CWE-ou-minkata/Scripts/Python/system/sre_parse.py

#
# Secret Labs' Regular Expression Engine
#
# convert re-style regular expression to sre pattern
#
# Copyright (c) 1998-2001 by Secret Labs AB.  All rights reserved.
#
# See the sre.py file for information on usage and redistribution.
#

"""Internal support module for sre"""

# XXX: show string offset and offending character for all errors

# this module works under 1.5.2 and later.  don't use string methods
import string, sys

from sre_constants import *

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

DIGITS = tuple("0123456789")

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

WHITESPACE = tuple(" \t\n\r\v\f")

ESCAPES = {
    r"\a": (LITERAL, ord("\a")),
    r"\b": (LITERAL, ord("\b")),
    r"\f": (LITERAL, ord("\f")),
    r"\n": (LITERAL, ord("\n")),
    r"\r": (LITERAL, ord("\r")),
    r"\t": (LITERAL, ord("\t")),
    r"\v": (LITERAL, ord("\v")),
    r"\\": (LITERAL, ord("\\"))
}

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

FLAGS = {
    # standard flags
    "i": SRE_FLAG_IGNORECASE,
    "L": SRE_FLAG_LOCALE,
    "m": SRE_FLAG_MULTILINE,
    "s": SRE_FLAG_DOTALL,
    "x": SRE_FLAG_VERBOSE,
    # extensions
    "t": SRE_FLAG_TEMPLATE,
    "u": SRE_FLAG_UNICODE,
}

# figure out best way to convert hex/octal numbers to integers
try:
    int("10", 8)
    atoi = int # 2.0 and later
except TypeError:
    atoi = string.atoi # 1.5.2

class Pattern:
    # master pattern object.  keeps track of global attributes
    def __init__(self):
        self.flags = 0
        self.open = []
        self.groups = 1
        self.groupdict = {}
    def opengroup(self, name=None):
        gid = self.groups
        self.groups = gid + 1
        if name is not None:
            ogid = self.groupdict.get(name, None)
            if ogid is not None:
                raise error, ("redefinition of group name %s as group %d; "
                              "was group %d" % (repr(name), gid,  ogid))
            self.groupdict[name] = gid
        self.open.append(gid)
        return gid
    def closegroup(self, gid):
        self.open.remove(gid)
    def checkgroup(self, gid):
        return gid < self.groups and gid not in self.open

class SubPattern:
    # a subpattern, in intermediate form
    def __init__(self, pattern, data=None):
        self.pattern = pattern
        if data is None:
            data = []
        self.data = data
        self.width = None
    def dump(self, level=0):
        nl = 1
        for op, av in self.data:
            print level*"  " + op,; nl = 0
            if op == "in":
                # member sublanguage
                print; nl = 1
                for op, a in av:
                    print (level+1)*"  " + op, a
            elif op == "branch":
                print; nl = 1
                i = 0
                for a in av[1]:
                    if i > 0:
                        print level*"  " + "or"
                    a.dump(level+1); nl = 1
                    i = i + 1
            elif type(av) in (type(()), type([])):
                for a in av:
                    if isinstance(a, SubPattern):
                        if not nl: print
                        a.dump(level+1); nl = 1
                    else:
                        print a, ; nl = 0
            else:
                print av, ; nl = 0
            if not nl: print
    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:
                i = sys.maxint
                j = 0
                for av in av[1]:
                    l, h = av.getwidth()
                    i = min(i, l)
                    j = max(j, h)
                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 + long(i) * av[0]
                hi = hi + long(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

class Tokenizer:
    def __init__(self, string):
        self.string = string
        self.index = 0
        self.__next()
    def __next(self):
        if self.index >= len(self.string):
            self.next = None
            return
        char = self.string[self.index]
        if char[0] == "\\":
            try:
                c = self.string[self.index + 1]
            except IndexError:
                raise error, "bogus escape (end of line)"
            char = char + c
        self.index = self.index + len(char)
        self.next = char
    def match(self, char, skip=1):
        if char == self.next:
            if skip:
                self.__next()
            return 1
        return 0
    def get(self):
        this = self.next
        self.__next()
        return this
    def tell(self):
        return self.index, self.next
    def seek(self, index):
        self.index, self.next = index

def isident(char):
    return "a" <= char <= "z" or "A" <= char <= "Z" or char == "_"

def isdigit(char):
    return "0" <= char <= "9"

def isname(name):
    # check that group name is a valid string
    if not isident(name[0]):
        return False
    for char in name:
        if not isident(char) and not isdigit(char):
            return False
    return True

def _group(escape, groups):
    # check if the escape string represents a valid group
    try:
        gid = atoi(escape[1:])
        if gid and gid < groups:
            return gid
    except ValueError:
        pass
    return None # not a valid group

def _class_escape(source, escape):
    # handle escape code inside character class
    code = ESCAPES.get(escape)
    if code:
        return code
    code = CATEGORIES.get(escape)
    if code:
        return code
    try:
        if escape[1:2] == "x":
            # hexadecimal escape (exactly two digits)
            while source.next in HEXDIGITS and len(escape) < 4:
                escape = escape + source.get()
            escape = escape[2:]
            if len(escape) != 2:
                raise error, "bogus escape: %s" % repr("\\" + escape)
            return LITERAL, atoi(escape, 16) & 0xff
        elif escape[1:2] in OCTDIGITS:
            # octal escape (up to three digits)
            while source.next in OCTDIGITS and len(escape) < 5:
                escape = escape + source.get()
            escape = escape[1:]
            return LITERAL, atoi(escape, 8) & 0xff
        if len(escape) == 2:
            return LITERAL, ord(escape[1])
    except ValueError:
        pass
    raise error, "bogus escape: %s" % repr(escape)

def _escape(source, escape, state):
    # handle escape code in expression
    code = CATEGORIES.get(escape)
    if code:
        return code
    code = ESCAPES.get(escape)
    if code:
        return code
    try:
        if escape[1:2] == "x":
            # hexadecimal escape
            while source.next in HEXDIGITS and len(escape) < 4:
                escape = escape + source.get()
            if len(escape) != 4:
                raise ValueError
            return LITERAL, atoi(escape[2:], 16) & 0xff
        elif escape[1:2] == "0":
            # octal escape
            while source.next in OCTDIGITS and len(escape) < 4:
                escape = escape + source.get()
            return LITERAL, atoi(escape[1:], 8) & 0xff
        elif escape[1:2] in DIGITS:
            # octal escape *or* decimal group reference (sigh)
            if source.next in DIGITS:
                escape = escape + source.get()
                if (escape[1] in OCTDIGITS and escape[2] in OCTDIGITS and
                    source.next in OCTDIGITS):
                    # got three octal digits; this is an octal escape
                    escape = escape + source.get()
                    return LITERAL, atoi(escape[1:], 8) & 0xff
            # got at least one decimal digit; this is a group reference
            group = _group(escape, state.groups)
            if group:
                if not state.checkgroup(group):
                    raise error, "cannot refer to open group"
                return GROUPREF, group
            raise ValueError
        if len(escape) == 2:
            return LITERAL, ord(escape[1])
    except ValueError:
        pass
    raise error, "bogus escape: %s" % repr(escape)

def _parse_sub(source, state, nested=1):
    # parse an alternation: a|b|c

    items = []
    while 1:
        items.append(_parse(source, state))
        if source.match("|"):
            continue
        if not nested:
            break
        if not source.next or source.match(")", 0):
            break
        else:
            raise error, "pattern not properly closed"

    if len(items) == 1:
        return items[0]

    subpattern = SubPattern(state)

    # 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 (the compiler may optimize this even more)
        set = []
        for item in items:
            set.append(item[0])
        subpattern.append((IN, set))
        return subpattern

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

def _parse(source, state):
    # parse a simple pattern

    subpattern = SubPattern(state)

    while 1:

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

        if state.flags & SRE_FLAG_VERBOSE:
            # skip whitespace and comments
            if this in WHITESPACE:
                continue
            if this == "#":
                while 1:
                    this = source.get()
                    if this in (None, "\n"):
                        break
                continue

        if this and this[0] not in SPECIAL_CHARS:
            subpattern.append((LITERAL, ord(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 = _class_escape(source, this)
                elif this:
                    code1 = LITERAL, ord(this)
                else:
                    raise error, "unexpected end of regular expression"
                if source.match("-"):
                    # potential range
                    this = source.get()
                    if this == "]":
                        if code1[0] is IN:
                            code1 = code1[1][0]
                        set.append(code1)
                        set.append((LITERAL, ord("-")))
                        break
                    elif this:
                        if this[0] == "\\":
                            code2 = _class_escape(source, this)
                        else:
                            code2 = LITERAL, ord(this)
                        if code1[0] != LITERAL or code2[0] != LITERAL:
                            raise error, "bad character range"
                        lo = code1[1]
                        hi = code2[1]
                        if hi < lo:
                            raise error, "bad character range"
                        set.append((RANGE, (lo, hi)))
                    else:
                        raise error, "unexpected end of regular expression"
                else:
                    if code1[0] is IN:
                        code1 = code1[1][0]
                    set.append(code1)

            # XXX: <fl> should move set optimization to compiler!
            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:
                # XXX: <fl> should add charmap optimization here
                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, MAXREPEAT

            elif this == "+":
                min, max = 1, MAXREPEAT
            elif this == "{":
                here = source.tell()
                min, max = 0, MAXREPEAT
                lo = hi = ""
                while source.next in DIGITS:
                    lo = lo + source.get()
                if source.match(","):
                    while source.next in DIGITS:
                        hi = hi + source.get()
                else:
                    hi = lo
                if not source.match("}"):
                    subpattern.append((LITERAL, ord(this)))
                    source.seek(here)
                    continue
                if lo:
                    min = atoi(lo)
                if hi:
                    max = atoi(hi)
                if max < min:
                    raise error, "bad repeat interval"
            else:
                raise error, "not supported"
            # figure out which item to repeat
            if subpattern:
                item = subpattern[-1:]
            else:
                item = None
            if not item or (len(item) == 1 and item[0][0] == AT):
                raise error, "nothing to repeat"
            if item[0][0] in (MIN_REPEAT, MAX_REPEAT):
                raise error, "multiple repeat"
            if source.match("?"):
                subpattern[-1] = (MIN_REPEAT, (min, max, item))
            else:
                subpattern[-1] = (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"):
                    # python extensions
                    if source.match("<"):
                        # named group: skip forward to end of name
                        name = ""
                        while 1:
                            char = source.get()
                            if char is None:
                                raise error, "unterminated name"
                            if char == ">":
                                break
                            name = name + char
                        group = 1
                        if not isname(name):
                            raise error, "bad character in group name"
                    elif source.match("="):
                        # named backreference
                        name = ""
                        while 1:
                            char = source.get()
                            if char is None:
                                raise error, "unterminated name"
                            if char == ")":
                                break
                            name = name + char
                        if not isname(name):
                            raise error, "bad character in group name"
                        gid = state.groupdict.get(name)
                        if gid is None:
                            raise error, "unknown group name"
                        subpattern.append((GROUPREF, gid))
                        continue
                    else:
                        char = source.get()
                        if char is None:
                            raise error, "unexpected end of pattern"
                        raise error, "unknown specifier: ?P%s" % char
                elif source.match(":"):
                    # non-capturing group
                    group = 2
                elif source.match("#"):
                    # comment
                    while 1:
                        if source.next is None or source.next == ")":
                            break
                        source.get()
                    if not source.match(")"):
                        raise error, "unbalanced parenthesis"
                    continue
                elif source.next in ("=", "!", "<"):
                    # lookahead assertions
                    char = source.get()
                    dir = 1
                    if char == "<":
                        if source.next not in ("=", "!"):
                            raise error, "syntax error"
                        dir = -1 # lookbehind
                        char = source.get()
                    p = _parse_sub(source, state)
                    if not source.match(")"):
                        raise error, "unbalanced parenthesis"
                    if char == "=":
                        subpattern.append((ASSERT, (dir, p)))
                    else:
                        subpattern.append((ASSERT_NOT, (dir, p)))
                    continue
                else:
                    # flags
                    if not source.next in FLAGS:
                        raise error, "unexpected end of pattern"
                    while source.next in FLAGS:
                        state.flags = state.flags | FLAGS[source.get()]
            if group:
                # parse group contents
                if group == 2:
                    # anonymous group
                    group = None
                else:
                    group = state.opengroup(name)
                p = _parse_sub(source, state)
                if not source.match(")"):
                    raise error, "unbalanced parenthesis"
                if group is not None:
                    state.closegroup(group)
                subpattern.append((SUBPATTERN, (group, p)))
            else:
                while 1:
                    char = source.get()
                    if char is None:
                        raise error, "unexpected end of pattern"
                    if char == ")":
                        break
                    raise error, "unknown extension"

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

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

        elif this and this[0] == "\\":
            code = _escape(source, this, state)
            subpattern.append(code)

        else:
            raise error, "parser error"

    return subpattern

def parse(str, flags=0, pattern=None):
    # parse 're' pattern into list of (opcode, argument) tuples

    source = Tokenizer(str)

    if pattern is None:
        pattern = Pattern()
    pattern.flags = flags
    pattern.str = str

    p = _parse_sub(source, pattern, 0)

    tail = source.get()
    if tail == ")":
        raise error, "unbalanced parenthesis"
    elif tail:
        raise error, "bogus characters at end of regular expression"

    if flags & SRE_FLAG_DEBUG:
        p.dump()

    if not (flags & SRE_FLAG_VERBOSE) and p.pattern.flags & SRE_FLAG_VERBOSE:
        # the VERBOSE flag was switched on inside the pattern.  to be
        # on the safe side, we'll parse the whole thing again...
        return parse(str, p.pattern.flags)

    return p

def parse_template(source, pattern):
    # parse 're' replacement string into list of literals and
    # group references
    s = Tokenizer(source)
    p = []
    a = p.append
    def literal(literal, p=p):
        if p and p[-1][0] is LITERAL:
            p[-1] = LITERAL, p[-1][1] + literal
        else:
            p.append((LITERAL, literal))
    sep = source[:0]
    if type(sep) is type(""):
        makechar = chr
    else:
        makechar = unichr
    while 1:
        this = s.get()
        if this is None:
            break # end of replacement string
        if this and this[0] == "\\":
            # group
            if this == "\\g":
                name = ""
                if s.match("<"):
                    while 1:
                        char = s.get()
                        if char is None:
                            raise error, "unterminated group name"
                        if char == ">":
                            break
                        name = name + char
                if not name:
                    raise error, "bad group name"
                try:
                    index = atoi(name)
                except ValueError:
                    if not isname(name):
                        raise error, "bad character in group name"
                    try:
                        index = pattern.groupindex[name]
                    except KeyError:
                        raise IndexError, "unknown group name"
                a((MARK, index))
            elif len(this) > 1 and this[1] in DIGITS:
                code = None
                while 1:
                    group = _group(this, pattern.groups+1)
                    if group:
                        if (s.next not in DIGITS or
                            not _group(this + s.next, pattern.groups+1)):
                            code = MARK, group
                            break
                    elif s.next in OCTDIGITS:
                        this = this + s.get()
                    else:
                        break
                if not code:
                    this = this[1:]
                    code = LITERAL, makechar(atoi(this[-6:], 8) & 0xff)
                if code[0] is LITERAL:
                    literal(code[1])
                else:
                    a(code)
            else:
                try:
                    this = makechar(ESCAPES[this][1])
                except KeyError:
                    pass
                literal(this)
        else:
            literal(this)
    # convert template to groups and literals lists
    i = 0
    groups = []
    literals = []
    for c, s in p:
        if c is MARK:
            groups.append((i, s))
            literals.append(None)
        else:
            literals.append(s)
        i = i + 1
    return groups, literals

def expand_template(template, match):
    g = match.group
    sep = match.string[:0]
    groups, literals = template
    literals = literals[:]
    try:
        for index, group in groups:
            literals[index] = s = g(group)
            if s is None:
                raise IndexError
    except IndexError:
        raise error, "empty group"
    return string.join(literals, sep)
Initial Commit of CyanWorlds.com Engine Open Source Client/Plugin 14 years ago			`#`
			`# Secret Labs' Regular Expression Engine`
			`#`
			`# convert re-style regular expression to sre pattern`
			`#`
			`# Copyright (c) 1998-2001 by Secret Labs AB. All rights reserved.`
			`#`
			`# See the sre.py file for information on usage and redistribution.`
			`#`

			`"""Internal support module for sre"""`

			`# XXX: show string offset and offending character for all errors`

			`# this module works under 1.5.2 and later. don't use string methods`
			`import string, sys`

			`from sre_constants import *`

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

			`DIGITS = tuple("0123456789")`

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

			`WHITESPACE = tuple(" \t\n\r\v\f")`

			`ESCAPES = {`
			`r"\a": (LITERAL, ord("\a")),`
			`r"\b": (LITERAL, ord("\b")),`
			`r"\f": (LITERAL, ord("\f")),`
			`r"\n": (LITERAL, ord("\n")),`
			`r"\r": (LITERAL, ord("\r")),`
			`r"\t": (LITERAL, ord("\t")),`
			`r"\v": (LITERAL, ord("\v")),`
			`r"\\": (LITERAL, ord("\\"))`
			`}`

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

			`FLAGS = {`
			`# standard flags`
			`"i": SRE_FLAG_IGNORECASE,`
			`"L": SRE_FLAG_LOCALE,`
			`"m": SRE_FLAG_MULTILINE,`
			`"s": SRE_FLAG_DOTALL,`
			`"x": SRE_FLAG_VERBOSE,`
			`# extensions`
			`"t": SRE_FLAG_TEMPLATE,`
			`"u": SRE_FLAG_UNICODE,`
			`}`

			`# figure out best way to convert hex/octal numbers to integers`
			`try:`
			`int("10", 8)`
			`atoi = int # 2.0 and later`
			`except TypeError:`
			`atoi = string.atoi # 1.5.2`

			`class Pattern:`
			`# master pattern object. keeps track of global attributes`
			`def __init__(self):`
			`self.flags = 0`
			`self.open = []`
			`self.groups = 1`
			`self.groupdict = {}`
			`def opengroup(self, name=None):`
			`gid = self.groups`
			`self.groups = gid + 1`
			`if name is not None:`
			`ogid = self.groupdict.get(name, None)`
			`if ogid is not None:`
			`raise error, ("redefinition of group name %s as group %d; "`
			`"was group %d" % (repr(name), gid, ogid))`
			`self.groupdict[name] = gid`
			`self.open.append(gid)`
			`return gid`
			`def closegroup(self, gid):`
			`self.open.remove(gid)`
			`def checkgroup(self, gid):`
			`return gid < self.groups and gid not in self.open`

			`class SubPattern:`
			`# a subpattern, in intermediate form`
			`def __init__(self, pattern, data=None):`
			`self.pattern = pattern`
			`if data is None:`
			`data = []`
			`self.data = data`
			`self.width = None`
			`def dump(self, level=0):`
			`nl = 1`
			`for op, av in self.data:`
			`print level*" " + op,; nl = 0`
			`if op == "in":`
			`# member sublanguage`
			`print; nl = 1`
			`for op, a in av:`
			`print (level+1)*" " + op, a`
			`elif op == "branch":`
			`print; nl = 1`
			`i = 0`
			`for a in av[1]:`
			`if i > 0:`
			`print level*" " + "or"`
			`a.dump(level+1); nl = 1`
			`i = i + 1`
			`elif type(av) in (type(()), type([])):`
			`for a in av:`
			`if isinstance(a, SubPattern):`
			`if not nl: print`
			`a.dump(level+1); nl = 1`
			`else:`
			`print a, ; nl = 0`
			`else:`
			`print av, ; nl = 0`
			`if not nl: print`
			`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:`
			`i = sys.maxint`
			`j = 0`
			`for av in av[1]:`
			`l, h = av.getwidth()`
			`i = min(i, l)`
			`j = max(j, h)`
			`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 + long(i) * av[0]`
			`hi = hi + long(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`

			`class Tokenizer:`
			`def __init__(self, string):`
			`self.string = string`
			`self.index = 0`
			`self.__next()`
			`def __next(self):`
			`if self.index >= len(self.string):`
			`self.next = None`
			`return`
			`char = self.string[self.index]`
			`if char[0] == "\\":`
			`try:`
			`c = self.string[self.index + 1]`
			`except IndexError:`
			`raise error, "bogus escape (end of line)"`
			`char = char + c`
			`self.index = self.index + len(char)`
			`self.next = char`
			`def match(self, char, skip=1):`
			`if char == self.next:`
			`if skip:`
			`self.__next()`
			`return 1`
			`return 0`
			`def get(self):`
			`this = self.next`
			`self.__next()`
			`return this`
			`def tell(self):`
			`return self.index, self.next`
			`def seek(self, index):`
			`self.index, self.next = index`

			`def isident(char):`
			`return "a" <= char <= "z" or "A" <= char <= "Z" or char == "_"`

			`def isdigit(char):`
			`return "0" <= char <= "9"`

			`def isname(name):`
			`# check that group name is a valid string`
			`if not isident(name[0]):`
			`return False`
			`for char in name:`
			`if not isident(char) and not isdigit(char):`
			`return False`
			`return True`

			`def _group(escape, groups):`
			`# check if the escape string represents a valid group`
			`try:`
			`gid = atoi(escape[1:])`
			`if gid and gid < groups:`
			`return gid`
			`except ValueError:`
			`pass`
			`return None # not a valid group`

			`def _class_escape(source, escape):`
			`# handle escape code inside character class`
			`code = ESCAPES.get(escape)`
			`if code:`
			`return code`
			`code = CATEGORIES.get(escape)`
			`if code:`
			`return code`
			`try:`
			`if escape[1:2] == "x":`
			`# hexadecimal escape (exactly two digits)`
			`while source.next in HEXDIGITS and len(escape) < 4:`
			`escape = escape + source.get()`
			`escape = escape[2:]`
			`if len(escape) != 2:`
			`raise error, "bogus escape: %s" % repr("\\" + escape)`
			`return LITERAL, atoi(escape, 16) & 0xff`
			`elif escape[1:2] in OCTDIGITS:`
			`# octal escape (up to three digits)`
			`while source.next in OCTDIGITS and len(escape) < 5:`
			`escape = escape + source.get()`
			`escape = escape[1:]`
			`return LITERAL, atoi(escape, 8) & 0xff`
			`if len(escape) == 2:`
			`return LITERAL, ord(escape[1])`
			`except ValueError:`
			`pass`
			`raise error, "bogus escape: %s" % repr(escape)`

			`def _escape(source, escape, state):`
			`# handle escape code in expression`
			`code = CATEGORIES.get(escape)`
			`if code:`
			`return code`
			`code = ESCAPES.get(escape)`
			`if code:`
			`return code`
			`try:`
			`if escape[1:2] == "x":`
			`# hexadecimal escape`
			`while source.next in HEXDIGITS and len(escape) < 4:`
			`escape = escape + source.get()`
			`if len(escape) != 4:`
			`raise ValueError`
			`return LITERAL, atoi(escape[2:], 16) & 0xff`
			`elif escape[1:2] == "0":`
			`# octal escape`
			`while source.next in OCTDIGITS and len(escape) < 4:`
			`escape = escape + source.get()`
			`return LITERAL, atoi(escape[1:], 8) & 0xff`
			`elif escape[1:2] in DIGITS:`
			`# octal escape or decimal group reference (sigh)`
			`if source.next in DIGITS:`
			`escape = escape + source.get()`
			`if (escape[1] in OCTDIGITS and escape[2] in OCTDIGITS and`
			`source.next in OCTDIGITS):`
			`# got three octal digits; this is an octal escape`
			`escape = escape + source.get()`
			`return LITERAL, atoi(escape[1:], 8) & 0xff`
			`# got at least one decimal digit; this is a group reference`
			`group = _group(escape, state.groups)`
			`if group:`
			`if not state.checkgroup(group):`
			`raise error, "cannot refer to open group"`
			`return GROUPREF, group`
			`raise ValueError`
			`if len(escape) == 2:`
			`return LITERAL, ord(escape[1])`
			`except ValueError:`
			`pass`
			`raise error, "bogus escape: %s" % repr(escape)`

			`def _parse_sub(source, state, nested=1):`
			`# parse an alternation: a\|b\|c`

			`items = []`
			`while 1:`
			`items.append(_parse(source, state))`
			`if source.match("\|"):`
			`continue`
			`if not nested:`
			`break`
			`if not source.next or source.match(")", 0):`
			`break`
			`else:`
			`raise error, "pattern not properly closed"`

			`if len(items) == 1:`
			`return items[0]`

			`subpattern = SubPattern(state)`

			`# 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 (the compiler may optimize this even more)`
			`set = []`
			`for item in items:`
			`set.append(item[0])`
			`subpattern.append((IN, set))`
			`return subpattern`

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

			`def _parse(source, state):`
			`# parse a simple pattern`

			`subpattern = SubPattern(state)`

			`while 1:`

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

			`if state.flags & SRE_FLAG_VERBOSE:`
			`# skip whitespace and comments`
			`if this in WHITESPACE:`
			`continue`
			`if this == "#":`
			`while 1:`
			`this = source.get()`
			`if this in (None, "\n"):`
			`break`
			`continue`

			`if this and this[0] not in SPECIAL_CHARS:`
			`subpattern.append((LITERAL, ord(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 = _class_escape(source, this)`
			`elif this:`
			`code1 = LITERAL, ord(this)`
			`else:`
			`raise error, "unexpected end of regular expression"`
			`if source.match("-"):`
			`# potential range`
			`this = source.get()`
			`if this == "]":`
			`if code1[0] is IN:`
			`code1 = code1[1][0]`
			`set.append(code1)`
			`set.append((LITERAL, ord("-")))`
			`break`
			`elif this:`
			`if this[0] == "\\":`
			`code2 = _class_escape(source, this)`
			`else:`
			`code2 = LITERAL, ord(this)`
			`if code1[0] != LITERAL or code2[0] != LITERAL:`
			`raise error, "bad character range"`
			`lo = code1[1]`
			`hi = code2[1]`
			`if hi < lo:`
			`raise error, "bad character range"`
			`set.append((RANGE, (lo, hi)))`
			`else:`
			`raise error, "unexpected end of regular expression"`
			`else:`
			`if code1[0] is IN:`
			`code1 = code1[1][0]`
			`set.append(code1)`

			`# XXX: <fl> should move set optimization to compiler!`
			`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:`
			`# XXX: <fl> should add charmap optimization here`
			`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, MAXREPEAT`

			`elif this == "+":`
			`min, max = 1, MAXREPEAT`
			`elif this == "{":`
			`here = source.tell()`
			`min, max = 0, MAXREPEAT`
			`lo = hi = ""`
			`while source.next in DIGITS:`
			`lo = lo + source.get()`
			`if source.match(","):`
			`while source.next in DIGITS:`
			`hi = hi + source.get()`
			`else:`
			`hi = lo`
			`if not source.match("}"):`
			`subpattern.append((LITERAL, ord(this)))`
			`source.seek(here)`
			`continue`
			`if lo:`
			`min = atoi(lo)`
			`if hi:`
			`max = atoi(hi)`
			`if max < min:`
			`raise error, "bad repeat interval"`
			`else:`
			`raise error, "not supported"`
			`# figure out which item to repeat`
			`if subpattern:`
			`item = subpattern[-1:]`
			`else:`
			`item = None`
			`if not item or (len(item) == 1 and item[0][0] == AT):`
			`raise error, "nothing to repeat"`
			`if item[0][0] in (MIN_REPEAT, MAX_REPEAT):`
			`raise error, "multiple repeat"`
			`if source.match("?"):`
			`subpattern[-1] = (MIN_REPEAT, (min, max, item))`
			`else:`
			`subpattern[-1] = (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"):`
			`# python extensions`
			`if source.match("<"):`
			`# named group: skip forward to end of name`
			`name = ""`
			`while 1:`
			`char = source.get()`
			`if char is None:`
			`raise error, "unterminated name"`
			`if char == ">":`
			`break`
			`name = name + char`
			`group = 1`
			`if not isname(name):`
			`raise error, "bad character in group name"`
			`elif source.match("="):`
			`# named backreference`
			`name = ""`
			`while 1:`
			`char = source.get()`
			`if char is None:`
			`raise error, "unterminated name"`
			`if char == ")":`
			`break`
			`name = name + char`
			`if not isname(name):`
			`raise error, "bad character in group name"`
			`gid = state.groupdict.get(name)`
			`if gid is None:`
			`raise error, "unknown group name"`
			`subpattern.append((GROUPREF, gid))`
			`continue`
			`else:`
			`char = source.get()`
			`if char is None:`
			`raise error, "unexpected end of pattern"`
			`raise error, "unknown specifier: ?P%s" % char`
			`elif source.match(":"):`
			`# non-capturing group`
			`group = 2`
			`elif source.match("#"):`
			`# comment`
			`while 1:`
			`if source.next is None or source.next == ")":`
			`break`
			`source.get()`
			`if not source.match(")"):`
			`raise error, "unbalanced parenthesis"`
			`continue`
			`elif source.next in ("=", "!", "<"):`
			`# lookahead assertions`
			`char = source.get()`
			`dir = 1`
			`if char == "<":`
			`if source.next not in ("=", "!"):`
			`raise error, "syntax error"`
			`dir = -1 # lookbehind`
			`char = source.get()`
			`p = _parse_sub(source, state)`
			`if not source.match(")"):`
			`raise error, "unbalanced parenthesis"`
			`if char == "=":`
			`subpattern.append((ASSERT, (dir, p)))`
			`else:`
			`subpattern.append((ASSERT_NOT, (dir, p)))`
			`continue`
			`else:`
			`# flags`
			`if not source.next in FLAGS:`
			`raise error, "unexpected end of pattern"`
			`while source.next in FLAGS:`
			`state.flags = state.flags \| FLAGS[source.get()]`
			`if group:`
			`# parse group contents`
			`if group == 2:`
			`# anonymous group`
			`group = None`
			`else:`
			`group = state.opengroup(name)`
			`p = _parse_sub(source, state)`
			`if not source.match(")"):`
			`raise error, "unbalanced parenthesis"`
			`if group is not None:`
			`state.closegroup(group)`
			`subpattern.append((SUBPATTERN, (group, p)))`
			`else:`
			`while 1:`
			`char = source.get()`
			`if char is None:`
			`raise error, "unexpected end of pattern"`
			`if char == ")":`
			`break`
			`raise error, "unknown extension"`

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

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

			`elif this and this[0] == "\\":`
			`code = _escape(source, this, state)`
			`subpattern.append(code)`

			`else:`
			`raise error, "parser error"`

			`return subpattern`

			`def parse(str, flags=0, pattern=None):`
			`# parse 're' pattern into list of (opcode, argument) tuples`

			`source = Tokenizer(str)`

			`if pattern is None:`
			`pattern = Pattern()`
			`pattern.flags = flags`
			`pattern.str = str`

			`p = _parse_sub(source, pattern, 0)`

			`tail = source.get()`
			`if tail == ")":`
			`raise error, "unbalanced parenthesis"`
			`elif tail:`
			`raise error, "bogus characters at end of regular expression"`

			`if flags & SRE_FLAG_DEBUG:`
			`p.dump()`

			`if not (flags & SRE_FLAG_VERBOSE) and p.pattern.flags & SRE_FLAG_VERBOSE:`
			`# the VERBOSE flag was switched on inside the pattern. to be`
			`# on the safe side, we'll parse the whole thing again...`
			`return parse(str, p.pattern.flags)`

			`return p`

			`def parse_template(source, pattern):`
			`# parse 're' replacement string into list of literals and`
			`# group references`
			`s = Tokenizer(source)`
			`p = []`
			`a = p.append`
			`def literal(literal, p=p):`
			`if p and p[-1][0] is LITERAL:`
			`p[-1] = LITERAL, p[-1][1] + literal`
			`else:`
			`p.append((LITERAL, literal))`
			`sep = source[:0]`
			`if type(sep) is type(""):`
			`makechar = chr`
			`else:`
			`makechar = unichr`
			`while 1:`
			`this = s.get()`
			`if this is None:`
			`break # end of replacement string`
			`if this and this[0] == "\\":`
			`# group`
			`if this == "\\g":`
			`name = ""`
			`if s.match("<"):`
			`while 1:`
			`char = s.get()`
			`if char is None:`
			`raise error, "unterminated group name"`
			`if char == ">":`
			`break`
			`name = name + char`
			`if not name:`
			`raise error, "bad group name"`
			`try:`
			`index = atoi(name)`
			`except ValueError:`
			`if not isname(name):`
			`raise error, "bad character in group name"`
			`try:`
			`index = pattern.groupindex[name]`
			`except KeyError:`
			`raise IndexError, "unknown group name"`
			`a((MARK, index))`
			`elif len(this) > 1 and this[1] in DIGITS:`
			`code = None`
			`while 1:`
			`group = _group(this, pattern.groups+1)`
			`if group:`
			`if (s.next not in DIGITS or`
			`not _group(this + s.next, pattern.groups+1)):`
			`code = MARK, group`
			`break`
			`elif s.next in OCTDIGITS:`
			`this = this + s.get()`
			`else:`
			`break`
			`if not code:`
			`this = this[1:]`
			`code = LITERAL, makechar(atoi(this[-6:], 8) & 0xff)`
			`if code[0] is LITERAL:`
			`literal(code[1])`
			`else:`
			`a(code)`
			`else:`
			`try:`
			`this = makechar(ESCAPES[this][1])`
			`except KeyError:`
			`pass`
			`literal(this)`
			`else:`
			`literal(this)`
			`# convert template to groups and literals lists`
			`i = 0`
			`groups = []`
			`literals = []`
			`for c, s in p:`
			`if c is MARK:`
			`groups.append((i, s))`
			`literals.append(None)`
			`else:`
			`literals.append(s)`
			`i = i + 1`
			`return groups, literals`

			`def expand_template(template, match):`
			`g = match.group`
			`sep = match.string[:0]`
			`groups, literals = template`
			`literals = literals[:]`
			`try:`
			`for index, group in groups:`
			`literals[index] = s = g(group)`
			`if s is None:`
			`raise IndexError`
			`except IndexError:`
			`raise error, "empty group"`
			`return string.join(literals, sep)`