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Couldn't you solve things just without them?

I'm studing OpenGL and I was wondering why so many projection, model, whatever matrices, and why it was not made just without them.

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closed as not constructive by genpfault, mathematician1975, Martin R, Christian Rau, Hristo Iliev Nov 12 '12 at 22:19

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Because they are very useful, and the best thing to use for the job. –  Zyx 2000 Nov 12 '12 at 22:17
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....because it's easier, more efficient, mathematically more similar with them? what kind of question is this? Have you learned about transformations, etc? They are most simply represented as matrix operations –  im so confused Nov 12 '12 at 22:17
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Matrices are just a convenient way of expressing transformations. Don't just think of a single transform. Think of a whole sequence of transforms. Multiply all the transforms together and you still have your single matrix at the end for example. –  Bart Nov 12 '12 at 22:17
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I think this is a very good question but probably should be migrated to gamedev.stackexchange.com, not closed outright. –  vvnraman Nov 12 '12 at 22:21
    
Yes you can do everything without matrices, but it's a very handy abstraction that makes many operations simpler. Think of it as a notational optimization. I've had firsthand experience: stackoverflow.com/a/8510751/5987 –  Mark Ransom Nov 12 '12 at 22:26

3 Answers 3

up vote 2 down vote accepted

Because they can represent in a simple and efficient way any transformation of vectors in a 3d space.

This means that with a matrix you can embed any rotation, translation or scale of a vector in an elegant way which comes out to be also very efficient and practical when used on actual vectors.

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Often small matrix kernels will be unrolled such as in the GNU Scientific library, meaning that they are not handled generally, but rather the computer performs specific instructions for only that size matrix multiplication. So a 3x3 kernel has its own functions.

Matrices are primarily a instrument for humans to understand whats going on. For example, performing the Ax=B operation will often result in a different order of operation depending on the matrix inversion library.

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Because you can effectively describe all 3 important transformations (translation, rotation, scaling) with a transformation matrix (a multiplication of the vertice with a 4D matrix) and because you can combine all of these in one single matrix.

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