mirror of
https://github.com/SickGear/SickGear.git
synced 2024-11-25 06:15:04 +00:00
e56303798c
Initial SickGear for Python 3.
901 lines
25 KiB
Python
901 lines
25 KiB
Python
"""
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Object to manage regular expressions, try to optimize the result:
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- '(a|b)' => '[ab]'
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- '(color red|color blue)' => 'color (red|blue)'
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- '([ab]|c)' => '[abc]'
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- 'ab' + 'cd' => 'abcd' (one long string)
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- [a-z]|[b] => [a-z]
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- [a-c]|[a-e] => [a-z]
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- [a-c]|[d] => [a-d]
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- [a-c]|[d-f] => [a-f]
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Operation:
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- str(): convert to string
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- repr(): debug string
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- a & b: concatenation, eg. "big " & "car" => "big car"
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- a + b: alias to a & b
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- a | b: a or b, eg. "dog" | "cat" => "dog|cat"
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- minLength(): minimum length of matching pattern, "(cat|horse)".minLength() => 3
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- maxLength(): maximum length of matching pattern, "(cat|horse)".maxLength() => 5
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Utilities:
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- createString(): create a regex matching a string
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- createRange(): create a regex matching character ranges
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TODO:
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- Support Unicode regex (avoid mixing str and unicode types)
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- createString("__tax") | parse("__[12]") => group '__'
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- Make sure that all RegexXXX() classes are inmutable
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- Use singleton for dot, start and end
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See also CPAN Regexp::Assemble (Perl module):
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http://search.cpan.org/~dland/Regexp-Assemble-0.28/Assemble.pm
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"""
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import re
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import operator
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from hachoir.core.tools import makePrintable
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def matchSingleValue(regex):
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"""
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Regex only match one exact string.
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>>> matchSingleValue(RegexEmpty())
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True
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>>> matchSingleValue(createString("abc"))
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True
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>>> matchSingleValue(createRange("a", "b"))
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False
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>>> matchSingleValue(createRange("a"))
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True
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>>> matchSingleValue(RegexAnd((RegexStart(), createString("abc"))))
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True
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"""
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cls = regex.__class__
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if cls in (RegexEmpty, RegexString, RegexStart, RegexEnd):
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return True
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if cls == RegexAnd:
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return all(matchSingleValue(item) for item in regex)
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if cls == RegexRange:
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return len(regex.ranges) == 1 and len(regex.ranges[0]) == 1
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return False
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def escapeRegex(text):
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r"""
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Escape string to use it in a regular expression:
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prefix special characters « ^.+*?{}[]|()\$ » by an antislash.
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"""
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return re.sub(r"([][^.+*?{}|()\\$])", r"\\\1", text)
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def _join(func, regex_list):
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if not isinstance(regex_list, (tuple, list)):
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regex_list = list(regex_list)
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if len(regex_list) == 0:
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return RegexEmpty()
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regex = regex_list[0]
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for item in regex_list[1:]:
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regex = func(regex, item)
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return regex
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def createString(text):
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"""
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>>> createString('')
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<RegexEmpty ''>
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>>> createString('abc')
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<RegexString 'abc'>
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"""
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if text:
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return RegexString(text)
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else:
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return RegexEmpty()
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def createRange(*text, **kw):
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"""
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Create a regex range using character list.
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>>> createRange("a", "d", "b")
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<RegexRange '[abd]'>
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>>> createRange("-", "9", "4", "3", "0")
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<RegexRange '[0349-]'>
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"""
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ranges = (RegexRangeCharacter(item) for item in text)
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return RegexRange(ranges, kw.get('exclude', False))
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class Regex:
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"""
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Abstract class defining a regular expression atom
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"""
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def minLength(self):
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"""
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Maximum length in characters of the regex.
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Returns None if there is no limit.
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"""
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raise NotImplementedError()
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def maxLength(self):
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"""
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Maximum length in characters of the regex.
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Returns None if there is no limit.
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"""
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return self.minLength()
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def __str__(self, **kw):
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if not hasattr(self, "_str_value"):
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self._str_value = {}
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key = kw.get('python', False)
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if key not in self._str_value:
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self._str_value[key] = self._str(**kw)
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return self._str_value[key]
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def _str(self, **kw):
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raise NotImplementedError()
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def __repr__(self, **kw):
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regex = self.__str__(**kw)
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regex = makePrintable(regex, 'ASCII')
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return "<%s '%s'>" % (
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self.__class__.__name__, regex)
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def __contains__(self, item):
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raise NotImplementedError()
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def match(self, other):
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"""
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Guess if self may matchs regex.
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May returns False even if self does match regex.
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"""
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if self == other:
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return True
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return self._match(other)
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def _match(self, other):
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"""
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Does regex match other regex?
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Eg. "." matchs "0" or "[a-z]" but "0" doesn't match ".".
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This function is used by match() which already check regex identity.
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"""
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return False
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def _and(self, regex):
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"""
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Create new optimized version of a+b.
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Returns None if there is no interesting optimization.
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"""
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return None
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def __and__(self, regex):
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"""
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Create new optimized version of a & b.
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Returns None if there is no interesting optimization.
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>>> RegexEmpty() & RegexString('a')
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<RegexString 'a'>
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"""
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if regex.__class__ == RegexEmpty:
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return self
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new_regex = self._and(regex)
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if new_regex:
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return new_regex
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else:
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return RegexAnd((self, regex))
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def __add__(self, regex):
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return self.__and__(regex)
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def or_(self, other):
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"""
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Create new optimized version of a|b.
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Returns None if there is no interesting optimization.
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"""
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# (a|a) => a
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if self == other:
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return self
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# a matchs b => a
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if self._match(other):
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return self
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# b matchs a => b
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if other._match(self):
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return other
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# Try to optimize (a|b)
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if self.__class__ != other.__class__:
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new_regex = self._or_(other, False)
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if new_regex:
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return new_regex
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# Try to optimize (b|a)
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new_regex = other._or_(self, True)
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if new_regex:
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return new_regex
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return None
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else:
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return self._or_(other, False)
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def _or_(self, other, reverse):
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"""
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Try to create optimized version of self|other if reverse if False,
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or of other|self if reverse if True.
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"""
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return None
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def __or__(self, other):
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"""
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Public method of OR operator: a|b. It call or_() internal method.
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If or_() returns None: RegexOr object is used (and otherwise,
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use or_() result).
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"""
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# Try to optimize (a|b)
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new_regex = self.or_(other)
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if new_regex:
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return new_regex
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# Else use (a|b)
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return RegexOr((self, other))
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def __eq__(self, regex):
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if self.__class__ != regex.__class__:
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return False
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return self._eq(regex)
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def _eq(self, other):
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"""
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Check if two objects of the same class are equals
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"""
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raise NotImplementedError(
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"Class %s has no method _eq()" % self.__class__.__name__)
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def compile(self, **kw):
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return re.compile(self.__str__(**kw))
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def findPrefix(self, regex):
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"""
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Try to create a common prefix between two regex.
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Eg. "abc" and "abd" => "ab"
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Return None if no prefix can be found.
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"""
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return None
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def __iter__(self):
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raise NotImplementedError()
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class RegexEmpty(Regex):
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def minLength(self):
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return 0
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def _str(self, **kw):
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return ''
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def _and(self, other):
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return other
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def _eq(self, other):
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return True
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class RegexWord(RegexEmpty):
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def _and(self, other):
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if other.__class__ == RegexWord:
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return self
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return None
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def _str(self, **kw):
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return r'\b'
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class RegexStart(RegexEmpty):
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def _and(self, other):
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if other.__class__ == RegexStart:
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return self
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return None
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def _str(self, **kw):
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return '^'
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class RegexEnd(RegexStart):
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def _and(self, other):
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if other.__class__ == RegexEnd:
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return self
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return None
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def _str(self, **kw):
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return '$'
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class RegexDot(Regex):
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def minLength(self):
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return 1
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def _str(self, **kw):
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return '.'
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def _match(self, other):
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if other.__class__ == RegexRange:
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return True
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if other.__class__ == RegexString and len(other.text) == 1:
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return True
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return False
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def _eq(self, other):
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return True
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class RegexString(Regex):
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def __init__(self, text=""):
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assert isinstance(text, str)
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self.text = text
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assert 1 <= len(self.text)
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def minLength(self):
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return len(self.text)
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def _and(self, regex):
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"""
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>>> RegexString('a') + RegexString('b')
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<RegexString 'ab'>
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"""
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if regex.__class__ == RegexString:
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return RegexString(self.text + regex.text)
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return None
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def _str(self, **kw):
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return escapeRegex(self.text)
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def findPrefix(self, regex):
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"""
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Try to find a common prefix of two string regex, returns:
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- None if there is no common prefix
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- (prefix, regexa, regexb) otherwise => prefix + (regexa|regexb)
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>>> RegexString('color red').findPrefix(RegexString('color blue'))
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(<RegexString 'color '>, <RegexString 'red'>, <RegexString 'blue'>)
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"""
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if regex.__class__ != RegexString:
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return None
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texta = self.text
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textb = regex.text
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# '(a|b)' => '[ab]'
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if len(texta) == len(textb) == 1:
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return (createRange(texta, textb), RegexEmpty(), RegexEmpty())
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# '(text abc|text def)' => 'text (abc|def)'
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common = None
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for length in range(1, min(len(texta), len(textb)) + 1):
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if textb.startswith(texta[:length]):
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common = length
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else:
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break
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if not common:
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return None
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return (RegexString(texta[:common]), createString(texta[common:]), createString(textb[common:]))
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def _or_(self, other, reverse):
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"""
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Remove duplicate:
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>>> RegexString("color") | RegexString("color")
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<RegexString 'color'>
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Group prefix:
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>>> RegexString("color red") | RegexString("color blue")
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<RegexAnd 'color (red|blue)'>
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>>> RegexString("color red") | RegexString("color")
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<RegexAnd 'color( red|)'>
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"""
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# Don't know any other optimization for str|other
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if other.__class__ != RegexString:
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return None
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# Find common prefix
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common = self.findPrefix(other)
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if common:
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if not reverse:
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regex = common[1] | common[2]
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else:
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regex = common[2] | common[1]
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return common[0] + regex
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return None
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def _eq(self, other):
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return self.text == other.text
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class RegexRangeItem:
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def __init__(self, cmin, cmax=None):
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try:
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self.cmin = cmin
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if cmax is not None:
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self.cmax = cmax
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else:
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self.cmax = cmin
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except TypeError:
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raise TypeError("RegexRangeItem: two characters expected (%s, %s) found" % (
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type(cmin), type(cmax)))
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if self.cmax < self.cmin:
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raise TypeError("RegexRangeItem: minimum (%u) is bigger than maximum (%u)" %
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(self.cmin, self.cmax))
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def __len__(self):
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return (self.cmax - self.cmin + 1)
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def __contains__(self, value):
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assert issubclass(value.__class__, RegexRangeItem)
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return (self.cmin <= value.cmin) and (value.cmax <= self.cmax)
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def __str__(self, **kw):
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cmin = chr(self.cmin)
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if self.cmin != self.cmax:
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cmax = chr(self.cmax)
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if (self.cmin + 1) == self.cmax:
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return "%s%s" % (cmin, cmax)
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else:
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return "%s-%s" % (cmin, cmax)
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else:
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return cmin
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def __repr__(self):
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return "<RegexRangeItem %u-%u>" % (self.cmin, self.cmax)
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class RegexRangeCharacter(RegexRangeItem):
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def __init__(self, char):
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RegexRangeItem.__init__(self, ord(char), ord(char))
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class RegexRange(Regex):
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def __init__(self, ranges, exclude=False, optimize=True):
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if optimize:
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self.ranges = []
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for item in ranges:
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RegexRange.rangeAdd(self.ranges, item)
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self.ranges.sort(key=lambda item: item.cmin)
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else:
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self.ranges = tuple(ranges)
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self.exclude = exclude
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@staticmethod
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def rangeAdd(ranges, itemb):
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"""
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Add a value in a RegexRangeItem() list:
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remove duplicates and merge ranges when it's possible.
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"""
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new = None
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for index, itema in enumerate(ranges):
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if itema in itemb:
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# [b] + [a-c] => [a-c]
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new = itemb
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break
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elif itemb in itema:
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# [a-c] + [b] => [a-c]
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return
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elif (itemb.cmax + 1) == itema.cmin:
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# [d-f] + [a-c] => [a-f]
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new = RegexRangeItem(itemb.cmin, itema.cmax)
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break
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elif (itema.cmax + 1) == itemb.cmin:
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# [a-c] + [d-f] => [a-f]
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new = RegexRangeItem(itema.cmin, itemb.cmax)
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break
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if new:
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del ranges[index]
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RegexRange.rangeAdd(ranges, new)
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return
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else:
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ranges.append(itemb)
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def minLength(self):
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return 1
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def _match(self, other):
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"""
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>>> createRange("a") | createRange("b")
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<RegexRange '[ab]'>
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>>> createRange("a", "b", exclude=True) | createRange("a", "c", exclude=True)
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<RegexRange '[^a-c]'>
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"""
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if not self.exclude and other.__class__ == RegexString and len(other.text) == 1:
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branges = (RegexRangeCharacter(other.text),)
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elif other.__class__ == RegexRange and self.exclude == other.exclude:
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branges = other.ranges
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else:
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return None
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for itemb in branges:
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if not any(itemb in itema for itema in self.ranges):
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return False
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return True
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def _or_(self, other, reverse):
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"""
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>>> createRange("a") | createRange("b")
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<RegexRange '[ab]'>
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>>> createRange("a", "b", exclude=True) | createRange("a", "c", exclude=True)
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<RegexRange '[^a-c]'>
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"""
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if not self.exclude and other.__class__ == RegexString and len(other.text) == 1:
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branges = (RegexRangeCharacter(other.text),)
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elif other.__class__ == RegexRange and self.exclude == other.exclude:
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branges = other.ranges
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else:
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return None
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ranges = list(self.ranges)
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for itemb in branges:
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RegexRange.rangeAdd(ranges, itemb)
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return RegexRange(ranges, self.exclude, optimize=False)
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def _str(self, **kw):
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content = [str(item) for item in self.ranges]
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if "-" in content:
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content.remove("-")
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suffix = "-"
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else:
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suffix = ""
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if "]" in content:
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content.remove("]")
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prefix = "]"
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else:
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prefix = ""
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text = prefix + (''.join(content)) + suffix
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if self.exclude:
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return "[^%s]" % text
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else:
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return "[%s]" % text
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def _eq(self, other):
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if self.exclude != other.exclude:
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return False
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return self.ranges == other.ranges
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class RegexAnd(Regex):
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def __init__(self, items):
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|
self.content = list(items)
|
|
assert 2 <= len(self.content)
|
|
|
|
def _minmaxLength(self, lengths):
|
|
total = 0
|
|
for length in lengths:
|
|
if length is None:
|
|
return None
|
|
total += length
|
|
return total
|
|
|
|
def minLength(self):
|
|
"""
|
|
>>> regex=((RegexString('a') | RegexString('bcd')) + RegexString('z'))
|
|
>>> regex.minLength()
|
|
2
|
|
"""
|
|
return self._minmaxLength(regex.minLength() for regex in self.content)
|
|
|
|
def maxLength(self):
|
|
"""
|
|
>>> regex=RegexOr((RegexString('a'), RegexString('bcd')))
|
|
>>> RegexAnd((regex, RegexString('z'))).maxLength()
|
|
4
|
|
"""
|
|
return self._minmaxLength(regex.maxLength() for regex in self.content)
|
|
|
|
def _or_(self, other, reverse):
|
|
if other.__class__ == RegexString:
|
|
contentb = [other]
|
|
elif other.__class__ == RegexAnd:
|
|
contentb = other.content
|
|
else:
|
|
return None
|
|
|
|
contenta = self.content
|
|
if reverse:
|
|
contenta, contentb = contentb, contenta
|
|
|
|
# Find common prefix
|
|
# eg. (ab|ac) => a(b|c) and (abc|abd) => ab(c|d)
|
|
index = 0
|
|
last_index = min(len(contenta), len(contentb))
|
|
while index < last_index and contenta[index] == contentb[index]:
|
|
index += 1
|
|
if index:
|
|
regex = RegexAnd.join(
|
|
contenta[index:]) | RegexAnd.join(contentb[index:])
|
|
return RegexAnd.join(contenta[:index]) + regex
|
|
|
|
# Find common prefix: (abc|aef) => a(bc|ef)
|
|
common = contenta[0].findPrefix(contentb[0])
|
|
if common:
|
|
regexa = common[1] & RegexAnd.join(contenta[1:])
|
|
regexb = common[2] & RegexAnd.join(contentb[1:])
|
|
regex = (regexa | regexb)
|
|
if matchSingleValue(common[0]) or matchSingleValue(regex):
|
|
return common[0] + regex
|
|
return None
|
|
|
|
def _and(self, regex):
|
|
"""
|
|
>>> RegexDot() + RegexDot()
|
|
<RegexAnd '..'>
|
|
>>> RegexDot() + RegexString('a') + RegexString('b')
|
|
<RegexAnd '.ab'>
|
|
"""
|
|
|
|
if regex.__class__ == RegexAnd:
|
|
total = self
|
|
for item in regex.content:
|
|
total = total + item
|
|
return total
|
|
new_item = self.content[-1]._and(regex)
|
|
if new_item:
|
|
self.content[-1] = new_item
|
|
return self
|
|
return RegexAnd(self.content + [regex])
|
|
|
|
def _str(self, **kw):
|
|
return ''.join(item.__str__(**kw) for item in self.content)
|
|
|
|
@classmethod
|
|
def join(cls, regex):
|
|
"""
|
|
>>> RegexAnd.join( (RegexString('Big '), RegexString('fish')) )
|
|
<RegexString 'Big fish'>
|
|
"""
|
|
return _join(operator.__and__, regex)
|
|
|
|
def __iter__(self):
|
|
return iter(self.content)
|
|
|
|
def _eq(self, other):
|
|
if len(self.content) != len(other.content):
|
|
return False
|
|
return all(item[0] == item[1] for item in zip(self.content, other.content))
|
|
|
|
|
|
class RegexOr(Regex):
|
|
|
|
def __init__(self, items, optimize=True):
|
|
if optimize:
|
|
self.content = []
|
|
for item in items:
|
|
if item in self:
|
|
continue
|
|
self.content.append(item)
|
|
else:
|
|
self.content = tuple(items)
|
|
assert 2 <= len(self.content)
|
|
|
|
def __contains__(self, regex):
|
|
for item in self.content:
|
|
if item == regex:
|
|
return True
|
|
return False
|
|
|
|
def _or_(self, other, reverse):
|
|
"""
|
|
>>> (RegexString("abc") | RegexString("123")) | (RegexString("plop") | RegexString("456"))
|
|
<RegexOr '(abc|123|plop|456)'>
|
|
>>> RegexString("mouse") | createRange('a') | RegexString("2006") | createRange('z')
|
|
<RegexOr '(mouse|[az]|2006)'>
|
|
"""
|
|
if other.__class__ == RegexOr:
|
|
total = self
|
|
for item in other.content:
|
|
total = total | item
|
|
return total
|
|
for index, item in enumerate(self.content):
|
|
new_item = item.or_(other)
|
|
if new_item:
|
|
content = list(self.content)
|
|
content = content[:index] + [new_item] + content[index + 1:]
|
|
return RegexOr(content, optimize=False)
|
|
if not reverse:
|
|
content = list(self.content) + [other]
|
|
else:
|
|
content = [other] + list(self.content)
|
|
return RegexOr(content, optimize=False)
|
|
|
|
def _str(self, **kw):
|
|
content = '|'.join(item.__str__(**kw) for item in self.content)
|
|
if kw.get('python', False):
|
|
return "(?:%s)" % content
|
|
else:
|
|
return "(%s)" % content
|
|
|
|
def _minmaxLength(self, lengths, func):
|
|
value = None
|
|
for length in lengths:
|
|
if length is None:
|
|
return None
|
|
if value is None:
|
|
value = length
|
|
else:
|
|
value = func(value, length)
|
|
return value
|
|
|
|
def minLength(self):
|
|
lengths = (regex.minLength() for regex in self.content)
|
|
return self._minmaxLength(lengths, min)
|
|
|
|
def maxLength(self):
|
|
lengths = (regex.maxLength() for regex in self.content)
|
|
return self._minmaxLength(lengths, max)
|
|
|
|
@classmethod
|
|
def join(cls, regex):
|
|
"""
|
|
>>> RegexOr.join( (RegexString('a'), RegexString('b'), RegexString('c')) )
|
|
<RegexRange '[a-c]'>
|
|
"""
|
|
return _join(operator.__or__, regex)
|
|
|
|
def __iter__(self):
|
|
return iter(self.content)
|
|
|
|
def _eq(self, other):
|
|
if len(self.content) != len(other.content):
|
|
return False
|
|
return all(item[0] == item[1] for item in zip(self.content, other.content))
|
|
|
|
|
|
def optimizeRepeatOr(rmin, rmax, regex):
|
|
# Fix rmin/rmax
|
|
for item in regex:
|
|
cls = item.__class__
|
|
if cls == RegexEmpty:
|
|
# (a|b|){x,y} => (a|b){0,y}
|
|
rmin = 0
|
|
elif cls == RegexRepeat:
|
|
# (a{0,n}|b){x,y} => (a{1,n}|b){0,y}
|
|
if item.min == 0 and rmin == 1:
|
|
rmin = 0
|
|
|
|
# Create new (optimized) RegexOr expression
|
|
content = []
|
|
for item in regex:
|
|
cls = item.__class__
|
|
if cls == RegexEmpty:
|
|
# (a|){x,y} => a{0,y}
|
|
continue
|
|
if cls == RegexRepeat:
|
|
if item.min == 0:
|
|
if rmin in (0, 1):
|
|
if rmax is item.max is None:
|
|
# (a*|b){x,} => (a|b){x,}
|
|
item = item.regex
|
|
else:
|
|
# (a{0,p}|b){x,} => (a{1,p}|b){x,}
|
|
item = RegexRepeat(
|
|
item.regex, 1, item.max, optimize=False)
|
|
elif item.min == 1:
|
|
if rmax is item.max is None:
|
|
# (a+|b){x,} => (a|b){x,}
|
|
item = item.regex
|
|
else:
|
|
if rmax is item.max is None:
|
|
# (a{n,}|b){x,} => (a{n}|b){x,}
|
|
item = RegexRepeat(item.regex, item.min,
|
|
item.min, optimize=False)
|
|
content.append(item)
|
|
regex = RegexOr.join(content)
|
|
return (rmin, rmax, regex)
|
|
|
|
|
|
class RegexRepeat(Regex):
|
|
"""
|
|
>>> a=createString('a')
|
|
>>> RegexRepeat(a, 0, None)
|
|
<RegexRepeat 'a*'>
|
|
>>> RegexRepeat(a, 1, None)
|
|
<RegexRepeat 'a+'>
|
|
>>> RegexRepeat(a, 0, 1)
|
|
<RegexRepeat 'a?'>
|
|
>>> RegexRepeat(a, 0, 1)
|
|
<RegexRepeat 'a?'>
|
|
>>> RegexRepeat(a, 1, 3)
|
|
<RegexRepeat 'a{1,3}'>
|
|
"""
|
|
|
|
def __init__(self, regex, rmin, rmax, optimize=True):
|
|
# Optimisations
|
|
if optimize:
|
|
cls = regex.__class__
|
|
if cls == RegexRepeat:
|
|
# (a{n,p}){x,y) => a{n*x,p*y}
|
|
if not (rmin == 0 and rmax == 1):
|
|
rmin *= regex.min
|
|
if regex.max and rmax:
|
|
rmax *= regex.max
|
|
else:
|
|
rmax = None
|
|
regex = regex.regex
|
|
elif cls == RegexOr:
|
|
rmin, rmax, regex = optimizeRepeatOr(rmin, rmax, regex)
|
|
|
|
# Store attributes
|
|
self.regex = regex
|
|
self.min = rmin
|
|
self.max = rmax
|
|
|
|
# Post-conditions
|
|
assert 0 <= rmin
|
|
if self.max is not None:
|
|
if self.max < self.min:
|
|
raise ValueError(
|
|
"RegexRepeat: minimum (%s) is bigger than maximum (%s)!" % (self.min, self.max))
|
|
if (self.max == 0) \
|
|
or (self.min == self.max == 1):
|
|
raise ValueError(
|
|
"RegexRepeat: invalid values (min=%s, max=%s)!" % (self.min, self.max))
|
|
|
|
def minLength(self):
|
|
"""
|
|
>>> r=RegexRepeat(createString("abc") | createString("01"), 1, 3)
|
|
>>> r.minLength(), r.maxLength()
|
|
(2, 9)
|
|
>>> r=RegexRepeat(createString("abc") | createString("01"), 4, None)
|
|
>>> r.minLength(), r.maxLength()
|
|
(8, None)
|
|
"""
|
|
if self.min is not None:
|
|
return self.regex.minLength() * self.min
|
|
else:
|
|
return None
|
|
|
|
def maxLength(self):
|
|
if self.max is not None:
|
|
return self.regex.maxLength() * self.max
|
|
else:
|
|
return None
|
|
|
|
def _str(self, **kw):
|
|
text = str(self.regex)
|
|
if self.regex.__class__ == RegexAnd \
|
|
or (self.regex.__class__ == RegexString and 1 < len(self.regex.text)):
|
|
text = "(%s)" % text
|
|
if self.min == 0 and self.max == 1:
|
|
return "%s?" % text
|
|
if self.min == self.max:
|
|
return "%s{%u}" % (text, self.min)
|
|
if self.max is None:
|
|
if self.min == 0:
|
|
return "%s*" % text
|
|
elif self.min == 1:
|
|
return "%s+" % text
|
|
else:
|
|
return "%s{%u,}" % (text, self.min)
|
|
return "%s{%u,%u}" % (text, self.min, self.max)
|
|
|
|
def _eq(self, other):
|
|
if self.min != other.min:
|
|
return False
|
|
if self.max != other.max:
|
|
return False
|
|
return (self.regex == other.regex)
|
|
|
|
|
|
if __name__ == "__main__":
|
|
import doctest
|
|
doctest.testmod()
|