Mercurial > genshi > mirror
view markup/input.py @ 146:04799355362d trunk
Simplifed `CoalesceFilter` (now a function)
| author | cmlenz |
|---|---|
| date | Tue, 15 Aug 2006 10:12:03 +0000 |
| parents | 47bbd9d2a5af |
| children | d19e8a2c549e |
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# -*- coding: utf-8 -*- # # Copyright (C) 2006 Edgewall Software # All rights reserved. # # This software is licensed as described in the file COPYING, which # you should have received as part of this distribution. The terms # are also available at http://markup.edgewall.org/wiki/License. # # This software consists of voluntary contributions made by many # individuals. For the exact contribution history, see the revision # history and logs, available at http://markup.edgewall.org/log/. from itertools import chain from xml.parsers import expat try: frozenset except NameError: from sets import ImmutableSet as frozenset import HTMLParser as html import htmlentitydefs from StringIO import StringIO from markup.core import Attributes, QName, Stream from markup.core import DOCTYPE, START, END, START_NS, END_NS, TEXT, \ START_CDATA, END_CDATA, PI, COMMENT __all__ = ['ParseError', 'XMLParser', 'XML', 'HTMLParser', 'HTML'] class ParseError(Exception): """Exception raised when fatal syntax errors are found in the input being parsed.""" def __init__(self, message, filename='<string>', lineno=-1, offset=-1): Exception.__init__(self, message) self.filename = filename self.lineno = lineno self.offset = offset class XMLParser(object): """Generator-based XML parser based on roughly equivalent code in Kid/ElementTree. The parsing is initiated by iterating over the parser object: >>> parser = XMLParser(StringIO('<root id="2"><child>Foo</child></root>')) >>> for kind, data, pos in parser: ... print kind, data START (u'root', [(u'id', u'2')]) START (u'child', []) TEXT Foo END child END root """ def __init__(self, source, filename=None): """Initialize the parser for the given XML text. @param source: the XML text as a file-like object @param filename: the name of the file, if appropriate """ self.source = source self.filename = filename # Setup the Expat parser parser = expat.ParserCreate('utf-8', '}') parser.buffer_text = True parser.returns_unicode = True parser.StartElementHandler = self._handle_start parser.EndElementHandler = self._handle_end parser.CharacterDataHandler = self._handle_data parser.StartDoctypeDeclHandler = self._handle_doctype parser.StartNamespaceDeclHandler = self._handle_start_ns parser.EndNamespaceDeclHandler = self._handle_end_ns parser.StartCdataSectionHandler = self._handle_start_cdata parser.EndCdataSectionHandler = self._handle_end_cdata parser.ProcessingInstructionHandler = self._handle_pi parser.CommentHandler = self._handle_comment parser.DefaultHandler = self._handle_other # Location reporting is only support in Python >= 2.4 if not hasattr(parser, 'CurrentLineNumber'): self._getpos = self._getpos_unknown self.expat = parser self._queue = [] def parse(self): def _generate(): try: bufsize = 4 * 1024 # 4K done = False while 1: while not done and len(self._queue) == 0: data = self.source.read(bufsize) if data == '': # end of data if hasattr(self, 'expat'): self.expat.Parse('', True) del self.expat # get rid of circular references done = True else: self.expat.Parse(data, False) for event in self._queue: yield event self._queue = [] if done: break except expat.ExpatError, e: msg = str(e) if self.filename: msg += ', in ' + self.filename raise ParseError(msg, self.filename, e.lineno, e.offset) return Stream(_generate()).filter(_coalesce) def __iter__(self): return iter(self.parse()) def _enqueue(self, kind, data=None, pos=None): if pos is None: pos = self._getpos() if kind is TEXT: # Expat reports the *end* of the text event as current position. We # try to fix that up here as much as possible. Unfortunately, the # offset is only valid for single-line text. For multi-line text, # it is apparently not possible to determine at what offset it # started if '\n' in data: lines = data.splitlines() lineno = pos[1] - len(lines) + 1 offset = -1 else: lineno = pos[1] offset = pos[2] - len(data) pos = (pos[0], lineno, offset) self._queue.append((kind, data, pos)) def _getpos_unknown(self): return (self.filename, -1, -1) def _getpos(self): return (self.filename, self.expat.CurrentLineNumber, self.expat.CurrentColumnNumber) def _handle_start(self, tag, attrib): self._enqueue(START, (QName(tag), Attributes(attrib.items()))) def _handle_end(self, tag): self._enqueue(END, QName(tag)) def _handle_data(self, text): self._enqueue(TEXT, text) def _handle_doctype(self, name, sysid, pubid, has_internal_subset): self._enqueue(DOCTYPE, (name, pubid, sysid)) def _handle_start_ns(self, prefix, uri): self._enqueue(START_NS, (prefix or '', uri)) def _handle_end_ns(self, prefix): self._enqueue(END_NS, prefix or '') def _handle_start_cdata(self): self._enqueue(START_CDATA) def _handle_end_cdata(self): self._enqueue(END_CDATA) def _handle_pi(self, target, data): self._enqueue(PI, (target, data)) def _handle_comment(self, text): self._enqueue(COMMENT, text) def _handle_other(self, text): if text.startswith('&'): # deal with undefined entities try: text = unichr(htmlentitydefs.name2codepoint[text[1:-1]]) self._enqueue(TEXT, text) except KeyError: lineno, offset = self._getpos() raise expat.error("undefined entity %s: line %d, column %d" % (text, lineno, offset)) def XML(text): return Stream(list(XMLParser(StringIO(text)))) class HTMLParser(html.HTMLParser, object): """Parser for HTML input based on the Python `HTMLParser` module. This class provides the same interface for generating stream events as `XMLParser`, and attempts to automatically balance tags. The parsing is initiated by iterating over the parser object: >>> parser = HTMLParser(StringIO('<UL compact><LI>Foo</UL>')) >>> for kind, data, pos in parser: ... print kind, data START (u'ul', [(u'compact', u'compact')]) START (u'li', []) TEXT Foo END li END ul """ _EMPTY_ELEMS = frozenset(['area', 'base', 'basefont', 'br', 'col', 'frame', 'hr', 'img', 'input', 'isindex', 'link', 'meta', 'param']) def __init__(self, source, filename=None): html.HTMLParser.__init__(self) self.source = source self.filename = filename self._queue = [] self._open_tags = [] def parse(self): def _generate(): try: bufsize = 4 * 1024 # 4K done = False while 1: while not done and len(self._queue) == 0: data = self.source.read(bufsize) if data == '': # end of data self.close() done = True else: self.feed(data) for kind, data, pos in self._queue: yield kind, data, pos self._queue = [] if done: open_tags = self._open_tags open_tags.reverse() for tag in open_tags: yield END, QName(tag), pos break except html.HTMLParseError, e: msg = '%s: line %d, column %d' % (e.msg, e.lineno, e.offset) if self.filename: msg += ', in %s' % self.filename raise ParseError(msg, self.filename, e.lineno, e.offset) return Stream(_generate()).filter(_coalesce) def __iter__(self): return iter(self.parse()) def _enqueue(self, kind, data, pos=None): if pos is None: pos = self._getpos() self._queue.append((kind, data, pos)) def _getpos(self): lineno, column = self.getpos() return (self.filename, lineno, column) def handle_starttag(self, tag, attrib): fixed_attrib = [] for name, value in attrib: # Fixup minimized attributes if value is None: value = name fixed_attrib.append((name, unicode(value))) self._enqueue(START, (QName(tag), Attributes(fixed_attrib))) if tag in self._EMPTY_ELEMS: self._enqueue(END, QName(tag)) else: self._open_tags.append(tag) def handle_endtag(self, tag): if tag not in self._EMPTY_ELEMS: while self._open_tags: open_tag = self._open_tags.pop() if open_tag.lower() == tag.lower(): break self._enqueue(END, QName(open_tag)) self._enqueue(END, QName(tag)) def handle_data(self, text): self._enqueue(TEXT, text) def handle_charref(self, name): text = unichr(int(name)) self._enqueue(TEXT, text) def handle_entityref(self, name): try: text = unichr(htmlentitydefs.name2codepoint[name]) except KeyError: text = '&%s;' % name self._enqueue(TEXT, text) def handle_pi(self, data): target, data = data.split(maxsplit=1) data = data.rstrip('?') self._enqueue(PI, (target.strip(), data.strip())) def handle_comment(self, text): self._enqueue(COMMENT, text) def HTML(text): return Stream(list(HTMLParser(StringIO(text)))) def _coalesce(stream): """Coalesces adjacent TEXT events into a single event.""" textbuf = [] textpos = None for kind, data, pos in chain(stream, [(None, None, None)]): if kind is TEXT: textbuf.append(data) if textpos is None: textpos = pos else: if textbuf: yield TEXT, u''.join(textbuf), textpos del textbuf[:] textpos = None if kind: yield kind, data, pos