As everyone keeps trying to tell you, the multiplication order depends on what your matrix represents. You say "rotation". We say "rotation in what coordinate frame?"

```
varying vec3 modelPos = (gl_ModelViewMatrix * myMatrix * vec4(positionIn, 1)).xyz;
```

In the code you quote, `myMatrix`

is closest to your raw vertex position. So if that was a rotation of 45 degrees around the x-axis, it would be a 45 degree rotation around the x-axis of *object-space*, where the origin is (0,0,0) relative to your stored vertex positions and the axis are similarly the natural axis of vertex positions.

If you reverse the order such that you have:
varying vec3 modelPos = (myMatrix * gl_ModelViewMatrix * vec4(positionIn, 1)).xyz;

Now the ModelView transform happens first because it's closest to your raw, object-space vertex position. So now `myMatrix`

is operating in *camera-space*, where the origin is at the camera and the z-axis is along the camera's view vector.

If you wanted to rotate around the x-axis of *world-space*, then there is no easy way to do that in the vertex shader while still using the old-style fixed-function transform matrices. With the fixed function matrices, you would apply your custom matrix to the ModelView matrix in software while you are setting it up.

The more modern approach is to pass all your matrices in via custom uniforms and not use the built-ins. So you could pass in the model, view, and projection transforms independently and insert your custom matrix in between Model and View.

allof those matrices. – Nicol Bolas Mar 6 '13 at 3:49contentsof them are. Like specific numbers. More to the point, why are you trying to inject a matrix into the computation if you're already using the fixed-function matrices? – Nicol Bolas Mar 6 '13 at 3:56`myMatrix`

is an identity matrix? That's a good test to start with – MadcoreTom Mar 7 '13 at 5:19