My little game engine basically has a 3D array Cubes[x][y][z] (its actually a big 1D array but I'v done some overloading). I know which cube in X Y Z that the player is standing on. The player will be able to shoot a cube to destroy it which is why I need to figure out how to find the Cube that the mouse is under. I found some OpenGL documentation on picking, but this method was slow. Since my cubes are organized and I know which cube the player is on, and the camera's angle in X and Y (camera does not rotate on Z), and that the mouse is always at screenwidth / 2, screenheight / 2 I'm sure theres a faster way than the gl picking technique.

Here is how the camera is set up:

```
void CCubeGame::SetCameraMatrix()
{
glMatrixMode(GL_MODELVIEW);
glLoadIdentity();
glRotatef(Camera.rotx,1,0,0);
glRotatef(Camera.roty,0,1,0);
glRotatef(Camera.rotz,0,0,1);
glTranslatef(-Camera.x , -Camera.y,-Camera.z );
}
void CCubeGame::MouseMove(int x, int y)
{
if(!isTrapped)
return;
int diffx = x-lastMouse.x;
int diffy = y-lastMouse.y;
lastMouse.x = x;
lastMouse.y = y;
Camera.rotx += (float) diffy * 0.2;
Camera.roty += (float) diffx * 0.2;
if(Camera.rotx > 90)
{
Camera.rotx = 90;
}
if(Camera.rotx < -90)
{
Camera.rotx = -90;
}
if(isTrapped)
if (fabs(ScreenDimensions.x/2 - x) > 1 || fabs(ScreenDimensions.y/2 - y) > 1) {
resetPointer();
}
}
Vertex3f CCubeGame::MoveCamera( int direction, float amount )
{
float xrotrad, yrotrad;
Vertex3f result(0,0,0);
switch(direction)
{
case CAM_FORWARD:
yrotrad = (Camera.roty / 180 * 3.141592654f);
xrotrad = (Camera.rotx / 180 * 3.141592654f);
result.x = float(sin(yrotrad)) * amount;
result.z = -(float(cos(yrotrad)) * amount);
result.y = 0;
//Camera.y -= float(sin(xrotrad)) * amount;
break;
case CAM_BACKWARD:
yrotrad = (Camera.roty / 180 * 3.141592654f);
xrotrad = (Camera.rotx / 180 * 3.141592654f);
result.x = -(float(sin(yrotrad)) * amount);
result.z = float(cos(yrotrad)) * amount;
result.y = 0;
//Camera.y += float(sin(xrotrad)) * amount;
break;
case CAM_RIGHT:
yrotrad = (Camera.roty / 180 * 3.141592654f);
result.x = float(cos(yrotrad)) * amount;
result.z += float(sin(yrotrad)) * amount;
result.y = 0;
break;
case CAM_LEFT:
yrotrad = (Camera.roty / 180 * 3.141592654f);
result.x = -(float(cos(yrotrad)) * amount);
result.z = -(float(sin(yrotrad)) * amount);
result.y = 0;
break;
default:
break;
}
Camera.x += result.x;
Camera.y += result.y;
Camera.z += result.z;
return result;
}
```

Thanks