# opengl matrix multiplication

If I have a current matrix in OpenGL of C, and I apply the following code:

``````   glMultMatrixf(M);
glMultMatrixf(M2);
``````

What does the Current transformation matrix look like? In the red book it states that using glMultMatrix*(M) does this: CM. But also that doing the above makes this happen: M(M2v) where M2 gets applied before M. In this case M would be the left operand, but in the former M is the right operand.

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If you do;

``````glLoadIdentity();
glMultMatrixf(M1);
glMultMatrixf(M2);
glMultMatrixf(M3);
``````

Then the resulting matrix is M = M1 * M2 * M3;

If you apply a vertex `v` to this, it is multiplied like so: `v' = M*v = M1*M2*M3*v`

I don't really understand your confusion though, what is the 'former case' you're referring to?

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The OP posting the question sounds like he has some confusion between Mathematical convention and Computer Science matrix computation. –  ksming Apr 27 '12 at 1:59
So I assume that M3*v happens before M2 gets multiplied. I don't understand why the red book states that MultMatrix*f(M) multiplies the current matrix C by M (CM) when in your explanation every time a matrix multiplication is applied, it is applied as the left operand, not the right, as in (CM) –  Sam Adams Apr 27 '12 at 1:59
@SamAdams: It is applied to the right. It's applied to the right of all previous matrices. The current matrix, as built up by all previous matrix commands is multiplied with the given matrix, and the given matrix is on the right. –  Nicol Bolas Apr 27 '12 at 2:13
so M1*M2 happens followed by the result of that * M3 ? I thought it went in reverse order, so that M2 * M3 happens before M1 * the result of M2*M3? –  Sam Adams Apr 27 '12 at 2:16
@SamAdams: Matrix multiplication is associative. So you can change the grouping of M1*M2*M3 all you want (just not the order). You can think of it as M1*(M2*M3), or (M1*M2)*M3. Either way results in the exact same matrix. –  Nicol Bolas Apr 27 '12 at 2:17