The answer by Nicol Bolas pretty much tells what you're doing wrong so I'll skip that. You are looking for an solution rather than telling you what is wrong, so let's step right into it.
This is code I use for projection matrix:
glViewport(0, 0, mySize.x, mySize.y);
gluPerspective(fovy, (float)mySize.x/(float)mySize.y, nearPlane, farPlane);
Some words to describe it:
glViewport sets the size and position of display place for openGL inside window. Dunno why, I alsways include this for projection update. If you use it like me, where mySize is 2D vector specifying window dimensions, openGL render region will ocuppy whole window. You should be familiar with 2 next calls and finaly that
gluPerspective. First parameter is your "field of view on Y axis". It specifies the angle in degrees how much you will see and I never used anything else than 45. It can be used for zooming though, but I prefer to leave that to camera operating. Second parameter is aspect. It handles that if you render square and your window sizes aren't in 1:1 ratio, it will be still square. Third is near clipping plane, geometry closer than this to camera won't get rendered, same with farPlane but on contrary it sets maximum distance in what geometry gets rendered.
This is code for modelview matrix
And again something you should know: Again, you can use first 2 calls so we skip to
gluLookAt. I have camera class that handles all the movement, rotations, things like that. Eye, LookAt and Up are 3D vectors and these 3 are really everything that camera is specified by. Eye is the position of camera, where in space it is. LookAt is the position of object you're looking at or better the point in 3D space at which you're looking because it can be really anywhere not just center object. And if you are worried about what's Up vector, it's really simple. It's vector perpedicular to vector(LookAt-Eye), but becuase there's infinite number of such vectors, you must specify one. If your camera is at
(0,0,0) and you are looking at
(0,0,-1) and you want to be standing on your legs, up vector will be
(0,1,0). If you'd like to stand on your head instead, use
(0,-1,0). If you don't get the idea, just write in comment.
As you don't have any camera class, you need to store these 3 vectors separately by yourself. I believe you have something like center of 3D object you're moving. Set that position as LookAt after every update. Also in initialization stage(when you're making the 3D object) choose position of camera and up vector. After every update to object position, update the camera position the same way. If you move your object 1 point up at Y axis, do the same to camera position. The up vectors remains constant if you don't want to rotate camera. And after every such update, call
gluLookAt with updated vectors.
For updated post:
I don't really get what's happening without bigger frame of reference (but I don't want to know it anyway). There are few things I get curious about. If center is 3D vector that stores your object position, why are you setting the center of this object to be in right top corner of your window? If it's center, you should have those +diam also in 2nd and 4th parameter of
glOrtho, and if things get bad by doing this, you are using wrong names for variables or doing something somewhere before this wrong. You're setting the LookAt position right in your updated post, but I don't find why you are using those parameters for Eye. You should have something more like:
centerX, centerY, centerZ-diam as first 3 parameters in
gluLookAt. That gives you the camera on the same X and Y position as your object, but you will be looking on it along Z axis from distance