Project

General

Profile

1
# XML DOM tree manipulation
2

    
3
import cgi
4
from HTMLParser import HTMLParser
5
import itertools
6
import re
7
from xml.dom import Node
8
import xml.dom.minidom as minidom
9

    
10
import strings
11
import util
12

    
13
##### Escaping input
14

    
15
def escape(str_):
16
    return strings.to_unicode(cgi.escape(str_, True)).encode('ascii',
17
        'xmlcharrefreplace')
18

    
19
def unescape(str_): return HTMLParser().unescape(str_)
20

    
21
##### Names
22

    
23
def strip_namespace(name):
24
    namespace, sep, base = name.partition(':')
25
    if sep != '': return base
26
    else: return name
27

    
28
##### Nodes
29

    
30
def is_node(value): return isinstance(value, Node)
31

    
32
##### Replacing a node
33

    
34
def remove(node): node.parentNode.removeChild(node)
35

    
36
def replace(old, new):
37
    '''@param new Node|None'''
38
    assert old.parentNode != None # not removed from parent tree
39
    
40
    if new == None: old.parentNode.removeChild(old)
41
    else: old.parentNode.replaceChild(new, old) # note order reversed
42

    
43
def replace_with_text(node, new):
44
    '''
45
    @return The *new* node
46
    '''
47
    if util.is_str(new): new = node.ownerDocument.createTextNode(new)
48
    replace(node, new)
49
    return new
50

    
51
##### Element node contents
52

    
53
def is_elem(node): return node.nodeType == Node.ELEMENT_NODE
54

    
55
def is_completely_empty(node): return node.firstChild == None
56

    
57
def has_one_child(node):
58
    return node.firstChild != None and node.firstChild.nextSibling == None
59

    
60
def is_simple(node):
61
    '''Whether every child recursively has no more than one child'''
62
    return (not is_elem(node) or is_completely_empty(node)
63
        or (has_one_child(node) and is_simple(node.firstChild)))
64

    
65
class NodeIter:
66
    def __init__(self, node): self.child = node.firstChild
67
    
68
    def __iter__(self): return self
69
    
70
    def curr(self):
71
        if self.child != None: return self.child
72
        raise StopIteration
73
    
74
    def next(self):
75
        child = self.curr()
76
        self.child = self.child.nextSibling
77
        return child
78

    
79
##### Comments
80

    
81
def is_comment(node): return node.nodeType == Node.COMMENT_NODE
82

    
83
def is_empty(node):
84
    for child in NodeIter(node):
85
        if not is_comment(child): return False
86
    return True
87

    
88
def clean_comment(str_):
89
    '''Sanitizes comment node contents. Strips invalid strings.'''
90
    return re.sub(r'-{2,}', r'-', str_) # comments can't contain '--'
91

    
92
def mk_comment(doc, str_): return doc.createComment(clean_comment(str_))
93

    
94
##### Child nodes that are elements
95

    
96
class NodeElemIter:
97
    def __init__(self, node): self.child = node.firstChild
98
    
99
    def __iter__(self): return self
100
    
101
    def curr(self):
102
        while self.child != None:
103
            if is_elem(self.child): return self.child
104
            self.child = self.child.nextSibling
105
        raise StopIteration
106
    
107
    def next(self):
108
        child = self.curr()
109
        self.child = self.child.nextSibling
110
        return child
111

    
112
def first_elem(node): return NodeElemIter(node).next()
113

    
114
def has_elems(node):
115
    try: first_elem(node); return True
116
    except StopIteration: return False
117

    
118
class NodeElemReverseIter:
119
    def __init__(self, node): self.child = node.lastChild
120
    
121
    def __iter__(self): return self
122
    
123
    def curr(self):
124
        while self.child != None:
125
            if is_elem(self.child): return self.child
126
            self.child = self.child.previousSibling
127
        raise StopIteration
128
    
129
    def next(self):
130
        child = self.curr()
131
        self.child = self.child.previousSibling
132
        return child
133

    
134
def last_elem(node): return NodeElemReverseIter(node).next()
135

    
136
##### Parent nodes
137

    
138
def parent(node):
139
    '''Does not treat the document object as the root node's parent, since it's
140
    not a true element node'''
141
    parent_ = node.parentNode
142
    if parent_ != None and is_elem(parent_): return parent_
143
    else: return None
144

    
145
class NodeParentIter:
146
    '''See parent() for special treatment of root node.
147
    Note that the first element returned is the current node, not its parent.'''
148
    def __init__(self, node): self.node = node
149
    
150
    def __iter__(self): return self
151
    
152
    def curr(self):
153
        if self.node != None: return self.node
154
        else: raise StopIteration
155
    
156
    def next(self):
157
        node = self.curr()
158
        self.node = parent(self.node)
159
        return node
160

    
161
##### Element nodes containing text
162

    
163
def is_text_node(node): return node.nodeType == Node.TEXT_NODE
164

    
165
def is_text(node): return has_one_child(node) and is_text_node(node.firstChild)
166

    
167
def value_node(node):
168
    if is_elem(node):
169
        iter_ = NodeIter(node)
170
        util.skip(iter_, is_comment)
171
        try: return iter_.next()
172
        except StopIteration: return None
173
    else: return node
174

    
175
def value(node):
176
    return util.do_ignore_none(lambda n: n.nodeValue, value_node(node))
177

    
178
def is_whitespace(node): return is_text_node(node) and value(node).isspace()
179

    
180
def set_value(node, value):
181
    value_node_ = value_node(node)
182
    if value != None:
183
        if value_node_ != None:
184
            value_node_.nodeValue = value
185
        else:
186
            assert is_elem(node)
187
            node.appendChild(node.ownerDocument.createTextNode(value))
188
    elif value_node_ != None:
189
        if is_elem(node): remove(value_node_)
190
        else: node.nodeValue = value
191

    
192
class NodeTextEntryIter:
193
    def __init__(self, node): self.iter_ = NodeElemIter(node)
194
    
195
    def __iter__(self): return self
196
    
197
    def next(self):
198
        entry = self.iter_.next()
199
        if is_empty(entry): value_ = None
200
        elif is_text(entry): value_ = value(entry)
201
        else:
202
            assert has_one_child(entry) # TODO: convert to an exception
203
            value_ = entry.firstChild
204
        return (entry.tagName, value_)
205

    
206
def is_text_node_entry(val): return util.is_str(val[1])
207

    
208
def non_empty(iterable):
209
    return itertools.ifilter(lambda i: i[1] != None, iterable)
210

    
211
class TextEntryOnlyIter(util.CheckedIter):
212
    def __init__(self, iterable):
213
        util.CheckedIter.__init__(self, is_text_node_entry, non_empty(iterable))
214

    
215
##### IDs
216

    
217
def get_id(node):
218
    '''If the node doesn't have an ID, assumes the node itself is the ID.
219
    @return None if the node doesn't have an ID or a value
220
    '''
221
    id_ = node.getAttribute('id')
222
    if id_ != '': return id_
223
    else: return value(node) # assume the node itself is the ID
224

    
225
def set_id(node, id_): node.setAttribute('id', id_)
226

    
227
##### Child nodes
228

    
229
def set_child(node, name, value):
230
    '''Note: does not remove any existing child of the same name'''
231
    child = node.ownerDocument.createElement(name)
232
    set_value(child, value)
233
    node.appendChild(child)
234

    
235
def by_tag_name(node, name, last_only=False, ignore_namespace=False):
236
    '''last_only optimization returns only the last matching node'''
237
    if ignore_namespace: filter_name = strip_namespace
238
    else: filter_name = lambda name: name
239
    name = filter_name(name)
240
    
241
    children = []
242
    if last_only: iter_ = NodeElemReverseIter(node)
243
    else: iter_ = NodeElemIter(node)
244
    for child in iter_:
245
        if filter_name(child.tagName) == name:
246
            children.append(child)
247
            if last_only: break
248
    return children
249

    
250
def merge(from_, into):
251
    '''Merges two nodes of the same tag name and their newly-adjacent children.
252
    @post The into node is saved; the from_ node is deleted.
253
    '''
254
    if from_ == None or into == None: return # base case
255
    if from_.tagName != into.tagName: return # not mergeable
256
    
257
    from_first = from_.firstChild # save before merge
258
    for child in NodeIter(from_): into.appendChild(child)
259
    remove(from_)
260
    
261
    # Recurse
262
    merge(from_first, from_first.previousSibling) # = into.lastChild
263

    
264
def merge_by_name(root, name):
265
    '''Merges siblings in root with the given name'''
266
    children = by_tag_name(root, name)
267
    child0 = children.pop(0)
268
    for child in children: merge(child, child0)
269

    
270
##### XML documents
271

    
272
def create_doc(root='_'):
273
    return minidom.getDOMImplementation().createDocument(None, root, None)
274

    
275
##### Printing XML
276

    
277
prettyxml_config = dict(addindent='    ', newl='\n')
278
toprettyxml_config = prettyxml_config.copy()
279
util.rename_key(toprettyxml_config, 'addindent', 'indent')
280

    
281
##### minidom modifications
282

    
283
#### Module
284

    
285
minidom._write_data = lambda writer, data: writer.write(escape(data))
286

    
287
minidom.Node.__iter__ = lambda self: NodeIter(self)
288

    
289
def __Node_str(self):
290
    return strings.remove_extra_newl(self.toprettyxml(**toprettyxml_config))
291
minidom.Node.__str__ = __Node_str
292
minidom.Node.__repr__ = __Node_str
293
minidom.Element.__repr__ = __Node_str
294

    
295
#### Node
296

    
297
minidom.Node.pop = lambda self: self.removeChild(self.lastChild)
298

    
299
def __Node_clear(self):
300
    while not is_empty(self): self.pop()
301
minidom.Node.clear = __Node_clear
302

    
303
#### Text
304

    
305
__Text_writexml_orig = minidom.Text.writexml
306
def __Text_writexml(self, *args, **kw_args):
307
    if is_whitespace(self): pass # we add our own whitespace
308
    else: __Text_writexml_orig(self, *args, **kw_args)
309
minidom.Text.writexml = __Text_writexml
310

    
311
#### Attr
312

    
313
def __Attr_str(self): return escape(self.name)+'="'+escape(self.value)+'"'
314
minidom.Attr.__str__ = __Attr_str
315
minidom.Attr.__repr__ = __Attr_str
316

    
317
#### Element
318

    
319
def __Element_write_opening(self, writer, indent='', addindent='', newl=''):
320
    writer.write(indent+'<'+escape(self.tagName))
321
    for attr_idx in xrange(self.attributes.length):
322
        writer.write(' '+str(self.attributes.item(attr_idx)))
323
    writer.write('>'+newl)
324
minidom.Element.write_opening = __Element_write_opening
325

    
326
def __Element_write_closing(self, writer, indent='', addindent='', newl=''):
327
    writer.write('</'+escape(self.tagName)+'>'+newl)
328
minidom.Element.write_closing = __Element_write_closing
329

    
330
__Element_writexml_orig = minidom.Element.writexml
331
def __Element_writexml(self, writer, indent='', addindent='', newl=''):
332
    if isinstance(indent, int): indent = addindent*indent
333
    if is_simple(self):
334
        writer.write(indent)
335
        __Element_writexml_orig(self, writer)
336
        writer.write(newl)
337
    else: __Element_writexml_orig(self, writer, indent, addindent, newl)
338
minidom.Element.writexml = __Element_writexml
339

    
340
#### Document
341

    
342
def __Document_write_opening(self, writer, indent='', addindent='', newl='',
343
    encoding=None):
344
    xmlDecl = '<?xml version="1.0" '
345
    if encoding != None: xmlDecl += 'encoding="'+escape(encoding)+'"'
346
    xmlDecl += '?>'+newl
347
    writer.write(xmlDecl)
348
    assert has_one_child(self)
349
    assert is_elem(self.firstChild)
350
    self.firstChild.write_opening(writer, indent, addindent, newl)
351
minidom.Document.write_opening = __Document_write_opening
352

    
353
def __Document_write_closing(self, writer, indent='', addindent='', newl=''):
354
    self.firstChild.write_closing(writer, indent, addindent, newl)
355
minidom.Document.write_closing = __Document_write_closing
(35-35/39)