def xml(self):
"""
Get xml representation of the object.
@return: The root node.
@rtype: L{Element}
"""
root = Element('Security', ns=wssens)
root.set('mustUnderstand', str(self.mustUnderstand).lower())
for t in self.tokens:
root.append(t.xml())
return root
def add(self, root):
"""
Add an <xs:import/> to the specified schema root.
@param root: A schema root.
@type root: L{Element}
"""
node = Element('import', ns=self.xsdns)
node.set('namespace', self.ns)
if self.location is not None:
node.set('schemaLocation', self.location)
log.debug('%s inserted', node)
root.insert(node)
def apply(self, root):
"""
Apply the import (rule) to the specified schema.
If the schema does not already contain an import for the
I{namespace} specified here, it is added.
@param root: A schema root.
@type root: L{Element}
"""
if not self.filter.match(root, self.ns):
return
if self.exists(root):
return
node = Element('import', ns=self.xsdns)
node.set('namespace', self.ns)
if self.location is not None:
node.set('schemaLocation', self.location)
log.debug('inserting: %s', node)
root.insert(node)
def autoblend(self):
"""
Ensure that all schemas within the collection
import each other which has a blending effect.
@return: self
@rtype: L{SchemaCollection}
"""
namespaces = self.namespaces.keys()
for s in self.children:
for ns in namespaces:
tns = s.root.get('targetNamespace')
if tns == ns:
continue
for imp in s.root.getChildren('import'):
if imp.get('namespace') == ns:
continue
imp = Element('import', ns=Namespace.xsdns)
imp.set('namespace', ns)
s.root.append(imp)
return self
def basic():
xml = "<a>Me && <b>my</b> shadow's <i>dog</i> love to 'play' and sing "la,la,la";</a>"
p = Parser()
d = p.parse(string=xml)
a = d.root()
print 'A(parsed)=\n%s' % a
assert str(a) == xml
b = Element('a')
b.setText('Me && <b>my</b> shadow\'s <i>dog</i> love to \'play\' and sing "la,la,la";')
print 'B(encoded)=\n%s' % b
assert str(b) == xml
print 'A(text-decoded)=\n%s' % a.getText()
print 'B(text-decoded)=\n%s' % b.getText()
assert a.getText() == b.getText()
print 'test pruning'
j = Element('A')
j.set('n', 1)
j.append(Element('B'))
print j
j.prune()
print j