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I'm doing a per fragment lighting and when correcting normal vecter, i got this code: vec3 f_normal = mat3(MVI) * normal; Where MVI is: mat4 MVI = transpose(inverse(ModelViewMatrix));. So what is return after mat3(MVI) statement?

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Well, simple reasoning (and just a small understanding of the mathematical basics of computer graphics) dictates that it's the upper left 3x3 part. Besides that, by all means don't transpose and invert your matrix in the shader. It doesn't change per-vertex and can be done on the CPU (where it doesn't take any longer for a single matrix). –  Christian Rau Jun 4 '12 at 11:08

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mat3(MVI) * normal

Returns the upper 3x3 matrix from the 4x4 matrix and multiplies the normal by that. This matrix is called the 'normal matrix'. You use this to bring your normals from world space to eye space.

The reason why the original matrix is 4x4 and not 3x3 is because 4x4 matrices let you do affine transformations and contain useful information for perspective rendering. But to take a normal from world space to eye space, you just need the 3x3 model view matrix.

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From GLSL types: "There are no restrictions on size when doing matrix construction from another matrix. So you can construct a 4x2 matrix from a 2x4 matrix; only the corresponding elements are copied.". So, you get the MVI's top-left 3x3 submatrix as a result.

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Thanks for quick reply, so does it affects to final result? (why doesn't it use fourth element in normals vector but remove some elements on MVI?) –  Bình Nguyên Jun 4 '12 at 10:50
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It's a generic operation and does not know anything about the semantics of the underlying matrix being operated on. –  Alexander Pavlov Jun 4 '12 at 11:05

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