#!/usr/bin/env python # # Copyright 2007-2008 David McNab # # This program is free software: you can redistribute it and/or modify it # under the terms of the GNU Lesser General Public License as published # by the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public License # along with this program. If not, see . # """ Allows XML files to be operated on like Python objects. Features: - load XML source from file pathnames, readable file objects or raw strings - add, get and set tag attributes like with python attributes - iterate over nodes - save the modified XMLFile or XMLObject to file Example XML file:: Example usage:: >> from xmlobject import XMLFile >> x = XMLFile(path="sample.xml") >> print x >> print x.root >> print x.root._children [, , , , ] >> print x.root.person [, ] >> print x.root.person[0].name John Smith >> john = x.root.person[0] >> john.height = 184 >> c = john._addNode("crime") >> c.name = "Grand Theft Auto" >> c.date = "4 May, 2005" >> print x.toxml() >> """ import sys, os import xml.dom import xml.dom.minidom from xml.dom.minidom import parse, parseString, getDOMImplementation impl = getDOMImplementation() class MissingRootTag(Exception): """root tag name was not given""" class InvalidXML(Exception): """failed to parse XML input""" class CannotSave(Exception): """unable to save""" class InvalidNode(Exception): """not a valid minidom node""" class XMLFile: """ Allows an xml file to be viewed and operated on as a python object. (If you're viewing the epydoc-generated HTML documentation, click the 'show private' link at the top right of this page to see all the methods) Holds the root node in the .root attribute, also in an attribute with the same name as this root node. """ def __init__(self, **kw): """ Create an XMLFile Keywords: - path - a pathname from which the file can be read - file - an open file object from which the raw xml can be read - raw - the raw xml itself - root - name of root tag, if not reading content Usage scenarios: 1. Working with existing content - you must supply input in one of the following ways: - 'path' must be an existing file, or - 'file' must be a readable file object, or - 'raw' must contain raw xml as a string 2. Creating whole new content - you must give the name of the root tag in the 'root' keyword Notes: - Keyword precedence governing existing content is: 1. path (if existing file) 2. file 3. raw - If working with existing content: - if the 'root' is given, then the content's toplevel tag MUST match the value given for 'root' - trying to _save will raise an exception unless 'path' has been given - if not working with existing content: - 'root' must be given - _save() will raise an exception unless 'path' has been given """ path = kw.get("path", None) fobj = kw.get("file", None) raw = kw.get("raw", None) root = kw.get("root", None) textfilter = kw.get("textfilter", None) if path: self.path = path try: fobj = file(path) except IOError: pass else: self.path = None if fobj: raw = fobj.read() if raw: self.dom = xml.dom.minidom.parseString(raw) else: # could not source content, so create a blank slate if not root: # in which case, must give a root node name raise MissingRootTag( "No existing content, so must specify root") # ok, create a blank dom self.dom = impl.createDocument(None, root, None) # get the root node, save it as attributes 'root' and name of node rootnode = self.dom.documentElement # now validate root tag if root: if rootnode.nodeName != root: raise IncorrectRootTag("Gave root='%s', input has root='%s'" % ( root, rootnode.nodeName)) if textfilter: self.textfilter = textfilter else: self.textfilter = lambda x: x # need this for recursion in XMLNode self._childrenByName = {} self._children = [] # add all the child nodes for child in self.dom.childNodes: childnode = XMLNode(self, child) #print "compare %s to %s" % (rootnode, child) if child == rootnode: #print "found root" self.root = childnode setattr(self, rootnode.nodeName, self.root) def save(self, where=None, obj=None): """ Saves the document. If argument 'where' is given, saves to it, otherwise tries to save to the original given 'path' (or barfs) Value can be a string (taken to be a file path), or an open file object. """ obj = obj or self.dom if not where: if self._root.path: where = self._root.path if isinstance(where, str): where = file(where, "w") if not where: raise CannotSave("No save destination, and no original path") where.write(obj.toxml()) where.flush() def saveAs(self, path): """ save this time, and all subsequent times, to filename 'path' """ self.path = path self.save() def toxml(self): return self.dom.toxml() def __len__(self): """ returns number of child nodes """ return len(self._children) def __getitem__(self, idx): if isinstance(idx, int): return self._children[idx] else: return self._childrenByName[idx] class XMLNode: """ This is the workhorse for the xml object interface (If you're viewing the epydoc-generated HTML documentation, click the 'show private' link at the top right of this page to see all the methods) """ def __init__(self, parent, node): """ You shouldn't need to instantiate this directly """ self._parent = parent if isinstance(parent, XMLFile): self._root = parent else: self._root = parent._root self._node = node self._childrenByName = {} self._children = [] # add ourself to parent's children registry parent._children.append(self) # the deal with named subtags is that we store the first instance # as itself, and with second and subsequent instances, we make a list parentDict = self._parent._childrenByName nodeName = node.nodeName if not parentDict.has_key(nodeName): parentDict[nodeName] = parent.__dict__[nodeName] = self else: if isinstance(parentDict[nodeName], XMLNode): # this is the second child node of a given tag name, so convert # the instance to a list parentDict[nodeName] = parent.__dict__[nodeName] = [parentDict[nodeName]] parentDict[nodeName].append(self) # figure out our type self._value = None if isinstance(node, xml.dom.minidom.Text): self._type = "text" self._value = self._root.textfilter(node.nodeValue) elif isinstance(node, xml.dom.minidom.Element): self._type = "node" elif isinstance(node, xml.dom.minidom.Comment): self._type = "comment" self._value = node.nodeValue else: raise InvalidNode("node class %s" % node.__class__) # and wrap all the child nodes for child in node.childNodes: XMLNode(self, child) def _render(self): """ Produces well-formed XML of this node's contents, indented as required """ return self._node.toxml() def __repr__(self): if self._type == "node": return "" % self._node.nodeName else: return "" % self._type def __getattr__(self, attr): """ Fetches an attribute or child node of this tag If it's an attribute, then returns the attribute value as a string. If a child node, then: - if there is only one child node of that name, return it - if there is more than one child node of that name, return a list of child nodes of that tag name Supports some magic attributes: - _text - the value of the first child node of type text """ #print "%s: __getattr__: attr=%s" % (self, attr) if attr == '_text': # magic attribute to return text tnode = self['#text'] if isinstance(tnode, list): tnode = tnode[0] return tnode._value if self._type in ['text', 'comment']: if attr == '_value': return self._node.nodeValue else: raise AttributeError(attr) if self._node.hasAttribute(attr): return self._node.getAttribute(attr) elif self._childrenByName.has_key(attr): return self._childrenByName[attr] #elif attr == 'value': # magic attribute else: raise AttributeError(attr) def __setattr__(self, attr, val): """ Change the value of an attribute of this tag The magic attribute '_text' can be used to set the first child text node's value For example:: Consider: foo >> somenode >> somenode.child >> somenode.child._text 'foo' >> somenode._toxml() u'foo' >> somenode.child._text = 'bar' >> somenode.child._text 'bar' >> somenode.child._toxml() u'bar/child>' """ if attr.startswith("_"): # magic attribute for setting _text if attr == '_text': tnode = self['#text'] if isinstance(tnode, list): tnode = tnode[0] tnode._node.nodeValue = val tnode._value = val return self.__dict__[attr] = val elif self._type in ['text', 'comment']: self._node.nodeValue = val else: # discern between attribute and child node if self._childrenByName.has_key(attr): raise Exception("Attribute Exists") self._node.setAttribute(attr, str(val)) def _keys(self): """ Return a list of attribute names """ return self._node.attributes.keys() def _values(self): """ Returns a list of (attrname, attrval) tuples for this tag """ return [self._node.getAttribute(k) for k in self._node.attributes.keys()] def _items(self): """ returns a list of attribute values for this tag """ return [(k, self._node.getAttribute(k)) for k in self._node.attributes.keys()] def _has_key(self, k): """ returns True if this tag has an attribute of the given name """ return self._node.hasAttribute(k) or self._childrenByName.has_key(k) def _get_name(self): if self._type == "node": return self._node.nodeName else: return self._type def _get(self, k, default=None): """ returns the value of attribute k, or default if no such attribute """ if self._has_key(k): return getattr(self, k) else: return default def __len__(self): """ returns number of child nodes """ return len(self._children) def __getitem__(self, idx): """ if given key is numeric, return the nth child, otherwise try to return the child tag (or list of child tags) having the key as the tag name """ #print "__getitem__: idx=%s" % str(idx) if isinstance(idx, slice) or isinstance(idx, int): return self._children[idx] elif isinstance(idx, str): return self._childrenByName[idx] else: raise IndexError(idx) def __contains__(self, k): return self._has_key(k) def _addNode(self, child): """ Tries to append a child node to the tree, and returns it Value of 'child' must be one of: - a string (in which case it is taken to be the name of the new node's tag) - a dom object, in which case it will be wrapped and added - an XMLNode object, in which case it will be added without wrapping """ if isinstance(child, XMLNode): # add it to our children registry self._children.append(child) parentDict = self._childrenByName nodeName = child._node.nodeName if not parentDict.has_key(nodeName): parentDict[nodeName] = parent.__dict__[nodeName] = child else: if isinstance(parentDict[nodeName], XMLNode): # this is the second child node of a given tag name, so convert # the instance to a list parentDict[nodeName] = self.__dict__[nodeName] = [parentDict[nodeName]] parentDict[nodeName].append(child) # and stick it in the dom self._node.appendChild(child._node) return child elif isinstance(child, str): childNode = self._root.dom.createElement(child) self._node.appendChild(childNode) elif isinstance(child, xml.dom.minidom.Element): childNode = child child = childNode.nodeName self._node.appendChild(childNode) return XMLNode(self, childNode) def _addText(self, value): """ Tries to append a child text node, with the given text, to the tree, and returns the created node object """ childNode = self._root.dom.createTextNode(value) self._node.appendChild(childNode) return XMLNode(self, childNode) def _addComment(self, comment): """ Tries to append a child comment node (with the given text value) to the tree, and returns the create node object """ childNode = self._root.dom.createCommentNode(comment) self._node.appendChild(childNode) return XMLNode(self, childNode) def _save(self, where=None): """ Generates well-formed XML from just this node, and saves it to a file. Argument 'where' is either an open file object, or a pathname If 'where' is not given, then saves the entire document tree. """ if not where: self._root.save() else: self._root.save(where, self._node) def _toxml(self): """ renders just this node out to raw xml code """ return self._node.toxml() def _treeWalker(self, node, nodes): for child in node._children: if child._type == 'node': nodes.append(child) self._treeWalker(child, nodes) def _toflat(self): ret = [self] self._treeWalker(self, ret) return ret _name = property(_get_name)