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I'm implementing a LinearTransformation class, which inherits from numpy.matrix and uses numpy.matrix.I to calculate the inverse of the transformation matrix.

Does anyone know whether numpy checks for orthogonality of the matrix before trying to calculate the inverse? I ask because most of my matrices (but not all) will be orthogonal and I wondered whether to implement some quick orthogonality check before trying to invert.

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You can look at the source: – Blender May 15 '13 at 15:52
Aye, I tried that, but I think the function just calls a wrapped C function. I could dig around in that, but I figured that somebody on here might just know. – Kyle_S-C May 15 '13 at 15:53
up vote 4 down vote accepted

It does not!

numpy.linalg.inv(A) actually calls numpy.linalg.solve(A,I), where I is the identity, and solve uses lapack's LU factorization.

That is, eventually, it does Gaussian elimination where orthogonality isn't detected by default.

And I don't think there is a shot into the dark to check something like A * A.T = I as matrix times matrix is costly.

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Thanks for that, in this case, I'll add an orthogonal property to my class to speed things up a bit. – Kyle_S-C May 15 '13 at 16:40
so if I know the matrix is Hermitian I can use cholesky decomposition instead then use linalg.cho_solve(C,I)? – dashesy Apr 22 '15 at 18:13
Why not? However, I don't have cho_solve in my np.linalg module.... – Jan Apr 23 '15 at 9:10

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