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?