Crates.io | zhconv |
lib.rs | zhconv |
version | 0.3.1 |
source | src |
created_at | 2021-12-24 14:30:16.177341 |
updated_at | 2024-03-22 15:41:04.134094 |
description | Traditional/Simplified and regional Chinese variants converter based on MediaWiki & OpenCC rulesets and powered by AC automata 轉換简体、繁體及兩岸、新馬中文地區詞,基於MediaWiki和OpenCC之字詞轉換表 |
homepage | |
repository | https://github.com/Gowee/zhconv-rs |
max_upload_size | |
id | 502697 |
size | 18,916,932 |
zhconv-rs converts Chinese text among traditional/simplified scripts or regional variants (e.g. zh-TW <-> zh-CN <-> zh-HK <-> zh-Hans <-> zh-Hant
), built on the top of rulesets from MediaWiki/Wikipedia and OpenCC.
The implementation is powered by the Aho-Corasick algorithm, ensuring linear time complexity with respect to the length of input text and conversion rules (O(n+m)
), processing dozens of MiBs text per second.
🔗 Web App: https://zhconv.pages.dev (powered by WASM)
⚙️ Cli: cargo install zhconv-cli
or check releases.
🦀 Rust Crate: cargo add zhconv
(check docs for examples)
🐍 Python Package via PyO3: pip install zhconv-rs
(WASM with wheels)
# > pip install zhconv_rs
# Convert with builtin rulesets:
from zhconv_rs import zhconv
assert zhconv("天干物燥 小心火烛", "zh-tw") == "天乾物燥 小心火燭"
assert zhconv("霧失樓臺,月迷津渡", "zh-hans") == "雾失楼台,月迷津渡"
assert zhconv("《-{zh-hans:三个火枪手;zh-hant:三劍客;zh-tw:三劍客}-》是亞歷山大·仲馬的作品。", "zh-cn", mediawiki=True) == "《三个火枪手》是亚历山大·仲马的作品。"
assert zhconv("-{H|zh-cn:雾都孤儿;zh-tw:孤雛淚;zh-hk:苦海孤雛;zh-sg:雾都孤儿;zh-mo:苦海孤雛;}-《雾都孤儿》是查尔斯·狄更斯的作品。", "zh-tw", True) == "《孤雛淚》是查爾斯·狄更斯的作品。"
# Convert with custom rules:
from zhconv_rs import make_converter
assert make_converter(None, [("天", "地"), ("水", "火")])("甘肅天水") == "甘肅地火"
import io
convert = make_converter("zh-hans", io.StringIO("䖏 处\n罨畫 掩画")) # or path to rule file
assert convert("秀州西去湖州近 幾䖏樓臺罨畫間") == "秀州西去湖州近 几处楼台掩画间"
JS (Webpack): npm install zhconv
or yarn add zhconv
(WASM, instructions)
JS in browser: https://cdn.jsdelivr.net/npm/zhconv-web@latest (WASM)
<script type="module">
// Use ES module import syntax to import functionality from the module
// that we have compiled.
//
// Note that the `default` import is an initialization function which
// will "boot" the module and make it ready to use. Currently browsers
// don't support natively imported WebAssembly as an ES module, but
// eventually the manual initialization won't be required!
import init, { zhconv } from 'https://cdn.jsdelivr.net/npm/zhconv-web@latest/zhconv.js'; // specify a version tag if in prod
async function run() {
await init();
alert(zhconv(prompt("Text to convert to zh-hans:"), "zh-hans"));
}
run();
</script>
Target | Tag | Script | Description |
---|---|---|---|
Simplified Chinese / 简体中文 | zh-Hans |
SC / 简 | W/O substituing region-specific phrases. |
Traditional Chinese / 繁體中文 | zh-Hant |
TC / 繁 | W/O substituing region-specific phrases. |
Chinese (Taiwan) / 臺灣正體 | zh-TW |
TC / 繁 | With Taiwan-specific phrases adapted. |
Chinese (Hong Kong) / 香港繁體 | zh-HK |
TC / 繁 | With Hong Kong-specific phrases adapted. |
Chinese (Macau) / 澳门繁體 | zh-MO |
TC / 繁 | Same as zh-HK for now. |
Chinese (Mainland China) / 大陆简体 | zh-CN |
SC / 简 | With mainland China-specific phrases adapted. |
Chinese (Singapore) / 新加坡简体 | zh-SG |
SC / 简 | Same as zh-CN for now. |
Chinese (Malaysia) / 大马简体 | zh-MY |
SC / 简 | Same as zh-CN for now. |
Note: zh-TW
and zh-HK
are based on zh-Hant
. zh-CN
are based on zh-Hans
. Currently, zh-MO
shares the same rulesets with zh-HK
unless additional rules are manually configured; zh-MY
and zh-SG
shares the same rulesets with zh-CN
unless additional rules are manually configured.
cargo bench
on Intel(R) Xeon(R) CPU @ 2.80GHz
(GitPod) by v0.2, without parsing inline conversion rules:
load zh2Hant time: [45.442 ms 45.946 ms 46.459 ms]
load zh2Hans time: [8.1378 ms 8.3787 ms 8.6414 ms]
load zh2TW time: [60.209 ms 61.261 ms 62.407 ms]
load zh2HK time: [89.457 ms 90.847 ms 92.297 ms]
load zh2MO time: [96.670 ms 98.063 ms 99.586 ms]
load zh2CN time: [27.850 ms 28.520 ms 29.240 ms]
load zh2SG time: [28.175 ms 28.963 ms 29.796 ms]
load zh2MY time: [27.142 ms 27.635 ms 28.143 ms]
zh2TW data54k time: [546.10 us 553.14 us 561.24 us]
zh2CN data54k time: [504.34 us 511.22 us 518.59 us]
zh2Hant data689k time: [3.4375 ms 3.5182 ms 3.6013 ms]
zh2TW data689k time: [3.6062 ms 3.6784 ms 3.7545 ms]
zh2Hant data3185k time: [62.457 ms 64.257 ms 66.099 ms]
zh2TW data3185k time: [60.217 ms 61.348 ms 62.556 ms]
zh2TW data55m time: [1.0773 s 1.0872 s 1.0976 s]
The benchmark was performed on a previous version that had only Mediawiki rulesets. In the newer version, with OpenCC rulesets activated by default, the performance may degrade ~2x. Since v0.3, the Aho-Corasick algorithm implementation has been switched to daachorse with automaton prebuilt during compile time. The performance is no worse than the previous version, even though OpenCC rulesets are newly introduced.
Be noted that, OpenCC rulesets accounts for at least several MiBs in build output. If that looks too big, just overwrite the default features (e.g. zhconv = { version = "...", features = [ "compress" ] }
).
ZhConver{sion,ter}.php
of MediaWiki: zhconv-rs just takes conversion tables listed in ZhConversion.php
. MediaWiki relies on the inefficient PHP built-in function strtr
. Under the basic mode, zhconv-rs guarantees linear time complexity (T = O(n+m)
instead of O(nm)
) and single-pass scanning of input text. Optionally, zhconv-rs supports the same conversion rule syntax with MediaWiki.strtr
. However, OpenCC supports pre-segmentation and maintains multiple rulesets which are applied successively. By contrast, the Aho-Corasick-powered zhconv-rs merges rulesets from MediaWiki and OpenCC in compile time and converts text in single-pass linear time, resulting in much more efficiency. Though, conversion results may differ in some cases.The converter takes leftmost-longest matching strategy. It gives priority to the leftmost-matched words or phrases. For instance, if a ruleset includes both 干 -> 幹
and 天干物燥 -> 天乾物燥
, the converter would prioritize 天乾物燥
because 天干物燥
gets matched earlier compared to 干
at a later position. The strategy yields good results in general, but may occasionally lead to wrong conversions.
The implementation support most of the MediaWiki conversion rules. But it is not fully compliant with the original implementation.
Besides, for wikitext, if input text contains global conversion rules (in MediaWiki syntax like -{H|zh-hans:鹿|zh-hant:马}-
), the time complexity of the implementation may degrade to O(n*m)
where n
and m
are the length of the text and the maximum lengths of sources words in conversion rulesets in the worst case (equivalent to brute-force).
All rulesets that power the converter come from the MediaWiki project and OpenCC.
The project takes the following projects/pages as references:
zhConver{ter,sion}.php
.