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Why this throws an compilation error: no matching function for call to ‘cross(glm::vec4&, glm::vec4&)’

glm::vec4 a;
glm::vec4 b;
glm::vec4 c = glm::cross(a, b);

but it works fine for vec3?

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2 Answers 2

up vote 5 down vote accepted

There is no such thing as a 4D vector cross-product; the operation is only defined for 3D vectors. Well, technically, there is a seven-dimensional vector cross-product, but somehow I don't think you're looking for that.

Since 4D vector cross-products aren't mathematically reasonable, GLM doesn't offer a function to compute it.

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What do your vec4's represent? Like Nicol said, cross products are only for 3D vectors. The cross product operation is used to find a vector that is orthogonal to the two input vectors. So if your vec4's represent 3D homogeneous vectors in the form {x, y, z, w}, then the w-component doesn't matter to you; You could simply ignore it.

A workaround could go as follows:

vec4 crossVec4(vec4 _v1, vec4 _v2){
    vec3 vec1 = vec3(_v1[0], _v1[1], _v1[2]);
    vec3 vec2 = vec3(_v2[0], _v2[1], _v2[2]);
    vec3 res = cross(vec1, vec2);
    return vec4(res[0], res[1], res[2], 1);
}

Simply turn your vec4's into vec3's, perform the cross product, then add a w-component of 1 back into it.

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