Lib/sre.py - platform/external/python/cpython3 - Gitiles

 #
 # Secret Labs' Regular Expression Engine
 #
 # re-compatible interface for the sre matching engine
 #
 # Copyright (c) 1998-2001 by Secret Labs AB.  All rights reserved.
 #
 # This version of the SRE library can be redistributed under CNRI's
 # Python 1.6 license.  For any other use, please contact Secret Labs
 # AB (info@pythonware.com).
 #
 # Portions of this engine have been developed in cooperation with
 # CNRI.  Hewlett-Packard provided funding for 1.6 integration and
 # other compatibility work.
 #

 import sre_compile
 import sre_parse

 import string

 # flags
 I = IGNORECASE = sre_compile.SRE_FLAG_IGNORECASE # ignore case
 L = LOCALE = sre_compile.SRE_FLAG_LOCALE # assume current 8-bit locale
 U = UNICODE = sre_compile.SRE_FLAG_UNICODE # assume unicode locale
 M = MULTILINE = sre_compile.SRE_FLAG_MULTILINE # make anchors look for newline
 S = DOTALL = sre_compile.SRE_FLAG_DOTALL # make dot match newline
 X = VERBOSE = sre_compile.SRE_FLAG_VERBOSE # ignore whitespace and comments

 # sre extensions (experimental, don't rely on these)
 T = TEMPLATE = sre_compile.SRE_FLAG_TEMPLATE # disable backtracking
 DEBUG = sre_compile.SRE_FLAG_DEBUG # dump pattern after compilation

 # sre exception
 error = sre_compile.error

 # --------------------------------------------------------------------
 # public interface

 def match(pattern, string, flags=0):
     """Try to apply the pattern at the start of the string, returning
     a match object, or None if no match was found."""
     return _compile(pattern, flags).match(string)

 def search(pattern, string, flags=0):
     """Scan through string looking for a match to the pattern, returning
     a match object, or None if no match was found."""
     return _compile(pattern, flags).search(string)

 def sub(pattern, repl, string, count=0):
     """Return the string obtained by replacing the leftmost
     non-overlapping occurrences of the pattern in string by the
     replacement repl"""
     return _compile(pattern, 0).sub(repl, string, count)

 def subn(pattern, repl, string, count=0):
     """Return a 2-tuple containing (new_string, number).
     new_string is the string obtained by replacing the leftmost
     non-overlapping occurrences of the pattern in the source
     string by the replacement repl.  number is the number of
     substitutions that were made."""
     return _compile(pattern, 0).subn(repl, string, count)

 def split(pattern, string, maxsplit=0):
     """Split the source string by the occurrences of the pattern,
     returning a list containing the resulting substrings."""
     return _compile(pattern, 0).split(string, maxsplit)

 def findall(pattern, string, maxsplit=0):
     """Return a list of all non-overlapping matches in the string.

     If one or more groups are present in the pattern, return a
     list of groups; this will be a list of tuples if the pattern
     has more than one group.

     Empty matches are included in the result."""
     return _compile(pattern, 0).findall(string, maxsplit)

 def compile(pattern, flags=0):
     "Compile a regular expression pattern, returning a pattern object."
     return _compile(pattern, flags)

 def purge():
     "Clear the regular expression cache"
     _cache.clear()

 def template(pattern, flags=0):
     "Compile a template pattern, returning a pattern object"

     return _compile(pattern, flags|T)

 def escape(pattern):
     "Escape all non-alphanumeric characters in pattern."
     s = list(pattern)
     for i in range(len(pattern)):
         c = pattern[i]
         if not ("a" <= c <= "z" or "A" <= c <= "Z" or "0" <= c <= "9"):
             if c == "\000":
                 s[i] = "\\000"
             else:
                 s[i] = "\\" + c
     return _join(s, pattern)

 # --------------------------------------------------------------------
 # internals

 _cache = {}
 _MAXCACHE = 100

 def _join(seq, sep):
     # internal: join into string having the same type as sep
     return string.join(seq, sep[:0])

 def _compile(*key):
     # internal: compile pattern
     p = _cache.get(key)
     if p is not None:
         return p
     pattern, flags = key
     if type(pattern) not in sre_compile.STRING_TYPES:
         return pattern
     try:
         p = sre_compile.compile(pattern, flags)
     except error, v:
         raise error, v # invalid expression
     if len(_cache) >= _MAXCACHE:
         _cache.clear()
     _cache[key] = p
     return p

 def _expand(pattern, match, template):
     # internal: match.expand implementation hook
     template = sre_parse.parse_template(template, pattern)
     return sre_parse.expand_template(template, match)

 def _sub(pattern, template, string, count=0):
     # internal: pattern.sub implementation hook
     return _subn(pattern, template, string, count)[0]

 def _subn(pattern, template, string, count=0):
     # internal: pattern.subn implementation hook
     if callable(template):
         filter = template
     else:
         template = sre_parse.parse_template(template, pattern)
         def filter(match, template=template):
             return sre_parse.expand_template(template, match)
     n = i = 0
     s = []
     append = s.append
     c = pattern.scanner(string)
     while not count or n < count:
         m = c.search()
         if not m:
             break
         b, e = m.span()
         if i < b:
             append(string[i:b])
         append(filter(m))
         i = e
         n = n + 1
     append(string[i:])
     return _join(s, string[:0]), n

 def _split(pattern, string, maxsplit=0):
     # internal: pattern.split implementation hook
     n = i = 0
     s = []
     append = s.append
     extend = s.extend
     c = pattern.scanner(string)
     g = pattern.groups
     while not maxsplit or n < maxsplit:
         m = c.search()
         if not m:
             break
         b, e = m.span()
         if b == e:
             if i >= len(string):
                 break
             continue
         append(string[i:b])
         if g and b != e:
             extend(list(m.groups()))
         i = e
         n = n + 1
     append(string[i:])
     return s

 # register myself for pickling

 import copy_reg

 def _pickle(p):
     return _compile, (p.pattern, p.flags)

 copy_reg.pickle(type(_compile("", 0)), _pickle, _compile)

 # --------------------------------------------------------------------
 # experimental stuff (see python-dev discussions for details)

 class Scanner:
     def __init__(self, lexicon):
         from sre_constants import BRANCH, SUBPATTERN
         self.lexicon = lexicon
         # combine phrases into a compound pattern
         p = []
         s = sre_parse.Pattern()
         for phrase, action in lexicon:
             p.append(sre_parse.SubPattern(s, [
                 (SUBPATTERN, (len(p), sre_parse.parse(phrase))),
                 ]))
         p = sre_parse.SubPattern(s, [(BRANCH, (None, p))])
         s.groups = len(p)
         self.scanner = sre_compile.compile(p)
     def scan(self, string):
         result = []
         append = result.append
         match = self.scanner.match
         i = 0
         while 1:
             m = match(string, i)
             if not m:
                 break
             j = m.end()
             if i == j:
                 break
             action = self.lexicon[m.lastindex][1]
             if callable(action):
                 self.match = m
                 action = action(self, m.group())
             if action is not None:
                 append(action)
             i = j
         return result, string[i:]
	#
	# Secret Labs' Regular Expression Engine
	#
	# re-compatible interface for the sre matching engine
	#
	# Copyright (c) 1998-2001 by Secret Labs AB. All rights reserved.
	#
	# This version of the SRE library can be redistributed under CNRI's
	# Python 1.6 license. For any other use, please contact Secret Labs
	# AB (info@pythonware.com).
	#
	# Portions of this engine have been developed in cooperation with
	# CNRI. Hewlett-Packard provided funding for 1.6 integration and
	# other compatibility work.
	#

	import sre_compile
	import sre_parse

	import string

	# flags
	I = IGNORECASE = sre_compile.SRE_FLAG_IGNORECASE # ignore case
	L = LOCALE = sre_compile.SRE_FLAG_LOCALE # assume current 8-bit locale
	U = UNICODE = sre_compile.SRE_FLAG_UNICODE # assume unicode locale
	M = MULTILINE = sre_compile.SRE_FLAG_MULTILINE # make anchors look for newline
	S = DOTALL = sre_compile.SRE_FLAG_DOTALL # make dot match newline
	X = VERBOSE = sre_compile.SRE_FLAG_VERBOSE # ignore whitespace and comments

	# sre extensions (experimental, don't rely on these)
	T = TEMPLATE = sre_compile.SRE_FLAG_TEMPLATE # disable backtracking
	DEBUG = sre_compile.SRE_FLAG_DEBUG # dump pattern after compilation

	# sre exception
	error = sre_compile.error

	# --------------------------------------------------------------------
	# public interface

	def match(pattern, string, flags=0):
	"""Try to apply the pattern at the start of the string, returning
	a match object, or None if no match was found."""
	return _compile(pattern, flags).match(string)

	def search(pattern, string, flags=0):
	"""Scan through string looking for a match to the pattern, returning
	a match object, or None if no match was found."""
	return _compile(pattern, flags).search(string)

	def sub(pattern, repl, string, count=0):
	"""Return the string obtained by replacing the leftmost
	non-overlapping occurrences of the pattern in string by the
	replacement repl"""
	return _compile(pattern, 0).sub(repl, string, count)

	def subn(pattern, repl, string, count=0):
	"""Return a 2-tuple containing (new_string, number).
	new_string is the string obtained by replacing the leftmost
	non-overlapping occurrences of the pattern in the source
	string by the replacement repl. number is the number of
	substitutions that were made."""
	return _compile(pattern, 0).subn(repl, string, count)

	def split(pattern, string, maxsplit=0):
	"""Split the source string by the occurrences of the pattern,
	returning a list containing the resulting substrings."""
	return _compile(pattern, 0).split(string, maxsplit)

	def findall(pattern, string, maxsplit=0):
	"""Return a list of all non-overlapping matches in the string.

	If one or more groups are present in the pattern, return a
	list of groups; this will be a list of tuples if the pattern
	has more than one group.

	Empty matches are included in the result."""
	return _compile(pattern, 0).findall(string, maxsplit)

	def compile(pattern, flags=0):
	"Compile a regular expression pattern, returning a pattern object."
	return _compile(pattern, flags)

	def purge():
	"Clear the regular expression cache"
	_cache.clear()

	def template(pattern, flags=0):
	"Compile a template pattern, returning a pattern object"

	return _compile(pattern, flags\|T)

	def escape(pattern):
	"Escape all non-alphanumeric characters in pattern."
	s = list(pattern)
	for i in range(len(pattern)):
	c = pattern[i]
	if not ("a" <= c <= "z" or "A" <= c <= "Z" or "0" <= c <= "9"):
	if c == "\000":
	s[i] = "\\000"
	else:
	s[i] = "\\" + c
	return _join(s, pattern)

	# --------------------------------------------------------------------
	# internals

	_cache = {}
	_MAXCACHE = 100

	def _join(seq, sep):
	# internal: join into string having the same type as sep
	return string.join(seq, sep[:0])

	def _compile(*key):
	# internal: compile pattern
	p = _cache.get(key)
	if p is not None:
	return p
	pattern, flags = key
	if type(pattern) not in sre_compile.STRING_TYPES:
	return pattern
	try:
	p = sre_compile.compile(pattern, flags)
	except error, v:
	raise error, v # invalid expression
	if len(_cache) >= _MAXCACHE:
	_cache.clear()
	_cache[key] = p
	return p

	def _expand(pattern, match, template):
	# internal: match.expand implementation hook
	template = sre_parse.parse_template(template, pattern)
	return sre_parse.expand_template(template, match)

	def _sub(pattern, template, string, count=0):
	# internal: pattern.sub implementation hook
	return _subn(pattern, template, string, count)[0]

	def _subn(pattern, template, string, count=0):
	# internal: pattern.subn implementation hook
	if callable(template):
	filter = template
	else:
	template = sre_parse.parse_template(template, pattern)
	def filter(match, template=template):
	return sre_parse.expand_template(template, match)
	n = i = 0
	s = []
	append = s.append
	c = pattern.scanner(string)
	while not count or n < count:
	m = c.search()
	if not m:
	break
	b, e = m.span()
	if i < b:
	append(string[i:b])
	append(filter(m))
	i = e
	n = n + 1
	append(string[i:])
	return _join(s, string[:0]), n

	def _split(pattern, string, maxsplit=0):
	# internal: pattern.split implementation hook
	n = i = 0
	s = []
	append = s.append
	extend = s.extend
	c = pattern.scanner(string)
	g = pattern.groups
	while not maxsplit or n < maxsplit:
	m = c.search()
	if not m:
	break
	b, e = m.span()
	if b == e:
	if i >= len(string):
	break
	continue
	append(string[i:b])
	if g and b != e:
	extend(list(m.groups()))
	i = e
	n = n + 1
	append(string[i:])
	return s

	# register myself for pickling

	import copy_reg

	def _pickle(p):
	return _compile, (p.pattern, p.flags)

	copy_reg.pickle(type(_compile("", 0)), _pickle, _compile)

	# --------------------------------------------------------------------
	# experimental stuff (see python-dev discussions for details)

	class Scanner:
	def __init__(self, lexicon):
	from sre_constants import BRANCH, SUBPATTERN
	self.lexicon = lexicon
	# combine phrases into a compound pattern
	p = []
	s = sre_parse.Pattern()
	for phrase, action in lexicon:
	p.append(sre_parse.SubPattern(s, [
	(SUBPATTERN, (len(p), sre_parse.parse(phrase))),
	]))
	p = sre_parse.SubPattern(s, [(BRANCH, (None, p))])
	s.groups = len(p)
	self.scanner = sre_compile.compile(p)
	def scan(self, string):
	result = []
	append = result.append
	match = self.scanner.match
	i = 0
	while 1:
	m = match(string, i)
	if not m:
	break
	j = m.end()
	if i == j:
	break
	action = self.lexicon[m.lastindex][1]
	if callable(action):
	self.match = m
	action = action(self, m.group())
	if action is not None:
	append(action)
	i = j
	return result, string[i:]