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I have the following method to swap two double arrays (double**) in c++. Profiling the code, the method is accounting for 7% of the runtime... I was thinking that this should be a low cost operation, any suggestions? I am new with c++, but i was hoping to just swap the references to the arrays.

 62 void Solver::Swap(double** &v1, double** &v2)
 63 {
 64         double** vswap = NULL;
 65         vswap = v2;
 66         v2 = v1;
 67         v1 = vswap;
 68 }
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What is wrong with the inbuilt swap() function? – Yacoby Oct 9 '09 at 12:24
I wasn't aware of it... I'm new to c++. The two perform the same. – ccook Oct 11 '09 at 18:18
up vote 4 down vote accepted

1) Make sure your function is inlined.

2) You can inplace swap, using a XOR for instance

3) Try to force the compiler to pass arguments using register instead of the stack (even though there's lot of register stress on x86, it's worth trying) - you can use the standard register keyword or play with fastcall on MS' compiler.

typedef double** TwoDimArray;

class Solver
  inline void Swap( register TwoDimArray& a, register TwoDimArray& b )
    a ^= b ^= a ^= b;

4) Don't bother giving default values for temporaries like vswap.

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A member function defined inside its class' definition is implicitly inlined. – sbi Oct 9 '09 at 12:21
Nice solution, but identifiers in C++ don't start with a number "2DArray". – AraK Oct 9 '09 at 12:28
My mistake, i wrote it too fast :) it's corrected. Concerning the implicit inlining of inside-class methods, that's a matter of style, i like to emphasis inline and virtual keywords. – NewbiZ Oct 9 '09 at 12:31
Not sure I follow, where are a and b coming from? – ccook Oct 9 '09 at 12:43
Something is fishy with your compile settings if this changes make it faster; are you sure you are using a high optimisation level? Typically, inline and register is simply ignored by the compiler, and the XOR swap shouldn't be significantly faster than a register-register copy ;) – Anteru Oct 9 '09 at 13:04

The code looks fine. Its is just a pointer assignment. It depends on how many times the method was got called.

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It's being called once every iteration to swap the new and old arrays. The array itself is 2x20000. Could the size of the array be an issue? – ccook Oct 9 '09 at 11:53
Array size shouldn't matter. Its pointer assignment. – aJ. Oct 9 '09 at 11:57
Could it matter when a profiler is used?? – ccook Oct 9 '09 at 11:59

I guess your profiler is getting confused here a bit, as this method really only swaps two pointers, which is very cheap. Unless this method is called a lot, it shouldn't show up in a profile. Does your profiler tell you how often this method gets called?

One issue you have to be aware of with swapping is that one array might be in the cache and the other not (especially if they are large), so constantly swapping pointers might trash the cache, but this would show up as a general slow-down.

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The arrays are both large and swapped a lot. It's being used in an RK4 method I am working on. What is bugging me is that the Swap is costing more than the derivative evaluation. The derivative is being calculated some 24M times, while the swap just 502, however Swap is accounting for 21% and the derivative just 13%. Note the derivative is rather simple atm... (t^3) but all the same. – ccook Oct 9 '09 at 11:57
It could be also due to your swap getting inlined (your running with optimisation on, aren't you) and this could skew the numbers. – Anteru Oct 9 '09 at 13:02

Are you sure you profiled fully optimized code?

You should inlinethis function.

Other than that the only thing I see is that you first assign NULL to vswap and immediately afterwards some other value - but this should be taken care of by the optimizer.

 inline void Solver::Swap(double** &v1, double** &v2)
   double** vswap = v2;
   v2 = v1;
   v1 = vswap;

However, why don't you use std::swap()?

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I actually didn't know of std::swap... (oops) On the plus, the two perform at the same speed. Ty for pointing me to std::swap – ccook Oct 9 '09 at 12:39

Don't assume that the 7% means this operation is slow - it depends on what else is going on.

You can have an operation that only takes 1 nanosecond, and make it take nearly 100% of the time, by doing nothing else.

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