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opengl-es-2.0glsles

normal matrix for non uniform scaling


Im trying to calculate the normal matrix for my GLSL shaders on OpenGL 2.0.

The theory is : a normal matrix is the top left 3x3 matrix of the ModelView, transposed and inverted.

It seems to be correct as I have been rendering my scenes correctly, until I imported a model from maya and found non-uniform scales. Loaded models have a weird lighting, while my procedural ones are correct, so I put my money on the normal matrix calculation.

How is it computed with non uniform scale?


Solution

  • You already figured out that you need the transposed inverted matrix for transforming the normals. For a scaling matrix, that's easy to calculate.

    A non-uniform 3x3 scaling matrix looks like this:

    [ sx  0   0  ]
    [ 0   sy  0  ]
    [ 0   0   sz ]
    

    with sx, sy and sz being the scaling factors for the 3 coordinate directions.

    The inverse of this is:

    [ 1 / sx  0       0      ]
    [ 0       1 / sy  0      ]
    [ 0       0       1 / sz ]
    

    Transposing it changes nothing, so this is already your normal transformation matrix.

    Note that, unlike for example a rotation, this transformation matrix will not keep vectors normalized when it is applied to a normalized vector. So after applying this matrix in your shader, you will have to re-normalize the result before using it for lighting calculations.