How does collision detection work in JavaScript?

I can't use jQuery or gameQuery - already using prototype - so, I'm looking for something very simple. I am not asking for complete solution, just point me to the right direction.

Let's say there's:

<div id="ball"></div>
<div id="someobject0"></div>

Now the ball is moving (any direction). "Someobject"(0-X) is already pre-defined and there's 20-60 of them randomly positioned like this:

#someobject {position: absolute; top: RNDpx; left: RNDpx;}

I can create an array with "someobject(X)" positions and test collision while the "ball" is moving... Something like:

for(var c=0; c<objposArray.length; c++){
........ and code to check ball's current position vs all objects one by one....

But I guess this would be a "noob" solution and it looks pretty slow. Is there anything better?

10 Answers 10


Here's a very simple bounding rectangle routine. It expects both a and b to be objects with x, y, width and height properties:

function isCollide(a, b) {
    return !(
        ((a.y + a.height) < (b.y)) ||
        (a.y > (b.y + b.height)) ||
        ((a.x + a.width) < b.x) ||
        (a.x > (b.x + b.width))

To see this function in action, here's a codepen graciously made by @MixerOID.

  • Can anyone clarify what I am doing wrong with this? It always returns true regardless of 'collision' jsbin.com/akeSeDI/2/edit Dec 20, 2013 at 13:48
  • 2
    @KryptoniteDove: unfortunately you can't simply input a DOM element in this routine, you need some kind of conversion (e.g. using jQuery). Also, your divs should probably use position: absolute instead of relative. Here's a fork of your version that works: jsbin.com/akeSeDI/3/edit
    – Husky
    Dec 20, 2013 at 16:35
  • 7
    I created visual GUI to this wonderful function :) codepen.io/mixal_bl4/pen/qZYWOm You can add this to you answer :)
    – mixalbl4
    Apr 15, 2016 at 12:41
  • this requires jQuerz and hence would not be a valid answer. stackoverflow.com/a/35974082/3580261 is actually correct and leans on this function. Dec 21, 2016 at 14:17
  • @eljefedelrodeodeljefe my code doesn't require jQuery. It just requires objects with the given properties, which you could get with jQuery, but also with the methods described in your function.
    – Husky
    Dec 22, 2016 at 15:27

An answer without jQuery, with HTML elements as parameters:

This is a better approach that checks the real position of the elements as they are being shown on the viewport, even if they're absolute, relative or have been manipulated via transformations:

function isCollide(a, b) {
    var aRect = a.getBoundingClientRect();
    var bRect = b.getBoundingClientRect();

    return !(
        ((aRect.top + aRect.height) < (bRect.top)) ||
        (aRect.top > (bRect.top + bRect.height)) ||
        ((aRect.left + aRect.width) < bRect.left) ||
        (aRect.left > (bRect.left + bRect.width))
  • 4
    In fact it should be the only answer to the above question. The top answer requires jQuery Dec 21, 2016 at 14:16

The first thing to have is the actual function that will detect whether you have a collision between the ball and the object.

For the sake of performance it will be great to implement some crude collision detecting technique, e.g., bounding rectangles, and a more accurate one if needed in case you have collision detected, so that your function will run a little bit quicker but using exactly the same loop.

Another option that can help to increase performance is to do some pre-processing with the objects you have. For example you can break the whole area into cells like a generic table and store the appropriate object that are contained within the particular cells. Therefore to detect the collision you are detecting the cells occupied by the ball, get the objects from those cells and use your collision-detecting function.

To speed it up even more you can implement 2d-tree, quadtree or R-tree.


You can try jquery-collision. Full disclosure: I just wrote this and released it. I didn't find a solution, so I wrote it myself.

It allows you to do:

var hit_list = $("#ball").collision("#someobject0");

which will return all the "#someobject0"'s that overlap with "#ball".

  • 7
    The OP says they can't use jQuery. Still nice though, helped me in my own solution.
    – Irwin
    Sep 12, 2011 at 14:55
  • @irwin - hmm, i was going on the "can't use jquery -- using prototype" as in, i'm pretty sure you can actually mix them. i haven't tried, though, honestly. glad it helped you though! try jquery-draggable-collision, too! :-)
    – eruciform
    Sep 13, 2011 at 22:17
  • @PeterAjtai: no, it's on sourceforge, why?
    – eruciform
    Oct 12, 2012 at 5:18
  • 4
    @eruciform sourceforge is almost unusable. I'm sure a lot of people would like it if it were on github
    – Alexis
    May 2, 2013 at 22:38
  • 1
    @PeterAjtai - I'll probably be moving them all over this summer to github. It's just been zero updates for a while, so no motivation to break what worked. However, I'll be adding things soon!
    – eruciform
    May 7, 2013 at 2:47

Mozilla has a good article on this, with the code shown below.

2D collision detection

Rectangle collision

if (rect1.x < rect2.x + rect2.width &&
   rect1.x + rect1.width > rect2.x &&
   rect1.y < rect2.y + rect2.height &&
   rect1.height + rect1.y > rect2.y) {
    // Collision detected!

Circle collision

if (distance < circle1.radius + circle2.radius) {
    // Collision detected!

bcm's answer, which has 0 votes at this time, is actually a great, under-appreciated answer. It uses good old Pythagoras to detect when objects are closer than their combined bounding circles. Simple collision detection often uses rectangular collision detection, which is fine if your sprites tend to be, well, rectangular. If they are circular (or otherwise less than rectangular), such as a ball, an asteroid, or any other shape where the extreme corners are usually transparent, you may find this efficient routine to be the most accurate.

But for clarity, here is a more fully realized version of the code:

function doCollide(x1, y1, w1, x2, y2, w2) {
    var xd = x1 - x2;
    var yd = y1 - y2;
    var wt = w2 + w1;
    return (xd * xd + yd * yd <= wt * wt);

Where the parameters to pass in are the x,y and width values of two different sprite objects.


This is a lightweight solution I've come across -

function E() { // Check collision
    S = X - x;
    D = Y - y;
    F = w + W;
    return (S * S + D * D <= F * F)

The big and small variables are of two objects, (x coordinate, y coordinate, and w width)

From here.

  • 2
    As far as I can see, this function assumes that the objects are square (or even circular?). Also it appears less readable that Husky's code above, and if that wasn't enough, it also seems to be slower (see: jsperf.com/simple-collision-detection)
    – Roccivic
    May 29, 2013 at 19:13
//Off the cuff, Prototype style. 
//Note, this is not optimal; there should be some basic partitioning and caching going on. 
(function () { 
    var elements = []; 
    Element.register = function (element) { 
        for (var i=0; i<elements.length; i++) { 
            if (elements[i]==element) break; 
        if (arguments.length>1)  
            for (var i=0; i<arguments.length; i++)  
    Element.collide = function () { 
        for (var outer=0; outer < elements.length; outer++) { 
            var e1 = Object.extend( 
            for (var inner=outer; inner<elements.length; innter++) { 
                var e2 = Object.extend( 
                if (     
                    (e1.left+e1.width)>=e2.left && e1.left<=(e2.left+e2.width) && 
                    (e1.top+e1.height)>=e2.top && e1.top<=(e2.top+e2.height) 
                ) { 
                    $(elements[inner]).fire(':collision', {element: $(elements[outer])}); 
                    $(elements[outer]).fire(':collision', {element: $(elements[inner])}); 

$(myElementA).observe(':collision', function (ev) { 
    console.log('Damn, '+ev.memo.element+', that hurt!'); 
//detect collisions every 100ms 
setInterval(Element.collide, 100);

This is a simple way that is inefficient, but it's quite reasonable when you don't need anything too complex or you don't have many objects.

Otherwise there are many different algorithms, but most of them are quite complex to implement.

For example, you can use a divide et impera approach in which you cluster objects hierarchically according to their distance and you give to every cluster a bounding box that contains all the items of the cluster. Then you can check which clusters collide and avoid checking pairs of object that belong to clusters that are not colliding/overlapped.

Otherwise, you can figure out a generic space partitioning algorithm to split up in a similar way the objects to avoid useless checks. These kind of algorithms split the collision detection in two phases: a coarse one in which you see what objects maybe colliding and a fine one in which you effectively check single objects. For example, you can use a QuadTree (Wikipedia) to work out an easy solution...

Take a look at the Wikipedia page. It can give you some hints.


hittest.js; detect two transparent PNG images (pixel) colliding.

Demo and download link

HTML code

<img id="png-object-1" src="images/object1.png" />
<img id="png-object-2" src="images/object2.png" />

Init function

var pngObject1Element = document.getElementById( "png-object-1" );
var pngObject2Element = document.getElementById( "png-object-2" );

var object1HitTest = new HitTest( pngObject1Element );

Basic usage

if( object1HitTest.toObject( pngObject2Element ) ) {
    // Collision detected

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