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I've working on an app wich displays some 3D models. We load the models, create the meshes, add them to the scene...standard procedure. After the last mesh is added, we compute the bounding box in order to move the camera and cover all the scene, using the size of the total geometry and the size of the viewport to do the math.

    if (bounds.bx / bounds.by < camera.aspect) {
        /* Vertical max */
        r = bounds.by / (2 * Math.tan(Math.PI / 8));
    } else {
        /* Horizontal max */
        hFOV = 2 * Math.atan(Math.tan(Math.PI / 8) * camera.aspect);
        r = bounds.bx / (2 * Math.tan((hFOV / 2)));
    }

bounds is an object containing the width and height of the bounding box. After this calculation, we move the camera(plus a little ratio, just aesthetics, we want a little room between the geometry and the screen border :) ) and render

    camera.position.z = r * 1.05;

So far this is implemented and runs ok. This has been done with PerspectiveCamera. Now we want to change that and use OrthographicCamera...turns out to be a mess. Models are too small, we lose the mousewheel zoom from the TrackBall Controls and the algorithm to move the camera is not working anymore. Also I don't understand the parameters of the constructor for the camera...these width and height are for the geometry or the viewport?

33

The pattern for instantiating an orthographic camera in three.js is:

var camera = new THREE.OrthographicCamera( width / - 2, width / 2, height / 2, height / - 2, near, far );

where width and height are the width and height of the camera's cuboid-shaped frustum measured in world-space units.

near and far are the world-space distances to the near and far planes of the frustum. Both near and far should be greater than zero.

To prevent distortion, you will typically want the aspect ratio of the orthographic camera ( width / height ) to match the aspect ratio of the render's canvas. (see *Note below)

It is unfortunate that many of the three.js examples pass window.innerWidth and window.innerHeight as args to this constructor. Doing so only makes sense if the orthographic camera is used for rendering to a texture, or if the world units for your orthographic scene are in pixels.


*Note: Actually, the camera aspect ratio should match the aspect ratio of the renderer's viewport. The viewport can be a sub-region of the canvas. If you do not set the renderer's viewport directly using renderer.setViewport(), the viewport will be the same size as the canvas, and hence have the same aspect ratio as the canvas.

three.js r.73

  • I understand, but...how can I move the camera on the Z axis, like I did with the above code in Perspective mode? – Leprosy Jul 10 '13 at 17:09
  • 4
    Moving the camera forward or backward does not change the orthographic projection. – WestLangley Jul 10 '13 at 17:30
  • Now I understand. So, we must use camera.setZoom? I'm a little confused here, because the width and height used in the constructor doesn't seem to alter the size of the rendered window. I used, for example (1600, 1200) as w/h, and (16, 12) and the result is the same. – Leprosy Jul 10 '13 at 18:18
  • 1
    @AlvinfromDiaspar Yes it should, but it does not have to be. – WestLangley Sep 18 '14 at 21:33
  • 1
    @expiredninja The scene will appear stretched. – WestLangley Oct 11 '14 at 3:02
3

For future reference: good 5min video

var w = container.clientWidth;
var h = container.clientHeight;
var viewSize = h;
var aspectRatio = w / h;

_viewport = {
    viewSize: viewSize,
    aspectRatio: aspectRatio,
    left: (-aspectRatio * viewSize) / 2,
    right: (aspectRatio * viewSize) / 2,
    top: viewSize / 2,
    bottom: -viewSize / 2,
    near: -100,
    far: 100
}

_camera = new THREE.OrthographicCamera ( 
    _viewport.left, 
    _viewport.right, 
    _viewport.top, 
    _viewport.bottom, 
    _viewport.near, 
    _viewport.far 
);
  • 1. The orthographic camera parameters are in world units. Are your world units pixels? 2. Also, in spite of what you have seen in the past -- or in the video -- the near plane should be positive, so the frustum is in front of the camera. – WestLangley Feb 5 '15 at 20:36
  • Oh I see, haha. Thanks for the explanation – Ivan Bacher Feb 6 '15 at 10:58
  • +1 for the video link, -1 for the code (sorry!), specifically: var viewSize = h; Instead viewSize should be solely dependent on the sizes (in world coords) of the objects in your scene. – Darren Cook Feb 10 '16 at 18:39
  • @Matteo You seem to have fundamental misconceptions, but this not the proper place to discuss it. Please make a new post if you are unable figure it out yourself via experimentation. A negative near plane will render objects behind the camera. – WestLangley Feb 1 '17 at 18:01
1
            camera.top = (.95*camera.top);
            camera.bottom = (.95*camera.bottom);
            camera.left = (.95*camera.left);
            camera.right = (.95*camera.right);

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