mirror of https://github.com/python/cpython
187 lines
6.1 KiB
Python
187 lines
6.1 KiB
Python
"""Filename matching with shell patterns.
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fnmatch(FILENAME, PATTERN) matches according to the local convention.
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fnmatchcase(FILENAME, PATTERN) always takes case in account.
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The functions operate by translating the pattern into a regular
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expression. They cache the compiled regular expressions for speed.
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The function translate(PATTERN) returns a regular expression
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corresponding to PATTERN. (It does not compile it.)
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"""
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import os
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import posixpath
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import re
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import functools
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__all__ = ["filter", "fnmatch", "fnmatchcase", "translate"]
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def fnmatch(name, pat):
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"""Test whether FILENAME matches PATTERN.
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Patterns are Unix shell style:
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* matches everything
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? matches any single character
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[seq] matches any character in seq
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[!seq] matches any char not in seq
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An initial period in FILENAME is not special.
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Both FILENAME and PATTERN are first case-normalized
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if the operating system requires it.
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If you don't want this, use fnmatchcase(FILENAME, PATTERN).
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"""
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name = os.path.normcase(name)
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pat = os.path.normcase(pat)
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return fnmatchcase(name, pat)
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@functools.lru_cache(maxsize=32768, typed=True)
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def _compile_pattern(pat):
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if isinstance(pat, bytes):
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pat_str = str(pat, 'ISO-8859-1')
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res_str = translate(pat_str)
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res = bytes(res_str, 'ISO-8859-1')
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else:
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res = translate(pat)
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return re.compile(res).match
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def filter(names, pat):
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"""Construct a list from those elements of the iterable NAMES that match PAT."""
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result = []
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pat = os.path.normcase(pat)
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match = _compile_pattern(pat)
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if os.path is posixpath:
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# normcase on posix is NOP. Optimize it away from the loop.
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for name in names:
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if match(name):
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result.append(name)
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else:
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for name in names:
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if match(os.path.normcase(name)):
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result.append(name)
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return result
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def fnmatchcase(name, pat):
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"""Test whether FILENAME matches PATTERN, including case.
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This is a version of fnmatch() which doesn't case-normalize
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its arguments.
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"""
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match = _compile_pattern(pat)
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return match(name) is not None
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def translate(pat):
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"""Translate a shell PATTERN to a regular expression.
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There is no way to quote meta-characters.
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"""
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parts, star_indices = _translate(pat, '*', '.')
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return _join_translated_parts(parts, star_indices)
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_re_setops_sub = re.compile(r'([&~|])').sub
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_re_escape = functools.lru_cache(maxsize=512)(re.escape)
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def _translate(pat, star, question_mark):
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res = []
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add = res.append
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star_indices = []
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i, n = 0, len(pat)
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while i < n:
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c = pat[i]
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i = i+1
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if c == '*':
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# store the position of the wildcard
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star_indices.append(len(res))
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add(star)
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# compress consecutive `*` into one
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while i < n and pat[i] == '*':
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i += 1
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elif c == '?':
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add(question_mark)
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elif c == '[':
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j = i
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if j < n and pat[j] == '!':
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j = j+1
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if j < n and pat[j] == ']':
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j = j+1
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while j < n and pat[j] != ']':
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j = j+1
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if j >= n:
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add('\\[')
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else:
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stuff = pat[i:j]
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if '-' not in stuff:
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stuff = stuff.replace('\\', r'\\')
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else:
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chunks = []
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k = i+2 if pat[i] == '!' else i+1
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while True:
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k = pat.find('-', k, j)
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if k < 0:
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break
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chunks.append(pat[i:k])
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i = k+1
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k = k+3
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chunk = pat[i:j]
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if chunk:
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chunks.append(chunk)
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else:
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chunks[-1] += '-'
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# Remove empty ranges -- invalid in RE.
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for k in range(len(chunks)-1, 0, -1):
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if chunks[k-1][-1] > chunks[k][0]:
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chunks[k-1] = chunks[k-1][:-1] + chunks[k][1:]
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del chunks[k]
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# Escape backslashes and hyphens for set difference (--).
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# Hyphens that create ranges shouldn't be escaped.
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stuff = '-'.join(s.replace('\\', r'\\').replace('-', r'\-')
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for s in chunks)
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i = j+1
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if not stuff:
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# Empty range: never match.
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add('(?!)')
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elif stuff == '!':
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# Negated empty range: match any character.
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add('.')
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else:
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# Escape set operations (&&, ~~ and ||).
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stuff = _re_setops_sub(r'\\\1', stuff)
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if stuff[0] == '!':
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stuff = '^' + stuff[1:]
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elif stuff[0] in ('^', '['):
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stuff = '\\' + stuff
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add(f'[{stuff}]')
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else:
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add(_re_escape(c))
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assert i == n
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return res, star_indices
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def _join_translated_parts(parts, star_indices):
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if not star_indices:
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return fr'(?s:{"".join(parts)})\Z'
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iter_star_indices = iter(star_indices)
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j = next(iter_star_indices)
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buffer = parts[:j] # fixed pieces at the start
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append, extend = buffer.append, buffer.extend
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i = j + 1
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for j in iter_star_indices:
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# Now deal with STAR fixed STAR fixed ...
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# For an interior `STAR fixed` pairing, we want to do a minimal
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# .*? match followed by `fixed`, with no possibility of backtracking.
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# Atomic groups ("(?>...)") allow us to spell that directly.
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# Note: people rely on the undocumented ability to join multiple
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# translate() results together via "|" to build large regexps matching
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# "one of many" shell patterns.
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append('(?>.*?')
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extend(parts[i:j])
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append(')')
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i = j + 1
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append('.*')
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extend(parts[i:])
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res = ''.join(buffer)
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return fr'(?s:{res})\Z'
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