I ran the following code as you had it, and it looked like an isometric view of a white cube.
2: camera(30, 30, 30, 0, 0, 0, 1, 1, 0);
3: ortho(-100, 100, -100, 100, -500, 500);
4: PGraphics3D p3d = (PGraphics3D)g;
5: p3d.camera.set(1, 0, -0.433f, 0, 0, 1, 0.25f, 0, 0, 0, 0, 0, 0, 0, 0, 1);
Here's what's happening:
- Line 2: sets both the camera and modelview matrices
- Line 3: sets the projection matrix
- Line 4: sets the camera matrix only, but this actually did nothing here. (read on)
Transformations are only performed using the modelview and projection matrices. The camera matrix is merely a convenient separation of what the modelview is usually initialized to.
If you used the draw() function, the modelview matrix is actually initialized to the camera matrix before each time it is called. Since you didn't use the draw() function, your camera matrix was never updated with your oblique transform in your camera matrix.
How to create an Oblique Projection
As a disclaimer, you must truly understand how matrices are used to transform coordinates. Order is very important. This is a good resource for learning it:
The quickest explanation I can give is that the modelview matrix turns object coordinates into relative eye coordinates, then the projection matrix takes those eye coordinates and turns them in to screen coordinates. So you want to apply the oblique projection before the transformation into screen coordinates.
Here's a runnable example for creating a cabinet projection that displays some cubes:
// size of the box
float w = 100;
// draw box in the middle
// draw box behind
// draw box in front
void oblique(float angle, float zscale)
PGraphics3D p3d = (PGraphics3D)g;
// set orthographic projection
// get camera's z translation
// ... so we can transform from the original z=0
float z = p3d.camera.m23;
// apply z translation
// apply oblique projection
// remove z translation