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I have a multithreaded application, in which I'm trying to render with different threads. First I tried to use the same Rendering Context between all threads, but I was getting NULL current contexts for other threads. I've read on the internet that one context can only be current at one thread at a time.

So I decided to make something different. I create a window, I get the HDC from it and create the first RC. AFter that, I share this HDC between threads, and in every new thread I create I obtain a new RC from the same HDC and I make it current for that thread. Everytime I do it, the RC returned is always different (usually the previous value + 1). I make an assertion to check if wglGetCurrentContext() returns a RC, and it looks like it returns the one that was just created. But after making the rendering, i get no rendering and if I call GetLastError() I obtain error 6 (invalid handle??)

So, does this mean that, despite every new call of wglCreateContext() gives me a new value, somehow it means that all these different values are the same "Connection channel" to the OpenGL calls?

Does this mean that I will always have to invalid the previous Rendering Context on a thread, and activate it on the new one? I really have to make this sync all the time or is there any other way to work arround this problem?

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googled 2 pages which could help: higherorderfun.com/blog/2011/05/26/… and opengl.org/discussion_boards/showthread.php/… –  Vitaly Dyatlov Jun 19 '12 at 8:37
well I'm doing something really similiar to that, but I'm getting Error 6 after wglShareLists call –  filipehd Jun 19 '12 at 9:23
I think the question should also read as "Since multithreaded DirectX 11 rendering is faster than single threaded, can the driver bring the same improvements from OpenGL calls as well ?" –  RelativeGames May 27 '13 at 3:30

3 Answers 3

up vote 21 down vote accepted

I have a multithreaded application, in which I'm trying to render with different threads.


You will gain nothing from trying to multithread your renderer. Basically you're running into one large race condition and the driver will just be busy synchronizing the threads to somehow make sense of it.

To gain best rendering performance keep all OpenGL operations to only one thread. All parallelization happens for free on the GPU.

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Ok I didn't express myself correctly. Doesn't mean they will be both rendering on screen. Actually they won't. One thread draws on the backbuffer, and copies its contents to a texture. The other one simply "Blits" the Texture on screen. It means the worker thread can render on backbuffer other complex stuff. –  filipehd Jun 19 '12 at 9:24
"One thread draws on the backbuffer, and copies its contents to a texture. The other one simply "Blits" the Texture on screen." Whyy? Shouldn't you just be swapping the back and front buffers when you want to present? –  Hannesh Jun 19 '12 at 9:35
@filipehd: Even then using multiple threads doesn't make sense. The "blitter" thread would have to wait for the "renderer" thread to finish. The whole point of multithreading is to keep things working simultanously; which you don't. –  datenwolf Jun 19 '12 at 9:47
@datenwolf Even though you guys are right, it doesn't answer to my question of why I do get error 6 after making wglShareLists(). Still, it means that in order to do what I want I need auxiliar buffers like FBO or PBuffer? –  filipehd Jun 19 '12 at 9:56
@filipehd: Well, sharing (i.e. having the context being active in multiple threads at the same time) a context is not possible, but passing it from thread to thread is possible. However: You should avoid re-creating threads and contexts all the time. Create a thread pool exactly one time and stick to it. Same for contexts, though I strongly advise against using multiple contexts over several thread. Have one dedicated OpenGL thread, things get much easier, and also more performant that way. –  datenwolf Jun 19 '12 at 12:47

In some cases it may make sense to use multiple rendering contexts in different threads. I have used such a design to load image data from filesystem and push this data into a texture.

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It would be better to load the textures (all non-OpenGL stuff) in another thread and then update the texture in the thread which owns the context. –  Dudeson Dec 16 '13 at 8:11
Do you think context sharing slows down the GL driver? Updating textures is one of the functions that consume most of the time, so imho doing this in separate thread saves a lot of time in the main thread. Of course that is only valid for data that is not needed immediately. –  JoR Dec 17 '13 at 15:34
I also implemented texture streaming once. Context sharing is really bad if you use the context from multiple threads at the same time. But I'm not how fast it is when you can guarantee that you NEVER use it concurrently. I don't think it would be slow. But if it works, then it works. Btw: If you need asynchronous texture upload, use PBOs. –  Dudeson Dec 17 '13 at 16:11
"But I'm not SURE* how fast it is" Didn't see that mistake... –  Dudeson Dec 18 '13 at 8:53
I agree, when trying that on different platforms the performance was not good on all of them. I agree also that it is only suitable for data that is prefetched in background and not used in active rendering thread. –  JoR Dec 18 '13 at 10:15

I suggest to read the following wiki article from the OpenGL Consortium.


In simple words, it depends a lot on what you mean for multi threading in regards to OpenGl, if you have one thread doing the rendering part and one (or more) doing other jobs (i.e. AI, Physics, game logic etc) it is a perfectly right.

If you wish to have multiple threads messing up with OpenGL, you cannot, or better, you could but it will really give you more troubles than advantages.

Try to read the following FAQ on parallel OpenGL usage to have a better idea on this concept:


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but that's exactly the idea of my application - Different threads take care of different logic - What I can't understand is why am I getting error 6 after calling wglShareLists. Maybe I am calling this fuction too late? I'll try to use the idea written on the first link you gave me to check how it works. –  filipehd Jun 19 '12 at 11:18
@filipehd: Different logic means, different subsystems. One thread for networking, one for user input, one for everything OpenGL, etc. Really, don't try to spread graphics output over multiple threads. It's a huge mess. Also the "blitting" operation (drawing a textured quad), that the whole overhead of switching to another thread will cause more time consumed, that the actual "blitting". Also the GPU is a exclusive resource, you can't have multiple threads use the GPU at the very same time, so the blitter thread would have to wait for any other operation on the GPU to finish anyway. –  datenwolf Jun 19 '12 at 13:17
@datenwolf i dont know about this, but so you telling me that, for example, in a complex game, every single pixel of the rendered scene is always rendered on the SAME thread? They never use multiple threads to improve rendering performance? –  filipehd Jun 20 '12 at 9:08
@filipehd: This is indeed the case. Why would you try to multithread the rendering commands anyway? The parallelization happens on the GPU, which takes a large batch of geometric primitives, processes them in parallel (vertex shader), determines the covered fragments and processes the fragments in parallel (fragment shader). –  datenwolf Jun 20 '12 at 10:32
@filipehd: Now think about what would happen if you actually sent two batches of geometric primitives to the GPU in parallel: You would end up in a race condition, because they both would (very likely) touch the same fragments. This is a race condition which can only be resolved by synchronizing the two batches, which stalls the processing pipeline, hence causing a severe performance hit. –  datenwolf Jun 20 '12 at 10:32

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