$ npm install poly-decomp
Library for decomposing a 2D polygon into convex pieces.
The library implements two algorithms, one optimal (but slow) and one less optimal (but fast). It's is a manual port of the C++ library Poly Decomp by Mark Penner.
Download decomp.js or decomp.min.js and include the script in your HTML:
<script src="decomp.js" type="text/javascript"></script>
<!-- or: -->
<script src="decomp.min.js" type="text/javascript"></script>
Then you can use the decomp
global.
npm install poly-decomp
Then require it like so:
var decomp = require('poly-decomp');
// Create a concave polygon
var concavePolygon = [
[ -1, 1],
[ -1, 0],
[ 1, 0],
[ 1, 1],
[0.5, 0.5]
];
// Make sure the polygon has counter-clockwise winding. Skip this step if you know it's already counter-clockwise.
decomp.makeCCW(concavePolygon);
// Decompose into convex polygons, using the faster algorithm
var convexPolygons = decomp.quickDecomp(concavePolygon);
// ==> [ [[1,0],[1,1],[0.5,0.5]], [[0.5,0.5],[-1,1],[-1,0],[1,0]] ]
// Decompose using the slow (but optimal) algorithm
var convexPolygons = decomp.decomp(concavePolygon);
// ==> [ [[-1,1],[-1,0],[1,0],[0.5,0.5]], [[1,0],[1,1],[0.5,0.5]] ]
// Get user input as an array of points.
var polygon = getUserInput();
// Check if the polygon self-intersects
if(decomp.isSimple(polygon)){
// Reverse the polygon to make sure it uses counter-clockwise winding
decomp.makeCCW(polygon);
// Decompose into convex pieces
var convexPolygons = decomp.quickDecomp(polygon);
// Draw each point on an HTML5 Canvas context
for(var i=0; i<convexPolygons.length; i++){
var convexPolygon = convexPolygons[i];
ctx.beginPath();
var firstPoint = convexPolygon[0];
ctx.moveTo(firstPoint[0], firstPoint[1]);
for(var j=1; j<convexPolygon.length; j++){
var point = convexPolygon[j];
var x = point[0];
var y = point[1];
c.lineTo(x, y);
}
ctx.closePath();
ctx.fill();
}
}
var convexPolygons = decomp.quickDecomp(polygon);
Slices the polygon into convex sub-polygons, using a fast algorithm. Note that the input points objects will be re-used in the result array.
var convexPolygons = decomp.quickDecomp(polygon);
Decomposes the polygon into one or more convex sub-polygons using an optimal algorithm. Note that the input points objects will be re-used in the result array.
if(decomp.isSimple(polygon)){
// Polygon does not self-intersect - it's safe to decompose.
var convexPolygons = decomp.quickDecomp(polygon);
}
Returns true if any of the line segments in the polygon intersects. Use this to check if the input polygon is OK to decompose.
console.log('Polygon with clockwise winding:', polygon);
decomp.makeCCW(polygon);
console.log('Polygon with counter-clockwise winding:', polygon);
Reverses the polygon, if its vertices are not ordered counter-clockwise. Note that the input polygon array will be modified in place.
var before = polygon.length;
decomp.removeCollinearPoints(polygon, 0.1);
var numRemoved = before - polygon.length;
console.log(numRemoved + ' collinear points could be removed');
Removes collinear points in the polygon. This means that if three points are placed along the same line, the middle one will be removed. The thresholdAngle
is measured in radians and determines whether the points are collinear or not. Note that the input array will be modified in place.
var polygon = [
[0,0],
[1,1],
[2,2],
[0,0]
];
decomp.removeDuplicatePoints(polygon, 0.01);
// polygon is now [[1,1],[2,2],[0,0]]
removeDuplicatePoints
.makeCCW
now returns true if the polygon was changed.Polygon.prototype.removeCollinearPoints
.thresholdAngle
to Point.collinear(a,b,c,thresholdAngle)
.Make sure you have git, Node.js, NPM and grunt installed.
git clone https://github.com/schteppe/poly-decomp.js.git; # Clone the repo
cd poly-decomp.js;
npm install; # Install dependencies
# (make changes to source)
grunt; # Builds build/decomp.js
The most recent commits are currently pushed to the master
branch. Thanks for contributing!
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