path: root/Lib/xml/dom/minidom.py

"""\
minidom.py -- a lightweight DOM implementation based on SAX.

parse( "foo.xml" )

parseString( "<foo><bar/></foo>" )

Todo:
=====
 * convenience methods for getting elements and text.
 * more testing
 * bring some of the writer and linearizer code into conformance with this
        interface
 * SAX 2 namespaces
"""

import pulldom
import string
from StringIO import StringIO
import types

class Node:
    ELEMENT_NODE                = 1
    ATTRIBUTE_NODE              = 2
    TEXT_NODE                   = 3
    CDATA_SECTION_NODE          = 4
    ENTITY_REFERENCE_NODE       = 5
    ENTITY_NODE                 = 6
    PROCESSING_INSTRUCTION_NODE = 7
    COMMENT_NODE                = 8
    DOCUMENT_NODE               = 9
    DOCUMENT_TYPE_NODE          = 10
    DOCUMENT_FRAGMENT_NODE      = 11
    NOTATION_NODE               = 12

    allnodes = {}
    _debug = 0
    _makeParentNodes = 1
    debug = None

    def __init__(self):
        self.childNodes = []
        if Node._debug: 
            index = repr(id(self)) + repr(self.__class__)
            Node.allnodes[index] = repr(self.__dict__)
            if Node.debug is None:
                Node.debug = StringIO()
                #open( "debug4.out", "w" )
            Node.debug.write("create %s\n" % index)

    def __getattr__(self, key):
        if key[0:2] == "__":
            raise AttributeError
        # getattr should never call getattr!
        if self.__dict__.has_key("inGetAttr"): 
            del self.inGetAttr
            raise AttributeError, key

        prefix, attrname = key[:5], key[5:]
        if prefix == "_get_":
            self.inGetAttr = 1
            if hasattr(self, attrname): 
                del self.inGetAttr
                return (lambda self=self, attrname=attrname: 
                                getattr(self, attrname))
            else:
                del self.inGetAttr
                raise AttributeError, key
        else:
            self.inGetAttr = 1
            try:
                func = getattr(self, "_get_" + key)
            except AttributeError:
                raise AttributeError, key
            del self.inGetAttr
            return func()

    def __nonzero__(self):
        return 1

    def toxml(self):
        writer = StringIO()
        self.writexml(writer)
        return writer.getvalue()

    def hasChildNodes(self):
        if self.childNodes:
            return 1
        else:
            return 0

    def _get_firstChild(self):
        return self.childNodes[0]

    def _get_lastChild(self):
        return self.childNodes[-1]

    def insertBefore(self, newChild, refChild):
        index = self.childNodes.index(refChild)
        self.childNodes.insert(index, newChild)
        if self._makeParentNodes:
            newChild.parentNode = self

    def appendChild(self, node):
        self.childNodes.append(node)
        return node

    def replaceChild(self, newChild, oldChild):
        index = self.childNodes.index(oldChild)
        self.childNodes[index] = oldChild

    def removeChild(self, oldChild):
        index = self.childNodes.index(oldChild)
        del self.childNodes[index]

    def cloneNode(self, deep):
        import new
        clone = new.instance(self.__class__, self.__dict__)
        clone.attributes = self.attributes.copy()
        if not deep:
            clone.childNodes = []
        else:
            clone.childNodes = map(lambda x: x.cloneNode, self.childNodes)
        return clone

    def unlink(self):
        self.parentNode = None
        while self.childNodes:
            self.childNodes[-1].unlink()
            del self.childNodes[-1] # probably not most efficient!
        self.childNodes = None
        if self.attributes:
            for attr in self._attrs.values():
                self.removeAttributeNode(attr)
            assert not len(self._attrs)
            assert not len(self._attrsNS)
        if Node._debug:
            index = repr(id(self)) + repr(self.__class__)
            self.debug.write("Deleting: %s\n" % index)
            del Node.allnodes[index]

def _write_data(writer, data):
    "Writes datachars to writer."
    data = string.replace(data, "&", "&amp;")
    data = string.replace(data, "<", "&lt;")
    data = string.replace(data, "\"", "&quot;")
    data = string.replace(data, ">", "&gt;")
    writer.write(data)

def _getElementsByTagNameHelper(parent, name, rc):
    for node in parent.childNodes:
        if node.nodeType == Node.ELEMENT_NODE and \
            (name == "*" or node.tagName == name):
            rc.append(node)
        _getElementsByTagNameHelper(node, name, rc)
    return rc

def _getElementsByTagNameNSHelper(parent, nsURI, localName, rc):
    for node in parent.childNodes:
        if node.nodeType == Node.ELEMENT_NODE:
            if ((localName == "*" or node.tagName == localName) and
                (nsURI == "*" or node.namespaceURI == nsURI)):
                rc.append(node)
            _getElementsByTagNameNSHelper(node, name, rc)

class Attr(Node):
    nodeType = Node.ATTRIBUTE_NODE

    def __init__(self, qName, namespaceURI="", localName=None, prefix=None):
        # skip setattr for performance
        self.__dict__["localName"] = localName or qName
        self.__dict__["nodeName"] = self.__dict__["name"] = qName
        self.__dict__["namespaceURI"] = namespaceURI
        self.__dict__["prefix"] = prefix
        self.attributes = None
        Node.__init__(self)
        # nodeValue and value are set elsewhere

    def __setattr__(self, name, value):
        if name in ("value", "nodeValue"):
            self.__dict__["value"] = self.__dict__["nodeValue"] = value
        else:
            self.__dict__[name] = value

class AttributeList:
    """the attribute list is a transient interface to the underlying
    dictionaries.  mutations here will change the underlying element's
    dictionary"""
    def __init__(self, attrs, attrsNS):
        self._attrs = attrs
        self._attrsNS = attrsNS
        self.length = len(self._attrs.keys())

    def item(self, index):
        try:
            return self[self.keys()[index]]
        except IndexError:
            return None

    def items(self):
        return map(lambda node: (node.tagName, node.value),
                   self._attrs.values())

    def itemsNS(self):
        return map(lambda node: ((node.URI, node.localName), node.value),
                   self._attrs.values())
    
    def keys(self):
        return self._attrs.keys()

    def keysNS(self):
        return self._attrsNS.keys()

    def values(self):
        return self._attrs.values()

    def __len__(self):
        return self.length

    def __cmp__(self, other):
        if self._attrs is getattr(other, "_attrs", None):
            return 0
        else: 
            return cmp(id(self), id(other))

    #FIXME: is it appropriate to return .value?
    def __getitem__(self, attname_or_tuple):
        if type(attname_or_tuple) is types.TupleType:
            return self._attrsNS[attname_or_tuple]
        else:
            return self._attrs[attname_or_tuple]

    # same as set
    def __setitem__(self, attname, value):
        if type(value) is types.StringType:
            node = Attr(attname)
            node.value=value
        else:
            assert isinstance(value, Attr) or type(value) is types.StringType
            node = value
        old = self._attrs.get(attname, None)
        if old:
            old.unlink()
        self._attrs[node.name] = node
        self._attrsNS[(node.namespaceURI, node.localName)] = node

    def __delitem__(self, attname_or_tuple):
        node = self[attname_or_tuple]
        node.unlink()
        del self._attrs[node.name]
        del self._attrsNS[(node.namespaceURI, node.localName)]

class Element(Node):
    nodeType = Node.ELEMENT_NODE

    def __init__(self, tagName, namespaceURI="", prefix="",
                 localName=None):
        Node.__init__(self)
        self.tagName = self.nodeName = tagName
        self.localName = localName or tagName
        self.prefix = prefix
        self.namespaceURI = namespaceURI
        self.nodeValue = None

        self._attrs={}  # attributes are double-indexed:
        self._attrsNS={}#    tagName -> Attribute
                #    URI,localName -> Attribute
                # in the future: consider lazy generation of attribute objects
                #                this is too tricky for now because of headaches
                #                with namespaces.

    def getAttribute(self, attname):
        return self._attrs[attname].value

    def getAttributeNS(self, namespaceURI, localName):
        return self._attrsNS[(namespaceURI, localName)].value

    def setAttribute(self, attname, value):
        attr = Attr(attname)
        # for performance
        attr.__dict__["value"] = attr.__dict__["nodeValue"] = value
        self.setAttributeNode(attr)

    def setAttributeNS(self, namespaceURI, qualifiedName, value):
        prefix, localname = _nssplit(qualifiedName)
        # for performance
        attr = Attr(qualifiedName, namespaceURI, localname, prefix)
        attr.__dict__["value"] = attr.__dict__["nodeValue"] = value
        self.setAttributeNode(attr)
        # FIXME: return original node if something changed.

    def getAttributeNode(self, attrname):
        return self._attrs.get(attrname)

    def getAttributeNodeNS(self, namespaceURI, localName):
        return self._attrsNS[(namespaceURI, localName)]

    def setAttributeNode(self, attr):
        old = self._attrs.get(attr.name, None)
        if old:
            old.unlink()
        self._attrs[attr.name] = attr
        self._attrsNS[(attr.namespaceURI, attr.localName)] = attr
        # FIXME: return old value if something changed

    def removeAttribute(self, name):
        attr = self._attrs[name]
        self.removeAttributeNode(attr)

    def removeAttributeNS(self, namespaceURI, localName):
        attr = self._attrsNS[(namespaceURI, localName)]
        self.removeAttributeNode(attr)

    def removeAttributeNode(self, node):
        node.unlink()
        del self._attrs[node.name]
        del self._attrsNS[(node.namespaceURI, node.localName)]
        
    def getElementsByTagName(self, name):
        return _getElementsByTagNameHelper(self, name, [])

    def getElementsByTagNameNS(self, namespaceURI, localName):
        _getElementsByTagNameNSHelper(self, namespaceURI, localName, [])

    def __repr__(self):
        return "<DOM Element: %s at %s>" % (self.tagName, id(self))

    # undocumented
    def writexml(self, writer):
        writer.write("<" + self.tagName)
            
        a_names = self._get_attributes().keys()
        a_names.sort()

        for a_name in a_names:
            writer.write(" %s=\"" % a_name)
            _write_data(writer, self._get_attributes()[a_name].value)
            writer.write("\"")
        if self.childNodes:
            writer.write(">")
            for node in self.childNodes:
                node.writexml(writer)
            writer.write("</%s>" % self.tagName)
        else:
            writer.write("/>")

    def _get_attributes(self):
        return AttributeList(self._attrs, self._attrsNS)

class Comment(Node):
    nodeType = Node.COMMENT_NODE

    def __init__(self, data):
        Node.__init__(self)
        self.data = self.nodeValue = data
        self.nodeName = "#comment"
        self.attributes = None

    def writexml(self, writer):
        writer.write("<!--%s-->" % self.data)

class ProcessingInstruction(Node):
    nodeType = Node.PROCESSING_INSTRUCTION_NODE

    def __init__(self, target, data):
        Node.__init__(self)
        self.target = self.nodeName = target
        self.data = self.nodeValue = data
        self.attributes = None

    def writexml(self, writer):
        writer.write("<?%s %s?>" % (self.target, self.data))

class Text(Node):
    nodeType = Node.TEXT_NODE
    nodeName = "#text"

    def __init__(self, data):
        Node.__init__(self)
        self.data = self.nodeValue = data
        self.attributes = None

    def __repr__(self):
        if len(self.data) > 10:
            dotdotdot = "..."
        else:
            dotdotdot = ""
        return "<DOM Text node \"%s%s\">" % (self.data[0:10], dotdotdot)

    def writexml(self, writer):
        _write_data(writer, self.data)

def _nssplit(qualifiedName):
    import string
    fields = string.split(qualifiedName,':', 1)
    if len(fields) == 2:
        return fields
    elif len(fields) == 1:
        return ('', fields[0])

class Document(Node):
    nodeType = Node.DOCUMENT_NODE
    documentElement = None

    def __init__(self):
        Node.__init__(self)
        self.attributes = None
        self.nodeName = "#document"
        self.nodeValue = None

    def appendChild(self, node):
        if node.nodeType == Node.ELEMENT_NODE:
            if self.documentElement:
                raise TypeError, "Two document elements disallowed"
            else:
                self.documentElement = node
        Node.appendChild(self, node)
        return node

    createElement = Element

    createTextNode = Text

    createComment = Comment

    createProcessingInstruction = ProcessingInstruction

    createAttribute = Attr

    def createElementNS(self, namespaceURI, qualifiedName):
        prefix,localName = _nssplit(qualifiedName)
        return Element(qualifiedName, namespaceURI, prefix, localName)

    def createAttributeNS(self, namespaceURI, qualifiedName):
        prefix,localName = _nssplit(qualifiedName)
        return Attr(qualifiedName, namespaceURI, localName, prefix)

    def getElementsByTagNameNS(self, namespaceURI, localName):
        _getElementsByTagNameNSHelper(self, namespaceURI, localName)

    def unlink(self):
        self.documentElement = None
        Node.unlink(self)

    def getElementsByTagName(self, name):
        rc = []
        _getElementsByTagNameHelper(self, name, rc)
        return rc

    def writexml(self, writer):
        for node in self.childNodes:
            node.writexml(writer)

def _doparse(func, args, kwargs):
    events = apply(func, args, kwargs)
    toktype, rootNode = events.getEvent()
    events.expandNode(rootNode)
    return rootNode

def parse(*args, **kwargs):
    "Parse a file into a DOM by filename or file object"
    return _doparse(pulldom.parse, args, kwargs)

def parseString(*args, **kwargs):
    "Parse a file into a DOM from a string"
    return _doparse(pulldom.parseString, args, kwargs)