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I have a transformation matrix, m, and a vector, v. I want to do a linear transformation on the vector using the matrix. I'd expect that I would be able to do something like this:

glm::mat4 m(1.0);
glm::vec4 v(1.0);

glm::vec4 result = v * m;

This doesn't seem to work, though. What is the correct way to do this kind of operation in GLM?

edit:

Just a note to anyone who runs into a similar problem. GLM requires all operands to use the same type. Don't try multiplying a dvec4 with a mat4 and expect it to work, you need a vec4.

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@Nicol Bolas: Why did you get rid of the GLM tag? That seems more relevant than the OpenGL one. –  andand Sep 27 '11 at 19:20
    
@andand: Because the GLM he's talking about is a specific library, not "generalized linear models". But I also removed the OpenGL tag. –  Nicol Bolas Sep 27 '11 at 19:26

2 Answers 2

up vote 9 down vote accepted

glm::vec4 is represented as a column vector. Therefore, the proper form is:

glm::vec4 result = m * v;

(note the order of the operands)

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I have tried it that way as well, and there is no difference. gcc is telling me that there is no matching * operator that takes a matrix and a vector. –  extropic-engine Sep 27 '11 at 19:59
    
Nevermind, the problem was that I was trying to multiply a float-based matrix with a double-based vector, which GLM doesn't like. Thanks for your help. –  extropic-engine Sep 27 '11 at 20:03
    
@chuzzum: Sounds good. Have fun with it! –  andand Sep 27 '11 at 20:06

Since GLM is designed to mimic GLSL and is designed to work with OpenGL, it's matrices are column-major. And if you have a column-major matrix, you left-multiply it with the vector.

Just as you should be doing in GLSL (unless you transposed the matrix on upload).

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