As far as I know, Direct3D works with an LH coordinate system right?
So how would I get position and x/y/z axis (local orientation axis) out of a LH 4x4 (world) matrix?
In case you don't know: LH stands for left-handed
If the 4x4 matrix is what I think it is (a homogeneous rigid body transformation matrix, same as an element of SE(3)) then it should be fairly easy to get what you want. Any rigid body transformation can be represented by a 4x4 matrix of the form
in block matrix notation. The
The position of the coordinate system described by the matrix will be given by applying the transformation to the point (0,0,0). This will well you what world coordinates the point is located at. The trick is that, when dealing with SE(3), you have to add a 1 at the end of points and a 0 at the end of vectors, which makes them vectors of length 4 instead of length 3, and hence operable on by the matrix! So, to transform point (0,0,0) in your local coordinate frame to the world frame, you'd right multiply your matrix (let's call it g_SA) by the vector (0,0,0,1). To get the world coordinates of a vector (x,y,z) you multiply the matrix by (x,y,z,0). You can think of that as being because vectors are differences of points, so the 1 in the last element goes the away. So, for example, to find the representation of your local x-axis in the world coordinates, you multiply g_SA*(1,0,0,0). To find the y-axis you do g_SA*(0,1,0,0), and so on.
The best place I've seen this discussed (and where I learned it from) is A Mathematical Introduction to Robotic Manipulation by Murray, Li and Sastry and the chapter you are interested in is 2.3.1.