简单易用的字符串模糊匹配库Fuzzywuzzy
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FuzzyWuzzy 简介
FuzzyWuzzy 是一个简单易用的模糊字符串匹配工具包。它依据 Levenshtein Distance 算法 计算两个序列之间的差异。
Levenshtein Distance算法,又叫Edit Distance算法,是指两个字符串之间,由一个转成另一个所需的最少编辑操作次数。许可的编辑操作包括将一个字符替换成另一个字符,插入一个字符,删除一个字符。一般来说,编辑距离越小,两个串的相似度越大。
项目地址:https://github.com/seatgeek/fuzzywuzzy
环境依赖
- Python 2.7 以上
- difflib
- python-Levenshtein(可选, 在字符串匹配时可提供4-10x 的加速, 但在某些特定情况下可能会导致不同的结果)
- pycodestyle
- hypothesis
- pytest
安装
使用 PIP 通过 PyPI 安装
pip install fuzzywuzzy
or the following to install python-Levenshtein too
pip install fuzzywuzzy[speedup]
使用 PIP 通过 Github 安装
pip install git+git://github.com/seatgeek/fuzzywuzzy.git@0.17.0#egg=fuzzywuzzy
或者添加你的 requirements.txt 文件 (然后运行 pip install -r requirements.txt)
git+ssh://git@github.com/seatgeek/fuzzywuzzy.git@0.17.0#egg=fuzzywuzzy
使用 GIT 手工安装
git clone git://github.com/seatgeek/fuzzywuzzy.git fuzzywuzzy
cd fuzzywuzzy
python setup.py install用法
全匹配
from fuzzywuzzy import fuzz from fuzzywuzzy import process print(fuzz.ratio("this is a test", "this is a test!"))
C:Pychamanacondalibsite-packagesfuzzywuzzyfuzz.py:11: UserWarning: Using slow pure-python SequenceMatcher. Install python-Levenshtein to remove this warning warnings.warn('Using slow pure-python SequenceMatcher. Install python-Levenshtein to remove this warning') 97
1.报错显示我们需要安装python-Levenshtein库
非完全匹配(Partial Ratio)
from fuzzywuzzy import fuzz from fuzzywuzzy import process print(fuzz.partial_ratio("this is a test", "this is a test!"))
运行结果:
100
忽略顺序匹配(Token Sort Ratio)
from fuzzywuzzy import fuzz from fuzzywuzzy import process print(fuzz.ratio("fuzzy wuzzy was a bear", "wuzzy fuzzy was a bear")) print(fuzz.token_sort_ratio("fuzzy wuzzy was a bear", "wuzzy fuzzy was a bear"))
运行结果:
91 100
fuzz._process_and_sort(s, force_ascii, full_process=True)
对字符串s排序。force_ascii:True 或者False。为True表示转换为ascii码。如果full_process为True,则会将字符串s转换为小写,去掉除字母和数字之外的字符(发现不能去掉-字符),剩下的字符串以空格分开,然后排序。如果为False,则直接对字符串s排序。
fuzz._token_sort(s1, s2, partial=True, force_ascii=True, full_process=True)
给出字符串 s1, s2的相似度。首先经过 fuzz._process_and_sort()函数处理。partial为True时,再经过fuzz.partial_ratio()函数。partial为False时,再经过fuzz.ratio()函数。
so:
fuzz._token_sort(s1, s2, partial=True, force_ascii=True, full_process=True)
partial为True时:
fuzz.partial_token_sort_ratio(s1, s2, force_ascii=True, full_process=True)
partial为False时:
fuzz.token_sort_ratio(s1, s2, force_ascii=True, full_process=True)
去重子集匹配(Token Set Ratio)
from fuzzywuzzy import fuzz from fuzzywuzzy import process print(fuzz.token_sort_ratio("fuzzy was a bear", "fuzzy fuzzy was a bear")) print(fuzz.token_set_ratio("fuzzy was a bear", "fuzzy fuzzy was a bear"))
运行结果:
84 100
so:
fuzz._token_set(s1, s2, partial=True, force_ascii=True, full_process=True)
partial为False时,就是 fuzz.token_set_ratio()函数。
fuzz.token_set_ratio(s1, s2, force_ascii=True, full_process=True)
当partial为True时,就是 fuzz.partial_token_set_ratio()函数。
fuzz.partial_token_set_ratio(s1, s2, force_ascii=True, full_process=True)
Process
用来返回模糊匹配的字符串和相似度。
>>> choices = ["Atlanta Falcons", "New York Jets", "New York Giants", "Dallas Cowboys"] >>> process.extract("new york jets", choices, limit=2) [('New York Jets', 100), ('New York Giants', 78)] >>> process.extractOne("cowboys", choices) ("Dallas Cowboys", 90)
你可以传入附加参数到 extractOne 方法来设置使用特定的匹配模式。一个典型的用法是来匹配文件路径:
已知移植
FuzzyWuzzy 已经被移植到其他语言环境,我们已知的有:
- Java: xpresso's fuzzywuzzy implementation
- Java: fuzzywuzzy (java port)
- Rust: fuzzyrusty (Rust port)
- JavaScript: fuzzball.js (JavaScript port)
- C++: Tmplt/fuzzywuzzy
- C#: fuzzysharp (.Net port)
- Go: go-fuzzywuzz (Go port)