# OpenGL rotation vector from matrix

Ok, so here is what I have:

• an abstract "Object" class which I made in a framework to use it as a base class for all 3D objects.

• a Matrix4 member of this class which has the sole purpose of storing rotation info for the object.

• some functions that multiply the matrix: for each of the yaw, pitch & roll rotations (both global and local), I made a method that multiplies the above rotation matrix with a new matrix.

e.g.: if you locally yaw the object by 45 degrees in CCW direction, then

``````rotMatrix = newRotationZMatrix(45) * rotMatrix;
``````

What I would like to know is what is the best way of getting the global rotation of the object as a vector - generally speaking, how do you get the rotation angles around X,Y and Z from a transformation matrix that contains JUST rotations.

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There are techniques to obtain that, just get the euler angles from a rotation matrix, it involves a bit of math. Here you can read about it.

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Thanks! It seems that's what I needed and curious enough, it's very close to what I thought the answer should be. I will look into it. –  cantrem Aug 21 '10 at 13:56
In case it helps searching, the technique is usually called "matrix decomposition" –  dbr Aug 15 '12 at 22:18

I have a similar class. It's one of the most fun part to me work with matrix 3D.

Well, let's to the answer. I'm working with OpenGL ES, so to me performance is a crucial part. I make a routine, test it, test it, stress tests, rebuild whole routine and test, test... until to find the best way to save memory and increase performance.

So, thinking in maximum performance, and if you, like me, have a class to work with matrices, I tell you that the best way to get it is:

• Store the rotation's values in variables before put it in the matrix.

At this way you don't need to perform complex Euler calculations at every time that you want to get these values. The same is true for the scale's values. Just the translations that have separated indexes don't need this.

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