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im trying to orient my code to use the cache as efficiently as possible using data oriented design, its my first time thinking about such things as it goes. ive worked out a way to loop over the same instruction that draw a sprite on screen, the vectors sent to the function include positions and sprites for all game entities.

my question is does the conditional statement get rid of the draw function from the instruction cache and therefore ruin my plan? or is what im doing just generally insane?

struct position
    position(int x_, int y_):x(x_), y(Y_)
    int x,y;

vector<position> thePositions;
vector<sprite> theSprites;
vector<int> theNoOfEntities; //eg 3 things, 4 thingies, 36 dodahs
int noOfEntitesTotal;

//invoking the draw function
draw(&thePositions[0], &theSprites[0], &theNoOfEntities[0], noOfEntitesTotal)

void draw(position* thepos, sprite* thesp, int* theints, int totalsize)
    for(int j=0;int i=0;i<totalsize;i++)
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Why not just store a pair<sprite, position> and pass iterators to draw. Cache locality will be better, it will be a lot less obscure and storage agnostic. –  pmr Jun 3 '12 at 22:19
wouldnt the data cache have to look up each pair with each function call? my solution attempts to maintain all data and instructions within the cache and have no cache misses, just however many cycles it takes for the loop to reiterate. –  cool mr croc Jun 3 '12 at 22:23
Conditional statements have little to do with the instruction cache. –  Oliver Charlesworth Jun 3 '12 at 23:05
Why do you think that the conditional statement might have anything to do with the instruction cache? –  David Rodríguez - dribeas Jun 3 '12 at 23:35
j+=i%size[j]?1:0; may have some branch prediction issues, but is unlikely to affect instruction caching in any noticeable way. –  Alexey Frunze Jul 4 '12 at 11:35

2 Answers 2

up vote 1 down vote accepted

Did you verify that the conditional stays as a conditional in assembly? generally with simple conditionals such as the one presented above, the expression can be optimized to a branchless sequence (either at machine level using machine specific instructions, or at IR level using some fancy bit math).

In your case, you conditional gets folded down very nicely on x86 to a flat sequence (and AFAIK, this will occur on most non-x86 platforms too, as its a mathematical optimization, not a machine specific one):

NEG EAX                                  ; Converts EAX to boolean

So this means the aren't any branches to predict, other than your outer loop, which follows a pattern, meaning it won't cause any mis-prediction (it might mis-predict on exit, depending on the generated assembly, but its exited, so it doesn't matter).

This brings up a second point, never assume, always profile and test (one of the cases where assembly knowledge helps a lot), that way you can spend time optimizing where it realy matters (and you can understand the inter and inner workings of your code on your target platform better too).

If you really are concerned about branch mis-prediction and the penalties incured, use the resources provided by your target architectures manufacturer (different architectures behave very differently for branch mis-prediction), such as this and this from Intel. AMD's CodeAnalyst is a great tool for checking branch mis-prediction and the penalties it may be causing.

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Whoa there buddy! No offence, but it looks like you've read about DOD without fully understanding the how and why of it. Now you're just following the guidelines set in the articles about DOD like they're important. They're not, what's important in DOD is understanding data, understanding the computer architecture and understanding how your code can manipulate that data as efficient as possible using your knowledge of the architecture. The guidelines set out in DOD articles are only there as reminders of common things to think about.

Want to know when how and why you need to use DOD? Learn about the architecture you're working with. Do you know the cost of one cache-miss? It's really really really really low. Do the math. I'm serious, do the math yourself, I could probably give you some numbers but then you wouldn't be learning much. So find out what you can about the architecture, how a processor works, how memory and caches work, how assembly language works, what the assembly generated by your compiler looks like. Once you know and understand all of that, DOD is really nothing more than stating some almost obvious guidelines to writing really efficient code.

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defragdev.com/blog/?p=570 "The main benefit is reducing cache misses". the cost of one cache miss may be really small but if youre iterating over the same code hitting the same cache miss then it all adds up.the example i give may not be iterating over a large collection but it may be in the future. –  cool mr croc Jul 4 '12 at 16:04
Of course it adds up. But do you know how much? Do you know how many cycles you loose on an L1 or L2 miss in your architecture of choice? Do you know how many total cpu cycles you have per frame? What is your budget in ms for each component in your game? You say "it may be in the future". That's not what DOD is about, because you just admitted you don't know your data. You should know how big your data sets are. If/while the collection is small, don't fret too much about it. If it is large or grows larger in the future, then's the time to create nice cache/cpu-efficient code for it. –  Mart Jul 5 '12 at 8:06
data oriented design is about organising data for efficient processing, not waiting until its necessary to accomplish more processing. its ridiculous to say dont learn it until you need to use it. –  cool mr croc Jul 5 '12 at 8:34
I'm not saying don't learn it, because DOD is very useful and a great approach to writing high-performance games and applications. I'm just saying know your data, know when DOD is useful and when not and more important than that, know why it is useful in some cases and not useful in others. –  Mart Jul 5 '12 at 14:16

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