I display with Three.js a scene of size 700x700. In this scene, I generate a system of particles with random positions between -250 and 250 (for x,y,z), so the box is 500x500 size.

to compute the right distance of camera (for an adapted full view of the box), I tried :


if ( ! Detector.webgl ) Detector.addGetWebGLMessage();

var container, stats;
var camera, controls, scene, renderer;
var cross;
var width = 700, height = 700;


function init() {

  camera = new THREE.PerspectiveCamera( 60, width / height, 1, 1000 );
  // tan(pi/6) = 1/sqrt(3) = height/2 / distance_z
  camera.position.z = 250*Math.sqrt(3);


 for(var p = 0; p < particleCount; p++) {

    // create a particle with random
    // position values, -250 -> 250

    var pX = 250 - Math.random() * 500;
    var pY = 250 - Math.random() * 500;
    var pZ = 250 - Math.random() * 500;

    var particle = new THREE.Vector3(pX, pY, pZ);

    // add it to the geometry


function onWindowResize() {

  camera.aspect = width /height;

  renderer.setSize( width, height );




As you can see, I applied this formula for field of view (FOV)

tan(FOV/2) == height/2 / distance_z  

which gives here : distance_z = 250 * sqrt(3)

but when I load the page, the zoom seems to be too high, in a way that I am too near from the 500x500 box.

Why this calculation is not correct in my case ? and How can I have a full view exactly adapted to the size of my 500x500 box ?

Maybe I do a confusion between the size of the scene and the size of my box


  • I use 6 * geometry.boundingSphere.radius as the distance. Of course, if your camera position x and z are not 0 then this value will be too high for z. This is a assuming one geometry (your "box"). So this code won't work directly for you, because you'll find need to find the bounding sphere of your box. – Christian Fritz Aug 2 '15 at 21:25

You want to compute the camera position so you get a full view of a box.

As explained in this post, you can calculate the visible height given the distance from the camera like so:

var vFOV = camera.fov * Math.PI / 180;        // convert vertical fov to radians

var height = 2 * Math.tan( vFOV / 2 ) * dist; // visible height

What is important is the visibility of the front face of the cube.

In your case, the front face has height 500, and since the cube is centered at the origin, the front face of the cube is located at a distance of 250 in front of the origin. So, rewriting the formula above,

var dist = 500 / ( 2 * Math.tan( camera.fov * Math.PI / 360 ) );

Since the camera must be set back from the front face,

camera.position.set( 0, 0, 250 + dist );

This is the exact solution to make the cube "fit" in the visible height. From there, you can adjust the camera position to your liking. Alternatively, you could ensure a margin by using a slightly larger value for height in the formula above.

three.js r.71

  • thanks, indeed, I didn't take account of the distance that I have to add (250) to be in front of the front face – youpilat13 Aug 2 '15 at 23:35
  • Hands up if you arrived here because you forgot Math.tan() takes it's argument in radians. ✋ – Martin Joiner Oct 30 '17 at 12:06

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