"""Module for supporting the lxml.etree library. The idea here is to use as much of the native library as possible, without using fragile hacks like custom element names that break between releases. The downside of this is that we cannot represent all possible trees; specifically the following are known to cause problems: Text or comments as siblings of the root element Docypes with no name When any of these things occur, we emit a DataLossWarning """ from __future__ import absolute_import, division, unicode_literals import warnings import re import sys from . import _base from ..constants import DataLossWarning from .. import constants from . import etree as etree_builders from .. import ihatexml import lxml.etree as etree fullTree = True tag_regexp = re.compile("{([^}]*)}(.*)") comment_type = etree.Comment("asd").tag class DocumentType(object): def __init__(self, name, publicId, systemId): self.name = name self.publicId = publicId self.systemId = systemId class Document(object): def __init__(self): self._elementTree = None self._childNodes = [] def appendChild(self, element): self._elementTree.getroot().addnext(element._element) def _getChildNodes(self): return self._childNodes childNodes = property(_getChildNodes) def testSerializer(element): rv = [] finalText = None infosetFilter = ihatexml.InfosetFilter(preventDoubleDashComments=True) def serializeElement(element, indent=0): if not hasattr(element, "tag"): if hasattr(element, "getroot"): # Full tree case rv.append("#document") if element.docinfo.internalDTD: if not (element.docinfo.public_id or element.docinfo.system_url): dtd_str = "" % element.docinfo.root_name else: dtd_str = """""" % ( element.docinfo.root_name, element.docinfo.public_id, element.docinfo.system_url) rv.append("|%s%s" % (' ' * (indent + 2), dtd_str)) next_element = element.getroot() while next_element.getprevious() is not None: next_element = next_element.getprevious() while next_element is not None: serializeElement(next_element, indent + 2) next_element = next_element.getnext() elif isinstance(element, str) or isinstance(element, bytes): # Text in a fragment assert isinstance(element, str) or sys.version_info[0] == 2 rv.append("|%s\"%s\"" % (' ' * indent, element)) else: # Fragment case rv.append("#document-fragment") for next_element in element: serializeElement(next_element, indent + 2) elif element.tag == comment_type: rv.append("|%s" % (' ' * indent, element.text)) if hasattr(element, "tail") and element.tail: rv.append("|%s\"%s\"" % (' ' * indent, element.tail)) else: assert isinstance(element, etree._Element) nsmatch = etree_builders.tag_regexp.match(element.tag) if nsmatch is not None: ns = nsmatch.group(1) tag = nsmatch.group(2) prefix = constants.prefixes[ns] rv.append("|%s<%s %s>" % (' ' * indent, prefix, infosetFilter.fromXmlName(tag))) else: rv.append("|%s<%s>" % (' ' * indent, infosetFilter.fromXmlName(element.tag))) if hasattr(element, "attrib"): attributes = [] for name, value in element.attrib.items(): nsmatch = tag_regexp.match(name) if nsmatch is not None: ns, name = nsmatch.groups() name = infosetFilter.fromXmlName(name) prefix = constants.prefixes[ns] attr_string = "%s %s" % (prefix, name) else: attr_string = infosetFilter.fromXmlName(name) attributes.append((attr_string, value)) for name, value in sorted(attributes): rv.append('|%s%s="%s"' % (' ' * (indent + 2), name, value)) if element.text: rv.append("|%s\"%s\"" % (' ' * (indent + 2), element.text)) indent += 2 for child in element: serializeElement(child, indent) if hasattr(element, "tail") and element.tail: rv.append("|%s\"%s\"" % (' ' * (indent - 2), element.tail)) serializeElement(element, 0) if finalText is not None: rv.append("|%s\"%s\"" % (' ' * 2, finalText)) return "\n".join(rv) def tostring(element): """Serialize an element and its child nodes to a string""" rv = [] finalText = None def serializeElement(element): if not hasattr(element, "tag"): if element.docinfo.internalDTD: if element.docinfo.doctype: dtd_str = element.docinfo.doctype else: dtd_str = "" % element.docinfo.root_name rv.append(dtd_str) serializeElement(element.getroot()) elif element.tag == comment_type: rv.append("" % (element.text,)) else: # This is assumed to be an ordinary element if not element.attrib: rv.append("<%s>" % (element.tag,)) else: attr = " ".join(["%s=\"%s\"" % (name, value) for name, value in element.attrib.items()]) rv.append("<%s %s>" % (element.tag, attr)) if element.text: rv.append(element.text) for child in element: serializeElement(child) rv.append("" % (element.tag,)) if hasattr(element, "tail") and element.tail: rv.append(element.tail) serializeElement(element) if finalText is not None: rv.append("%s\"" % (' ' * 2, finalText)) return "".join(rv) class TreeBuilder(_base.TreeBuilder): documentClass = Document doctypeClass = DocumentType elementClass = None commentClass = None fragmentClass = Document implementation = etree def __init__(self, namespaceHTMLElements, fullTree=False): builder = etree_builders.getETreeModule(etree, fullTree=fullTree) infosetFilter = self.infosetFilter = ihatexml.InfosetFilter(preventDoubleDashComments=True) self.namespaceHTMLElements = namespaceHTMLElements class Attributes(dict): def __init__(self, element, value={}): self._element = element dict.__init__(self, value) for key, value in self.items(): if isinstance(key, tuple): name = "{%s}%s" % (key[2], infosetFilter.coerceAttribute(key[1])) else: name = infosetFilter.coerceAttribute(key) self._element._element.attrib[name] = value def __setitem__(self, key, value): dict.__setitem__(self, key, value) if isinstance(key, tuple): name = "{%s}%s" % (key[2], infosetFilter.coerceAttribute(key[1])) else: name = infosetFilter.coerceAttribute(key) self._element._element.attrib[name] = value class Element(builder.Element): def __init__(self, name, namespace): name = infosetFilter.coerceElement(name) builder.Element.__init__(self, name, namespace=namespace) self._attributes = Attributes(self) def _setName(self, name): self._name = infosetFilter.coerceElement(name) self._element.tag = self._getETreeTag( self._name, self._namespace) def _getName(self): return infosetFilter.fromXmlName(self._name) name = property(_getName, _setName) def _getAttributes(self): return self._attributes def _setAttributes(self, attributes): self._attributes = Attributes(self, attributes) attributes = property(_getAttributes, _setAttributes) def insertText(self, data, insertBefore=None): data = infosetFilter.coerceCharacters(data) builder.Element.insertText(self, data, insertBefore) def appendChild(self, child): builder.Element.appendChild(self, child) class Comment(builder.Comment): def __init__(self, data): data = infosetFilter.coerceComment(data) builder.Comment.__init__(self, data) def _setData(self, data): data = infosetFilter.coerceComment(data) self._element.text = data def _getData(self): return self._element.text data = property(_getData, _setData) self.elementClass = Element self.commentClass = Comment # self.fragmentClass = builder.DocumentFragment _base.TreeBuilder.__init__(self, namespaceHTMLElements) def reset(self): _base.TreeBuilder.reset(self) self.insertComment = self.insertCommentInitial self.initial_comments = [] self.doctype = None def testSerializer(self, element): return testSerializer(element) def getDocument(self): if fullTree: return self.document._elementTree else: return self.document._elementTree.getroot() def getFragment(self): fragment = [] element = self.openElements[0]._element if element.text: fragment.append(element.text) fragment.extend(list(element)) if element.tail: fragment.append(element.tail) return fragment def insertDoctype(self, token): name = token["name"] publicId = token["publicId"] systemId = token["systemId"] if not name: warnings.warn("lxml cannot represent empty doctype", DataLossWarning) self.doctype = None else: coercedName = self.infosetFilter.coerceElement(name) if coercedName != name: warnings.warn("lxml cannot represent non-xml doctype", DataLossWarning) doctype = self.doctypeClass(coercedName, publicId, systemId) self.doctype = doctype def insertCommentInitial(self, data, parent=None): self.initial_comments.append(data) def insertCommentMain(self, data, parent=None): if (parent == self.document and self.document._elementTree.getroot()[-1].tag == comment_type): warnings.warn("lxml cannot represent adjacent comments beyond the root elements", DataLossWarning) super(TreeBuilder, self).insertComment(data, parent) def insertRoot(self, token): """Create the document root""" # Because of the way libxml2 works, it doesn't seem to be possible to # alter information like the doctype after the tree has been parsed. # Therefore we need to use the built-in parser to create our initial # tree, after which we can add elements like normal docStr = "" if self.doctype: assert self.doctype.name docStr += "= 0 and sysid.find('"') >= 0: warnings.warn("DOCTYPE system cannot contain single and double quotes", DataLossWarning) sysid = sysid.replace("'", 'U00027') if sysid.find("'") >= 0: docStr += '"%s"' % sysid else: docStr += "'%s'" % sysid else: docStr += "''" docStr += ">" if self.doctype.name != token["name"]: warnings.warn("lxml cannot represent doctype with a different name to the root element", DataLossWarning) docStr += "" root = etree.fromstring(docStr) # Append the initial comments: for comment_token in self.initial_comments: comment = self.commentClass(comment_token["data"]) root.addprevious(comment._element) # Create the root document and add the ElementTree to it self.document = self.documentClass() self.document._elementTree = root.getroottree() # Give the root element the right name name = token["name"] namespace = token.get("namespace", self.defaultNamespace) if namespace is None: etree_tag = name else: etree_tag = "{%s}%s" % (namespace, name) root.tag = etree_tag # Add the root element to the internal child/open data structures root_element = self.elementClass(name, namespace) root_element._element = root self.document._childNodes.append(root_element) self.openElements.append(root_element) # Reset to the default insert comment function self.insertComment = self.insertCommentMain