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I suspect this is a maths issue rather than a flash one. In a nutshell, I have two cubes that rotate around their common center point. So far so good. Using the appendTranslation and appendRotation matrix functions, I've managed to get the two cubes to rotate ok.

The problem is the drawing order seems to have little effect on the Z Buffering. I've managed to Z Buffer correctly and order the cubes in order of depth. However, despite getting the drawing order right, the cueb is only properly occluded half of the time.

Imagine two cubes on the x-axis plane, either side at equal spacing rotating around the Y axis. At 90 degrees one cube will occlude the other and vice-versa at 270 degrees rotation. My problem is that this occurs correctly only at one of these places. It appears to be a sign issue as rotating backwards (so -90 and -270) has the same effect only at the opposite places.

Here is the relevant code: - Rotate is called each cycle

function rotateObj(rotx:Number,roty:Number,rotz:Number):void {

            var i:int;

            for(i=0; i<pixelVec.length; i++){

                var v:Vector3D = centerPos;
                v = v.subtract(pixelVec[i].getPos());                  


          } The things that are drawn and rotated

function rotateObj(xrot:Number,yrot:Number,zrot:Number, pivot:Vector3D){

        // rotate the cube by changing the values in the matrix 3D around a pivot point
        m.appendTranslation(-pivot.x,-pivot.y, -pivot.z);
        m.appendRotation(xrot, Vector3D.X_AXIS);
        m.appendRotation(yrot, Vector3D.Y_AXIS);
        m.appendRotation(zrot, Vector3D.Z_AXIS);


function draw():void

     var renderV:Vector.<Number> = new Vector.<Number>();

     currentV = new Vector.<Vector3D>();

     for each(var vv:Vector3D in v)
        // apply the matrix to the vertices in 'v'
        vv = m.transformVector(vv);

        vv.w = (400 + vv.z) / 400;


        renderV.push(vv.x, vv.y);


     // draw things out;
     container.x = xPos;
     container.y = yPos;
     container.z = 1;

     var id = 0


     for each(var p:Vector.<int> in plane)
        var planeV:Vector.<Number> = new Vector.<Number>();

        for (var i:int = 0; i < planeSides; i++ )
           planeV.push(renderV[p[i]* 2], renderV[p[i] * 2 + 1]);

        }, indices, null, TriangleCulling.NEGATIVE );;
        id ++;



I've managed to narrow it down to the translation lines. Performing a rotation of two cubes without translation works fine and respects the drawing order, whereas this does not. I suspect a rogue Z Value is getting in there somewhere.

share|improve this question
This seems like more than the AS3 3D APIs were intended for. You might be better off with a full 3D engine, such as PaperVision – bgw Jul 7 '09 at 20:22
Further editing has revealed that the Painter's Algorithm I have applied is pretty much being ignored for some bizzaro reason – Oni Jul 7 '09 at 23:40
No, this is definitely up to the task of AS3. I went down this route because I dont need a full-on Papervision setup but for some odd reason, at certain rotations the order is ignored – Oni Jul 7 '09 at 23:41

Sorted it. Apparently, the drawing / Z order if you will is governed by the order that addChild() and removeChild() are called, rather than the order of any graphics calls. Bit silly there Adobe!

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