mirror of https://github.com/google/snappy.git
132 Commits
Author | SHA1 | Message | Date |
---|---|---|---|
Snappy Team | d674348a0c |
Improve zippy with 5-10%.
BM_ZCord/0 [html ] 1.26GB/s ± 0% 1.35GB/s ± 0% +7.90% (p=0.008 n=5+5) BM_ZCord/1 [urls ] 535MB/s ± 0% 562MB/s ± 0% +5.05% (p=0.008 n=5+5) BM_ZCord/2 [jpg ] 10.2GB/s ± 1% 10.2GB/s ± 0% ~ (p=0.310 n=5+5) BM_ZCord/3 [jpg_200] 841MB/s ± 1% 846MB/s ± 1% ~ (p=0.421 n=5+5) BM_ZCord/4 [pdf ] 6.77GB/s ± 1% 7.06GB/s ± 1% +4.28% (p=0.008 n=5+5) BM_ZCord/5 [html4 ] 1.00GB/s ± 0% 1.08GB/s ± 0% +7.94% (p=0.008 n=5+5) BM_ZCord/6 [txt1 ] 391MB/s ± 0% 417MB/s ± 0% +6.71% (p=0.008 n=5+5) BM_ZCord/7 [txt2 ] 363MB/s ± 0% 388MB/s ± 0% +6.73% (p=0.016 n=5+4) BM_ZCord/8 [txt3 ] 400MB/s ± 0% 426MB/s ± 0% +6.55% (p=0.008 n=5+5) BM_ZCord/9 [txt4 ] 328MB/s ± 0% 350MB/s ± 0% +6.66% (p=0.008 n=5+5) BM_ZCord/10 [pb ] 1.67GB/s ± 1% 1.80GB/s ± 0% +7.52% (p=0.008 n=5+5) 1) A key bottleneck in the data dependency chain is figuring out how many bytes are matched and loading the data for next hash value. The load-to-use latency is 5 cycles, in previous cl/303353110 we removed the load in lieu of "shrd" to align previous loads. Unfortunately "shrd" itself has a latency of 4 cycles, we'd prefer "shrx" which takes 1 cycle for variable shifts. 2)Maximally use data already computed. The above trick calculates 5 bytes of useful data. So in case we need to search for new match we can use this for the first search (which is one byte further). PiperOrigin-RevId: 303875535 |
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Snappy Team | 4dfcad9f4e |
assertion failure on darwin_x86_64, have to investigage
PiperOrigin-RevId: 303428229 |
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Snappy Team | e19178748f |
assertion failure on darwin_x86_64, have to investigage
PiperOrigin-RevId: 303346402 |
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Snappy Team | 0faf56378e |
This cl does two things
1) It shaves of a few cycles from the data dependency chain. By using "shrd" instead of a load. 2) The important loop is finding small copies (4-12) which are either "copy 1", or "copy 2" depending if the offset fits <2048. It turns out that this is a branch that is mispredicted often. Due to the long dependency chain the CPU is running with IPC~1 anyway so we can freely add instructions to instead emit copies branchfree. This reduces the branch misspredicts from 15% to 11% (for BM_ZFlat/6 txt1) and from 5.6% to 4% (for BM_ZFlat/10 or pb). PiperOrigin-RevId: 303328967 |
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Snappy Team | 0c7ed08a25 |
The result on protobuf benchmark is around 19%. Results vary by their propensity for compression. As the frequency of finding matches influences the amount of branch misspredicts and the amount of hashing.
Two ideas 1) The code uses "heuristic match skipping" has a quadratic interpolation. However for the first 32 bytes it's just every byte. Special case 16 bytes. This removes a lot of code. 2) Load 64 bit integers and shift instead of reload. The hashing loop has a very long chain data = Load32(ip) -> hash = Hash(data) -> offset = table[hash] -> copy_data = Load32(base_ip + offset) followed by a compare between data and copy_data. This chain is around 20 cycles. It's unreasonable for the branch predictor to be able to predict when it's a match (that is completely driven by the content of the data). So when it's a miss this chain is on the critical path. By loading 64 bits and shifting we can effectively remove the first load. PiperOrigin-RevId: 302893821 |
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Snappy Team | 3c77e01459 |
1) Make the output pointer a local variable such it doesn't need a load add store on it's loop carried dependency chain.
2) Reduce the input pointer loop carried dependency chain from 7 cycles to 4 cycles by using pre-loading. This is a very subtle point. 3) Just brutally copy 64 bytes which removes a difficult to predict branch from the inner most loop. There is enough bandwidth to do so in the intrinsic cycles of the loop. 4) Implement limit pointers that include the slop region. This removes unnecessary instructions from the hot path. 5) It seems the removal of the difficult to predict branch has removed the code sensitivity to alignment, so remove the asm nop's. PiperOrigin-RevId: 294692928 |
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Snappy Team | 9eabb7baba |
Cut a load from the critical dependency chain of the input pointer by speculating the uncommon case of COPY_4 is not happening.
PiperOrigin-RevId: 293803653 |
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Snappy Team | cddd9c0875 |
Improve comments in IncrementalCopy, add an assert.
PiperOrigin-RevId: 292506754 |
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Snappy Team | b5477a8457 |
Optimize IncrementalCopy: There are between 1 and 4 copy iterations. Allow FDO to work with full knowledge of the probabilities for each branch.
On skylake, this improves protobuf and html decompression speed by 15% and 9% respectively, and the rest by ~2%. On haswell, this improves protobuf and html decompression speed by 23% and 16% respectively, and the rest by ~3%. PiperOrigin-RevId: 289090401 |
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Victor Costan | 62363d9a79 |
Fully qualify std::string.
This is in preparation for removing the snappy::string alias of std::string. PiperOrigin-RevId: 271383199 |
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Shahriar Rouf | 4c7f2d5dfb |
Add BM_ZFlatAll, BM_ZFlatIncreasingTableSize benchmarks to see how good zippy performs when it is processing different data one after the other.
PiperOrigin-RevId: 257518137 |
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Chris Mumford | c76b053449 |
Sync TODO and comment processing with external repo.
Copybara transforms code slightly different than MOE. One example is the TODO username stripping where Copybara produces different results than MOE did. This change moves the Copybara versions of comments to the public repository. Note: These changes didn't originate in cl/247950252. PiperOrigin-RevId: 247950252 |
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atdt | 02cf187555 |
Remove MSan exemption for _bzhi_u32, since LLVM now handles it correctly.
This cleans up a TODO from cl/225463783 and cl/225655713. PiperOrigin-RevId: 241933185 |
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nafi | c197d686a9 |
Optimize snappy compression by about 2.2%.
'jpg_200' is notably optimized by ~8%. name old time/op new time/op delta BM_UFlat/0 [html ] 41.8µs ± 0% 41.9µs ± 0% +0.33% (p=0.016 n=5+5) BM_UFlat/1 [urls ] 590µs ± 0% 590µs ± 0% ~ (p=1.000 n=5+5) BM_UFlat/2 [jpg ] 7.14µs ± 1% 7.12µs ± 1% ~ (p=0.310 n=5+5) BM_UFlat/3 [jpg_200 ] 129ns ± 0% 129ns ± 0% ~ (p=0.167 n=5+5) BM_UFlat/4 [pdf ] 8.21µs ± 0% 8.20µs ± 0% ~ (p=0.310 n=5+5) BM_UFlat/5 [html4 ] 220µs ± 1% 220µs ± 0% ~ (p=0.421 n=5+5) BM_UFlat/6 [txt1 ] 193µs ± 0% 193µs ± 0% ~ (p=0.841 n=5+5) BM_UFlat/7 [txt2 ] 171µs ± 0% 171µs ± 0% ~ (p=0.056 n=5+5) BM_UFlat/8 [txt3 ] 512µs ± 0% 511µs ± 0% ~ (p=0.310 n=5+5) BM_UFlat/9 [txt4 ] 716µs ± 0% 716µs ± 0% ~ (p=1.000 n=5+5) BM_UFlat/10 [pb ] 38.8µs ± 1% 38.8µs ± 0% ~ (p=1.000 n=5+5) BM_UFlat/11 [gaviota ] 190µs ± 0% 190µs ± 0% ~ (p=0.841 n=5+5) BM_UFlat/12 [cp ] 14.4µs ± 1% 14.4µs ± 1% ~ (p=0.151 n=5+5) BM_UFlat/13 [c ] 7.33µs ± 0% 7.32µs ± 0% ~ (p=0.690 n=5+5) BM_UFlat/14 [lsp ] 2.30µs ± 0% 2.31µs ± 1% ~ (p=0.548 n=5+5) BM_UFlat/15 [xls ] 984µs ± 0% 984µs ± 0% ~ (p=1.000 n=5+5) BM_UFlat/16 [xls_200 ] 213ns ± 0% 213ns ± 0% ~ (p=0.310 n=5+5) BM_UFlat/17 [bin ] 277µs ± 0% 278µs ± 0% ~ (p=0.690 n=5+5) BM_UFlat/18 [bin_200 ] 101ns ± 0% 102ns ± 0% ~ (p=0.190 n=5+4) BM_UFlat/19 [sum ] 29.6µs ± 0% 29.6µs ± 0% ~ (p=0.310 n=5+5) BM_UFlat/20 [man ] 2.98µs ± 1% 2.98µs ± 0% ~ (p=1.000 n=5+5) BM_UValidate/0 [html ] 33.5µs ± 0% 33.6µs ± 0% ~ (p=0.310 n=5+5) BM_UValidate/1 [urls ] 443µs ± 0% 443µs ± 0% ~ (p=0.841 n=5+5) BM_UValidate/2 [jpg ] 146ns ± 0% 146ns ± 0% ~ (p=0.222 n=5+5) BM_UValidate/3 [jpg_200 ] 95.6ns ± 0% 95.5ns ± 0% ~ (p=0.421 n=5+5) BM_UValidate/4 [pdf ] 2.92µs ± 0% 2.92µs ± 0% ~ (p=0.841 n=5+5) BM_UIOVec/0 [html ] 122µs ± 0% 122µs ± 0% ~ (p=0.548 n=5+5) BM_UIOVec/1 [urls ] 1.08ms ± 0% 1.08ms ± 0% ~ (p=0.151 n=5+5) BM_UIOVec/2 [jpg ] 7.48µs ± 5% 7.75µs ±12% ~ (p=0.690 n=5+5) BM_UIOVec/3 [jpg_200 ] 331ns ± 1% 327ns ± 1% ~ (p=0.056 n=5+5) BM_UIOVec/4 [pdf ] 12.0µs ± 0% 12.0µs ± 0% ~ (p=1.000 n=5+5) BM_UFlatSink/0 [html ] 41.7µs ± 0% 41.8µs ± 0% ~ (p=0.421 n=5+5) BM_UFlatSink/1 [urls ] 591µs ± 0% 590µs ± 0% ~ (p=0.151 n=5+5) BM_UFlatSink/2 [jpg ] 7.18µs ± 2% 7.31µs ± 3% ~ (p=0.190 n=4+5) BM_UFlatSink/3 [jpg_200 ] 134ns ± 2% 134ns ± 2% ~ (p=1.000 n=5+5) BM_UFlatSink/4 [pdf ] 8.22µs ± 0% 8.23µs ± 0% ~ (p=0.730 n=4+5) BM_UFlatSink/5 [html4 ] 219µs ± 0% 219µs ± 0% ~ (p=0.548 n=5+5) BM_UFlatSink/6 [txt1 ] 193µs ± 0% 193µs ± 0% ~ (p=0.095 n=5+5) BM_UFlatSink/7 [txt2 ] 171µs ± 0% 171µs ± 0% ~ (p=0.841 n=5+5) BM_UFlatSink/8 [txt3 ] 512µs ± 0% 512µs ± 0% ~ (p=0.548 n=5+5) BM_UFlatSink/9 [txt4 ] 718µs ± 0% 718µs ± 0% ~ (p=0.548 n=5+5) BM_UFlatSink/10 [pb ] 38.7µs ± 0% 38.6µs ± 0% ~ (p=0.222 n=5+5) BM_UFlatSink/11 [gaviota ] 191µs ± 0% 190µs ± 0% ~ (p=0.690 n=5+5) BM_UFlatSink/12 [cp ] 14.3µs ± 0% 14.4µs ± 0% ~ (p=0.222 n=5+5) BM_UFlatSink/13 [c ] 7.33µs ± 0% 7.34µs ± 1% ~ (p=0.690 n=5+5) BM_UFlatSink/14 [lsp ] 2.29µs ± 1% 2.30µs ± 1% ~ (p=0.095 n=5+5) BM_UFlatSink/15 [xls ] 981µs ± 0% 980µs ± 0% ~ (p=0.310 n=5+5) BM_UFlatSink/16 [xls_200 ] 216ns ± 1% 216ns ± 1% ~ (p=1.000 n=5+5) BM_UFlatSink/17 [bin ] 277µs ± 0% 277µs ± 0% ~ (p=1.000 n=5+5) BM_UFlatSink/18 [bin_200 ] 104ns ± 0% 104ns ± 1% ~ (p=0.905 n=5+4) BM_UFlatSink/19 [sum ] 29.5µs ± 0% 29.5µs ± 0% ~ (p=0.222 n=5+5) BM_UFlatSink/20 [man ] 3.01µs ± 1% 3.01µs ± 0% ~ (p=0.730 n=5+4) BM_ZFlat/0 [html (22.31 %) ] 126µs ± 0% 124µs ± 0% -1.66% (p=0.008 n=5+5) BM_ZFlat/1 [urls (47.78 %) ] 1.68ms ± 0% 1.63ms ± 0% -2.73% (p=0.008 n=5+5) BM_ZFlat/2 [jpg (99.95 %) ] 11.6µs ± 8% 11.4µs ± 6% ~ (p=0.310 n=5+5) BM_ZFlat/3 [jpg_200 (73.00 %)] 369ns ± 1% 340ns ± 1% -7.93% (p=0.008 n=5+5) BM_ZFlat/4 [pdf (83.30 %) ] 14.9µs ± 4% 14.4µs ± 1% -3.56% (p=0.008 n=5+5) BM_ZFlat/5 [html4 (22.52 %) ] 551µs ± 0% 545µs ± 0% -1.21% (p=0.008 n=5+5) BM_ZFlat/6 [txt1 (57.88 %) ] 540µs ± 0% 534µs ± 0% -1.15% (p=0.008 n=5+5) BM_ZFlat/7 [txt2 (61.91 %) ] 480µs ± 0% 475µs ± 0% -1.13% (p=0.008 n=5+5) BM_ZFlat/8 [txt3 (54.99 %) ] 1.44ms ± 0% 1.43ms ± 0% -1.14% (p=0.008 n=5+5) BM_ZFlat/9 [txt4 (66.26 %) ] 1.97ms ± 0% 1.95ms ± 0% -1.00% (p=0.008 n=5+5) BM_ZFlat/10 [pb (19.68 %) ] 110µs ± 0% 107µs ± 0% -2.77% (p=0.008 n=5+5) BM_ZFlat/11 [gaviota (37.72 %)] 413µs ± 0% 411µs ± 0% -0.50% (p=0.008 n=5+5) BM_ZFlat/12 [cp (48.12 %) ] 46.6µs ± 1% 44.8µs ± 1% -3.89% (p=0.008 n=5+5) BM_ZFlat/13 [c (42.47 %) ] 17.8µs ± 0% 17.5µs ± 0% -1.87% (p=0.008 n=5+5) BM_ZFlat/14 [lsp (48.37 %) ] 5.62µs ± 1% 5.35µs ± 1% -4.81% (p=0.008 n=5+5) BM_ZFlat/15 [xls (41.23 %) ] 1.63ms ± 0% 1.63ms ± 0% ~ (p=0.310 n=5+5) BM_ZFlat/16 [xls_200 (78.00 %)] 393ns ± 1% 384ns ± 2% -2.45% (p=0.008 n=5+5) BM_ZFlat/17 [bin (18.11 %) ] 510µs ± 0% 503µs ± 0% -1.50% (p=0.016 n=4+5) BM_ZFlat/18 [bin_200 (7.50 %) ] 83.2ns ± 3% 84.5ns ± 4% ~ (p=0.206 n=5+5) BM_ZFlat/19 [sum (48.96 %) ] 80.0µs ± 0% 78.3µs ± 0% -2.20% (p=0.008 n=5+5) BM_ZFlat/20 [man (59.21 %) ] 7.79µs ± 1% 7.45µs ± 1% -4.38% (p=0.008 n=5+5) name old allocs/op new allocs/op delta BM_UFlat/0 [html ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/1 [urls ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/2 [jpg ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/3 [jpg_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/4 [pdf ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/5 [html4 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/6 [txt1 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/7 [txt2 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/8 [txt3 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/9 [txt4 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/10 [pb ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/11 [gaviota ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/12 [cp ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/13 [c ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/14 [lsp ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/15 [xls ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/16 [xls_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/17 [bin ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/18 [bin_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/19 [sum ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/20 [man ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UValidate/0 [html ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UValidate/1 [urls ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UValidate/2 [jpg ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UValidate/3 [jpg_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UValidate/4 [pdf ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UIOVec/0 [html ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UIOVec/1 [urls ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UIOVec/2 [jpg ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UIOVec/3 [jpg_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UIOVec/4 [pdf ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/0 [html ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/1 [urls ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/2 [jpg ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/3 [jpg_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/4 [pdf ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/5 [html4 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/6 [txt1 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/7 [txt2 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/8 [txt3 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/9 [txt4 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/10 [pb ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/11 [gaviota ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/12 [cp ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/13 [c ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/14 [lsp ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/15 [xls ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/16 [xls_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/17 [bin ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/18 [bin_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/19 [sum ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/20 [man ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_ZFlat/0 [html (22.31 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/1 [urls (47.78 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/2 [jpg (99.95 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/3 [jpg_200 (73.00 %)] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/4 [pdf (83.30 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/5 [html4 (22.52 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/6 [txt1 (57.88 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/7 [txt2 (61.91 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/8 [txt3 (54.99 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/9 [txt4 (66.26 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/10 [pb (19.68 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/11 [gaviota (37.72 %)] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/12 [cp (48.12 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/13 [c (42.47 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/14 [lsp (48.37 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/15 [xls (41.23 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/16 [xls_200 (78.00 %)] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/17 [bin (18.11 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/18 [bin_200 (7.50 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/19 [sum (48.96 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/20 [man (59.21 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) name old peak-mem(Bytes)/op new peak-mem(Bytes)/op delta BM_UFlat/0 [html ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/1 [urls ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/2 [jpg ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/3 [jpg_200 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/4 [pdf ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/5 [html4 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/6 [txt1 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/7 [txt2 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/8 [txt3 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/9 [txt4 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/10 [pb ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/11 [gaviota ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/12 [cp ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/13 [c ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/14 [lsp ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/15 [xls ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/16 [xls_200 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/17 [bin ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/18 [bin_200 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/19 [sum ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/20 [man ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UValidate/0 [html ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UValidate/1 [urls ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UValidate/2 [jpg ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UValidate/3 [jpg_200 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UValidate/4 [pdf ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UIOVec/0 [html ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UIOVec/1 [urls ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UIOVec/2 [jpg ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UIOVec/3 [jpg_200 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UIOVec/4 [pdf ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlatSink/0 [html ] 102k ± 0% 102k ± 0% ~ (all samples are equal) BM_UFlatSink/1 [urls ] 702k ± 0% 702k ± 0% ~ (all samples are equal) BM_UFlatSink/2 [jpg ] 123k ± 0% 123k ± 0% ~ (all samples are equal) BM_UFlatSink/3 [jpg_200 ] 201 ± 0% 201 ± 0% ~ (all samples are equal) BM_UFlatSink/4 [pdf ] 102k ± 0% 102k ± 0% ~ (all samples are equal) BM_UFlatSink/5 [html4 ] 410k ± 0% 410k ± 0% ~ (all samples are equal) BM_UFlatSink/6 [txt1 ] 152k ± 0% 152k ± 0% ~ (all samples are equal) BM_UFlatSink/7 [txt2 ] 125k ± 0% 125k ± 0% ~ (all samples are equal) BM_UFlatSink/8 [txt3 ] 427k ± 0% 427k ± 0% ~ (all samples are equal) BM_UFlatSink/9 [txt4 ] 482k ± 0% 482k ± 0% ~ (all samples are equal) BM_UFlatSink/10 [pb ] 119k ± 0% 119k ± 0% ~ (all samples are equal) BM_UFlatSink/11 [gaviota ] 184k ± 0% 184k ± 0% ~ (all samples are equal) BM_UFlatSink/12 [cp ] 24.6k ± 0% 24.6k ± 0% ~ (all samples are equal) BM_UFlatSink/13 [c ] 11.2k ± 0% 11.2k ± 0% ~ (all samples are equal) BM_UFlatSink/14 [lsp ] 3.72k ± 0% 3.72k ± 0% ~ (all samples are equal) BM_UFlatSink/15 [xls ] 1.03M ± 0% 1.03M ± 0% ~ (all samples are equal) BM_UFlatSink/16 [xls_200 ] 201 ± 0% 201 ± 0% ~ (all samples are equal) BM_UFlatSink/17 [bin ] 513k ± 0% 513k ± 0% ~ (all samples are equal) BM_UFlatSink/18 [bin_200 ] 201 ± 0% 201 ± 0% ~ (all samples are equal) BM_UFlatSink/19 [sum ] 38.2k ± 0% 38.2k ± 0% ~ (all samples are equal) BM_UFlatSink/20 [man ] 4.23k ± 0% 4.23k ± 0% ~ (all samples are equal) BM_ZFlat/0 [html (22.31 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/1 [urls (47.78 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/2 [jpg (99.95 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/3 [jpg_200 (73.00 %)] 30.7k ± 0% 30.7k ± 0% ~ (all samples are equal) BM_ZFlat/4 [pdf (83.30 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/5 [html4 (22.52 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/6 [txt1 (57.88 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/7 [txt2 (61.91 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/8 [txt3 (54.99 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/9 [txt4 (66.26 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/10 [pb (19.68 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/11 [gaviota (37.72 %)] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/12 [cp (48.12 %) ] 86.1k ± 0% 86.1k ± 0% ~ (all samples are equal) BM_ZFlat/13 [c (42.47 %) ] 57.0k ± 0% 57.0k ± 0% ~ (all samples are equal) BM_ZFlat/14 [lsp (48.37 %) ] 30.6k ± 0% 30.6k ± 0% ~ (all samples are equal) BM_ZFlat/15 [xls (41.23 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/16 [xls_200 (78.00 %)] 30.7k ± 0% 30.7k ± 0% ~ (all samples are equal) BM_ZFlat/17 [bin (18.11 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/18 [bin_200 (7.50 %) ] 30.7k ± 0% 30.7k ± 0% ~ (all samples are equal) BM_ZFlat/19 [sum (48.96 %) ] 116k ± 0% 116k ± 0% ~ (all samples are equal) BM_ZFlat/20 [man (59.21 %) ] 30.6k ± 0% 30.6k ± 0% ~ (all samples are equal) name old speed new speed delta BM_UFlat/0 [html ] 2.46GB/s ± 0% 2.45GB/s ± 1% ~ (p=0.841 n=5+5) BM_UFlat/1 [urls ] 1.19GB/s ± 1% 1.20GB/s ± 1% ~ (p=0.310 n=5+5) BM_UFlat/2 [jpg ] 17.3GB/s ± 1% 17.4GB/s ± 1% ~ (p=0.310 n=5+5) BM_UFlat/3 [jpg_200 ] 1.56GB/s ± 0% 1.56GB/s ± 0% ~ (p=0.190 n=4+5) BM_UFlat/4 [pdf ] 12.5GB/s ± 1% 12.5GB/s ± 0% ~ (p=0.548 n=5+5) BM_UFlat/5 [html4 ] 1.87GB/s ± 0% 1.87GB/s ± 1% ~ (p=1.000 n=5+5) BM_UFlat/6 [txt1 ] 791MB/s ± 1% 791MB/s ± 0% ~ (p=1.000 n=5+5) BM_UFlat/7 [txt2 ] 737MB/s ± 0% 738MB/s ± 0% ~ (p=0.841 n=5+5) BM_UFlat/8 [txt3 ] 839MB/s ± 0% 839MB/s ± 0% ~ (p=1.000 n=5+5) BM_UFlat/9 [txt4 ] 675MB/s ± 1% 674MB/s ± 0% ~ (p=0.730 n=5+4) BM_UFlat/10 [pb ] 3.08GB/s ± 1% 3.06GB/s ± 0% ~ (p=0.095 n=5+5) BM_UFlat/11 [gaviota ] 974MB/s ± 0% 976MB/s ± 0% ~ (p=0.238 n=5+5) BM_UFlat/12 [cp ] 1.70GB/s ± 0% 1.72GB/s ± 0% +1.07% (p=0.016 n=4+5) BM_UFlat/13 [c ] 1.53GB/s ± 0% 1.53GB/s ± 1% ~ (p=1.000 n=5+5) BM_UFlat/14 [lsp ] 1.62GB/s ± 1% 1.62GB/s ± 1% ~ (p=1.000 n=5+5) BM_UFlat/15 [xls ] 1.05GB/s ± 1% 1.05GB/s ± 0% ~ (p=0.556 n=5+4) BM_UFlat/16 [xls_200 ] 943MB/s ± 0% 940MB/s ± 0% ~ (p=0.151 n=5+5) BM_UFlat/17 [bin ] 1.86GB/s ± 1% 1.86GB/s ± 0% ~ (p=1.000 n=5+5) BM_UFlat/18 [bin_200 ] 1.99GB/s ± 0% 1.97GB/s ± 1% ~ (p=0.190 n=5+4) BM_UFlat/19 [sum ] 1.30GB/s ± 0% 1.30GB/s ± 1% ~ (p=0.151 n=5+5) BM_UFlat/20 [man ] 1.42GB/s ± 1% 1.42GB/s ± 0% ~ (p=1.000 n=5+5) BM_UValidate/0 [html ] 3.06GB/s ± 0% 3.06GB/s ± 1% ~ (p=1.000 n=5+5) BM_UValidate/1 [urls ] 1.59GB/s ± 0% 1.59GB/s ± 0% ~ (p=0.095 n=5+5) BM_UValidate/2 [jpg ] 845GB/s ± 0% 845GB/s ± 0% ~ (p=1.000 n=5+5) BM_UValidate/3 [jpg_200 ] 2.10GB/s ± 0% 2.10GB/s ± 0% ~ (p=0.310 n=5+5) BM_UValidate/4 [pdf ] 35.1GB/s ± 0% 35.1GB/s ± 1% ~ (p=0.690 n=5+5) BM_UIOVec/0 [html ] 843MB/s ± 0% 847MB/s ± 1% ~ (p=0.222 n=5+5) BM_UIOVec/1 [urls ] 652MB/s ± 1% 652MB/s ± 1% ~ (p=0.310 n=5+5) BM_UIOVec/2 [jpg ] 16.5GB/s ± 5% 16.0GB/s ±10% ~ (p=0.841 n=5+5) BM_UIOVec/3 [jpg_200 ] 606MB/s ± 1% 614MB/s ± 1% ~ (p=0.056 n=5+5) BM_UIOVec/4 [pdf ] 8.57GB/s ± 0% 8.57GB/s ± 0% ~ (p=0.343 n=4+4) BM_UFlatSink/0 [html ] 2.47GB/s ± 0% 2.45GB/s ± 0% -0.58% (p=0.016 n=5+5) BM_UFlatSink/1 [urls ] 1.19GB/s ± 0% 1.20GB/s ± 0% ~ (p=0.548 n=5+5) BM_UFlatSink/2 [jpg ] 16.4GB/s ±19% 16.9GB/s ± 4% ~ (p=0.690 n=5+5) BM_UFlatSink/3 [jpg_200 ] 1.50GB/s ± 2% 1.50GB/s ± 2% ~ (p=1.000 n=5+5) BM_UFlatSink/4 [pdf ] 12.5GB/s ± 0% 12.5GB/s ± 0% ~ (p=0.730 n=4+5) BM_UFlatSink/5 [html4 ] 1.87GB/s ± 1% 1.88GB/s ± 0% ~ (p=0.421 n=5+5) BM_UFlatSink/6 [txt1 ] 793MB/s ± 0% 792MB/s ± 1% ~ (p=0.690 n=5+5) BM_UFlatSink/7 [txt2 ] 736MB/s ± 0% 736MB/s ± 1% ~ (p=0.841 n=5+5) BM_UFlatSink/8 [txt3 ] 839MB/s ± 0% 839MB/s ± 0% ~ (p=0.548 n=5+5) BM_UFlatSink/9 [txt4 ] 675MB/s ± 0% 675MB/s ± 0% ~ (p=0.222 n=5+5) BM_UFlatSink/10 [pb ] 3.07GB/s ± 0% 3.09GB/s ± 0% +0.54% (p=0.016 n=5+5) BM_UFlatSink/11 [gaviota ] 973MB/s ± 0% 971MB/s ± 0% ~ (p=0.151 n=5+5) BM_UFlatSink/12 [cp ] 1.72GB/s ± 1% 1.71GB/s ± 1% ~ (p=0.421 n=5+5) BM_UFlatSink/13 [c ] 1.53GB/s ± 1% 1.52GB/s ± 0% ~ (p=0.841 n=5+5) BM_UFlatSink/14 [lsp ] 1.63GB/s ± 0% 1.62GB/s ± 1% ~ (p=0.222 n=5+5) BM_UFlatSink/15 [xls ] 1.06GB/s ± 0% 1.05GB/s ± 0% ~ (p=0.111 n=4+5) BM_UFlatSink/16 [xls_200 ] 932MB/s ± 1% 928MB/s ± 1% ~ (p=0.548 n=5+5) BM_UFlatSink/17 [bin ] 1.86GB/s ± 0% 1.86GB/s ± 1% ~ (p=1.000 n=5+5) BM_UFlatSink/18 [bin_200 ] 1.93GB/s ± 1% 1.94GB/s ± 1% ~ (p=0.730 n=5+4) BM_UFlatSink/19 [sum ] 1.30GB/s ± 0% 1.30GB/s ± 1% ~ (p=0.690 n=5+5) BM_UFlatSink/20 [man ] 1.41GB/s ± 1% 1.41GB/s ± 2% ~ (p=0.690 n=5+5) BM_ZFlat/0 [html (22.31 %) ] 815MB/s ± 1% 829MB/s ± 0% +1.78% (p=0.008 n=5+5) BM_ZFlat/1 [urls (47.78 %) ] 420MB/s ± 1% 432MB/s ± 1% +2.87% (p=0.008 n=5+5) BM_ZFlat/2 [jpg (99.95 %) ] 10.7GB/s ± 8% 10.9GB/s ± 6% ~ (p=0.421 n=5+5) BM_ZFlat/3 [jpg_200 (73.00 %)] 544MB/s ± 2% 590MB/s ± 1% +8.41% (p=0.008 n=5+5) BM_ZFlat/4 [pdf (83.30 %) ] 6.92GB/s ± 3% 7.16GB/s ± 1% +3.51% (p=0.008 n=5+5) BM_ZFlat/5 [html4 (22.52 %) ] 745MB/s ± 0% 755MB/s ± 0% +1.34% (p=0.008 n=5+5) BM_ZFlat/6 [txt1 (57.88 %) ] 282MB/s ± 0% 285MB/s ± 1% +1.04% (p=0.008 n=5+5) BM_ZFlat/7 [txt2 (61.91 %) ] 262MB/s ± 0% 265MB/s ± 0% +1.22% (p=0.008 n=5+5) BM_ZFlat/8 [txt3 (54.99 %) ] 297MB/s ± 0% 300MB/s ± 0% +1.09% (p=0.008 n=5+5) BM_ZFlat/9 [txt4 (66.26 %) ] 246MB/s ± 1% 248MB/s ± 0% +0.95% (p=0.008 n=5+5) BM_ZFlat/10 [pb (19.68 %) ] 1.08GB/s ± 1% 1.11GB/s ± 1% +2.57% (p=0.008 n=5+5) BM_ZFlat/11 [gaviota (37.72 %)] 449MB/s ± 1% 451MB/s ± 0% ~ (p=0.056 n=5+5) BM_ZFlat/12 [cp (48.12 %) ] 530MB/s ± 1% 552MB/s ± 0% +4.17% (p=0.008 n=5+5) BM_ZFlat/13 [c (42.47 %) ] 628MB/s ± 1% 640MB/s ± 0% +1.85% (p=0.008 n=5+5) BM_ZFlat/14 [lsp (48.37 %) ] 665MB/s ± 0% 697MB/s ± 1% +4.71% (p=0.008 n=5+5) BM_ZFlat/15 [xls (41.23 %) ] 635MB/s ± 0% 634MB/s ± 0% ~ (p=0.310 n=5+5) BM_ZFlat/16 [xls_200 (78.00 %)] 511MB/s ± 1% 522MB/s ± 2% +2.23% (p=0.008 n=5+5) BM_ZFlat/17 [bin (18.11 %) ] 1.01GB/s ± 1% 1.02GB/s ± 0% +1.67% (p=0.008 n=5+5) BM_ZFlat/18 [bin_200 (7.50 %) ] 2.41GB/s ± 3% 2.37GB/s ± 4% ~ (p=0.222 n=5+5) BM_ZFlat/19 [sum (48.96 %) ] 480MB/s ± 0% 490MB/s ± 1% +2.24% (p=0.008 n=5+5) BM_ZFlat/20 [man (59.21 %) ] 545MB/s ± 0% 569MB/s ± 1% +4.38% (p=0.008 n=5+5) |
|
costan | 3f194acb57 |
Convert DCHECK to assert.
A previous CL introduced a use of DCHECK. The open source build does not support DCHECK, and this project uses assert() instead of DCHECK. |
|
costan | 97a20b480f |
Reduce the LeftShiftOverflows() table size.
A previous CL introduced LeftShiftOverflows(), which takes a uint32 input. However, the value it operates on is guaranteed to only have 8 bits set. This CL takes advantage of this restriction to reduce the size of the static table used to compute LeftShiftOverflows(). The same methodology as the previous CL suggests a 0.6% improvement. The improvement is likely bigger on mobile CPUs that have much smaller caches. Benchmark results: name old time/op new time/op delta BM_UFlat/0 [html ] 42.5µs ± 1% 42.1µs ± 0% -0.87% (p=0.000 n=20+20) BM_UFlat/1 [urls ] 575µs ± 0% 574µs ± 0% -0.16% (p=0.000 n=20+19) BM_UFlat/2 [jpg ] 7.13µs ± 1% 7.20µs ± 5% ~ (p=0.422 n=16+19) BM_UFlat/3 [jpg_200 ] 129ns ± 0% 130ns ± 0% +0.82% (p=0.000 n=20+17) BM_UFlat/4 [pdf ] 8.22µs ± 1% 8.21µs ± 0% ~ (p=0.586 n=17+17) BM_UFlat/5 [html4 ] 222µs ± 0% 222µs ± 0% -0.11% (p=0.047 n=19+20) BM_UFlat/6 [txt1 ] 192µs ± 0% 191µs ± 0% -0.69% (p=0.000 n=20+20) BM_UFlat/7 [txt2 ] 169µs ± 0% 169µs ± 0% -0.28% (p=0.000 n=20+20) BM_UFlat/8 [txt3 ] 510µs ± 0% 507µs ± 0% -0.50% (p=0.000 n=20+20) BM_UFlat/9 [txt4 ] 707µs ± 0% 703µs ± 0% -0.53% (p=0.000 n=20+20) BM_UFlat/10 [pb ] 39.1µs ± 0% 38.5µs ± 0% -1.56% (p=0.000 n=20+20) BM_UFlat/11 [gaviota ] 189µs ± 0% 189µs ± 0% -0.42% (p=0.000 n=20+20) BM_UFlat/12 [cp ] 14.2µs ± 0% 14.2µs ± 1% -0.30% (p=0.001 n=18+19) BM_UFlat/13 [c ] 7.29µs ± 0% 7.34µs ± 1% +0.59% (p=0.000 n=19+20) BM_UFlat/14 [lsp ] 2.28µs ± 0% 2.29µs ± 1% +0.39% (p=0.000 n=19+18) BM_UFlat/15 [xls ] 905µs ± 0% 904µs ± 0% -0.12% (p=0.030 n=20+20) BM_UFlat/16 [xls_200 ] 213ns ± 2% 215ns ± 4% +0.92% (p=0.011 n=20+20) BM_UFlat/17 [bin ] 274µs ± 0% 275µs ± 0% +0.55% (p=0.000 n=20+20) BM_UFlat/18 [bin_200 ] 101ns ± 1% 101ns ± 1% ~ (p=0.913 n=18+18) BM_UFlat/19 [sum ] 27.9µs ± 1% 27.5µs ± 1% -1.38% (p=0.000 n=20+20) BM_UFlat/20 [man ] 2.97µs ± 1% 2.97µs ± 1% ~ (p=0.835 n=20+19) BM_UValidate/0 [html ] 33.5µs ± 0% 34.2µs ± 0% +2.32% (p=0.000 n=20+20) BM_UValidate/1 [urls ] 441µs ± 0% 442µs ± 0% +0.15% (p=0.010 n=20+20) BM_UValidate/2 [jpg ] 144ns ± 0% 146ns ± 0% +1.32% (p=0.000 n=20+20) BM_UValidate/3 [jpg_200 ] 95.3ns ± 0% 96.0ns ± 0% +0.68% (p=0.000 n=20+20) BM_UValidate/4 [pdf ] 2.86µs ± 0% 2.88µs ± 1% +0.67% (p=0.000 n=19+19) BM_UIOVec/0 [html ] 122µs ± 0% 122µs ± 0% -0.25% (p=0.000 n=20+20) BM_UIOVec/1 [urls ] 1.08ms ± 0% 1.08ms ± 0% ~ (p=0.068 n=20+20) BM_UIOVec/2 [jpg ] 7.63µs ± 7% 7.76µs ±11% ~ (p=0.396 n=19+20) BM_UIOVec/3 [jpg_200 ] 325ns ± 0% 326ns ± 0% +0.27% (p=0.000 n=20+18) BM_UIOVec/4 [pdf ] 12.1µs ± 2% 12.1µs ± 3% ~ (p=0.967 n=19+20) BM_UFlatSink/0 [html ] 42.4µs ± 0% 42.1µs ± 0% -0.89% (p=0.000 n=20+20) BM_UFlatSink/1 [urls ] 575µs ± 0% 575µs ± 0% ~ (p=0.883 n=20+20) BM_UFlatSink/2 [jpg ] 7.58µs ±16% 7.52µs ±15% ~ (p=0.945 n=19+20) BM_UFlatSink/3 [jpg_200 ] 133ns ± 4% 133ns ± 4% ~ (p=0.627 n=19+20) BM_UFlatSink/4 [pdf ] 8.29µs ± 4% 8.39µs ± 4% +1.14% (p=0.013 n=19+18) BM_UFlatSink/5 [html4 ] 223µs ± 0% 222µs ± 0% -0.18% (p=0.001 n=20+20) BM_UFlatSink/6 [txt1 ] 192µs ± 0% 191µs ± 0% -0.71% (p=0.000 n=20+20) BM_UFlatSink/7 [txt2 ] 169µs ± 0% 169µs ± 0% -0.26% (p=0.000 n=20+20) BM_UFlatSink/8 [txt3 ] 510µs ± 0% 508µs ± 0% -0.50% (p=0.000 n=20+20) BM_UFlatSink/9 [txt4 ] 707µs ± 0% 704µs ± 0% -0.44% (p=0.000 n=20+20) BM_UFlatSink/10 [pb ] 39.1µs ± 0% 38.5µs ± 1% -1.62% (p=0.000 n=19+20) BM_UFlatSink/11 [gaviota ] 189µs ± 0% 189µs ± 0% -0.39% (p=0.000 n=20+20) BM_UFlatSink/12 [cp ] 14.2µs ± 0% 14.2µs ± 1% ~ (p=0.435 n=19+19) BM_UFlatSink/13 [c ] 7.29µs ± 0% 7.33µs ± 1% +0.57% (p=0.000 n=19+20) BM_UFlatSink/14 [lsp ] 2.29µs ± 0% 2.29µs ± 1% ~ (p=0.791 n=18+18) BM_UFlatSink/15 [xls ] 903µs ± 0% 902µs ± 0% -0.11% (p=0.044 n=20+19) BM_UFlatSink/16 [xls_200 ] 215ns ± 1% 215ns ± 1% ~ (p=0.885 n=19+19) BM_UFlatSink/17 [bin ] 274µs ± 0% 275µs ± 0% +0.51% (p=0.000 n=20+20) BM_UFlatSink/18 [bin_200 ] 103ns ± 2% 103ns ± 0% -0.41% (p=0.016 n=20+15) BM_UFlatSink/19 [sum ] 27.9µs ± 1% 27.5µs ± 1% -1.34% (p=0.000 n=20+19) BM_UFlatSink/20 [man ] 2.98µs ± 1% 2.97µs ± 1% ~ (p=0.358 n=18+19) BM_ZFlat/0 [html (22.31 %) ] 126µs ± 0% 126µs ± 0% +0.14% (p=0.011 n=20+20) BM_ZFlat/1 [urls (47.78 %) ] 1.67ms ± 0% 1.67ms ± 0% +0.11% (p=0.043 n=20+20) BM_ZFlat/2 [jpg (99.95 %) ] 11.5µs ± 6% 11.7µs ± 7% ~ (p=0.142 n=20+20) BM_ZFlat/3 [jpg_200 (73.00 %)] 349ns ± 3% 351ns ± 3% ~ (p=0.573 n=18+20) BM_ZFlat/4 [pdf (83.30 %) ] 14.6µs ± 2% 14.7µs ± 4% ~ (p=0.879 n=19+20) BM_ZFlat/5 [html4 (22.52 %) ] 553µs ± 0% 552µs ± 0% -0.23% (p=0.000 n=20+20) BM_ZFlat/6 [txt1 (57.88 %) ] 540µs ± 0% 540µs ± 0% ~ (p=0.221 n=20+20) BM_ZFlat/7 [txt2 (61.91 %) ] 479µs ± 0% 481µs ± 1% +0.47% (p=0.000 n=20+20) BM_ZFlat/8 [txt3 (54.99 %) ] 1.44ms ± 0% 1.44ms ± 0% +0.13% (p=0.040 n=20+20) BM_ZFlat/9 [txt4 (66.26 %) ] 1.97ms ± 0% 1.97ms ± 0% +0.16% (p=0.009 n=20+20) BM_ZFlat/10 [pb (19.68 %) ] 110µs ± 1% 109µs ± 1% -0.79% (p=0.000 n=20+20) BM_ZFlat/11 [gaviota (37.72 %)] 410µs ± 0% 410µs ± 0% ~ (p=0.149 n=20+19) BM_ZFlat/12 [cp (48.12 %) ] 45.4µs ± 1% 44.9µs ± 1% -1.23% (p=0.000 n=20+20) BM_ZFlat/13 [c (42.47 %) ] 17.5µs ± 0% 17.5µs ± 1% ~ (p=0.883 n=20+20) BM_ZFlat/14 [lsp (48.37 %) ] 5.51µs ± 1% 5.46µs ± 1% -0.95% (p=0.000 n=20+18) BM_ZFlat/15 [xls (41.23 %) ] 1.61ms ± 0% 1.62ms ± 0% ~ (p=0.183 n=20+20) BM_ZFlat/16 [xls_200 (78.00 %)] 389ns ± 2% 391ns ± 3% ~ (p=0.740 n=18+20) BM_ZFlat/17 [bin (18.11 %) ] 508µs ± 0% 508µs ± 0% ~ (p=0.779 n=20+20) BM_ZFlat/18 [bin_200 (7.50 %) ] 87.4ns ± 5% 88.1ns ± 8% ~ (p=0.367 n=16+19) BM_ZFlat/19 [sum (48.96 %) ] 79.1µs ± 0% 80.2µs ± 0% +1.39% (p=0.000 n=20+20) BM_ZFlat/20 [man (59.21 %) ] 7.55µs ± 1% 7.57µs ± 1% +0.31% (p=0.025 n=19+19) name old speed new speed delta BM_UFlat/0 [html ] 2.42GB/s ± 0% 2.44GB/s ± 0% +0.77% (p=0.000 n=19+19) BM_UFlat/1 [urls ] 1.22GB/s ± 0% 1.23GB/s ± 0% +0.06% (p=0.000 n=20+19) BM_UFlat/2 [jpg ] 17.3GB/s ± 2% 17.2GB/s ± 4% ~ (p=0.433 n=17+19) BM_UFlat/3 [jpg_200 ] 1.56GB/s ± 0% 1.54GB/s ± 0% -0.82% (p=0.000 n=20+20) BM_UFlat/4 [pdf ] 12.5GB/s ± 1% 12.5GB/s ± 1% ~ (p=0.322 n=17+17) BM_UFlat/5 [html4 ] 1.85GB/s ± 0% 1.85GB/s ± 0% +0.16% (p=0.000 n=20+20) BM_UFlat/6 [txt1 ] 794MB/s ± 0% 800MB/s ± 0% +0.68% (p=0.000 n=18+20) BM_UFlat/7 [txt2 ] 741MB/s ± 0% 743MB/s ± 0% +0.30% (p=0.000 n=19+19) BM_UFlat/8 [txt3 ] 840MB/s ± 0% 844MB/s ± 0% +0.53% (p=0.000 n=18+20) BM_UFlat/9 [txt4 ] 684MB/s ± 0% 688MB/s ± 0% +0.57% (p=0.000 n=20+17) BM_UFlat/10 [pb ] 3.04GB/s ± 0% 3.09GB/s ± 0% +1.60% (p=0.000 n=19+20) BM_UFlat/11 [gaviota ] 977MB/s ± 0% 981MB/s ± 0% +0.45% (p=0.000 n=19+19) BM_UFlat/12 [cp ] 1.74GB/s ± 0% 1.74GB/s ± 0% +0.29% (p=0.000 n=20+19) BM_UFlat/13 [c ] 1.53GB/s ± 0% 1.52GB/s ± 1% -0.56% (p=0.000 n=19+20) BM_UFlat/14 [lsp ] 1.64GB/s ± 0% 1.63GB/s ± 1% -0.38% (p=0.000 n=19+20) BM_UFlat/15 [xls ] 1.14GB/s ± 0% 1.14GB/s ± 0% +0.11% (p=0.000 n=19+20) BM_UFlat/16 [xls_200 ] 941MB/s ± 1% 931MB/s ± 4% -1.02% (p=0.001 n=19+20) BM_UFlat/17 [bin ] 1.88GB/s ± 0% 1.87GB/s ± 0% -0.51% (p=0.000 n=20+20) BM_UFlat/18 [bin_200 ] 1.98GB/s ± 0% 1.98GB/s ± 1% ~ (p=0.767 n=18+18) BM_UFlat/19 [sum ] 1.37GB/s ± 0% 1.39GB/s ± 0% +1.46% (p=0.000 n=20+20) BM_UFlat/20 [man ] 1.43GB/s ± 0% 1.43GB/s ± 0% ~ (p=0.501 n=18+18) BM_UValidate/0 [html ] 3.07GB/s ± 0% 3.00GB/s ± 0% -2.25% (p=0.000 n=20+20) BM_UValidate/1 [urls ] 1.60GB/s ± 0% 1.59GB/s ± 0% -0.11% (p=0.000 n=18+19) BM_UValidate/2 [jpg ] 859GB/s ± 0% 848GB/s ± 0% -1.29% (p=0.000 n=20+19) BM_UValidate/3 [jpg_200 ] 2.10GB/s ± 0% 2.09GB/s ± 0% -0.68% (p=0.000 n=19+20) BM_UValidate/4 [pdf ] 35.9GB/s ± 0% 35.6GB/s ± 1% -0.71% (p=0.000 n=20+20) BM_UIOVec/0 [html ] 843MB/s ± 0% 844MB/s ± 0% +0.21% (p=0.000 n=20+20) BM_UIOVec/1 [urls ] 651MB/s ± 0% 650MB/s ± 0% -0.10% (p=0.000 n=20+20) BM_UIOVec/2 [jpg ] 16.2GB/s ± 6% 16.0GB/s ±10% ~ (p=0.380 n=19+20) BM_UIOVec/3 [jpg_200 ] 617MB/s ± 0% 615MB/s ± 0% -0.24% (p=0.000 n=20+17) BM_UIOVec/4 [pdf ] 8.52GB/s ± 3% 8.50GB/s ± 3% ~ (p=0.771 n=19+20) BM_UFlatSink/0 [html ] 2.42GB/s ± 0% 2.44GB/s ± 0% +0.93% (p=0.000 n=20+20) BM_UFlatSink/1 [urls ] 1.23GB/s ± 0% 1.23GB/s ± 0% +0.04% (p=0.006 n=20+20) BM_UFlatSink/2 [jpg ] 16.4GB/s ±14% 16.5GB/s ±13% ~ (p=0.879 n=19+20) BM_UFlatSink/3 [jpg_200 ] 1.51GB/s ± 4% 1.51GB/s ± 4% ~ (p=0.874 n=18+20) BM_UFlatSink/4 [pdf ] 12.4GB/s ± 4% 12.3GB/s ± 4% -1.11% (p=0.016 n=19+18) BM_UFlatSink/5 [html4 ] 1.85GB/s ± 0% 1.85GB/s ± 0% +0.20% (p=0.000 n=20+20) BM_UFlatSink/6 [txt1 ] 794MB/s ± 0% 799MB/s ± 0% +0.72% (p=0.000 n=19+20) BM_UFlatSink/7 [txt2 ] 741MB/s ± 0% 743MB/s ± 0% +0.30% (p=0.000 n=18+20) BM_UFlatSink/8 [txt3 ] 839MB/s ± 0% 843MB/s ± 0% +0.52% (p=0.000 n=20+18) BM_UFlatSink/9 [txt4 ] 684MB/s ± 0% 687MB/s ± 0% +0.46% (p=0.000 n=20+20) BM_UFlatSink/10 [pb ] 3.04GB/s ± 0% 3.09GB/s ± 0% +1.71% (p=0.000 n=20+19) BM_UFlatSink/11 [gaviota ] 976MB/s ± 0% 980MB/s ± 0% +0.45% (p=0.000 n=20+20) BM_UFlatSink/12 [cp ] 1.74GB/s ± 1% 1.74GB/s ± 1% ~ (p=0.904 n=20+20) BM_UFlatSink/13 [c ] 1.53GB/s ± 0% 1.53GB/s ± 1% -0.50% (p=0.000 n=19+20) BM_UFlatSink/14 [lsp ] 1.63GB/s ± 1% 1.63GB/s ± 1% ~ (p=0.358 n=19+18) BM_UFlatSink/15 [xls ] 1.14GB/s ± 0% 1.15GB/s ± 0% +0.12% (p=0.000 n=20+20) BM_UFlatSink/16 [xls_200 ] 931MB/s ± 1% 931MB/s ± 1% ~ (p=0.686 n=19+19) BM_UFlatSink/17 [bin ] 1.88GB/s ± 0% 1.87GB/s ± 0% -0.53% (p=0.000 n=20+20) BM_UFlatSink/18 [bin_200 ] 1.94GB/s ± 2% 1.95GB/s ± 1% +0.42% (p=0.014 n=20+15) BM_UFlatSink/19 [sum ] 1.37GB/s ± 0% 1.39GB/s ± 0% +1.38% (p=0.000 n=19+18) BM_UFlatSink/20 [man ] 1.42GB/s ± 1% 1.43GB/s ± 0% ~ (p=0.284 n=18+19) BM_ZFlat/0 [html (22.31 %) ] 815MB/s ± 0% 814MB/s ± 0% -0.15% (p=0.000 n=20+20) BM_ZFlat/1 [urls (47.78 %) ] 423MB/s ± 0% 422MB/s ± 0% -0.14% (p=0.000 n=20+20) BM_ZFlat/2 [jpg (99.95 %) ] 10.8GB/s ± 5% 10.6GB/s ± 7% ~ (p=0.142 n=20+20) BM_ZFlat/3 [jpg_200 (73.00 %)] 574MB/s ± 2% 572MB/s ± 2% ~ (p=0.613 n=18+20) BM_ZFlat/4 [pdf (83.30 %) ] 7.01GB/s ± 2% 7.01GB/s ± 4% ~ (p=0.593 n=18+20) BM_ZFlat/5 [html4 (22.52 %) ] 743MB/s ± 0% 745MB/s ± 0% +0.25% (p=0.000 n=20+19) BM_ZFlat/6 [txt1 (57.88 %) ] 283MB/s ± 0% 282MB/s ± 0% ~ (p=0.261 n=18+19) BM_ZFlat/7 [txt2 (61.91 %) ] 262MB/s ± 0% 261MB/s ± 0% -0.35% (p=0.000 n=20+19) BM_ZFlat/8 [txt3 (54.99 %) ] 298MB/s ± 0% 297MB/s ± 0% -0.11% (p=0.000 n=20+19) BM_ZFlat/9 [txt4 (66.26 %) ] 245MB/s ± 0% 245MB/s ± 0% -0.13% (p=0.000 n=19+20) BM_ZFlat/10 [pb (19.68 %) ] 1.08GB/s ± 0% 1.09GB/s ± 0% +0.82% (p=0.000 n=18+19) BM_ZFlat/11 [gaviota (37.72 %)] 451MB/s ± 0% 451MB/s ± 0% -0.05% (p=0.004 n=19+20) BM_ZFlat/12 [cp (48.12 %) ] 543MB/s ± 1% 550MB/s ± 1% +1.24% (p=0.000 n=20+20) BM_ZFlat/13 [c (42.47 %) ] 638MB/s ± 0% 637MB/s ± 0% ~ (p=0.708 n=19+19) BM_ZFlat/14 [lsp (48.37 %) ] 678MB/s ± 2% 684MB/s ± 1% +0.89% (p=0.000 n=20+19) BM_ZFlat/15 [xls (41.23 %) ] 640MB/s ± 0% 640MB/s ± 0% -0.10% (p=0.000 n=19+19) BM_ZFlat/16 [xls_200 (78.00 %)] 515MB/s ± 2% 514MB/s ± 3% ~ (p=0.916 n=18+19) BM_ZFlat/17 [bin (18.11 %) ] 1.01GB/s ± 0% 1.01GB/s ± 0% +0.03% (p=0.033 n=20+20) BM_ZFlat/18 [bin_200 (7.50 %) ] 2.30GB/s ± 6% 2.28GB/s ± 9% ~ (p=0.502 n=16+19) BM_ZFlat/19 [sum (48.96 %) ] 485MB/s ± 0% 478MB/s ± 0% -1.39% (p=0.000 n=19+20) BM_ZFlat/20 [man (59.21 %) ] 562MB/s ± 1% 560MB/s ± 1% -0.37% (p=0.016 n=18+19) |
|
costan | 4f0adca400 |
Wrap BMI2 instruction usage in support checks.
A previous version of this was submitted and rolled back due to breakage -- an attempt to accommodate Visual Studio resulted in compiler errors on GCC/Clang with -mavx2 but without -mbmi2. This version makes the BMI2 support check more strict, to avoid the errors. A previous CL introduced _bzhi_u32 (part of Intel's BMI2 instruction set, released in Haswell) gated by a check for the __BMI2__ preprocessor macro. This works for Clang and GCC, but does not work on Visual Studio, and may not work on other compilers. This CL plumbs the BMI2 support checks through the CMake configuration used by the open source build. It also replaces the <x86intrin.h> header, which does not exist on Visual Studio, with the more scoped headers <tmmintrin.h> (for SSSE3) and <immintrin.h> (for BMI2/AVX2). Asides from fixing the open source build, the more scoped headers make it slightly less likely that newer intrinsics will creep in without proper gating. |
|
nafi | 46768e335d |
Optimize decompression by about 0.82%.
Assembly difference: https://godbolt.org/z/cvlH9b name old time/op new time/op delta BM_UFlat/0 [html ] 42.3µs ± 0% 42.5µs ± 0% +0.57% (p=0.008 n=5+5) BM_UFlat/1 [urls ] 590µs ± 0% 575µs ± 0% -2.60% (p=0.008 n=5+5) BM_UFlat/2 [jpg ] 7.16µs ± 1% 7.15µs ± 1% ~ (p=0.841 n=5+5) BM_UFlat/3 [jpg_200 ] 131ns ± 0% 129ns ± 0% -1.41% (p=0.008 n=5+5) BM_UFlat/4 [pdf ] 8.21µs ± 0% 8.22µs ± 1% ~ (p=0.690 n=5+5) BM_UFlat/5 [html4 ] 222µs ± 0% 223µs ± 0% ~ (p=0.841 n=5+5) BM_UFlat/6 [txt1 ] 193µs ± 0% 192µs ± 0% ~ (p=0.095 n=5+5) BM_UFlat/7 [txt2 ] 171µs ± 0% 169µs ± 0% -0.83% (p=0.008 n=5+5) BM_UFlat/8 [txt3 ] 511µs ± 0% 510µs ± 0% ~ (p=0.841 n=5+5) BM_UFlat/9 [txt4 ] 717µs ± 0% 707µs ± 0% -1.42% (p=0.008 n=5+5) BM_UFlat/10 [pb ] 38.8µs ± 0% 39.3µs ± 0% +1.26% (p=0.008 n=5+5) BM_UFlat/11 [gaviota ] 190µs ± 0% 189µs ± 0% -0.43% (p=0.032 n=5+5) BM_UFlat/12 [cp ] 14.3µs ± 0% 14.2µs ± 0% -0.92% (p=0.008 n=5+5) BM_UFlat/13 [c ] 7.35µs ± 1% 7.30µs ± 0% -0.66% (p=0.032 n=5+5) BM_UFlat/14 [lsp ] 2.30µs ± 1% 2.28µs ± 0% ~ (p=0.056 n=5+5) BM_UFlat/15 [xls ] 983µs ± 0% 904µs ± 0% -7.99% (p=0.008 n=5+5) BM_UFlat/16 [xls_200 ] 213ns ± 0% 213ns ± 1% ~ (p=0.690 n=5+5) BM_UFlat/17 [bin ] 278µs ± 0% 274µs ± 0% -1.56% (p=0.008 n=5+5) BM_UFlat/18 [bin_200 ] 101ns ± 0% 101ns ± 1% ~ (p=1.000 n=5+5) BM_UFlat/19 [sum ] 29.4µs ± 1% 28.0µs ± 1% -4.98% (p=0.008 n=5+5) BM_UFlat/20 [man ] 2.97µs ± 0% 2.97µs ± 0% ~ (p=0.421 n=5+5) BM_UValidate/0 [html ] 33.6µs ± 0% 33.6µs ± 0% ~ (p=0.548 n=5+5) BM_UValidate/1 [urls ] 443µs ± 0% 441µs ± 0% -0.43% (p=0.016 n=4+5) BM_UValidate/2 [jpg ] 146ns ± 0% 144ns ± 0% -1.63% (p=0.008 n=5+5) BM_UValidate/3 [jpg_200 ] 98.6ns ± 0% 95.3ns ± 0% -3.32% (p=0.008 n=5+5) BM_UValidate/4 [pdf ] 2.89µs ± 1% 2.85µs ± 0% -1.22% (p=0.008 n=5+5) BM_UIOVec/0 [html ] 122µs ± 0% 122µs ± 0% ~ (p=1.000 n=5+5) BM_UIOVec/1 [urls ] 1.08ms ± 0% 1.08ms ± 0% ~ (p=0.095 n=5+5) BM_UIOVec/2 [jpg ] 7.51µs ± 4% 7.69µs ± 6% ~ (p=0.421 n=5+5) BM_UIOVec/3 [jpg_200 ] 327ns ± 0% 327ns ± 1% ~ (p=0.730 n=4+5) BM_UIOVec/4 [pdf ] 12.0µs ± 1% 12.0µs ± 0% ~ (p=0.286 n=5+4) BM_UFlatSink/0 [html ] 42.3µs ± 0% 42.5µs ± 0% +0.46% (p=0.008 n=5+5) BM_UFlatSink/1 [urls ] 589µs ± 0% 575µs ± 0% -2.36% (p=0.008 n=5+5) BM_UFlatSink/2 [jpg ] 7.40µs ± 8% 7.74µs ± 9% ~ (p=0.310 n=5+5) BM_UFlatSink/3 [jpg_200 ] 134ns ± 0% 131ns ± 0% -1.78% (p=0.008 n=5+5) BM_UFlatSink/4 [pdf ] 8.28µs ± 3% 8.35µs ± 6% ~ (p=0.548 n=5+5) BM_UFlatSink/5 [html4 ] 222µs ± 0% 222µs ± 0% ~ (p=0.690 n=5+5) BM_UFlatSink/6 [txt1 ] 193µs ± 0% 192µs ± 0% ~ (p=0.222 n=5+5) BM_UFlatSink/7 [txt2 ] 171µs ± 0% 169µs ± 0% -0.91% (p=0.008 n=5+5) BM_UFlatSink/8 [txt3 ] 512µs ± 0% 510µs ± 0% -0.28% (p=0.032 n=5+5) BM_UFlatSink/9 [txt4 ] 717µs ± 0% 707µs ± 0% -1.32% (p=0.008 n=5+5) BM_UFlatSink/10 [pb ] 38.7µs ± 0% 39.2µs ± 0% +1.29% (p=0.008 n=5+5) BM_UFlatSink/11 [gaviota ] 190µs ± 0% 189µs ± 0% -0.47% (p=0.008 n=5+5) BM_UFlatSink/12 [cp ] 14.3µs ± 0% 14.2µs ± 0% -0.65% (p=0.008 n=5+5) BM_UFlatSink/13 [c ] 7.36µs ± 1% 7.29µs ± 0% -0.92% (p=0.008 n=5+5) BM_UFlatSink/14 [lsp ] 2.30µs ± 1% 2.29µs ± 0% ~ (p=0.841 n=5+5) BM_UFlatSink/15 [xls ] 980µs ± 0% 903µs ± 0% -7.92% (p=0.008 n=5+5) BM_UFlatSink/16 [xls_200 ] 217ns ± 0% 215ns ± 0% -0.94% (p=0.008 n=5+5) BM_UFlatSink/17 [bin ] 278µs ± 0% 273µs ± 0% -1.56% (p=0.008 n=5+5) BM_UFlatSink/18 [bin_200 ] 107ns ± 5% 104ns ± 0% ~ (p=0.056 n=5+5) BM_UFlatSink/19 [sum ] 29.5µs ± 0% 27.9µs ± 0% -5.32% (p=0.008 n=5+5) BM_UFlatSink/20 [man ] 3.01µs ± 0% 3.00µs ± 1% ~ (p=0.310 n=5+5) BM_ZFlat/0 [html (22.31 %) ] 127µs ± 0% 126µs ± 0% -0.46% (p=0.008 n=5+5) BM_ZFlat/1 [urls (47.78 %) ] 1.67ms ± 0% 1.67ms ± 0% ~ (p=0.548 n=5+5) BM_ZFlat/2 [jpg (99.95 %) ] 11.5µs ± 3% 11.6µs ± 6% ~ (p=0.841 n=5+5) BM_ZFlat/3 [jpg_200 (73.00 %)] 350ns ± 2% 347ns ± 0% ~ (p=0.905 n=5+4) BM_ZFlat/4 [pdf (83.30 %) ] 14.6µs ± 4% 14.6µs ± 1% ~ (p=0.421 n=5+5) BM_ZFlat/5 [html4 (22.52 %) ] 553µs ± 0% 553µs ± 0% ~ (p=0.690 n=5+5) BM_ZFlat/6 [txt1 (57.88 %) ] 540µs ± 0% 540µs ± 0% ~ (p=1.000 n=5+5) BM_ZFlat/7 [txt2 (61.91 %) ] 481µs ± 0% 479µs ± 0% -0.54% (p=0.008 n=5+5) BM_ZFlat/8 [txt3 (54.99 %) ] 1.44ms ± 0% 1.44ms ± 0% ~ (p=0.222 n=5+5) BM_ZFlat/9 [txt4 (66.26 %) ] 1.97ms ± 0% 1.97ms ± 0% ~ (p=0.222 n=5+5) BM_ZFlat/10 [pb (19.68 %) ] 110µs ± 0% 110µs ± 0% ~ (p=0.841 n=5+5) BM_ZFlat/11 [gaviota (37.72 %)] 411µs ± 0% 410µs ± 0% ~ (p=0.222 n=5+5) BM_ZFlat/12 [cp (48.12 %) ] 46.1µs ± 1% 45.8µs ± 0% ~ (p=0.056 n=5+5) BM_ZFlat/13 [c (42.47 %) ] 17.6µs ± 0% 17.6µs ± 1% ~ (p=0.310 n=5+5) BM_ZFlat/14 [lsp (48.37 %) ] 5.46µs ± 1% 5.49µs ± 0% ~ (p=0.222 n=5+5) BM_ZFlat/15 [xls (41.23 %) ] 1.62ms ± 0% 1.61ms ± 0% ~ (p=0.190 n=4+5) BM_ZFlat/16 [xls_200 (78.00 %)] 392ns ± 2% 385ns ± 1% ~ (p=0.200 n=4+4) BM_ZFlat/17 [bin (18.11 %) ] 509µs ± 0% 508µs ± 0% -0.26% (p=0.008 n=5+5) BM_ZFlat/18 [bin_200 (7.50 %) ] 90.2ns ±15% 80.8ns ± 0% -10.39% (p=0.016 n=5+4) BM_ZFlat/19 [sum (48.96 %) ] 81.1µs ± 0% 79.1µs ± 1% -2.37% (p=0.008 n=5+5) BM_ZFlat/20 [man (59.21 %) ] 7.61µs ± 1% 7.57µs ± 1% ~ (p=0.421 n=5+5) name old allocs/op new allocs/op delta BM_UFlat/0 [html ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/1 [urls ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/2 [jpg ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/3 [jpg_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/4 [pdf ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/5 [html4 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/6 [txt1 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/7 [txt2 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/8 [txt3 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/9 [txt4 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/10 [pb ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/11 [gaviota ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/12 [cp ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/13 [c ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/14 [lsp ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/15 [xls ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/16 [xls_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/17 [bin ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/18 [bin_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/19 [sum ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/20 [man ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UValidate/0 [html ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UValidate/1 [urls ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UValidate/2 [jpg ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UValidate/3 [jpg_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UValidate/4 [pdf ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UIOVec/0 [html ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UIOVec/1 [urls ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UIOVec/2 [jpg ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UIOVec/3 [jpg_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UIOVec/4 [pdf ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/0 [html ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/1 [urls ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/2 [jpg ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/3 [jpg_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/4 [pdf ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/5 [html4 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/6 [txt1 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/7 [txt2 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/8 [txt3 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/9 [txt4 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/10 [pb ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/11 [gaviota ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/12 [cp ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/13 [c ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/14 [lsp ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/15 [xls ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/16 [xls_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/17 [bin ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/18 [bin_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/19 [sum ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/20 [man ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_ZFlat/0 [html (22.31 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/1 [urls (47.78 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/2 [jpg (99.95 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/3 [jpg_200 (73.00 %)] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/4 [pdf (83.30 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/5 [html4 (22.52 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/6 [txt1 (57.88 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/7 [txt2 (61.91 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/8 [txt3 (54.99 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/9 [txt4 (66.26 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/10 [pb (19.68 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/11 [gaviota (37.72 %)] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/12 [cp (48.12 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/13 [c (42.47 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/14 [lsp (48.37 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/15 [xls (41.23 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/16 [xls_200 (78.00 %)] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/17 [bin (18.11 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/18 [bin_200 (7.50 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/19 [sum (48.96 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/20 [man (59.21 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) name old peak-mem(Bytes)/op new peak-mem(Bytes)/op delta BM_UFlat/0 [html ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/1 [urls ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/2 [jpg ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/3 [jpg_200 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/4 [pdf ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/5 [html4 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/6 [txt1 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/7 [txt2 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/8 [txt3 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/9 [txt4 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/10 [pb ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/11 [gaviota ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/12 [cp ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/13 [c ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/14 [lsp ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/15 [xls ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/16 [xls_200 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/17 [bin ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/18 [bin_200 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/19 [sum ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/20 [man ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UValidate/0 [html ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UValidate/1 [urls ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UValidate/2 [jpg ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UValidate/3 [jpg_200 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UValidate/4 [pdf ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UIOVec/0 [html ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UIOVec/1 [urls ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UIOVec/2 [jpg ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UIOVec/3 [jpg_200 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UIOVec/4 [pdf ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlatSink/0 [html ] 102k ± 0% 102k ± 0% ~ (all samples are equal) BM_UFlatSink/1 [urls ] 702k ± 0% 702k ± 0% ~ (all samples are equal) BM_UFlatSink/2 [jpg ] 123k ± 0% 123k ± 0% ~ (all samples are equal) BM_UFlatSink/3 [jpg_200 ] 201 ± 0% 201 ± 0% ~ (all samples are equal) BM_UFlatSink/4 [pdf ] 102k ± 0% 102k ± 0% ~ (all samples are equal) BM_UFlatSink/5 [html4 ] 410k ± 0% 410k ± 0% ~ (all samples are equal) BM_UFlatSink/6 [txt1 ] 152k ± 0% 152k ± 0% ~ (all samples are equal) BM_UFlatSink/7 [txt2 ] 125k ± 0% 125k ± 0% ~ (all samples are equal) BM_UFlatSink/8 [txt3 ] 427k ± 0% 427k ± 0% ~ (all samples are equal) BM_UFlatSink/9 [txt4 ] 482k ± 0% 482k ± 0% ~ (all samples are equal) BM_UFlatSink/10 [pb ] 119k ± 0% 119k ± 0% ~ (all samples are equal) BM_UFlatSink/11 [gaviota ] 184k ± 0% 184k ± 0% ~ (all samples are equal) BM_UFlatSink/12 [cp ] 24.6k ± 0% 24.6k ± 0% ~ (all samples are equal) BM_UFlatSink/13 [c ] 11.2k ± 0% 11.2k ± 0% ~ (all samples are equal) BM_UFlatSink/14 [lsp ] 3.72k ± 0% 3.72k ± 0% ~ (all samples are equal) BM_UFlatSink/15 [xls ] 1.03M ± 0% 1.03M ± 0% ~ (all samples are equal) BM_UFlatSink/16 [xls_200 ] 201 ± 0% 201 ± 0% ~ (all samples are equal) BM_UFlatSink/17 [bin ] 513k ± 0% 513k ± 0% ~ (all samples are equal) BM_UFlatSink/18 [bin_200 ] 201 ± 0% 201 ± 0% ~ (all samples are equal) BM_UFlatSink/19 [sum ] 38.2k ± 0% 38.2k ± 0% ~ (all samples are equal) BM_UFlatSink/20 [man ] 4.23k ± 0% 4.23k ± 0% ~ (all samples are equal) BM_ZFlat/0 [html (22.31 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/1 [urls (47.78 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/2 [jpg (99.95 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/3 [jpg_200 (73.00 %)] 30.7k ± 0% 30.7k ± 0% ~ (all samples are equal) BM_ZFlat/4 [pdf (83.30 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/5 [html4 (22.52 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/6 [txt1 (57.88 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/7 [txt2 (61.91 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/8 [txt3 (54.99 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/9 [txt4 (66.26 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/10 [pb (19.68 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/11 [gaviota (37.72 %)] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/12 [cp (48.12 %) ] 86.1k ± 0% 86.1k ± 0% ~ (all samples are equal) BM_ZFlat/13 [c (42.47 %) ] 57.0k ± 0% 57.0k ± 0% ~ (all samples are equal) BM_ZFlat/14 [lsp (48.37 %) ] 30.6k ± 0% 30.6k ± 0% ~ (all samples are equal) BM_ZFlat/15 [xls (41.23 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/16 [xls_200 (78.00 %)] 30.7k ± 0% 30.7k ± 0% ~ (all samples are equal) BM_ZFlat/17 [bin (18.11 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/18 [bin_200 (7.50 %) ] 30.7k ± 0% 30.7k ± 0% ~ (all samples are equal) BM_ZFlat/19 [sum (48.96 %) ] 116k ± 0% 116k ± 0% ~ (all samples are equal) BM_ZFlat/20 [man (59.21 %) ] 30.6k ± 0% 30.6k ± 0% ~ (all samples are equal) name old speed new speed delta BM_UFlat/0 [html ] 2.43GB/s ± 0% 2.41GB/s ± 0% -0.59% (p=0.032 n=5+5) BM_UFlat/1 [urls ] 1.19GB/s ± 1% 1.22GB/s ± 0% +2.58% (p=0.008 n=5+5) BM_UFlat/2 [jpg ] 17.2GB/s ± 1% 17.3GB/s ± 1% ~ (p=0.421 n=5+5) BM_UFlat/3 [jpg_200 ] 1.54GB/s ± 1% 1.56GB/s ± 1% +1.23% (p=0.008 n=5+5) BM_UFlat/4 [pdf ] 12.5GB/s ± 1% 12.5GB/s ± 0% ~ (p=0.413 n=5+4) BM_UFlat/5 [html4 ] 1.85GB/s ± 1% 1.85GB/s ± 0% ~ (p=0.690 n=5+5) BM_UFlat/6 [txt1 ] 793MB/s ± 0% 794MB/s ± 0% ~ (p=0.690 n=5+5) BM_UFlat/7 [txt2 ] 738MB/s ± 0% 742MB/s ± 1% ~ (p=0.151 n=5+5) BM_UFlat/8 [txt3 ] 839MB/s ± 0% 838MB/s ± 0% ~ (p=0.310 n=5+5) BM_UFlat/9 [txt4 ] 674MB/s ± 0% 684MB/s ± 0% +1.55% (p=0.008 n=5+5) BM_UFlat/10 [pb ] 3.07GB/s ± 1% 3.03GB/s ± 1% -1.27% (p=0.008 n=5+5) BM_UFlat/11 [gaviota ] 974MB/s ± 0% 978MB/s ± 0% +0.50% (p=0.032 n=5+5) BM_UFlat/12 [cp ] 1.72GB/s ± 0% 1.74GB/s ± 1% +0.79% (p=0.008 n=5+5) BM_UFlat/13 [c ] 1.52GB/s ± 1% 1.53GB/s ± 1% ~ (p=0.421 n=5+5) BM_UFlat/14 [lsp ] 1.62GB/s ± 1% 1.64GB/s ± 0% ~ (p=0.151 n=5+5) BM_UFlat/15 [xls ] 1.05GB/s ± 0% 1.14GB/s ± 1% +8.60% (p=0.008 n=5+5) BM_UFlat/16 [xls_200 ] 942MB/s ± 0% 941MB/s ± 1% ~ (p=0.690 n=5+5) BM_UFlat/17 [bin ] 1.85GB/s ± 0% 1.88GB/s ± 0% +1.60% (p=0.008 n=5+5) BM_UFlat/18 [bin_200 ] 1.99GB/s ± 0% 1.99GB/s ± 0% ~ (p=0.421 n=5+5) BM_UFlat/19 [sum ] 1.30GB/s ± 1% 1.37GB/s ± 1% +5.28% (p=0.008 n=5+5) BM_UFlat/20 [man ] 1.43GB/s ± 1% 1.42GB/s ± 0% ~ (p=0.421 n=5+5) BM_UValidate/0 [html ] 3.07GB/s ± 0% 3.05GB/s ± 1% ~ (p=0.222 n=5+5) BM_UValidate/1 [urls ] 1.59GB/s ± 0% 1.60GB/s ± 0% ~ (p=0.310 n=5+5) BM_UValidate/2 [jpg ] 845GB/s ± 0% 860GB/s ± 0% +1.75% (p=0.008 n=5+5) BM_UValidate/3 [jpg_200 ] 2.04GB/s ± 1% 2.11GB/s ± 1% +3.61% (p=0.008 n=5+5) BM_UValidate/4 [pdf ] 35.6GB/s ± 1% 36.1GB/s ± 1% +1.40% (p=0.016 n=5+5) BM_UIOVec/0 [html ] 845MB/s ± 1% 843MB/s ± 1% ~ (p=0.310 n=5+5) BM_UIOVec/1 [urls ] 653MB/s ± 0% 651MB/s ± 1% ~ (p=0.190 n=4+5) BM_UIOVec/2 [jpg ] 16.4GB/s ± 4% 16.1GB/s ± 5% ~ (p=0.548 n=5+5) BM_UIOVec/3 [jpg_200 ] 611MB/s ± 2% 614MB/s ± 0% ~ (p=0.548 n=5+5) BM_UIOVec/4 [pdf ] 8.53GB/s ± 1% 8.52GB/s ± 3% ~ (p=0.841 n=5+5) BM_UFlatSink/0 [html ] 2.43GB/s ± 1% 2.42GB/s ± 0% ~ (p=0.222 n=5+5) BM_UFlatSink/1 [urls ] 1.20GB/s ± 0% 1.23GB/s ± 1% +2.38% (p=0.008 n=5+5) BM_UFlatSink/2 [jpg ] 16.7GB/s ± 8% 16.0GB/s ± 8% ~ (p=0.151 n=5+5) BM_UFlatSink/3 [jpg_200 ] 1.50GB/s ± 0% 1.53GB/s ± 0% +2.13% (p=0.008 n=5+5) BM_UFlatSink/4 [pdf ] 12.5GB/s ± 0% 12.3GB/s ± 5% ~ (p=0.730 n=4+5) BM_UFlatSink/5 [html4 ] 1.85GB/s ± 0% 1.84GB/s ± 0% ~ (p=0.151 n=5+5) BM_UFlatSink/6 [txt1 ] 791MB/s ± 0% 791MB/s ± 0% ~ (p=1.000 n=5+5) BM_UFlatSink/7 [txt2 ] 735MB/s ± 0% 739MB/s ± 0% +0.51% (p=0.016 n=5+4) BM_UFlatSink/8 [txt3 ] 838MB/s ± 0% 840MB/s ± 0% ~ (p=0.151 n=5+5) BM_UFlatSink/9 [txt4 ] 674MB/s ± 0% 683MB/s ± 0% +1.37% (p=0.008 n=5+5) BM_UFlatSink/10 [pb ] 3.07GB/s ± 0% 3.03GB/s ± 1% -1.34% (p=0.008 n=5+5) BM_UFlatSink/11 [gaviota ] 973MB/s ± 0% 975MB/s ± 0% ~ (p=0.310 n=5+5) BM_UFlatSink/12 [cp ] 1.73GB/s ± 1% 1.74GB/s ± 1% ~ (p=0.056 n=5+5) BM_UFlatSink/13 [c ] 1.52GB/s ± 1% 1.53GB/s ± 1% +0.76% (p=0.032 n=5+5) BM_UFlatSink/14 [lsp ] 1.62GB/s ± 0% 1.63GB/s ± 0% ~ (p=0.548 n=5+5) BM_UFlatSink/15 [xls ] 1.05GB/s ± 0% 1.14GB/s ± 0% +8.57% (p=0.008 n=5+5) BM_UFlatSink/16 [xls_200 ] 925MB/s ± 0% 933MB/s ± 0% +0.85% (p=0.008 n=5+5) BM_UFlatSink/17 [bin ] 1.85GB/s ± 1% 1.88GB/s ± 0% +1.47% (p=0.008 n=5+5) BM_UFlatSink/18 [bin_200 ] 1.88GB/s ± 5% 1.93GB/s ± 0% ~ (p=0.421 n=5+5) BM_UFlatSink/19 [sum ] 1.30GB/s ± 1% 1.37GB/s ± 1% +5.18% (p=0.008 n=5+5) BM_UFlatSink/20 [man ] 1.41GB/s ± 0% 1.41GB/s ± 1% ~ (p=0.222 n=5+5) BM_ZFlat/0 [html (22.31 %) ] 809MB/s ± 0% 814MB/s ± 1% +0.61% (p=0.016 n=5+5) BM_ZFlat/1 [urls (47.78 %) ] 423MB/s ± 0% 422MB/s ± 0% ~ (p=0.548 n=5+5) BM_ZFlat/2 [jpg (99.95 %) ] 10.8GB/s ± 3% 10.6GB/s ± 5% ~ (p=0.690 n=5+5) BM_ZFlat/3 [jpg_200 (73.00 %)] 575MB/s ± 2% 579MB/s ± 0% ~ (p=1.000 n=5+4) BM_ZFlat/4 [pdf (83.30 %) ] 7.06GB/s ± 4% 7.05GB/s ± 2% ~ (p=0.421 n=5+5) BM_ZFlat/5 [html4 (22.52 %) ] 745MB/s ± 0% 744MB/s ± 0% ~ (p=0.421 n=5+5) BM_ZFlat/6 [txt1 (57.88 %) ] 282MB/s ± 0% 282MB/s ± 1% ~ (p=1.000 n=5+5) BM_ZFlat/7 [txt2 (61.91 %) ] 261MB/s ± 0% 263MB/s ± 0% +0.55% (p=0.032 n=5+5) BM_ZFlat/8 [txt3 (54.99 %) ] 297MB/s ± 1% 297MB/s ± 0% ~ (p=1.000 n=5+5) BM_ZFlat/9 [txt4 (66.26 %) ] 245MB/s ± 0% 246MB/s ± 0% ~ (p=0.286 n=5+5) BM_ZFlat/10 [pb (19.68 %) ] 1.08GB/s ± 1% 1.08GB/s ± 0% ~ (p=0.056 n=5+5) BM_ZFlat/11 [gaviota (37.72 %)] 450MB/s ± 0% 452MB/s ± 0% +0.55% (p=0.016 n=5+5) BM_ZFlat/12 [cp (48.12 %) ] 537MB/s ± 1% 538MB/s ± 0% ~ (p=0.421 n=5+5) BM_ZFlat/13 [c (42.47 %) ] 637MB/s ± 1% 634MB/s ± 1% ~ (p=0.222 n=5+5) BM_ZFlat/14 [lsp (48.37 %) ] 684MB/s ± 1% 680MB/s ± 0% ~ (p=0.310 n=5+5) BM_ZFlat/15 [xls (41.23 %) ] 641MB/s ± 0% 640MB/s ± 1% ~ (p=0.310 n=5+5) BM_ZFlat/16 [xls_200 (78.00 %)] 501MB/s ± 9% 521MB/s ± 1% ~ (p=0.111 n=5+4) BM_ZFlat/17 [bin (18.11 %) ] 1.01GB/s ± 0% 1.02GB/s ± 1% ~ (p=0.151 n=5+5) BM_ZFlat/18 [bin_200 (7.50 %) ] 2.24GB/s ±14% 2.48GB/s ± 0% ~ (p=0.063 n=5+4) BM_ZFlat/19 [sum (48.96 %) ] 473MB/s ± 1% 485MB/s ± 1% +2.47% (p=0.008 n=5+5) BM_ZFlat/20 [man (59.21 %) ] 558MB/s ± 1% 558MB/s ± 1% ~ (p=1.000 n=5+5) |
|
costan | 81d444e4e4 |
Remove direct use of _builtin_clz.
A previous CL introduced _builtin_clz in zippy.cc. This is a GCC / Clang intrinsic, and is not supported in Visual Studio. The rest of the project uses bit manipulation intrinsics via the functions in Bits::, which are stubbed out for the open source build in zippy-stubs-internal.h. This CL extracts Bits::Log2FloorNonZero() out of Bits::Log2Floor() in the stubbed version of Bits, adds assertions to the Bits::*NonZero() functions in the stubs, and converts _builtin_clz to a Bits::Log2FloorNonZero() call. The latter part is not obvious. A mathematical proof of correctness is outlined in added comments. An empirical proof is available at https://godbolt.org/z/mPKWmh -- CalculateTableSizeOld(), which is the current code, compiles to the same assembly on Clang as CalculateTableSizeNew1(), which is the bigger jump in the proof. CalculateTableSizeNew2() is a fairly obvious transformation from CalculateTableSizeNew1(), and results in slightly better assembly on all supported compilers. Two benchmark runs with the same arguments as the original CL only showed differences in completely disjoint tests, suggesting that the differences are pure noise. |
|
costan | 925c3094c4 |
Convert DCHECK to assert.
The open source build does not support DCHECK, and this project uses assert() instead of DCHECK. |
|
atdt | f7aece15e2 | Add comment explaining MSan false-positive workaround | |
atdt | 5913c5f8e4 |
Don't use _bzhi_u32 under MSan
MSan knows that x & 0xFF only uses the lower byte from x but it isn't as smart about _bzhi_u32(val, 8). (I'll file an upstream bug.) |
|
atdt | 136b3ebc31 |
If BMI instructions are available, use BZHI to extract low bytes.
With --cpu=haswell, this results in some significant speed improvement (notably 12-14% for html and pb). On k8, performance is not affected (as expected). Full benchmark results for --cpu={k8,haswell} below. Haswell ------- name old time/op new time/op delta BM_UFlat/0 [html ] 55.2µs ± 0% 49.0µs ± 0% -11.34% (p=0.008 n=5+5) BM_UFlat/1 [urls ] 612µs ± 0% 604µs ± 0% -1.21% (p=0.008 n=5+5) BM_UFlat/2 [jpg ] 6.11µs ± 2% 6.07µs ± 1% ~ (p=0.421 n=5+5) BM_UFlat/3 [jpg_200 ] 134ns ± 0% 132ns ± 5% -1.49% (p=0.048 n=5+5) BM_UFlat/4 [pdf ] 8.41µs ± 2% 8.34µs ± 1% ~ (p=0.222 n=5+5) BM_UFlat/5 [html4 ] 239µs ± 0% 234µs ± 0% -2.24% (p=0.008 n=5+5) BM_UFlat/6 [txt1 ] 211µs ± 0% 205µs ± 0% -2.73% (p=0.008 n=5+5) BM_UFlat/7 [txt2 ] 185µs ± 0% 181µs ± 0% -2.34% (p=0.008 n=5+5) BM_UFlat/8 [txt3 ] 560µs ± 0% 545µs ± 0% -2.55% (p=0.008 n=5+5) BM_UFlat/9 [txt4 ] 773µs ± 0% 753µs ± 0% -2.61% (p=0.008 n=5+5) BM_UFlat/10 [pb ] 51.6µs ± 0% 45.3µs ± 0% -12.28% (p=0.008 n=5+5) BM_UFlat/11 [gaviota ] 209µs ± 0% 204µs ± 0% -2.28% (p=0.008 n=5+5) BM_UFlat/12 [cp ] 17.3µs ± 0% 15.7µs ± 1% -9.57% (p=0.008 n=5+5) BM_UFlat/13 [c ] 8.08µs ± 0% 8.00µs ± 0% -0.99% (p=0.008 n=5+5) BM_UFlat/14 [lsp ] 2.48µs ± 0% 2.45µs ± 0% -1.11% (p=0.008 n=5+5) BM_UFlat/15 [xls ] 967µs ± 0% 954µs ± 0% -1.36% (p=0.008 n=5+5) BM_UFlat/16 [xls_200 ] 219ns ± 1% 218ns ± 1% ~ (p=0.444 n=5+5) BM_UFlat/17 [bin ] 278µs ± 0% 275µs ± 0% -0.92% (p=0.008 n=5+5) BM_UFlat/18 [bin_200 ] 100ns ± 0% 99ns ± 1% -1.04% (p=0.008 n=5+5) BM_UFlat/19 [sum ] 34.0µs ± 0% 30.9µs ± 0% -9.10% (p=0.008 n=5+5) BM_UFlat/20 [man ] 3.21µs ± 0% 3.20µs ± 0% ~ (p=0.063 n=5+5) BM_UValidate/0 [html ] 33.1µs ± 0% 33.6µs ± 0% +1.69% (p=0.008 n=5+5) BM_UValidate/1 [urls ] 436µs ± 0% 441µs ± 0% +1.06% (p=0.008 n=5+5) BM_UValidate/2 [jpg ] 141ns ± 0% 142ns ± 0% +0.71% (p=0.008 n=5+5) BM_UValidate/3 [jpg_200 ] 94.3ns ± 0% 95.3ns ± 0% +1.06% (p=0.008 n=5+5) BM_UValidate/4 [pdf ] 2.87µs ± 0% 2.95µs ± 0% +2.74% (p=0.008 n=5+5) BM_UIOVec/0 [html ] 126µs ± 0% 124µs ± 0% -1.50% (p=0.008 n=5+5) BM_UIOVec/1 [urls ] 1.13ms ± 0% 1.11ms ± 0% -1.95% (p=0.008 n=5+5) BM_UIOVec/2 [jpg ] 6.31µs ± 3% 7.44µs ± 3% +17.75% (p=0.008 n=5+5) BM_UIOVec/3 [jpg_200 ] 332ns ± 1% 318ns ± 1% -4.22% (p=0.008 n=5+5) BM_UIOVec/4 [pdf ] 12.7µs ± 3% 12.6µs ± 9% ~ (p=0.222 n=5+5) BM_UFlatSink/0 [html ] 55.2µs ± 0% 49.0µs ± 0% -11.31% (p=0.008 n=5+5) BM_UFlatSink/1 [urls ] 612µs ± 0% 605µs ± 0% -1.17% (p=0.008 n=5+5) BM_UFlatSink/2 [jpg ] 6.29µs ±12% 6.57µs ± 9% ~ (p=0.548 n=5+5) BM_UFlatSink/3 [jpg_200 ] 138ns ± 2% 134ns ± 0% -2.76% (p=0.000 n=5+4) BM_UFlatSink/4 [pdf ] 8.35µs ± 0% 8.34µs ± 1% ~ (p=0.905 n=4+5) BM_UFlatSink/5 [html4 ] 239µs ± 0% 234µs ± 0% -2.33% (p=0.008 n=5+5) BM_UFlatSink/6 [txt1 ] 211µs ± 0% 205µs ± 0% -2.82% (p=0.008 n=5+5) BM_UFlatSink/7 [txt2 ] 185µs ± 0% 181µs ± 0% -2.18% (p=0.008 n=5+5) BM_UFlatSink/8 [txt3 ] 560µs ± 0% 545µs ± 0% -2.57% (p=0.008 n=5+5) BM_UFlatSink/9 [txt4 ] 773µs ± 0% 754µs ± 0% -2.54% (p=0.008 n=5+5) BM_UFlatSink/10 [pb ] 51.6µs ± 0% 45.3µs ± 0% -12.19% (p=0.008 n=5+5) BM_UFlatSink/11 [gaviota ] 209µs ± 0% 204µs ± 0% -2.39% (p=0.008 n=5+5) BM_UFlatSink/12 [cp ] 17.3µs ± 0% 15.6µs ± 0% -9.98% (p=0.008 n=5+5) BM_UFlatSink/13 [c ] 8.10µs ± 1% 7.98µs ± 0% -1.53% (p=0.008 n=5+5) BM_UFlatSink/14 [lsp ] 2.49µs ± 1% 2.47µs ± 0% -0.84% (p=0.008 n=5+5) BM_UFlatSink/15 [xls ] 968µs ± 0% 953µs ± 0% -1.48% (p=0.008 n=5+5) BM_UFlatSink/16 [xls_200 ] 220ns ± 1% 220ns ± 0% ~ (p=1.000 n=5+4) BM_UFlatSink/17 [bin ] 278µs ± 0% 275µs ± 0% -0.99% (p=0.008 n=5+5) BM_UFlatSink/18 [bin_200 ] 102ns ± 1% 103ns ± 0% +1.18% (p=0.048 n=5+5) BM_UFlatSink/19 [sum ] 34.0µs ± 0% 30.9µs ± 0% -9.21% (p=0.008 n=5+5) BM_UFlatSink/20 [man ] 3.22µs ± 1% 3.20µs ± 0% -0.76% (p=0.032 n=5+5) BM_ZFlat/0 [html (22.31 %) ] 122µs ± 0% 122µs ± 0% ~ (p=0.413 n=4+5) BM_ZFlat/1 [urls (47.78 %) ] 1.60ms ± 0% 1.60ms ± 0% -0.06% (p=0.032 n=5+5) BM_ZFlat/2 [jpg (99.95 %) ] 10.5µs ± 2% 10.7µs ± 9% ~ (p=0.841 n=5+5) BM_ZFlat/3 [jpg_200 (73.00 %)] 310ns ± 1% 309ns ± 3% ~ (p=0.349 n=4+5) BM_ZFlat/4 [pdf (83.30 %) ] 13.5µs ± 1% 13.6µs ± 2% ~ (p=0.595 n=5+5) BM_ZFlat/5 [html4 (22.52 %) ] 533µs ± 0% 532µs ± 0% -0.08% (p=0.032 n=5+5) BM_ZFlat/6 [txt1 (57.88 %) ] 529µs ± 0% 528µs ± 0% ~ (p=0.222 n=5+5) BM_ZFlat/7 [txt2 (61.91 %) ] 469µs ± 0% 469µs ± 0% ~ (p=0.690 n=5+5) BM_ZFlat/8 [txt3 (54.99 %) ] 1.40ms ± 0% 1.40ms ± 0% ~ (p=0.548 n=5+5) BM_ZFlat/9 [txt4 (66.26 %) ] 1.93ms ± 0% 1.92ms ± 0% ~ (p=0.421 n=5+5) BM_ZFlat/10 [pb (19.68 %) ] 106µs ± 0% 106µs ± 0% ~ (p=0.548 n=5+5) BM_ZFlat/11 [gaviota (37.72 %)] 404µs ± 0% 404µs ± 0% ~ (p=0.841 n=5+5) BM_ZFlat/12 [cp (48.12 %) ] 43.2µs ± 0% 43.3µs ± 1% ~ (p=0.151 n=5+5) BM_ZFlat/13 [c (42.47 %) ] 16.4µs ± 1% 16.4µs ± 0% ~ (p=0.310 n=5+5) BM_ZFlat/14 [lsp (48.37 %) ] 4.96µs ± 0% 4.96µs ± 1% ~ (p=0.651 n=5+5) BM_ZFlat/15 [xls (41.23 %) ] 1.54ms ± 0% 1.54ms ± 0% ~ (p=0.841 n=5+5) BM_ZFlat/16 [xls_200 (78.00 %)] 352ns ± 2% 351ns ± 1% ~ (p=0.762 n=5+5) BM_ZFlat/17 [bin (18.11 %) ] 491µs ± 0% 491µs ± 0% ~ (p=0.310 n=5+5) BM_ZFlat/18 [bin_200 (7.50 %) ] 75.6ns ± 1% 77.2ns ± 0% +2.06% (p=0.016 n=5+4) BM_ZFlat/19 [sum (48.96 %) ] 76.9µs ± 0% 76.7µs ± 0% ~ (p=0.222 n=5+5) BM_ZFlat/20 [man (59.21 %) ] 6.87µs ± 1% 6.81µs ± 0% -0.87% (p=0.008 n=5+5) name old speed new speed delta BM_UFlat/0 [html ] 1.85GB/s ± 0% 2.09GB/s ± 0% +12.83% (p=0.016 n=4+5) BM_UFlat/1 [urls ] 1.15GB/s ± 0% 1.16GB/s ± 0% +1.25% (p=0.008 n=5+5) BM_UFlat/2 [jpg ] 20.1GB/s ± 2% 20.3GB/s ± 1% ~ (p=0.421 n=5+5) BM_UFlat/3 [jpg_200 ] 1.49GB/s ± 0% 1.53GB/s ± 0% +2.83% (p=0.016 n=5+4) BM_UFlat/4 [pdf ] 12.2GB/s ± 2% 12.3GB/s ± 1% ~ (p=0.222 n=5+5) BM_UFlat/5 [html4 ] 1.71GB/s ± 0% 1.75GB/s ± 0% +2.29% (p=0.008 n=5+5) BM_UFlat/6 [txt1 ] 722MB/s ± 0% 742MB/s ± 0% +2.81% (p=0.008 n=5+5) BM_UFlat/7 [txt2 ] 676MB/s ± 0% 692MB/s ± 0% +2.40% (p=0.008 n=5+5) BM_UFlat/8 [txt3 ] 762MB/s ± 0% 782MB/s ± 0% +2.62% (p=0.008 n=5+5) BM_UFlat/9 [txt4 ] 623MB/s ± 0% 640MB/s ± 0% +2.68% (p=0.008 n=5+5) BM_UFlat/10 [pb ] 2.30GB/s ± 0% 2.62GB/s ± 0% +13.99% (p=0.008 n=5+5) BM_UFlat/11 [gaviota ] 883MB/s ± 0% 903MB/s ± 0% +2.33% (p=0.008 n=5+5) BM_UFlat/12 [cp ] 1.42GB/s ± 0% 1.57GB/s ± 1% +10.57% (p=0.008 n=5+5) BM_UFlat/13 [c ] 1.38GB/s ± 0% 1.39GB/s ± 0% +1.00% (p=0.008 n=5+5) BM_UFlat/14 [lsp ] 1.50GB/s ± 0% 1.52GB/s ± 0% +1.12% (p=0.008 n=5+5) BM_UFlat/15 [xls ] 1.06GB/s ± 0% 1.08GB/s ± 0% +1.34% (p=0.016 n=5+4) BM_UFlat/16 [xls_200 ] 913MB/s ± 1% 918MB/s ± 1% ~ (p=0.421 n=5+5) BM_UFlat/17 [bin ] 1.85GB/s ± 0% 1.86GB/s ± 0% +0.92% (p=0.008 n=5+5) BM_UFlat/18 [bin_200 ] 2.01GB/s ± 0% 2.03GB/s ± 1% +1.10% (p=0.008 n=5+5) BM_UFlat/19 [sum ] 1.13GB/s ± 0% 1.24GB/s ± 0% +9.99% (p=0.008 n=5+5) BM_UFlat/20 [man ] 1.32GB/s ± 0% 1.32GB/s ± 1% ~ (p=0.063 n=5+5) BM_UValidate/0 [html ] 3.10GB/s ± 0% 3.04GB/s ± 0% -1.66% (p=0.008 n=5+5) BM_UValidate/1 [urls ] 1.61GB/s ± 0% 1.59GB/s ± 0% -1.04% (p=0.008 n=5+5) BM_UValidate/2 [jpg ] 875GB/s ± 0% 866GB/s ± 0% -1.11% (p=0.008 n=5+5) BM_UValidate/3 [jpg_200 ] 2.12GB/s ± 0% 2.10GB/s ± 0% -1.01% (p=0.016 n=5+4) BM_UValidate/4 [pdf ] 35.7GB/s ± 0% 34.7GB/s ± 0% -2.66% (p=0.008 n=5+5) BM_UIOVec/0 [html ] 813MB/s ± 0% 825MB/s ± 0% +1.52% (p=0.008 n=5+5) BM_UIOVec/1 [urls ] 622MB/s ± 0% 634MB/s ± 0% +1.99% (p=0.008 n=5+5) BM_UIOVec/2 [jpg ] 19.5GB/s ± 3% 16.6GB/s ± 3% -15.08% (p=0.008 n=5+5) BM_UIOVec/3 [jpg_200 ] 603MB/s ± 1% 630MB/s ± 1% +4.42% (p=0.008 n=5+5) BM_UIOVec/4 [pdf ] 8.05GB/s ± 3% 8.12GB/s ± 8% ~ (p=0.222 n=5+5) BM_UFlatSink/0 [html ] 1.85GB/s ± 0% 2.09GB/s ± 0% +12.76% (p=0.008 n=5+5) BM_UFlatSink/1 [urls ] 1.15GB/s ± 0% 1.16GB/s ± 0% +1.18% (p=0.008 n=5+5) BM_UFlatSink/2 [jpg ] 19.6GB/s ±11% 18.8GB/s ± 9% ~ (p=0.548 n=5+5) BM_UFlatSink/3 [jpg_200 ] 1.45GB/s ± 1% 1.49GB/s ± 0% +2.82% (p=0.016 n=5+4) BM_UFlatSink/4 [pdf ] 12.3GB/s ± 0% 12.3GB/s ± 1% ~ (p=0.905 n=4+5) BM_UFlatSink/5 [html4 ] 1.71GB/s ± 0% 1.75GB/s ± 0% +2.41% (p=0.008 n=5+5) BM_UFlatSink/6 [txt1 ] 722MB/s ± 0% 743MB/s ± 0% +2.90% (p=0.008 n=5+5) BM_UFlatSink/7 [txt2 ] 676MB/s ± 0% 691MB/s ± 0% +2.23% (p=0.008 n=5+5) BM_UFlatSink/8 [txt3 ] 763MB/s ± 0% 783MB/s ± 0% +2.64% (p=0.008 n=5+5) BM_UFlatSink/9 [txt4 ] 623MB/s ± 0% 639MB/s ± 0% +2.61% (p=0.008 n=5+5) BM_UFlatSink/10 [pb ] 2.30GB/s ± 0% 2.62GB/s ± 0% +13.86% (p=0.008 n=5+5) BM_UFlatSink/11 [gaviota ] 882MB/s ± 0% 904MB/s ± 0% +2.45% (p=0.008 n=5+5) BM_UFlatSink/12 [cp ] 1.42GB/s ± 0% 1.58GB/s ± 0% +11.09% (p=0.008 n=5+5) BM_UFlatSink/13 [c ] 1.38GB/s ± 1% 1.40GB/s ± 0% +1.56% (p=0.008 n=5+5) BM_UFlatSink/14 [lsp ] 1.50GB/s ± 1% 1.51GB/s ± 1% +0.85% (p=0.008 n=5+5) BM_UFlatSink/15 [xls ] 1.06GB/s ± 0% 1.08GB/s ± 0% +1.51% (p=0.016 n=5+4) BM_UFlatSink/16 [xls_200 ] 908MB/s ± 1% 911MB/s ± 0% ~ (p=0.730 n=5+4) BM_UFlatSink/17 [bin ] 1.85GB/s ± 0% 1.86GB/s ± 0% +1.01% (p=0.008 n=5+5) BM_UFlatSink/18 [bin_200 ] 1.96GB/s ± 1% 1.94GB/s ± 1% -1.18% (p=0.016 n=5+5) BM_UFlatSink/19 [sum ] 1.12GB/s ± 0% 1.24GB/s ± 0% +10.16% (p=0.008 n=5+5) BM_UFlatSink/20 [man ] 1.31GB/s ± 1% 1.32GB/s ± 0% +0.77% (p=0.048 n=5+5) BM_ZFlat/0 [html (22.31 %) ] 839MB/s ± 0% 839MB/s ± 0% ~ (p=0.413 n=4+5) BM_ZFlat/1 [urls (47.78 %) ] 439MB/s ± 0% 439MB/s ± 0% +0.06% (p=0.032 n=5+5) BM_ZFlat/2 [jpg (99.95 %) ] 11.7GB/s ± 2% 11.5GB/s ± 9% ~ (p=0.841 n=5+5) BM_ZFlat/3 [jpg_200 (73.00 %)] 645MB/s ± 1% 647MB/s ± 3% ~ (p=0.413 n=4+5) BM_ZFlat/4 [pdf (83.30 %) ] 7.57GB/s ± 1% 7.54GB/s ± 2% ~ (p=0.595 n=5+5) BM_ZFlat/5 [html4 (22.52 %) ] 769MB/s ± 0% 770MB/s ± 0% +0.08% (p=0.032 n=5+5) BM_ZFlat/6 [txt1 (57.88 %) ] 288MB/s ± 0% 288MB/s ± 0% ~ (p=0.222 n=5+5) BM_ZFlat/7 [txt2 (61.91 %) ] 267MB/s ± 0% 267MB/s ± 0% ~ (p=0.690 n=5+5) BM_ZFlat/8 [txt3 (54.99 %) ] 305MB/s ± 0% 305MB/s ± 0% ~ (p=0.548 n=5+5) BM_ZFlat/9 [txt4 (66.26 %) ] 250MB/s ± 0% 251MB/s ± 0% ~ (p=0.421 n=5+5) BM_ZFlat/10 [pb (19.68 %) ] 1.12GB/s ± 0% 1.12GB/s ± 0% ~ (p=0.635 n=5+5) BM_ZFlat/11 [gaviota (37.72 %)] 457MB/s ± 0% 457MB/s ± 0% ~ (p=0.841 n=5+5) BM_ZFlat/12 [cp (48.12 %) ] 570MB/s ± 0% 568MB/s ± 1% ~ (p=0.151 n=5+5) BM_ZFlat/13 [c (42.47 %) ] 682MB/s ± 1% 681MB/s ± 0% ~ (p=0.310 n=5+5) BM_ZFlat/14 [lsp (48.37 %) ] 750MB/s ± 0% 751MB/s ± 1% ~ (p=0.690 n=5+5) BM_ZFlat/15 [xls (41.23 %) ] 668MB/s ± 0% 668MB/s ± 0% ~ (p=0.841 n=5+5) BM_ZFlat/16 [xls_200 (78.00 %)] 569MB/s ± 2% 570MB/s ± 1% ~ (p=0.841 n=5+5) BM_ZFlat/17 [bin (18.11 %) ] 1.04GB/s ± 0% 1.04GB/s ± 0% ~ (p=0.310 n=5+5) BM_ZFlat/18 [bin_200 (7.50 %) ] 2.64GB/s ± 1% 2.59GB/s ± 0% -1.99% (p=0.016 n=5+4) BM_ZFlat/19 [sum (48.96 %) ] 497MB/s ± 0% 498MB/s ± 0% ~ (p=0.222 n=5+5) BM_ZFlat/20 [man (59.21 %) ] 615MB/s ± 1% 621MB/s ± 0% +0.87% (p=0.008 n=5+5) K8 -- name old time/op new time/op delta BM_UFlat/0 [html ] 41.7µs ± 0% 41.7µs ± 0% ~ (p=0.841 n=5+5) BM_UFlat/1 [urls ] 588µs ± 0% 588µs ± 0% ~ (p=0.310 n=5+5) BM_UFlat/2 [jpg ] 7.11µs ± 1% 7.10µs ± 1% ~ (p=0.556 n=5+4) BM_UFlat/3 [jpg_200 ] 130ns ± 0% 130ns ± 0% ~ (all samples are equal) BM_UFlat/4 [pdf ] 8.19µs ± 0% 8.26µs ± 2% ~ (p=0.460 n=5+5) BM_UFlat/5 [html4 ] 219µs ± 0% 219µs ± 0% ~ (p=1.000 n=5+5) BM_UFlat/6 [txt1 ] 192µs ± 0% 191µs ± 0% ~ (p=0.341 n=5+5) BM_UFlat/7 [txt2 ] 170µs ± 0% 170µs ± 0% ~ (p=0.841 n=5+5) BM_UFlat/8 [txt3 ] 509µs ± 0% 509µs ± 0% ~ (p=0.151 n=5+5) BM_UFlat/9 [txt4 ] 712µs ± 0% 712µs ± 0% ~ (p=0.841 n=5+5) BM_UFlat/10 [pb ] 38.5µs ± 0% 38.5µs ± 0% ~ (p=0.452 n=5+5) BM_UFlat/11 [gaviota ] 189µs ± 0% 189µs ± 0% ~ (p=0.841 n=5+5) BM_UFlat/12 [cp ] 14.2µs ± 1% 14.2µs ± 0% ~ (p=0.889 n=5+5) BM_UFlat/13 [c ] 7.32µs ± 0% 7.33µs ± 0% ~ (p=1.000 n=5+5) BM_UFlat/14 [lsp ] 2.26µs ± 0% 2.27µs ± 0% ~ (p=0.222 n=4+5) BM_UFlat/15 [xls ] 954µs ± 0% 955µs ± 0% ~ (p=0.222 n=5+5) BM_UFlat/16 [xls_200 ] 215ns ± 4% 212ns ± 0% ~ (p=0.095 n=5+4) BM_UFlat/17 [bin ] 276µs ± 0% 276µs ± 0% ~ (p=0.841 n=5+5) BM_UFlat/18 [bin_200 ] 104ns ±10% 103ns ± 3% ~ (p=0.825 n=5+5) BM_UFlat/19 [sum ] 29.2µs ± 0% 29.2µs ± 0% ~ (p=0.690 n=5+5) BM_UFlat/20 [man ] 2.96µs ± 0% 2.97µs ± 0% +0.43% (p=0.032 n=5+5) BM_UValidate/0 [html ] 33.4µs ± 0% 33.4µs ± 0% ~ (p=0.151 n=5+5) BM_UValidate/1 [urls ] 441µs ± 0% 441µs ± 0% ~ (p=0.548 n=5+5) BM_UValidate/2 [jpg ] 146ns ± 0% 146ns ± 0% ~ (all samples are equal) BM_UValidate/3 [jpg_200 ] 98.0ns ± 0% 98.0ns ± 0% ~ (p=1.000 n=5+5) BM_UValidate/4 [pdf ] 2.89µs ± 0% 2.89µs ± 0% ~ (p=0.794 n=5+5) BM_UIOVec/0 [html ] 121µs ± 0% 121µs ± 0% ~ (p=0.151 n=5+5) BM_UIOVec/1 [urls ] 1.08ms ± 0% 1.08ms ± 0% ~ (p=0.095 n=5+5) BM_UIOVec/2 [jpg ] 7.47µs ± 5% 7.31µs ± 2% ~ (p=0.222 n=5+5) BM_UIOVec/3 [jpg_200 ] 330ns ± 0% 330ns ± 0% ~ (all samples are equal) BM_UIOVec/4 [pdf ] 12.3µs ± 2% 12.0µs ± 0% ~ (p=0.063 n=5+5) BM_UFlatSink/0 [html ] 41.6µs ± 0% 41.6µs ± 0% ~ (p=0.095 n=5+5) BM_UFlatSink/1 [urls ] 589µs ± 0% 589µs ± 0% ~ (p=1.000 n=5+5) BM_UFlatSink/2 [jpg ] 7.84µs ±26% 7.23µs ± 5% ~ (p=0.690 n=5+5) BM_UFlatSink/3 [jpg_200 ] 132ns ± 0% 132ns ± 0% ~ (all samples are equal) BM_UFlatSink/4 [pdf ] 8.43µs ± 3% 8.27µs ± 2% ~ (p=0.254 n=5+5) BM_UFlatSink/5 [html4 ] 219µs ± 0% 219µs ± 0% ~ (p=0.524 n=5+5) BM_UFlatSink/6 [txt1 ] 192µs ± 0% 192µs ± 0% ~ (p=0.690 n=5+5) BM_UFlatSink/7 [txt2 ] 170µs ± 0% 170µs ± 0% ~ (p=0.421 n=5+5) BM_UFlatSink/8 [txt3 ] 509µs ± 0% 509µs ± 0% ~ (p=0.310 n=5+5) BM_UFlatSink/9 [txt4 ] 712µs ± 0% 712µs ± 0% ~ (p=0.841 n=5+5) BM_UFlatSink/10 [pb ] 38.5µs ± 0% 38.5µs ± 0% ~ (p=0.421 n=5+5) BM_UFlatSink/11 [gaviota ] 189µs ± 0% 189µs ± 0% ~ (p=1.000 n=5+5) BM_UFlatSink/12 [cp ] 14.2µs ± 0% 14.2µs ± 0% ~ (p=0.421 n=5+5) BM_UFlatSink/13 [c ] 7.37µs ± 1% 7.36µs ± 1% ~ (p=0.746 n=5+5) BM_UFlatSink/14 [lsp ] 2.27µs ± 0% 2.27µs ± 1% ~ (p=0.714 n=5+5) BM_UFlatSink/15 [xls ] 954µs ± 0% 954µs ± 0% ~ (p=1.000 n=5+5) BM_UFlatSink/16 [xls_200 ] 215ns ± 1% 215ns ± 1% ~ (p=0.921 n=5+5) BM_UFlatSink/17 [bin ] 276µs ± 0% 276µs ± 0% ~ (p=1.000 n=5+5) BM_UFlatSink/18 [bin_200 ] 103ns ± 2% 104ns ± 1% ~ (p=0.429 n=5+5) BM_UFlatSink/19 [sum ] 29.2µs ± 0% 29.2µs ± 0% ~ (p=0.452 n=5+5) BM_UFlatSink/20 [man ] 2.96µs ± 0% 2.97µs ± 1% ~ (p=0.484 n=5+5) BM_ZFlat/0 [html (22.31 %) ] 126µs ± 0% 126µs ± 0% ~ (p=1.000 n=5+5) BM_ZFlat/1 [urls (47.78 %) ] 1.67ms ± 0% 1.67ms ± 0% ~ (p=0.841 n=5+5) BM_ZFlat/2 [jpg (99.95 %) ] 11.6µs ± 4% 11.6µs ± 3% ~ (p=1.000 n=5+5) BM_ZFlat/3 [jpg_200 (73.00 %)] 368ns ± 1% 367ns ± 0% ~ (p=0.159 n=5+5) BM_ZFlat/4 [pdf (83.30 %) ] 14.7µs ± 1% 14.6µs ± 0% ~ (p=0.190 n=5+4) BM_ZFlat/5 [html4 (22.52 %) ] 550µs ± 0% 550µs ± 0% ~ (p=0.841 n=5+5) BM_ZFlat/6 [txt1 (57.88 %) ] 540µs ± 0% 540µs ± 0% ~ (p=0.310 n=5+5) BM_ZFlat/7 [txt2 (61.91 %) ] 479µs ± 0% 480µs ± 0% ~ (p=1.000 n=5+5) BM_ZFlat/8 [txt3 (54.99 %) ] 1.44ms ± 0% 1.44ms ± 0% ~ (p=0.421 n=5+5) BM_ZFlat/9 [txt4 (66.26 %) ] 1.97ms ± 0% 1.97ms ± 0% ~ (p=0.421 n=5+5) BM_ZFlat/10 [pb (19.68 %) ] 110µs ± 0% 109µs ± 0% ~ (p=0.730 n=5+4) BM_ZFlat/11 [gaviota (37.72 %)] 412µs ± 0% 412µs ± 0% ~ (p=1.000 n=5+5) BM_ZFlat/12 [cp (48.12 %) ] 46.3µs ± 0% 46.3µs ± 1% ~ (p=0.841 n=5+5) BM_ZFlat/13 [c (42.47 %) ] 17.7µs ± 0% 17.7µs ± 1% ~ (p=0.841 n=5+5) BM_ZFlat/14 [lsp (48.37 %) ] 5.54µs ± 1% 5.55µs ± 0% ~ (p=0.254 n=5+4) BM_ZFlat/15 [xls (41.23 %) ] 1.62ms ± 0% 1.63ms ± 0% ~ (p=0.151 n=5+5) BM_ZFlat/16 [xls_200 (78.00 %)] 395ns ± 2% 394ns ± 1% ~ (p=1.000 n=5+5) BM_ZFlat/17 [bin (18.11 %) ] 507µs ± 0% 507µs ± 0% ~ (p=0.056 n=5+5) BM_ZFlat/18 [bin_200 (7.50 %) ] 89.6ns ± 5% 89.8ns ± 5% ~ (p=1.000 n=5+5) BM_ZFlat/19 [sum (48.96 %) ] 79.9µs ± 0% 79.9µs ± 0% ~ (p=0.690 n=5+5) BM_ZFlat/20 [man (59.21 %) ] 7.67µs ± 0% 7.67µs ± 1% ~ (p=0.548 n=5+5) name old speed new speed delta BM_UFlat/0 [html ] 2.45GB/s ± 0% 2.45GB/s ± 0% ~ (p=0.889 n=5+5) BM_UFlat/1 [urls ] 1.19GB/s ± 0% 1.19GB/s ± 0% ~ (all samples are equal) BM_UFlat/2 [jpg ] 17.3GB/s ± 1% 17.3GB/s ± 1% ~ (p=0.556 n=5+4) BM_UFlat/3 [jpg_200 ] 1.54GB/s ± 0% 1.54GB/s ± 0% ~ (p=0.833 n=5+5) BM_UFlat/4 [pdf ] 12.5GB/s ± 0% 12.4GB/s ± 2% ~ (p=0.421 n=5+5) BM_UFlat/5 [html4 ] 1.87GB/s ± 0% 1.87GB/s ± 0% ~ (p=1.000 n=4+5) BM_UFlat/6 [txt1 ] 794MB/s ± 0% 794MB/s ± 0% ~ (p=0.310 n=5+5) BM_UFlat/7 [txt2 ] 738MB/s ± 0% 738MB/s ± 0% ~ (p=0.841 n=5+5) BM_UFlat/8 [txt3 ] 839MB/s ± 0% 838MB/s ± 0% ~ (p=0.151 n=5+5) BM_UFlat/9 [txt4 ] 677MB/s ± 0% 677MB/s ± 0% ~ (p=0.841 n=5+5) BM_UFlat/10 [pb ] 3.08GB/s ± 0% 3.08GB/s ± 0% ~ (p=0.452 n=5+5) BM_UFlat/11 [gaviota ] 975MB/s ± 0% 975MB/s ± 0% ~ (p=0.841 n=5+5) BM_UFlat/12 [cp ] 1.73GB/s ± 1% 1.73GB/s ± 0% ~ (p=0.984 n=5+5) BM_UFlat/13 [c ] 1.52GB/s ± 0% 1.52GB/s ± 0% ~ (p=0.841 n=5+5) BM_UFlat/14 [lsp ] 1.64GB/s ± 0% 1.64GB/s ± 0% ~ (p=0.254 n=4+5) BM_UFlat/15 [xls ] 1.08GB/s ± 0% 1.08GB/s ± 0% ~ (p=0.095 n=5+4) BM_UFlat/16 [xls_200 ] 931MB/s ± 4% 941MB/s ± 0% ~ (p=0.151 n=5+5) BM_UFlat/17 [bin ] 1.86GB/s ± 0% 1.86GB/s ± 0% ~ (p=0.762 n=5+5) BM_UFlat/18 [bin_200 ] 1.92GB/s ± 9% 1.95GB/s ± 3% ~ (p=1.000 n=5+5) BM_UFlat/19 [sum ] 1.31GB/s ± 1% 1.31GB/s ± 0% ~ (p=0.548 n=5+5) BM_UFlat/20 [man ] 1.43GB/s ± 0% 1.42GB/s ± 1% -0.42% (p=0.040 n=5+5) BM_UValidate/0 [html ] 3.06GB/s ± 0% 3.06GB/s ± 0% ~ (p=0.151 n=5+5) BM_UValidate/1 [urls ] 1.59GB/s ± 0% 1.59GB/s ± 0% ~ (p=0.357 n=5+5) BM_UValidate/2 [jpg ] 845GB/s ± 0% 845GB/s ± 0% ~ (p=0.548 n=5+5) BM_UValidate/3 [jpg_200 ] 2.04GB/s ± 0% 2.04GB/s ± 0% ~ (p=1.000 n=5+5) BM_UValidate/4 [pdf ] 35.4GB/s ± 0% 35.4GB/s ± 0% ~ (p=0.421 n=5+5) BM_UIOVec/0 [html ] 845MB/s ± 0% 845MB/s ± 0% ~ (p=0.151 n=5+5) BM_UIOVec/1 [urls ] 650MB/s ± 0% 650MB/s ± 0% ~ (p=0.087 n=5+5) BM_UIOVec/2 [jpg ] 16.5GB/s ± 5% 16.8GB/s ± 2% ~ (p=0.222 n=5+5) BM_UIOVec/3 [jpg_200 ] 605MB/s ± 0% 605MB/s ± 0% ~ (p=0.690 n=5+5) BM_UIOVec/4 [pdf ] 8.36GB/s ± 2% 8.54GB/s ± 0% ~ (p=0.063 n=5+5) BM_UFlatSink/0 [html ] 2.46GB/s ± 0% 2.46GB/s ± 0% ~ (p=0.063 n=5+5) BM_UFlatSink/1 [urls ] 1.19GB/s ± 0% 1.19GB/s ± 0% ~ (all samples are equal) BM_UFlatSink/2 [jpg ] 16.0GB/s ±22% 17.0GB/s ± 5% ~ (p=0.690 n=5+5) BM_UFlatSink/3 [jpg_200 ] 1.51GB/s ± 0% 1.51GB/s ± 2% ~ (p=1.000 n=5+5) BM_UFlatSink/4 [pdf ] 12.2GB/s ± 3% 12.4GB/s ± 2% ~ (p=0.254 n=5+5) BM_UFlatSink/5 [html4 ] 1.87GB/s ± 0% 1.87GB/s ± 0% ~ (p=0.532 n=5+5) BM_UFlatSink/6 [txt1 ] 794MB/s ± 0% 794MB/s ± 0% ~ (p=0.690 n=5+5) BM_UFlatSink/7 [txt2 ] 738MB/s ± 0% 738MB/s ± 0% ~ (p=0.421 n=5+5) BM_UFlatSink/8 [txt3 ] 838MB/s ± 0% 838MB/s ± 0% ~ (p=0.310 n=5+5) BM_UFlatSink/9 [txt4 ] 676MB/s ± 0% 676MB/s ± 0% ~ (p=0.841 n=5+5) BM_UFlatSink/10 [pb ] 3.08GB/s ± 0% 3.08GB/s ± 0% ~ (p=0.365 n=5+5) BM_UFlatSink/11 [gaviota ] 975MB/s ± 0% 975MB/s ± 0% ~ (p=1.000 n=5+5) BM_UFlatSink/12 [cp ] 1.73GB/s ± 0% 1.74GB/s ± 0% ~ (p=0.286 n=5+5) BM_UFlatSink/13 [c ] 1.51GB/s ± 1% 1.52GB/s ± 1% ~ (p=0.683 n=5+5) BM_UFlatSink/14 [lsp ] 1.64GB/s ± 0% 1.64GB/s ± 0% ~ (p=0.444 n=5+5) BM_UFlatSink/15 [xls ] 1.08GB/s ± 0% 1.08GB/s ± 0% ~ (p=0.333 n=4+5) BM_UFlatSink/16 [xls_200 ] 930MB/s ± 1% 930MB/s ± 1% ~ (p=0.841 n=5+5) BM_UFlatSink/17 [bin ] 1.86GB/s ± 0% 1.86GB/s ± 0% ~ (p=1.000 n=5+5) BM_UFlatSink/18 [bin_200 ] 1.93GB/s ± 2% 1.93GB/s ± 1% ~ (p=0.651 n=5+5) BM_UFlatSink/19 [sum ] 1.31GB/s ± 0% 1.31GB/s ± 0% ~ (p=0.508 n=5+5) BM_UFlatSink/20 [man ] 1.43GB/s ± 0% 1.42GB/s ± 1% ~ (p=0.524 n=5+5) BM_ZFlat/0 [html (22.31 %) ] 815MB/s ± 0% 815MB/s ± 0% ~ (p=1.000 n=5+5) BM_ZFlat/1 [urls (47.78 %) ] 420MB/s ± 0% 420MB/s ± 0% ~ (p=0.841 n=5+5) BM_ZFlat/2 [jpg (99.95 %) ] 10.6GB/s ± 4% 10.6GB/s ± 3% ~ (p=1.000 n=5+5) BM_ZFlat/3 [jpg_200 (73.00 %)] 543MB/s ± 1% 546MB/s ± 0% ~ (p=0.095 n=5+5) BM_ZFlat/4 [pdf (83.30 %) ] 6.96GB/s ± 1% 7.01GB/s ± 0% ~ (p=0.190 n=5+4) BM_ZFlat/5 [html4 (22.52 %) ] 745MB/s ± 0% 745MB/s ± 0% ~ (p=0.841 n=5+5) BM_ZFlat/6 [txt1 (57.88 %) ] 282MB/s ± 0% 282MB/s ± 0% ~ (p=0.310 n=5+5) BM_ZFlat/7 [txt2 (61.91 %) ] 261MB/s ± 0% 261MB/s ± 0% ~ (p=1.000 n=5+5) BM_ZFlat/8 [txt3 (54.99 %) ] 297MB/s ± 0% 297MB/s ± 0% ~ (p=0.421 n=5+5) BM_ZFlat/9 [txt4 (66.26 %) ] 244MB/s ± 0% 244MB/s ± 0% ~ (p=0.389 n=5+5) BM_ZFlat/10 [pb (19.68 %) ] 1.08GB/s ± 0% 1.08GB/s ± 0% ~ (p=0.238 n=5+4) BM_ZFlat/11 [gaviota (37.72 %)] 448MB/s ± 0% 447MB/s ± 0% ~ (p=1.000 n=5+5) BM_ZFlat/12 [cp (48.12 %) ] 532MB/s ± 0% 531MB/s ± 1% ~ (p=0.841 n=5+5) BM_ZFlat/13 [c (42.47 %) ] 632MB/s ± 0% 631MB/s ± 1% ~ (p=0.841 n=5+5) BM_ZFlat/14 [lsp (48.37 %) ] 672MB/s ± 1% 671MB/s ± 0% ~ (p=0.286 n=5+4) BM_ZFlat/15 [xls (41.23 %) ] 634MB/s ± 0% 633MB/s ± 0% ~ (p=0.151 n=5+5) BM_ZFlat/16 [xls_200 (78.00 %)] 507MB/s ± 2% 508MB/s ± 1% ~ (p=1.000 n=5+5) BM_ZFlat/17 [bin (18.11 %) ] 1.01GB/s ± 0% 1.01GB/s ± 0% ~ (p=0.056 n=5+5) BM_ZFlat/18 [bin_200 (7.50 %) ] 2.24GB/s ± 5% 2.23GB/s ± 5% ~ (p=0.889 n=5+5) BM_ZFlat/19 [sum (48.96 %) ] 479MB/s ± 0% 479MB/s ± 0% ~ (p=0.690 n=5+5) BM_ZFlat/20 [man (59.21 %) ] 551MB/s ± 0% 551MB/s ± 1% ~ (p=0.548 n=5+5) |
|
nafi | eb47f79631 |
Optimize by about 0.5%.
How? Move boolean args of EmitLiteral, EmitCopyAtMost64 and EmitCopy to template args so that compiler generates two separate pruned versions of the functions for arg=true and arg=false. FWIW, CompressFragment function calls 1) EmitLiteral inside from a 1-level loop and 2) EmitCopy from a 2-level nested loop. CompressFragment is called from inside another while-loop from the public 'Compress' function. name old time/op new time/op delta BM_UFlat/0 [html ] 41.9µs ± 0% 41.1µs ± 0% -1.92% (p=0.000 n=10+10) BM_UFlat/1 [urls ] 576µs ± 0% 572µs ± 0% -0.68% (p=0.000 n=10+10) BM_UFlat/2 [jpg ] 7.25µs ± 6% 7.13µs ± 1% ~ (p=0.074 n=9+8) BM_UFlat/3 [jpg_200 ] 132ns ± 1% 130ns ± 0% -1.45% (p=0.000 n=10+8) BM_UFlat/4 [pdf ] 8.27µs ± 3% 8.22µs ± 0% ~ (p=0.277 n=9+8) BM_UFlat/5 [html4 ] 220µs ± 0% 219µs ± 0% -0.75% (p=0.000 n=10+10) BM_UFlat/6 [txt1 ] 192µs ± 0% 190µs ± 0% -0.80% (p=0.000 n=10+10) BM_UFlat/7 [txt2 ] 169µs ± 0% 168µs ± 0% -0.69% (p=0.000 n=10+10) BM_UFlat/8 [txt3 ] 510µs ± 0% 508µs ± 0% -0.42% (p=0.000 n=10+10) BM_UFlat/9 [txt4 ] 707µs ± 0% 702µs ± 0% -0.67% (p=0.000 n=10+10) BM_UFlat/10 [pb ] 38.5µs ± 0% 37.4µs ± 1% -2.84% (p=0.000 n=10+10) BM_UFlat/11 [gaviota ] 189µs ± 0% 190µs ± 0% +0.55% (p=0.000 n=10+10) BM_UFlat/12 [cp ] 14.2µs ± 0% 14.1µs ± 0% -0.44% (p=0.000 n=10+10) BM_UFlat/13 [c ] 7.31µs ± 1% 7.35µs ± 0% +0.54% (p=0.002 n=10+10) BM_UFlat/14 [lsp ] 2.27µs ± 0% 2.27µs ± 1% ~ (p=0.161 n=9+9) BM_UFlat/15 [xls ] 905µs ± 0% 903µs ± 0% -0.25% (p=0.000 n=10+10) BM_UFlat/16 [xls_200 ] 214ns ± 1% 213ns ± 1% -0.57% (p=0.043 n=10+10) BM_UFlat/17 [bin ] 275µs ± 0% 274µs ± 0% -0.31% (p=0.000 n=10+10) BM_UFlat/18 [bin_200 ] 102ns ± 5% 101ns ± 3% ~ (p=0.161 n=9+9) BM_UFlat/19 [sum ] 27.9µs ± 0% 27.2µs ± 0% -2.68% (p=0.000 n=10+10) BM_UFlat/20 [man ] 2.97µs ± 1% 2.97µs ± 0% ~ (p=0.400 n=9+10) BM_UValidate/0 [html ] 33.3µs ± 0% 33.7µs ± 0% +1.18% (p=0.000 n=10+10) BM_UValidate/1 [urls ] 442µs ± 0% 442µs ± 0% ~ (p=0.353 n=10+10) BM_UValidate/2 [jpg ] 146ns ± 0% 146ns ± 0% ~ (p=0.063 n=10+10) BM_UValidate/3 [jpg_200 ] 98.4ns ± 0% 98.5ns ± 0% ~ (p=0.184 n=10+10) BM_UValidate/4 [pdf ] 2.88µs ± 0% 2.90µs ± 1% +0.68% (p=0.000 n=10+10) BM_UIOVec/0 [html ] 122µs ± 0% 122µs ± 0% -0.39% (p=0.000 n=10+10) BM_UIOVec/1 [urls ] 1.08ms ± 0% 1.08ms ± 0% ~ (p=0.529 n=10+10) BM_UIOVec/2 [jpg ] 7.71µs ±11% 7.76µs ± 9% ~ (p=0.853 n=10+10) BM_UIOVec/3 [jpg_200 ] 327ns ± 0% 328ns ± 0% ~ (p=0.146 n=8+10) BM_UIOVec/4 [pdf ] 12.1µs ± 1% 12.1µs ± 3% ~ (p=0.315 n=10+10) BM_UFlatSink/0 [html ] 41.8µs ± 0% 41.0µs ± 0% -1.87% (p=0.000 n=10+9) BM_UFlatSink/1 [urls ] 576µs ± 0% 572µs ± 0% -0.74% (p=0.000 n=9+10) BM_UFlatSink/2 [jpg ] 7.58µs ± 8% 7.56µs ± 9% ~ (p=0.739 n=10+10) BM_UFlatSink/3 [jpg_200 ] 133ns ± 0% 134ns ± 0% +0.60% (p=0.000 n=10+9) BM_UFlatSink/4 [pdf ] 8.44µs ± 3% 8.30µs ± 1% -1.65% (p=0.029 n=10+10) BM_UFlatSink/5 [html4 ] 220µs ± 0% 218µs ± 0% -0.81% (p=0.000 n=10+10) BM_UFlatSink/6 [txt1 ] 192µs ± 0% 190µs ± 0% -0.78% (p=0.000 n=10+10) BM_UFlatSink/7 [txt2 ] 169µs ± 0% 168µs ± 0% -0.59% (p=0.000 n=10+10) BM_UFlatSink/8 [txt3 ] 510µs ± 0% 508µs ± 0% -0.39% (p=0.000 n=10+10) BM_UFlatSink/9 [txt4 ] 707µs ± 0% 703µs ± 0% -0.62% (p=0.000 n=10+10) BM_UFlatSink/10 [pb ] 38.4µs ± 0% 37.4µs ± 0% -2.62% (p=0.000 n=9+9) BM_UFlatSink/11 [gaviota ] 189µs ± 0% 190µs ± 0% +0.63% (p=0.000 n=10+10) BM_UFlatSink/12 [cp ] 14.2µs ± 0% 14.1µs ± 0% -0.27% (p=0.011 n=10+10) BM_UFlatSink/13 [c ] 7.33µs ± 1% 7.35µs ± 1% ~ (p=0.243 n=10+9) BM_UFlatSink/14 [lsp ] 2.27µs ± 0% 2.26µs ± 0% -0.39% (p=0.000 n=9+9) BM_UFlatSink/15 [xls ] 904µs ± 0% 902µs ± 0% -0.28% (p=0.000 n=10+10) BM_UFlatSink/16 [xls_200 ] 216ns ± 1% 217ns ± 1% ~ (p=0.661 n=10+9) BM_UFlatSink/17 [bin ] 275µs ± 0% 274µs ± 0% -0.24% (p=0.000 n=8+9) BM_UFlatSink/18 [bin_200 ] 104ns ± 2% 104ns ± 1% -0.70% (p=0.043 n=9+10) BM_UFlatSink/19 [sum ] 27.8µs ± 0% 27.1µs ± 0% -2.51% (p=0.000 n=9+10) BM_UFlatSink/20 [man ] 3.02µs ± 1% 3.00µs ± 1% ~ (p=0.079 n=10+9) BM_ZFlat/0 [html (22.31 %) ] 126µs ± 0% 126µs ± 0% -0.24% (p=0.000 n=10+10) BM_ZFlat/1 [urls (47.78 %) ] 1.68ms ± 0% 1.67ms ± 0% -1.06% (p=0.000 n=10+10) BM_ZFlat/2 [jpg (99.95 %) ] 11.8µs ± 5% 11.6µs ± 5% ~ (p=0.165 n=10+10) BM_ZFlat/3 [jpg_200 (73.00 %)] 360ns ± 3% 358ns ± 1% ~ (p=0.762 n=10+8) BM_ZFlat/4 [pdf (83.30 %) ] 14.8µs ± 2% 14.6µs ± 1% -1.57% (p=0.022 n=10+9) BM_ZFlat/5 [html4 (22.52 %) ] 556µs ± 0% 552µs ± 0% -0.87% (p=0.000 n=10+10) BM_ZFlat/6 [txt1 (57.88 %) ] 542µs ± 0% 540µs ± 0% -0.47% (p=0.000 n=10+10) BM_ZFlat/7 [txt2 (61.91 %) ] 483µs ± 0% 480µs ± 0% -0.62% (p=0.000 n=10+10) BM_ZFlat/8 [txt3 (54.99 %) ] 1.45ms ± 0% 1.44ms ± 0% -0.47% (p=0.000 n=10+10) BM_ZFlat/9 [txt4 (66.26 %) ] 1.98ms ± 0% 1.97ms ± 0% -0.19% (p=0.007 n=10+10) BM_ZFlat/10 [pb (19.68 %) ] 111µs ± 0% 109µs ± 0% -1.75% (p=0.000 n=10+10) BM_ZFlat/11 [gaviota (37.72 %)] 411µs ± 0% 410µs ± 0% -0.21% (p=0.004 n=10+10) BM_ZFlat/12 [cp (48.12 %) ] 45.9µs ± 0% 45.5µs ± 0% -0.76% (p=0.000 n=10+10) BM_ZFlat/13 [c (42.47 %) ] 17.6µs ± 0% 17.5µs ± 0% -0.80% (p=0.000 n=10+10) BM_ZFlat/14 [lsp (48.37 %) ] 5.50µs ± 0% 5.44µs ± 0% -1.19% (p=0.000 n=9+10) BM_ZFlat/15 [xls (41.23 %) ] 1.63ms ± 0% 1.61ms ± 0% -1.21% (p=0.000 n=10+10) BM_ZFlat/16 [xls_200 (78.00 %)] 389ns ± 2% 391ns ± 1% ~ (p=0.182 n=10+9) BM_ZFlat/17 [bin (18.11 %) ] 509µs ± 0% 506µs ± 0% -0.51% (p=0.000 n=10+10) BM_ZFlat/18 [bin_200 (7.50 %) ] 92.7ns ± 0% 89.4ns ± 1% -3.55% (p=0.000 n=8+8) BM_ZFlat/19 [sum (48.96 %) ] 80.2µs ± 0% 78.9µs ± 0% -1.65% (p=0.000 n=10+10) BM_ZFlat/20 [man (59.21 %) ] 7.59µs ± 1% 7.59µs ± 1% ~ (p=0.912 n=10+10) name old allocs/op new allocs/op delta BM_UFlat/0 [html ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/1 [urls ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/2 [jpg ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/3 [jpg_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/4 [pdf ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/5 [html4 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/6 [txt1 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/7 [txt2 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/8 [txt3 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/9 [txt4 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/10 [pb ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/11 [gaviota ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/12 [cp ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/13 [c ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/14 [lsp ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/15 [xls ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/16 [xls_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/17 [bin ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/18 [bin_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/19 [sum ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/20 [man ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UValidate/0 [html ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UValidate/1 [urls ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UValidate/2 [jpg ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UValidate/3 [jpg_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UValidate/4 [pdf ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UIOVec/0 [html ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UIOVec/1 [urls ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UIOVec/2 [jpg ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UIOVec/3 [jpg_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UIOVec/4 [pdf ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/0 [html ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/1 [urls ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/2 [jpg ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/3 [jpg_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/4 [pdf ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/5 [html4 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/6 [txt1 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/7 [txt2 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/8 [txt3 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/9 [txt4 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/10 [pb ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/11 [gaviota ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/12 [cp ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/13 [c ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/14 [lsp ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/15 [xls ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/16 [xls_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/17 [bin ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/18 [bin_200 ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/19 [sum ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlatSink/20 [man ] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_ZFlat/0 [html (22.31 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/1 [urls (47.78 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/2 [jpg (99.95 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/3 [jpg_200 (73.00 %)] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/4 [pdf (83.30 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/5 [html4 (22.52 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/6 [txt1 (57.88 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/7 [txt2 (61.91 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/8 [txt3 (54.99 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/9 [txt4 (66.26 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/10 [pb (19.68 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/11 [gaviota (37.72 %)] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/12 [cp (48.12 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/13 [c (42.47 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/14 [lsp (48.37 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/15 [xls (41.23 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/16 [xls_200 (78.00 %)] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/17 [bin (18.11 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/18 [bin_200 (7.50 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/19 [sum (48.96 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) BM_ZFlat/20 [man (59.21 %) ] 1.00 ± 0% 1.00 ± 0% ~ (all samples are equal) name old peak-mem(Bytes)/op new peak-mem(Bytes)/op delta BM_UFlat/0 [html ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/1 [urls ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/2 [jpg ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/3 [jpg_200 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/4 [pdf ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/5 [html4 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/6 [txt1 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/7 [txt2 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/8 [txt3 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/9 [txt4 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/10 [pb ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/11 [gaviota ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/12 [cp ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/13 [c ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/14 [lsp ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/15 [xls ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/16 [xls_200 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/17 [bin ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/18 [bin_200 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/19 [sum ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlat/20 [man ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UValidate/0 [html ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UValidate/1 [urls ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UValidate/2 [jpg ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UValidate/3 [jpg_200 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UValidate/4 [pdf ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UIOVec/0 [html ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UIOVec/1 [urls ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UIOVec/2 [jpg ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UIOVec/3 [jpg_200 ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UIOVec/4 [pdf ] 4.00 ± 0% 4.00 ± 0% ~ (all samples are equal) BM_UFlatSink/0 [html ] 102k ± 0% 102k ± 0% ~ (all samples are equal) BM_UFlatSink/1 [urls ] 702k ± 0% 702k ± 0% ~ (all samples are equal) BM_UFlatSink/2 [jpg ] 123k ± 0% 123k ± 0% ~ (all samples are equal) BM_UFlatSink/3 [jpg_200 ] 201 ± 0% 201 ± 0% ~ (all samples are equal) BM_UFlatSink/4 [pdf ] 102k ± 0% 102k ± 0% ~ (all samples are equal) BM_UFlatSink/5 [html4 ] 410k ± 0% 410k ± 0% ~ (all samples are equal) BM_UFlatSink/6 [txt1 ] 152k ± 0% 152k ± 0% ~ (all samples are equal) BM_UFlatSink/7 [txt2 ] 125k ± 0% 125k ± 0% ~ (all samples are equal) BM_UFlatSink/8 [txt3 ] 427k ± 0% 427k ± 0% ~ (all samples are equal) BM_UFlatSink/9 [txt4 ] 482k ± 0% 482k ± 0% ~ (all samples are equal) BM_UFlatSink/10 [pb ] 119k ± 0% 119k ± 0% ~ (all samples are equal) BM_UFlatSink/11 [gaviota ] 184k ± 0% 184k ± 0% ~ (all samples are equal) BM_UFlatSink/12 [cp ] 24.6k ± 0% 24.6k ± 0% ~ (all samples are equal) BM_UFlatSink/13 [c ] 11.2k ± 0% 11.2k ± 0% ~ (all samples are equal) BM_UFlatSink/14 [lsp ] 3.72k ± 0% 3.72k ± 0% ~ (all samples are equal) BM_UFlatSink/15 [xls ] 1.03M ± 0% 1.03M ± 0% ~ (all samples are equal) BM_UFlatSink/16 [xls_200 ] 201 ± 0% 201 ± 0% ~ (all samples are equal) BM_UFlatSink/17 [bin ] 513k ± 0% 513k ± 0% ~ (all samples are equal) BM_UFlatSink/18 [bin_200 ] 201 ± 0% 201 ± 0% ~ (all samples are equal) BM_UFlatSink/19 [sum ] 38.2k ± 0% 38.2k ± 0% ~ (all samples are equal) BM_UFlatSink/20 [man ] 4.23k ± 0% 4.23k ± 0% ~ (all samples are equal) BM_ZFlat/0 [html (22.31 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/1 [urls (47.78 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/2 [jpg (99.95 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/3 [jpg_200 (73.00 %)] 63.3k ± 0% 63.3k ± 0% ~ (all samples are equal) BM_ZFlat/4 [pdf (83.30 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/5 [html4 (22.52 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/6 [txt1 (57.88 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/7 [txt2 (61.91 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/8 [txt3 (54.99 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/9 [txt4 (66.26 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/10 [pb (19.68 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/11 [gaviota (37.72 %)] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/12 [cp (48.12 %) ] 86.1k ± 0% 86.1k ± 0% ~ (all samples are equal) BM_ZFlat/13 [c (42.47 %) ] 63.3k ± 0% 63.3k ± 0% ~ (all samples are equal) BM_ZFlat/14 [lsp (48.37 %) ] 63.3k ± 0% 63.3k ± 0% ~ (all samples are equal) BM_ZFlat/15 [xls (41.23 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/16 [xls_200 (78.00 %)] 63.3k ± 0% 63.3k ± 0% ~ (all samples are equal) BM_ZFlat/17 [bin (18.11 %) ] 175k ± 0% 175k ± 0% ~ (all samples are equal) BM_ZFlat/18 [bin_200 (7.50 %) ] 63.3k ± 0% 63.3k ± 0% ~ (all samples are equal) BM_ZFlat/19 [sum (48.96 %) ] 116k ± 0% 116k ± 0% ~ (all samples are equal) BM_ZFlat/20 [man (59.21 %) ] 63.3k ± 0% 63.3k ± 0% ~ (all samples are equal) name old speed new speed delta BM_UFlat/0 [html ] 2.45GB/s ± 0% 2.50GB/s ± 0% +1.96% (p=0.000 n=10+10) BM_UFlat/1 [urls ] 1.22GB/s ± 0% 1.23GB/s ± 0% +0.69% (p=0.000 n=10+10) BM_UFlat/2 [jpg ] 17.0GB/s ± 5% 17.3GB/s ± 1% ~ (p=0.074 n=9+8) BM_UFlat/3 [jpg_200 ] 1.52GB/s ± 1% 1.54GB/s ± 0% +1.44% (p=0.000 n=10+8) BM_UFlat/4 [pdf ] 12.5GB/s ± 1% 12.5GB/s ± 0% ~ (p=0.721 n=8+8) BM_UFlat/5 [html4 ] 1.87GB/s ± 0% 1.88GB/s ± 0% +0.76% (p=0.000 n=10+10) BM_UFlat/6 [txt1 ] 795MB/s ± 0% 801MB/s ± 0% +0.79% (p=0.000 n=10+10) BM_UFlat/7 [txt2 ] 741MB/s ± 0% 746MB/s ± 0% +0.68% (p=0.000 n=10+10) BM_UFlat/8 [txt3 ] 840MB/s ± 0% 844MB/s ± 0% +0.44% (p=0.000 n=10+10) BM_UFlat/9 [txt4 ] 684MB/s ± 0% 688MB/s ± 0% +0.65% (p=0.000 n=9+10) BM_UFlat/10 [pb ] 3.09GB/s ± 0% 3.18GB/s ± 0% +2.88% (p=0.000 n=10+9) BM_UFlat/11 [gaviota ] 980MB/s ± 0% 975MB/s ± 0% -0.57% (p=0.000 n=10+10) BM_UFlat/12 [cp ] 1.74GB/s ± 0% 1.75GB/s ± 0% +0.38% (p=0.001 n=10+9) BM_UFlat/13 [c ] 1.53GB/s ± 1% 1.52GB/s ± 0% -0.55% (p=0.003 n=10+10) BM_UFlat/14 [lsp ] 1.64GB/s ± 0% 1.64GB/s ± 1% ~ (p=0.400 n=9+10) BM_UFlat/15 [xls ] 1.14GB/s ± 0% 1.14GB/s ± 0% +0.23% (p=0.000 n=10+10) BM_UFlat/16 [xls_200 ] 936MB/s ± 1% 941MB/s ± 1% ~ (p=0.052 n=10+10) BM_UFlat/17 [bin ] 1.87GB/s ± 0% 1.88GB/s ± 0% +0.28% (p=0.000 n=10+10) BM_UFlat/18 [bin_200 ] 1.97GB/s ± 5% 1.99GB/s ± 3% ~ (p=0.136 n=9+9) BM_UFlat/19 [sum ] 1.37GB/s ± 0% 1.41GB/s ± 0% +2.82% (p=0.000 n=10+9) BM_UFlat/20 [man ] 1.42GB/s ± 1% 1.42GB/s ± 0% ~ (p=0.579 n=10+10) BM_UValidate/0 [html ] 3.08GB/s ± 0% 3.05GB/s ± 0% -1.18% (p=0.000 n=10+10) BM_UValidate/1 [urls ] 1.59GB/s ± 0% 1.59GB/s ± 0% ~ (p=0.247 n=10+10) BM_UValidate/2 [jpg ] 845GB/s ± 0% 846GB/s ± 0% +0.09% (p=0.000 n=10+10) BM_UValidate/3 [jpg_200 ] 2.04GB/s ± 0% 2.04GB/s ± 0% -0.09% (p=0.019 n=10+10) BM_UValidate/4 [pdf ] 35.7GB/s ± 0% 35.4GB/s ± 1% -0.70% (p=0.000 n=10+10) BM_UIOVec/0 [html ] 841MB/s ± 0% 844MB/s ± 0% +0.36% (p=0.000 n=10+10) BM_UIOVec/1 [urls ] 650MB/s ± 0% 650MB/s ± 0% ~ (p=0.105 n=10+10) BM_UIOVec/2 [jpg ] 16.1GB/s ±10% 15.9GB/s ± 8% ~ (p=0.853 n=10+10) BM_UIOVec/3 [jpg_200 ] 612MB/s ± 1% 612MB/s ± 0% ~ (p=0.243 n=9+10) BM_UIOVec/4 [pdf ] 8.52GB/s ± 2% 8.46GB/s ± 3% ~ (p=0.436 n=10+10) BM_UFlatSink/0 [html ] 2.46GB/s ± 0% 2.50GB/s ± 0% +1.83% (p=0.000 n=9+10) BM_UFlatSink/1 [urls ] 1.22GB/s ± 0% 1.23GB/s ± 0% +0.73% (p=0.000 n=10+10) BM_UFlatSink/2 [jpg ] 16.3GB/s ± 8% 16.4GB/s ± 9% ~ (p=0.739 n=10+10) BM_UFlatSink/3 [jpg_200 ] 1.51GB/s ± 0% 1.50GB/s ± 0% -0.62% (p=0.000 n=10+9) BM_UFlatSink/4 [pdf ] 12.2GB/s ± 3% 12.4GB/s ± 1% +1.62% (p=0.029 n=10+10) BM_UFlatSink/5 [html4 ] 1.87GB/s ± 0% 1.88GB/s ± 0% +0.79% (p=0.000 n=10+10) BM_UFlatSink/6 [txt1 ] 795MB/s ± 0% 801MB/s ± 0% +0.74% (p=0.000 n=10+9) BM_UFlatSink/7 [txt2 ] 741MB/s ± 0% 745MB/s ± 0% +0.59% (p=0.000 n=10+9) BM_UFlatSink/8 [txt3 ] 840MB/s ± 0% 843MB/s ± 0% +0.37% (p=0.000 n=9+10) BM_UFlatSink/9 [txt4 ] 684MB/s ± 0% 688MB/s ± 0% +0.57% (p=0.000 n=9+10) BM_UFlatSink/10 [pb ] 3.10GB/s ± 0% 3.18GB/s ± 0% +2.64% (p=0.000 n=9+10) BM_UFlatSink/11 [gaviota ] 980MB/s ± 0% 974MB/s ± 0% -0.64% (p=0.000 n=10+10) BM_UFlatSink/12 [cp ] 1.74GB/s ± 0% 1.75GB/s ± 0% +0.26% (p=0.005 n=10+10) BM_UFlatSink/13 [c ] 1.52GB/s ± 1% 1.52GB/s ± 1% ~ (p=0.123 n=10+10) BM_UFlatSink/14 [lsp ] 1.64GB/s ± 0% 1.65GB/s ± 0% +0.46% (p=0.000 n=10+8) BM_UFlatSink/15 [xls ] 1.14GB/s ± 0% 1.15GB/s ± 0% +0.27% (p=0.000 n=10+10) BM_UFlatSink/16 [xls_200 ] 927MB/s ± 1% 926MB/s ± 1% ~ (p=0.497 n=10+9) BM_UFlatSink/17 [bin ] 1.87GB/s ± 0% 1.88GB/s ± 0% +0.27% (p=0.000 n=10+10) BM_UFlatSink/18 [bin_200 ] 1.92GB/s ± 2% 1.93GB/s ± 1% +0.70% (p=0.035 n=9+10) BM_UFlatSink/19 [sum ] 1.38GB/s ± 0% 1.41GB/s ± 0% +2.59% (p=0.000 n=9+10) BM_UFlatSink/20 [man ] 1.40GB/s ± 1% 1.41GB/s ± 1% ~ (p=0.079 n=10+9) BM_ZFlat/0 [html (22.31 %) ] 814MB/s ± 0% 816MB/s ± 0% +0.23% (p=0.000 n=10+10) BM_ZFlat/1 [urls (47.78 %) ] 418MB/s ± 0% 423MB/s ± 0% +1.06% (p=0.000 n=10+10) BM_ZFlat/2 [jpg (99.95 %) ] 10.5GB/s ± 5% 10.7GB/s ± 5% ~ (p=0.165 n=10+10) BM_ZFlat/3 [jpg_200 (73.00 %)] 558MB/s ± 3% 560MB/s ± 1% ~ (p=0.696 n=10+8) BM_ZFlat/4 [pdf (83.30 %) ] 6.94GB/s ± 2% 7.05GB/s ± 1% +1.59% (p=0.028 n=10+9) BM_ZFlat/5 [html4 (22.52 %) ] 739MB/s ± 0% 745MB/s ± 0% +0.86% (p=0.000 n=10+10) BM_ZFlat/6 [txt1 (57.88 %) ] 281MB/s ± 0% 283MB/s ± 0% +0.46% (p=0.000 n=10+10) BM_ZFlat/7 [txt2 (61.91 %) ] 260MB/s ± 0% 261MB/s ± 0% +0.59% (p=0.000 n=10+10) BM_ZFlat/8 [txt3 (54.99 %) ] 296MB/s ± 0% 297MB/s ± 0% +0.45% (p=0.000 n=10+10) BM_ZFlat/9 [txt4 (66.26 %) ] 244MB/s ± 0% 245MB/s ± 0% +0.16% (p=0.000 n=10+10) BM_ZFlat/10 [pb (19.68 %) ] 1.07GB/s ± 0% 1.09GB/s ± 0% +1.75% (p=0.000 n=10+10) BM_ZFlat/11 [gaviota (37.72 %)] 450MB/s ± 0% 451MB/s ± 0% +0.17% (p=0.000 n=9+10) BM_ZFlat/12 [cp (48.12 %) ] 538MB/s ± 0% 542MB/s ± 0% +0.74% (p=0.000 n=10+10) BM_ZFlat/13 [c (42.47 %) ] 635MB/s ± 0% 640MB/s ± 0% +0.80% (p=0.000 n=10+10) BM_ZFlat/14 [lsp (48.37 %) ] 678MB/s ± 0% 686MB/s ± 1% +1.18% (p=0.000 n=9+10) BM_ZFlat/15 [xls (41.23 %) ] 633MB/s ± 0% 641MB/s ± 0% +1.23% (p=0.000 n=10+7) BM_ZFlat/16 [xls_200 (78.00 %)] 516MB/s ± 2% 513MB/s ± 1% ~ (p=0.156 n=10+9) BM_ZFlat/17 [bin (18.11 %) ] 1.01GB/s ± 0% 1.02GB/s ± 0% +0.49% (p=0.000 n=10+10) BM_ZFlat/18 [bin_200 (7.50 %) ] 2.16GB/s ± 0% 2.24GB/s ± 1% +3.65% (p=0.000 n=8+8) BM_ZFlat/19 [sum (48.96 %) ] 478MB/s ± 0% 486MB/s ± 0% +1.66% (p=0.000 n=10+10) BM_ZFlat/20 [man (59.21 %) ] 558MB/s ± 1% 558MB/s ± 1% ~ (p=0.912 n=10+10) |
|
alkis | 53a38e5e33 |
Reduce number of allocations when compressing and simplify the code.
Before we were allocating at least once: twice with large table and thrice when we used a scratch buffer. With this approach we always allocate once. name old speed new speed delta BM_UFlat/0 [html ] 2.45GB/s ± 0% 2.45GB/s ± 0% -0.13% (p=0.000 n=11+11) BM_UFlat/1 [urls ] 1.19GB/s ± 0% 1.22GB/s ± 0% +2.48% (p=0.000 n=11+11) BM_UFlat/2 [jpg ] 17.2GB/s ± 2% 17.3GB/s ± 1% ~ (p=0.193 n=11+11) BM_UFlat/3 [jpg_200 ] 1.52GB/s ± 0% 1.51GB/s ± 0% -0.78% (p=0.000 n=10+9) BM_UFlat/4 [pdf ] 12.5GB/s ± 1% 12.5GB/s ± 1% ~ (p=0.881 n=9+9) BM_UFlat/5 [html4 ] 1.86GB/s ± 0% 1.86GB/s ± 0% ~ (p=0.123 n=11+11) BM_UFlat/6 [txt1 ] 793MB/s ± 0% 799MB/s ± 0% +0.78% (p=0.000 n=11+9) BM_UFlat/7 [txt2 ] 739MB/s ± 0% 744MB/s ± 0% +0.77% (p=0.000 n=11+11) BM_UFlat/8 [txt3 ] 839MB/s ± 0% 845MB/s ± 0% +0.71% (p=0.000 n=11+11) BM_UFlat/9 [txt4 ] 678MB/s ± 0% 685MB/s ± 0% +1.01% (p=0.000 n=11+11) BM_UFlat/10 [pb ] 3.08GB/s ± 0% 3.12GB/s ± 0% +1.21% (p=0.000 n=11+11) BM_UFlat/11 [gaviota ] 975MB/s ± 0% 976MB/s ± 0% +0.11% (p=0.000 n=11+11) BM_UFlat/12 [cp ] 1.73GB/s ± 1% 1.74GB/s ± 1% +0.46% (p=0.010 n=11+11) BM_UFlat/13 [c ] 1.53GB/s ± 0% 1.53GB/s ± 0% ~ (p=0.987 n=11+10) BM_UFlat/14 [lsp ] 1.65GB/s ± 0% 1.63GB/s ± 1% -1.04% (p=0.000 n=11+11) BM_UFlat/15 [xls ] 1.08GB/s ± 0% 1.15GB/s ± 0% +6.12% (p=0.000 n=10+11) BM_UFlat/16 [xls_200 ] 944MB/s ± 0% 920MB/s ± 3% -2.51% (p=0.000 n=9+11) BM_UFlat/17 [bin ] 1.86GB/s ± 0% 1.87GB/s ± 0% +0.68% (p=0.000 n=10+11) BM_UFlat/18 [bin_200 ] 1.91GB/s ± 3% 1.92GB/s ± 5% ~ (p=0.356 n=11+11) BM_UFlat/19 [sum ] 1.31GB/s ± 0% 1.40GB/s ± 0% +6.53% (p=0.000 n=11+11) BM_UFlat/20 [man ] 1.42GB/s ± 0% 1.42GB/s ± 0% +0.33% (p=0.000 n=10+10) |
|
ckennelly | df5548c0b3 |
Use sized deallocation when releasing Zippy's scratch buffers.
name old time/op new time/op delta BM_UFlat/0 [html ] 41.7µs ± 0% 41.7µs ± 0% ~ (p=0.222 n=5+5) BM_UFlat/1 [urls ] 587µs ± 0% 574µs ± 0% -2.31% (p=0.008 n=5+5) BM_UFlat/2 [jpg ] 7.24µs ± 2% 7.25µs ± 2% ~ (p=0.690 n=5+5) BM_UFlat/3 [jpg_200 ] 130ns ± 0% 131ns ± 1% ~ (p=0.556 n=4+5) BM_UFlat/4 [pdf ] 8.21µs ± 0% 8.24µs ± 1% ~ (p=0.278 n=5+5) BM_UFlat/5 [html4 ] 219µs ± 0% 220µs ± 0% +0.45% (p=0.008 n=5+5) BM_UFlat/6 [txt1 ] 192µs ± 0% 190µs ± 0% -0.86% (p=0.008 n=5+5) BM_UFlat/7 [txt2 ] 169µs ± 0% 168µs ± 0% -0.54% (p=0.008 n=5+5) BM_UFlat/8 [txt3 ] 509µs ± 0% 505µs ± 0% -0.66% (p=0.008 n=5+5) BM_UFlat/9 [txt4 ] 710µs ± 0% 702µs ± 0% -1.14% (p=0.008 n=5+5) BM_UFlat/10 [pb ] 38.2µs ± 0% 37.9µs ± 0% -0.82% (p=0.008 n=5+5) BM_UFlat/11 [gaviota ] 189µs ± 0% 189µs ± 0% ~ (p=0.746 n=5+5) BM_UFlat/12 [cp ] 14.2µs ± 0% 14.2µs ± 1% ~ (p=0.421 n=5+5) BM_UFlat/13 [c ] 7.29µs ± 0% 7.34µs ± 1% +0.69% (p=0.016 n=5+5) BM_UFlat/14 [lsp ] 2.27µs ± 0% 2.28µs ± 0% +0.34% (p=0.008 n=5+5) BM_UFlat/15 [xls ] 954µs ± 0% 900µs ± 0% -5.67% (p=0.008 n=5+5) BM_UFlat/16 [xls_200 ] 213ns ± 1% 217ns ± 2% ~ (p=0.056 n=5+5) BM_UFlat/17 [bin ] 276µs ± 0% 274µs ± 0% -0.94% (p=0.008 n=5+5) BM_UFlat/18 [bin_200 ] 101ns ± 1% 101ns ± 1% ~ (p=0.524 n=5+5) BM_UFlat/19 [sum ] 29.3µs ± 0% 27.3µs ± 0% -6.98% (p=0.008 n=5+5) BM_UFlat/20 [man ] 2.95µs ± 0% 2.95µs ± 0% ~ (p=0.651 n=5+5) For microbenchmarks, the overhead of allocating/deallocating should be small (the relevant metadata for TCMalloc's PageMap will be in cache), but this helps demonstrate that the refactoring does not adversely impact performance. |
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alkis | 1b7466e143 |
Compute the wordmask instead of looking it up in a table.
Tested: name old speed new speed delta BM_UFlat/0 [html ] 2.13GB/s ± 0% 2.46GB/s ± 0% +15.70% (p=0.000 n=10+8) BM_UFlat/1 [urls ] 1.21GB/s ± 0% 1.20GB/s ± 0% -1.49% (p=0.000 n=9+10) BM_UFlat/2 [jpg ] 17.1GB/s ± 1% 17.2GB/s ± 1% ~ (p=0.120 n=11+11) BM_UFlat/3 [jpg_200] 1.55GB/s ± 0% 1.54GB/s ± 0% -0.96% (p=0.000 n=10+7) BM_UFlat/4 [pdf ] 12.9GB/s ± 0% 12.6GB/s ± 0% -1.98% (p=0.000 n=11+9) BM_UFlat/5 [html4 ] 1.87GB/s ± 0% 1.87GB/s ± 0% -0.06% (p=0.033 n=11+11) BM_UFlat/6 [txt1 ] 816MB/s ± 0% 793MB/s ± 0% -2.84% (p=0.000 n=11+11) BM_UFlat/7 [txt2 ] 758MB/s ± 0% 737MB/s ± 0% -2.77% (p=0.000 n=11+11) BM_UFlat/8 [txt3 ] 865MB/s ± 0% 839MB/s ± 0% -2.94% (p=0.000 n=11+8) BM_UFlat/9 [txt4 ] 701MB/s ± 0% 679MB/s ± 0% -3.11% (p=0.000 n=11+10) BM_UFlat/10 [pb ] 2.60GB/s ± 2% 3.07GB/s ± 0% +17.81% (p=0.000 n=11+11) BM_UFlat/11 [gaviota] 1.01GB/s ± 0% 0.97GB/s ± 0% -3.83% (p=0.000 n=11+10) BM_UFlat/12 [cp ] 1.66GB/s ± 1% 1.73GB/s ± 1% +4.32% (p=0.000 n=11+11) BM_UFlat/13 [c ] 1.52GB/s ± 1% 1.53GB/s ± 0% +0.49% (p=0.002 n=11+11) BM_UFlat/14 [lsp ] 1.61GB/s ± 0% 1.64GB/s ± 0% +2.10% (p=0.000 n=10+11) BM_UFlat/15 [xls ] 1.12GB/s ± 0% 1.08GB/s ± 0% -3.95% (p=0.000 n=11+7) BM_UFlat/16 [xls_200] 926MB/s ± 1% 935MB/s ± 1% ~ (p=0.056 n=9+11) BM_UFlat/17 [bin ] 1.89GB/s ± 0% 1.86GB/s ± 0% -1.32% (p=0.000 n=11+11) BM_UFlat/18 [bin_200] 1.96GB/s ± 0% 1.99GB/s ± 1% +1.78% (p=0.000 n=11+11) BM_UFlat/19 [sum ] 1.32GB/s ± 0% 1.31GB/s ± 0% -0.79% (p=0.000 n=11+10) BM_UFlat/20 [man ] 1.40GB/s ± 0% 1.43GB/s ± 0% +2.51% (p=0.000 n=9+10) BM_UValidate/0 [html ] 2.95GB/s ± 1% 3.07GB/s ± 0% +4.11% (p=0.000 n=10+11) BM_UValidate/1 [urls ] 1.57GB/s ± 0% 1.60GB/s ± 0% +2.24% (p=0.000 n=10+11) BM_UValidate/2 [jpg ] 822GB/s ± 0% 850GB/s ± 0% +3.42% (p=0.000 n=10+11) BM_UValidate/3 [jpg_200] 2.01GB/s ± 0% 2.04GB/s ± 0% +1.24% (p=0.000 n=11+11) BM_UValidate/4 [pdf ] 33.7GB/s ± 0% 35.9GB/s ± 1% +6.51% (p=0.000 n=10+11) BM_UIOVec/0 [html ] 852MB/s ± 0% 852MB/s ± 0% ~ (p=0.898 n=11+11) BM_UIOVec/1 [urls ] 663MB/s ± 0% 652MB/s ± 0% -1.61% (p=0.000 n=11+11) BM_UIOVec/2 [jpg ] 15.3GB/s ± 1% 15.3GB/s ± 2% ~ (p=0.459 n=9+10) BM_UIOVec/3 [jpg_200] 652MB/s ± 0% 627MB/s ± 1% -3.80% (p=0.000 n=10+11) BM_UIOVec/4 [pdf ] 8.80GB/s ± 1% 8.57GB/s ± 1% -2.62% (p=0.000 n=10+11) BM_UFlatSink/0 [html ] 2.13GB/s ± 0% 2.46GB/s ± 0% +15.63% (p=0.000 n=11+11) BM_UFlatSink/1 [urls ] 1.21GB/s ± 0% 1.20GB/s ± 0% -1.42% (p=0.000 n=11+10) BM_UFlatSink/2 [jpg ] 17.1GB/s ± 2% 17.2GB/s ± 1% ~ (p=0.175 n=11+9) BM_UFlatSink/3 [jpg_200] 1.52GB/s ± 1% 1.47GB/s ± 3% -3.15% (p=0.000 n=11+11) BM_UFlatSink/4 [pdf ] 12.8GB/s ± 1% 12.6GB/s ± 1% -1.76% (p=0.000 n=11+11) BM_UFlatSink/5 [html4 ] 1.87GB/s ± 0% 1.87GB/s ± 0% -0.19% (p=0.000 n=11+10) BM_UFlatSink/6 [txt1 ] 816MB/s ± 0% 792MB/s ± 0% -2.94% (p=0.000 n=11+11) BM_UFlatSink/7 [txt2 ] 758MB/s ± 0% 736MB/s ± 0% -2.83% (p=0.000 n=11+11) BM_UFlatSink/8 [txt3 ] 865MB/s ± 0% 838MB/s ± 0% -3.13% (p=0.000 n=11+11) BM_UFlatSink/9 [txt4 ] 701MB/s ± 0% 678MB/s ± 0% -3.20% (p=0.000 n=11+11) BM_UFlatSink/10 [pb ] 2.60GB/s ± 2% 3.07GB/s ± 0% +18.27% (p=0.000 n=11+10) BM_UFlatSink/11 [gaviota] 1.01GB/s ± 0% 0.97GB/s ± 0% -3.90% (p=0.000 n=11+11) BM_UFlatSink/12 [cp ] 1.66GB/s ± 1% 1.73GB/s ± 1% +4.62% (p=0.000 n=11+10) BM_UFlatSink/13 [c ] 1.52GB/s ± 0% 1.53GB/s ± 1% ~ (p=0.180 n=9+11) BM_UFlatSink/14 [lsp ] 1.61GB/s ± 0% 1.64GB/s ± 1% +1.98% (p=0.000 n=9+11) BM_UFlatSink/15 [xls ] 1.12GB/s ± 0% 1.08GB/s ± 0% -3.76% (p=0.000 n=11+11) BM_UFlatSink/16 [xls_200] 909MB/s ± 2% 924MB/s ± 1% +1.62% (p=0.000 n=11+11) BM_UFlatSink/17 [bin ] 1.88GB/s ± 0% 1.86GB/s ± 0% -1.18% (p=0.000 n=9+11) BM_UFlatSink/18 [bin_200] 1.94GB/s ± 2% 1.94GB/s ± 1% ~ (p=0.090 n=11+11) BM_UFlatSink/19 [sum ] 1.32GB/s ± 0% 1.31GB/s ± 0% -0.76% (p=0.000 n=11+11) BM_UFlatSink/20 [man ] 1.39GB/s ± 2% 1.43GB/s ± 0% +2.75% (p=0.000 n=11+10) Assembly before: * 44 8b 5c 85 a0 mov -0x60(%rbp,%rax,4),%r11d 45 23 5d 00 and 0x0(%r13),%r11d 89 d6 mov %edx,%esi 81 e6 00 07 00 00 and $0x700,%esi Assembly after: * 89 c1 mov %eax,%ecx * c0 e1 03 shl $0x3,%cl * bf ff ff ff ff mov $0xffffffff,%edi * 48 d3 e7 shl %cl,%rdi * f7 d7 not %edi 41 23 7d 00 and 0x0(%r13),%edi 41 89 d3 mov %edx,%r11d 41 81 e3 00 07 00 00 and $0x700,%r11d |
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costan | ea660b57d6 | Fix unused private field warning in NDEBUG builds. | |
costan | 7fefd231a1 |
C++11 guarantees <cstddef> and <cstdint>.
The build configuration can be cleaned up a bit. |
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costan | ad82620f6f |
Move pshufb_fill_patterns from snappy-internal.h to snappy.cc.
The array of constants is only used in the SSSE3 fast-path in IncrementalCopy. |
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costan | 73c31e824c |
Fix Visual Studio build.
Commit |
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jefflim | 27ff0af12a |
Improve performance of zippy decompression to IOVecs by up to almost 50%
1) Simplify loop condition for small pattern IncrementalCopy 2) Use pointers rather than indices to track current iovec. 3) Use fast IncrementalCopy 4) Bypass Append check from within AppendFromSelf While this code greatly improves the performance of ZippyIOVecWriter, a bigger question is whether IOVec writing should be improved, or removed. Perf tests: name old speed new speed delta BM_UFlat/0 [html ] 2.13GB/s ± 0% 2.14GB/s ± 1% ~ BM_UFlat/1 [urls ] 1.22GB/s ± 0% 1.24GB/s ± 0% +1.87% BM_UFlat/2 [jpg ] 17.2GB/s ± 1% 17.1GB/s ± 0% ~ BM_UFlat/3 [jpg_200 ] 1.55GB/s ± 0% 1.53GB/s ± 2% ~ BM_UFlat/4 [pdf ] 12.8GB/s ± 1% 12.7GB/s ± 2% -0.36% BM_UFlat/5 [html4 ] 1.89GB/s ± 0% 1.90GB/s ± 1% ~ BM_UFlat/6 [txt1 ] 811MB/s ± 0% 829MB/s ± 1% +2.24% BM_UFlat/7 [txt2 ] 756MB/s ± 0% 774MB/s ± 1% +2.41% BM_UFlat/8 [txt3 ] 860MB/s ± 0% 879MB/s ± 1% +2.16% BM_UFlat/9 [txt4 ] 699MB/s ± 0% 715MB/s ± 1% +2.31% BM_UFlat/10 [pb ] 2.64GB/s ± 0% 2.65GB/s ± 1% ~ BM_UFlat/11 [gaviota ] 1.00GB/s ± 0% 0.99GB/s ± 2% ~ BM_UFlat/12 [cp ] 1.66GB/s ± 1% 1.66GB/s ± 2% ~ BM_UFlat/13 [c ] 1.53GB/s ± 0% 1.47GB/s ± 5% -3.97% BM_UFlat/14 [lsp ] 1.60GB/s ± 1% 1.55GB/s ± 5% -3.41% BM_UFlat/15 [xls ] 1.12GB/s ± 0% 1.15GB/s ± 0% +1.93% BM_UFlat/16 [xls_200 ] 918MB/s ± 2% 929MB/s ± 1% +1.15% BM_UFlat/17 [bin ] 1.86GB/s ± 0% 1.89GB/s ± 1% +1.61% BM_UFlat/18 [bin_200 ] 1.90GB/s ± 1% 1.97GB/s ± 1% +3.67% BM_UFlat/19 [sum ] 1.32GB/s ± 0% 1.33GB/s ± 1% ~ BM_UFlat/20 [man ] 1.39GB/s ± 0% 1.36GB/s ± 3% ~ BM_UValidate/0 [html ] 2.85GB/s ± 3% 2.90GB/s ± 0% ~ BM_UValidate/1 [urls ] 1.57GB/s ± 0% 1.56GB/s ± 0% -0.20% BM_UValidate/2 [jpg ] 824GB/s ± 0% 825GB/s ± 0% +0.11% BM_UValidate/3 [jpg_200 ] 2.01GB/s ± 0% 2.02GB/s ± 0% +0.10% BM_UValidate/4 [pdf ] 30.4GB/s ±11% 33.5GB/s ± 0% ~ BM_UIOVec/0 [html ] 604MB/s ± 0% 856MB/s ± 0% +41.70% BM_UIOVec/1 [urls ] 440MB/s ± 0% 660MB/s ± 0% +49.91% BM_UIOVec/2 [jpg ] 15.1GB/s ± 1% 15.3GB/s ± 1% +1.22% BM_UIOVec/3 [jpg_200 ] 567MB/s ± 1% 629MB/s ± 0% +10.89% BM_UIOVec/4 [pdf ] 7.16GB/s ± 2% 8.56GB/s ± 1% +19.64% BM_UFlatSink/0 [html ] 2.13GB/s ± 0% 2.16GB/s ± 0% +1.47% BM_UFlatSink/1 [urls ] 1.22GB/s ± 0% 1.25GB/s ± 0% +2.18% BM_UFlatSink/2 [jpg ] 17.1GB/s ± 2% 17.1GB/s ± 2% ~ BM_UFlatSink/3 [jpg_200 ] 1.51GB/s ± 1% 1.53GB/s ± 2% +1.11% BM_UFlatSink/4 [pdf ] 12.7GB/s ± 2% 12.8GB/s ± 1% +0.67% BM_UFlatSink/5 [html4 ] 1.90GB/s ± 0% 1.92GB/s ± 0% +1.31% BM_UFlatSink/6 [txt1 ] 810MB/s ± 0% 835MB/s ± 0% +3.04% BM_UFlatSink/7 [txt2 ] 755MB/s ± 0% 779MB/s ± 0% +3.19% BM_UFlatSink/8 [txt3 ] 859MB/s ± 0% 884MB/s ± 0% +2.86% BM_UFlatSink/9 [txt4 ] 698MB/s ± 0% 718MB/s ± 0% +2.96% BM_UFlatSink/10 [pb ] 2.64GB/s ± 0% 2.67GB/s ± 0% +1.16% BM_UFlatSink/11 [gaviota ] 1.00GB/s ± 0% 1.01GB/s ± 0% +1.04% BM_UFlatSink/12 [cp ] 1.66GB/s ± 1% 1.68GB/s ± 1% +0.83% BM_UFlatSink/13 [c ] 1.52GB/s ± 1% 1.53GB/s ± 0% +0.38% BM_UFlatSink/14 [lsp ] 1.60GB/s ± 1% 1.61GB/s ± 0% +0.91% BM_UFlatSink/15 [xls ] 1.12GB/s ± 0% 1.15GB/s ± 0% +1.96% BM_UFlatSink/16 [xls_200 ] 906MB/s ± 3% 920MB/s ± 1% +1.55% BM_UFlatSink/17 [bin ] 1.86GB/s ± 0% 1.90GB/s ± 0% +2.15% BM_UFlatSink/18 [bin_200 ] 1.85GB/s ± 2% 1.92GB/s ± 2% +4.01% BM_UFlatSink/19 [sum ] 1.32GB/s ± 1% 1.35GB/s ± 0% +2.23% BM_UFlatSink/20 [man ] 1.39GB/s ± 1% 1.40GB/s ± 0% +1.12% BM_ZFlat/0 [html (22.31 %) ] 800MB/s ± 0% 793MB/s ± 0% -0.95% BM_ZFlat/1 [urls (47.78 %) ] 423MB/s ± 0% 424MB/s ± 0% +0.11% BM_ZFlat/2 [jpg (99.95 %) ] 12.0GB/s ± 2% 12.0GB/s ± 4% ~ BM_ZFlat/3 [jpg_200 (73.00 %)] 592MB/s ± 3% 594MB/s ± 2% ~ BM_ZFlat/4 [pdf (83.30 %) ] 7.26GB/s ± 1% 7.23GB/s ± 2% -0.49% BM_ZFlat/5 [html4 (22.52 %) ] 738MB/s ± 0% 739MB/s ± 0% +0.17% BM_ZFlat/6 [txt1 (57.88 %) ] 286MB/s ± 0% 285MB/s ± 0% -0.09% BM_ZFlat/7 [txt2 (61.91 %) ] 264MB/s ± 0% 264MB/s ± 0% +0.08% BM_ZFlat/8 [txt3 (54.99 %) ] 300MB/s ± 0% 300MB/s ± 0% ~ BM_ZFlat/9 [txt4 (66.26 %) ] 248MB/s ± 0% 247MB/s ± 0% -0.20% BM_ZFlat/10 [pb (19.68 %) ] 1.04GB/s ± 0% 1.03GB/s ± 0% -1.17% BM_ZFlat/11 [gaviota (37.72 %)] 451MB/s ± 0% 450MB/s ± 0% -0.35% BM_ZFlat/12 [cp (48.12 %) ] 543MB/s ± 0% 538MB/s ± 0% -1.04% BM_ZFlat/13 [c (42.47 %) ] 638MB/s ± 1% 643MB/s ± 0% +0.68% BM_ZFlat/14 [lsp (48.37 %) ] 686MB/s ± 0% 691MB/s ± 1% +0.76% BM_ZFlat/15 [xls (41.23 %) ] 636MB/s ± 0% 633MB/s ± 0% -0.52% BM_ZFlat/16 [xls_200 (78.00 %)] 523MB/s ± 2% 520MB/s ± 2% -0.56% BM_ZFlat/17 [bin (18.11 %) ] 1.01GB/s ± 0% 1.01GB/s ± 0% +0.50% BM_ZFlat/18 [bin_200 (7.50 %) ] 2.45GB/s ± 1% 2.44GB/s ± 1% -0.54% BM_ZFlat/19 [sum (48.96 %) ] 487MB/s ± 0% 478MB/s ± 0% -1.89% BM_ZFlat/20 [man (59.21 %) ] 567MB/s ± 1% 566MB/s ± 1% ~ The BM_UFlat/13 and BM_UFlat/14 results showed high variance, so I reran them: name old speed new speed delta BM_UFlat/13 [c ] 1.53GB/s ± 0% 1.53GB/s ± 1% ~ BM_UFlat/14 [lsp] 1.61GB/s ± 1% 1.61GB/s ± 1% +0.25% |
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atdt | be490ef9ec | Test for SSE3 suppport before using pshufb. | |
atdt | 8f469d97e2 |
Avoid store-forwarding stalls in Zippy's IncrementalCopy
NEW: Annotate `pattern` as initialized, for MSan. Snappy's IncrementalCopy routine optimizes for speed by reading and writing memory in blocks of eight or sixteen bytes. If the gap between the source and destination pointers is smaller than eight bytes, snappy's strategy is to expand the gap by issuing a series of partly-overlapping eight-byte loads+stores. Because the range of each load partly overlaps that of the store which preceded it, the store buffer cannot be forwarded to the load, and the load stalls while it waits for the store to retire. This is called a store-forwarding stall. We can use fewer loads and avoid most of the stalls by loading the first eight bytes into an 128-bit XMM register, then using PSHUFB to permute the register's contents in-place into the desired repeating sequence of bytes. When falling back to IncrementalCopySlow, use memset if the pattern size == 1. This eliminates around 60% of the stalls. name old time/op new time/op delta BM_UFlat/0 [html] 48.6µs ± 0% 48.2µs ± 0% -0.92% (p=0.000 n=19+18) BM_UFlat/1 [urls] 589µs ± 0% 576µs ± 0% -2.17% (p=0.000 n=19+18) BM_UFlat/2 [jpg] 7.12µs ± 0% 7.10µs ± 0% ~ (p=0.071 n=19+18) BM_UFlat/3 [jpg_200] 162ns ± 0% 151ns ± 0% -7.06% (p=0.000 n=19+18) BM_UFlat/4 [pdf] 8.25µs ± 0% 8.19µs ± 0% -0.74% (p=0.000 n=19+18) BM_UFlat/5 [html4] 218µs ± 0% 218µs ± 0% +0.09% (p=0.000 n=17+18) BM_UFlat/6 [txt1] 191µs ± 0% 189µs ± 0% -1.12% (p=0.000 n=19+18) BM_UFlat/7 [txt2] 168µs ± 0% 167µs ± 0% -1.01% (p=0.000 n=19+18) BM_UFlat/8 [txt3] 502µs ± 0% 499µs ± 0% -0.52% (p=0.000 n=19+18) BM_UFlat/9 [txt4] 704µs ± 0% 695µs ± 0% -1.26% (p=0.000 n=19+18) BM_UFlat/10 [pb] 45.6µs ± 0% 44.2µs ± 0% -3.13% (p=0.000 n=19+15) BM_UFlat/11 [gaviota] 188µs ± 0% 194µs ± 0% +3.06% (p=0.000 n=15+18) BM_UFlat/12 [cp] 15.1µs ± 2% 14.7µs ± 1% -2.09% (p=0.000 n=18+18) BM_UFlat/13 [c] 7.38µs ± 0% 7.36µs ± 0% -0.28% (p=0.000 n=16+18) BM_UFlat/14 [lsp] 2.31µs ± 0% 2.37µs ± 0% +2.64% (p=0.000 n=19+18) BM_UFlat/15 [xls] 984µs ± 0% 909µs ± 0% -7.59% (p=0.000 n=19+18) BM_UFlat/16 [xls_200] 215ns ± 0% 217ns ± 0% +0.71% (p=0.000 n=19+15) BM_UFlat/17 [bin] 289µs ± 0% 287µs ± 0% -0.71% (p=0.000 n=19+18) BM_UFlat/18 [bin_200] 161ns ± 0% 116ns ± 0% -28.09% (p=0.000 n=19+16) BM_UFlat/19 [sum] 31.9µs ± 0% 29.2µs ± 0% -8.37% (p=0.000 n=19+18) BM_UFlat/20 [man] 3.13µs ± 1% 3.07µs ± 0% -1.79% (p=0.000 n=19+18) name old allocs/op new allocs/op delta BM_UFlat/0 [html] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/1 [urls] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/2 [jpg] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/3 [jpg_200] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/4 [pdf] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/5 [html4] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/6 [txt1] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/7 [txt2] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/8 [txt3] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/9 [txt4] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/10 [pb] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/11 [gaviota] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/12 [cp] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/13 [c] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/14 [lsp] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/15 [xls] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/16 [xls_200] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/17 [bin] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/18 [bin_200] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/19 [sum] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) BM_UFlat/20 [man] 0.00 ±NaN% 0.00 ±NaN% ~ (all samples are equal) name old speed new speed delta BM_UFlat/0 [html] 2.11GB/s ± 0% 2.13GB/s ± 0% +0.92% (p=0.000 n=19+18) BM_UFlat/1 [urls] 1.19GB/s ± 0% 1.22GB/s ± 0% +2.22% (p=0.000 n=16+17) BM_UFlat/2 [jpg] 17.3GB/s ± 0% 17.3GB/s ± 0% ~ (p=0.074 n=19+18) BM_UFlat/3 [jpg_200] 1.23GB/s ± 0% 1.33GB/s ± 0% +7.58% (p=0.000 n=19+18) BM_UFlat/4 [pdf] 12.4GB/s ± 0% 12.5GB/s ± 0% +0.74% (p=0.000 n=19+18) BM_UFlat/5 [html4] 1.88GB/s ± 0% 1.88GB/s ± 0% -0.09% (p=0.000 n=18+18) BM_UFlat/6 [txt1] 798MB/s ± 0% 807MB/s ± 0% +1.13% (p=0.000 n=19+18) BM_UFlat/7 [txt2] 743MB/s ± 0% 751MB/s ± 0% +1.02% (p=0.000 n=19+18) BM_UFlat/8 [txt3] 850MB/s ± 0% 855MB/s ± 0% +0.52% (p=0.000 n=19+18) BM_UFlat/9 [txt4] 684MB/s ± 0% 693MB/s ± 0% +1.28% (p=0.000 n=19+18) BM_UFlat/10 [pb] 2.60GB/s ± 0% 2.69GB/s ± 0% +3.25% (p=0.000 n=19+16) BM_UFlat/11 [gaviota] 979MB/s ± 0% 950MB/s ± 0% -2.97% (p=0.000 n=15+18) BM_UFlat/12 [cp] 1.63GB/s ± 2% 1.67GB/s ± 1% +2.13% (p=0.000 n=18+18) BM_UFlat/13 [c] 1.51GB/s ± 0% 1.52GB/s ± 0% +0.29% (p=0.000 n=16+18) BM_UFlat/14 [lsp] 1.61GB/s ± 1% 1.57GB/s ± 0% -2.57% (p=0.000 n=19+18) BM_UFlat/15 [xls] 1.05GB/s ± 0% 1.13GB/s ± 0% +8.22% (p=0.000 n=19+18) BM_UFlat/16 [xls_200] 928MB/s ± 0% 921MB/s ± 0% -0.81% (p=0.000 n=19+17) BM_UFlat/17 [bin] 1.78GB/s ± 0% 1.79GB/s ± 0% +0.71% (p=0.000 n=19+18) BM_UFlat/18 [bin_200] 1.24GB/s ± 0% 1.72GB/s ± 0% +38.92% (p=0.000 n=19+18) BM_UFlat/19 [sum] 1.20GB/s ± 0% 1.31GB/s ± 0% +9.15% (p=0.000 n=19+18) BM_UFlat/20 [man] 1.35GB/s ± 1% 1.38GB/s ± 0% +1.84% (p=0.000 n=19+18) |
|
jgorbe | ca37ab7fb9 |
Ensure DecompressAllTags starts on a 32-byte boundary + 16 bytes.
First of all, I'm sorry about this ugly hack. I hope the following long explanation is enough to justify it. We have observed that, in some conditions, the results for dataset number 10 (pb) in the zippy benchmark can show a >20% regression on Skylake CPUs. In order to diagnose this, we profiled the benchmark looking at hot functions (99% of the time is spent on DecompressAllTags), then looked at the generated code to see if there was any difference. In order to discard a minor difference we observed in register allocation we replaced zippy.cc with a pre-built assembly file so it was the same in both variants, and we still were able to reproduce the regression. After discarding a regression caused by the compiler, we digged a bit further and noticed that the alignment of the function in the final binary was different. Both were aligned to a 16-byte boundary, but the slower one was also (by chance) aligned to a 32-byte boundary. A regression caused by alignment differences would explain why I could reproduce it consistently on the same CitC client, but not others: slight differences in the sources can cause the resulting binary to have different layout. Here are some detailed benchmark results before/after the fix. Note how fixing the alignment makes the difference between baseline and experiment go away, but regular 32-byte alignment puts both variants in the same ballpark as the original regression: Original (note BM_UCord_10 and BM_UDataBuffer_10 around the -24% line): BASELINE BM_UCord/10 2938 2932 24194 3.767GB/s pb BM_UDataBuffer/10 3008 3004 23316 3.677GB/s pb EXPERIMENT BM_UCord/10 3797 3789 18512 2.915GB/s pb BM_UDataBuffer/10 4024 4016 17543 2.750GB/s pb Aligning DecompressAllTags to a 32-byte boundary: BASELINE BM_UCord/10 3872 3862 18035 2.860GB/s pb BM_UDataBuffer/10 4010 3998 17591 2.763GB/s pb EXPERIMENT BM_UCord/10 3884 3876 18126 2.850GB/s pb BM_UDataBuffer/10 4037 4027 17199 2.743GB/s pb Aligning DecompressAllTags to a 32-byte boundary + 16 bytes (this patch): BASELINE BM_UCord/10 3103 3095 22642 3.569GB/s pb BM_UDataBuffer/10 3186 3177 21947 3.476GB/s pb EXPERIMENT BM_UCord/10 3104 3095 22632 3.569GB/s pb BM_UDataBuffer/10 3167 3159 22076 3.496GB/s pb This change forces the "good" alignment for DecompressAllTags which, if anything, should make benchmark results more stable (and maybe we'll improve some unlucky application!). |
|
scrubbed | 15a2804cd2 |
Fix an incorrect analysis / comment in the "pattern doubling" code.
This should have a miniscule positive effect on performance; the main idea of the CL is just to fix the incorrect comment. |
|
chandlerc | 4aba5426d4 |
Rework a very hot, very sensitive part of snappy to reduce the number of
instructions, the number of dynamic branches, and avoid a particular loop structure than LLVM has a very hard time optimizing for this particular case. The code being changed is part of the hottest path for snappy decompression. In the benchmarks for decompressing protocol buffers, this has proven to be amazingly sensitive to the slightest changes in code layout. For example, previously we added '.p2align 5' assembly directive to the code. This essentially padded the loop out from the function. Merely by doing this we saw significant performance improvements. As a consequence, several of the compiler's typically reasonable optimizations can have surprising bad impacts. Loop unrolling is a primary culprit, but in the next LLVM release we are seeing an issue due to loop rotation. While some of the problems caused by the newly triggered loop rotation in LLVM can be mitigated with ongoing work on LLVM's code layout optimizations (specifically, loop header cloning), that is a fairly long term project. And even minor fluctuations in how that subsequent optimization is performed may prevent gaining the performance back. For now, we need some way to unblock the next LLVM release which contains a generic improvement to the LLVM loop optimizer that enables loop rotation in more places, but uncovers this sensitivity and weakness in a particular case. This CL restructures the loop to have a simpler structure. Specifically, we eagerly test what the terminal condition will be and provide two versions of the copy loop that use a single loop predicate. The comments in the source code and benchmarks indicate that only one of these two cases is actually hot: we expect to generally have enough slop in the buffer. That in turn allows us to generate a much simpler branch and loop structure for the hot path (especially for the protocol buffer decompression benchmark). However, structuring even this simple loop in a way that doesn't trigger some other performance bubble (often a more severe one) is quite challenging. We have to carefully manage the variables used in the loop and the addressing pattern. We should teach LLVM how to do this reliably, but that too is a *much* more significant undertaking and is extremely rare to have this degree of importance. The desired structure of the loop, as shown with IACA's analysis for the broadwell micro-architecture (HSW and SKX are similar): | Num Of | Ports pressure in cycles | | | Uops | 0 - DV | 1 | 2 - D | 3 - D | 4 | 5 | 6 | 7 | | --------------------------------------------------------------------------------- | 1 | | | 1.0 1.0 | | | | | | | mov rcx, qword ptr [rdi+rdx*1-0x8] | 2^ | | | | 0.4 | 1.0 | | | 0.6 | | mov qword ptr [rdi], rcx | 1 | | | | 1.0 1.0 | | | | | | mov rcx, qword ptr [rdi+rdx*1] | 2^ | | | 0.3 | | 1.0 | | | 0.7 | | mov qword ptr [rdi+0x8], rcx | 1 | 0.5 | | | | | 0.5 | | | | add rdi, 0x10 | 1 | 0.2 | | | | | | 0.8 | | | cmp rdi, rax | 0F | | | | | | | | | | jb 0xffffffffffffffe9 Specifically, the arrangement of addressing modes for the stores such that micro-op fusion (indicated by the `^` on the `2` micro-op count) is important to achieve good throughput for this loop. The other thing necessary to make this change effective is to remove our previous hack using `.p2align 5` to pad out the main decompression loop, and to forcibly disable loop unrolling for critical loops. Because this change simplifies the loop structure, more unrolling opportunities show up. Also, the next LLVM release's generic loop optimization improvements allow unrolling in more places, requiring still more disabling of unrolling in this change. Perhaps most surprising of these is that we must disable loop unrolling in the *slow* path. While unrolling there seems pointless, it should also be harmless. This cold code is laid out very far away from all of the hot code. All the samples shown in a profile of the benchmark occur before this loop in the function. And yet, if the loop gets unrolled (which seems to only happen reliably with the next LLVM release) we see a nearly 20% regression in decompressing protocol buffers! With the current release of LLVM, we still observe some regression from this source change, but it is fairly small (5% on decompressing protocol buffers, less elsewhere). And with the next LLVM release it drops to under 1% even in that case. Meanwhile, without this change, the next release of LLVM will regress decompressing protocol buffers by more than 10%. |
|
wmi | 824e6718b5 |
Add a loop alignment directive to work around a performance regression.
We found LLVM upstream change at rL310792 degraded zippy benchmark by ~3%. Performance analysis showed the regression was caused by some side-effect. The incidental loop alignment change (from 32 bytes to 16 bytes) led to increase of branch miss prediction and caused the regression. The regression was reproducible on several intel micro-architectures, like sandybridge, haswell and skylake. Sadly we still don't have good understanding about the internal of intel branch predictor and cannot explain how the branch miss prediction increases when the loop alignment changes, so we cannot make a real fix here. The workaround solution in the patch is to add a directive, align the hot loop to 32 bytes, which can restore the performance. This is in order to unblock the flip of default compiler to LLVM. |
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jueminyang | 71b8f86887 | Add SNAPPY_ prefix to PREDICT_{TRUE,FALSE} macros. | |
tmsriram | f24f9d2d97 |
Explicitly copy internal::wordmask to the stack array to work around a compiler
optimization with LLVM that converts const stack arrays to global arrays. This is a temporary change and should be reverted when https://reviews.llvm.org/D30759 is fixed. With PIE, accessing stack arrays is more efficient than global arrays and wordmask was moved to the stack due to that. However, the LLVM compiler automatically converts stack arrays, detected as constant, to global arrays and this transformation hurts PIE performance with LLVM. We are working to fix this in the LLVM compiler, via https://reviews.llvm.org/D30759, to not do this conversion in PIE mode. Until this patch is finished, please consider this source change as a temporary work around to keep this array on the stack. This source change is important to allow some projects to flip the default compiler from GCC to LLVM for optimized builds. This change works for the following reason. The LLVM compiler does not convert non-const stack arrays to global arrays and explicitly copying the elements is enough to make the compiler assume that this is a non-const array. With GCC, this change does not affect code-gen in any significant way. The array initialization code is slightly different as it copies the constants directly to the stack. With LLVM, this keeps the array on the stack. No change in performance with GCC (within noise range). With LLVM, ~0.7% improvement in optimized mode (no FDO) and ~1.75% improvement in FDO mode. |
|
alkis | 7b9532b878 |
Improve the SSE2 macro check on Windows.
This lands https://github.com/google/snappy/pull/37 |
|
costan | ed3b7b242b | Clean up unused function warnings in snappy. | |
costan | 8b60aac4fd |
Remove "using namespace std;" from zippy-stubs-internal.h.
This makes it easier to build zippy, as some compiles require a warning suppression to accept "using namespace std". |
|
alkis | 3c706d2230 |
Make UnalignedCopy64 not exhibit undefined behavior when src and dst overlap.
name old speed new speed delta BM_UFlat/0 3.09GB/s ± 3% 3.07GB/s ± 2% -0.78% (p=0.009 n=19+19) BM_UFlat/1 1.63GB/s ± 2% 1.62GB/s ± 2% ~ (p=0.099 n=19+20) BM_UFlat/2 19.7GB/s ±19% 20.7GB/s ±11% ~ (p=0.054 n=20+19) BM_UFlat/3 1.61GB/s ± 2% 1.60GB/s ± 1% -0.48% (p=0.049 n=20+17) BM_UFlat/4 15.8GB/s ± 7% 15.6GB/s ±10% ~ (p=0.234 n=20+20) BM_UFlat/5 2.47GB/s ± 1% 2.46GB/s ± 2% ~ (p=0.608 n=19+19) BM_UFlat/6 1.07GB/s ± 2% 1.07GB/s ± 1% ~ (p=0.128 n=20+19) BM_UFlat/7 1.01GB/s ± 1% 1.00GB/s ± 2% ~ (p=0.656 n=15+19) BM_UFlat/8 1.13GB/s ± 1% 1.13GB/s ± 1% ~ (p=0.532 n=18+19) BM_UFlat/9 918MB/s ± 1% 916MB/s ± 1% ~ (p=0.443 n=19+18) BM_UFlat/10 3.90GB/s ± 1% 3.90GB/s ± 1% ~ (p=0.895 n=20+19) BM_UFlat/11 1.30GB/s ± 1% 1.29GB/s ± 2% ~ (p=0.156 n=19+19) BM_UFlat/12 2.35GB/s ± 2% 2.34GB/s ± 1% ~ (p=0.349 n=19+17) BM_UFlat/13 2.07GB/s ± 1% 2.06GB/s ± 2% ~ (p=0.475 n=18+19) BM_UFlat/14 2.23GB/s ± 1% 2.23GB/s ± 1% ~ (p=0.983 n=19+19) BM_UFlat/15 1.55GB/s ± 1% 1.55GB/s ± 1% ~ (p=0.314 n=19+19) BM_UFlat/16 1.26GB/s ± 1% 1.26GB/s ± 1% ~ (p=0.907 n=15+18) BM_UFlat/17 2.32GB/s ± 1% 2.32GB/s ± 1% ~ (p=0.604 n=18+19) BM_UFlat/18 1.61GB/s ± 1% 1.61GB/s ± 1% ~ (p=0.212 n=18+19) BM_UFlat/19 1.78GB/s ± 1% 1.78GB/s ± 2% ~ (p=0.350 n=19+19) BM_UFlat/20 1.89GB/s ± 1% 1.90GB/s ± 2% ~ (p=0.092 n=19+19) Also tested the current version against UNALIGNED_STORE64(dst, UNALIGNED_LOAD64(src)), there is no difference (old is memcpy, new is UNALIGNED*): name old speed new speed delta BM_UFlat/0 3.14GB/s ± 1% 3.16GB/s ± 2% ~ (p=0.156 n=19+19) BM_UFlat/1 1.62GB/s ± 1% 1.61GB/s ± 2% ~ (p=0.102 n=19+20) BM_UFlat/2 18.8GB/s ±17% 19.1GB/s ±11% ~ (p=0.390 n=20+16) BM_UFlat/3 1.59GB/s ± 1% 1.58GB/s ± 1% -1.06% (p=0.000 n=18+18) BM_UFlat/4 15.8GB/s ± 6% 15.6GB/s ± 7% ~ (p=0.184 n=19+20) BM_UFlat/5 2.46GB/s ± 1% 2.44GB/s ± 1% -0.95% (p=0.000 n=19+18) BM_UFlat/6 1.08GB/s ± 1% 1.06GB/s ± 1% -1.17% (p=0.000 n=19+18) BM_UFlat/7 1.00GB/s ± 1% 0.99GB/s ± 1% -1.16% (p=0.000 n=19+18) BM_UFlat/8 1.14GB/s ± 2% 1.12GB/s ± 1% -1.12% (p=0.000 n=19+18) BM_UFlat/9 921MB/s ± 1% 914MB/s ± 1% -0.84% (p=0.000 n=20+17) BM_UFlat/10 3.94GB/s ± 2% 3.92GB/s ± 1% ~ (p=0.058 n=19+17) BM_UFlat/11 1.29GB/s ± 1% 1.28GB/s ± 1% -0.77% (p=0.001 n=19+17) BM_UFlat/12 2.34GB/s ± 1% 2.31GB/s ± 1% -1.10% (p=0.000 n=18+18) BM_UFlat/13 2.06GB/s ± 1% 2.05GB/s ± 1% -0.73% (p=0.001 n=19+18) BM_UFlat/14 2.22GB/s ± 1% 2.20GB/s ± 1% -0.73% (p=0.000 n=18+18) BM_UFlat/15 1.55GB/s ± 1% 1.53GB/s ± 1% -1.07% (p=0.000 n=19+18) BM_UFlat/16 1.26GB/s ± 1% 1.25GB/s ± 1% -0.79% (p=0.000 n=18+18) BM_UFlat/17 2.31GB/s ± 1% 2.29GB/s ± 1% -0.98% (p=0.000 n=20+18) BM_UFlat/18 1.61GB/s ± 1% 1.60GB/s ± 2% -0.71% (p=0.001 n=20+19) BM_UFlat/19 1.77GB/s ± 1% 1.76GB/s ± 1% -0.61% (p=0.007 n=19+18) BM_UFlat/20 1.89GB/s ± 1% 1.88GB/s ± 1% -0.75% (p=0.000 n=20+18) |
|
skanev | d3c6d20d0a |
Add compression size reporting hooks.
Also, force inlining util::compression::Sample(). The inlining change is necessary. Without it even with FDO+LIPO the call doesn't get inlined and uses 4 registers to construct parameters (which won't be used in the common case). In some of the more compute-bound tests that causes extra spills and significant overhead (even if call is sufficiently long). For example, with inlining: BM_UFlat/0 32.7µs ± 1% 33.1µs ± 1% +1.41% without: BM_UFlat/0 32.7µs ± 1% 37.7µs ± 1% +15.29% |
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alkis | 626e1b9faa | Use #ifdef __SSE2__ for the emmintrin.h include, otherwise snappy.cc does not compile with -march=prescott. | |
Alkis Evlogimenos | 8bfb028b61 |
Improve zippy decompression speed.
The CL contains the following optimizations: 1) rewrite IncrementalCopy routine: single routine that splits the code into sections based on typical probabilities observed across a variety of inputs and helps reduce branch mispredictions both for FDO and non-FDO builds. IncrementalCopy is an adaptive routine that selects the best strategy based on input. 2) introduce UnalignedCopy128 that copies 128 bits per cycle using SSE2. 3) add branch hint for the main decoding loop. The non-literal case is taken more often in benchmarks. I expect this to be a noop in production with FDO. Note that this became apparent after step 1 above. 4) use the new IncrementalCopy in ZippyScatteredWriter. I test two archs: x86_haswell and ppc_power8. For x86_haswell I use FDO. For ppc_power8 I do not use FDO. x86_haswell + FDO name old speed new speed delta BM_UCord/0 1.97GB/s ± 1% 3.19GB/s ± 1% +62.08% (p=0.000 n=19+18) BM_UCord/1 1.28GB/s ± 1% 1.51GB/s ± 1% +18.14% (p=0.000 n=19+18) BM_UCord/2 15.6GB/s ± 9% 15.5GB/s ± 7% ~ (p=0.620 n=20+20) BM_UCord/3 811MB/s ± 1% 808MB/s ± 1% -0.38% (p=0.009 n=17+18) BM_UCord/4 12.4GB/s ± 4% 12.7GB/s ± 8% +2.70% (p=0.002 n=17+20) BM_UCord/5 1.77GB/s ± 0% 2.33GB/s ± 1% +31.37% (p=0.000 n=18+18) BM_UCord/6 900MB/s ± 1% 1006MB/s ± 1% +11.71% (p=0.000 n=18+17) BM_UCord/7 858MB/s ± 1% 938MB/s ± 2% +9.36% (p=0.000 n=19+16) BM_UCord/8 921MB/s ± 1% 985MB/s ±21% +6.94% (p=0.028 n=19+20) BM_UCord/9 824MB/s ± 1% 800MB/s ±20% ~ (p=0.113 n=19+20) BM_UCord/10 2.60GB/s ± 1% 3.67GB/s ±21% +41.31% (p=0.000 n=19+20) BM_UCord/11 1.07GB/s ± 1% 1.21GB/s ± 1% +13.17% (p=0.000 n=16+16) BM_UCord/12 1.84GB/s ± 8% 2.18GB/s ± 1% +18.44% (p=0.000 n=16+19) BM_UCord/13 1.83GB/s ±18% 1.89GB/s ± 1% +3.14% (p=0.000 n=17+19) BM_UCord/14 1.96GB/s ± 2% 1.97GB/s ± 1% +0.55% (p=0.000 n=16+17) BM_UCord/15 1.30GB/s ±20% 1.43GB/s ± 1% +9.85% (p=0.000 n=20+20) BM_UCord/16 658MB/s ±20% 705MB/s ± 1% +7.22% (p=0.000 n=20+19) BM_UCord/17 1.96GB/s ± 2% 2.15GB/s ± 1% +9.73% (p=0.000 n=16+19) BM_UCord/18 555MB/s ± 1% 833MB/s ± 1% +50.11% (p=0.000 n=18+19) BM_UCord/19 1.57GB/s ± 1% 1.75GB/s ± 1% +11.34% (p=0.000 n=20+20) BM_UCord/20 1.72GB/s ± 2% 1.70GB/s ± 2% -1.01% (p=0.001 n=20+20) BM_UCordStringSink/0 2.88GB/s ± 1% 3.15GB/s ± 1% +9.56% (p=0.000 n=17+20) BM_UCordStringSink/1 1.50GB/s ± 1% 1.52GB/s ± 1% +1.96% (p=0.000 n=19+20) BM_UCordStringSink/2 14.5GB/s ±10% 14.6GB/s ±10% ~ (p=0.542 n=20+20) BM_UCordStringSink/3 1.06GB/s ± 1% 1.08GB/s ± 1% +1.77% (p=0.000 n=18+20) BM_UCordStringSink/4 12.6GB/s ± 7% 13.2GB/s ± 4% +4.63% (p=0.000 n=20+20) BM_UCordStringSink/5 2.29GB/s ± 1% 2.36GB/s ± 1% +3.05% (p=0.000 n=19+20) BM_UCordStringSink/6 1.01GB/s ± 2% 1.01GB/s ± 0% ~ (p=0.055 n=20+18) BM_UCordStringSink/7 945MB/s ± 1% 939MB/s ± 1% -0.60% (p=0.000 n=19+20) BM_UCordStringSink/8 1.06GB/s ± 1% 1.07GB/s ± 1% +0.62% (p=0.000 n=18+20) BM_UCordStringSink/9 866MB/s ± 1% 864MB/s ± 1% ~ (p=0.107 n=19+20) BM_UCordStringSink/10 3.64GB/s ± 2% 3.98GB/s ± 1% +9.32% (p=0.000 n=19+20) BM_UCordStringSink/11 1.22GB/s ± 1% 1.22GB/s ± 1% +0.61% (p=0.001 n=19+20) BM_UCordStringSink/12 2.23GB/s ± 1% 2.23GB/s ± 1% ~ (p=0.692 n=19+20) BM_UCordStringSink/13 1.96GB/s ± 1% 1.94GB/s ± 1% -0.82% (p=0.000 n=17+18) BM_UCordStringSink/14 2.09GB/s ± 2% 2.08GB/s ± 1% ~ (p=0.147 n=20+18) BM_UCordStringSink/15 1.47GB/s ± 1% 1.45GB/s ± 1% -0.88% (p=0.000 n=20+19) BM_UCordStringSink/16 908MB/s ± 1% 917MB/s ± 1% +0.97% (p=0.000 n=19+19) BM_UCordStringSink/17 2.11GB/s ± 1% 2.20GB/s ± 1% +4.35% (p=0.000 n=18+20) BM_UCordStringSink/18 804MB/s ± 2% 1106MB/s ± 1% +37.52% (p=0.000 n=20+20) BM_UCordStringSink/19 1.67GB/s ± 1% 1.72GB/s ± 0% +2.81% (p=0.000 n=18+20) BM_UCordStringSink/20 1.77GB/s ± 3% 1.77GB/s ± 3% ~ (p=0.815 n=20+20) ppc_power8 name old speed new speed delta BM_UCord/0 918MB/s ± 6% 1262MB/s ± 0% +37.56% (p=0.000 n=17+16) BM_UCord/1 671MB/s ±13% 879MB/s ± 2% +30.99% (p=0.000 n=18+16) BM_UCord/2 12.6GB/s ± 8% 12.6GB/s ± 5% ~ (p=0.452 n=17+19) BM_UCord/3 285MB/s ±10% 284MB/s ± 4% -0.50% (p=0.021 n=19+17) BM_UCord/4 5.21GB/s ±12% 6.59GB/s ± 1% +26.37% (p=0.000 n=17+16) BM_UCord/5 913MB/s ± 4% 1253MB/s ± 1% +37.27% (p=0.000 n=16+17) BM_UCord/6 461MB/s ±13% 547MB/s ± 1% +18.67% (p=0.000 n=18+16) BM_UCord/7 455MB/s ± 2% 524MB/s ± 3% +15.28% (p=0.000 n=16+18) BM_UCord/8 489MB/s ± 2% 584MB/s ± 2% +19.47% (p=0.000 n=17+17) BM_UCord/9 410MB/s ±33% 490MB/s ± 1% +19.64% (p=0.000 n=17+18) BM_UCord/10 1.10GB/s ± 3% 1.55GB/s ± 2% +41.21% (p=0.000 n=16+16) BM_UCord/11 494MB/s ± 1% 558MB/s ± 1% +12.92% (p=0.000 n=17+18) BM_UCord/12 608MB/s ± 3% 793MB/s ± 1% +30.45% (p=0.000 n=17+16) BM_UCord/13 545MB/s ±18% 721MB/s ± 2% +32.22% (p=0.000 n=19+17) BM_UCord/14 594MB/s ± 4% 748MB/s ± 3% +25.99% (p=0.000 n=17+17) BM_UCord/15 628MB/s ± 1% 822MB/s ± 3% +30.94% (p=0.000 n=18+16) BM_UCord/16 277MB/s ± 2% 280MB/s ±15% +0.86% (p=0.001 n=17+17) BM_UCord/17 864MB/s ± 1% 1001MB/s ± 3% +15.96% (p=0.000 n=17+17) BM_UCord/18 121MB/s ± 2% 284MB/s ± 4% +134.08% (p=0.000 n=17+18) BM_UCord/19 594MB/s ± 0% 713MB/s ± 2% +19.93% (p=0.000 n=16+17) BM_UCord/20 553MB/s ±10% 662MB/s ± 5% +19.74% (p=0.000 n=16+18) BM_UCordStringSink/0 1.37GB/s ± 4% 1.48GB/s ± 2% +8.51% (p=0.000 n=16+16) BM_UCordStringSink/1 969MB/s ± 1% 990MB/s ± 1% +2.16% (p=0.000 n=16+18) BM_UCordStringSink/2 13.1GB/s ±11% 13.0GB/s ±14% ~ (p=0.858 n=17+18) BM_UCordStringSink/3 411MB/s ± 1% 415MB/s ± 1% +0.93% (p=0.000 n=16+17) BM_UCordStringSink/4 6.81GB/s ± 8% 7.29GB/s ± 5% +7.12% (p=0.000 n=16+19) BM_UCordStringSink/5 1.35GB/s ± 5% 1.45GB/s ±13% +8.00% (p=0.000 n=16+17) BM_UCordStringSink/6 653MB/s ± 8% 653MB/s ± 3% -0.12% (p=0.007 n=17+19) BM_UCordStringSink/7 618MB/s ±13% 597MB/s ±18% -3.45% (p=0.001 n=18+18) BM_UCordStringSink/8 702MB/s ± 5% 702MB/s ± 1% -0.10% (p=0.012 n=17+16) BM_UCordStringSink/9 590MB/s ± 2% 564MB/s ±13% -4.46% (p=0.000 n=16+17) BM_UCordStringSink/10 1.63GB/s ± 2% 1.76GB/s ± 4% +8.28% (p=0.000 n=17+16) BM_UCordStringSink/11 630MB/s ±14% 684MB/s ±15% +8.51% (p=0.000 n=19+17) BM_UCordStringSink/12 858MB/s ±12% 903MB/s ± 9% +5.17% (p=0.000 n=19+17) BM_UCordStringSink/13 806MB/s ±22% 879MB/s ± 1% +8.98% (p=0.000 n=19+19) BM_UCordStringSink/14 854MB/s ±13% 901MB/s ± 5% +5.60% (p=0.000 n=19+17) BM_UCordStringSink/15 930MB/s ± 2% 964MB/s ± 3% +3.59% (p=0.000 n=16+16) BM_UCordStringSink/16 363MB/s ±10% 356MB/s ± 6% ~ (p=0.050 n=20+19) BM_UCordStringSink/17 976MB/s ±12% 1078MB/s ± 1% +10.52% (p=0.000 n=20+17) BM_UCordStringSink/18 227MB/s ± 1% 355MB/s ± 3% +56.45% (p=0.000 n=16+17) BM_UCordStringSink/19 751MB/s ± 4% 808MB/s ± 4% +7.70% (p=0.000 n=18+17) BM_UCordStringSink/20 761MB/s ± 8% 786MB/s ± 4% +3.23% (p=0.000 n=18+17) |
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Behzad Nouri | 818b583387 | adds std:: to stl types (#061) | |
Geoff Pike | 27c5d86527 |
Re-work fast path for handling copies in zippy decompression.
This is a performance-tuning change that shouldn't change the behavior of the library. This adds some complexity but the performance gain might make that worthwhile: With FDO on perflab/haswell, a 4.0% gain (geometric mean). SAMPLE (before) Benchmark Time(ns) CPU(ns) Iterations ------------------------------------------------ BM_UFlat/0 36638 36552 100000 2.6GB/s html BM_UFlat/1 457153 455895 9173 1.4GB/s urls BM_UFlat/2 5850 5837 685481 19.6GB/s jpg BM_UFlat/3 122 122 34551988 1.5GB/s jpg_200 BM_UFlat/4 6797 6781 620811 14.1GB/s pdf BM_UFlat/5 179485 179037 23471 2.1GB/s html4 BM_UFlat/6 142734 142384 29525 1018.7MB/s txt1 BM_UFlat/7 125233 124924 33709 955.6MB/s txt2 BM_UFlat/8 382548 381533 10000 1066.7MB/s txt3 BM_UFlat/9 525614 524297 8018 876.5MB/s txt4 BM_UFlat/10 34946 34868 100000 3.2GB/s pb BM_UFlat/11 149548 149208 28063 1.2GB/s gaviota BM_UFlat/12 10684 10663 392580 2.1GB/s cp BM_UFlat/13 5494 5484 766584 1.9GB/s c BM_UFlat/14 1691 1688 2488784 2.1GB/s lsp BM_UFlat/15 676443 674726 6129 1.4GB/s xls BM_UFlat/16 156 156 26656909 1.2GB/s xls_200 BM_UFlat/17 239911 239297 17558 2.0GB/s bin BM_UFlat/18 182 182 23072932 1047.9MB/s bin_200 BM_UFlat/19 21544 21499 194484 1.7GB/s sum BM_UFlat/20 2236 2232 1877810 1.8GB/s man BM_UFlatSink/0 42266 42179 99732 2.3GB/s html BM_UFlatSink/1 461810 460633 9055 1.4GB/s urls BM_UFlatSink/2 5816 5804 632829 19.8GB/s jpg BM_UFlatSink/3 124 123 34351698 1.5GB/s jpg_200 BM_UFlatSink/4 7173 7157 609929 13.3GB/s pdf BM_UFlatSink/5 184795 184302 22660 2.1GB/s html4 BM_UFlatSink/6 143552 143223 29272 1012.7MB/s txt1 BM_UFlatSink/7 127160 126890 33178 940.8MB/s txt2 BM_UFlatSink/8 382219 381313 10000 1067.3MB/s txt3 BM_UFlatSink/9 528042 526713 7988 872.5MB/s txt4 BM_UFlatSink/10 41389 41305 100000 2.7GB/s pb BM_UFlatSink/11 147215 146877 28854 1.2GB/s gaviota BM_UFlatSink/12 12008 11984 348139 1.9GB/s cp BM_UFlatSink/13 5444 5433 775084 1.9GB/s c BM_UFlatSink/14 1647 1644 2552119 2.1GB/s lsp BM_UFlatSink/15 665011 663424 6320 1.4GB/s xls BM_UFlatSink/16 153 153 27571837 1.2GB/s xls_200 BM_UFlatSink/17 239735 239169 17411 2.0GB/s bin BM_UFlatSink/18 183 182 23005573 1046.8MB/s bin_200 BM_UFlatSink/19 22544 22498 187705 1.6GB/s sum BM_UFlatSink/20 2190 2186 1917894 1.8GB/s man SAMPLE (after) Benchmark Time(ns) CPU(ns) Iterations ------------------------------------------------ BM_UFlat/0 33940 33889 100000 2.8GB/s html BM_UFlat/1 440728 439944 9586 1.5GB/s urls BM_UFlat/2 5652 5641 744776 20.3GB/s jpg BM_UFlat/3 123 123 34647884 1.5GB/s jpg_200 BM_UFlat/4 6628 6615 631892 14.4GB/s pdf BM_UFlat/5 169523 169227 24197 2.3GB/s html4 BM_UFlat/6 144139 143892 29232 1008.0MB/s txt1 BM_UFlat/7 127148 126915 33144 940.6MB/s txt2 BM_UFlat/8 380267 379233 10000 1073.2MB/s txt3 BM_UFlat/9 529495 528194 7957 870.0MB/s txt4 BM_UFlat/10 31844 31784 100000 3.5GB/s pb BM_UFlat/11 146822 146476 28737 1.2GB/s gaviota BM_UFlat/12 10784 10762 392176 2.1GB/s cp BM_UFlat/13 5528 5518 760934 1.9GB/s c BM_UFlat/14 1721 1719 2449291 2.0GB/s lsp BM_UFlat/15 673304 671774 6255 1.4GB/s xls BM_UFlat/16 155 155 27092003 1.2GB/s xls_200 BM_UFlat/17 230424 229902 18285 2.1GB/s bin BM_UFlat/18 185 184 22818199 1033.9MB/s bin_200 BM_UFlat/19 21035 20996 200765 1.7GB/s sum BM_UFlat/20 2242 2238 1864380 1.8GB/s man BM_UFlatSink/0 33487 33405 100000 2.9GB/s html BM_UFlatSink/1 431108 430226 9764 1.5GB/s urls BM_UFlatSink/2 5927 5916 648112 19.4GB/s jpg BM_UFlatSink/3 123 122 34704423 1.5GB/s jpg_200 BM_UFlatSink/4 6472 6461 653462 14.8GB/s pdf BM_UFlatSink/5 164309 163988 25567 2.3GB/s html4 BM_UFlatSink/6 138274 138020 30311 1050.9MB/s txt1 BM_UFlatSink/7 120844 120637 34708 989.6MB/s txt2 BM_UFlatSink/8 371046 370366 10000 1098.9MB/s txt3 BM_UFlatSink/9 510021 508982 8269 902.9MB/s txt4 BM_UFlatSink/10 30889 30844 100000 3.6GB/s pb BM_UFlatSink/11 140752 140521 29903 1.2GB/s gaviota BM_UFlatSink/12 10162 10146 413600 2.3GB/s cp BM_UFlatSink/13 5264 5256 762398 2.0GB/s c BM_UFlatSink/14 1622 1619 2606069 2.1GB/s lsp BM_UFlatSink/15 646897 645756 6512 1.5GB/s xls BM_UFlatSink/16 150 150 28223595 1.2GB/s xls_200 BM_UFlatSink/17 226096 225650 18629 2.1GB/s bin BM_UFlatSink/18 185 184 22907935 1035.3MB/s bin_200 BM_UFlatSink/19 21369 21335 198881 1.7GB/s sum BM_UFlatSink/20 2139 2136 1953637 1.8GB/s man |
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Sriraman Tallam | 4a74094080 |
Speed up Zippy decompression in PIE mode by removing the penalty for
global array access. With PIE, accessing global arrays needs two instructions whereas it can be done with a single instruction without PIE. See [] For example, without PIE the access looks like: mov 0x400780(,%rdi,4),%eax // One instruction to access arr[i] and with PIE the access looks like: lea 0x149(%rip),%rax # 400780 <_ZL3arr> mov (%rax,%rdi,4),%eax This causes a slow down in zippy as it has two global arrays, wordmask and char_table. There is no equivalent PC-relative insn. with PIE to do this in one instruction. The slow down can be seen as an increase in dynamic instruction count and cycles with a similar IPC. We have seen this affect REDACTED recently and this is causing a ~1% perf. slow down. One of the mitigation techniques for small arrays is to move it onto the stack, use the stack pointer to make the access a single instruction. The downside to this is the extra instructions at function call to mov the array onto the stack which is why we want to do this only for small arrays. I tried moving wordmask onto the stack since it is a small array. The performance numbers look good overall. There is an improvement in the dynamic instruction count for almost all BM_UFlat benchmarks. BM_UFlat/2 and BM_UFlat/3 are pretty noisy. The only case where there is a regression is BM_UFlat/10. Here, the instruction count does go down but the IPC also goes down affecting performance. This also looks noisy but I do see a small IPC drop with this change. Otherwise, the numbers look good and consistent. I measured this on a perflab ivybridge machine multiple times. Numbers are given below. For Improv. (improvements), positive is good. Binaries built as: blaze build -c opt --dynamic_mode=off Benchmark Base CPU(ns) Opt CPU(ns) Improv. Base Cycles Opt Cycles Improv. Base Insns Opt Insns Improv. BM_UFlat/1 541711 537052 0.86% 46068129918 45442732684 1.36% 85113352848 83917656016 1.40% BM_UFlat/2 6228 6388 -2.57% 582789808 583267855 -0.08% 1261517746 1261116553 0.03% BM_UFlat/3 159 120 24.53% 61538641 58783800 4.48% 90008672 90980060 -1.08% BM_UFlat/4 7878 7787 1.16% 710491888 703718556 0.95% 1914898283 1525060250 20.36% BM_UFlat/5 208854 207673 0.57% 17640846255 17609530720 0.18% 36546983483 36008920788 1.47% BM_UFlat/6 172595 167225 3.11% 14642082831 14232371166 2.80% 33647820489 33056659600 1.76% BM_UFlat/7 152364 147901 2.93% 12904338645 12635220582 2.09% 28958390984 28457982504 1.73% BM_UFlat/8 463764 448244 3.35% 39423576973 37917435891 3.82% 88350964483 86800265943 1.76% BM_UFlat/9 639517 621811 2.77% 54275945823 52555988926 3.17% 119503172410 117432599704 1.73% BM_UFlat/10 41929 42358 -1.02% 3593125535 3647231492 -1.51% 8559206066 8446526639 1.32% BM_UFlat/11 174754 173936 0.47% 14885371426 14749410955 0.91% 36693421142 35987215897 1.92% BM_UFlat/12 13388 13257 0.98% 1192648670 1179645044 1.09% 3506482177 3454962579 1.47% BM_UFlat/13 6801 6588 3.13% 627960003 608367286 3.12% 1847877894 1818368400 1.60% BM_UFlat/14 2057 1989 3.31% 229005588 217393157 5.07% 609686274 599419511 1.68% BM_UFlat/15 831618 799881 3.82% 70440388955 67911853013 3.59% 167178603105 164653652416 1.51% BM_UFlat/16 199 199 0.00% 70109081 68747579 1.94% 106263639 105569531 0.65% BM_UFlat/17 279031 273890 1.84% 23361373312 23294246637 0.29% 40474834585 39981682217 1.22% BM_UFlat/18 233 199 14.59% 74530664 67841101 8.98% 94305848 92271053 2.16% BM_UFlat/19 26743 25309 5.36% 2327215133 2206712016 5.18% 6024314357 5935228694 1.48% BM_UFlat/20 2731 2625 3.88% 282018757 276772813 1.86% 768382519 758277029 1.32% Is this a reasonable work-around for the problem? Do you need more performance measurements? haih@ is evaluating this change for [] and I will update those numbers once we have it. Tested: Performance with zippy_unittest. |
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Geoff Pike | 38a5ec5fca |
Re-work fast path that emits copies in zippy compression.
The primary motivation for the change is that FindMatchLength is likely to discover a difference in the first 8 bytes it compares. If that occurs then we know the length of the match is less than 12, because FindMatchLength is invoked after a 4-byte match is found. When emitting a copy, it is useful to know that the length is less than 12 because the two-byte variant of an emitted copy requires that. This is a performance-tuning change that should not affect the library's behavior. With FDO on perflab/Haswell the geometric mean for ZFlat/* went from 47,290ns to 45,741ns, an improvement of 3.4%. SAMPLE (before) BM_ZFlat/0 102824 102650 40691 951.4MB/s html (22.31 %) BM_ZFlat/1 1293512 1290442 3225 518.9MB/s urls (47.78 %) BM_ZFlat/2 10373 10353 417959 11.1GB/s jpg (99.95 %) BM_ZFlat/3 268 268 15745324 712.4MB/s jpg_200 (73.00 %) BM_ZFlat/4 12137 12113 342462 7.9GB/s pdf (83.30 %) BM_ZFlat/5 430672 429720 9724 909.0MB/s html4 (22.52 %) BM_ZFlat/6 420541 419636 9833 345.6MB/s txt1 (57.88 %) BM_ZFlat/7 373829 373158 10000 319.9MB/s txt2 (61.91 %) BM_ZFlat/8 1119014 1116604 3755 364.5MB/s txt3 (54.99 %) BM_ZFlat/9 1544203 1540657 2748 298.3MB/s txt4 (66.26 %) BM_ZFlat/10 91041 90866 46002 1.2GB/s pb (19.68 %) BM_ZFlat/11 332766 331990 10000 529.5MB/s gaviota (37.72 %) BM_ZFlat/12 39960 39886 100000 588.3MB/s cp (48.12 %) BM_ZFlat/13 14493 14465 287181 735.1MB/s c (42.47 %) BM_ZFlat/14 4447 4440 947927 799.3MB/s lsp (48.37 %) BM_ZFlat/15 1316362 1313350 3196 747.7MB/s xls (41.23 %) BM_ZFlat/16 312 311 10000000 613.0MB/s xls_200 (78.00 %) BM_ZFlat/17 388471 387502 10000 1.2GB/s bin (18.11 %) BM_ZFlat/18 65 64 64838208 2.9GB/s bin_200 (7.50 %) BM_ZFlat/19 65900 65787 63099 554.3MB/s sum (48.96 %) BM_ZFlat/20 6188 6177 681951 652.6MB/s man (59.21 %) SAMPLE (after) Benchmark Time(ns) CPU(ns) Iterations -------------------------------------------- BM_ZFlat/0 99259 99044 42428 986.0MB/s html (22.31 %) BM_ZFlat/1 1257039 1255276 3341 533.4MB/s urls (47.78 %) BM_ZFlat/2 10044 10030 405781 11.4GB/s jpg (99.95 %) BM_ZFlat/3 268 267 15732282 713.3MB/s jpg_200 (73.00 %) BM_ZFlat/4 11675 11657 358629 8.2GB/s pdf (83.30 %) BM_ZFlat/5 420951 419818 9739 930.5MB/s html4 (22.52 %) BM_ZFlat/6 415460 414632 10000 349.8MB/s txt1 (57.88 %) BM_ZFlat/7 367191 366436 10000 325.8MB/s txt2 (61.91 %) BM_ZFlat/8 1098345 1096036 3819 371.3MB/s txt3 (54.99 %) BM_ZFlat/9 1508701 1505306 2758 305.3MB/s txt4 (66.26 %) BM_ZFlat/10 87195 87031 47289 1.3GB/s pb (19.68 %) BM_ZFlat/11 322338 321637 10000 546.5MB/s gaviota (37.72 %) BM_ZFlat/12 36739 36668 100000 639.9MB/s cp (48.12 %) BM_ZFlat/13 13646 13618 304009 780.9MB/s c (42.47 %) BM_ZFlat/14 4249 4240 992456 837.0MB/s lsp (48.37 %) BM_ZFlat/15 1262925 1260012 3314 779.4MB/s xls (41.23 %) BM_ZFlat/16 308 308 10000000 619.8MB/s xls_200 (78.00 %) BM_ZFlat/17 379750 378944 10000 1.3GB/s bin (18.11 %) BM_ZFlat/18 62 62 67443280 3.0GB/s bin_200 (7.50 %) BM_ZFlat/19 61706 61587 67645 592.1MB/s sum (48.96 %) BM_ZFlat/20 5968 5958 698974 676.6MB/s man (59.21 %) |
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ckennelly | 094c67de88 |
Speed up the EmitLiteral fast path, +1.62% for ZFlat benchmarks.
This is inspired by the Go version in //third_party/golang/snappy/encode_amd64.s (emitLiteralFastPath) Benchmark Base:Reference (1) -------------------------------------------------- (BM_ZFlat_0 1/cputime_ns) 9.669e-06 +1.65% (BM_ZFlat_1 1/cputime_ns) 7.643e-07 +2.53% (BM_ZFlat_10 1/cputime_ns) 1.107e-05 -0.97% (BM_ZFlat_11 1/cputime_ns) 3.002e-06 +0.71% (BM_ZFlat_12 1/cputime_ns) 2.338e-05 +7.22% (BM_ZFlat_13 1/cputime_ns) 6.386e-05 +9.18% (BM_ZFlat_14 1/cputime_ns) 0.0002256 -0.05% (BM_ZFlat_15 1/cputime_ns) 7.608e-07 -1.29% (BM_ZFlat_16 1/cputime_ns) 0.003236 -1.28% (BM_ZFlat_17 1/cputime_ns) 2.58e-06 +0.52% (BM_ZFlat_18 1/cputime_ns) 0.01538 +0.00% (BM_ZFlat_19 1/cputime_ns) 1.436e-05 +6.21% (BM_ZFlat_2 1/cputime_ns) 0.0001044 +4.99% (BM_ZFlat_20 1/cputime_ns) 0.0001608 -0.18% (BM_ZFlat_3 1/cputime_ns) 0.003745 +0.38% (BM_ZFlat_4 1/cputime_ns) 8.144e-05 +6.21% (BM_ZFlat_5 1/cputime_ns) 2.328e-06 -1.60% (BM_ZFlat_6 1/cputime_ns) 2.391e-06 +0.06% (BM_ZFlat_7 1/cputime_ns) 2.68e-06 -0.61% (BM_ZFlat_8 1/cputime_ns) 8.852e-07 +0.19% (BM_ZFlat_9 1/cputime_ns) 6.441e-07 +1.06% geometric mean +1.62% |
|
Geoff Pike | fce661fa8c |
Speed up zippy decompression by removing some zero-extensions.
This is a performance tuning change that should not affect correctness. On perflab with FDO on Haswell the performance gain is 21,776ns before vs 21,255ns after, about 2.4%. (Using geometric means.) SAMPLE PERFORMANCE with FDO on HASWELL (NEW) Benchmark Time(ns) CPU(ns) Iterations ------------------------------------------------ BM_UFlat/0 37366 37279 100000 2.6GB/s html BM_UFlat/1 471153 470204 8975 1.4GB/s urls BM_UFlat/2 6116 6105 639496 18.8GB/s jpg BM_UFlat/3 123 123 34709908 1.5GB/s jpg_200 BM_UFlat/4 6724 6714 623318 14.2GB/s pdf BM_UFlat/5 183122 182722 23138 2.1GB/s html4 BM_UFlat/6 144981 144689 29384 1002.5MB/s txt1 BM_UFlat/7 125939 125691 33423 949.8MB/s txt2 BM_UFlat/8 383101 382241 10000 1064.7MB/s txt3 BM_UFlat/9 527824 526606 7958 872.6MB/s txt4 BM_UFlat/10 34849 34790 100000 3.2GB/s pb BM_UFlat/11 150213 149937 28131 1.1GB/s gaviota BM_UFlat/12 10850 10830 393231 2.1GB/s cp BM_UFlat/13 5532 5523 735739 1.9GB/s c BM_UFlat/14 1698 1695 2478035 2.0GB/s lsp BM_UFlat/15 678396 676917 6200 1.4GB/s xls BM_UFlat/16 155 155 26909789 1.2GB/s xls_200 BM_UFlat/17 241235 240698 17416 2.0GB/s bin BM_UFlat/18 183 183 23000841 1043.5MB/s bin_200 BM_UFlat/19 21461 21424 193275 1.7GB/s sum BM_UFlat/20 2232 2228 1887191 1.8GB/s man BM_UFlatSink/0 42272 42199 98528 2.3GB/s html BM_UFlatSink/1 460814 459898 9092 1.4GB/s urls BM_UFlatSink/2 5558 5547 768629 20.7GB/s jpg BM_UFlatSink/3 124 123 33629141 1.5GB/s jpg_200 BM_UFlatSink/4 6634 6621 629989 14.4GB/s pdf BM_UFlatSink/5 182883 182491 23030 2.1GB/s html4 BM_UFlatSink/6 143269 142964 29410 1014.5MB/s txt1 BM_UFlatSink/7 127041 126809 33136 941.4MB/s txt2 BM_UFlatSink/8 384367 383577 10000 1061.0MB/s txt3 BM_UFlatSink/9 529979 528890 7898 868.9MB/s txt4 BM_UFlatSink/10 41154 41075 100000 2.7GB/s pb BM_UFlatSink/11 146446 146155 28742 1.2GB/s gaviota BM_UFlatSink/12 11939 11918 352663 1.9GB/s cp BM_UFlatSink/13 5430 5421 770451 1.9GB/s c BM_UFlatSink/14 1665 1662 2538921 2.1GB/s lsp BM_UFlatSink/15 666840 665617 6309 1.4GB/s xls BM_UFlatSink/16 152 152 27639460 1.2GB/s xls_200 BM_UFlatSink/17 240076 239573 17643 2.0GB/s bin BM_UFlatSink/18 183 182 23128210 1046.0MB/s bin_200 BM_UFlatSink/19 22570 22528 185839 1.6GB/s sum BM_UFlatSink/20 2183 2180 1899526 1.8GB/s man SAMPLE PERFORMANCE with FDO on HASWELL (OLD) Benchmark Time(ns) CPU(ns) Iterations ------------------------------------------------ BM_UFlat/0 37041 36990 100000 2.6GB/s html BM_UFlat/1 471384 470574 8930 1.4GB/s urls BM_UFlat/2 5997 5986 722354 19.2GB/s jpg BM_UFlat/3 124 123 34964717 1.5GB/s jpg_200 BM_UFlat/4 6850 6838 621414 13.9GB/s pdf BM_UFlat/5 182578 182271 23001 2.1GB/s html4 BM_UFlat/6 148338 147989 28132 980.1MB/s txt1 BM_UFlat/7 130682 130471 32347 915.0MB/s txt2 BM_UFlat/8 397420 396553 10000 1026.3MB/s txt3 BM_UFlat/9 550126 548872 7736 837.2MB/s txt4 BM_UFlat/10 35013 34958 100000 3.2GB/s pb BM_UFlat/11 152270 151889 27508 1.1GB/s gaviota BM_UFlat/12 11117 11096 379059 2.1GB/s cp BM_UFlat/13 5812 5801 725240 1.8GB/s c BM_UFlat/14 1780 1777 2383982 2.0GB/s lsp BM_UFlat/15 707871 706139 5946 1.4GB/s xls BM_UFlat/16 157 157 26889747 1.2GB/s xls_200 BM_UFlat/17 239160 238556 17512 2.0GB/s bin BM_UFlat/18 181 180 23326040 1057.5MB/s bin_200 BM_UFlat/19 22706 22656 186285 1.6GB/s sum BM_UFlat/20 2319 2315 1813186 1.7GB/s man BM_UFlatSink/0 42657 42574 99000 2.2GB/s html BM_UFlatSink/1 466316 465262 9036 1.4GB/s urls BM_UFlatSink/2 6873 6859 648525 16.7GB/s jpg BM_UFlatSink/3 124 124 34434643 1.5GB/s jpg_200 BM_UFlatSink/4 6804 6790 624282 14.0GB/s pdf BM_UFlatSink/5 185468 185062 22746 2.1GB/s html4 BM_UFlatSink/6 148511 148209 28284 978.6MB/s txt1 BM_UFlatSink/7 130865 130607 32144 914.0MB/s txt2 BM_UFlatSink/8 393931 392983 10000 1035.6MB/s txt3 BM_UFlatSink/9 545548 544275 7740 844.3MB/s txt4 BM_UFlatSink/10 41659 41584 100000 2.7GB/s pb BM_UFlatSink/11 152062 151721 27854 1.1GB/s gaviota BM_UFlatSink/12 11987 11968 350909 1.9GB/s cp BM_UFlatSink/13 5652 5641 743280 1.8GB/s c BM_UFlatSink/14 1728 1725 2446140 2.0GB/s lsp BM_UFlatSink/15 687879 686231 6138 1.4GB/s xls BM_UFlatSink/16 155 155 27254484 1.2GB/s xls_200 BM_UFlatSink/17 240689 240083 17450 2.0GB/s bin BM_UFlatSink/18 183 182 22932858 1046.8MB/s bin_200 BM_UFlatSink/19 22718 22674 185207 1.6GB/s sum BM_UFlatSink/20 2272 2268 1851664 1.7GB/s man |
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ckennelly | e788e527d3 |
Avoid calling memset when resizing the buffer.
This buffer will be initialized and then trimmed down to size during the compression phase. |
|
Steinar H. Gunderson | d53de18799 |
Make heuristic match skipping more aggressive.
This causes compression to be much faster on incompressible inputs (such as the jpeg and pdf tests), and is neutral or even positive on the other tests. The test set shows only microscopic density regressions; I attempted to construct a worst-case test set containing ~1500 different cases of mixed plaintext + /dev/urandom, and even those seemed to be only 0.38 percentage points less dense on average (the single worst case was 87.8% -> 89.0%), which we can live with given that this is already an edge case. The original idea is by Klaus Post; I only tweaked the implementation. Ironically, the new implementation is almost more in line with the comment that was there, so I've left that largely alone, albeit with a small modification. Microbenchmark results (opt mode, 64-bit, static linking): Ivy Bridge: Benchmark Base (ns) New (ns) Improvement ---------------------------------------------------------------------------------------- BM_ZFlat/0 120284 115480 847.0MB/s html (22.31 %) +4.2% BM_ZFlat/1 1527911 1522242 440.7MB/s urls (47.78 %) +0.4% BM_ZFlat/2 17591 10582 10.9GB/s jpg (99.95 %) +66.2% BM_ZFlat/3 323 322 593.3MB/s jpg_200 (73.00 %) +0.3% BM_ZFlat/4 53691 14063 6.8GB/s pdf (83.30 %) +281.8% BM_ZFlat/5 495442 492347 794.8MB/s html4 (22.52 %) +0.6% BM_ZFlat/6 473523 473622 306.7MB/s txt1 (57.88 %) -0.0% BM_ZFlat/7 421406 420120 284.5MB/s txt2 (61.91 %) +0.3% BM_ZFlat/8 1265632 1270538 320.8MB/s txt3 (54.99 %) -0.4% BM_ZFlat/9 1742688 1737894 264.8MB/s txt4 (66.26 %) +0.3% BM_ZFlat/10 107950 103404 1095.1MB/s pb (19.68 %) +4.4% BM_ZFlat/11 372660 371818 473.5MB/s gaviota (37.72 %) +0.2% BM_ZFlat/12 53239 49528 474.4MB/s cp (48.12 %) +7.5% BM_ZFlat/13 18940 17349 613.9MB/s c (42.47 %) +9.2% BM_ZFlat/14 5155 5075 700.3MB/s lsp (48.37 %) +1.6% BM_ZFlat/15 1474757 1474471 667.2MB/s xls (41.23 %) +0.0% BM_ZFlat/16 363 362 528.0MB/s xls_200 (78.00 %) +0.3% BM_ZFlat/17 453849 456931 1073.2MB/s bin (18.11 %) -0.7% BM_ZFlat/18 90 87 2.1GB/s bin_200 (7.50 %) +3.4% BM_ZFlat/19 82163 80498 453.7MB/s sum (48.96 %) +2.1% BM_ZFlat/20 7174 7124 566.7MB/s man (59.21 %) +0.7% Sum of all benchmarks 8694831 8623857 +0.8% Sandy Bridge: Benchmark Base (ns) New (ns) Improvement ---------------------------------------------------------------------------------------- BM_ZFlat/0 117426 112649 868.2MB/s html (22.31 %) +4.2% BM_ZFlat/1 1517095 1498522 447.5MB/s urls (47.78 %) +1.2% BM_ZFlat/2 18601 10649 10.8GB/s jpg (99.95 %) +74.7% BM_ZFlat/3 359 356 536.0MB/s jpg_200 (73.00 %) +0.8% BM_ZFlat/4 60249 13832 6.9GB/s pdf (83.30 %) +335.6% BM_ZFlat/5 481246 475571 822.7MB/s html4 (22.52 %) +1.2% BM_ZFlat/6 460541 455693 318.8MB/s txt1 (57.88 %) +1.1% BM_ZFlat/7 407751 404147 295.8MB/s txt2 (61.91 %) +0.9% BM_ZFlat/8 1228255 1222519 333.4MB/s txt3 (54.99 %) +0.5% BM_ZFlat/9 1678299 1666379 276.2MB/s txt4 (66.26 %) +0.7% BM_ZFlat/10 106499 101715 1113.4MB/s pb (19.68 %) +4.7% BM_ZFlat/11 361913 360222 488.7MB/s gaviota (37.72 %) +0.5% BM_ZFlat/12 53137 49618 473.6MB/s cp (48.12 %) +7.1% BM_ZFlat/13 18801 17812 597.8MB/s c (42.47 %) +5.6% BM_ZFlat/14 5394 5383 660.2MB/s lsp (48.37 %) +0.2% BM_ZFlat/15 1435411 1432870 686.4MB/s xls (41.23 %) +0.2% BM_ZFlat/16 389 395 483.3MB/s xls_200 (78.00 %) -1.5% BM_ZFlat/17 447255 445510 1100.4MB/s bin (18.11 %) +0.4% BM_ZFlat/18 86 86 2.2GB/s bin_200 (7.50 %) +0.0% BM_ZFlat/19 82555 79512 459.3MB/s sum (48.96 %) +3.8% BM_ZFlat/20 7527 7553 534.5MB/s man (59.21 %) -0.3% Sum of all benchmarks 8488789 8360993 +1.5% Haswell: Benchmark Base (ns) New (ns) Improvement ---------------------------------------------------------------------------------------- BM_ZFlat/0 107512 105621 925.6MB/s html (22.31 %) +1.8% BM_ZFlat/1 1344306 1332479 503.1MB/s urls (47.78 %) +0.9% BM_ZFlat/2 14752 9471 12.1GB/s jpg (99.95 %) +55.8% BM_ZFlat/3 287 275 694.0MB/s jpg_200 (73.00 %) +4.4% BM_ZFlat/4 48810 12263 7.8GB/s pdf (83.30 %) +298.0% BM_ZFlat/5 443013 442064 884.6MB/s html4 (22.52 %) +0.2% BM_ZFlat/6 429239 432124 336.0MB/s txt1 (57.88 %) -0.7% BM_ZFlat/7 381765 383681 311.5MB/s txt2 (61.91 %) -0.5% BM_ZFlat/8 1136667 1154304 353.0MB/s txt3 (54.99 %) -1.5% BM_ZFlat/9 1579925 1592431 288.9MB/s txt4 (66.26 %) -0.8% BM_ZFlat/10 98345 92411 1.2GB/s pb (19.68 %) +6.4% BM_ZFlat/11 340397 340466 516.8MB/s gaviota (37.72 %) -0.0% BM_ZFlat/12 47076 43536 539.5MB/s cp (48.12 %) +8.1% BM_ZFlat/13 16680 15637 680.8MB/s c (42.47 %) +6.7% BM_ZFlat/14 4616 4539 782.6MB/s lsp (48.37 %) +1.7% BM_ZFlat/15 1331231 1334094 736.9MB/s xls (41.23 %) -0.2% BM_ZFlat/16 326 322 593.5MB/s xls_200 (78.00 %) +1.2% BM_ZFlat/17 404383 400326 1.2GB/s bin (18.11 %) +1.0% BM_ZFlat/18 69 69 2.7GB/s bin_200 (7.50 %) +0.0% BM_ZFlat/19 74771 71348 511.7MB/s sum (48.96 %) +4.8% BM_ZFlat/20 6461 6383 632.2MB/s man (59.21 %) +1.2% Sum of all benchmarks 7810631 7773844 +0.5% I've done a quick test that there are no performance regressions on external GCC (4.9.2, Debian, Haswell, 64-bit), too. |
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Steinar H. Gunderson | 7525a1600d |
Fix an issue where the ByteSource path (used for parsing std::string)
would incorrectly accept some invalid varints that the other path would not, causing potential CHECK-failures if the unit test were run with --write_uncompressed and a corrupted input file. Found by the afl fuzzer. |
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Steinar H. Gunderson | 0852af7606 |
Move the logic from ComputeTable into the unit test, which means it's run
automatically together with the other tests, and also removes the stray function ComputeTable() (which was never referenced by anything else in the open-source version, causing compiler warnings for some) out of the core library. Fixes public issue 96. A=sesse R=sanjay |
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Steinar H. Gunderson | d80342922c |
Fix signed-vs.-unsigned comparison warnings.
These were found by compiling Chromium's external copy of this code with MSVC with warning C4018 enabled. A=pkasting R=sanjay |
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Steinar H. Gunderson | eb66d8176b |
Initialized members of SnappyArrayWriter and SnappyDecompressionValidator.
These members were almost surely initialized before use by other member functions, but Coverity was warning about this. Eliminating these warnings minimizes clutter in that report and the likelihood of overlooking a real bug. A=cmumford R=jeff |
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Steinar H. Gunderson | b2312c4c25 |
Add support for Uncompress(source, sink). Various changes to allow
Uncompress(source, sink) to get the same performance as the different variants of Uncompress to Cord/DataBuffer/String/FlatBuffer. Changes to efficiently support Uncompress(source, sink) -------- a) For strings - we add support to StringByteSink to do GetAppendBuffer so we can write to it without copying. b) For flat array buffers, we do GetAppendBuffer and see if we can get a full buffer. With the above changes we get performance with ByteSource/ByteSink that is very close to directly using flat arrays and strings. We add various benchmark cases to demonstrate that. Orthogonal change ------------------ Add support for TryFastAppend() for SnappyScatteredWriter. Benchmark results are below CPU: Intel Core2 dL1:32KB dL2:4096KB Benchmark Time(ns) CPU(ns) Iterations ----------------------------------------------------- BM_UFlat/0 109065 108996 6410 896.0MB/s html BM_UFlat/1 1012175 1012343 691 661.4MB/s urls BM_UFlat/2 26775 26771 26149 4.4GB/s jpg BM_UFlat/3 48947 48940 14363 1.8GB/s pdf BM_UFlat/4 441029 440835 1589 886.1MB/s html4 BM_UFlat/5 39861 39880 17823 588.3MB/s cp BM_UFlat/6 18315 18300 38126 581.1MB/s c BM_UFlat/7 5254 5254 100000 675.4MB/s lsp BM_UFlat/8 1568060 1567376 447 626.6MB/s xls BM_UFlat/9 337512 337734 2073 429.5MB/s txt1 BM_UFlat/10 287269 287054 2434 415.9MB/s txt2 BM_UFlat/11 890098 890219 787 457.2MB/s txt3 BM_UFlat/12 1186593 1186863 590 387.2MB/s txt4 BM_UFlat/13 573927 573318 1000 853.7MB/s bin BM_UFlat/14 64250 64294 10000 567.2MB/s sum BM_UFlat/15 7301 7300 96153 552.2MB/s man BM_UFlat/16 109617 109636 6375 1031.5MB/s pb BM_UFlat/17 364438 364497 1921 482.3MB/s gaviota BM_UFlatSink/0 108518 108465 6450 900.4MB/s html BM_UFlatSink/1 991952 991997 705 675.0MB/s urls BM_UFlatSink/2 26815 26798 26065 4.4GB/s jpg BM_UFlatSink/3 49127 49122 14255 1.8GB/s pdf BM_UFlatSink/4 436674 436731 1604 894.4MB/s html4 BM_UFlatSink/5 39738 39733 17345 590.5MB/s cp BM_UFlatSink/6 18413 18416 37962 577.4MB/s c BM_UFlatSink/7 5677 5676 100000 625.2MB/s lsp BM_UFlatSink/8 1552175 1551026 451 633.2MB/s xls BM_UFlatSink/9 338526 338489 2065 428.5MB/s txt1 BM_UFlatSink/10 289387 289307 2420 412.6MB/s txt2 BM_UFlatSink/11 893803 893706 783 455.4MB/s txt3 BM_UFlatSink/12 1195919 1195459 586 384.4MB/s txt4 BM_UFlatSink/13 559637 559779 1000 874.3MB/s bin BM_UFlatSink/14 65073 65094 10000 560.2MB/s sum BM_UFlatSink/15 7618 7614 92823 529.5MB/s man BM_UFlatSink/16 110085 110121 6352 1027.0MB/s pb BM_UFlatSink/17 369196 368915 1896 476.5MB/s gaviota BM_UValidate/0 46954 46957 14899 2.0GB/s html BM_UValidate/1 500621 500868 1000 1.3GB/s urls BM_UValidate/2 283 283 2481447 417.2GB/s jpg BM_UValidate/3 16230 16228 43137 5.4GB/s pdf BM_UValidate/4 189129 189193 3701 2.0GB/s html4 A=uday R=sanjay |
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Steinar H. Gunderson | 86eb8b152b |
Change a few branch annotations that profiling found to be wrong.
Overall performance is neutral or slightly positive. Westmere (64-bit, opt): Benchmark Base (ns) New (ns) Improvement -------------------------------------------------------------------------------------- BM_UFlat/0 73798 71464 1.3GB/s html +3.3% BM_UFlat/1 715223 704318 953.5MB/s urls +1.5% BM_UFlat/2 8137 8871 13.0GB/s jpg -8.3% BM_UFlat/3 200 204 935.5MB/s jpg_200 -2.0% BM_UFlat/4 21627 21281 4.5GB/s pdf +1.6% BM_UFlat/5 302806 290350 1.3GB/s html4 +4.3% BM_UFlat/6 218920 219017 664.1MB/s txt1 -0.0% BM_UFlat/7 190437 191212 626.1MB/s txt2 -0.4% BM_UFlat/8 584192 580484 703.4MB/s txt3 +0.6% BM_UFlat/9 776537 779055 591.6MB/s txt4 -0.3% BM_UFlat/10 76056 72606 1.5GB/s pb +4.8% BM_UFlat/11 235962 239043 737.4MB/s gaviota -1.3% BM_UFlat/12 28049 28000 840.1MB/s cp +0.2% BM_UFlat/13 12225 12021 886.9MB/s c +1.7% BM_UFlat/14 3362 3544 1004.0MB/s lsp -5.1% BM_UFlat/15 937015 939206 1048.9MB/s xls -0.2% BM_UFlat/16 236 233 823.1MB/s xls_200 +1.3% BM_UFlat/17 373170 361947 1.3GB/s bin +3.1% BM_UFlat/18 264 264 725.5MB/s bin_200 +0.0% BM_UFlat/19 42834 43577 839.2MB/s sum -1.7% BM_UFlat/20 4770 4736 853.6MB/s man +0.7% BM_UValidate/0 39671 39944 2.4GB/s html -0.7% BM_UValidate/1 443391 443391 1.5GB/s urls +0.0% BM_UValidate/2 163 163 703.3GB/s jpg +0.0% BM_UValidate/3 113 112 1.7GB/s jpg_200 +0.9% BM_UValidate/4 7555 7608 12.6GB/s pdf -0.7% BM_ZFlat/0 157616 157568 621.5MB/s html (22.31 %) +0.0% BM_ZFlat/1 1997290 2014486 333.4MB/s urls (47.77 %) -0.9% BM_ZFlat/2 23035 22237 5.2GB/s jpg (99.95 %) +3.6% BM_ZFlat/3 539 540 354.5MB/s jpg_200 (73.00 %) -0.2% BM_ZFlat/4 80709 81369 1.2GB/s pdf (81.85 %) -0.8% BM_ZFlat/5 639059 639220 613.0MB/s html4 (22.51 %) -0.0% BM_ZFlat/6 577203 583370 249.3MB/s txt1 (57.87 %) -1.1% BM_ZFlat/7 510887 516094 232.0MB/s txt2 (61.93 %) -1.0% BM_ZFlat/8 1535843 1556973 262.2MB/s txt3 (54.92 %) -1.4% BM_ZFlat/9 2070068 2102380 219.3MB/s txt4 (66.22 %) -1.5% BM_ZFlat/10 152396 152148 745.5MB/s pb (19.64 %) +0.2% BM_ZFlat/11 447367 445859 395.4MB/s gaviota (37.72 %) +0.3% BM_ZFlat/12 76375 76797 306.3MB/s cp (48.12 %) -0.5% BM_ZFlat/13 31518 31987 333.3MB/s c (42.40 %) -1.5% BM_ZFlat/14 10598 10827 328.6MB/s lsp (48.37 %) -2.1% BM_ZFlat/15 1782243 1802728 546.5MB/s xls (41.23 %) -1.1% BM_ZFlat/16 526 539 355.0MB/s xls_200 (78.00 %) -2.4% BM_ZFlat/17 598141 597311 822.1MB/s bin (18.11 %) +0.1% BM_ZFlat/18 121 120 1.6GB/s bin_200 (7.50 %) +0.8% BM_ZFlat/19 109981 112173 326.0MB/s sum (48.96 %) -2.0% BM_ZFlat/20 14355 14575 277.4MB/s man (59.36 %) -1.5% Sum of all benchmarks 33882722 33879325 +0.0% Sandy Bridge (64-bit, opt): Benchmark Base (ns) New (ns) Improvement -------------------------------------------------------------------------------------- BM_UFlat/0 43764 41600 2.3GB/s html +5.2% BM_UFlat/1 517990 507058 1.3GB/s urls +2.2% BM_UFlat/2 6625 5529 20.8GB/s jpg +19.8% BM_UFlat/3 154 155 1.2GB/s jpg_200 -0.6% BM_UFlat/4 12795 11747 8.1GB/s pdf +8.9% BM_UFlat/5 200335 193413 2.0GB/s html4 +3.6% BM_UFlat/6 156574 156426 929.2MB/s txt1 +0.1% BM_UFlat/7 137574 137464 870.4MB/s txt2 +0.1% BM_UFlat/8 422551 421603 967.4MB/s txt3 +0.2% BM_UFlat/9 577749 578985 795.6MB/s txt4 -0.2% BM_UFlat/10 42329 39362 2.8GB/s pb +7.5% BM_UFlat/11 170615 169751 1037.9MB/s gaviota +0.5% BM_UFlat/12 12800 12719 1.8GB/s cp +0.6% BM_UFlat/13 6585 6579 1.6GB/s c +0.1% BM_UFlat/14 2066 2044 1.7GB/s lsp +1.1% BM_UFlat/15 750861 746911 1.3GB/s xls +0.5% BM_UFlat/16 188 192 996.0MB/s xls_200 -2.1% BM_UFlat/17 271622 264333 1.8GB/s bin +2.8% BM_UFlat/18 208 207 923.6MB/s bin_200 +0.5% BM_UFlat/19 24667 24845 1.4GB/s sum -0.7% BM_UFlat/20 2663 2662 1.5GB/s man +0.0% BM_ZFlat/0 115173 115624 846.5MB/s html (22.31 %) -0.4% BM_ZFlat/1 1530331 1537769 436.5MB/s urls (47.77 %) -0.5% BM_ZFlat/2 17503 17013 6.8GB/s jpg (99.95 %) +2.9% BM_ZFlat/3 385 385 496.3MB/s jpg_200 (73.00 %) +0.0% BM_ZFlat/4 61753 61540 1.6GB/s pdf (81.85 %) +0.3% BM_ZFlat/5 484806 483356 810.1MB/s html4 (22.51 %) +0.3% BM_ZFlat/6 464143 467609 310.9MB/s txt1 (57.87 %) -0.7% BM_ZFlat/7 410315 413319 289.5MB/s txt2 (61.93 %) -0.7% BM_ZFlat/8 1244082 1249381 326.5MB/s txt3 (54.92 %) -0.4% BM_ZFlat/9 1696914 1709685 269.4MB/s txt4 (66.22 %) -0.7% BM_ZFlat/10 104148 103372 1096.7MB/s pb (19.64 %) +0.8% BM_ZFlat/11 363522 359722 489.8MB/s gaviota (37.72 %) +1.1% BM_ZFlat/12 47021 50095 469.3MB/s cp (48.12 %) -6.1% BM_ZFlat/13 16888 16985 627.4MB/s c (42.40 %) -0.6% BM_ZFlat/14 5496 5469 650.3MB/s lsp (48.37 %) +0.5% BM_ZFlat/15 1460713 1448760 679.5MB/s xls (41.23 %) +0.8% BM_ZFlat/16 387 393 486.8MB/s xls_200 (78.00 %) -1.5% BM_ZFlat/17 457654 451462 1086.6MB/s bin (18.11 %) +1.4% BM_ZFlat/18 97 87 2.1GB/s bin_200 (7.50 %) +11.5% BM_ZFlat/19 77904 80924 451.7MB/s sum (48.96 %) -3.7% BM_ZFlat/20 7648 7663 527.1MB/s man (59.36 %) -0.2% Sum of all benchmarks 25493635 25482069 +0.0% A=dehao R=sesse |
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Steinar H. Gunderson | 11ccdfb868 |
Sync with various Google-internal changes.
Should not mean much for the open-source version. |
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snappy.mirrorbot@gmail.com | 7c3c01df77 |
When we compare the number of bytes produced with the offset for a
backreference, make the signedness of the bytes produced clear, by sticking it into a size_t. This avoids a signed/unsigned compare warning from MSVC (public issue 71), and also is slightly clearer. Since the line is now so long the explanatory comment about the -1u trick has to go somewhere else anyway, I used the opportunity to explain it in slightly more detail. This is a purely stylistic change; the emitted assembler from GCC is identical. R=jeff git-svn-id: https://snappy.googlecode.com/svn/trunk@79 03e5f5b5-db94-4691-08a0-1a8bf15f6143 |
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snappy.mirrorbot@gmail.com | 2f0aaf8631 |
In the fast path for decompressing literals, instead of checking
whether there's 16 bytes free and then checking right afterwards (when having subtracted the literal size) that there are now 5 bytes free, just check once for 21 bytes. This skips a compare and a branch; although it is easily predictable, it is still a few cycles on a fast path that we would like to get rid of. Benchmarking this yields very confusing results. On open-source GCC 4.8.1 on Haswell, we get exactly the expected results; the benchmarks where we hit the fast path for literals (in particular the two HTML benchmarks and the protobuf benchmark) give very nice speedups, and the others are not really affected. However, benchmarks with Google's GCC branch on other hardware is much less clear. It seems that we have a weak loss in some cases (and the win for the “typical” win cases are not nearly as clear), but that it depends on microarchitecture and plain luck in how we run the benchmark. Looking at the generated assembler, it seems that the removal of the if causes other large-scale changes in how the function is laid out, which makes it likely that this is just bad luck. Thus, we should keep this change, even though its exact current impact is unclear; it's a sensible change per se, and dropping it on the basis of microoptimization for a given compiler (or even branch of a compiler) would seem like a bad strategy in the long run. Microbenchmark results (all in 64-bit, opt mode): Nehalem, Google GCC: Benchmark Base (ns) New (ns) Improvement ------------------------------------------------------------------------------ BM_UFlat/0 76747 75591 1.3GB/s html +1.5% BM_UFlat/1 765756 757040 886.3MB/s urls +1.2% BM_UFlat/2 10867 10893 10.9GB/s jpg -0.2% BM_UFlat/3 124 131 1.4GB/s jpg_200 -5.3% BM_UFlat/4 31663 31596 2.8GB/s pdf +0.2% BM_UFlat/5 314162 308176 1.2GB/s html4 +1.9% BM_UFlat/6 29668 29746 790.6MB/s cp -0.3% BM_UFlat/7 12958 13386 796.4MB/s c -3.2% BM_UFlat/8 3596 3682 966.0MB/s lsp -2.3% BM_UFlat/9 1019193 1033493 953.3MB/s xls -1.4% BM_UFlat/10 239 247 775.3MB/s xls_200 -3.2% BM_UFlat/11 236411 240271 606.9MB/s txt1 -1.6% BM_UFlat/12 206639 209768 571.2MB/s txt2 -1.5% BM_UFlat/13 627803 635722 641.4MB/s txt3 -1.2% BM_UFlat/14 845932 857816 538.2MB/s txt4 -1.4% BM_UFlat/15 402107 391670 1.2GB/s bin +2.7% BM_UFlat/16 283 279 683.6MB/s bin_200 +1.4% BM_UFlat/17 46070 46815 781.5MB/s sum -1.6% BM_UFlat/18 5053 5163 782.0MB/s man -2.1% BM_UFlat/19 79721 76581 1.4GB/s pb +4.1% BM_UFlat/20 251158 252330 697.5MB/s gaviota -0.5% Sum of all benchmarks 4966150 4980396 -0.3% Sandy Bridge, Google GCC: Benchmark Base (ns) New (ns) Improvement ------------------------------------------------------------------------------ BM_UFlat/0 42850 42182 2.3GB/s html +1.6% BM_UFlat/1 525660 515816 1.3GB/s urls +1.9% BM_UFlat/2 7173 7283 16.3GB/s jpg -1.5% BM_UFlat/3 92 91 2.1GB/s jpg_200 +1.1% BM_UFlat/4 15147 14872 5.9GB/s pdf +1.8% BM_UFlat/5 199936 192116 2.0GB/s html4 +4.1% BM_UFlat/6 12796 12443 1.8GB/s cp +2.8% BM_UFlat/7 6588 6400 1.6GB/s c +2.9% BM_UFlat/8 2010 1951 1.8GB/s lsp +3.0% BM_UFlat/9 761124 763049 1.3GB/s xls -0.3% BM_UFlat/10 186 189 1016.1MB/s xls_200 -1.6% BM_UFlat/11 159354 158460 918.6MB/s txt1 +0.6% BM_UFlat/12 139732 139950 856.1MB/s txt2 -0.2% BM_UFlat/13 429917 425027 961.7MB/s txt3 +1.2% BM_UFlat/14 585255 587324 785.8MB/s txt4 -0.4% BM_UFlat/15 276186 266173 1.8GB/s bin +3.8% BM_UFlat/16 205 207 925.5MB/s bin_200 -1.0% BM_UFlat/17 24925 24935 1.4GB/s sum -0.0% BM_UFlat/18 2632 2576 1.5GB/s man +2.2% BM_UFlat/19 40546 39108 2.8GB/s pb +3.7% BM_UFlat/20 175803 168209 1048.9MB/s gaviota +4.5% Sum of all benchmarks 3408117 3368361 +1.2% Haswell, upstream GCC 4.8.1: Benchmark Base (ns) New (ns) Improvement ------------------------------------------------------------------------------ BM_UFlat/0 46308 40641 2.3GB/s html +13.9% BM_UFlat/1 513385 514706 1.3GB/s urls -0.3% BM_UFlat/2 6197 6151 19.2GB/s jpg +0.7% BM_UFlat/3 61 61 3.0GB/s jpg_200 +0.0% BM_UFlat/4 13551 13429 6.5GB/s pdf +0.9% BM_UFlat/5 198317 190243 2.0GB/s html4 +4.2% BM_UFlat/6 14768 12560 1.8GB/s cp +17.6% BM_UFlat/7 6453 6447 1.6GB/s c +0.1% BM_UFlat/8 1991 1980 1.8GB/s lsp +0.6% BM_UFlat/9 766947 770424 1.2GB/s xls -0.5% BM_UFlat/10 170 169 1.1GB/s xls_200 +0.6% BM_UFlat/11 164350 163554 888.7MB/s txt1 +0.5% BM_UFlat/12 145444 143830 832.1MB/s txt2 +1.1% BM_UFlat/13 437849 438413 929.2MB/s txt3 -0.1% BM_UFlat/14 603587 605309 759.8MB/s txt4 -0.3% BM_UFlat/15 249799 248067 1.9GB/s bin +0.7% BM_UFlat/16 191 188 1011.4MB/s bin_200 +1.6% BM_UFlat/17 26064 24778 1.4GB/s sum +5.2% BM_UFlat/18 2620 2601 1.5GB/s man +0.7% BM_UFlat/19 44551 37373 3.0GB/s pb +19.2% BM_UFlat/20 165408 164584 1.0GB/s gaviota +0.5% Sum of all benchmarks 3408011 3385508 +0.7% git-svn-id: https://snappy.googlecode.com/svn/trunk@78 03e5f5b5-db94-4691-08a0-1a8bf15f6143 |
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snappy.mirrorbot@gmail.com | 062bf544a6 |
Make the two IncrementalCopy* functions take in an ssize_t instead of a len,
in order to avoid having to do 32-to-64-bit signed conversions on a hot path during decompression. (Also fixes some MSVC warnings, mentioned in public issue 75, but more of those remain.) They cannot be size_t because we expect them to go negative and test for that. This saves a few movzwl instructions, yielding ~2% speedup in decompression. Sandy Bridge: Benchmark Base (ns) New (ns) Improvement ------------------------------------------------------------------------------------------------- BM_UFlat/0 48009 41283 2.3GB/s html +16.3% BM_UFlat/1 531274 513419 1.3GB/s urls +3.5% BM_UFlat/2 7378 7062 16.8GB/s jpg +4.5% BM_UFlat/3 92 92 2.0GB/s jpg_200 +0.0% BM_UFlat/4 15057 14974 5.9GB/s pdf +0.6% BM_UFlat/5 204323 193140 2.0GB/s html4 +5.8% BM_UFlat/6 13282 12611 1.8GB/s cp +5.3% BM_UFlat/7 6511 6504 1.6GB/s c +0.1% BM_UFlat/8 2014 2030 1.7GB/s lsp -0.8% BM_UFlat/9 775909 768336 1.3GB/s xls +1.0% BM_UFlat/10 182 184 1043.2MB/s xls_200 -1.1% BM_UFlat/11 167352 161630 901.2MB/s txt1 +3.5% BM_UFlat/12 147393 142246 842.8MB/s txt2 +3.6% BM_UFlat/13 449960 432853 944.4MB/s txt3 +4.0% BM_UFlat/14 620497 594845 775.9MB/s txt4 +4.3% BM_UFlat/15 265610 267356 1.8GB/s bin -0.7% BM_UFlat/16 206 205 932.7MB/s bin_200 +0.5% BM_UFlat/17 25561 24730 1.4GB/s sum +3.4% BM_UFlat/18 2620 2644 1.5GB/s man -0.9% BM_UFlat/19 45766 38589 2.9GB/s pb +18.6% BM_UFlat/20 171107 169832 1039.5MB/s gaviota +0.8% Sum of all benchmarks 3500103 3394565 +3.1% Westmere: Benchmark Base (ns) New (ns) Improvement ------------------------------------------------------------------------------------------------- BM_UFlat/0 72624 71526 1.3GB/s html +1.5% BM_UFlat/1 735821 722917 930.8MB/s urls +1.8% BM_UFlat/2 10450 10172 11.7GB/s jpg +2.7% BM_UFlat/3 117 117 1.6GB/s jpg_200 +0.0% BM_UFlat/4 29817 29648 3.0GB/s pdf +0.6% BM_UFlat/5 297126 293073 1.3GB/s html4 +1.4% BM_UFlat/6 28252 27994 842.0MB/s cp +0.9% BM_UFlat/7 12672 12391 862.1MB/s c +2.3% BM_UFlat/8 3507 3425 1040.9MB/s lsp +2.4% BM_UFlat/9 1004268 969395 1018.0MB/s xls +3.6% BM_UFlat/10 233 227 844.8MB/s xls_200 +2.6% BM_UFlat/11 230054 224981 647.8MB/s txt1 +2.3% BM_UFlat/12 201229 196447 610.5MB/s txt2 +2.4% BM_UFlat/13 609547 596761 685.3MB/s txt3 +2.1% BM_UFlat/14 824362 804821 573.8MB/s txt4 +2.4% BM_UFlat/15 371095 374899 1.3GB/s bin -1.0% BM_UFlat/16 267 267 717.8MB/s bin_200 +0.0% BM_UFlat/17 44623 43828 835.9MB/s sum +1.8% BM_UFlat/18 5077 4815 841.0MB/s man +5.4% BM_UFlat/19 74964 73210 1.5GB/s pb +2.4% BM_UFlat/20 237987 236745 746.0MB/s gaviota +0.5% Sum of all benchmarks 4794092 4697659 +2.1% Istanbul: Benchmark Base (ns) New (ns) Improvement ------------------------------------------------------------------------------------------------- BM_UFlat/0 98614 96376 1020.4MB/s html +2.3% BM_UFlat/1 963740 953241 707.2MB/s urls +1.1% BM_UFlat/2 25042 24769 4.8GB/s jpg +1.1% BM_UFlat/3 180 180 1065.6MB/s jpg_200 +0.0% BM_UFlat/4 45942 45403 1.9GB/s pdf +1.2% BM_UFlat/5 400135 390226 1008.2MB/s html4 +2.5% BM_UFlat/6 37768 37392 631.9MB/s cp +1.0% BM_UFlat/7 18585 18200 588.2MB/s c +2.1% BM_UFlat/8 5751 5690 627.7MB/s lsp +1.1% BM_UFlat/9 1543154 1542209 641.4MB/s xls +0.1% BM_UFlat/10 381 388 494.6MB/s xls_200 -1.8% BM_UFlat/11 339715 331973 440.1MB/s txt1 +2.3% BM_UFlat/12 294807 289418 415.4MB/s txt2 +1.9% BM_UFlat/13 906160 884094 463.3MB/s txt3 +2.5% BM_UFlat/14 1224221 1198435 386.1MB/s txt4 +2.2% BM_UFlat/15 516277 502923 979.5MB/s bin +2.7% BM_UFlat/16 405 402 477.2MB/s bin_200 +0.7% BM_UFlat/17 61640 60621 605.6MB/s sum +1.7% BM_UFlat/18 7326 7383 549.5MB/s man -0.8% BM_UFlat/19 94720 92653 1.2GB/s pb +2.2% BM_UFlat/20 360435 346687 510.6MB/s gaviota +4.0% Sum of all benchmarks 6944998 6828663 +1.7% git-svn-id: https://snappy.googlecode.com/svn/trunk@77 03e5f5b5-db94-4691-08a0-1a8bf15f6143 |
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snappy.mirrorbot@gmail.com | 328aafa198 |
Add support for uncompressing to iovecs (scatter I/O).
Windows does not have struct iovec defined anywhere, so we define our own version that's equal to what UNIX typically has. The bulk of this patch was contributed by Mohit Aron. R=jeff git-svn-id: https://snappy.googlecode.com/svn/trunk@76 03e5f5b5-db94-4691-08a0-1a8bf15f6143 |
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snappy.mirrorbot@gmail.com | cd92eb0852 |
Some code reorganization needed for an internal change.
R=fikes git-svn-id: https://snappy.googlecode.com/svn/trunk@75 03e5f5b5-db94-4691-08a0-1a8bf15f6143 |
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snappy.mirrorbot@gmail.com | 698af469b4 |
Change a few ORs to additions where they don't matter. This helps the compiler
use the LEA instruction more efficiently, since e.g. a + (b << 2) can be encoded as one instruction. Even more importantly, it can constant-fold the COPY_* enums together with the shifted negative constants, which also saves some instructions. (We don't need it for LITERAL, since it happens to be 0.) I am unsure why the compiler couldn't do this itself, but the theory is that it cannot prove that len-1 and len-4 cannot underflow/wrap, and thus can't do the optimization safely. The gains are small but measurable; 0.5-1.0% over the BM_Z* benchmarks (measured on Westmere, Sandy Bridge and Istanbul). R=sanjay git-svn-id: https://snappy.googlecode.com/svn/trunk@69 03e5f5b5-db94-4691-08a0-1a8bf15f6143 |
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snappy.mirrorbot@gmail.com | 8b95464146 |
Snappy library no longer depends on iostream.
Achieved by moving logging macro definitions to a test-only header file, and by changing non-test code to use assert, fprintf, and abort instead of LOG/CHECK macros. R=sesse git-svn-id: https://snappy.googlecode.com/svn/trunk@62 03e5f5b5-db94-4691-08a0-1a8bf15f6143 |
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snappy.mirrorbot@gmail.com | dc63e0ad96 |
For 32-bit platforms, do not try to accelerate multiple neighboring
32-bit loads with a 64-bit load during compression (it's not a win). The main target for this optimization is ARM, but 32-bit x86 gets a small gain, too, although there is noise in the microbenchmarks. It's a no-op for 64-bit x86. It does not affect decompression. Microbenchmark results on a Cortex-A9 1GHz, using g++ 4.6.2 (from Ubuntu/Linaro), -O2 -DNDEBUG -Wa,-march=armv7a -mtune=cortex-a9 -mthumb-interwork, minimum 1000 iterations: Benchmark Time(ns) CPU(ns) Iterations --------------------------------------------------- BM_ZFlat/0 1158277 1160000 1000 84.2MB/s html (23.57 %) [ +4.3%] BM_ZFlat/1 14861782 14860000 1000 45.1MB/s urls (50.89 %) [ +1.1%] BM_ZFlat/2 393595 390000 1000 310.5MB/s jpg (99.88 %) [ +0.0%] BM_ZFlat/3 650583 650000 1000 138.4MB/s pdf (82.13 %) [ +3.1%] BM_ZFlat/4 4661480 4660000 1000 83.8MB/s html4 (23.55 %) [ +4.3%] BM_ZFlat/5 491973 490000 1000 47.9MB/s cp (48.12 %) [ +2.0%] BM_ZFlat/6 193575 192678 1038 55.2MB/s c (42.40 %) [ +9.0%] BM_ZFlat/7 62343 62754 3187 56.5MB/s lsp (48.37 %) [ +2.6%] BM_ZFlat/8 17708468 17710000 1000 55.5MB/s xls (41.34 %) [ -0.3%] BM_ZFlat/9 3755345 3760000 1000 38.6MB/s txt1 (59.81 %) [ +8.2%] BM_ZFlat/10 3324217 3320000 1000 36.0MB/s txt2 (64.07 %) [ +4.2%] BM_ZFlat/11 10139932 10140000 1000 40.1MB/s txt3 (57.11 %) [ +6.4%] BM_ZFlat/12 13532109 13530000 1000 34.0MB/s txt4 (68.35 %) [ +5.0%] BM_ZFlat/13 4690847 4690000 1000 104.4MB/s bin (18.21 %) [ +4.1%] BM_ZFlat/14 830682 830000 1000 43.9MB/s sum (51.88 %) [ +1.2%] BM_ZFlat/15 84784 85011 2235 47.4MB/s man (59.36 %) [ +1.1%] BM_ZFlat/16 1293254 1290000 1000 87.7MB/s pb (23.15 %) [ +2.3%] BM_ZFlat/17 2775155 2780000 1000 63.2MB/s gaviota (38.27 %) [+12.2%] Core i7 in 32-bit mode (only one run and 100 iterations, though, so noisy): Benchmark Time(ns) CPU(ns) Iterations --------------------------------------------------- BM_ZFlat/0 227582 223464 3043 437.0MB/s html (23.57 %) [ +7.4%] BM_ZFlat/1 2982430 2918455 233 229.4MB/s urls (50.89 %) [ +2.9%] BM_ZFlat/2 46967 46658 15217 2.5GB/s jpg (99.88 %) [ +0.0%] BM_ZFlat/3 115298 114864 5833 783.2MB/s pdf (82.13 %) [ +1.5%] BM_ZFlat/4 913440 899743 778 434.2MB/s html4 (23.55 %) [ +0.3%] BM_ZFlat/5 110302 108571 7000 216.1MB/s cp (48.12 %) [ +0.0%] BM_ZFlat/6 44409 43372 15909 245.2MB/s c (42.40 %) [ +0.8%] BM_ZFlat/7 15713 15643 46667 226.9MB/s lsp (48.37 %) [ +2.7%] BM_ZFlat/8 2625539 2602230 269 377.4MB/s xls (41.34 %) [ +1.4%] BM_ZFlat/9 808884 811429 875 178.8MB/s txt1 (59.81 %) [ -3.9%] BM_ZFlat/10 709532 700000 1000 170.5MB/s txt2 (64.07 %) [ +0.0%] BM_ZFlat/11 2177682 2162162 333 188.2MB/s txt3 (57.11 %) [ -1.4%] BM_ZFlat/12 2849640 2840000 250 161.8MB/s txt4 (68.35 %) [ -1.4%] BM_ZFlat/13 849760 835476 778 585.8MB/s bin (18.21 %) [ +1.2%] BM_ZFlat/14 165940 164571 4375 221.6MB/s sum (51.88 %) [ +1.4%] BM_ZFlat/15 20939 20571 35000 196.0MB/s man (59.36 %) [ +2.1%] BM_ZFlat/16 239209 236544 2917 478.1MB/s pb (23.15 %) [ +4.2%] BM_ZFlat/17 616206 610000 1000 288.2MB/s gaviota (38.27 %) [ -1.6%] R=sanjay git-svn-id: https://snappy.googlecode.com/svn/trunk@60 03e5f5b5-db94-4691-08a0-1a8bf15f6143 |
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snappy.mirrorbot@gmail.com | f8829ea39d |
Enable the use of unaligned loads and stores for ARM-based architectures
where they are available (ARMv7 and higher). This gives a significant speed boost on ARM, both for compression and decompression. It should not affect x86 at all. There are more changes possible to speed up ARM, but it might not be that easy to do without hurting x86 or making the code uglier. Also, we de not try to use NEON yet. Microbenchmark results on a Cortex-A9 1GHz, using g++ 4.6.2 (from Ubuntu/Linaro), -O2 -DNDEBUG -Wa,-march=armv7a -mtune=cortex-a9 -mthumb-interwork: Benchmark Time(ns) CPU(ns) Iterations --------------------------------------------------- BM_UFlat/0 524806 529100 378 184.6MB/s html [+33.6%] BM_UFlat/1 5139790 5200000 100 128.8MB/s urls [+28.8%] BM_UFlat/2 86540 84166 1901 1.4GB/s jpg [ +0.6%] BM_UFlat/3 215351 210176 904 428.0MB/s pdf [+29.8%] BM_UFlat/4 2144490 2100000 100 186.0MB/s html4 [+33.3%] BM_UFlat/5 194482 190000 1000 123.5MB/s cp [+36.2%] BM_UFlat/6 91843 90175 2107 117.9MB/s c [+38.6%] BM_UFlat/7 28535 28426 6684 124.8MB/s lsp [+34.7%] BM_UFlat/8 9206600 9200000 100 106.7MB/s xls [+42.4%] BM_UFlat/9 1865273 1886792 106 76.9MB/s txt1 [+32.5%] BM_UFlat/10 1576809 1587301 126 75.2MB/s txt2 [+32.3%] BM_UFlat/11 4968450 4900000 100 83.1MB/s txt3 [+32.7%] BM_UFlat/12 6673970 6700000 100 68.6MB/s txt4 [+32.8%] BM_UFlat/13 2391470 2400000 100 203.9MB/s bin [+29.2%] BM_UFlat/14 334601 344827 522 105.8MB/s sum [+30.6%] BM_UFlat/15 37404 38080 5252 105.9MB/s man [+33.8%] BM_UFlat/16 535470 540540 370 209.2MB/s pb [+31.2%] BM_UFlat/17 1875245 1886792 106 93.2MB/s gaviota [+37.8%] BM_UValidate/0 178425 179533 1114 543.9MB/s html [ +2.7%] BM_UValidate/1 2100450 2000000 100 334.8MB/s urls [ +5.0%] BM_UValidate/2 1039 1044 172413 113.3GB/s jpg [ +3.4%] BM_UValidate/3 59423 59470 3363 1.5GB/s pdf [ +7.8%] BM_UValidate/4 760716 766283 261 509.8MB/s html4 [ +6.5%] BM_ZFlat/0 1204632 1204819 166 81.1MB/s html (23.57 %) [+32.8%] BM_ZFlat/1 15656190 15600000 100 42.9MB/s urls (50.89 %) [+27.6%] BM_ZFlat/2 403336 410677 487 294.8MB/s jpg (99.88 %) [+16.5%] BM_ZFlat/3 664073 671140 298 134.0MB/s pdf (82.13 %) [+28.4%] BM_ZFlat/4 4961940 4900000 100 79.7MB/s html4 (23.55 %) [+30.6%] BM_ZFlat/5 500664 501253 399 46.8MB/s cp (48.12 %) [+33.4%] BM_ZFlat/6 217276 215982 926 49.2MB/s c (42.40 %) [+25.0%] BM_ZFlat/7 64122 65487 3054 54.2MB/s lsp (48.37 %) [+36.1%] BM_ZFlat/8 18045730 18000000 100 54.6MB/s xls (41.34 %) [+34.4%] BM_ZFlat/9 4051530 4000000 100 36.3MB/s txt1 (59.81 %) [+25.0%] BM_ZFlat/10 3451800 3500000 100 34.1MB/s txt2 (64.07 %) [+25.7%] BM_ZFlat/11 11052340 11100000 100 36.7MB/s txt3 (57.11 %) [+24.3%] BM_ZFlat/12 14538690 14600000 100 31.5MB/s txt4 (68.35 %) [+24.7%] BM_ZFlat/13 5041850 5000000 100 97.9MB/s bin (18.21 %) [+32.0%] BM_ZFlat/14 908840 909090 220 40.1MB/s sum (51.88 %) [+22.2%] BM_ZFlat/15 86921 86206 1972 46.8MB/s man (59.36 %) [+42.2%] BM_ZFlat/16 1312315 1315789 152 86.0MB/s pb (23.15 %) [+34.5%] BM_ZFlat/17 3173120 3200000 100 54.9MB/s gaviota (38.27%) [+28.1%] The move from 64-bit to 32-bit operations for the copies also affected 32-bit x86; positive on the decompression side, and slightly negative on the compression side (unless that is noise; I only ran once): Benchmark Time(ns) CPU(ns) Iterations ----------------------------------------------------- BM_UFlat/0 86279 86140 7778 1.1GB/s html [ +7.5%] BM_UFlat/1 839265 822622 778 813.9MB/s urls [ +9.4%] BM_UFlat/2 9180 9143 87500 12.9GB/s jpg [ +1.2%] BM_UFlat/3 35080 35000 20000 2.5GB/s pdf [+10.1%] BM_UFlat/4 350318 345000 2000 1.1GB/s html4 [ +7.0%] BM_UFlat/5 33808 33472 21212 701.0MB/s cp [ +9.0%] BM_UFlat/6 15201 15214 46667 698.9MB/s c [+14.9%] BM_UFlat/7 4652 4651 159091 762.9MB/s lsp [ +7.5%] BM_UFlat/8 1285551 1282528 538 765.7MB/s xls [+10.7%] BM_UFlat/9 282510 281690 2414 514.9MB/s txt1 [+13.6%] BM_UFlat/10 243494 239286 2800 498.9MB/s txt2 [+14.4%] BM_UFlat/11 743625 740000 1000 550.0MB/s txt3 [+14.3%] BM_UFlat/12 999441 989717 778 464.3MB/s txt4 [+16.1%] BM_UFlat/13 412402 410076 1707 1.2GB/s bin [ +7.3%] BM_UFlat/14 54876 54000 10000 675.3MB/s sum [+13.0%] BM_UFlat/15 6146 6100 100000 660.8MB/s man [+14.8%] BM_UFlat/16 90496 90286 8750 1.2GB/s pb [ +4.0%] BM_UFlat/17 292650 292000 2500 602.0MB/s gaviota [+18.1%] BM_UValidate/0 49620 49699 14286 1.9GB/s html [ +0.0%] BM_UValidate/1 501371 500000 1000 1.3GB/s urls [ +0.0%] BM_UValidate/2 232 227 3043478 521.5GB/s jpg [ +1.3%] BM_UValidate/3 17250 17143 43750 5.1GB/s pdf [ -1.3%] BM_UValidate/4 198643 200000 3500 1.9GB/s html4 [ -0.9%] BM_ZFlat/0 227128 229415 3182 425.7MB/s html (23.57 %) [ -1.4%] BM_ZFlat/1 2970089 2960000 250 226.2MB/s urls (50.89 %) [ -1.9%] BM_ZFlat/2 45683 44999 15556 2.6GB/s jpg (99.88 %) [ +2.2%] BM_ZFlat/3 114661 113136 6364 795.1MB/s pdf (82.13 %) [ -1.5%] BM_ZFlat/4 919702 914286 875 427.2MB/s html4 (23.55%) [ -1.3%] BM_ZFlat/5 108189 108422 6364 216.4MB/s cp (48.12 %) [ -1.2%] BM_ZFlat/6 44525 44000 15909 241.7MB/s c (42.40 %) [ -2.9%] BM_ZFlat/7 15973 15857 46667 223.8MB/s lsp (48.37 %) [ +0.0%] BM_ZFlat/8 2677888 2639405 269 372.1MB/s xls (41.34 %) [ -1.4%] BM_ZFlat/9 800715 780000 1000 186.0MB/s txt1 (59.81 %) [ -0.4%] BM_ZFlat/10 700089 700000 1000 170.5MB/s txt2 (64.07 %) [ -2.9%] BM_ZFlat/11 2159356 2138365 318 190.3MB/s txt3 (57.11 %) [ -0.3%] BM_ZFlat/12 2796143 2779923 259 165.3MB/s txt4 (68.35 %) [ -1.4%] BM_ZFlat/13 856458 835476 778 585.8MB/s bin (18.21 %) [ -0.1%] BM_ZFlat/14 166908 166857 4375 218.6MB/s sum (51.88 %) [ -1.4%] BM_ZFlat/15 21181 20857 35000 193.3MB/s man (59.36 %) [ -0.8%] BM_ZFlat/16 244009 239973 2917 471.3MB/s pb (23.15 %) [ -1.4%] BM_ZFlat/17 596362 590000 1000 297.9MB/s gaviota (38.27%) [ +0.0%] R=sanjay git-svn-id: https://snappy.googlecode.com/svn/trunk@59 03e5f5b5-db94-4691-08a0-1a8bf15f6143 |
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snappy.mirrorbot@gmail.com | e750dc0f05 |
Minor refactoring to accomodate changes in Google's internal code tree.
git-svn-id: https://snappy.googlecode.com/svn/trunk@57 03e5f5b5-db94-4691-08a0-1a8bf15f6143 |
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snappy.mirrorbot@gmail.com | d9068ee301 |
Fix public issue r57: Fix most warnings with -Wall, mostly signed/unsigned
warnings. There are still some in the unit test, but the main .cc file should be clean. We haven't enabled -Wall for the default build, since the unit test is still not clean. This also fixes a real bug in the open-source implementation of ReadFileToStringOrDie(); it would not detect errors correctly. I had to go through some pains to avoid performance loss as the types were changed; I think there might still be some with 32-bit if and only if LFS is enabled (ie., size_t is 64-bit), but for regular 32-bit and 64-bit I can't see any losses, and I've diffed the generated GCC assembler between the old and new code without seeing any significant choices. If anything, it's ever so slightly faster. This may or may not enable compression of very large blocks (>2^32 bytes) when size_t is 64-bit, but I haven't checked, and it is still not a supported case. git-svn-id: https://snappy.googlecode.com/svn/trunk@56 03e5f5b5-db94-4691-08a0-1a8bf15f6143 |
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snappy.mirrorbot@gmail.com | d7eb2dc413 |
Speed up decompression by moving the refill check to the end of the loop.
This seems to work because in most of the branches, the compiler can evaluate “ip_limit_ - ip” in a more efficient way than reloading ip_limit_ from memory (either by already having the entire expression in a register, or reconstructing it from “avail”, or something else). Memory loads, even from L1, are seemingly costly in the big picture at the current decompression speeds. Microbenchmarks (64-bit, opt mode): Westmere (Intel Core i7): Benchmark Time(ns) CPU(ns) Iterations -------------------------------------------- BM_UFlat/0 74492 74491 187894 1.3GB/s html [ +5.9%] BM_UFlat/1 712268 712263 19644 940.0MB/s urls [ +3.8%] BM_UFlat/2 10591 10590 1000000 11.2GB/s jpg [ -6.8%] BM_UFlat/3 29643 29643 469915 3.0GB/s pdf [ +7.9%] BM_UFlat/4 304669 304667 45930 1.3GB/s html4 [ +4.8%] BM_UFlat/5 28508 28507 490077 823.1MB/s cp [ +4.0%] BM_UFlat/6 12415 12415 1000000 856.5MB/s c [ +8.6%] BM_UFlat/7 3415 3415 4084723 1039.0MB/s lsp [+18.0%] BM_UFlat/8 979569 979563 14261 1002.5MB/s xls [ +5.8%] BM_UFlat/9 230150 230148 60934 630.2MB/s txt1 [ +5.2%] BM_UFlat/10 197167 197166 71135 605.5MB/s txt2 [ +4.7%] BM_UFlat/11 607394 607390 23041 670.1MB/s txt3 [ +5.6%] BM_UFlat/12 808502 808496 17316 568.4MB/s txt4 [ +5.0%] BM_UFlat/13 372791 372788 37564 1.3GB/s bin [ +3.3%] BM_UFlat/14 44541 44541 313969 818.8MB/s sum [ +5.7%] BM_UFlat/15 4833 4833 2898697 834.1MB/s man [ +4.8%] BM_UFlat/16 79855 79855 175356 1.4GB/s pb [ +4.8%] BM_UFlat/17 245845 245843 56838 715.0MB/s gaviota [ +5.8%] Clovertown (Intel Core 2): Benchmark Time(ns) CPU(ns) Iterations -------------------------------------------- BM_UFlat/0 107911 107890 100000 905.1MB/s html [ +2.2%] BM_UFlat/1 1011237 1011041 10000 662.3MB/s urls [ +2.5%] BM_UFlat/2 26775 26770 523089 4.4GB/s jpg [ +0.0%] BM_UFlat/3 48103 48095 290618 1.8GB/s pdf [ +3.4%] BM_UFlat/4 437724 437644 31937 892.6MB/s html4 [ +2.1%] BM_UFlat/5 39607 39600 358284 592.5MB/s cp [ +2.4%] BM_UFlat/6 18227 18224 768191 583.5MB/s c [ +2.7%] BM_UFlat/7 5171 5170 2709437 686.4MB/s lsp [ +3.9%] BM_UFlat/8 1560291 1559989 8970 629.5MB/s xls [ +3.6%] BM_UFlat/9 335401 335343 41731 432.5MB/s txt1 [ +3.0%] BM_UFlat/10 287014 286963 48758 416.0MB/s txt2 [ +2.8%] BM_UFlat/11 888522 888356 15752 458.1MB/s txt3 [ +2.9%] BM_UFlat/12 1186600 1186378 10000 387.3MB/s txt4 [ +3.1%] BM_UFlat/13 572295 572188 24468 855.4MB/s bin [ +2.1%] BM_UFlat/14 64060 64049 218401 569.4MB/s sum [ +4.1%] BM_UFlat/15 7264 7263 1916168 555.0MB/s man [ +1.4%] BM_UFlat/16 108853 108836 100000 1039.1MB/s pb [ +1.7%] BM_UFlat/17 364289 364223 38419 482.6MB/s gaviota [ +4.9%] Barcelona (AMD Opteron): Benchmark Time(ns) CPU(ns) Iterations -------------------------------------------- BM_UFlat/0 103900 103871 100000 940.2MB/s html [ +8.3%] BM_UFlat/1 1000435 1000107 10000 669.5MB/s urls [ +6.6%] BM_UFlat/2 24659 24652 567362 4.8GB/s jpg [ +0.1%] BM_UFlat/3 48206 48193 291121 1.8GB/s pdf [ +5.0%] BM_UFlat/4 421980 421850 33174 926.0MB/s html4 [ +7.3%] BM_UFlat/5 40368 40357 346994 581.4MB/s cp [ +8.7%] BM_UFlat/6 19836 19830 708695 536.2MB/s c [ +8.0%] BM_UFlat/7 6100 6098 2292774 581.9MB/s lsp [ +9.0%] BM_UFlat/8 1693093 1692514 8261 580.2MB/s xls [ +8.0%] BM_UFlat/9 365991 365886 38225 396.4MB/s txt1 [ +7.1%] BM_UFlat/10 311330 311238 44950 383.6MB/s txt2 [ +7.6%] BM_UFlat/11 975037 974737 14376 417.5MB/s txt3 [ +6.9%] BM_UFlat/12 1303558 1303175 10000 352.6MB/s txt4 [ +7.3%] BM_UFlat/13 517448 517290 27144 946.2MB/s bin [ +5.5%] BM_UFlat/14 66537 66518 210352 548.3MB/s sum [ +7.5%] BM_UFlat/15 7976 7974 1760383 505.6MB/s man [ +5.6%] BM_UFlat/16 103121 103092 100000 1097.0MB/s pb [ +8.7%] BM_UFlat/17 391431 391314 35733 449.2MB/s gaviota [ +6.5%] R=sanjay git-svn-id: https://snappy.googlecode.com/svn/trunk@54 03e5f5b5-db94-4691-08a0-1a8bf15f6143 |
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snappy.mirrorbot@gmail.com | 5ed51ce15f |
Speed up decompression by making the fast path for literals faster.
We do the fast-path step as soon as possible; in fact, as soon as we know the literal length. Since we usually hit the fast path, we can then skip the checks for long literals and available input space (beyond what the fast path check already does). Note that this changes the decompression Writer API; however, it does not change the ABI, since writers are always templatized and as such never cross compilation units. The new API is slightly more general, in that it doesn't hard-code the value 16. Note that we also take care to check for len <= 16 first, since the other two checks almost always succeed (so we don't want to waste time checking for them until we have to). The improvements are most marked on Nehalem, but are generally positive on other platforms as well. All microbenchmarks are 64-bit, opt. Clovertown (Core 2): Benchmark Time(ns) CPU(ns) Iterations -------------------------------------------- BM_UFlat/0 110226 110224 100000 886.0MB/s html [ +1.5%] BM_UFlat/1 1036523 1036508 10000 646.0MB/s urls [ -0.8%] BM_UFlat/2 26775 26775 522570 4.4GB/s jpg [ +0.0%] BM_UFlat/3 49738 49737 280974 1.8GB/s pdf [ +0.3%] BM_UFlat/4 446790 446792 31334 874.3MB/s html4 [ +0.8%] BM_UFlat/5 40561 40562 350424 578.5MB/s cp [ +1.3%] BM_UFlat/6 18722 18722 746903 568.0MB/s c [ +1.4%] BM_UFlat/7 5373 5373 2608632 660.5MB/s lsp [ +8.3%] BM_UFlat/8 1615716 1615718 8670 607.8MB/s xls [ +2.0%] BM_UFlat/9 345278 345281 40481 420.1MB/s txt1 [ +1.4%] BM_UFlat/10 294855 294855 47452 404.9MB/s txt2 [ +1.6%] BM_UFlat/11 914263 914263 15316 445.2MB/s txt3 [ +1.1%] BM_UFlat/12 1222694 1222691 10000 375.8MB/s txt4 [ +1.4%] BM_UFlat/13 584495 584489 23954 837.4MB/s bin [ -0.6%] BM_UFlat/14 66662 66662 210123 547.1MB/s sum [ +1.2%] BM_UFlat/15 7368 7368 1881856 547.1MB/s man [ +4.0%] BM_UFlat/16 110727 110726 100000 1021.4MB/s pb [ +2.3%] BM_UFlat/17 382138 382141 36616 460.0MB/s gaviota [ -0.7%] Westmere (Core i7): Benchmark Time(ns) CPU(ns) Iterations -------------------------------------------- BM_UFlat/0 78861 78853 177703 1.2GB/s html [ +2.1%] BM_UFlat/1 739560 739491 18912 905.4MB/s urls [ +3.4%] BM_UFlat/2 9867 9866 1419014 12.0GB/s jpg [ +3.4%] BM_UFlat/3 31989 31986 438385 2.7GB/s pdf [ +0.2%] BM_UFlat/4 319406 319380 43771 1.2GB/s html4 [ +1.9%] BM_UFlat/5 29639 29636 472862 791.7MB/s cp [ +5.2%] BM_UFlat/6 13478 13477 1000000 789.0MB/s c [ +2.3%] BM_UFlat/7 4030 4029 3475364 880.7MB/s lsp [ +8.7%] BM_UFlat/8 1036585 1036492 10000 947.5MB/s xls [ +6.9%] BM_UFlat/9 242127 242105 57838 599.1MB/s txt1 [ +3.0%] BM_UFlat/10 206499 206480 67595 578.2MB/s txt2 [ +3.4%] BM_UFlat/11 641635 641570 21811 634.4MB/s txt3 [ +2.4%] BM_UFlat/12 848847 848769 16443 541.4MB/s txt4 [ +3.1%] BM_UFlat/13 384968 384938 36366 1.2GB/s bin [ +0.3%] BM_UFlat/14 47106 47101 297770 774.3MB/s sum [ +4.4%] BM_UFlat/15 5063 5063 2772202 796.2MB/s man [ +7.7%] BM_UFlat/16 83663 83656 167697 1.3GB/s pb [ +1.8%] BM_UFlat/17 260224 260198 53823 675.6MB/s gaviota [ -0.5%] Barcelona (Opteron): Benchmark Time(ns) CPU(ns) Iterations -------------------------------------------- BM_UFlat/0 112490 112457 100000 868.4MB/s html [ -0.4%] BM_UFlat/1 1066719 1066339 10000 627.9MB/s urls [ +1.0%] BM_UFlat/2 24679 24672 563802 4.8GB/s jpg [ +0.7%] BM_UFlat/3 50603 50589 277285 1.7GB/s pdf [ +2.6%] BM_UFlat/4 452982 452849 30900 862.6MB/s html4 [ -0.2%] BM_UFlat/5 43860 43848 319554 535.1MB/s cp [ +1.2%] BM_UFlat/6 21419 21413 653573 496.6MB/s c [ +1.0%] BM_UFlat/7 6646 6645 2105405 534.1MB/s lsp [ +0.3%] BM_UFlat/8 1828487 1827886 7658 537.3MB/s xls [ +2.6%] BM_UFlat/9 391824 391714 35708 370.3MB/s txt1 [ +2.2%] BM_UFlat/10 334913 334816 41885 356.6MB/s txt2 [ +1.7%] BM_UFlat/11 1042062 1041674 10000 390.7MB/s txt3 [ +1.1%] BM_UFlat/12 1398902 1398456 10000 328.6MB/s txt4 [ +1.7%] BM_UFlat/13 545706 545530 25669 897.2MB/s bin [ -0.4%] BM_UFlat/14 71512 71505 196035 510.0MB/s sum [ +1.4%] BM_UFlat/15 8422 8421 1665036 478.7MB/s man [ +2.6%] BM_UFlat/16 112053 112048 100000 1009.3MB/s pb [ -0.4%] BM_UFlat/17 416723 416713 33612 421.8MB/s gaviota [ -2.0%] R=sanjay git-svn-id: https://snappy.googlecode.com/svn/trunk@53 03e5f5b5-db94-4691-08a0-1a8bf15f6143 |
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snappy.mirrorbot@gmail.com | 57e7cd7255 |
Fix public issue #44: Make the definition and declaration of CompressFragment
identical, even regarding cv-qualifiers. This is required to work around a bug in the Solaris Studio C++ compiler (it does not properly disregard cv-qualifiers when doing name mangling). R=sanjay git-svn-id: https://snappy.googlecode.com/svn/trunk@44 03e5f5b5-db94-4691-08a0-1a8bf15f6143 |
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snappy.mirrorbot@gmail.com | f540673740 |
Speed up decompression by removing a fast-path attempt.
Whenever we try to enter a copy fast-path, there is a certain cost in checking that all the preconditions are in place, but it's normally offset by the fact that we can usually take the cheaper path. However, in a certain path we've already established that "avail < literal_length", which usually means that either the available space is small, or the literal is big. Both will disqualify us from taking the fast path, and thus we take the hit from the precondition checking without gaining much from having a fast path. Thus, simply don't try the fast path in this situation -- we're already on a slow path anyway (one where we need to refill more data from the reader). I'm a bit surprised at how much this gained; it could be that this path is more common than I thought, or that the simpler structure somehow makes the compiler happier. I haven't looked at the assembler, but it's a win across the board on both Core 2, Core i7 and Opteron, at least for the cases we typically care about. The gains seem to be the largest on Core i7, though. Results from my Core i7 workstation: Benchmark Time(ns) CPU(ns) Iterations --------------------------------------------------- BM_UFlat/0 73337 73091 190996 1.3GB/s html [ +1.7%] BM_UFlat/1 696379 693501 20173 965.5MB/s urls [ +2.7%] BM_UFlat/2 9765 9734 1472135 12.1GB/s jpg [ +0.7%] BM_UFlat/3 29720 29621 472973 3.0GB/s pdf [ +1.8%] BM_UFlat/4 294636 293834 47782 1.3GB/s html4 [ +2.3%] BM_UFlat/5 28399 28320 494700 828.5MB/s cp [ +3.5%] BM_UFlat/6 12795 12760 1000000 833.3MB/s c [ +1.2%] BM_UFlat/7 3984 3973 3526448 893.2MB/s lsp [ +5.7%] BM_UFlat/8 991996 989322 14141 992.6MB/s xls [ +3.3%] BM_UFlat/9 228620 227835 61404 636.6MB/s txt1 [ +4.0%] BM_UFlat/10 197114 196494 72165 607.5MB/s txt2 [ +3.5%] BM_UFlat/11 605240 603437 23217 674.4MB/s txt3 [ +3.7%] BM_UFlat/12 804157 802016 17456 573.0MB/s txt4 [ +3.9%] BM_UFlat/13 347860 346998 40346 1.4GB/s bin [ +1.2%] BM_UFlat/14 44684 44559 315315 818.4MB/s sum [ +2.3%] BM_UFlat/15 5120 5106 2739726 789.4MB/s man [ +3.3%] BM_UFlat/16 76591 76355 183486 1.4GB/s pb [ +2.8%] BM_UFlat/17 238564 237828 58824 739.1MB/s gaviota [ +1.6%] BM_UValidate/0 42194 42060 333333 2.3GB/s html [ -0.1%] BM_UValidate/1 433182 432005 32407 1.5GB/s urls [ -0.1%] BM_UValidate/2 197 196 71428571 603.3GB/s jpg [ +0.5%] BM_UValidate/3 14494 14462 972222 6.1GB/s pdf [ +0.5%] BM_UValidate/4 168444 167836 83832 2.3GB/s html4 [ +0.1%] R=jeff Revision created by MOE tool push_codebase. git-svn-id: https://snappy.googlecode.com/svn/trunk@42 03e5f5b5-db94-4691-08a0-1a8bf15f6143 |
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snappy.mirrorbot@gmail.com | 197f3ee9f9 |
Speed up decompression by not needing a lookup table for literal items.
Looking up into and decoding the values from char_table has long shown up as a hotspot in the decompressor. While it turns out that it's hard to make a more efficient decoder for the copy ops, the literals are simple enough that we can decode them without needing a table lookup. (This means that 1/4 of the table is now unused, although that in itself doesn't buy us anything.) The gains are small, but definitely present; some tests win as much as 10%, but 1-4% is more typical. These results are from Core i7, in 64-bit mode; Core 2 and Opteron show similar results. (I've run with more iterations than unusual to make sure the smaller gains don't drown entirely in noise.) Benchmark Time(ns) CPU(ns) Iterations --------------------------------------------------- BM_UFlat/0 74665 74428 182055 1.3GB/s html [ +3.1%] BM_UFlat/1 714106 711997 19663 940.4MB/s urls [ +4.4%] BM_UFlat/2 9820 9789 1427115 12.1GB/s jpg [ -1.2%] BM_UFlat/3 30461 30380 465116 2.9GB/s pdf [ +0.8%] BM_UFlat/4 301445 300568 46512 1.3GB/s html4 [ +2.2%] BM_UFlat/5 29338 29263 479452 801.8MB/s cp [ +1.6%] BM_UFlat/6 13004 12970 1000000 819.9MB/s c [ +2.1%] BM_UFlat/7 4180 4168 3349282 851.4MB/s lsp [ +1.3%] BM_UFlat/8 1026149 1024000 10000 959.0MB/s xls [+10.7%] BM_UFlat/9 237441 236830 59072 612.4MB/s txt1 [ +0.3%] BM_UFlat/10 203966 203298 69307 587.2MB/s txt2 [ +0.8%] BM_UFlat/11 627230 625000 22400 651.2MB/s txt3 [ +0.7%] BM_UFlat/12 836188 833979 16787 551.0MB/s txt4 [ +1.3%] BM_UFlat/13 351904 350750 39886 1.4GB/s bin [ +3.8%] BM_UFlat/14 45685 45562 308370 800.4MB/s sum [ +5.9%] BM_UFlat/15 5286 5270 2656546 764.9MB/s man [ +1.5%] BM_UFlat/16 78774 78544 178117 1.4GB/s pb [ +4.3%] BM_UFlat/17 242270 241345 58091 728.3MB/s gaviota [ +1.2%] BM_UValidate/0 42149 42000 333333 2.3GB/s html [ -3.0%] BM_UValidate/1 432741 431303 32483 1.5GB/s urls [ +7.8%] BM_UValidate/2 198 197 71428571 600.7GB/s jpg [+16.8%] BM_UValidate/3 14560 14521 965517 6.1GB/s pdf [ -4.1%] BM_UValidate/4 169065 168671 83832 2.3GB/s html4 [ -2.9%] R=jeff Revision created by MOE tool push_codebase. git-svn-id: https://snappy.googlecode.com/svn/trunk@41 03e5f5b5-db94-4691-08a0-1a8bf15f6143 |
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snappy.mirrorbot@gmail.com | 2e12124bd8 |
Remove an unneeded goto in the decompressor; it turns out that the
state of ip_ after decompression (or attempted decompresion) is completely irrelevant, so we don't need the trailer. Performance is, as expected, mostly flat -- there's a curious ~3-5% loss in the "lsp" test, but that test case is so short it is hard to say anything definitive about why (most likely, it's some sort of unrelated effect). R=jeff git-svn-id: https://snappy.googlecode.com/svn/trunk@39 03e5f5b5-db94-4691-08a0-1a8bf15f6143 |
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snappy.mirrorbot@gmail.com | c266bbf321 |
Speed up decompression by caching ip_.
It is seemingly hard for the compiler to understand that ip_, the current input pointer into the compressed data stream, can not alias on anything else, and thus using it directly will incur memory traffic as it cannot be kept in a register. The code already knew about this and cached it into a local variable, but since Step() only decoded one tag, it had to move ip_ back into place between every tag. This seems to have cost us a significant amount of performance, so changing Step() into a function that decodes as much as it can before it saves ip_ back and returns. (Note that Step() was already inlined, so it is not the manual inlining that buys the performance here.) The wins are about 3-6% for Core 2, 6-13% on Core i7 and 5-12% on Opteron (for plain array-to-array decompression, in 64-bit opt mode). There is a tiny difference in the behavior here; if an invalid literal is encountered (ie., the writer refuses the Append() operation), ip_ will now point to the byte past the tag byte, instead of where the literal was originally thought to end. However, we don't use ip_ for anything after DecompressAllTags() has returned, so this should not change external behavior in any way. Microbenchmark results for Core i7, 64-bit (Opteron results are similar): Benchmark Time(ns) CPU(ns) Iterations --------------------------------------------------- BM_UFlat/0 79134 79110 8835 1.2GB/s html [ +6.2%] BM_UFlat/1 786126 786096 891 851.8MB/s urls [+10.0%] BM_UFlat/2 9948 9948 69125 11.9GB/s jpg [ -1.3%] BM_UFlat/3 31999 31998 21898 2.7GB/s pdf [ +6.5%] BM_UFlat/4 318909 318829 2204 1.2GB/s html4 [ +6.5%] BM_UFlat/5 31384 31390 22363 747.5MB/s cp [ +9.2%] BM_UFlat/6 14037 14034 49858 757.7MB/s c [+10.6%] BM_UFlat/7 4612 4612 151395 769.5MB/s lsp [ +9.5%] BM_UFlat/8 1203174 1203007 582 816.3MB/s xls [+19.3%] BM_UFlat/9 253869 253955 2757 571.1MB/s txt1 [+11.4%] BM_UFlat/10 219292 219290 3194 544.4MB/s txt2 [+12.1%] BM_UFlat/11 672135 672131 1000 605.5MB/s txt3 [+11.2%] BM_UFlat/12 902512 902492 776 509.2MB/s txt4 [+12.5%] BM_UFlat/13 372110 371998 1881 1.3GB/s bin [ +5.8%] BM_UFlat/14 50407 50407 10000 723.5MB/s sum [+13.5%] BM_UFlat/15 5699 5701 100000 707.2MB/s man [+12.4%] BM_UFlat/16 83448 83424 8383 1.3GB/s pb [ +5.7%] BM_UFlat/17 256958 256963 2723 684.1MB/s gaviota [ +7.9%] BM_UValidate/0 42795 42796 16351 2.2GB/s html [+25.8%] BM_UValidate/1 490672 490622 1427 1.3GB/s urls [+22.7%] BM_UValidate/2 237 237 2950297 499.0GB/s jpg [+24.9%] BM_UValidate/3 14610 14611 47901 6.0GB/s pdf [+26.8%] BM_UValidate/4 171973 171990 4071 2.2GB/s html4 [+25.7%] git-svn-id: https://snappy.googlecode.com/svn/trunk@38 03e5f5b5-db94-4691-08a0-1a8bf15f6143 |
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snappy.mirrorbot@gmail.com | 7e8ca8f831 |
Change on 2011-03-25 19:18:00-07:00 by sesse
Replace the Apache 2.0 license header by the BSD-type license header; somehow a lot of the files were missed in the last round. R=dannyb,csilvers DELTA=147 (74 added, 2 deleted, 71 changed) Change on 2011-03-25 19:25:07-07:00 by sesse Unbreak the build; the relicensing removed a bit too much (only comments were intended, but I also accidentially removed some of the top lines of the actual source). Revision created by MOE tool push_codebase. MOE_MIGRATION=1072 git-svn-id: https://snappy.googlecode.com/svn/trunk@21 03e5f5b5-db94-4691-08a0-1a8bf15f6143 |
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snappy.mirrorbot@gmail.com | 28a6440239 |
Revision created by MOE tool push_codebase.
MOE_MIGRATION= git-svn-id: https://snappy.googlecode.com/svn/trunk@2 03e5f5b5-db94-4691-08a0-1a8bf15f6143 |