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//usr/lib/python2.4/site-packages/_xmlplus/marshal/wddx.py
from generic import * """WDDX marshalling""" # WDDX marshalling can be either "strict", in which Python objects # with no good WDDX equivalent cause a marshalling exception, or # "loose", in which WDDX takes extra steps to prevent marshalling # exception by finding the closest match for a Python object. # # If the module variable STRICT is true, any marshalling instances # created will use strict marshalling rules. If STRICT is false, # any marshalling instances created will use loose rules. # Changing the value of STRICT affects any marshallers # subsequently created; previously created marshaller objects # will not change their behavior. # # By default, STRICT is false. This default setting allows WDDX # the most flexible behavior for naive users of the module. # # In the current implementation of "loose" marshalling, there are # very few differences with loose marshalling: # # 1) the None object becomes an empty <string> element, # which is unmarshalled as the empty string "". # # 2) Tuples become <array> elements, which are unmarshalled # as lists. # # 3) Instances which have a __wddx__ method will have the # result of calling that method used as the marshalling # value. (See _WDDX_METHOD below.) STRICT = 0 # Added _WDDX_METHOD, which names a special method for WDDX # marshalling. If an instance to be marshalled has this method # defined, it is called with no arguments and the return value is used # for marshalling. (The marshaller code in m_instance forbids # the return value to be an instance with its own special # WDDX method, to prevent recursive death.) # # This method is useful for user-defined classes whose instances # mimic the behavior of built-in types such as dictionaries or # lists. # # This special method is used only if STRICT is false. _WDDX_METHOD = '__wddx__' # WDDX has a Boolean type. We need to generate such variables, so # this defines a class representing a truth value, and then creates # TRUE and FALSE. class TruthValue: def __init__(self, value): if value: self.__dict__['value'] = 1 else: self.__dict__['value'] = 0 def __setattr__(self, item, value): raise TypeError, "TruthValue object is read-only" def __nonzero__(self): return self.value def __cmp__(self, other): return cmp(self.value, other) def __hash__(self): return hash(self.value) def __repr__(self): if self.value: return "<TruthValue instance: True>" else: return "<TruthValue instance: False>" TRUE = TruthValue(1) FALSE = TruthValue(0) RECORDSET = {} import UserDict class RecordSet(UserDict.UserDict): def __init__(self, fields, *lists): UserDict.UserDict.__init__(self) if len(fields) != len(lists): raise ValueError, "Number of fields and lists must be the same" for L in lists[1:]: if len(L) != len(lists[0]): raise ValueError, "Number of entries in each list must be the same" self.fields = fields for i in range(len(fields)): f = fields[i] self.data[f] = lists[i] class WDDXMarshaller(Marshaller): DTD = '<!DOCTYPE wddxPacket SYSTEM "wddx_0090.dtd">' tag_root = 'wddxPacket' tag_float = tag_int = tag_long = 'number' tag_instance = 'boolean' wddx_version = "0.9" m_reference = m_complex = m_code = Marshaller.m_unimplemented def __init__(self, strict=None): if strict is None: self._strict = STRICT else: self._strict = strict def m_root(self, value, dict): L = ['<%s version="%s">' % (self.tag_root, self.wddx_version)] # add header L.append('<header/><data>') L = L + self._marshal(value, dict) L.append('</data></%s>' % self.tag_root) return L def m_instance(self, value, dict): if isinstance(value, RecordSet): return self.m_recordset(value, dict) # allow any TruthValue instance, not just # the predefined helpful "constants"; else # why make the class? if isinstance(value, TruthValue): if value: return ['<boolean value="true"/>'] else: return ['<boolean value="false"/>'] # check for _WDDX_METHOD method, but prevent # recursive death if return value also has wddx method if not self._strict and hasattr(value, _WDDX_METHOD): newval = getattr(value, _WDDX_METHOD)() # newval may not have its own wddx method if hasattr(newval, _WDDX_METHOD): raise ValueError, \ "%s method of object %s may not " \ "return object having own %s method" % \ (_WDDX_METHOD, repr(value), _WDDX_METHOD) return self._marshal(newval, dict) self.m_unimplemented(value, dict) def m_recordset(self, value, dict): L = ['<recordset rowCount="%i" fieldNames="%s">' % (len(value), string.join(value.fields, ','))] for f in value.fields: recs = value[f] L.append('<field name="%s">' % f) for r in recs: L = L + self._marshal(r, dict) L.append('</field>') L.append('</recordset>') return L def m_list(self, value, dict): L = [] i = str(id(value)) dict[i] = 1 L.append('<array length="%i">' % len(value)) for elem in value: L = L + self._marshal(elem, dict) L.append('</array>') return L def m_tuple(self, value, dict): if self._strict: return self.m_unimplemented(value, dict) else: return self.m_list(value, dict) def m_None(self, value, dict): if self._strict: return self.m_unimplemented(value, dict) else: return self.m_string("", dict) def m_dictionary(self, value, dict): L = [] i = str(id(value)) dict[i] = 1 L.append('<struct>') items = value.items() # Sort the items so the order they're written in is # deterministic; this is only needed to make testing easier. items.sort() for key, v in items: L.append('<var name="%s">' % key) L = L + self._marshal(v, dict) L.append('</var>') L.append('</struct>') return L class WDDXUnmarshaller(Unmarshaller): unmarshal_meth = { 'wddxPacket': (None, None), 'data': ('um_start_root', None), 'header': (None, None), 'char': ('um_start_char', None), 'boolean': ('um_start_boolean', 'um_end_boolean'), 'number': ('um_start_number', 'um_end_number'), 'string': ('um_start_string', 'um_end_string'), 'array': ('um_start_list', 'um_end_list'), 'struct': ('um_start_dictionary', 'um_end_dictionary'), 'var': ('um_start_var', None), 'recordset': ('um_start_recordset', 'um_end_recordset'), 'field': ('um_start_field', 'um_end_field'), } def um_start_char(self, name, attrs): self.data_stack[-1].append(str(chr(string.atoi(attrs['code'], 16)))) def um_start_boolean(self, name, attrs): v = attrs['value'] self.data_stack.append([v]) def um_end_boolean(self, name): ds = self.data_stack if ds[-1][0] == 'true': ds[-1] = TRUE else: ds[-1] = FALSE um_start_number = Unmarshaller.um_start_generic um_end_number = Unmarshaller.um_end_float def um_start_var(self, name, attrs): name = attrs['name'] self.data_stack.append(name) def um_start_recordset(self, name, attrs): fields = string.split(attrs['fieldNames'], ',') rowCount = int(attrs['rowCount']) self.data_stack.append(RECORDSET) self.data_stack.append((rowCount, fields)) def um_end_recordset(self, name): ds = self.data_stack for index in range(len(ds) - 1, -1, -1): if ds[index] is RECORDSET: break assert index!=-1 rowCount, fields = ds[index + 1] lists = [None] * len(fields) for i in range(index+2, len(ds), 2): field = ds[i] value = ds[i + 1] pos = fields.index(field) lists[pos] = value ds[index:] = [apply(RecordSet, tuple([fields]+lists))] def um_start_field(self, name, attrs): field = attrs['name'] self.data_stack.append(field) self.data_stack.append(LIST) self.data_stack.append([]) um_end_field = Unmarshaller.um_end_list def dump(value, file, strict=None): m = WDDXMarshaller(strict) return m.dump(value, file) def dumps(value, strict=None): m = WDDXMarshaller(strict) return m.dumps(value) def load(file): return WDDXUnmarshaller().load(file) def loads(string): return WDDXUnmarshaller().loads(string) def runtests(): print "Testing WDDX marshalling..." recordset = RecordSet(['NAME', 'AGE'], ['John Doe', 'Jane Doe'], [34, 31]) class Custom: def __init__(self, value): self.value = value def __wddx__(self): return self.value def __repr__(self): return repr(self.value) global STRICT STRICT = 1 test(load, loads, dump, dumps, [TRUE, FALSE, 1, pow(2,123L), 19.72, "here is a string & a <fake tag>", [1,2,3,"foo"], recordset, {'lowerBound': 18, 'upperBound': 139, 'eggs': ['rhode island red', 'bantam']}, {'s': 'a string', 'obj': {'s': 'a string', 'n': -12.456}, 'n': -12.456, 'b': TRUE, 'a': [10,'second element'], } ]) STRICT = 0 test(load, loads, dump, dumps, [(1, 3, "five", 7, None, Custom(42)),], do_assert=0) if __name__ == '__main__': runtests()