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I have profiled my program and it spends 20% of the CPU time basically evaluating the following expression:

abs(x) > abs(y)

where x,y are double-precision floating point variables.

Is there a way to refactor the expression to a faster variant?

The following line (called in two different places) takes close to 10% CPU time at each line:

(This is a snippet from the function Image_3::TestGradientAtPoint)

       if (abs(maxx[ch]) < abs(a)) maxx[ch] = a; 
01187AC9  mov         eax,dword ptr [ch]  
01187ACC  sub         esp,8  
01187ACF  fld         qword ptr [ebp+eax*8-68h]  
01187AD3  fstp        qword ptr [esp]  
01187AD6  call        abs (11305F9h)  
01187ADB  fld         qword ptr [ebp-70h]  
01187ADE  fstp        qword ptr [esp]  
01187AE1  fstp        qword ptr [ebp-0F8h]  
01187AE7  call        abs (11305F9h)  
01187AEC  add         esp,8  
01187AEF  fcomp       qword ptr [ebp-0F8h]  
01187AF5  fnstsw      ax  
01187AF7  test        ah,41h  
01187AFA  jne         Image_3::TestGradientAtPoint+176h (1187B06h)
01187AFC  mov         eax,dword ptr [ch]  
01187AFF  fld         qword ptr [ebp-70h]  
01187B02  fstp        qword ptr [ebp+eax*8-68h]  

The profiler has stated that the call to abs() has taken 20% CPU time. I am calling the method on the order of 10^8 iterations - I am working with large images.

Edit

I forgot to say that but the code is runs in Debug mode, and I need to optimize it here a bit, because I want to still be able to use the MSVC debugger in reasonable time.

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closed as too localized by interjay, GManNickG, Bo Persson, Mark B, Daniel Fischer Mar 5 '13 at 22:02

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8  
You may want to post the code around this statement, because this I doubt is the real problem. –  Tony The Lion Mar 5 '13 at 17:30
2  
How many million of these are you doing per second? –  Martin James Mar 5 '13 at 17:31
11  
Measuring performance without optimizations turned on… sigh. –  user142019 Mar 5 '13 at 17:54
4  
@perfanoff If this is debug mode, then forget it... I can't really say much more than to learn to debug through optimizations. –  Mysticial Mar 5 '13 at 17:57
3  
@perkanoff - Running in debug mode is telling the compiler "Please don't make any attempts to make this run fast". And that's what you get. –  Bo Persson Mar 5 '13 at 18:03

5 Answers 5

This may not be faster but if arithmetic expressions are evaluated faster:

if ((x - y) * (-x - y) < 0)
    // then abs(x) > abs(y)

I believe this fixes the number of expressions to 3 (the 2 arithmetic expression and the compare to zero) rather than the 3 expression from abs method (each abs checks if negative, inverts sign else just return value then compare each abs)

EDIT:

As andre said, you could always explicitly square the floats. Make much more sense in retrospect.

if (x * x > y * y)
    // then abs(x) > abs(y)

Since (x-y)(-x-y) = y^2-x^2

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I will test it and let you know. –  Boyko Perfanov Mar 5 '13 at 18:08
    
Interesting... I think you might be off by a sign somewhere. If both are positive and x > y, it evaluates to negative which is false. –  Mysticial Mar 5 '13 at 18:10
2  
I was thinking of suggesting comparing x*x > y*y but if the number are big multiplication can cause an overflow. –  andre Mar 5 '13 at 18:14
    
Just edited, mixed sign of expression –  SGM1 Mar 5 '13 at 18:15
    
+1, I think it works now. Neat little trick. :) –  Mysticial Mar 5 '13 at 18:16

Tell your compiler to optimize. In GCC or clang you do this using -O2 or -O3 flags—the latter is more aggressive. In MSVC you can use the /O2 or /Ox flags (IIRC; I rarely use that compiler). You can't expect 100000000 iterations to run quickly without optimizations turned on.

If you want to debug without optimizations turned on, but still within a reasonable time frame, try a smaller data set; or as Mysticial mentioned, debug with optimizations turned on and accept randomly changing values and other arcane observations in your debugger.

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Thank you for your outlook on the situation. –  Boyko Perfanov Mar 5 '13 at 18:03

Well if the order of maxx[] its not important you could sort it and i think it would be faster.

Other thing is that if "a" its the same for all maxx[] you could do a= abs(a); and then just compare to a directly.

I would need to see more code to try to help you more.

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Thank you, this is a good answer, but unfortunately the order of maxx[] cannot be changed. –  Boyko Perfanov Mar 5 '13 at 17:50

The first thing to check is that you're actually enabling optimizations. If not, perhaps your compiler isn't inlining the call, resulting in enough overhead that you notice it.

If as I suspect you actually have optimization enabled you're going to have to take an algorithmic approach. I can't think of anything you could do do abs to make it faster.

So you need to consider things like:

  • Do you care about the original negative numbers or can you pre-filter the data to absify it?
  • Do you care about the order? Can you sort the data to improve your algorithm
  • Are you computing the abs of a non-changing value many times in a loop?
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You are correct, the call to abs() is not inlined. I will check whether to and how to inline it without having to add compiler optimizations that will interfere with the rest of the program. –  Boyko Perfanov Mar 5 '13 at 18:02

This may not be any faster but another logical version would be:

// logical replacement for abs(x) > abs(y)
x >= 0 ? 
    y >= 0 && x > y :
    y <= 0 && x < y ;

Since it's only using comparators and branches it may be faster, but no guarantees...

If not, try using fabs instead since it's designed for floating-point numbers.

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abs is overloaded for all numeric types. –  James Kanze Mar 5 '13 at 19:52
    
@JamesKanze I understand, but there may be optimizations with fabs that make it faster for floating point types. I don't know either way - I'm just pointing it out as an alternative. –  D Stanley Mar 5 '13 at 22:59
    
It seems highly unlikely that fabs is in any way different than the overload of abs. In fact, because the overloads are pure C++, where as fabs is from C, there's a distinct possibility that the overloads are inline, whereas fabs isn't. –  James Kanze Mar 6 '13 at 9:15

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