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I am currently rewriting one of my programs. It has a heavily recursive function which solves peg-solitaire:

int solve(int draw) {
  if (finished())
    return true;

  //loop over every possible move (about 76 long values)
  //do a move (access the board, which is a long value)
  if (solve(draw + 1))
    return true;

  return false;
}

So i was wondering if it's faster to use solve like this:

solve(int draw, long **moves, long *board) {}

At the moment both moves and board are global variables.

Of course i am going to test it, but if someone tells me that this attempt isn't going to be efficient i will save some time :).

best regards

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The first rule of Optimization is, you do not talk about Optimization. –  Jan Højriis Dragsbaek Feb 20 '11 at 11:36

5 Answers 5

up vote 9 down vote accepted

It probably won't be as efficient, but the only way to know for sure is to profile your code. If the bulk of your execution time is spent doing your actual game logic, then the tiny amount of overhead putting a few arguments on the stack should be negligible.

However, from a design point of view, avoiding global variables is much better. It allows your code to be stateless, and hence potentially re-entrant and thread-safe. However, this may or may not be relevant for your application.

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1  
The other benefit to avoiding globals is that unit testing is easier. –  Steve M Oct 16 '10 at 13:23

This looks like optimizing too soon!

Every time you call solve(), you have to check if you are finished(). The cost of the finished() check is going to blow away any difference in variable access time.

Get it correct first, then profile it if it's too slow, then optimize!

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I don't think this is the performance bottleneck.

The only thing that comes to my mind with the code you show is this:

Do you need long long variables? They usually need more space, which means more time to use them. I remember once I replaced double variables with float variables and I got a BIG boost (50% less execution time). This may help a little bit :)

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Unfortunately yes, the peg board can hold 33 pegs, which is why i need more then 32 bits :(. –  imbaer Oct 16 '10 at 11:43
    
I'm pretty sure that long long -- if these are to be taken as 64-bit integers -- are not going to be any slower on modern CPUs than anything else. –  JUST MY correct OPINION Oct 16 '10 at 11:52

There is certain overhead with passing parameters to function - writing parameters to stack. In majority (probably all) of modern architectures stack acess and global data access have the same speed, so most likely passing parameters will be a bit slower.

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There are some architectures that pass function arguments in CPU registers. However, the associated performance increase is eliminated if you're using the function recursively. –  Oliver Charlesworth Oct 16 '10 at 11:42
if(solve(int draw + 1))
  return true;

That ain't C, buddy!

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i usually #define boolean for better readability, or did you mean something else? –  imbaer Oct 16 '10 at 14:08
    
Something else. You cannot in C define variables at their point of use. E.g. solve(int draw + 1) is not C - it's C++. You are not compiling your C code with the compiler in C mode. –  user82238 Oct 16 '10 at 15:11
    
Oh yes, now i see it. I had written the above code out of my memories, its not the actual code i am using. I am compiling in C mode. In future i will better c&p my code... –  imbaer Oct 16 '10 at 17:24

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