Great question!

I ran the following code as you had it, and it looked like an isometric view of a white cube.

```
1: size(300,300,P3D);
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);
6: box(20);
```

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:
http://glprogramming.com/red/chapter03.html

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:

```
void setup()
{
strokeWeight(2);
smooth();
noLoop();
size(600,600,P3D);
oblique(radians(60),0.5);
}
void draw()
{
background(100);
// size of the box
float w = 100;
// draw box in the middle
translate(width/2,height/2);
fill(random(255),random(255),random(255),100);
box(w);
// draw box behind
translate(0,0,-w*4);
fill(random(255),random(255),random(255),100);
box(w);
// draw box in front
translate(0,0,w*8);
fill(random(255),random(255),random(255),100);
box(w);
}
void oblique(float angle, float zscale)
{
PGraphics3D p3d = (PGraphics3D)g;
// set orthographic projection
ortho(-width/2,width/2,-height/2,height/2,-5000,5000);
// get camera's z translation
// ... so we can transform from the original z=0
float z = p3d.camera.m23;
// apply z translation
p3d.projection.translate(0,0,z);
// apply oblique projection
p3d.projection.apply(
1,0,-zscale*cos(angle),0,
0,1,zscale*sin(angle),0,
0,0,1,0,
0,0,0,1);
// remove z translation
p3d.projection.translate(0,0,-z);
}
```