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I have a hand-rolled matrix algorithm which finds the largest number of a right lower square of a square matrix (thus when iterating, some parts are 'jumped' over) - stored as a dense matrix. After an update from to it seems to be much slower - about a 50% slowdown overall. After some investigation, this was located to the inner loop of a function finding absolute largest value. Looking at the output, this seems be due to some extra instructions being inserted within the tight loop. Reworking the loop in different ways seems to solve or partly solve the issue. doesn't seem to have this "issue" in comparison.

Simplified examples (fabs not always neccesary to reproduce):

#include <cmath>
#include <iostream>

int f_slow(double *A, size_t from, size_t w)
{
    double biga_absval = *A;
    size_t ir = 0,ic=0;
    for ( size_t j = 0; j < w; j++ ) {
      size_t n = j*w;
      for ( ; n < j*w+w; n++ ) {
        if ( fabs(A[n]) <= biga_absval ) {
          biga_absval = fabs( A[n] );
          ir   = j;
          ic   = n;
        }
        n++;
      }
    }

    std::cout << ir <<ic;
    return 0;
}

int f_fast(double *A, size_t from, size_t w)
{
    double* biga = A;
    double biga_absval = *biga;

    double* n_begin = A + from;
    double* n_end = A + w;
    for (double* A_n = n_begin; A_n < n_end; ++A_n) {
      if (fabs(*A_n) > biga_absval) {
        biga_absval = fabs(*A_n);
        biga = A_n;
      }
    }

    std::cout << biga;
    return 0;
}

int f_faster(double *A, size_t from, size_t w)
{
    double biga_absval = *A;
    size_t ir = 0,ic=0;
    for ( size_t j = 0; j < w; j++ ) {
      size_t n = j;
      for ( ; n < j*w+w; n++ ) {
        if ( fabs(A[n]) > biga_absval ) {
          biga_absval = fabs( A[n] );
          ir   = j;
          ic   = n - j*w;
        }
        n++;
      }
    }

    std::cout << ir <<ic;
    return 0;
}

Please note: examples were created to look at output only (and indexes etc. doens't neccesarily makes sense):

https://godbolt.org/z/q9rWwi

So my question is: is this just a (known?) optimizer bug (?) or is there some logic behind what in this case seems like a clear optimization miss ?

Using latest stable 15.9.5

Update: The extra s I see is before the jump codes - easiest way to find in compiler explorer is to right click on the if and then "scroll to".

  • 1
    f_fast is checking every element of A (1x ++A_n), f_faster only every second (2x n++ in inner loop)... is it intentional? – Ped7g Jan 29 at 14:18
  • The code is VERY different between /O2 and /O3. – Matthieu Brucher Jan 29 at 14:21
  • 1
    @MatthieuBrucher: MSVC doesn't have a /O3 option. It ignores it and you get the default debug-mode un-optimized code. cl : Command line warning D9002 : ignoring unknown option '/O3'. This is unlike gcc/clang, where -O3 enables full optimization, including auto-vectorization with gcc. (clang enables auto-vec at -O2, but gcc only at -O3). – Peter Cordes Jan 29 at 22:00
  • 2
    I dealt with a similar problem in stackoverflow.com/questions/32511862/… due to changes in the default security settings of the C++ compiler in Visual Studio ~2013. Buffer overrun handling changed, but I guess that is not quite the same issue you are dealing with. – BlueMonkMN Feb 7 at 14:38
  • 1
    Could be Spectre mitigation slowing things down – faissaloo May 16 at 15:03

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