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I am reading an awesome OpenGL tutorial. It's really great, trust me. The topic I am currently at is Z-buffer. Aside from explaining what's it all about, the author mentions that we can perform custom depth tests, such as GL_LESS, GL_ALWAYS, etc. He also explains that the actual meaning of depth values (which is top and which isn't) can also be customized. I understand so far. And then the author says something unbelievable:

The range zNear can be greater than the range zFar; if it is, then the window-space values will be reversed, in terms of what constitutes closest or farthest from the viewer.

Earlier, it was said that the window-space Z value of 0 is closest and 1 is farthest. However, if our clip-space Z values were negated, the depth of 1 would be closest to the view and the depth of 0 would be farthest. Yet, if we flip the direction of the depth test (GL_LESS to GL_GREATER, etc), we get the exact same result. So it's really just a convention. Indeed, flipping the sign of Z and the depth test was once a vital performance optimization for many games.

If I understand correctly, performance-wise, flipping the sign of Z and the depth test is nothing but changing a < comparison to a > comparison. So, if I understand correctly and the author isn't lying or making things up, then changing < to > used to be a vital optimization for many games.

Is the author making things up, am I misunderstanding something, or is it indeed the case that once < was slower (vitally, as the author says) than >?

Thanks for clarifying this quite curious matter!

Disclaimer: I am fully aware that algorithm complexity is the primary source for optimizations. Furthermore, I suspect that nowadays it definitely wouldn't make any difference and I am not asking this to optimize anything. I am just extremely, painfully, maybe prohibitively curious.

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I am just extremely, painfully, maybe prohibitively curious. - Gee, you say that as though it were a bad thing :) –  Tom Zych Sep 7 '11 at 21:08

3 Answers 3

up vote 288 down vote accepted

If I understand correctly, performance-wise, flipping the sign of Z and the depth test is nothing but changing a < comparison to a > comparison. So, if I understand correctly and the author isn't lying or making things up, then changing < to > used to be a vital optimization for many games.

I didn't explain that particularly well, because it wasn't important. I just felt it was an interesting bit of trivia to add. I didn't intend to go over the algorithm specifically.

However, context is key. I never said that a < comparison was faster than a > comparison. Remember: we're talking about graphics hardware depth tests, not your CPU. Not operator<.

What I was referring to was a specific old optimization where one frame you would use GL_LESS with a range of [0, 0.5]. Next frame, you render with GL_GREATER with a range of [1.0, 0.5]. You go back and forth, literally "flipping the sign of Z and the depth test" every frame.

This loses one bit of depth precision, but you didn't have to clear the depth buffer, which once upon a time was a rather slow operation. Since depth clearing is not only free these days but actually faster than this technique, people don't do it anymore.

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Aha! So it's you I should be thanking for the wonderful tutorials? :) Well, please accept my most sincere congratulations on the best online opengl book ever! And thanks a lot for clarifying this, I understand now. Are you going to continue with more lessons on the turorial? :) –  Armen Tsirunyan Sep 7 '11 at 20:42
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This, right here, is SO. Fantastic. –  Zannjaminderson Sep 19 '11 at 22:14
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@ArmenTsirunyan: BTW, if you're wondering, Tutorial 15 is up now. I also clarified the passage in question, pulling it out into a sidebar. –  Nicol Bolas Oct 3 '11 at 21:48
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If there is a place to thank Nicol, I think it would be here, so Nicol, I thank you as well. While most of my learning has been focused on OpenGL ES lately, I find that it was YOUR book which really got the most fundamental concepts engraved in my mind. Graphics programming is awesome. Insanely challenging at first, but awesome. I've found my career goal and life passion because of GP. –  blissfreak May 5 '12 at 7:25
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The reason clearing the depth buffer is faster these days has two reasons, both of them based around the fact that the GPU uses a hierarchical depth buffer. Therefor only has to clear set the tile states to clear (which is fast), changing the depth compare sign, however, means that the entire HiZ buffer needs to be flushed because it only stores a min or max value depending on the compare sign. –  Jasper Bekkers Jun 29 '12 at 19:41

It has to do with flag bits in highly tuned assembly.

x86 has both jl and jg instructions, but most RISC processors only have jl and jz (no jg).

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If that's the answer, it raises new questions. Was "branch taken" slower than "branch ignored" on early RISC processors? It certainly isn't that way now in any measurable way as far as I know. Were you supposed to write for loops with an unconditional branch backwards and a conditional, seldom taken branch forward to exit the loop then? Sounds awkward. –  Pascal Cuoq Sep 7 '11 at 19:43
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-1: This question has nothing to do with CPUs. GL_LESS and GL_GREATER are depth comparison operations, which run on GPUs. –  Nicol Bolas Sep 7 '11 at 20:29
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Funny how much rep you can get for an answer that is correct to the title but has very little to do with the actual question. –  Joshua Sep 8 '11 at 1:12
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+1 No, this answer is correct to at least part of the question. The question is: "Is the author making things up, am I misunderstanding something, or is it indeed the case that once < was slower (vitally, as the author says) than >?". There are three options given. This answer is responding on the possibility of option 3. Nowhere in the article is the technology of the CPU/GPU given, nor that it must be a GPU (first 3D games where on CPU). Ok... I don't think there were many 3d Games on RISC :-) –  xanatos Sep 14 '11 at 9:57
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(and the GPU tag was added at 20:34. The first revision had only the CPU tag. This response was written at 18:44) –  xanatos Sep 14 '11 at 10:12

The answer is almost certainly that for whatever incarnation of chip+driver was used, the Hierarchical Z only worked in the one direction - this was a fairly common issue back in the day. Low level assembly/branching has nothing to do with it - Z-buffering is done in fixed function hardware, and is pipelined - there is no speculation and hence, no branch prediction.

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