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I am using three.js.

I have two mesh geometries in my scene.

If these geometries are intersected (or would intersect if translated) I want to detect this as a collision.

How do I go about performing collision detection with three.js? If three.js does not have collision detection facilities, are there other libraries I might use in conjuction with three.js?

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closed as not a real question by Hexxagonal, Andrew Leach, Toji, tereško, Enrico Pallazzo Jul 15 '12 at 12:08

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

Maybe Google collision three.js and.. ummm.. this might be crazy, but how about the first result? – Adi Jul 13 '12 at 15:43
A one liner question on how to do something as broad as collision detection isn't really a question but a learning topic. Google is your friend. – Nate Jul 13 '12 at 15:44
I searched it on google, but I've only found ray collision. – eqiproo Jul 13 '12 at 15:56
I think ray collision is the way to go... the CollisionUtils.js and Collisions.js files that Adnan is (presumably) referencing are out of date and are not part of the most recent (v49 at time of writing) three.js version. – Lee Stemkoski Jul 13 '12 at 19:14
Looks like a good question to me. SO can be so dumb. – LeeGee Oct 22 '14 at 8:56
up vote 63 down vote accepted

In Three.js, the utilities CollisionUtils.js and Collisions.js no longer seem to be supported, and mrdoob (creator of three.js) himself recommends updating to the most recent version of three.js and use the Ray class for this purpose instead. What follows is one way to go about it.

The idea is this: let's say that we want to check if a given mesh, called "Player", intersects any meshes contained in an array called "collidableMeshList". What we can do is create a set of rays which start at the coordinates of the Player mesh (Player.position), and extend towards each vertex in the geometry of the Player mesh. Each Ray has a method called "intersectObjects" which returns an array of objects that the Ray intersected with, and the distance to each of these objects (as measured from the origin of the Ray). If the distance to an intersection is less than the distance between the Player's position and the geometry's vertex, then the collision occurred on the interior of the player's mesh -- what we would probably call an "actual" collision.

I have posted a working example at:


You can move the red wireframe cube with the arrow keys and rotate it with W/A/S/D. When it intersects one of the blue cubes, the word "Hit" will appear at the top of the screen once for every intersection as described above. The important part of the code is below.

for (var vertexIndex = 0; vertexIndex < Player.geometry.vertices.length; vertexIndex++)
    var localVertex = Player.geometry.vertices[vertexIndex].clone();
    var globalVertex = Player.matrix.multiplyVector3(localVertex);
    var directionVector = globalVertex.subSelf( Player.position );

    var ray = new THREE.Ray( Player.position, directionVector.clone().normalize() );
    var collisionResults = ray.intersectObjects( collidableMeshList );
    if ( collisionResults.length > 0 && collisionResults[0].distance < directionVector.length() ) 
        // a collision occurred... do something...

There are two potential problems with this particular approach.

(1) When the origin of the ray is within a mesh M, no collision results between the ray and M will be returned.

(2) It is possible for an object that is small (in relation to the Player mesh) to "slip" between the various rays and thus no collision will be registered. Two possible approaches to reduce the chances of this problem are to write code so that the small objects create the rays and do the collision detection effort from their perspective, or include more vertices on the mesh (e.g. using CubeGeometry(100, 100, 100, 20, 20, 20) rather than CubeGeometry(100, 100, 100, 1, 1, 1).) The latter approach will probably cause a performance hit, so I recommend using it sparingly.

I hope that others will contribute to this question with their solutions to this question. I struggled with it for quite a while myself before developing the solution described here.

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Thank you for this detailed explanation! I'm also still struggling with finding a decent solution for my game with terrain and 3D objects on it, and your answer gave me some new insights! – Nick Aug 25 '12 at 13:13
While this method seems to test if any vertex intersects from the center of the obect, it would be twice as slow but 100%(?) accurate to test all edges(connected vertices). So to elaborate, you'd need to loop through each face, and take vertex[n] and vertex[(n + 1)%len] to get all the edges. If I hug someone, they intersect the center of my position and my hand, but they don't intersect my skin, as doing an edge check would test. – Funkodebat Aug 10 '13 at 3:59
That's a nice idea! For 100%(?) accuracy, I think you would need to test the edges on each of the two meshes, and you would need to test them going in both directions, since collisions are only detected in one direction, when the ray goes from the outside to the inside of the mesh. Sure it might be a bit slower, but you could speed it up with a preliminary bounding sphere radius check. But most importantly, I think you may be right about 100% accuracy... – Lee Stemkoski Aug 10 '13 at 20:30
I would suggest that you avoid instantiating a new Raycaster inside the render loop. Instantiate one and reuse it. – WestLangley Nov 18 '13 at 15:11
Great answer. Just to clarify: collisionResults[0].distance is a distance from a ray origin to a place where the ray intersected an object (it is not necessarily the shortest distance from the ray origin to the object, especially for objects of complex shapes) – Jan Wrobel Feb 20 '14 at 15:21

This really is far too broad of a topic to cover in a SO question, but for the sake of greasing the SEO of the site a bit, here's a couple of simple starting points:

If you want really simple collision detection and not a full-on physics engine then check out Three.js: Simple Collision Detection

If, on the other hand you DO want some collision response, not just "did A and B bump?", take a look at Physijs, which is a super easy to use Ammo.js wrapper built around Three.js

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The demo you linked is ray collision – eqiproo Jul 13 '12 at 18:40

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