One of the confusing aspects of OpenGL for beginners is the distinction between what happens in the projection matrix versus what happens on the modelview matrix (and why would you even need both of them?)

The projection matrix is in charge of transforming the coordinates of your vertices to points in a 2D coordinate system (it splats the world onto your virtual film - the viewport). The projection matrix only specifies the behavior of your camera (for example: should it be a wide-angle lens, or telephoto, or a completely orthogonal one, like architectural oblique drawings?).

The modelview matrix, on the other hand, is in charge of specifying where in 3D space your vertices go to. So for example, to specify where a character's arm is with respect to the character's body, or where this character is with respect to the world, you will want to change the modelview matrix. It is important to notice, in particular, that changes in the position and orientation of the camera belong on the modelview matrix (it is the "view" part of it)

The reason it gets confusing is that at the end of the day, the vertices you give OpenGL are multiplied by the modelview matrix and then by the projection matrix. That is, given a modelview matrix M, a projection matrix P, and a vertex v, the final coordinate of the vertex is given by P*M*v. This means that some transformations seem to work regardless of which matrix you use. You should be careful about this - when you get to fancier OpenGL techniques, you will run into situations in which using the correct matrices makes a difference.

Until you get to that point, however, let me give you a good rule of thumb. Until you get used to the distinction between the two matrices, only use `glOrtho`

or `glFrustum`

on projection matrices (`gluPerspective`

and their friends are ok too). All other calls (`glTranslate`

, `glScale`

, `glRotate`

, etc) belong to the class of things you should be doing to the modelview matrix.