Bug #18447
closedPotential performance regression with String#lines in large strings
Description
I believe there may be a potential performance regression regarding String#lines
worth noting between 3.0.3 and 3.1.0. This came about in this discussion regarding large file parsing performance. We were benchmarking various ways to parse a 10 million row CSV file. Slurping the file took significantly longer than streaming in version 3.1.0, even though the data was able to fit in memory. After further research, we started to feel that there may be something to speak up about here, and I think it's pinned down to String#lines
.
I'm running Mac OS Big Sur 11.6.1 on a 13" 2020 MBP with 32 GB ram. Specific Ruby versions are included in the comparison examples below.
The simplest reproduction seems to be:
Ruby 3.0.3: ~1.5 seconds
▶ time ruby -ve '("\n" * 10_000_000).lines'
ruby 3.0.3p157 (2021-11-24 revision 3fb7d2cadc) [x86_64-darwin20]
ruby -ve '("\n" * 10_000_000).lines' 1.38s user 0.39s system 100% cpu 1.756 total
Ruby 3.1.0: ~11.5 seconds
▶ time ruby -ve '("\n" * 10_000_000).lines'
ruby 3.1.0p0 (2021-12-25 revision fb4df44d16) [x86_64-darwin20]
ruby -ve '("\n" * 10_000_000).lines' 1.52s user 10.01s system 99% cpu 11.579 total
Some other observations:
An earlier script that I ran ruby-prof against looked like:
puts File.read("sample-data.csv").lines.sum { 1 }
- It appeared that the time increase stemmed from
String#lines
, as all other methods had similar time taken between the versions:
Ruby 3.1.0
%self total self wait child calls name
89.93 12.728 12.728 0.000 0.000 1 String#lines
9.01 1.275 1.275 0.000 0.000 1 Array#sum
1.05 0.149 0.149 0.000 0.000 1 <Class::IO>#read
Ruby 3.0.3
%self total self wait child calls name
74.91 3.773 3.773 0.000 0.000 1 String#lines
22.15 1.116 1.116 0.000 0.000 1 Array#sum
2.93 0.148 0.148 0.000 0.000 1 <Class::IO>#read
- A similar enumerator without
String#lines
does not appear to cause this:
▶ time ruby -ve '10_000_000.times.map { nil }'
ruby 3.0.3p157 (2021-11-24 revision 3fb7d2cadc) [x86_64-darwin20]
ruby -ve '10_000_000.times.map { nil }' 0.57s user 0.16s system 102% cpu 0.710 total
▶ time ruby -ve '10_000_000.times.map { nil }'
ruby 3.1.0p0 (2021-12-25 revision fb4df44d16) [x86_64-darwin20]
ruby -ve '10_000_000.times.map { nil }' 0.61s user 0.16s system 102% cpu 0.753 total
- It doesn't seem related to string generation:
▶ time ruby -ve '("\n" * 10_000_000)'
ruby 3.0.3p157 (2021-11-24 revision 3fb7d2cadc) [x86_64-darwin20]
-e:1: warning: possibly useless use of * in void context
ruby -ve '("\n" * 10_000_000)' 0.13s user 0.14s system 107% cpu 0.246 total
▶ time ruby -ve '("\n" * 10_000_000)'
ruby 3.1.0p0 (2021-12-25 revision fb4df44d16) [x86_64-darwin20]
-e:1: warning: possibly useless use of * in void context
ruby -ve '("\n" * 10_000_000)' 0.13s user 0.14s system 107% cpu 0.245 total
(Thanks to simpl1g for the discussion on Reddit, and help detecting this potential issue)
Updated by mame (Yusuke Endoh) almost 3 years ago
- Assignee set to peterzhu2118 (Peter Zhu)
Thank you for your great report. I could reproduce the issue on M1 macOS. It does not repro on Ubuntu.
According to git bisect
, this regression is caused by 785f5eb8f0f994c755ac5f1e1479f6e2ec6d0ef3.
% git checkout 09f284c052854392fad1e63fd541a6c8704d7b90 && make -j miniruby
% time ./miniruby -ve '("\n" * 10_000_000).lines'
ruby 3.1.0dev (2021-02-24T11:01:44Z v3_1_0_preview1~4291 09f284c052) [arm64-darwin20]
./miniruby -ve '("\n" * 10_000_000).lines' 0.91s user 0.10s system 81% cpu 1.255 total
% git checkout 785f5eb8f0f994c755ac5f1e1479f6e2ec6d0ef3 && make -j miniruby
% time ./miniruby -ve '("\n" * 10_000_000).lines'
ruby 3.1.0dev (2021-02-24T20:25:30Z v3_1_0_preview1~4290 785f5eb8f0) [arm64-darwin20]
./miniruby -ve '("\n" * 10_000_000).lines' 0.85s user 4.77s system 96% cpu 5.834 total
It mainly takes "system" time, not "user" time. So, it seems to make sense that the slowdown is due to the use of mmap.
@peterzhu2118 (Peter Zhu) Could you take a look at this?
Updated by nobu (Nobuyoshi Nakada) almost 3 years ago
This seems to make it faster nearly to 3.0.
https://github.com/nobu/ruby/tree/mac-heap_page
diff --git a/gc.c b/gc.c
index a5369c28f13d..aaae009b2ee7 100644
--- a/gc.c
+++ b/gc.c
@@ -847,8 +847,15 @@ typedef struct rb_objspace {
} rb_objspace_t;
+#if defined(__APPLE__) && defined(__LP64__)
+/* slow mmap */
+#define HEAP_PAGE_ALIGN_LOG 16
+#endif
+
+#ifndef HEAP_PAGE_ALIGN_LOG
/* default tiny heap size: 16KB */
#define HEAP_PAGE_ALIGN_LOG 14
+#endif
#define CEILDIV(i, mod) (((i) + (mod) - 1)/(mod))
enum {
HEAP_PAGE_ALIGN = (1UL << HEAP_PAGE_ALIGN_LOG),
Updated by peterzhu2118 (Peter Zhu) almost 3 years ago
I think we should consider making the page sizes 64KB by default. Many systems (e.g. PowerPC) have 64 KB page sizes, so we can't use mmap on those systems meaning that we can't use compaction. See issue #18133.
I opened a PR for this feature: https://github.com/ruby/ruby/pull/5373
Updated by nobu (Nobuyoshi Nakada) almost 3 years ago
- Status changed from Open to Closed
Applied in changeset git|002fa2859962f22de8afdbeece04966ea57b7da9.
On 64bit macOS, enlarge heap pages to reduce mmap calls [Bug #18447]
Updated by ttilberg (Tim Tilberg) almost 3 years ago
Thanks everyone! I wondered if it wasn't due to memory allocations, but the "build a massive string" operation was successful and quite fast. I looked through rb_str_enumerate_lines
in the C source, and got lost rather quickly, aside from seeing that if the string wasn't frozen, we would create a new one that is frozen. I'm curious if someone would bother to take a moment to share where this was manifested from my example (String#lines
)? I'm working my way up towards understanding Ruby at a deeper level.
Regardless, thank you everyone for triaging and creating a patch so quickly!
Edit: Or is it that GC was spending a ton of time cleaning up those 10 million line strings that were temporarily used and then discarded? In retrospect, I'm putting my money on that...