/usr/share/pyshared/suds/mx/literal.py is in python-suds 0.4.1-2ubuntu1.
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# it under the terms of the (LGPL) 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 Library Lesser General Public License for more details at
# ( http://www.gnu.org/licenses/lgpl.html ).
#
# You should have received a copy of the GNU Lesser General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
# written by: Jeff Ortel ( jortel@redhat.com )
"""
Provides literal I{marshaller} classes.
"""
from logging import getLogger
from suds import *
from suds.mx import *
from suds.mx.core import Core
from suds.mx.typer import Typer
from suds.resolver import GraphResolver, Frame
from suds.sax.element import Element
from suds.sudsobject import Factory
log = getLogger(__name__)
#
# Add typed extensions
# type = The expected xsd type
# real = The 'true' XSD type
# ancestry = The 'type' ancestry
#
Content.extensions.append('type')
Content.extensions.append('real')
Content.extensions.append('ancestry')
class Typed(Core):
"""
A I{typed} marshaller.
This marshaller is semi-typed as needed to support both
I{document/literal} and I{rpc/literal} soap message styles.
@ivar schema: An xsd schema.
@type schema: L{xsd.schema.Schema}
@ivar resolver: A schema type resolver.
@type resolver: L{GraphResolver}
"""
def __init__(self, schema, xstq=True):
"""
@param schema: A schema object
@type schema: L{xsd.schema.Schema}
@param xstq: The B{x}ml B{s}chema B{t}ype B{q}ualified flag indicates
that the I{xsi:type} attribute values should be qualified by namespace.
@type xstq: bool
"""
Core.__init__(self)
self.schema = schema
self.xstq = xstq
self.resolver = GraphResolver(self.schema)
def reset(self):
self.resolver.reset()
def start(self, content):
#
# Start marshalling the 'content' by ensuring that both the
# 'content' _and_ the resolver are primed with the XSD type
# information. The 'content' value is both translated and
# sorted based on the XSD type. Only values that are objects
# have their attributes sorted.
#
log.debug('starting content:\n%s', content)
if content.type is None:
name = content.tag
if name.startswith('_'):
name = '@'+name[1:]
content.type = self.resolver.find(name, content.value)
if content.type is None:
raise TypeNotFound(content.tag)
else:
known = None
if isinstance(content.value, Object):
known = self.resolver.known(content.value)
if known is None:
log.debug('object has no type information', content.value)
known = content.type
frame = Frame(content.type, resolved=known)
self.resolver.push(frame)
frame = self.resolver.top()
content.real = frame.resolved
content.ancestry = frame.ancestry
self.translate(content)
self.sort(content)
if self.skip(content):
log.debug('skipping (optional) content:\n%s', content)
self.resolver.pop()
return False
else:
return True
def suspend(self, content):
#
# Suspend to process a list content. Primarily, this
# involves popping the 'list' content off the resolver's
# stack so the list items can be marshalled.
#
self.resolver.pop()
def resume(self, content):
#
# Resume processing a list content. To do this, we
# really need to simply push the 'list' content
# back onto the resolver stack.
#
self.resolver.push(Frame(content.type))
def end(self, parent, content):
#
# End processing the content. Make sure the content
# ending matches the top of the resolver stack since for
# list processing we play games with the resolver stack.
#
log.debug('ending content:\n%s', content)
current = self.resolver.top().type
if current == content.type:
self.resolver.pop()
else:
raise Exception, \
'content (end) mismatch: top=(%s) cont=(%s)' % \
(current, content)
def node(self, content):
#
# Create an XML node and namespace qualify as defined
# by the schema (elementFormDefault).
#
ns = content.type.namespace()
if content.type.form_qualified:
node = Element(content.tag, ns=ns)
node.addPrefix(ns[0], ns[1])
else:
node = Element(content.tag)
self.encode(node, content)
log.debug('created - node:\n%s', node)
return node
def setnil(self, node, content):
#
# Set the 'node' nil only if the XSD type
# specifies that it is permitted.
#
if content.type.nillable:
node.setnil()
def setdefault(self, node, content):
#
# Set the node to the default value specified
# by the XSD type.
#
default = content.type.default
if default is None:
pass
else:
node.setText(default)
return default
def optional(self, content):
if content.type.optional():
return True
for a in content.ancestry:
if a.optional():
return True
return False
def encode(self, node, content):
# Add (soap) encoding information only if the resolved
# type is derived by extension. Further, the xsi:type values
# is qualified by namespace only if the content (tag) and
# referenced type are in different namespaces.
if content.type.any():
return
if not content.real.extension():
return
if content.type.resolve() == content.real:
return
ns = None
name = content.real.name
if self.xstq:
ns = content.real.namespace('ns1')
Typer.manual(node, name, ns)
def skip(self, content):
"""
Get whether to skip this I{content}.
Should be skipped when the content is optional
and either the value=None or the value is an empty list.
@param content: The content to skip.
@type content: L{Object}
@return: True if content is to be skipped.
@rtype: bool
"""
if self.optional(content):
v = content.value
if v is None:
return True
if isinstance(v, (list,tuple)) and len(v) == 0:
return True
return False
def optional(self, content):
if content.type.optional():
return True
for a in content.ancestry:
if a.optional():
return True
return False
def translate(self, content):
"""
Translate using the XSD type information.
Python I{dict} is translated to a suds object. Most
importantly, primative values are translated from python
types to XML types using the XSD type.
@param content: The content to translate.
@type content: L{Object}
@return: self
@rtype: L{Typed}
"""
v = content.value
if v is None:
return
if isinstance(v, dict):
cls = content.real.name
content.value = Factory.object(cls, v)
md = content.value.__metadata__
md.sxtype = content.type
return
v = content.real.translate(v, False)
content.value = v
return self
def sort(self, content):
"""
Sort suds object attributes based on ordering defined
in the XSD type information.
@param content: The content to sort.
@type content: L{Object}
@return: self
@rtype: L{Typed}
"""
v = content.value
if isinstance(v, Object):
md = v.__metadata__
md.ordering = self.ordering(content.real)
return self
def ordering(self, type):
"""
Get the attribute ordering defined in the specified
XSD type information.
@param type: An XSD type object.
@type type: SchemaObject
@return: An ordered list of attribute names.
@rtype: list
"""
result = []
for child, ancestry in type.resolve():
name = child.name
if child.name is None:
continue
if child.isattr():
name = '_%s' % child.name
result.append(name)
return result
class Literal(Typed):
"""
A I{literal} marshaller.
This marshaller is semi-typed as needed to support both
I{document/literal} and I{rpc/literal} soap message styles.
"""
pass
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