tag | dc1bfd39b26df75bc4021460a5e966314a031e4a | |
---|---|---|
tagger | Manish Goregaokar <manishsmail@gmail.com> | Wed Feb 07 07:01:27 2024 |
object | 8b894ca626d886da0d0974f9760e217cbba99378 |
v1.11.0
commit | 8b894ca626d886da0d0974f9760e217cbba99378 | [log] [tgz] |
---|---|---|
author | Manish Goregaokar <manishsmail@gmail.com> | Wed Feb 07 07:01:00 2024 |
committer | Manish Goregaokar <manishsmail@gmail.com> | Wed Feb 07 07:01:00 2024 |
tree | 239ba92aa7d0cf233d0d3fab009e61a5cfcbcada | |
parent | 184277a5f24c8c7dfd6481ee774e723206f08dc9 [diff] |
Bump to 1.11.0
Iterators which split strings on Grapheme Cluster or Word boundaries, according to the Unicode Standard Annex #29 rules.
use unicode_segmentation::UnicodeSegmentation; fn main() { let s = "a̐éö̲\r\n"; let g = s.graphemes(true).collect::<Vec<&str>>(); let b: &[_] = &["a̐", "é", "ö̲", "\r\n"]; assert_eq!(g, b); let s = "The quick (\"brown\") fox can't jump 32.3 feet, right?"; let w = s.unicode_words().collect::<Vec<&str>>(); let b: &[_] = &["The", "quick", "brown", "fox", "can't", "jump", "32.3", "feet", "right"]; assert_eq!(w, b); let s = "The quick (\"brown\") fox"; let w = s.split_word_bounds().collect::<Vec<&str>>(); let b: &[_] = &["The", " ", "quick", " ", "(", "\"", "brown", "\"", ")", " ", "fox"]; assert_eq!(w, b); }
unicode-segmentation does not depend on libstd, so it can be used in crates with the #![no_std]
attribute.
You can use this package in your project by adding the following to your Cargo.toml
:
[dependencies] unicode-segmentation = "1.10.1"
#[inline]
opportunities, resulting in 15-40% performance improvement.GraphemeCursor
API allows random access and bidirectional iteration.as_str
methods to the iterator types.