Sign up ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

Okay i found Timo's Javascript Clipper:

I am doing a mod of svg-edit and i want to use Timo's library to perform boolean(set) operations on closed paths that my users draw within svg-edit.

The problem is that Timo's library example starts with polygons then performs the operation and then it converts that to SVG.

How would i go converting the path to polygons for use in Timos library? The function below gives in an alert box an SVG path but the example starts with polygons.

This is the function to get an SVG path using timos library with 2 sample polygons on the top.

         <div id="svgcontainer"></div>

    function changeDimensions() 

  var subj_polygons = [[{X:10,Y:10},{X:110,Y:10},{X:110,Y:110},{X:10,Y:110}],
  var clip_polygons = [[{X:50,Y:50},{X:150,Y:50},{X:150,Y:150},{X:50,Y:150}],
  var scale = 100;
subj_polygons = scaleup(subj_polygons, scale);
 clip_polygons = scaleup(clip_polygons, scale);
var cpr = new ClipperLib.Clipper();
cpr.AddPolygons(subj_polygons, ClipperLib.PolyType.ptSubject);
cpr.AddPolygons(clip_polygons, ClipperLib.PolyType.ptClip);
var subject_fillType = ClipperLib.PolyFillType.pftNonZero;
var clip_fillType = ClipperLib.PolyFillType.pftNonZero;
var clipTypes = [ClipperLib.ClipType.ctUnion];
var clipTypesTexts = "Union";
var solution_polygons, svg, cont = document.getElementById('svgcontainer');
var i;
for(i = 0; i < clipTypes.length; i++) {
solution_polygons = new ClipperLib.Polygons();
cpr.Execute(clipTypes[i], solution_polygons, subject_fillType, clip_fillType);

 alert(polys2path(solution_polygons, scale));


// helper function to scale up polygon coordinates
function scaleup(poly, scale) {
 var i, j;
if (!scale) scale = 1;
for(i = 0; i < poly.length; i++) {
for(j = 0; j < poly[i].length; j++) {
  poly[i][j].X *= scale;
  poly[i][j].Y *= scale;
return poly;

// converts polygons to SVG path string
function polys2path (poly, scale) {
var path = "", i, j;
if (!scale) scale = 1;
for(i = 0; i < poly.length; i++) {
for(j = 0; j < poly[i].length; j++) {
  if (!j) path += "M";
  else path += "L";
  path += (poly[i][j].X / scale) + ", " + (poly[i][j].Y / scale);
 path += "Z";
 return path;

share|improve this question

2 Answers 2

up vote 2 down vote accepted

I assume that you mean some sort of svg path to polygon conversion.

I have searched a lot, but not found anything reliable and out-of-the-box solution.

SVG path can consist of ten different segment, or 20 if we take into account both relative and absolute coordinates. They are represented as letters in path element's d-attribute: relative ones are mhvlcqastz and absolute ones are MHVLCQASTZ. Each have different attributes, a (elliptical arc) being the most complicated one. The most usable and flexible of types is c (cubic bezier curve), because it can represent all other types in rather high precision as these examples show:,

Raphael JS library has Path2Curve-function which can convert all path segments to cubic curves and it can handle also the complicated arc to cubic conversion. Unfortunately it has a bug, so that it cannot handle all possible path segment combinations, but fortunately there is a fixed version of library available: (look at the Javascript-window).

When all path segments are converted to cubic curves, they can be converted to individual line segments. There are few ways, and the best seems to be an adaptive recursive subdivision method, which produces more line segments in sharp turns of curve and fewer in other parts of curve to achieve a balance of curve fidelity and low count of segments to maximize rendering speed, but unfortunately it could not handle all collinear cases. I succeeded in converting AntiGrain's method to Javascript and added presplitting functionality, which splits the curve in local extremes (first derivative roots) and after that the AntiGrain method handles also all possible collinear cases:

Collinear horizontal:
Set of different cases:
Collinear rotated:

All the above samples have two paths in top of each other to show possible errors in adaptive algorithm: the red curve is splitted using very slow brute force method and the green one is splitted using AntiGrain method. If you see not red at all, the AntiGrain's method approximate()-function is working as expected.

OK, now we have repaired Raphael and repaired AntiGrain. If we combine these both methods, we can create a function that converts ANY svg path element to polygon (single or multiple subpolygons). I'm not 100% sure that this is the best or fastest method, but it should be usable. Of course the best would be native browser implementation...

share|improve this answer
Would this solution work for ANY shape no matter how complex? I've dropped trying to use your library due to the path to polygon conversion. I did actually managed to use this method from Phrogz: to convert to polygons with only one big problem. My users are supposed to draw very,very complex curvy shapes that must be boolean operated on, WITHOUT LOSS of fidelity on any curves. This requires over 800 sampling required for polygonizing which doesnt even work in most cases with Phrogz solution. Do you believe the Raphael+AG will work far better? – Nicholas Kyriakides Apr 10 '13 at 10:24
Only asking because it would require A LOT of research for me to try to implement the solutions you posted above, im still in my very early days of coding:) – Nicholas Kyriakides Apr 10 '13 at 10:30
My solution is for svg-paths only, so you need to first convert other shapes to paths (see:, pathify() -function). I think the conversion quality is very good (because you can adjust the precision using angle threshold and also overall scaling parameter) using the solution I suggested. And I have tested also Phrogz's solution, which is typical brute force method and it is slow when shapes are complex and produces easily too much or too little points. Antigrain solution produces optimal count of points. What is AG? – Timo Apr 10 '13 at 15:26
I can try to help if I see enough of your code. You can reach me using Maybe better that we continue this discussion via email, and when the solution is found, to post the required steps or functions here. – Timo Apr 10 '13 at 15:37
It was a typing mistake a i guess(shapes meaning paths). I meant that my users are supposed to draw really complex curvy paths not shapes. Regarding Phrogz brute force it is very slow indeed. – Nicholas Kyriakides Apr 10 '13 at 15:37

you can use De Casteljau's algorithm to break bezier curve into smaller straight lines, and join them to create polygon.

Here is some references of De Casteljau's algorithm

share|improve this answer

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.