Cours/venv/lib/python3.12/site-packages/pathspec/patterns/gitwildmatch.py

422 lines
12 KiB
Python

"""
This module implements Git's wildmatch pattern matching which itself is derived
from Rsync's wildmatch. Git uses wildmatch for its ".gitignore" files.
"""
import re
import warnings
from typing import (
AnyStr,
Optional, # Replaced by `X | None` in 3.10.
Tuple) # Replaced by `tuple` in 3.9.
from .. import util
from ..pattern import RegexPattern
_BYTES_ENCODING = 'latin1'
"""
The encoding to use when parsing a byte string pattern.
"""
_DIR_MARK = 'ps_d'
"""
The regex group name for the directory marker. This is only used by
:class:`GitIgnoreSpec`.
"""
class GitWildMatchPatternError(ValueError):
"""
The :class:`GitWildMatchPatternError` indicates an invalid git wild match
pattern.
"""
pass
class GitWildMatchPattern(RegexPattern):
"""
The :class:`GitWildMatchPattern` class represents a compiled Git wildmatch
pattern.
"""
# Keep the dict-less class hierarchy.
__slots__ = ()
@classmethod
def pattern_to_regex(
cls,
pattern: AnyStr,
) -> Tuple[Optional[AnyStr], Optional[bool]]:
"""
Convert the pattern into a regular expression.
*pattern* (:class:`str` or :class:`bytes`) is the pattern to convert into a
regular expression.
Returns the uncompiled regular expression (:class:`str`, :class:`bytes`, or
:data:`None`); and whether matched files should be included (:data:`True`),
excluded (:data:`False`), or if it is a null-operation (:data:`None`).
"""
if isinstance(pattern, str):
return_type = str
elif isinstance(pattern, bytes):
return_type = bytes
pattern = pattern.decode(_BYTES_ENCODING)
else:
raise TypeError(f"pattern:{pattern!r} is not a unicode or byte string.")
original_pattern = pattern
if pattern.endswith('\\ '):
# EDGE CASE: Spaces can be escaped with backslash. If a pattern that ends
# with backslash followed by a space, only strip from left.
pattern = pattern.lstrip()
else:
pattern = pattern.strip()
if pattern.startswith('#'):
# A pattern starting with a hash ('#') serves as a comment (neither
# includes nor excludes files). Escape the hash with a back-slash to match
# a literal hash (i.e., '\#').
regex = None
include = None
elif pattern == '/':
# EDGE CASE: According to `git check-ignore` (v2.4.1), a single '/' does
# not match any file.
regex = None
include = None
elif pattern:
if pattern.startswith('!'):
# A pattern starting with an exclamation mark ('!') negates the pattern
# (exclude instead of include). Escape the exclamation mark with a
# back-slash to match a literal exclamation mark (i.e., '\!').
include = False
# Remove leading exclamation mark.
pattern = pattern[1:]
else:
include = True
# Allow a regex override for edge cases that cannot be handled through
# normalization.
override_regex = None
# Split pattern into segments.
pattern_segs = pattern.split('/')
# Check whether the pattern is specifically a directory pattern before
# normalization.
is_dir_pattern = not pattern_segs[-1]
# Normalize pattern to make processing easier.
# EDGE CASE: Deal with duplicate double-asterisk sequences. Collapse each
# sequence down to one double-asterisk. Iterate over the segments in
# reverse and remove the duplicate double asterisks as we go.
for i in range(len(pattern_segs) - 1, 0, -1):
prev = pattern_segs[i-1]
seg = pattern_segs[i]
if prev == '**' and seg == '**':
del pattern_segs[i]
if len(pattern_segs) == 2 and pattern_segs[0] == '**' and not pattern_segs[1]:
# EDGE CASE: The '**/' pattern should match everything except individual
# files in the root directory. This case cannot be adequately handled
# through normalization. Use the override.
override_regex = f'^.+(?P<{_DIR_MARK}>/).*$'
if not pattern_segs[0]:
# A pattern beginning with a slash ('/') will only match paths directly
# on the root directory instead of any descendant paths. So, remove
# empty first segment to make pattern relative to root.
del pattern_segs[0]
elif len(pattern_segs) == 1 or (len(pattern_segs) == 2 and not pattern_segs[1]):
# A single pattern without a beginning slash ('/') will match any
# descendant path. This is equivalent to "**/{pattern}". So, prepend
# with double-asterisks to make pattern relative to root.
# - EDGE CASE: This also holds for a single pattern with a trailing
# slash (e.g. dir/).
if pattern_segs[0] != '**':
pattern_segs.insert(0, '**')
else:
# EDGE CASE: A pattern without a beginning slash ('/') but contains at
# least one prepended directory (e.g. "dir/{pattern}") should not match
# "**/dir/{pattern}", according to `git check-ignore` (v2.4.1).
pass
if not pattern_segs:
# After resolving the edge cases, we end up with no pattern at all. This
# must be because the pattern is invalid.
raise GitWildMatchPatternError(f"Invalid git pattern: {original_pattern!r}")
if not pattern_segs[-1] and len(pattern_segs) > 1:
# A pattern ending with a slash ('/') will match all descendant paths if
# it is a directory but not if it is a regular file. This is equivalent
# to "{pattern}/**". So, set last segment to a double-asterisk to
# include all descendants.
pattern_segs[-1] = '**'
if override_regex is None:
# Build regular expression from pattern.
output = ['^']
need_slash = False
end = len(pattern_segs) - 1
for i, seg in enumerate(pattern_segs):
if seg == '**':
if i == 0 and i == end:
# A pattern consisting solely of double-asterisks ('**') will
# match every path.
output.append(f'[^/]+(?:/.*)?')
elif i == 0:
# A normalized pattern beginning with double-asterisks
# ('**') will match any leading path segments.
output.append('(?:.+/)?')
need_slash = False
elif i == end:
# A normalized pattern ending with double-asterisks ('**') will
# match any trailing path segments.
if is_dir_pattern:
output.append(f'(?P<{_DIR_MARK}>/).*')
else:
output.append(f'/.*')
else:
# A pattern with inner double-asterisks ('**') will match multiple
# (or zero) inner path segments.
output.append('(?:/.+)?')
need_slash = True
elif seg == '*':
# Match single path segment.
if need_slash:
output.append('/')
output.append('[^/]+')
if i == end:
# A pattern ending without a slash ('/') will match a file or a
# directory (with paths underneath it). E.g., "foo" matches "foo",
# "foo/bar", "foo/bar/baz", etc.
output.append(f'(?:(?P<{_DIR_MARK}>/).*)?')
need_slash = True
else:
# Match segment glob pattern.
if need_slash:
output.append('/')
try:
output.append(cls._translate_segment_glob(seg))
except ValueError as e:
raise GitWildMatchPatternError(f"Invalid git pattern: {original_pattern!r}") from e
if i == end:
# A pattern ending without a slash ('/') will match a file or a
# directory (with paths underneath it). E.g., "foo" matches "foo",
# "foo/bar", "foo/bar/baz", etc.
output.append(f'(?:(?P<{_DIR_MARK}>/).*)?')
need_slash = True
output.append('$')
regex = ''.join(output)
else:
# Use regex override.
regex = override_regex
else:
# A blank pattern is a null-operation (neither includes nor excludes
# files).
regex = None
include = None
if regex is not None and return_type is bytes:
regex = regex.encode(_BYTES_ENCODING)
return regex, include
@staticmethod
def _translate_segment_glob(pattern: str) -> str:
"""
Translates the glob pattern to a regular expression. This is used in the
constructor to translate a path segment glob pattern to its corresponding
regular expression.
*pattern* (:class:`str`) is the glob pattern.
Returns the regular expression (:class:`str`).
"""
# NOTE: This is derived from `fnmatch.translate()` and is similar to the
# POSIX function `fnmatch()` with the `FNM_PATHNAME` flag set.
escape = False
regex = ''
i, end = 0, len(pattern)
while i < end:
# Get next character.
char = pattern[i]
i += 1
if escape:
# Escape the character.
escape = False
regex += re.escape(char)
elif char == '\\':
# Escape character, escape next character.
escape = True
elif char == '*':
# Multi-character wildcard. Match any string (except slashes), including
# an empty string.
regex += '[^/]*'
elif char == '?':
# Single-character wildcard. Match any single character (except a
# slash).
regex += '[^/]'
elif char == '[':
# Bracket expression wildcard. Except for the beginning exclamation
# mark, the whole bracket expression can be used directly as regex, but
# we have to find where the expression ends.
# - "[][!]" matches ']', '[' and '!'.
# - "[]-]" matches ']' and '-'.
# - "[!]a-]" matches any character except ']', 'a' and '-'.
j = i
# Pass bracket expression negation.
if j < end and (pattern[j] == '!' or pattern[j] == '^'):
j += 1
# Pass first closing bracket if it is at the beginning of the
# expression.
if j < end and pattern[j] == ']':
j += 1
# Find closing bracket. Stop once we reach the end or find it.
while j < end and pattern[j] != ']':
j += 1
if j < end:
# Found end of bracket expression. Increment j to be one past the
# closing bracket:
#
# [...]
# ^ ^
# i j
#
j += 1
expr = '['
if pattern[i] == '!':
# Bracket expression needs to be negated.
expr += '^'
i += 1
elif pattern[i] == '^':
# POSIX declares that the regex bracket expression negation "[^...]"
# is undefined in a glob pattern. Python's `fnmatch.translate()`
# escapes the caret ('^') as a literal. Git supports the using a
# caret for negation. Maintain consistency with Git because that is
# the expected behavior.
expr += '^'
i += 1
# Build regex bracket expression. Escape slashes so they are treated
# as literal slashes by regex as defined by POSIX.
expr += pattern[i:j].replace('\\', '\\\\')
# Add regex bracket expression to regex result.
regex += expr
# Set i to one past the closing bracket.
i = j
else:
# Failed to find closing bracket, treat opening bracket as a bracket
# literal instead of as an expression.
regex += '\\['
else:
# Regular character, escape it for regex.
regex += re.escape(char)
if escape:
raise ValueError(f"Escape character found with no next character to escape: {pattern!r}")
return regex
@staticmethod
def escape(s: AnyStr) -> AnyStr:
"""
Escape special characters in the given string.
*s* (:class:`str` or :class:`bytes`) a filename or a string that you want to
escape, usually before adding it to a ".gitignore".
Returns the escaped string (:class:`str` or :class:`bytes`).
"""
if isinstance(s, str):
return_type = str
string = s
elif isinstance(s, bytes):
return_type = bytes
string = s.decode(_BYTES_ENCODING)
else:
raise TypeError(f"s:{s!r} is not a unicode or byte string.")
# Reference: https://git-scm.com/docs/gitignore#_pattern_format
meta_characters = r"[]!*#?"
out_string = "".join("\\" + x if x in meta_characters else x for x in string)
if return_type is bytes:
return out_string.encode(_BYTES_ENCODING)
else:
return out_string
util.register_pattern('gitwildmatch', GitWildMatchPattern)
class GitIgnorePattern(GitWildMatchPattern):
"""
The :class:`GitIgnorePattern` class is deprecated by :class:`GitWildMatchPattern`.
This class only exists to maintain compatibility with v0.4.
"""
def __init__(self, *args, **kw) -> None:
"""
Warn about deprecation.
"""
self._deprecated()
super(GitIgnorePattern, self).__init__(*args, **kw)
@staticmethod
def _deprecated() -> None:
"""
Warn about deprecation.
"""
warnings.warn((
"GitIgnorePattern ('gitignore') is deprecated. Use GitWildMatchPattern "
"('gitwildmatch') instead."
), DeprecationWarning, stacklevel=3)
@classmethod
def pattern_to_regex(cls, *args, **kw):
"""
Warn about deprecation.
"""
cls._deprecated()
return super(GitIgnorePattern, cls).pattern_to_regex(*args, **kw)
# Register `GitIgnorePattern` as "gitignore" for backward compatibility with
# v0.4.
util.register_pattern('gitignore', GitIgnorePattern)