Commit Graph

13 Commits

Author SHA1 Message Date
Scott McMurray
4492793e0d Add a slightly-contrived tuple comparison benchmark 2023-02-17 11:46:19 -08:00
kadmin
cbd1b81bd2 Add array::map benchmarks 2023-02-11 04:23:53 +00:00
Dylan DPC
1db7f690b1
Rollup merge of #103570 - lukas-code:stabilize-ilog, r=scottmcm
Stabilize integer logarithms

Stabilizes feature `int_log`.

I've also made the functions const stable, because they don't depend on any unstable const features. `rustc_allow_const_fn_unstable` is just there for `Option::expect`, which could be replaced with a `match` and `panic!`. cc ``@rust-lang/wg-const-eval``

closes https://github.com/rust-lang/rust/issues/70887 (tracking issue)

~~blocked on FCP finishing: https://github.com/rust-lang/rust/issues/70887#issuecomment-1289028216~~
FCP finished: https://github.com/rust-lang/rust/issues/70887#issuecomment-1302121266
2022-11-09 19:21:21 +05:30
The 8472
b00666ed09 add benchmark for iter::ArrayChunks::fold specialization
This also updates the existing iter::Copied::next_chunk benchmark so
that the thing it benches doesn't get masked by the ArrayChunks specialization
2022-11-07 21:44:24 +01:00
Lukas Markeffsky
9e36fd926c stabilize int_log 2022-10-26 11:58:33 +02:00
The 8472
963d6f757c add a benchmark for slice_iter.copied().array_chunks() 2022-10-17 23:40:21 +02:00
bors
12d3f107c1 Auto merge of #96626 - thomcc:rand-bump, r=m-ou-se
Avoid using `rand::thread_rng` in the stdlib benchmarks.

This is kind of an anti-pattern because it introduces extra nondeterminism for no real reason. In thread_rng's case this comes both from the random seed and also from the reseeding operations it does, which occasionally does syscalls (which adds additional nondeterminism). The impact of this would be pretty small in most cases, but it's a good practice to avoid (particularly because avoiding it was not hard).

Anyway, several of our benchmarks already did the right thing here anyway, so the change was pretty easy and mostly just applying it more universally. That said, the stdlib benchmarks aren't particularly stable (nor is our benchmark framework particularly great), so arguably this doesn't matter that much in practice.

~~Anyway, this also bumps the `rand` dev-dependency to 0.8, since it had fallen somewhat out of date.~~ Nevermind, too much of a headache.
2022-05-05 05:08:44 +00:00
The 8472
e3db41bf97 add benchmark 2022-05-02 20:54:46 +02:00
Thom Chiovoloni
0812759840
Avoid use of rand::thread_rng in stdlib benchmarks 2022-05-02 00:08:21 -07:00
bors
ffdf18d144 Auto merge of #88788 - falk-hueffner:speedup-int-log10-branchless, r=joshtriplett
Speedup int log10 branchless

This is achieved with a branchless bit-twiddling implementation of the case x < 100_000, and using this as building block.

Benchmark on an Intel i7-8700K (Coffee Lake):

```
name                                   old ns/iter  new ns/iter  diff ns/iter   diff %  speedup
num::int_log::u8_log10_predictable     165          169                     4    2.42%   x 0.98
num::int_log::u8_log10_random          438          423                   -15   -3.42%   x 1.04
num::int_log::u8_log10_random_small    438          423                   -15   -3.42%   x 1.04
num::int_log::u16_log10_predictable    633          417                  -216  -34.12%   x 1.52
num::int_log::u16_log10_random         908          471                  -437  -48.13%   x 1.93
num::int_log::u16_log10_random_small   945          471                  -474  -50.16%   x 2.01
num::int_log::u32_log10_predictable    1,496        1,340                -156  -10.43%   x 1.12
num::int_log::u32_log10_random         1,076        873                  -203  -18.87%   x 1.23
num::int_log::u32_log10_random_small   1,145        874                  -271  -23.67%   x 1.31
num::int_log::u64_log10_predictable    4,005        3,171                -834  -20.82%   x 1.26
num::int_log::u64_log10_random         1,247        1,021                -226  -18.12%   x 1.22
num::int_log::u64_log10_random_small   1,265        921                  -344  -27.19%   x 1.37
num::int_log::u128_log10_predictable   39,667       39,579                -88   -0.22%   x 1.00
num::int_log::u128_log10_random        6,456        6,696                 240    3.72%   x 0.96
num::int_log::u128_log10_random_small  4,108        3,903                -205   -4.99%   x 1.05
```

Benchmark on an M1 Mac Mini:

```
name                                   old ns/iter  new ns/iter  diff ns/iter   diff %  speedup
num::int_log::u8_log10_predictable     143          130                   -13   -9.09%   x 1.10
num::int_log::u8_log10_random          375          325                   -50  -13.33%   x 1.15
num::int_log::u8_log10_random_small    376          325                   -51  -13.56%   x 1.16
num::int_log::u16_log10_predictable    500          322                  -178  -35.60%   x 1.55
num::int_log::u16_log10_random         794          405                  -389  -48.99%   x 1.96
num::int_log::u16_log10_random_small   1,035        405                  -630  -60.87%   x 2.56
num::int_log::u32_log10_predictable    1,144        894                  -250  -21.85%   x 1.28
num::int_log::u32_log10_random         832          786                   -46   -5.53%   x 1.06
num::int_log::u32_log10_random_small   832          787                   -45   -5.41%   x 1.06
num::int_log::u64_log10_predictable    2,681        2,057                -624  -23.27%   x 1.30
num::int_log::u64_log10_random         1,015        806                  -209  -20.59%   x 1.26
num::int_log::u64_log10_random_small   1,004        795                  -209  -20.82%   x 1.26
num::int_log::u128_log10_predictable   56,825       56,526               -299   -0.53%   x 1.01
num::int_log::u128_log10_random        9,056        8,861                -195   -2.15%   x 1.02
num::int_log::u128_log10_random_small  1,528        1,527                  -1   -0.07%   x 1.00
```

The 128 bit case remains ridiculously slow because llvm fails to optimize division by a constant 128-bit value to multiplications. This could be worked around but it seems preferable to fix this in llvm.

From u32 up, table lookup (like suggested [here](https://github.com/rust-lang/rust/issues/70887#issuecomment-881099813)) is still faster, but requires a hardware `leading_zeros` to be viable, and might clog up the cache.
2021-10-12 03:18:54 +00:00
The8472
4c44f061d8 benchmark for str.chars().count() 2021-09-11 00:25:41 +02:00
Falk Hüffner
0c26a3bc0c Add benchmark for integer log10. 2021-09-06 12:19:24 +02:00
mark
2c31b45ae8 mv std libs to library/ 2020-07-27 19:51:13 -05:00