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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.


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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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
How many million of these are you doing per second? –  Martin James Mar 5 '13 at 17:31
Measuring performance without optimizations turned on… sigh. –  user142019 Mar 5 '13 at 17:54
@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
@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)


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
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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