I hear that GL_QUADS are going to be removed in the OpenGL versions > 3.0, why is that? Will my old programs not work in the future then? I have benchmarked, and GL_TRIANGLES or GL_QUADS have no difference in render speed (might even be that GL_QUADS is faster). So whats the point?

  • 7
    You have benchmarrked the two in your test program, with your hardware and your GPU. Don't assume that your conclusion holds for all GPUs now and forever. – jalf Jul 10 '11 at 22:24
  • @jalf: I didn't downvote it, but it's not really an answerable question. It's purely speculative; unless any of us are actually sitting members of the Khronos OpenGL ARB, any answer to the question of why quads were removed would be guesswork. – Nicol Bolas Jul 10 '11 at 22:27
  • 4
    @jalf Kinda harsh comment for a very particular statement. I really didn't find that assumption in OPs question. – Captain Giraffe Jul 10 '11 at 22:29
  • @Captain Giraffe: Why did he mention benchmarks? He used it to support his point that removing GL_QUADS would be a mistake. Hence the "So whats the point ?" line. – Nicol Bolas Jul 10 '11 at 22:30
  • 1
    @Captain: How is it harsh? I'm pointing out something he may or may not have taken into consideration. But he says that he has benchmarked the two, and found no difference in render speed. Don't you think it's relevant to point out that his results might not apply as generally as he thought? – jalf Jul 10 '11 at 22:30
up vote 76 down vote accepted

The point is that your GPU renders triangles, not quads. And it is pretty much trivial to construct a rectangle from two triangles, so the API doesn't really need to be burdened with the ability to render quads natively. OpenGL is going through a major trimming process, cutting a lot of functionality that made sense 15 years ago, but no longer match how the GPU works, or how the GPU is ever going to work. The fixed function pipeline is gone from the latest versions too, I believe, because, once again, it's no longer necessary, and it no longer matches how the GPU works (programmable shaders).

The point is that the smaller and tighter the OpenGL API can be made, the easier it is for vendors to write robust, high-performance drivers, and the easier it is to learn to use the API correctly and efficiently.

A few years ago, practically anything in OpenGL could be done in 3-5 different ways, which put a lot of burden on the developer to figure out which implementation is the right one if you want optimal performance.

So they're trying to streamline the API.

  • 2
    @jalf: Technically, there wasn't a decade of stagnation and minor updates; GLSL is hardly minor. The only reason Khronos got the ARB (and most Khronos ARB members were members of the original) was because SGI, the former owners of the ARB, was dying. No, the stagnation happened when the ARB decided to try to rewrite the whole API. Which took 2 years, and didn't actually happen. – Nicol Bolas Jul 10 '11 at 22:45
  • 3
    @jalf: I agree that OpenGL was "out of tune with the 3d world" for a time. I even wrote a semi-popular answer about their failings. The problem is that you first said that there was "a decade of stagnation and very minor updates," which is a very different thing. The ARB's problem wasn't failing to update the API; the ARB's problem was updating it wrongly. It isn't stagnation if you're going downhill... – Nicol Bolas Jul 11 '11 at 20:23
  • 1
    @jalf, tested now more, no matter what settings i have, the GL_QUADS is always faster. i have tried setting all buffer counts to same, all buffer sizes to same, and so on. But GL_QUADS always wins, the lowest difference between those two i got when i set them to use exact same amount of buffers: 33fps with triangles, 36fps with quads. SO, have anyone else done such tests ? this makes me think why do they want to get rid off this if its even faster. – Rookie Jul 12 '11 at 13:34
  • 1
    @Rookie: but once again, you haven't tested it with different GPUs under different OSes. How can you be sure it's faster in all those cases? Another important point is that OpenGL translates your quads to triangles anyway, because the GPU can only render triangles. So in this case, OpenGL doesn't do anything you couldn't have done yourself just as efficiently. So if your code shows quads being faster, then it sounds like your triangle rendering code is just not as well writen as your quad rendering ditto. :) – jalf Jul 12 '11 at 14:47
  • 2
    And that is why it's getting removed. 15 years ago, quads were just as good as triangles, because you either rendered on the CPU, which has no dedicated hardware for either case, or on various GPU-like hardware, some of which supported quads natively. But today, no GPU supports quads natively. So OpenGL's support for quads in a modern implementation boils down to it internally cutting every quad in half, and rendering the resulting triangles. There's just no need for the 3d API to do that. If you really want quads, you could easily define an external helper library – jalf Jul 12 '11 at 14:49

People have already answered quite well on your question. On top of their answer, one of the reason that GL_QUADS being deprecated is because of quads's undefined nature.

For example try to model a 2d square with points (0,0,0), (1,0,0), (1,1,1), (0,1,0). This is flat quad with one corner dragged up. It is impossible to draw a NORMAL flat square in such way. Depending on drivers, it will be split to 2 triangles either one or another way - which we can't control. Such a model MUST be modeled with two triangles. - All three points of a triangle always lies on a same plane.

It isn't "going" to be anything. As with a lot of other functionality, GL_QUADS was deprecated in version 3.0 and removed in version 3.1. Obviously this is all irrelevant if you create a compatibility context.

Any answer that anyone might give for the reason for deprecating them would be sheer speculation.

  • I'm not sure answers for deprecating them is entirely speculation ;-) In any case, it is much more aggressive to actually remove a feature in a "minor". – user166390 Jul 10 '11 at 22:30
  • 3
    @pst: Major versions exist now to correspond with actual new hardware. GL 3.2 can be implemented on the same hardware as 3.1 and as 3.0. But 4.0 cannot be implemented on the same hardware as 3.3. Sort of like Direct3D major versions nowadays. – Nicol Bolas Jul 10 '11 at 22:33

Your Answer

 

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.