To improve my understanding of OpenGL and 3D I am trying to implement a simple rendering pipeline running only on the CPU. Where it makes sense, I'm trying to use the same standards as OpenGL. For example, I'm using a right handed coordinate system like OpenGL. As it often happens when learning something new, I've now run into a question I cannot find an answer to. If something in the following doesn't make sense, please forgive and correct me.

In clip space (the coordinate you give to gl_Position in your vertex shader), negative Z is away from the user. But in the depth buffer, positive Z is away (if you're using the default depth settings).

One answer to this question suggests that the flip is due to the projection transformation. But I made a little experiment (based on WebGL/OpenGL ES) that suggests the opposite: In clip space, Z is pointing away from the user even if you don't use a projection transformation.

So at some point, after you've handed it your gl_Position, OpenGL flips the Z coordinate. When and how is that?

My guess is that it is in the viewport transform but I haven't been able to find documentation that supports this.


Clip-Space in OpenGL is already left handed (and always was). So, in modern GL there is no space explicitely using a right-handed system, and there is no "flipping" done at all. However, the eye space in old GL was often defined right-handed, and the "flipping" was done as part of the projection matrix, glFrustum() and gluPerpective() explicitely expect positive values for near and far to refer to the repsective negative z values. However, as you could use arbitrary matrices, you never were forced to define your eye or object spaces right-handed, it was just something like a default convention. And still a lot of people follow this convention with the programmable pipeline.

  • That explains a lot. However, it doesn't explain why my little example program suggests the opposite. Basically, I'm setting up two triangles and then push them through the simplest possible shaders I could think of. If clip space is left handed I would expect the triangle with the highest z coordinate to come out on top, but it doesn't. The meat of the program is in app.js. It should be fairly easy to read. Why is the green triangle on top of the other? – Rasmus Rønn Nielsen Jul 15 '13 at 16:17
  • @RasmusRønnNielsen: think about it. i a left-handed system, z is pointing away from you, so the traingle with the lowest z value will be on top. If we ignore perspective and the w component for a moment (as your code does), clip space is identical to normalized device space and at z=-1 lies the near plane (front of the frustum), and at z=1 lies the far (back) plane, so all is well, isn't it? – derhass Jul 15 '13 at 16:30
  • @RasmusRønnNielsen: also, I have not checked if and how you set up the DEPTH_TEST in your code. So the drawing order might fully determine what comes out on top if the test is disabled. Otherwise, assuming a stanard depth test setup, the green triangle (z=-0.9) should be on top of the red (z=0) one. – derhass Jul 15 '13 at 16:37
  • Yes, I see now. It makes perfect sense. In retrospect, I don't understand how I got myself so confused about it. Thank you very much :) – Rasmus Rønn Nielsen Jul 16 '13 at 6:43

According to WebGL Beginner's Guide, the z-axis is inverted during the perspective division which is done after the projection transform.

Here is what it says:

The perspective division transforms the viewing frustum into a cube centered in the origin with minimum coordinates [-1,-1,-1] and maximum coordinates [1,1,1]. Also, the direction of the z-axis is inverted, as shown in the following figure:

enter image description here

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