Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am trying to create a polygon around an existing polyline. I thought of drawing polylines parallel to the existing polyline and then joining them to create a polygon. I tried unsuccessfully to do the math to draw the parallel lines. I found this link which I used to create the polylines on either sides.


It seemed exactly what I was looking for. I started the conversion from v2 to v3. I tried to keep to minimal code and deleted the rest. I have also removed the listener for change in zoom level which was present in the original code.

It worked perfectly when I used a small fixed polyline. However when I increased the size of the polyline the parallel polylines began to go haywire.

The code that I have is :

    var points = null;
    var map;
    var line1;
    var line2;
    var prj = null;
    var idlelistener;
    var gapPx = 2;
    var weight = 4; 

    function BDCCParallelLines(maps, point, bounds) {   

        map = maps;
        points = point;
        MyOverlay.prototype = new google.maps.OverlayView();
    MyOverlay.prototype.onAdd = function() { }
    MyOverlay.prototype.onRemove = function() { }
    MyOverlay.prototype.draw = function() { }
    function MyOverlay(map) { this.setMap(map); }

    var overlay = new MyOverlay(map);
    // Wait for idle map
    idlelistener = google.maps.event.addListener(map, 'idle', function() {
       // Get projection
       prj = overlay.getProjection();

    function recalc() {
       var zoom = this.map.getZoom();

       //left and right swapped throughout!

       var pts1 = new google.maps.MVCArray();//left side of center 
       var pts2 = new google.maps.MVCArray();//right side of center

       //shift the pts array away from the centre-line by half the gap + half the line width
       var o = (this.gapPx + this.weight)/2;

       var p2l,p2r;

       for (var i=1; i<this.points.length; i+=2){

          var p1lm1;
          var p1rm1;
          var p2lm1;
          var p2rm1;
          var thetam1;

          var p1 = this.prj.fromLatLngToContainerPixel(this.points.getAt(i-1),zoom) //**fromLatLngToPixel
          var p2 = this.prj.fromLatLngToContainerPixel(this.points.getAt(i),zoom) //**fromLatLngToPixel
          var theta = Math.atan2(p1.x-p2.x,p1.y-p2.y) + (Math.PI/2);
          var dl = Math.sqrt(((p1.x-p2.x)*(p1.x-p2.x))+((p1.y-p2.y)*(p1.y-p2.y)));  

          if(theta > Math.PI)
              theta -= Math.PI*2; 
          var dx = Math.round(o * Math.sin(theta));
          var dy = Math.round(o * Math.cos(theta));

          var p1l = new google.maps.Point(p1.x+dx,p1.y+dy); //GPoint
          var p1r = new google.maps.Point(p1.x-dx,p1.y-dy); 
          p2l = new google.maps.Point(p2.x+dx,p2.y+dy);
          p2r = new google.maps.Point(p2.x-dx,p2.y-dy);

          if(i==1){   //first point
            pts1.push(this.prj.fromContainerPixelToLatLng(p1l),zoom); //**fromPixelToLatLng
            pts2.push(this.prj.fromContainerPixelToLatLng(p1r),zoom); //**fromPixelToLatLng
          else{ // mid points

            if(theta == thetam1){
                // adjacent segments in a straight line 
                var pli = this.intersect(p1lm1,p2lm1,p1l,p2l);
                var pri = this.intersect(p1rm1,p2rm1,p1r,p2r);

                var dlxi = (pli.x-p1.x);
                var dlyi = (pli.y-p1.y);
                var drxi = (pri.x-p1.x);
                var dryi = (pri.y-p1.y);
            var di = Math.sqrt((drxi*drxi)+(dryi*dryi));  
                var s = o / di;

                var dTheta = theta - thetam1;
                if(dTheta < (Math.PI*2))
                    dTheta += Math.PI*2;
                if(dTheta > (Math.PI*2))
                    dTheta -= Math.PI*2;

                if(dTheta < Math.PI){
                   //intersect point on outside bend
                   pts1.push(this.prj.fromContainerPixelToLatLng(new google.maps.Point(p1.x+(s*dlxi),p1.y+(s*dlyi))),zoom);
            else if (di < dl){

                dxi = (pri.x-p1.x)*(pri.x-p1.x);
                dyi = (pri.y-p1.y)*(pri.y-p1.y);
                if(dTheta > Math.PI){
                   //intersect point on outside bend
                   pts2.push(this.prj.fromContainerPixelToLatLng(new google.maps.Point(p1.x+(s*drxi),p1.y+(s*dryi))),zoom);
            else if(di<dl)

          p1lm1 = p1l;
          p1rm1 = p1r;
          p2lm1 = p2l;
          p2rm1 = p2r;
          thetam1 = theta;

       pts1.push(this.prj.fromContainerPixelToLatLng(p2l),zoom);//final point

       this.line1 = new google.maps.Polyline({
              map:           map,
              path:          pts1,
              strokeColor:   "#0000FF",
              strokeWeight:  4,
              strokeOpacity: 1.0

       this.line2 = new google.maps.Polyline({
            map:           map,
                      path:          pts2,
                      strokeColor:   "#0000FF",
                      strokeWeight:  4,
                      strokeOpacity: 1.0


    function intersect(p0,p1,p2,p3)
    // this function computes the intersection of the sent lines p0-p1 and p2-p3
    // and returns the intersection point, 

    var a1,b1,c1, // constants of linear equations
        det_inv,  // the inverse of the determinant of the coefficient matrix
        m1,m2;    // the slopes of each line

    var x0 = p0.x;
    var y0 = p0.y;
    var x1 = p1.x;
    var y1 = p1.y;
    var x2 = p2.x;
    var y2 = p2.y;
    var x3 = p3.x;
    var y3 = p3.y;

    // compute slopes, note the cludge for infinity, however, this will
    // be close enough

    if ((x1-x0)!=0)
       m1 = (y1-y0)/(x1-x0);
       m1 = 1e+10;   // close enough to infinity

    if ((x3-x2)!=0)
       m2 = (y3-y2)/(x3-x2);
       m2 = 1e+10;   // close enough to infinity

    // compute constants

    a1 = m1;
    a2 = m2;

    b1 = -1;
    b2 = -1;

    c1 = (y0-m1*x0);
    c2 = (y2-m2*x2);

    // compute the inverse of the determinate

    det_inv = 1/(a1*b2 - a2*b1);

    // use Kramers rule to compute xi and yi

    var xi=((b1*c2 - b2*c1)*det_inv);
    var yi=((a2*c1 - a1*c2)*det_inv);

    return new google.maps.Point(Math.round(xi),Math.round(yi)); // ** CHANGED HERE


    function createPolygon(side1,side2){
        var a = new Array();
        for(var i = 0; i < side1.length;i++){
        for(var i = side1.length-1; i >=0;i--){

    function drawPolylinePolygon(a){
        var color = getColor(false);
          var polygon_options = {
                paths: a,
                strokeColor: color,
                strokeOpacity: 0.7,
                strokeWeight: 2,
                fillColor: color,
                fillOpacity: 0.2
          current_polygon = new google.maps.Polygon(polygon_options);

The createPolygon() function is used to merge the two polylines to create a polygon.

This is the html page :

    <?xml version="1.0" encoding="utf-8"?>
    <!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Strict//EN"    "http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd">
    <html xmlns="http://www.w3.org/1999/xhtml" xmlns:v="urn:schemas-microsoft-com:vml">


    <script src="http://maps.google.com/maps/api/js?sensor=true&libraries=drawing,geometry" type="text/javascript"></script>
    <script src="BDCCParallelLines.js" type="text/javascript"></script>

    <script type="text/javascript">

    var map;

    function linesMap(){

            var latlng1 = new google.maps.LatLng(51.42, -0.95);
            var mapOptions = {zoom: 22, center:latlng1, mapTypeId: google.maps.MapTypeId.ROADMAP, mapTypeControl: false};
            var map = new google.maps.Map(document.getElementById('mapLines'),mapOptions);

            var pts = new Array();
            var latlngbounds = new google.maps.LatLngBounds();
            pts.push (new google.maps.LatLng(51.42, -0.97));
            latlngbounds.extend(new google.maps.LatLng(51.42, -0.97));
            pts.push (new google.maps.LatLng(51.43, -0.96));
            latlngbounds.extend(new google.maps.LatLng(51.43, -0.96));
            pts.push (new google.maps.LatLng(51.425, -0.955));
            latlngbounds.extend(new google.maps.LatLng(51.425, -0.955));
            pts.push (new google.maps.LatLng(51.42, -0.95));//straight at zoom = 13
            latlngbounds.extend(new google.maps.LatLng(51.42, -0.95));
            pts.push (new google.maps.LatLng(51.43, -0.94));
            latlngbounds.extend(new google.maps.LatLng(51.43, -0.94));
            pts.push (new google.maps.LatLng(51.43, -0.9375));//horz & straight
            latlngbounds.extend(new google.maps.LatLng(51.43, -0.9375));
            pts.push (new google.maps.LatLng(51.43, -0.935));
            latlngbounds.extend(new google.maps.LatLng(51.43, -0.935));
            pts.push (new google.maps.LatLng(51.425, -0.935));
            latlngbounds.extend(new google.maps.LatLng(51.425, -0.935));
            pts.push (new google.maps.LatLng(51.42, -0.935));//vert & straight
            latlngbounds.extend(new google.maps.LatLng(51.42, -0.935));

            var poly = new BDCCParallelLines(map,pts,latlngbounds);

            var poly2 = new google.maps.Polyline({
                      map:           map,
                      path:          pts,
                      strokeColor:   "#FF0000",
                      strokeWeight:  2,
                      strokeOpacity: 1.0



    <body     onload="linesMap();"
    style="font-weight: bold; font-size: large; font-family: Arial; background-color: #cccc99">
                    <div id="mapLines" style="width: 800px; height: 600px">

After searching I came across this article where Ben seems to have the same problem. The image on the link shows the exact same problem I'm having. Google maps api parallel path lines

I would like to know if there is any way that I can improve on the existing code for the parallel polylines or if there is any other way the end result I am looking for is a polygon around the polyline.

share|improve this question
What is the purpose of the polygon? Would something like what RouteBoxer does work? –  geocodezip Sep 24 '12 at 13:23
@user1694185 Please trim the code samples to only cover the topic in question so it's both easier to read and to find a general answer. –  Mikulas Dite Sep 24 '12 at 20:08
@geocodezip - I had checked the RouteBoxer but that won't work for me. I'm letting the user draw a polyline on the map and after that I want to create a polygon as I want to check if a user with gps is entering or exiting the polygon. I already have the javascript code for checking entry and exit. –  joyson Sep 25 '12 at 4:31
@MikulasDite - Thanks for pointing that out. I'm new here so I thought that putting up the entire code would help others understand the flow and also allow them to test it. –  joyson Sep 25 '12 at 4:31

1 Answer 1

up vote 0 down vote accepted

You should use a Buffer-function that exists in any spatial-API or database, one example are sharpmap.

share|improve this answer
Thanks for the link. I was looking for a function in javascript as I was looking to do the calculations on the client side rather than the server to minimize the load. However I will test NTS and let you know. –  joyson Sep 25 '12 at 4:51
Ok, I was reading to fast, here is a related question –  user613068 Sep 25 '12 at 11:13

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.