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I'm writing single threaded game engine for 2D games. Right now my game loop looks rougly like this:

  1. Update game logic
  2. Update physics
  3. Handle collisions
  4. Render scene

I'm using OpenGL for rendering. I'm wondering about 'Render scene' step position in game loop. There is a SwapBuffers() call on the end of the 'Render scene' step, so CPU is blocked until all rendering is finished. What do you think about this game loop:

  1. Render scene (previous frame)
  2. Logic, physics, collisions
  3. Swap buffers

This approach will bring better parallelism between CPU and GPU. Am I right?

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Try it and compare framerates? –  Junuxx May 20 '12 at 12:23
It actually depends on what your bottleneck is, graphics or physics/update. –  ananthonline May 21 '12 at 15:06

3 Answers 3

up vote 1 down vote accepted

I'm thinking that since rendering occurs asynchronously in OpenGL, on the GPU, it should certainly be possible that the GPU finishes rendering while the CPU updates logic/physics/etc. Swapping buffers waits until all commands are executed, so doing that last might give better performance.

The only way to be sure is to try it, however. If the CPU is the bottleneck it won't matter anyway. (The GPU renders faster than the CPU sends commands - this can occur with high FPS, and in that case it normally isn't called a 'bottleneck' for gamers, since the FPS is acceptable anyway)

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I know this has been answered already, but I have something to add.

What you mention here

Render scene (previous frame)
Logic, physics, collisions
Swap buffers

may increase the framerate, but it also increases the latency a lot. When the user presses a button, the result will first be seen in the best case more than two frames later, at worst up to 4 frames later.

A better game loop is:

-Handle Input, move character etc. (This takes virtually no time)
-Do the heavy calculations (AI, physics)
-Swap Buffers
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Why is this? The most latency should be if the user presses a key directly after Logic (handle input). Then the buffer is swapped, displaying 'stale' data. The next frame is rendered, logic is handled, stale data is presented again -> 2 frames. Where does 4 frames come from? –  Max May 22 '12 at 11:19
Also, since handling input is relatively instantaneous, could this be further alleviated by handling input between each step? –  Max May 22 '12 at 11:21
I wouldn't do it between each step, but as close as possible to the render scene call. Yes 4 frames, say a user presses a key just after handle input, it will take a frame for the input to even reach logic. After logic is done, we do call SwapBuffers and have to wait another frame. Then the CPU starts making draw calls with 'fresh' data. Then we do another set of logic before swap buffers is even called. Then the GPU finishes (another frame) and the screen starts presenting the frame. –  Hannesh May 22 '12 at 18:49
Alright, I see what you are saying.. Thanks :) –  Max May 22 '12 at 22:08

Actually it doesn't make so much difference. There are a lot of ways you can make your game loop, the most important thing is just to keep the 3 main topics separated.


The time between each one is always gonna be the same, since they are not being executted in parallel.

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