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I am currently trying to figure out how quaternions multiply and concatenate with each other in glm for opengl, but every thread I find only mentions 1 quaternion rotation.... Basically, how can I combine quaternions such that all the rotations concatenate? For example:

glm::quat quaternions[4]; // how to merge all 4 quaternions?

I have tried 2 approaches so far:

// approach 1:
glm::quat quaternions[4];
glm::quat q = glm::quat(glm::vec3(0));
q *= quaternions[0];
q *= quaternions[1];
q *= quaternions[2];
q *= quaternions[2];
glm::mat4 matrix = glm::toMat4(q);

// approach 2:
glm::quat quaternions[4];
glm::mat4 matrix = glm::mat4(1.0f);
matrix = matrix * glm::toMat4(quaternions[0]);
matrix = matrix * glm::toMat4(quaternions[1]);
matrix = matrix * glm::toMat4(quaternions[2]);
matrix = matrix * glm::toMat4(quaternions[2]);

None of these approaches seem to give me the results I am expecting.

Edit: I should add that I was trying to skin a collada model using assimp and glm. Approach 1 and 2 give me the exact solution I am looking for, so either should work.

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    A far better question is... why do you have 4 quaternions to begin with? What do they represent? Also, what results are you expecting? Apr 19, 2016 at 14:09
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    @Jas I can recommend you make small UnitTest. For example you create 2 or 3 quaternions and merge it and output results. I hope you can look final quaternion value and say is it correct or not. How I know quaternion is vector + angel (Or you can convert quaternion Euler degrees). Also you can post this test to question and it will help to find solution. There are many nuances: order of multiplication, method of multiplication and others.
    – Unick
    Apr 19, 2016 at 14:31
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    @Jas: "And bones have a parent child hierchy, so I need to combine quaternions for a child's rotation." No, you need to combine transformations, not rotations. Translation, rotation, scaling, all of them are accumulated up the hierarchy. You need to compute each object's transformation matrix locally, independently, then compose them to get the full object-to-local transform. This does not require accumulating quaternions, but full matrix transforms. Apr 19, 2016 at 14:43
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    @Jas, i think you can use pitch, roll, yaw to get euler angles.
    – Unick
    Apr 19, 2016 at 15:21
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    @Jas: So where is this quaternion accumulation stuff coming from? If you are creating a matrix for each bone, and accumulating it with the parent's matrix, why are you trying to multiply a bunch of quaternions together? Each bone's orientation is a single quaternion, so where are you getting multiple quaternions per bone from? Apr 19, 2016 at 15:22

1 Answer 1

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After 3 days of more trial and error I finally figured out what was going on. Turns out some of my bones had a "roll" in blender which was screwing things up. Upside down bones were also a problem in my mesh. So for anyone who is having problems with an assimp loaded animation:

  • Check your bind pose first
  • Make sure you don't have upside down bones, this may cause some problems.
  • Check all bone information (in my case it was "roll" causing problems)

So nothing was wrong with my quaternion code...

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