The following code is based on a quaternion (qw, qx, qy, qz), where the order is based on the Boost quaternions:
boost::math::quaternion<float> quaternion;
float qw = quaternion.R_component_1();
float qx = quaternion.R_component_2();
float qy = quaternion.R_component_3();
float qz = quaternion.R_component_4();
First you have to normalize the quaternion:
const float n = 1.0f/sqrt(qx*qx+qy*qy+qz*qz+qw*qw);
qx *= n;
qy *= n;
qz *= n;
qw *= n;
Then you can create your matrix:
Matrix<float, 4>(
1.0f - 2.0f*qy*qy - 2.0f*qz*qz, 2.0f*qx*qy - 2.0f*qz*qw, 2.0f*qx*qz + 2.0f*qy*qw, 0.0f,
2.0f*qx*qy + 2.0f*qz*qw, 1.0f - 2.0f*qx*qx - 2.0f*qz*qz, 2.0f*qy*qz - 2.0f*qx*qw, 0.0f,
2.0f*qx*qz - 2.0f*qy*qw, 2.0f*qy*qz + 2.0f*qx*qw, 1.0f - 2.0f*qx*qx - 2.0f*qy*qy, 0.0f,
0.0f, 0.0f, 0.0f, 1.0f);
Depending on your matrix class, you might have to transpose it before passing it to OpenGL.
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