add module-level documentation for vec's in-place iteration
As requested in the last libs team meeting and during previous reviews.
Feel free to point out any gaps you encounter, after all non-obvious things may with hindsight seem obvious to me.
r? `@yaahc`
CC `@steffahn`
BTreeMap::entry: Avoid allocating if no insertion
This PR allows the `VacantEntry` to borrow from an empty tree with no root, and to lazily allocate a new root node when the user calls `.insert(value)`.
Improve doc wording for retain on some collections
I found the documentation wording on the various retain methods on many collections to be unusual.
I tried to invert the relation by switching `such that` with `for which` .
Use modern formatting for format! macros
This updates the standard library's documentation to use the new format_args syntax.
The documentation is worthwhile to update as it should be more idiomatic
(particularly for features like this, which are nice for users to get acquainted
with). The general codebase is likely more hassle than benefit to update: it'll
hurt git blame, and generally updates can be done by folks updating the code if
(and when) that makes things more readable with the new format.
A few places in the compiler and library code are updated (mostly just due to
already having been done when this commit was first authored).
`eprintln!("{}", e)` becomes `eprintln!("{e}")`, but `eprintln!("{}", e.kind())` remains untouched.
This updates the standard library's documentation to use the new syntax. The
documentation is worthwhile to update as it should be more idiomatic
(particularly for features like this, which are nice for users to get acquainted
with). The general codebase is likely more hassle than benefit to update: it'll
hurt git blame, and generally updates can be done by folks updating the code if
(and when) that makes things more readable with the new format.
A few places in the compiler and library code are updated (mostly just due to
already having been done when this commit was first authored).
fix typo in btree/vec doc: Self -> self
this pr fixes#92345
the documentation refers to the object the method is called for, not the type, so it should be using the lower case self.
Fix a layout possible miscalculation in `alloc::RawVec`
A layout miscalculation could happen in `RawVec` when used with a type whose size isn't a multiple of its alignment. I don't know if such type can exist in Rust, but the Layout API provides ways to manipulate such types. Anyway, it is better to calculate memory size in a consistent way.
Add documentation to more `From::from` implementations.
For users looking at documentation through IDE popups, this gives them relevant information rather than the generic trait documentation wording “Performs the conversion”. For users reading the documentation for a specific type for any reason, this informs them when the conversion may allocate or copy significant memory versus when it is always a move or cheap copy.
Notes on specific cases:
* The new documentation for `From<T> for T` explains that it is not a conversion at all.
* Also documented `impl<T, U> Into<U> for T where U: From<T>`, the other central blanket implementation of conversion.
* The new documentation for construction of maps and sets from arrays of keys mentions the handling of duplicates. Future work could be to do this for *all* code paths that convert an iterable to a map or set.
* I did not add documentation to conversions of a specific error type to a more general error type.
* I did not add documentation to unstable code.
This change was prepared by searching for the text "From<... for" and so may have missed some cases that for whatever reason did not match. I also looked for `Into` impls but did not find any worth documenting by the above criteria.
Optimize `core::str::Chars::count`
I wrote this a while ago after seeing this function as a bottleneck in a profile, but never got around to contributing it. I saw it again, and so here it is. The implementation is fairly complex, but I tried to explain what's happening at both a high level (in the header comment for the file), and in line comments in the impl. Hopefully it's clear enough.
This implementation (`case00_cur_libcore` in the benchmarks below) is somewhat consistently around 4x to 5x faster than the old implementation (`case01_old_libcore` in the benchmarks below), for a wide variety of workloads, without regressing performance on any of the workload sizes I've tried.
I also improved the benchmarks for this code, so that they explicitly check text in different languages and of different sizes (err, the cross product of language x size). The results of the benchmarks are here:
<details>
<summary>Benchmark results</summary>
<pre>
test str::char_count::emoji_huge::case00_cur_libcore ... bench: 20,216 ns/iter (+/- 3,673) = 17931 MB/s
test str::char_count::emoji_huge::case01_old_libcore ... bench: 108,851 ns/iter (+/- 12,777) = 3330 MB/s
test str::char_count::emoji_huge::case02_iter_increment ... bench: 329,502 ns/iter (+/- 4,163) = 1100 MB/s
test str::char_count::emoji_huge::case03_manual_char_len ... bench: 223,333 ns/iter (+/- 14,167) = 1623 MB/s
test str::char_count::emoji_large::case00_cur_libcore ... bench: 293 ns/iter (+/- 6) = 19331 MB/s
test str::char_count::emoji_large::case01_old_libcore ... bench: 1,681 ns/iter (+/- 28) = 3369 MB/s
test str::char_count::emoji_large::case02_iter_increment ... bench: 5,166 ns/iter (+/- 85) = 1096 MB/s
test str::char_count::emoji_large::case03_manual_char_len ... bench: 3,476 ns/iter (+/- 62) = 1629 MB/s
test str::char_count::emoji_medium::case00_cur_libcore ... bench: 48 ns/iter (+/- 0) = 14750 MB/s
test str::char_count::emoji_medium::case01_old_libcore ... bench: 217 ns/iter (+/- 4) = 3262 MB/s
test str::char_count::emoji_medium::case02_iter_increment ... bench: 642 ns/iter (+/- 7) = 1102 MB/s
test str::char_count::emoji_medium::case03_manual_char_len ... bench: 445 ns/iter (+/- 3) = 1591 MB/s
test str::char_count::emoji_small::case00_cur_libcore ... bench: 18 ns/iter (+/- 0) = 3777 MB/s
test str::char_count::emoji_small::case01_old_libcore ... bench: 23 ns/iter (+/- 0) = 2956 MB/s
test str::char_count::emoji_small::case02_iter_increment ... bench: 66 ns/iter (+/- 2) = 1030 MB/s
test str::char_count::emoji_small::case03_manual_char_len ... bench: 29 ns/iter (+/- 1) = 2344 MB/s
test str::char_count::en_huge::case00_cur_libcore ... bench: 25,909 ns/iter (+/- 39,260) = 13299 MB/s
test str::char_count::en_huge::case01_old_libcore ... bench: 102,887 ns/iter (+/- 3,257) = 3349 MB/s
test str::char_count::en_huge::case02_iter_increment ... bench: 166,370 ns/iter (+/- 12,439) = 2071 MB/s
test str::char_count::en_huge::case03_manual_char_len ... bench: 166,332 ns/iter (+/- 4,262) = 2071 MB/s
test str::char_count::en_large::case00_cur_libcore ... bench: 281 ns/iter (+/- 6) = 19160 MB/s
test str::char_count::en_large::case01_old_libcore ... bench: 1,598 ns/iter (+/- 19) = 3369 MB/s
test str::char_count::en_large::case02_iter_increment ... bench: 2,598 ns/iter (+/- 167) = 2072 MB/s
test str::char_count::en_large::case03_manual_char_len ... bench: 2,578 ns/iter (+/- 55) = 2088 MB/s
test str::char_count::en_medium::case00_cur_libcore ... bench: 44 ns/iter (+/- 1) = 15295 MB/s
test str::char_count::en_medium::case01_old_libcore ... bench: 201 ns/iter (+/- 51) = 3348 MB/s
test str::char_count::en_medium::case02_iter_increment ... bench: 322 ns/iter (+/- 40) = 2090 MB/s
test str::char_count::en_medium::case03_manual_char_len ... bench: 319 ns/iter (+/- 5) = 2109 MB/s
test str::char_count::en_small::case00_cur_libcore ... bench: 15 ns/iter (+/- 0) = 2333 MB/s
test str::char_count::en_small::case01_old_libcore ... bench: 14 ns/iter (+/- 0) = 2500 MB/s
test str::char_count::en_small::case02_iter_increment ... bench: 30 ns/iter (+/- 1) = 1166 MB/s
test str::char_count::en_small::case03_manual_char_len ... bench: 30 ns/iter (+/- 1) = 1166 MB/s
test str::char_count::ru_huge::case00_cur_libcore ... bench: 16,439 ns/iter (+/- 3,105) = 19777 MB/s
test str::char_count::ru_huge::case01_old_libcore ... bench: 89,480 ns/iter (+/- 2,555) = 3633 MB/s
test str::char_count::ru_huge::case02_iter_increment ... bench: 217,703 ns/iter (+/- 22,185) = 1493 MB/s
test str::char_count::ru_huge::case03_manual_char_len ... bench: 157,330 ns/iter (+/- 19,188) = 2066 MB/s
test str::char_count::ru_large::case00_cur_libcore ... bench: 243 ns/iter (+/- 6) = 20905 MB/s
test str::char_count::ru_large::case01_old_libcore ... bench: 1,384 ns/iter (+/- 51) = 3670 MB/s
test str::char_count::ru_large::case02_iter_increment ... bench: 3,381 ns/iter (+/- 543) = 1502 MB/s
test str::char_count::ru_large::case03_manual_char_len ... bench: 2,423 ns/iter (+/- 429) = 2096 MB/s
test str::char_count::ru_medium::case00_cur_libcore ... bench: 42 ns/iter (+/- 1) = 15119 MB/s
test str::char_count::ru_medium::case01_old_libcore ... bench: 180 ns/iter (+/- 4) = 3527 MB/s
test str::char_count::ru_medium::case02_iter_increment ... bench: 402 ns/iter (+/- 45) = 1579 MB/s
test str::char_count::ru_medium::case03_manual_char_len ... bench: 280 ns/iter (+/- 29) = 2267 MB/s
test str::char_count::ru_small::case00_cur_libcore ... bench: 12 ns/iter (+/- 0) = 2666 MB/s
test str::char_count::ru_small::case01_old_libcore ... bench: 12 ns/iter (+/- 0) = 2666 MB/s
test str::char_count::ru_small::case02_iter_increment ... bench: 19 ns/iter (+/- 0) = 1684 MB/s
test str::char_count::ru_small::case03_manual_char_len ... bench: 14 ns/iter (+/- 1) = 2285 MB/s
test str::char_count::zh_huge::case00_cur_libcore ... bench: 15,053 ns/iter (+/- 2,640) = 20067 MB/s
test str::char_count::zh_huge::case01_old_libcore ... bench: 82,622 ns/iter (+/- 3,602) = 3656 MB/s
test str::char_count::zh_huge::case02_iter_increment ... bench: 230,456 ns/iter (+/- 7,246) = 1310 MB/s
test str::char_count::zh_huge::case03_manual_char_len ... bench: 220,595 ns/iter (+/- 11,624) = 1369 MB/s
test str::char_count::zh_large::case00_cur_libcore ... bench: 227 ns/iter (+/- 65) = 20792 MB/s
test str::char_count::zh_large::case01_old_libcore ... bench: 1,136 ns/iter (+/- 144) = 4154 MB/s
test str::char_count::zh_large::case02_iter_increment ... bench: 3,147 ns/iter (+/- 253) = 1499 MB/s
test str::char_count::zh_large::case03_manual_char_len ... bench: 2,993 ns/iter (+/- 400) = 1577 MB/s
test str::char_count::zh_medium::case00_cur_libcore ... bench: 36 ns/iter (+/- 5) = 16388 MB/s
test str::char_count::zh_medium::case01_old_libcore ... bench: 142 ns/iter (+/- 18) = 4154 MB/s
test str::char_count::zh_medium::case02_iter_increment ... bench: 379 ns/iter (+/- 37) = 1556 MB/s
test str::char_count::zh_medium::case03_manual_char_len ... bench: 364 ns/iter (+/- 51) = 1620 MB/s
test str::char_count::zh_small::case00_cur_libcore ... bench: 11 ns/iter (+/- 1) = 3000 MB/s
test str::char_count::zh_small::case01_old_libcore ... bench: 11 ns/iter (+/- 1) = 3000 MB/s
test str::char_count::zh_small::case02_iter_increment ... bench: 20 ns/iter (+/- 3) = 1650 MB/s
</pre>
</details>
I also added fairly thorough tests for different sizes and alignments. This completes on my machine in 0.02s, which is surprising given how thorough they are, but it seems to detect bugs in the implementation. (I haven't run the tests on a 32 bit machine yet since before I reworked the code a little though, so... hopefully I'm not about to embarrass myself).
This uses similar SWAR-style techniques to the `is_ascii` impl I contributed in https://github.com/rust-lang/rust/pull/74066, so I'm going to request review from the same person who reviewed that one. That said am not particularly picky, and might not have the correct syntax for requesting a review from someone (so it goes).
r? `@nagisa`
Replace iterator-based construction of collections by `Into<T>`
Just a few quality of life improvements in the doc examples. I also removed some `Vec`s in favor of arrays.