsWithin.features[i].properties.color = 'red';
}
//Update the data on the map.
datasource.setShapes(points);
datasource.add([filterArea, routeLine]);
}
}
//Geocode the query and return the first coordinate.
function geocodeQuery(query, callback) {
if (callback) {
searchURL.searchAddress(atlas.service.Aborter.timeout(3000), query, {
limit: 1,
view: 'Auto'
}).then(results => {
var data = results.geojson.getFeatures();
if (data && data.features.length > 0) {
callback(data.features[0].geometry.coordinates);
} else {
callback(null);
}
});
}
}
</script>
</head>
<body onload="GetMap()">
<div id="myMap" style="position:relative;width:100%;min-width:290px;height:600px;"></div>
<div style="position:absolute;top:15px;left:15px;background-color:white;padding:10px;border-radius:10px;">
<table>
<tr>
<td>Start: </td>
<td><input type="text" id="startTbx" value="Seattle" /></td>
</tr>
<tr>
<td>End: </td>
<td><input type="text" id="endTbx" value="Redmond" /></td>
</tr>
<tr>
<td></td>
<td><input type="button" value="Calculate Route" onclick="calculateRoute()" /></td>
</tr>
<tr>
<td>Buffer: </td>
<td>
<form oninput="bd.value=bufferDistance.value">
<input type="range" id="bufferDistance" value="1" min="0.1" max="5" step="0.1" onchange="filterData()" />
<output name="bd" for="bufferDistance">1</output>
<label> miles</label>
</form>
</td>
</tr>
</table>
</div>
<fieldset style="width:calc(100% - 30px);min-width:290px;margin-top:10px;">
<legend>Filter Data Along Route</legend>
This sample shows how to take a route line and calculate a buffer around it and then filter a set of point data to find those that are within the buffer.
The buffer and within calculations are done using the open source <a href="http://turfjs.org/" target="_blank">Turf.js</a> library.
</fieldset>
</body>
</html>