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

 #
 # Secret Labs' Regular Expression Engine
 # $Id$
 #
 # convert re-style regular expression to SRE template.  the current
 # implementation is somewhat incomplete, and not very fast.  should
 # definitely be rewritten before Python 1.6 goes beta.
 #
 # Copyright (c) 1998-2000 by Secret Labs AB.  All rights reserved.
 #
 # This code can only be used for 1.6 alpha testing.  All other use
 # require explicit permission from Secret Labs AB.
 #
 # Portions of this engine have been developed in cooperation with
 # CNRI.  Hewlett-Packard provided funding for 1.6 integration and
 # other compatibility work.
 #

 # FIXME: comments marked with the FIXME tag are open issues.  all such
 # issues should be closed before the final beta.

 import string, sys

 from sre_constants import *

 SPECIAL_CHARS = ".\\[{()*+?^$|"
 REPEAT_CHARS  = "*+?{"

 # FIXME: string in tuple tests may explode with if char is unicode :-(
 DIGITS = tuple(string.digits)

 OCTDIGITS = tuple("01234567")
 HEXDIGITS = tuple("0123456789abcdefABCDEF")

 ESCAPES = {
     "\\a": (LITERAL, chr(7)),
     "\\b": (LITERAL, chr(8)),
     "\\f": (LITERAL, chr(12)),
     "\\n": (LITERAL, chr(10)),
     "\\r": (LITERAL, chr(13)),
     "\\t": (LITERAL, chr(9)),
     "\\v": (LITERAL, chr(11))
 }

 CATEGORIES = {
     "\\A": (AT, AT_BEGINNING), # start of string
     "\\b": (AT, AT_BOUNDARY),
     "\\B": (AT, AT_NON_BOUNDARY),
     "\\d": (IN, [(CATEGORY, CATEGORY_DIGIT)]),
     "\\D": (IN, [(CATEGORY, CATEGORY_NOT_DIGIT)]),
     "\\s": (IN, [(CATEGORY, CATEGORY_SPACE)]),
     "\\S": (IN, [(CATEGORY, CATEGORY_NOT_SPACE)]),
     "\\w": (IN, [(CATEGORY, CATEGORY_WORD)]),
     "\\W": (IN, [(CATEGORY, CATEGORY_NOT_WORD)]),
     "\\Z": (AT, AT_END), # end of string
 }

 class Pattern:
     # FIXME: <fl> rename class, and store flags in here too!
     def __init__(self):
 	self.flags = []
 	self.groups = 1
 	self.groupdict = {}
     def getgroup(self, name=None):
 	gid = self.groups
 	self.groups = gid + 1
 	if name:
 	    self.groupdict[name] = gid
 	return gid
     def setflag(self, flag):
 	if flag in self.flags:
 	    self.flags.append(flag)

 class SubPattern:
     # a subpattern, in intermediate form
     def __init__(self, pattern, data=None):
 	self.pattern = pattern
 	if not data:
 	    data = []
 	self.data = data
 	self.flags = []
 	self.width = None
     def __repr__(self):
 	return repr(self.data)
     def __len__(self):
 	return len(self.data)
     def __delitem__(self, index):
 	del self.data[index]
     def __getitem__(self, index):
 	return self.data[index]
     def __setitem__(self, index, code):
 	self.data[index] = code
     def __getslice__(self, start, stop):
 	return SubPattern(self.pattern, self.data[start:stop])
     def insert(self, index, code):
 	self.data.insert(index, code)
     def append(self, code):
 	self.data.append(code)
     def getwidth(self):
 	# determine the width (min, max) for this subpattern
 	if self.width:
 	    return self.width
 	lo = hi = 0L
 	for op, av in self.data:
 	    if op is BRANCH:
 		l = sys.maxint
 		h = 0
 		for av in av[1]:
 		    i, j = av.getwidth()
 		    l = min(l, i)
 		    h = min(h, j)
 		lo = lo + i
 		hi = hi + j
 	    elif op is CALL:
 		i, j = av.getwidth()
 		lo = lo + i
 		hi = hi + j
 	    elif op is SUBPATTERN:
 		i, j = av[1].getwidth()
 		lo = lo + i
 		hi = hi + j
 	    elif op in (MIN_REPEAT, MAX_REPEAT):
 		i, j = av[2].getwidth()
 		lo = lo + i * av[0]
 		hi = hi + j * av[1]
 	    elif op in (ANY, RANGE, IN, LITERAL, NOT_LITERAL, CATEGORY):
 		lo = lo + 1
 		hi = hi + 1
 	    elif op == SUCCESS:
 		break
 	self.width = int(min(lo, sys.maxint)), int(min(hi, sys.maxint))
 	return self.width
     def set(self, flag):
 	if not flag in self.flags:
 	    self.flags.append(flag)
     def reset(self, flag):
 	if flag in self.flags:
 	    self.flags.remove(flag)

 class Tokenizer:
     def __init__(self, string):
 	self.string = list(string)
 	self.next = self.__next()
     def __next(self):
 	if not self.string:
 	    return None
 	char = self.string[0]
 	if char[0] == "\\":
 	    try:
 		c = self.string[1]
 	    except IndexError:
 		raise SyntaxError, "bogus escape"
 	    char = char + c
 	    try:
 		if c == "x":
 		    # hexadecimal constant
 		    for i in xrange(2, sys.maxint):
 			c = self.string[i]
 			if str(c) not in HEXDIGITS:
 			    break
 			char = char + c
 		elif str(c) in DIGITS:
 		    # decimal (or octal) number
 		    for i in xrange(2, sys.maxint):
 			c = self.string[i]
 			# FIXME: if larger than current number of
 			# groups, interpret as an octal number
 			if str(c) not in DIGITS:
 			    break
 			char = char + c
 	    except IndexError:
 		pass # use what we've got this far
 	del self.string[0:len(char)]
 	return char
     def match(self, char):
 	if char == self.next:
 	    self.next = self.__next()
 	    return 1
 	return 0
     def match_set(self, set):
 	if self.next and self.next in set:
 	    self.next = self.__next()
 	    return 1
 	return 0
     def get(self):
 	this = self.next
 	self.next = self.__next()
 	return this

 def _fixescape(escape, character_class=0):
     # convert escape to (type, value)
     if character_class:
 	# inside a character class, we'll look in the character
 	# escapes dictionary first
 	code = ESCAPES.get(escape)
 	if code:
 	    return code
 	code = CATEGORIES.get(escape)
     else:
 	code = CATEGORIES.get(escape)
 	if code:
 	    return code
 	code = ESCAPES.get(escape)
     if code:
 	return code
     if not character_class:
 	try:
 	    group = int(escape[1:])
 	    # FIXME: only valid if group <= current number of groups
 	    return GROUP, group
 	except ValueError:
 	    pass
     try:
 	if escape[1:2] == "x":
 	    escape = escape[2:]
 	    return LITERAL, chr(int(escape[-2:], 16) & 0xff)
 	elif str(escape[1:2]) in DIGITS:
 	    return LITERAL, chr(int(escape[1:], 8) & 0xff)
 	elif len(escape) == 2:
 	    return LITERAL, escape[1]
     except ValueError:
 	pass
     raise SyntaxError, "bogus escape: %s" % repr(escape)

 def _branch(subpattern, items):

     # form a branch operator from a set of items (FIXME: move this
     # optimization to the compiler module!)

     # check if all items share a common prefix
     while 1:
 	prefix = None
 	for item in items:
 	    if not item:
 		break
 	    if prefix is None:
 		prefix = item[0]
 	    elif item[0] != prefix:
 		break
 	else:
 	    # all subitems start with a common "prefix".
 	    # move it out of the branch
 	    for item in items:
 		del item[0]
 	    subpattern.append(prefix)
 	    continue # check next one
 	break

     # check if the branch can be replaced by a character set
     for item in items:
 	if len(item) != 1 or item[0][0] != LITERAL:
 	    break
     else:
 	# we can store this as a character set instead of a
 	# branch (FIXME: use a range if possible)
 	set = []
 	for item in items:
 	    set.append(item[0])
 	subpattern.append((IN, set))
 	return

     subpattern.append((BRANCH, (None, items)))

 def _parse(source, pattern, flags=()):

     # parse regular expression pattern into an operator list.

     subpattern = SubPattern(pattern)

     this = None

     while 1:

 	if str(source.next) in ("|", ")"):
 	    break # end of subpattern
 	this = source.get()
 	if this is None:
 	    break # end of pattern

 	if this and this[0] not in SPECIAL_CHARS:
 	    subpattern.append((LITERAL, this))

 	elif this == "[":
 	    # character set
 	    set = []
 ## 	    if source.match(":"):
 ## 		pass # handle character classes
 	    if source.match("^"):
 		set.append((NEGATE, None))
 	    # check remaining characters
 	    start = set[:]
 	    while 1:
 		this = source.get()
 		if this == "]" and set != start:
 		    break
 		elif this and this[0] == "\\":
 		    code1 = _fixescape(this, 1)
 		elif this:
 		    code1 = LITERAL, this
 		else:
 		    raise SyntaxError, "unexpected end of regular expression"
 		if source.match("-"):
 		    # potential range
 		    this = source.get()
 		    if this == "]":
 			set.append(code1)
 			set.append((LITERAL, "-"))
 			break
 		    else:
 			if this[0] == "\\":
 			    code2 = _fixescape(this, 1)
 			else:
 			    code2 = LITERAL, this
 			if code1[0] != LITERAL or code2[0] != LITERAL:
 			    raise SyntaxError, "illegal range"
 			if len(code1[1]) != 1 or len(code2[1]) != 1:
 			    raise SyntaxError, "illegal range"
 			set.append((RANGE, (code1[1], code2[1])))
 		else:
 		    if code1[0] is IN:
 			code1 = code1[1][0]
 		    set.append(code1)

 	    # FIXME: <fl> move set optimization to support function
 	    if len(set)==1 and set[0][0] is LITERAL:
 		subpattern.append(set[0]) # optimization
 	    elif len(set)==2 and set[0][0] is NEGATE and set[1][0] is LITERAL:
 		subpattern.append((NOT_LITERAL, set[1][1])) # optimization
 	    else:
 		# FIXME: <fl> add charmap optimization
 		subpattern.append((IN, set))

 	elif this and this[0] in REPEAT_CHARS:
 	    # repeat previous item
 	    if this == "?":
 		min, max = 0, 1
 	    elif this == "*":
 		min, max = 0, sys.maxint
 	    elif this == "+":
 		min, max = 1, sys.maxint
 	    elif this == "{":
 		min, max = 0, sys.maxint
 		lo = hi = ""
 		while str(source.next) in DIGITS:
 		    lo = lo + source.get()
 		if source.match(","):
 		    while str(source.next) in DIGITS:
 			hi = hi + source.get()
 		else:
 		    hi = lo
 		if not source.match("}"):
 		    raise SyntaxError, "bogus range"
 		if lo:
 		    min = int(lo)
 		if hi:
 		    max = int(hi)
 		# FIXME: <fl> check that hi >= lo!
 	    else:
 		raise SyntaxError, "not supported"
 	    # figure out which item to repeat
 	    # FIXME: should back up to the right mark, right?
 	    if subpattern:
 		index = len(subpattern)-1
 		while subpattern[index][0] is MARK:
 		    index = index - 1
 		item = subpattern[index:index+1]
 	    else:
 		raise SyntaxError, "nothing to repeat"
 	    if source.match("?"):
 		subpattern[index] = (MIN_REPEAT, (min, max, item))
 	    else:
 		subpattern[index] = (MAX_REPEAT, (min, max, item))
 	elif this == ".":
 	    subpattern.append((ANY, None))
 	elif this == "(":
 	    group = 1
 	    name = None
 	    if source.match("?"):
 		group = 0
 		# options
 		if source.match("P"):
 		    # named group: skip forward to end of name
 		    if source.match("<"):
 			name = ""
 			while 1:
 			    char = source.get()
 			    if char is None or char == ">":
 				break
 			    name = name + char
 			group = 1
 		elif source.match(":"):
 		    # non-capturing group
 		    group = 2
 		elif source.match_set("iI"):
 		    pattern.setflag("i")
 		elif source.match_set("lL"):
 		    pattern.setflag("l")
 		elif source.match_set("mM"):
 		    pattern.setflag("m")
 		elif source.match_set("sS"):
 		    pattern.setflag("s")
 		elif source.match_set("xX"):
 		    pattern.setflag("x")
 	    if group:
 		# parse group contents
 		b = []
 		if group == 2:
 		    # anonymous group
 		    group = None
 		else:
 		    group = pattern.getgroup(name)
  		if group:
  		    subpattern.append((MARK, (group-1)*2))
 		while 1:
 		    p = _parse(source, pattern, flags)
 		    if source.match(")"):
 			if b:
 			    b.append(p)
 			    _branch(subpattern, b)
 			else:
 			    subpattern.append((SUBPATTERN, (group, p)))
 			break
 		    elif source.match("|"):
 			b.append(p)
 		    else:
 			raise SyntaxError, "group not properly closed"
  		if group:
  		    subpattern.append((MARK, (group-1)*2+1))
 	    else:
 		# FIXME: should this really be a while loop?
 		while 1:
 		    char = source.get()
 		    if char is None or char == ")":
 			break

 	elif this == "^":
 	    subpattern.append((AT, AT_BEGINNING))

 	elif this == "$":
 	    subpattern.append((AT, AT_END))

 	elif this and this[0] == "\\":
 	    code =_fixescape(this)
 	    subpattern.append(code)

 	else:
 	    raise SyntaxError, "parser error"

     return subpattern

 def parse(source, flags=()):
     s = Tokenizer(source)
     g = Pattern()
     b = []
     while 1:
 	p = _parse(s, g, flags)
 	tail = s.get()
 	if tail == "|":
 	    b.append(p)
 	elif tail == ")":
 	    raise SyntaxError, "unbalanced parenthesis"
 	elif tail is None:
 	    if b:
 		b.append(p)
 		p = SubPattern(g)
 		_branch(p, b)
 	    break
 	else:
 	    raise SyntaxError, "bogus characters at end of regular expression"
     return p

 if __name__ == "__main__":
     from pprint import pprint
     from testpatterns import PATTERNS
     a = b = c = 0
     for pattern, flags in PATTERNS:
 	if flags:
 	    continue
 	print "-"*68
 	try:
 	    p = parse(pattern)
 	    print repr(pattern), "->"
 	    pprint(p.data)
 	    import sre_compile
 	    try:
 		code = sre_compile.compile(p)
 		c = c + 1
 	    except:
 		pass
 	    a = a + 1
 	except SyntaxError, v:
 	    print "**", repr(pattern), v
 	b = b + 1
     print "-"*68
     print a, "of", b, "patterns successfully parsed"
     print c, "of", b, "patterns successfully compiled"
	#
	# Secret Labs' Regular Expression Engine
	# $Id$
	#
	# convert re-style regular expression to SRE template. the current
	# implementation is somewhat incomplete, and not very fast. should
	# definitely be rewritten before Python 1.6 goes beta.
	#
	# Copyright (c) 1998-2000 by Secret Labs AB. All rights reserved.
	#
	# This code can only be used for 1.6 alpha testing. All other use
	# require explicit permission from Secret Labs AB.
	#
	# Portions of this engine have been developed in cooperation with
	# CNRI. Hewlett-Packard provided funding for 1.6 integration and
	# other compatibility work.
	#

	# FIXME: comments marked with the FIXME tag are open issues. all such
	# issues should be closed before the final beta.

	import string, sys

	from sre_constants import *

	SPECIAL_CHARS = ".\\[{()*+?^$\|"
	REPEAT_CHARS = "*+?{"

	# FIXME: string in tuple tests may explode with if char is unicode :-(
	DIGITS = tuple(string.digits)

	OCTDIGITS = tuple("01234567")
	HEXDIGITS = tuple("0123456789abcdefABCDEF")

	ESCAPES = {
	"\\a": (LITERAL, chr(7)),
	"\\b": (LITERAL, chr(8)),
	"\\f": (LITERAL, chr(12)),
	"\\n": (LITERAL, chr(10)),
	"\\r": (LITERAL, chr(13)),
	"\\t": (LITERAL, chr(9)),
	"\\v": (LITERAL, chr(11))
	}

	CATEGORIES = {
	"\\A": (AT, AT_BEGINNING), # start of string
	"\\b": (AT, AT_BOUNDARY),
	"\\B": (AT, AT_NON_BOUNDARY),
	"\\d": (IN, [(CATEGORY, CATEGORY_DIGIT)]),
	"\\D": (IN, [(CATEGORY, CATEGORY_NOT_DIGIT)]),
	"\\s": (IN, [(CATEGORY, CATEGORY_SPACE)]),
	"\\S": (IN, [(CATEGORY, CATEGORY_NOT_SPACE)]),
	"\\w": (IN, [(CATEGORY, CATEGORY_WORD)]),
	"\\W": (IN, [(CATEGORY, CATEGORY_NOT_WORD)]),
	"\\Z": (AT, AT_END), # end of string
	}

	class Pattern:
	# FIXME: <fl> rename class, and store flags in here too!
	def __init__(self):
	self.flags = []
	self.groups = 1
	self.groupdict = {}
	def getgroup(self, name=None):
	gid = self.groups
	self.groups = gid + 1
	if name:
	self.groupdict[name] = gid
	return gid
	def setflag(self, flag):
	if flag in self.flags:
	self.flags.append(flag)

	class SubPattern:
	# a subpattern, in intermediate form
	def __init__(self, pattern, data=None):
	self.pattern = pattern
	if not data:
	data = []
	self.data = data
	self.flags = []
	self.width = None
	def __repr__(self):
	return repr(self.data)
	def __len__(self):
	return len(self.data)
	def __delitem__(self, index):
	del self.data[index]
	def __getitem__(self, index):
	return self.data[index]
	def __setitem__(self, index, code):
	self.data[index] = code
	def __getslice__(self, start, stop):
	return SubPattern(self.pattern, self.data[start:stop])
	def insert(self, index, code):
	self.data.insert(index, code)
	def append(self, code):
	self.data.append(code)
	def getwidth(self):
	# determine the width (min, max) for this subpattern
	if self.width:
	return self.width
	lo = hi = 0L
	for op, av in self.data:
	if op is BRANCH:
	l = sys.maxint
	h = 0
	for av in av[1]:
	i, j = av.getwidth()
	l = min(l, i)
	h = min(h, j)
	lo = lo + i
	hi = hi + j
	elif op is CALL:
	i, j = av.getwidth()
	lo = lo + i
	hi = hi + j
	elif op is SUBPATTERN:
	i, j = av[1].getwidth()
	lo = lo + i
	hi = hi + j
	elif op in (MIN_REPEAT, MAX_REPEAT):
	i, j = av[2].getwidth()
	lo = lo + i * av[0]
	hi = hi + j * av[1]
	elif op in (ANY, RANGE, IN, LITERAL, NOT_LITERAL, CATEGORY):
	lo = lo + 1
	hi = hi + 1
	elif op == SUCCESS:
	break
	self.width = int(min(lo, sys.maxint)), int(min(hi, sys.maxint))
	return self.width
	def set(self, flag):
	if not flag in self.flags:
	self.flags.append(flag)
	def reset(self, flag):
	if flag in self.flags:
	self.flags.remove(flag)

	class Tokenizer:
	def __init__(self, string):
	self.string = list(string)
	self.next = self.__next()
	def __next(self):
	if not self.string:
	return None
	char = self.string[0]
	if char[0] == "\\":
	try:
	c = self.string[1]
	except IndexError:
	raise SyntaxError, "bogus escape"
	char = char + c
	try:
	if c == "x":
	# hexadecimal constant
	for i in xrange(2, sys.maxint):
	c = self.string[i]
	if str(c) not in HEXDIGITS:
	break
	char = char + c
	elif str(c) in DIGITS:
	# decimal (or octal) number
	for i in xrange(2, sys.maxint):
	c = self.string[i]
	# FIXME: if larger than current number of
	# groups, interpret as an octal number
	if str(c) not in DIGITS:
	break
	char = char + c
	except IndexError:
	pass # use what we've got this far
	del self.string[0:len(char)]
	return char
	def match(self, char):
	if char == self.next:
	self.next = self.__next()
	return 1
	return 0
	def match_set(self, set):
	if self.next and self.next in set:
	self.next = self.__next()
	return 1
	return 0
	def get(self):
	this = self.next
	self.next = self.__next()
	return this

	def _fixescape(escape, character_class=0):
	# convert escape to (type, value)
	if character_class:
	# inside a character class, we'll look in the character
	# escapes dictionary first
	code = ESCAPES.get(escape)
	if code:
	return code
	code = CATEGORIES.get(escape)
	else:
	code = CATEGORIES.get(escape)
	if code:
	return code
	code = ESCAPES.get(escape)
	if code:
	return code
	if not character_class:
	try:
	group = int(escape[1:])
	# FIXME: only valid if group <= current number of groups
	return GROUP, group
	except ValueError:
	pass
	try:
	if escape[1:2] == "x":
	escape = escape[2:]
	return LITERAL, chr(int(escape[-2:], 16) & 0xff)
	elif str(escape[1:2]) in DIGITS:
	return LITERAL, chr(int(escape[1:], 8) & 0xff)
	elif len(escape) == 2:
	return LITERAL, escape[1]
	except ValueError:
	pass
	raise SyntaxError, "bogus escape: %s" % repr(escape)

	def _branch(subpattern, items):

	# form a branch operator from a set of items (FIXME: move this
	# optimization to the compiler module!)

	# check if all items share a common prefix
	while 1:
	prefix = None
	for item in items:
	if not item:
	break
	if prefix is None:
	prefix = item[0]
	elif item[0] != prefix:
	break
	else:
	# all subitems start with a common "prefix".
	# move it out of the branch
	for item in items:
	del item[0]
	subpattern.append(prefix)
	continue # check next one
	break

	# check if the branch can be replaced by a character set
	for item in items:
	if len(item) != 1 or item[0][0] != LITERAL:
	break
	else:
	# we can store this as a character set instead of a
	# branch (FIXME: use a range if possible)
	set = []
	for item in items:
	set.append(item[0])
	subpattern.append((IN, set))
	return

	subpattern.append((BRANCH, (None, items)))

	def _parse(source, pattern, flags=()):

	# parse regular expression pattern into an operator list.

	subpattern = SubPattern(pattern)

	this = None

	while 1:

	if str(source.next) in ("\|", ")"):
	break # end of subpattern
	this = source.get()
	if this is None:
	break # end of pattern

	if this and this[0] not in SPECIAL_CHARS:
	subpattern.append((LITERAL, this))

	elif this == "[":
	# character set
	set = []
	## if source.match(":"):
	## pass # handle character classes
	if source.match("^"):
	set.append((NEGATE, None))
	# check remaining characters
	start = set[:]
	while 1:
	this = source.get()
	if this == "]" and set != start:
	break
	elif this and this[0] == "\\":
	code1 = _fixescape(this, 1)
	elif this:
	code1 = LITERAL, this
	else:
	raise SyntaxError, "unexpected end of regular expression"
	if source.match("-"):
	# potential range
	this = source.get()
	if this == "]":
	set.append(code1)
	set.append((LITERAL, "-"))
	break
	else:
	if this[0] == "\\":
	code2 = _fixescape(this, 1)
	else:
	code2 = LITERAL, this
	if code1[0] != LITERAL or code2[0] != LITERAL:
	raise SyntaxError, "illegal range"
	if len(code1[1]) != 1 or len(code2[1]) != 1:
	raise SyntaxError, "illegal range"
	set.append((RANGE, (code1[1], code2[1])))
	else:
	if code1[0] is IN:
	code1 = code1[1][0]
	set.append(code1)

	# FIXME: <fl> move set optimization to support function
	if len(set)==1 and set[0][0] is LITERAL:
	subpattern.append(set[0]) # optimization
	elif len(set)==2 and set[0][0] is NEGATE and set[1][0] is LITERAL:
	subpattern.append((NOT_LITERAL, set[1][1])) # optimization
	else:
	# FIXME: <fl> add charmap optimization
	subpattern.append((IN, set))

	elif this and this[0] in REPEAT_CHARS:
	# repeat previous item
	if this == "?":
	min, max = 0, 1
	elif this == "*":
	min, max = 0, sys.maxint
	elif this == "+":
	min, max = 1, sys.maxint
	elif this == "{":
	min, max = 0, sys.maxint
	lo = hi = ""
	while str(source.next) in DIGITS:
	lo = lo + source.get()
	if source.match(","):
	while str(source.next) in DIGITS:
	hi = hi + source.get()
	else:
	hi = lo
	if not source.match("}"):
	raise SyntaxError, "bogus range"
	if lo:
	min = int(lo)
	if hi:
	max = int(hi)
	# FIXME: <fl> check that hi >= lo!
	else:
	raise SyntaxError, "not supported"
	# figure out which item to repeat
	# FIXME: should back up to the right mark, right?
	if subpattern:
	index = len(subpattern)-1
	while subpattern[index][0] is MARK:
	index = index - 1
	item = subpattern[index:index+1]
	else:
	raise SyntaxError, "nothing to repeat"
	if source.match("?"):
	subpattern[index] = (MIN_REPEAT, (min, max, item))
	else:
	subpattern[index] = (MAX_REPEAT, (min, max, item))
	elif this == ".":
	subpattern.append((ANY, None))
	elif this == "(":
	group = 1
	name = None
	if source.match("?"):
	group = 0
	# options
	if source.match("P"):
	# named group: skip forward to end of name
	if source.match("<"):
	name = ""
	while 1:
	char = source.get()
	if char is None or char == ">":
	break
	name = name + char
	group = 1
	elif source.match(":"):
	# non-capturing group
	group = 2
	elif source.match_set("iI"):
	pattern.setflag("i")
	elif source.match_set("lL"):
	pattern.setflag("l")
	elif source.match_set("mM"):
	pattern.setflag("m")
	elif source.match_set("sS"):
	pattern.setflag("s")
	elif source.match_set("xX"):
	pattern.setflag("x")
	if group:
	# parse group contents
	b = []
	if group == 2:
	# anonymous group
	group = None
	else:
	group = pattern.getgroup(name)
	if group:
	subpattern.append((MARK, (group-1)*2))
	while 1:
	p = _parse(source, pattern, flags)
	if source.match(")"):
	if b:
	b.append(p)
	_branch(subpattern, b)
	else:
	subpattern.append((SUBPATTERN, (group, p)))
	break
	elif source.match("\|"):
	b.append(p)
	else:
	raise SyntaxError, "group not properly closed"
	if group:
	subpattern.append((MARK, (group-1)*2+1))
	else:
	# FIXME: should this really be a while loop?
	while 1:
	char = source.get()
	if char is None or char == ")":
	break

	elif this == "^":
	subpattern.append((AT, AT_BEGINNING))

	elif this == "$":
	subpattern.append((AT, AT_END))

	elif this and this[0] == "\\":
	code =_fixescape(this)
	subpattern.append(code)

	else:
	raise SyntaxError, "parser error"

	return subpattern

	def parse(source, flags=()):
	s = Tokenizer(source)
	g = Pattern()
	b = []
	while 1:
	p = _parse(s, g, flags)
	tail = s.get()
	if tail == "\|":
	b.append(p)
	elif tail == ")":
	raise SyntaxError, "unbalanced parenthesis"
	elif tail is None:
	if b:
	b.append(p)
	p = SubPattern(g)
	_branch(p, b)
	break
	else:
	raise SyntaxError, "bogus characters at end of regular expression"
	return p

	if __name__ == "__main__":
	from pprint import pprint
	from testpatterns import PATTERNS
	a = b = c = 0
	for pattern, flags in PATTERNS:
	if flags:
	continue
	print "-"*68
	try:
	p = parse(pattern)
	print repr(pattern), "->"
	pprint(p.data)
	import sre_compile
	try:
	code = sre_compile.compile(p)
	c = c + 1
	except:
	pass
	a = a + 1
	except SyntaxError, v:
	print "**", repr(pattern), v
	b = b + 1
	print "-"*68
	print a, "of", b, "patterns successfully parsed"
	print c, "of", b, "patterns successfully compiled"