Rust just merged two new very fast sort implementations into stdlib - eviltoast
 name                                            diff %  speedup 
 slice::sort_large_random                       -65.49%   x 2.90 
 slice::sort_large_strings                      -37.75%   x 1.61 
 slice::sort_medium_random                      -47.89%   x 1.92 
 slice::sort_small_random                        11.11%   x 0.90 
 slice::sort_unstable_large_random              -47.57%   x 1.91 
 slice::sort_unstable_large_strings             -25.19%   x 1.34 
 slice::sort_unstable_medium_random             -22.15%   x 1.28 
 slice::sort_unstable_small_random              -15.79%   x 1.19
  • arendjr@programming.dev
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    5 months ago

    Does the Rust compiler use their std sort algorithms, or does it already use specialized ones? If the former, it would be a great side-effect if the compiler itself receives additional speed ups because of this.

      • arendjr@programming.dev
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        5 months ago

        The post mentioned that the introduction of these new algorithms brings compile-time improvements too, so how should I see this? I assumed it meant that compiling applications that use sorting would speed up, but that seems like a meaningless improvement if overall compilation times have regressed. Or do you mean compiling the compiler has become slower?

          • arendjr@programming.dev
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            5 months ago

            Yeah, it was the first line of the linked PR:

            This PR replaces the sort implementations with tailor-made ones that strike a balance of run-time, compile-time and binary-size, yielding run-time and compile-time improvements.

            It was also repeated a few paragraphs later that the motivation for the changes was both runtime and compile time improvements. So a little bit bumped to hear the compile time impact wasn’t as good as the authors hoped apparently. I’m not even sure I fully endorse the tradeoff, because it seems the gains, while major, only affect very select use cases, while the regressions seem to affect everyone and hurt in an area that is already perceived as a pain point. But oh well, the total regression is still minor so I guess we’ll live with it.

            • KillTheMule@programming.dev
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              5 months ago

              only affect very select use cases

              I did not read the whole conversation, but sorting seems a very common usecase (not mine, but seems to me a lot of people sort data), so this seems quite a broad improvement to me.

              that is already perceived as a pain point

              Note though, as is mentioned in the issue, that the survey showed people still prioritize runtime performance over compilation performance in general, so this tradeoff seems warranted.

              the total regression is still minor

              It’s not unheard of that regressions can be unmade later on, so here’s hoping :)

              • arendjr@programming.dev
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                5 months ago

                Yeah, sorting is definitely a common use case, but note it also didn’t improve every sorting use case. Anyway, even if I’m a bit skeptical I trust the Rust team that they don’t take these decisions lightly.

                But the thing that lead to my original question was: if the compiler itself uses the std sorting internally, there’s also additional reason to hope that it might have transitive performance benefits. So even if compiling the Rust compiler with this PR was actually slower, compiling again with the resulting compiler could be faster since the resulting compiler benefits from faster sorting. So yeah, fingers crossed 🤞

                • KillTheMule@programming.dev
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                  5 months ago

                  transitive performance benefits

                  I would have assumed the benchmark suite accounts for that, otherwise the results aren’t quite as meaningfull really. Which ties back you your 2nd senctence: I certainly trust the rust team more than myself on these things :)