Cross-posting from reddit:
The PR has more details, but here are a few ad hoc benchmarks using ripgrep on my M2 mac mini while searching a 5.5GB file.
This one is just a case insensitive search. A case insensitive regex expands to something like (ignoring Unicode) [Ss][Hh][Ee][Rr]...
, which means that it has multiple literal prefixes. In fact, you can enumerate them! As long as the set is small enough, this is something that the new SIMD acceleration on aarch64
can handle (and has done for a long time on x86-64
):
$ time rg-before-teddy-aarch64 -i -c 'Sherlock Holmes' OpenSubtitles2018.half.en
3055
real 8.208
user 7.731
sys 0.467
maxmem 5600 MB
faults 191
$ time rg-after-teddy-aarch64 -i -c 'Sherlock Holmes' OpenSubtitles2018.half.en
3055
real 1.137
user 0.695
sys 0.430
maxmem 5904 MB
faults 203
And of course, using multiple literals explicitly also uses this optimization:
$ time rg-before-teddy-aarch64 -c 'Sherlock Holmes|John Watson|Irene Adler|Inspector Lestrade|Professor Moriarty' OpenSubtitles2018.half.en
3804
real 9.055
user 8.580
sys 0.474
maxmem 4912 MB
faults 11
$ time rg-after-teddy-aarch64 -c 'Sherlock Holmes|John Watson|Irene Adler|Inspector Lestrade|Professor Moriarty' OpenSubtitles2018.half.en
3804
real 1.121
user 0.697
sys 0.422
maxmem 4832 MB
faults 11
And it doesn’t just work for prefixes, it also works for inner literals too:
$ time rg-before-teddy-aarch64 -c '\w+\s+(Sherlock Holmes|John Watson|Irene Adler|Inspector Lestrade|Professor Moriarty)\s+\w+' OpenSubtitles2018.half.en
773
real 9.065
user 8.586
sys 0.477
maxmem 6384 MB
faults 11
$ time rg-after-teddy-aarch64 -c '\w+\s+(Sherlock Holmes|John Watson|Irene Adler|Inspector Lestrade|Professor Moriarty)\s+\w+' OpenSubtitles2018.half.en
773
real 1.124
user 0.702
sys 0.421
maxmem 6784 MB
faults 11
If you’re curious about how the SIMD stuff works, you can read my description of Teddy here. I ported this algorithm out of the Hyperscan project several years ago, and it has been one of the killer ingredients for making ripgrep fast in a lot of common cases. But it only worked on x86-64
. With the rise and popularity of aarch64
and Apple silicon, I was motivated to port it over. I just recently finished analogous work for the memchr
crate as well.