| Message ID | c4e817abf7dbcd6c99da404507ea940305c521b6.1609154168.git.gitgitgadget@gmail.com (mailing list archive) |
|---|---|
| State | New, archived |
| Headers | show |
| Series | Implement Corrected Commit Date | expand |
On 12/28/2020 6:15 AM, Abhishek Kumar via GitGitGadget wrote: > From: Abhishek Kumar <abhishekkumar8222@gmail.com> > > Before computing Bloom fitlers, the commit-graph machinery uses s/fitlers/filters/ > commit_gen_cmp to sort commits by generation order for improved diff > performance. 3d11275505 (commit-graph: examine commits by generation > number, 2020-03-30) claims that this sort can reduce the time spent to > compute Bloom filters by nearly half. > > But since c49c82aa4c (commit: move members graph_pos, generation to a > slab, 2020-06-17), this optimization is broken, since asking for a > 'commit_graph_generation()' directly returns GENERATION_NUMBER_INFINITY > while writing. > > Not all hope is lost, though: 'commit_graph_generation()' falls back to > comparing commits by their date when they have equal generation number, > and so since c49c82aa4c is purely a date comparision function. This s/comparision/comparison/ > heuristic is good enough that we don't seem to loose appreciable > performance while computing Bloom filters. Applying this patch (compared > with v2.29.1) speeds up computing Bloom filters by around ~4 > seconds. Using "~4 seconds" here is odd since there is no baseline. Which repository did you use? Previous discussion used relative terms. Something like "speeds up by a factor of 1.25" or something might be interesting. > So, avoid the useless 'commit_graph_generation()' while writing by > instead accessing the slab directly. This returns the newly-computed > generation numbers, and allows us to avoid the heuristic by directly > comparing generation numbers. This introduces some timing restrictions to the ability for this comparison function. It would be dangerous if someone extracted the method for another purpose. A comment above these lines could warn future developers from making that mistake, but they would probably use the comparison functions in commit.c instead. > Signed-off-by: Abhishek Kumar <abhishekkumar8222@gmail.com> > --- > commit-graph.c | 4 ++-- > 1 file changed, 2 insertions(+), 2 deletions(-) > > diff --git a/commit-graph.c b/commit-graph.c > index 06f8dc1d896..caf823295f4 100644 > --- a/commit-graph.c > +++ b/commit-graph.c > @@ -144,8 +144,8 @@ static int commit_gen_cmp(const void *va, const void *vb) > const struct commit *a = *(const struct commit **)va; > const struct commit *b = *(const struct commit **)vb; > > - uint32_t generation_a = commit_graph_generation(a); > - uint32_t generation_b = commit_graph_generation(b); > + uint32_t generation_a = commit_graph_data_at(a)->generation; > + uint32_t generation_b = commit_graph_data_at(b)->generation; > /* lower generation commits first */ > if (generation_a < generation_b) > return -1; >
On Mon, Dec 28, 2020 at 11:15:58AM +0000, Abhishek Kumar via GitGitGadget wrote: > Before computing Bloom fitlers, the commit-graph machinery uses > commit_gen_cmp to sort commits by generation order for improved diff > performance. 3d11275505 (commit-graph: examine commits by generation > number, 2020-03-30) claims that this sort can reduce the time spent to > compute Bloom filters by nearly half. That's true, though there are repositories where it has basically no effect. Alas we can't directly test it, because in 3d11275505 there is no '--changed-paths' option yet... one has to revert 3d11275505 on top of d38e07b8c4 (commit-graph: add --changed-paths option to write subcommand, 2020-04-06) to make any runtime comparisons ('git commit-graph write --reachable --changed-paths', best of five): Sorting by pack | generation position | -------------------+------------ gcc 114.821s | 38.963s git 8.896s | 5.620s linux 209.984s | 104.900s webkit 35.193s | 35.482s Note the almost 3x speedup in the gcc repository, and the basically negligible slowdown in the webkit repo. > But since c49c82aa4c (commit: move members graph_pos, generation to a > slab, 2020-06-17), this optimization is broken, since asking for a > 'commit_graph_generation()' directly returns GENERATION_NUMBER_INFINITY > while writing. I wouldn't say that c49c82aa4c broke this optimisation, because: did not break that optimization. Though, sadly, it's not mentioned in 3d11275505's commit message, when commit_gen_cmp() compares two commits with identical generation numbers, then it doesn't leave them unsorted, but falls back to use their committer date as a tie-braker. This means that after c49c82aa4c the commits are sorted by committer date, which appears to be so good a heuristic for Bloom filter computation that there is barely any slowdown compared to sorting by generation numbers: > Not all hope is lost, though: 'commit_graph_generation()' falls back to You mean commit_gen_cmp() here. > comparing commits by their date when they have equal generation number, > and so since c49c82aa4c is purely a date comparision function. This > heuristic is good enough that we don't seem to loose appreciable > performance while computing Bloom filters. Indeed, c49c82aa4c barely caused any runtime difference in the repositories I usually use to test modified path Bloom filter performance: c49c82aa4c^ c49c82aa4c --------------------------------------------- android-base 43.057s 43.091s 0.07% cmssw 21.781s 21.856s 0.34% cpython 9.626s 9.724s 1.01% elasticsearch 18.049s 18.224s 0.96% gcc 40.312s 40.255s -0.14% gecko-dev 104.515s 104.740s 0.21% git 5.559s 5.570s 0.19% glibc 4.455s 4.468s 0.29% go 4.009s 4.016s 0.17% homebrew-cask 30.759s 30.523s -0.76% homebrew-core 57.122s 56.553s -0.99% jdk 18.297s 18.364s 0.36% linux 104.499s 105.302s 0.76% llvm-project 34.074s 34.446s 1.09% rails 6.472s 6.486s 0.21% rust 14.943s 14.947s 0.02% tensorflow 13.362s 13.477s 0.86% webkit 34.583s 34.601s 0.05% > Applying this patch (compared > with v2.29.1) speeds up computing Bloom filters by around ~4 > seconds. Without a baseline and knowing which repo, this "~4 seconds" is meaningless. Here are my results comparing this fix to v2.30.0, best of five: v2.30.0 + v2.30.0 this fix --------------------------------------------- android-base 42.786s 42.933s 0.34% cmssw 20.229s 20.160s -0.34% cpython 9.616s 9.647s 0.32% elasticsearch 16.859s 16.936s 0.45% gcc 38.909s 36.889s -5.19% gecko-dev 99.417s 98.558s -0.86% git 5.620s 5.509s -1.97% glibc 4.307s 4.301s -0.13% go 3.971s 3.938s -0.83% homebrew-cask 31.262s 30.283s -3.13% homebrew-core 57.842s 55.663s -3.76% jdk 12.557s 12.251s -2.43% linux 94.335s 94.760s 0.45% llvm-project 34.432s 33.988s -1.28% rails 6.481s 6.454s -0.41% rust 14.772s 14.601s -1.15% tensorflow 11.759s 11.711s -0.40% webkit 33.917s 33.759s -0.46% > So, avoid the useless 'commit_graph_generation()' while writing by > instead accessing the slab directly. This returns the newly-computed > generation numbers, and allows us to avoid the heuristic by directly > comparing generation numbers. > > Signed-off-by: Abhishek Kumar <abhishekkumar8222@gmail.com> > --- > commit-graph.c | 4 ++-- > 1 file changed, 2 insertions(+), 2 deletions(-) > > diff --git a/commit-graph.c b/commit-graph.c > index 06f8dc1d896..caf823295f4 100644 > --- a/commit-graph.c > +++ b/commit-graph.c > @@ -144,8 +144,8 @@ static int commit_gen_cmp(const void *va, const void *vb) > const struct commit *a = *(const struct commit **)va; > const struct commit *b = *(const struct commit **)vb; > > - uint32_t generation_a = commit_graph_generation(a); > - uint32_t generation_b = commit_graph_generation(b); > + uint32_t generation_a = commit_graph_data_at(a)->generation; > + uint32_t generation_b = commit_graph_data_at(b)->generation; > /* lower generation commits first */ > if (generation_a < generation_b) > return -1; > -- > gitgitgadget >
On Tue, Jan 05, 2021 at 10:45:35AM +0100, SZEDER Gábor wrote: > > But since c49c82aa4c (commit: move members graph_pos, generation to a > > slab, 2020-06-17), this optimization is broken, since asking for a > > 'commit_graph_generation()' directly returns GENERATION_NUMBER_INFINITY > > while writing. > > I wouldn't say that c49c82aa4c broke this optimisation, because: > > did not break that optimization. Though, sadly, it's not > mentioned in 3d11275505's commit message, when commit_gen_cmp() > compares two commits with identical generation numbers, then it > doesn't leave them unsorted, but falls back to use their committer > date as a tie-braker. This means that after c49c82aa4c the commits > are sorted by committer date, which appears to be so good a heuristic > for Bloom filter computation that there is barely any slowdown > compared to sorting by generation numbers: Gaah, scratch this paragraph; I first misunderstood what you wrote in the paragraph below, but then forgot to remove it. > > Not all hope is lost, though: 'commit_graph_generation()' falls back to > > You mean commit_gen_cmp() here. > > > comparing commits by their date when they have equal generation number, > > and so since c49c82aa4c is purely a date comparision function. This > > heuristic is good enough that we don't seem to loose appreciable > > performance while computing Bloom filters.
On Tue, Dec 29, 2020 at 08:35:56PM -0500, Derrick Stolee wrote: > On 12/28/2020 6:15 AM, Abhishek Kumar via GitGitGadget wrote: > > From: Abhishek Kumar <abhishekkumar8222@gmail.com> > > > > Before computing Bloom fitlers, the commit-graph machinery uses > > s/fitlers/filters/ > > > commit_gen_cmp to sort commits by generation order for improved diff > > performance. 3d11275505 (commit-graph: examine commits by generation > > number, 2020-03-30) claims that this sort can reduce the time spent to > > compute Bloom filters by nearly half. > > > > But since c49c82aa4c (commit: move members graph_pos, generation to a > > slab, 2020-06-17), this optimization is broken, since asking for a > > 'commit_graph_generation()' directly returns GENERATION_NUMBER_INFINITY > > while writing. > > > > Not all hope is lost, though: 'commit_graph_generation()' falls back to > > comparing commits by their date when they have equal generation number, > > and so since c49c82aa4c is purely a date comparision function. This > > s/comparision/comparison/ > > > heuristic is good enough that we don't seem to loose appreciable > > performance while computing Bloom filters. Applying this patch (compared > > with v2.29.1) speeds up computing Bloom filters by around ~4 > > seconds. > > Using "~4 seconds" here is odd since there is no baseline. Which > repository did you use? > I used the linux repository, will mention that. > Previous discussion used relative terms. Something like "speeds up by > a factor of 1.25" or something might be interesting. > As SZEDER Gábor found, the improvements are rather minor - ranging from 0.40% to 5.19% [1]. I want to make sure this is the correct way to word in the commit message: Applying this patch (compared with v2.30.0) speeds up computing Bloom filters by factors ranging from 0.40% to 5.19% on various repositories. https://lore.kernel.org/git/20210105094535.GN8396@szeder.dev/ > > So, avoid the useless 'commit_graph_generation()' while writing by > > instead accessing the slab directly. This returns the newly-computed > > generation numbers, and allows us to avoid the heuristic by directly > > comparing generation numbers. > > This introduces some timing restrictions to the ability for this > comparison function. It would be dangerous if someone extracted > the method for another purpose. A comment above these lines could > warn future developers from making that mistake, but they would > probably use the comparison functions in commit.c instead. > Sure, will add a comment above. > > Signed-off-by: Abhishek Kumar <abhishekkumar8222@gmail.com> > > --- > > commit-graph.c | 4 ++-- > > 1 file changed, 2 insertions(+), 2 deletions(-) > > > > diff --git a/commit-graph.c b/commit-graph.c > > index 06f8dc1d896..caf823295f4 100644 > > --- a/commit-graph.c > > +++ b/commit-graph.c > > @@ -144,8 +144,8 @@ static int commit_gen_cmp(const void *va, const void *vb) > > const struct commit *a = *(const struct commit **)va; > > const struct commit *b = *(const struct commit **)vb; > > > > - uint32_t generation_a = commit_graph_generation(a); > > - uint32_t generation_b = commit_graph_generation(b); > > + uint32_t generation_a = commit_graph_data_at(a)->generation; > > + uint32_t generation_b = commit_graph_data_at(b)->generation; > > /* lower generation commits first */ > > if (generation_a < generation_b) > > return -1; > > >
On Tue, Jan 05, 2021 at 10:45:35AM +0100, SZEDER Gábor wrote: > On Mon, Dec 28, 2020 at 11:15:58AM +0000, Abhishek Kumar via GitGitGadget wrote: > > Before computing Bloom fitlers, the commit-graph machinery uses > > commit_gen_cmp to sort commits by generation order for improved diff > > performance. 3d11275505 (commit-graph: examine commits by generation > > number, 2020-03-30) claims that this sort can reduce the time spent to > > compute Bloom filters by nearly half. > > That's true, though there are repositories where it has basically no > effect. Alas we can't directly test it, because in 3d11275505 there > is no '--changed-paths' option yet... one has to revert 3d11275505 on > top of d38e07b8c4 (commit-graph: add --changed-paths option to write > subcommand, 2020-04-06) to make any runtime comparisons ('git > commit-graph write --reachable --changed-paths', best of five): > > Sorting by > pack | generation > position | > -------------------+------------ > gcc 114.821s | 38.963s > git 8.896s | 5.620s > linux 209.984s | 104.900s > webkit 35.193s | 35.482s > > Note the almost 3x speedup in the gcc repository, and the basically > negligible slowdown in the webkit repo. > > > But since c49c82aa4c (commit: move members graph_pos, generation to a > > slab, 2020-06-17), this optimization is broken, since asking for a > > 'commit_graph_generation()' directly returns GENERATION_NUMBER_INFINITY > > while writing. > > I wouldn't say that c49c82aa4c broke this optimisation, because: > > did not break that optimization. Though, sadly, it's not > mentioned in 3d11275505's commit message, when commit_gen_cmp() > compares two commits with identical generation numbers, then it > doesn't leave them unsorted, but falls back to use their committer > date as a tie-braker. This means that after c49c82aa4c the commits > are sorted by committer date, which appears to be so good a heuristic > for Bloom filter computation that there is barely any slowdown > compared to sorting by generation numbers: > > > Not all hope is lost, though: 'commit_graph_generation()' falls back to > > You mean commit_gen_cmp() here. > Yes, fixed. > > comparing commits by their date when they have equal generation number, > > and so since c49c82aa4c is purely a date comparision function. This > > heuristic is good enough that we don't seem to loose appreciable > > performance while computing Bloom filters. > > Indeed, c49c82aa4c barely caused any runtime difference in the > repositories I usually use to test modified path Bloom filter > performance: > > c49c82aa4c^ c49c82aa4c > --------------------------------------------- > android-base 43.057s 43.091s 0.07% > cmssw 21.781s 21.856s 0.34% > cpython 9.626s 9.724s 1.01% > elasticsearch 18.049s 18.224s 0.96% > gcc 40.312s 40.255s -0.14% > gecko-dev 104.515s 104.740s 0.21% > git 5.559s 5.570s 0.19% > glibc 4.455s 4.468s 0.29% > go 4.009s 4.016s 0.17% > homebrew-cask 30.759s 30.523s -0.76% > homebrew-core 57.122s 56.553s -0.99% > jdk 18.297s 18.364s 0.36% > linux 104.499s 105.302s 0.76% > llvm-project 34.074s 34.446s 1.09% > rails 6.472s 6.486s 0.21% > rust 14.943s 14.947s 0.02% > tensorflow 13.362s 13.477s 0.86% > webkit 34.583s 34.601s 0.05% > > > Applying this patch (compared > > with v2.29.1) speeds up computing Bloom filters by around ~4 > > seconds. > > Without a baseline and knowing which repo, this "~4 seconds" is > meaningless. > > Here are my results comparing this fix to v2.30.0, best of five: > > v2.30.0 + > v2.30.0 this fix > --------------------------------------------- > android-base 42.786s 42.933s 0.34% > cmssw 20.229s 20.160s -0.34% > cpython 9.616s 9.647s 0.32% > elasticsearch 16.859s 16.936s 0.45% > gcc 38.909s 36.889s -5.19% > gecko-dev 99.417s 98.558s -0.86% > git 5.620s 5.509s -1.97% > glibc 4.307s 4.301s -0.13% > go 3.971s 3.938s -0.83% > homebrew-cask 31.262s 30.283s -3.13% > homebrew-core 57.842s 55.663s -3.76% > jdk 12.557s 12.251s -2.43% > linux 94.335s 94.760s 0.45% > llvm-project 34.432s 33.988s -1.28% > rails 6.481s 6.454s -0.41% > rust 14.772s 14.601s -1.15% > tensorflow 11.759s 11.711s -0.40% > webkit 33.917s 33.759s -0.46% > Thank you for the detailed performance benchmarking. > > > So, avoid the useless 'commit_graph_generation()' while writing by > > instead accessing the slab directly. This returns the newly-computed > > generation numbers, and allows us to avoid the heuristic by directly > > comparing generation numbers. > > > > Signed-off-by: Abhishek Kumar <abhishekkumar8222@gmail.com> > > --- > > commit-graph.c | 4 ++-- > > 1 file changed, 2 insertions(+), 2 deletions(-) > > > > diff --git a/commit-graph.c b/commit-graph.c > > index 06f8dc1d896..caf823295f4 100644 > > --- a/commit-graph.c > > +++ b/commit-graph.c > > @@ -144,8 +144,8 @@ static int commit_gen_cmp(const void *va, const void *vb) > > const struct commit *a = *(const struct commit **)va; > > const struct commit *b = *(const struct commit **)vb; > > > > - uint32_t generation_a = commit_graph_generation(a); > > - uint32_t generation_b = commit_graph_generation(b); > > + uint32_t generation_a = commit_graph_data_at(a)->generation; > > + uint32_t generation_b = commit_graph_data_at(b)->generation; > > /* lower generation commits first */ > > if (generation_a < generation_b) > > return -1; > > -- > > gitgitgadget > > Thanks - Abhishek
diff --git a/commit-graph.c b/commit-graph.c index 06f8dc1d896..caf823295f4 100644 --- a/commit-graph.c +++ b/commit-graph.c @@ -144,8 +144,8 @@ static int commit_gen_cmp(const void *va, const void *vb) const struct commit *a = *(const struct commit **)va; const struct commit *b = *(const struct commit **)vb; - uint32_t generation_a = commit_graph_generation(a); - uint32_t generation_b = commit_graph_generation(b); + uint32_t generation_a = commit_graph_data_at(a)->generation; + uint32_t generation_b = commit_graph_data_at(b)->generation; /* lower generation commits first */ if (generation_a < generation_b) return -1;