I have a transform matrix 4x4 built in the following way:

glm::mat4 matrix;
glm::quat orientation = toQuaternion(rotation);
matrix*= glm::mat4_cast(orientation);
matrix= glm::translate(matrix, position);
matrix= glm::scale(matrix, scale);

orientation = toQuaternion(localRotation);
matrix*= glm::mat4_cast(orientation);
matrix= glm::scale(matrix, localScale);

where rotation, position, scale, localRotation, and localScale are all vector3's. As per the advice of many different questions on many different forums, it should be possible to fish local directions out of the resulting matrix like so:

right   = glm::vec3(matrix[0][0], matrix[0][1], matrix[0][2]);
up      = glm::vec3(matrix[1][0], matrix[1][1], matrix[1][2]);
forward = glm::vec3(matrix[2][0], matrix[2][1], matrix[2][2]);

where all these directions are normalized. I then use these directions to get a view matrix like so:

glm::lookAt(position, position + forward, up);

It all works great - EXCEPT: when I'm flying around a scene, the right and up vectors are totally erroneous. The forward direction is always exactly as it should be. When I'm at 0, 0, -1 looking at 0,0,0, all the directions are correct. But when I look in different directions (except for the inverse of looking at the origin from 0,0,-1), right and up are inconsistent. They aren't world vectors, nor are they local vectors. They seem to be almost random. Where am I going wrong? How can I get consistent local up and local right vectors from the 4x4 transform matrix?


matrix is a local-to-world transformation, whereas a view matrix is world-to-local, which means that in this case matrix is the inverse of the view matrix. The code you currently have only works for a view matrix. Simply exchange the rows and columns:

right   = glm::vec3(matrix[0][0], matrix[1][0], matrix[2][0]);
up      = glm::vec3(matrix[0][1], matrix[1][1], matrix[2][1]);
forward = glm::vec3(matrix[0][2], matrix[1][2], matrix[2][2]);

A possible reason that it works for (0, -1, 0) is because the rotation/scaling part of the view matrix looks like:

1 0 0
0 0 1
0 1 0

The corresponding part of matrix is the inverse of the above, which is of course identical. Try it with another direction.

  • Wow! This DID fix up/down! However, the same problem exists for left/right. – Skarab Apr 28 '18 at 23:41
  • @Skarab could it be a sign problem? What if you take the minus of the first column as right; if the "rotation part" is orthogonal (as it should be), and both up and forward are correct, then right must be either + or - the correct value (depending on coordinate handed-ness convention). – meowgoesthedog Apr 28 '18 at 23:44
  • 1
    I'll be damned, that was it!!!!!!!!!!!!!!!!!! YOU ROCK!!!!!!!!!!!!!!!!!! I've been stuck on this problem for over a week now, I cannot thank you enough! – Skarab Apr 28 '18 at 23:52
  • @Skarab nice to hear it worked out. – meowgoesthedog Apr 29 '18 at 0:06

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