# Several second computation in a game while maintaining 60 FPS

I've got an algorithm that takes more than several seconds to complete. I'm trying to implement it into a 60fps flash game i'm creating. I am wondering if there is some provision in ActionScript3 to interrupt a computation in order to update the frame and continue the computation afterwards. There probably isn't, so I'm assuming the best method would be to perform the computation for x milliseconds, measure what the frame rate is after, then adjust the time the computation will run for next frame if the frame rate is less than or greater than 60 fps. The drawback with this is that the game won't run at a steady 60fps...

Any other ideas on how to (optimally) perform a large computation in AS3 while maintaining the framerate?

EDIT: For the curious (the calculation, perhaps I should have said algorithm): I'm creating a motion planning library for game AI objects (one use for motion planning). The algorithm is along the lines of a RRT (rapidly exploring random tree) that iterates thousands of times.

Click to motion plan. The circle can "thrust" at a fixed magnitude in any direction.

Also - there is no linear velocity damping (i.e. friction).

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60fps seems really high for a Flash game. I usually keep it at 30 for a game but anything else I crank it to 60. –  Adam Harte Jul 12 '10 at 20:53
I can't imagine what the heck would be taking so long to compute! This doesn't answer your question, but this may be a sign of missing an opportunity to cache the computation (either at level load time or before the game starts) or highlight a need to restructure your data (focus on real time lighting versus recomputing lightmaps at runtime). Out of curiosity, would you mind explaining what it is that you are trying to compute that takes so long? –  mlabbe Jul 13 '10 at 16:31

Can you do the "calculation" in stages, and then just do one stage per frame until it's done? Split it up into chunks that you know can fit into a frame, and do it over time.

A couple of examples:

One game I worked on computed line of sight between entities. It took a long time and the hardware wasn't very powerful, so we only updated the line of sight for one object each frame. The player's line of sight was updated every other frame, and the enemies were updated round-robin in the intervening frames.

If instead you're calculating something based on a large dataset, partition that data into smaller chunks and do only one chunk per frame. For instance, if you need to figure out the closest star to your ship, and there are a million stars, maybe only do a thousand per frame.

Maybe your calculation is not easily mappable to either of these; if you have an example of what you're trying to accomplish it would be very helpful!

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It can be broken into chunks, but what I was trying to figure out was how to calculate how large each chunk should be. If the chunk is too big it will delay the display update - causing an FPS drop. If the chunk is too small then the calculation will take longer to finish and I'll have wasted cycles. –  Mahir Jul 12 '10 at 21:28
I agree with dash-tom-bang. Senocular wrote a good tutorial on exactly this issue. senocular.com/flash/tutorials/asyncoperations –  Allan Jul 12 '10 at 22:43
Perfect! Exactly what I was looking for Allan! –  Mahir Jul 12 '10 at 23:24
Though, after actually reading the article it doesn't answer the question of finding an optimal way to break the computation into chunks. I guess I'll stick to the method I suggested. –  Mahir Jul 12 '10 at 23:38
Yeah. One other suggestion, depending on the nature of calculation, could you offload some/all of it to PixelBender as it runs in a separate thread. I realise that it could only work with some types of calculations but worth a shot :) –  Allan Jul 13 '10 at 2:17

Depending on the type of your calculation you could write a Pixel Bender Kernel that does the processing in the background using a ShaderJob:

http://www.boostworthy.com/blog/?p=243

http://www.huesforalice.com/project/47