Lib/xmllib.py - platform/external/python/cpython2 - Gitiles

 # A parser for XML, using the derived class as static DTD.
 # Author: Sjoerd Mullender.

 import re
 import string


 # Regular expressions used for parsing

 _S = '[ \t\r\n]+'
 _opS = '[ \t\r\n]*'
 _Name = '[a-zA-Z_:][-a-zA-Z0-9._:]*'
 interesting = re.compile('[&<]')
 incomplete = re.compile('&(' + _Name + '|#[0-9]*|#x[0-9a-fA-F]*)?|'
 			   '<([a-zA-Z_:][^<>]*|'
 			      '/([a-zA-Z_:][^<>]*)?|'
 			      '![^<>]*|'
 			      '\?[^<>]*)?')

 ref = re.compile('&(' + _Name + '|#[0-9]+|#x[0-9a-fA-F]+);?')
 entityref = re.compile('&(?P<name>' + _Name + ')[^-a-zA-Z0-9._:]')
 charref = re.compile('&#(?P<char>[0-9]+[^0-9]|x[0-9a-fA-F]+[^0-9a-fA-F])')
 space = re.compile(_S)
 newline = re.compile('\n')

 starttagopen = re.compile('<' + _Name)
 endtagopen = re.compile('</')
 starttagend = re.compile(_opS + '(?P<slash>/?)>')
 endbracket = re.compile('>')
 tagfind = re.compile(_Name)
 cdataopen = re.compile('<!\[CDATA\[')
 cdataclose = re.compile('\]\]>')
 special = re.compile('<!(?P<special>[^<>]*)>')
 procopen = re.compile('<\?(?P<proc>' + _Name + ')' + _S)
 procclose = re.compile('\?>')
 commentopen = re.compile('<!--')
 commentclose = re.compile('-->')
 doubledash = re.compile('--')
 attrfind = re.compile(
     _S + '(?P<name>' + _Name + ')'
     '(' + _opS + '=' + _opS +
     '(?P<value>\'[^\']*\'|"[^"]*"|[-a-zA-Z0-9.:+*%?!()_#=~]+))')


 # XML parser base class -- find tags and call handler functions.
 # Usage: p = XMLParser(); p.feed(data); ...; p.close().
 # The dtd is defined by deriving a class which defines methods with
 # special names to handle tags: start_foo and end_foo to handle <foo>
 # and </foo>, respectively.  The data between tags is passed to the
 # parser by calling self.handle_data() with some data as argument (the
 # data may be split up in arbutrary chunks).  Entity references are
 # passed by calling self.handle_entityref() with the entity reference
 # as argument.

 class XMLParser:

     # Interface -- initialize and reset this instance
     def __init__(self, verbose=0):
 	self.verbose = verbose
 	self.reset()

     # Interface -- reset this instance.  Loses all unprocessed data
     def reset(self):
 	self.rawdata = ''
 	self.stack = []
 	self.lasttag = '???'
 	self.nomoretags = 0
 	self.literal = 0
 	self.lineno = 1

     # For derived classes only -- enter literal mode (CDATA) till EOF
     def setnomoretags(self):
 	self.nomoretags = self.literal = 1

     # For derived classes only -- enter literal mode (CDATA)
     def setliteral(self, *args):
 	self.literal = 1

     # Interface -- feed some data to the parser.  Call this as
     # often as you want, with as little or as much text as you
     # want (may include '\n').  (This just saves the text, all the
     # processing is done by goahead().)
     def feed(self, data):
 	self.rawdata = self.rawdata + data
 	self.goahead(0)

     # Interface -- handle the remaining data
     def close(self):
 	self.goahead(1)

     # Interface -- translate references
     def translate_references(self, data):
 	newdata = []
 	i = 0
 	while 1:
 	    res = ref.search(data, i)
 	    if res is None:
 		newdata.append(data[i:])
 		return string.join(newdata, '')
 	    if data[res.end(0) - 1] != ';':
 		self.syntax_error(self.lineno,
 				  '; missing after entity/char reference')
 	    newdata.append(data[i:res.start(0)])
 	    str = res.group(1)
 	    if str[0] == '#':
 		if str[1] == 'x':
 		    newdata.append(chr(string.atoi(str[2:], 16)))
 		else:
 		    newdata.append(chr(string.atoi(str[1:])))
 	    else:
 		try:
 		    newdata.append(self.entitydefs[str])
 		except KeyError:
 		    # can't do it, so keep the entity ref in
 		    newdata.append('&' + str + ';')
 	    i = res.end(0)

     # Internal -- handle data as far as reasonable.  May leave state
     # and data to be processed by a subsequent call.  If 'end' is
     # true, force handling all data as if followed by EOF marker.
     def goahead(self, end):
 	rawdata = self.rawdata
 	i = 0
 	n = len(rawdata)
 	while i < n:
 	    if self.nomoretags:
 		data = rawdata[i:n]
 		self.handle_data(data)
 		self.lineno = self.lineno + string.count(data, '\n')
 		i = n
 		break
 	    res = interesting.search(rawdata, i)
 	    if res:
 		    j = res.start(0)
 	    else:
 		    j = n
 	    if i < j:
 		data = rawdata[i:j]
 		self.handle_data(data)
 		self.lineno = self.lineno + string.count(data, '\n')
 	    i = j
 	    if i == n: break
 	    if rawdata[i] == '<':
 		if starttagopen.match(rawdata, i):
 		    if self.literal:
 			data = rawdata[i]
 			self.handle_data(data)
 			self.lineno = self.lineno + string.count(data, '\n')
 			i = i+1
 			continue
 		    k = self.parse_starttag(i)
 		    if k < 0: break
 		    self.lineno = self.lineno + string.count(rawdata[i:k], '\n')
 		    i = k
 		    continue
 		if endtagopen.match(rawdata, i):
 		    k = self.parse_endtag(i)
 		    if k < 0: break
 		    self.lineno = self.lineno + string.count(rawdata[i:k], '\n')
 		    i =  k
 		    self.literal = 0
 		    continue
 		if commentopen.match(rawdata, i):
 		    if self.literal:
 			data = rawdata[i]
 			self.handle_data(data)
 			self.lineno = self.lineno + string.count(data, '\n')
 			i = i+1
 			continue
 		    k = self.parse_comment(i)
 		    if k < 0: break
 		    self.lineno = self.lineno + string.count(rawdata[i:k], '\n')
 		    i = k
 		    continue
 		if cdataopen.match(rawdata, i):
 		    k = self.parse_cdata(i)
 		    if k < 0: break
 		    self.lineno = self.lineno + string.count(rawdata[i:i], '\n')
 		    i = k
 		    continue
 		res = procopen.match(rawdata, i)
 		if res:
 		    k = self.parse_proc(i, res)
 		    if k < 0: break
 		    self.lineno = self.lineno + string.count(rawdata[i:k], '\n')
 		    i = k
 		    continue
 		res = special.match(rawdata, i)
 		if res:
 		    if self.literal:
 			data = rawdata[i]
 			self.handle_data(data)
 			self.lineno = self.lineno + string.count(data, '\n')
 			i = i+1
 			continue
 		    self.handle_special(res.group('special'))
 		    self.lineno = self.lineno + string.count(res.group(0), '\n')
 		    i = res.end(0)
 		    continue
 	    elif rawdata[i] == '&':
 		res = charref.match(rawdata, i)
 		if res is not None:
 		    i = res.end(0)
 		    if rawdata[i-1] != ';':
 			self.syntax_error(self.lineno, '; missing in charref')
 			i = i-1
 		    self.handle_charref(res.group('char')[:-1])
 		    self.lineno = self.lineno + string.count(res.group(0), '\n')
 		    continue
 		res = entityref.match(rawdata, i)
 		if res is not None:
 		    i = res.end(0)
 		    if rawdata[i-1] != ';':
 			self.syntax_error(self.lineno, '; missing in entityref')
 			i = i-1
 		    self.handle_entityref(res.group('name'))
 		    self.lineno = self.lineno + string.count(res.group(0), '\n')
 		    continue
 	    else:
 		raise RuntimeError, 'neither < nor & ??'
 	    # We get here only if incomplete matches but
 	    # nothing else
 	    res = incomplete.match(rawdata, i)
 	    if not res:
 		data = rawdata[i]
 		self.handle_data(data)
 		self.lineno = self.lineno + string.count(data, '\n')
 		i = i+1
 		continue
 	    j = res.end(0)
 	    if j == n:
 		break # Really incomplete
 	    self.syntax_error(self.lineno, 'bogus < or &')
 	    data = res.group(0)
 	    self.handle_data(data)
 	    self.lineno = self.lineno + string.count(data, '\n')
 	    i = j
 	# end while
 	if end and i < n:
 	    data = rawdata[i:n]
 	    self.handle_data(data)
 	    self.lineno = self.lineno + string.count(data, '\n')
 	    i = n
 	self.rawdata = rawdata[i:]
 	# XXX if end: check for empty stack

     # Internal -- parse comment, return length or -1 if not terminated
     def parse_comment(self, i):
 	rawdata = self.rawdata
 	if rawdata[i:i+4] <> '<!--':
 	    raise RuntimeError, 'unexpected call to handle_comment'
 	res = commentclose.search(rawdata, i+4)
 	if not res:
 	    return -1
 	# doubledash search will succeed because it's a subset of commentclose
 	if doubledash.search(rawdata, i+4).start(0) < res.start(0):
 	    self.syntax_error(self.lineno, "`--' inside comment")
 	self.handle_comment(rawdata[i+4: res.start(0)])
 	return res.end(0)

     # Internal -- handle CDATA tag, return lenth or -1 if not terminated
     def parse_cdata(self, i):
 	rawdata = self.rawdata
 	if rawdata[i:i+9] <> '<![CDATA[':
 	    raise RuntimeError, 'unexpected call to handle_cdata'
 	res = cdataclose.search(rawdata, i+9)
 	if not res:
 	    return -1
 	self.handle_cdata(rawdata[i+9:res.start(0)])
 	return res.end(0)

     def parse_proc(self, i, res):
 	rawdata = self.rawdata
 	if not res:
 	    raise RuntimeError, 'unexpected call to parse_proc'
 	name = res.group('proc')
 	res = procclose.search(rawdata, res.end(0))
 	if not res:
 	    return -1
 	self.handle_proc(name, rawdata[res.pos:res.start(0)])
 	return res.end(0)

     # Internal -- handle starttag, return length or -1 if not terminated
     def parse_starttag(self, i):
 	rawdata = self.rawdata
 	# i points to start of tag
 	end = endbracket.search(rawdata, i+1)
 	if not end:
 	    return -1
 	j = end.start(0)
 	# Now parse the data between i+1 and j into a tag and attrs
 	attrdict = {}
 	res = tagfind.match(rawdata, i+1)
 	if not res:
 	    raise RuntimeError, 'unexpected call to parse_starttag'
 	k = res.end(0)
 	tag = res.group(0)
 	if hasattr(self, tag + '_attributes'):
 	    attrlist = getattr(self, tag + '_attributes')
 	else:
 	    attrlist = None
 	self.lasttag = tag
 	while k < j:
 	    res = attrfind.match(rawdata, k)
 	    if not res: break
 	    attrname, attrvalue = res.group('name', 'value')
 	    if attrvalue is None:
 		self.syntax_error(self.lineno, 'no attribute value specified')
 		attrvalue = attrname
 	    elif attrvalue[:1] == "'" == attrvalue[-1:] or \
 		 attrvalue[:1] == '"' == attrvalue[-1:]:
 		attrvalue = attrvalue[1:-1]
 	    else:
 		self.syntax_error(self.lineno, 'attribute value not quoted')
 	    if attrlist is not None and attrname not in attrlist:
 		self.syntax_error(self.lineno,
 				  'unknown attribute %s of element %s' %
 				  (attrname, tag))
 	    if attrdict.has_key(attrname):
 		self.syntax_error(self.lineno, 'attribute specified twice')
 	    attrdict[attrname] = self.translate_references(attrvalue)
 	    k = res.end(0)
 	res = starttagend.match(rawdata, k)
 	if not res:
 	    self.syntax_error(self.lineno, 'garbage in start tag')
 	self.finish_starttag(tag, attrdict)
 	if res and res.group('slash') == '/':
 	    self.finish_endtag(tag)
 	return end.end(0)

     # Internal -- parse endtag
     def parse_endtag(self, i):
 	rawdata = self.rawdata
 	end = endbracket.search(rawdata, i+1)
 	if not end:
 	    return -1
 	res = tagfind.match(rawdata, i+2)
 	if not res:
 	    self.syntax_error(self.lineno, 'no name specified in end tag')
 	    tag = ''
 	    k = i+2
 	else:
 	    tag = res.group(0)
 	    k = res.end(0)
 	if k != end.start(0):
 	    # check that there is only white space at end of tag
 	    res = space.match(rawdata, k)
 	    if res is None or res.end(0) != end.start(0):
 		self.syntax_error(self.lineno, 'garbage in end tag')
 	self.finish_endtag(tag)
 	return end.end(0)

     # Internal -- finish processing of start tag
     # Return -1 for unknown tag, 1 for balanced tag
     def finish_starttag(self, tag, attrs):
 	self.stack.append(tag)
 	try:
 	    method = getattr(self, 'start_' + tag)
 	except AttributeError:
 	    self.unknown_starttag(tag, attrs)
 	    return -1
 	else:
 	    self.handle_starttag(tag, method, attrs)
 	    return 1

     # Internal -- finish processing of end tag
     def finish_endtag(self, tag):
 	if not tag:
 	    found = len(self.stack) - 1
 	    if found < 0:
 		self.unknown_endtag(tag)
 		return
 	else:
 	    if tag not in self.stack:
 		try:
 		    method = getattr(self, 'end_' + tag)
 		except AttributeError:
 		    self.unknown_endtag(tag)
 		return
 	    found = len(self.stack)
 	    for i in range(found):
 		if self.stack[i] == tag: found = i
 	while len(self.stack) > found:
 	    tag = self.stack[-1]
 	    try:
 		method = getattr(self, 'end_' + tag)
 	    except AttributeError:
 		method = None
 	    if method:
 		self.handle_endtag(tag, method)
 	    else:
 		self.unknown_endtag(tag)
 	    del self.stack[-1]

     # Overridable -- handle start tag
     def handle_starttag(self, tag, method, attrs):
 	method(attrs)

     # Overridable -- handle end tag
     def handle_endtag(self, tag, method):
 	method()

     # Example -- handle character reference, no need to override
     def handle_charref(self, name):
 	try:
 	    if name[0] == 'x':
 		n = string.atoi(name[1:], 16)
 	    else:
 		n = string.atoi(name)
 	except string.atoi_error:
 	    self.unknown_charref(name)
 	    return
 	if not 0 <= n <= 255:
 	    self.unknown_charref(name)
 	    return
 	self.handle_data(chr(n))

     # Definition of entities -- derived classes may override
     entitydefs = \
 	    {'lt': '<', 'gt': '>', 'amp': '&', 'quot': '"', 'apos': '\''}

     # Example -- handle entity reference, no need to override
     def handle_entityref(self, name):
 	table = self.entitydefs
 	if table.has_key(name):
 	    self.handle_data(table[name])
 	else:
 	    self.unknown_entityref(name)
 	    return

     # Example -- handle data, should be overridden
     def handle_data(self, data):
 	pass

     # Example -- handle cdata, could be overridden
     def handle_cdata(self, data):
 	pass

     # Example -- handle comment, could be overridden
     def handle_comment(self, data):
 	pass

     # Example -- handle processing instructions, could be overridden
     def handle_proc(self, name, data):
 	pass

     # Example -- handle special instructions, could be overridden
     def handle_special(self, data):
 	pass

     # Example -- handle relatively harmless syntax errors, could be overridden
     def syntax_error(self, lineno, message):
 	raise RuntimeError, 'Syntax error at line %d: %s' % (lineno, message)

     # To be overridden -- handlers for unknown objects
     def unknown_starttag(self, tag, attrs): pass
     def unknown_endtag(self, tag): pass
     def unknown_charref(self, ref): pass
     def unknown_entityref(self, ref): pass


 class TestXMLParser(XMLParser):

     def __init__(self, verbose=0):
 	self.testdata = ""
 	XMLParser.__init__(self, verbose)

     def handle_data(self, data):
 	self.testdata = self.testdata + data
 	if len(`self.testdata`) >= 70:
 	    self.flush()

     def flush(self):
 	data = self.testdata
 	if data:
 	    self.testdata = ""
 	    print 'data:', `data`

     def handle_cdata(self, data):
 	self.flush()
 	print 'cdata:', `data`

     def handle_proc(self, name, data):
 	self.flush()
 	print 'processing:',name,`data`

     def handle_special(self, data):
 	self.flush()
 	print 'special:',`data`

     def handle_comment(self, data):
 	self.flush()
 	r = `data`
 	if len(r) > 68:
 	    r = r[:32] + '...' + r[-32:]
 	print 'comment:', r

     def syntax_error(self, lineno, message):
 	print 'error at line %d:' % lineno, message

     def unknown_starttag(self, tag, attrs):
 	self.flush()
 	if not attrs:
 	    print 'start tag: <' + tag + '>'
 	else:
 	    print 'start tag: <' + tag,
 	    for name, value in attrs:
 		print name + '=' + '"' + value + '"',
 	    print '>'

     def unknown_endtag(self, tag):
 	self.flush()
 	print 'end tag: </' + tag + '>'

     def unknown_entityref(self, ref):
 	self.flush()
 	print '*** unknown entity ref: &' + ref + ';'

     def unknown_charref(self, ref):
 	self.flush()
 	print '*** unknown char ref: &#' + ref + ';'

     def close(self):
 	XMLParser.close(self)
 	self.flush()

 def test(args = None):
     import sys

     if not args:
 	args = sys.argv[1:]

     if args and args[0] == '-s':
 	args = args[1:]
 	klass = XMLParser
     else:
 	klass = TestXMLParser

     if args:
 	file = args[0]
     else:
 	file = 'test.xml'

     if file == '-':
 	f = sys.stdin
     else:
 	try:
 	    f = open(file, 'r')
 	except IOError, msg:
 	    print file, ":", msg
 	    sys.exit(1)

     data = f.read()
     if f is not sys.stdin:
 	f.close()

     x = klass()
     for c in data:
 	x.feed(c)
     x.close()


 if __name__ == '__main__':
     test()
	# A parser for XML, using the derived class as static DTD.
	# Author: Sjoerd Mullender.

	import re
	import string


	# Regular expressions used for parsing

	_S = '[ \t\r\n]+'
	_opS = '[ \t\r\n]*'
	_Name = '[a-zA-Z_:][-a-zA-Z0-9._:]*'
	interesting = re.compile('[&<]')
	incomplete = re.compile('&(' + _Name + '\|#[0-9]\|#x[0-9a-fA-F])?\|'
	'<([a-zA-Z_:][^<>]*\|'
	'/([a-zA-Z_:][^<>]*)?\|'
	'![^<>]*\|'
	'\?[^<>]*)?')

	ref = re.compile('&(' + _Name + '\|#[0-9]+\|#x[0-9a-fA-F]+);?')
	entityref = re.compile('&(?P<name>' + _Name + ')[^-a-zA-Z0-9._:]')
	charref = re.compile('&#(?P<char>[0-9]+[^0-9]\|x[0-9a-fA-F]+[^0-9a-fA-F])')
	space = re.compile(_S)
	newline = re.compile('\n')

	starttagopen = re.compile('<' + _Name)
	endtagopen = re.compile('</')
	starttagend = re.compile(_opS + '(?P<slash>/?)>')
	endbracket = re.compile('>')
	tagfind = re.compile(_Name)
	cdataopen = re.compile('<!\[CDATA\[')
	cdataclose = re.compile('\]\]>')
	special = re.compile('<!(?P<special>[^<>]*)>')
	procopen = re.compile('<\?(?P<proc>' + _Name + ')' + _S)
	procclose = re.compile('\?>')
	commentopen = re.compile('<!--')
	commentclose = re.compile('-->')
	doubledash = re.compile('--')
	attrfind = re.compile(
	_S + '(?P<name>' + _Name + ')'
	'(' + _opS + '=' + _opS +
	'(?P<value>\'[^\']\'\|"[^"]"\|[-a-zA-Z0-9.:+*%?!()_#=~]+))')


	# XML parser base class -- find tags and call handler functions.
	# Usage: p = XMLParser(); p.feed(data); ...; p.close().
	# The dtd is defined by deriving a class which defines methods with
	# special names to handle tags: start_foo and end_foo to handle <foo>
	# and </foo>, respectively. The data between tags is passed to the
	# parser by calling self.handle_data() with some data as argument (the
	# data may be split up in arbutrary chunks). Entity references are
	# passed by calling self.handle_entityref() with the entity reference
	# as argument.

	class XMLParser:

	# Interface -- initialize and reset this instance
	def __init__(self, verbose=0):
	self.verbose = verbose
	self.reset()

	# Interface -- reset this instance. Loses all unprocessed data
	def reset(self):
	self.rawdata = ''
	self.stack = []
	self.lasttag = '???'
	self.nomoretags = 0
	self.literal = 0
	self.lineno = 1

	# For derived classes only -- enter literal mode (CDATA) till EOF
	def setnomoretags(self):
	self.nomoretags = self.literal = 1

	# For derived classes only -- enter literal mode (CDATA)
	def setliteral(self, *args):
	self.literal = 1

	# Interface -- feed some data to the parser. Call this as
	# often as you want, with as little or as much text as you
	# want (may include '\n'). (This just saves the text, all the
	# processing is done by goahead().)
	def feed(self, data):
	self.rawdata = self.rawdata + data
	self.goahead(0)

	# Interface -- handle the remaining data
	def close(self):
	self.goahead(1)

	# Interface -- translate references
	def translate_references(self, data):
	newdata = []
	i = 0
	while 1:
	res = ref.search(data, i)
	if res is None:
	newdata.append(data[i:])
	return string.join(newdata, '')
	if data[res.end(0) - 1] != ';':
	self.syntax_error(self.lineno,
	'; missing after entity/char reference')
	newdata.append(data[i:res.start(0)])
	str = res.group(1)
	if str[0] == '#':
	if str[1] == 'x':
	newdata.append(chr(string.atoi(str[2:], 16)))
	else:
	newdata.append(chr(string.atoi(str[1:])))
	else:
	try:
	newdata.append(self.entitydefs[str])
	except KeyError:
	# can't do it, so keep the entity ref in
	newdata.append('&' + str + ';')
	i = res.end(0)

	# Internal -- handle data as far as reasonable. May leave state
	# and data to be processed by a subsequent call. If 'end' is
	# true, force handling all data as if followed by EOF marker.
	def goahead(self, end):
	rawdata = self.rawdata
	i = 0
	n = len(rawdata)
	while i < n:
	if self.nomoretags:
	data = rawdata[i:n]
	self.handle_data(data)
	self.lineno = self.lineno + string.count(data, '\n')
	i = n
	break
	res = interesting.search(rawdata, i)
	if res:
	j = res.start(0)
	else:
	j = n
	if i < j:
	data = rawdata[i:j]
	self.handle_data(data)
	self.lineno = self.lineno + string.count(data, '\n')
	i = j
	if i == n: break
	if rawdata[i] == '<':
	if starttagopen.match(rawdata, i):
	if self.literal:
	data = rawdata[i]
	self.handle_data(data)
	self.lineno = self.lineno + string.count(data, '\n')
	i = i+1
	continue
	k = self.parse_starttag(i)
	if k < 0: break
	self.lineno = self.lineno + string.count(rawdata[i:k], '\n')
	i = k
	continue
	if endtagopen.match(rawdata, i):
	k = self.parse_endtag(i)
	if k < 0: break
	self.lineno = self.lineno + string.count(rawdata[i:k], '\n')
	i = k
	self.literal = 0
	continue
	if commentopen.match(rawdata, i):
	if self.literal:
	data = rawdata[i]
	self.handle_data(data)
	self.lineno = self.lineno + string.count(data, '\n')
	i = i+1
	continue
	k = self.parse_comment(i)
	if k < 0: break
	self.lineno = self.lineno + string.count(rawdata[i:k], '\n')
	i = k
	continue
	if cdataopen.match(rawdata, i):
	k = self.parse_cdata(i)
	if k < 0: break
	self.lineno = self.lineno + string.count(rawdata[i:i], '\n')
	i = k
	continue
	res = procopen.match(rawdata, i)
	if res:
	k = self.parse_proc(i, res)
	if k < 0: break
	self.lineno = self.lineno + string.count(rawdata[i:k], '\n')
	i = k
	continue
	res = special.match(rawdata, i)
	if res:
	if self.literal:
	data = rawdata[i]
	self.handle_data(data)
	self.lineno = self.lineno + string.count(data, '\n')
	i = i+1
	continue
	self.handle_special(res.group('special'))
	self.lineno = self.lineno + string.count(res.group(0), '\n')
	i = res.end(0)
	continue
	elif rawdata[i] == '&':
	res = charref.match(rawdata, i)
	if res is not None:
	i = res.end(0)
	if rawdata[i-1] != ';':
	self.syntax_error(self.lineno, '; missing in charref')
	i = i-1
	self.handle_charref(res.group('char')[:-1])
	self.lineno = self.lineno + string.count(res.group(0), '\n')
	continue
	res = entityref.match(rawdata, i)
	if res is not None:
	i = res.end(0)
	if rawdata[i-1] != ';':
	self.syntax_error(self.lineno, '; missing in entityref')
	i = i-1
	self.handle_entityref(res.group('name'))
	self.lineno = self.lineno + string.count(res.group(0), '\n')
	continue
	else:
	raise RuntimeError, 'neither < nor & ??'
	# We get here only if incomplete matches but
	# nothing else
	res = incomplete.match(rawdata, i)
	if not res:
	data = rawdata[i]
	self.handle_data(data)
	self.lineno = self.lineno + string.count(data, '\n')
	i = i+1
	continue
	j = res.end(0)
	if j == n:
	break # Really incomplete
	self.syntax_error(self.lineno, 'bogus < or &')
	data = res.group(0)
	self.handle_data(data)
	self.lineno = self.lineno + string.count(data, '\n')
	i = j
	# end while
	if end and i < n:
	data = rawdata[i:n]
	self.handle_data(data)
	self.lineno = self.lineno + string.count(data, '\n')
	i = n
	self.rawdata = rawdata[i:]
	# XXX if end: check for empty stack

	# Internal -- parse comment, return length or -1 if not terminated
	def parse_comment(self, i):
	rawdata = self.rawdata
	if rawdata[i:i+4] <> '<!--':
	raise RuntimeError, 'unexpected call to handle_comment'
	res = commentclose.search(rawdata, i+4)
	if not res:
	return -1
	# doubledash search will succeed because it's a subset of commentclose
	if doubledash.search(rawdata, i+4).start(0) < res.start(0):
	self.syntax_error(self.lineno, "`--' inside comment")
	self.handle_comment(rawdata[i+4: res.start(0)])
	return res.end(0)

	# Internal -- handle CDATA tag, return lenth or -1 if not terminated
	def parse_cdata(self, i):
	rawdata = self.rawdata
	if rawdata[i:i+9] <> '<![CDATA[':
	raise RuntimeError, 'unexpected call to handle_cdata'
	res = cdataclose.search(rawdata, i+9)
	if not res:
	return -1
	self.handle_cdata(rawdata[i+9:res.start(0)])
	return res.end(0)

	def parse_proc(self, i, res):
	rawdata = self.rawdata
	if not res:
	raise RuntimeError, 'unexpected call to parse_proc'
	name = res.group('proc')
	res = procclose.search(rawdata, res.end(0))
	if not res:
	return -1
	self.handle_proc(name, rawdata[res.pos:res.start(0)])
	return res.end(0)

	# Internal -- handle starttag, return length or -1 if not terminated
	def parse_starttag(self, i):
	rawdata = self.rawdata
	# i points to start of tag
	end = endbracket.search(rawdata, i+1)
	if not end:
	return -1
	j = end.start(0)
	# Now parse the data between i+1 and j into a tag and attrs
	attrdict = {}
	res = tagfind.match(rawdata, i+1)
	if not res:
	raise RuntimeError, 'unexpected call to parse_starttag'
	k = res.end(0)
	tag = res.group(0)
	if hasattr(self, tag + '_attributes'):
	attrlist = getattr(self, tag + '_attributes')
	else:
	attrlist = None
	self.lasttag = tag
	while k < j:
	res = attrfind.match(rawdata, k)
	if not res: break
	attrname, attrvalue = res.group('name', 'value')
	if attrvalue is None:
	self.syntax_error(self.lineno, 'no attribute value specified')
	attrvalue = attrname
	elif attrvalue[:1] == "'" == attrvalue[-1:] or \
	attrvalue[:1] == '"' == attrvalue[-1:]:
	attrvalue = attrvalue[1:-1]
	else:
	self.syntax_error(self.lineno, 'attribute value not quoted')
	if attrlist is not None and attrname not in attrlist:
	self.syntax_error(self.lineno,
	'unknown attribute %s of element %s' %
	(attrname, tag))
	if attrdict.has_key(attrname):
	self.syntax_error(self.lineno, 'attribute specified twice')
	attrdict[attrname] = self.translate_references(attrvalue)
	k = res.end(0)
	res = starttagend.match(rawdata, k)
	if not res:
	self.syntax_error(self.lineno, 'garbage in start tag')
	self.finish_starttag(tag, attrdict)
	if res and res.group('slash') == '/':
	self.finish_endtag(tag)
	return end.end(0)

	# Internal -- parse endtag
	def parse_endtag(self, i):
	rawdata = self.rawdata
	end = endbracket.search(rawdata, i+1)
	if not end:
	return -1
	res = tagfind.match(rawdata, i+2)
	if not res:
	self.syntax_error(self.lineno, 'no name specified in end tag')
	tag = ''
	k = i+2
	else:
	tag = res.group(0)
	k = res.end(0)
	if k != end.start(0):
	# check that there is only white space at end of tag
	res = space.match(rawdata, k)
	if res is None or res.end(0) != end.start(0):
	self.syntax_error(self.lineno, 'garbage in end tag')
	self.finish_endtag(tag)
	return end.end(0)

	# Internal -- finish processing of start tag
	# Return -1 for unknown tag, 1 for balanced tag
	def finish_starttag(self, tag, attrs):
	self.stack.append(tag)
	try:
	method = getattr(self, 'start_' + tag)
	except AttributeError:
	self.unknown_starttag(tag, attrs)
	return -1
	else:
	self.handle_starttag(tag, method, attrs)
	return 1

	# Internal -- finish processing of end tag
	def finish_endtag(self, tag):
	if not tag:
	found = len(self.stack) - 1
	if found < 0:
	self.unknown_endtag(tag)
	return
	else:
	if tag not in self.stack:
	try:
	method = getattr(self, 'end_' + tag)
	except AttributeError:
	self.unknown_endtag(tag)
	return
	found = len(self.stack)
	for i in range(found):
	if self.stack[i] == tag: found = i
	while len(self.stack) > found:
	tag = self.stack[-1]
	try:
	method = getattr(self, 'end_' + tag)
	except AttributeError:
	method = None
	if method:
	self.handle_endtag(tag, method)
	else:
	self.unknown_endtag(tag)
	del self.stack[-1]

	# Overridable -- handle start tag
	def handle_starttag(self, tag, method, attrs):
	method(attrs)

	# Overridable -- handle end tag
	def handle_endtag(self, tag, method):
	method()

	# Example -- handle character reference, no need to override
	def handle_charref(self, name):
	try:
	if name[0] == 'x':
	n = string.atoi(name[1:], 16)
	else:
	n = string.atoi(name)
	except string.atoi_error:
	self.unknown_charref(name)
	return
	if not 0 <= n <= 255:
	self.unknown_charref(name)
	return
	self.handle_data(chr(n))

	# Definition of entities -- derived classes may override
	entitydefs = \
	{'lt': '<', 'gt': '>', 'amp': '&', 'quot': '"', 'apos': '\''}

	# Example -- handle entity reference, no need to override
	def handle_entityref(self, name):
	table = self.entitydefs
	if table.has_key(name):
	self.handle_data(table[name])
	else:
	self.unknown_entityref(name)
	return

	# Example -- handle data, should be overridden
	def handle_data(self, data):
	pass

	# Example -- handle cdata, could be overridden
	def handle_cdata(self, data):
	pass

	# Example -- handle comment, could be overridden
	def handle_comment(self, data):
	pass

	# Example -- handle processing instructions, could be overridden
	def handle_proc(self, name, data):
	pass

	# Example -- handle special instructions, could be overridden
	def handle_special(self, data):
	pass

	# Example -- handle relatively harmless syntax errors, could be overridden
	def syntax_error(self, lineno, message):
	raise RuntimeError, 'Syntax error at line %d: %s' % (lineno, message)

	# To be overridden -- handlers for unknown objects
	def unknown_starttag(self, tag, attrs): pass
	def unknown_endtag(self, tag): pass
	def unknown_charref(self, ref): pass
	def unknown_entityref(self, ref): pass


	class TestXMLParser(XMLParser):

	def __init__(self, verbose=0):
	self.testdata = ""
	XMLParser.__init__(self, verbose)

	def handle_data(self, data):
	self.testdata = self.testdata + data
	if len(`self.testdata`) >= 70:
	self.flush()

	def flush(self):
	data = self.testdata
	if data:
	self.testdata = ""
	print 'data:', `data`

	def handle_cdata(self, data):
	self.flush()
	print 'cdata:', `data`

	def handle_proc(self, name, data):
	self.flush()
	print 'processing:',name,`data`

	def handle_special(self, data):
	self.flush()
	print 'special:',`data`

	def handle_comment(self, data):
	self.flush()
	r = `data`
	if len(r) > 68:
	r = r[:32] + '...' + r[-32:]
	print 'comment:', r

	def syntax_error(self, lineno, message):
	print 'error at line %d:' % lineno, message

	def unknown_starttag(self, tag, attrs):
	self.flush()
	if not attrs:
	print 'start tag: <' + tag + '>'
	else:
	print 'start tag: <' + tag,
	for name, value in attrs:
	print name + '=' + '"' + value + '"',
	print '>'

	def unknown_endtag(self, tag):
	self.flush()
	print 'end tag: </' + tag + '>'

	def unknown_entityref(self, ref):
	self.flush()
	print '*** unknown entity ref: &' + ref + ';'

	def unknown_charref(self, ref):
	self.flush()
	print '*** unknown char ref: &#' + ref + ';'

	def close(self):
	XMLParser.close(self)
	self.flush()

	def test(args = None):
	import sys

	if not args:
	args = sys.argv[1:]

	if args and args[0] == '-s':
	args = args[1:]
	klass = XMLParser
	else:
	klass = TestXMLParser

	if args:
	file = args[0]
	else:
	file = 'test.xml'

	if file == '-':
	f = sys.stdin
	else:
	try:
	f = open(file, 'r')
	except IOError, msg:
	print file, ":", msg
	sys.exit(1)

	data = f.read()
	if f is not sys.stdin:
	f.close()

	x = klass()
	for c in data:
	x.feed(c)
	x.close()


	if __name__ == '__main__':
	test()