#!/usr/bin/env python
# -*- coding: utf-8 -*-
#This file is part of PLCOpenEditor, a library implementing an IEC 61131-3 editor
#based on the plcopen standard.
#
#Copyright (C) 2007: Edouard TISSERANT and Laurent BESSARD
#
#See COPYING file for copyrights details.
#
#This library is free software; you can redistribute it and/or
#modify it under the terms of the GNU General Public
#License as published by the Free Software Foundation; either
#version 2.1 of the License, or (at your option) any later version.
#
#This library 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
#General Public License for more details.
#
#You should have received a copy of the GNU General Public
#License along with this library; if not, write to the Free Software
#Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
from xml.dom import minidom
import sys,re
from types import *
from datetime import *
"""
Time and date definitions
"""
TimeType = time(0,0,0).__class__
DateType = date(1,1,1).__class__
DateTimeType = datetime(1,1,1,0,0,0).__class__
"""
Regular expression models for extracting dates and times from a string
"""
time_model = re.compile('([0-9]{2}):([0-9]{2}):([0-9]{2}(?:.[0-9]*)?)')
date_model = re.compile('([0-9]{4})-([0-9]{2})-([0-9]{2})')
datetime_model = re.compile('([0-9]{4})-([0-9]{2})-([0-9]{2})[ T]([0-9]{2}):([0-9]{2}):([0-9]{2}(?:.[0-9]*)?)')
"""
Dictionaries for stocking Classes and Types created from XML
"""
XMLClasses = {}
"""
This function calculates the number of whitespace for indentation
"""
def getIndent(indent, balise):
first = indent * 2
second = first + len(balise) + 1
return "\t".expandtabs(first), "\t".expandtabs(second)
"""
This function opens the xsd file and generate the classes from the xml tree
"""
def GenerateClassesFromXSD(filename):
xsdfile = open(filename, 'r')
Generate_xsd_classes(minidom.parse(xsdfile), None)
xsdfile.close()
"""
This function recursively creates a definition of the classes and their attributes
for plcopen from the xsd file of plcopen opened in a DOM model
"""
def Generate_xsd_classes(tree, parent, sequence = False):
attributes = {}
inheritance = []
if sequence:
order = []
# The lists of attributes and inheritance of the node are generated from the childrens
for node in tree.childNodes:
# We make fun of #text elements and all other tags that don't are xsd tags
if node.nodeName != "#text" and node.nodeName.startswith("xsd:"):
recursion = False
name = node.nodeName[4:].encode()
# This tags defines an attribute of the class
if name in ["element", "attribute"]:
nodename = GetAttributeValue(node._attrs["name"])
if "type" in node._attrs:
nodetype = GetAttributeValue(node._attrs["type"])
if nodetype.startswith("xsd"):
nodetype = nodetype.replace("xsd", "bse")
elif nodetype.startswith("ppx"):
nodetype = nodetype.replace("ppx", "cls")
else:
# The type of attribute is defines in the child tree so we generate a new class
# No name is defined so we create one from nodename and parent class name
# (because some different nodes can have the same name)
if parent:
classname = "%s_%s"%(parent, nodename)
else:
classname = nodename
Generate_xsd_classes(node, classname)
nodetype = "cls:%s"%classname
if name == "attribute":
if "use" in node._attrs:
use = GetAttributeValue(node._attrs["use"])
else:
use = "optional"
if name == "element":
# If a tag can be written more than one time we define a list attribute
if "maxOccurs" in node._attrs and GetAttributeValue(node._attrs["maxOccurs"]) == "unbounded":
nodetype = "%s[]"%nodetype
if "minOccurs" in node._attrs and GetAttributeValue(node._attrs["minOccurs"]) == "0":
use = "optional"
else:
use = "required"
attributes[nodename] = (nodetype, name, use)
if sequence:
order.append(nodename)
# This tag defines a new class
elif name == "complexType" or name == "simpleType":
if "name" in node._attrs:
classname = GetAttributeValue(node._attrs["name"])
super, attrs = Generate_xsd_classes(node, classname)
else:
classname = parent
super, attrs = Generate_xsd_classes(node, classname.split("_")[-1])
# When all attributes and inheritances have been extracted, the
# values are added in the list of classes to create
if classname not in XMLClasses:
XMLClasses[classname] = (super, attrs)
elif XMLClasses[classname] != (super, attrs):
print "A different class has already got %s for name"%classname
# This tag defines an attribute that can have different types
elif name == "choice":
super, attrs = Generate_xsd_classes(node, parent)
if "ref" in attrs.keys():
choices = attrs
else:
choices = {}
for attr, (attr_type, xml_type, write_type) in attrs.items():
choices[attr] = attr_type
if "maxOccurs" in node._attrs and GetAttributeValue(node._attrs["maxOccurs"]) == "unbounded":
attributes["multichoice_content"] = choices
if sequence:
order.append("multichoice_content")
else:
attributes["choice_content"] = choices
if sequence:
order.append("choice_content")
# This tag defines the order in which class attributes must be written
# in plcopen xml file. We have to store this order like an attribute
elif name in "sequence":
super, attrs, order = Generate_xsd_classes(node, parent, True)
if "maxOccurs" in node._attrs and GetAttributeValue(node._attrs["maxOccurs"]) == "unbounded":
for attr, (attr_type, xml_type, write_type) in attrs.items():
attrs[attr] = ("%s[]"%attr_type, xml_type, write_type)
if "minOccurs" in node._attrs and GetAttributeValue(node._attrs["minOccurs"]) == "0":
for attr, (attr_type, xml_type, write_type) in attrs.items():
attrs[attr] = (attr_type, xml_type, "optional")
inheritance.extend(super)
attributes.update(attrs)
attributes["order"] = order
# This tag defines of types
elif name == "group":
if "name" in node._attrs:
nodename = GetAttributeValue(node._attrs["name"])
super, attrs = Generate_xsd_classes(node, None)
XMLClasses[nodename] = (super, {"group":attrs["choice_content"]})
elif "ref" in node._attrs:
if "ref" not in attributes:
attributes["ref"] = [GetAttributeValue(node._attrs["ref"])]
else:
attributes["ref"].append(GetAttributeValue(node._attrs["ref"]))
# This tag define a base class for the node
elif name == "extension":
super = GetAttributeValue(node._attrs["base"])
if super.startswith("xsd"):
super = super.replace("xsd", "bse")
elif super.startswith("ppx"):
super = super.replace("ppx", "cls")
inheritance.append(super[4:])
recursion = True
# This tag defines a restriction on the type of attribute
elif name == "restriction":
basetype = GetAttributeValue(node._attrs["base"])
if basetype.startswith("xsd"):
basetype = basetype.replace("xsd", "bse")
elif basetype.startswith("ppx"):
basetype = basetype.replace("ppx", "cls")
attributes["basetype"] = basetype
recursion = True
# This tag defines an enumerated type
elif name == "enumeration":
if "enum" not in attributes:
attributes["enum"] = [GetAttributeValue(node._attrs["value"])]
else:
attributes["enum"].append(GetAttributeValue(node._attrs["value"]))
# This tags defines a restriction on a numerical value
elif name in ["minInclusive","maxInclusive"]:
if "limit" not in attributes:
attributes["limit"] = {}
if name == "minInclusive":
attributes["limit"]["min"] = eval(GetAttributeValue(node._attrs["value"]))
elif name == "maxInclusive":
attributes["limit"]["max"] = eval(GetAttributeValue(node._attrs["value"]))
# This tag are not important but their childrens are. The childrens are then parsed.
elif name in ["complexContent", "schema"]:
recursion = True
# We make fun of xsd documentation
elif name in ["annotation"]:
pass
else:
#print name
Generate_xsd_classes(node, parent)
# Parse the childrens of node
if recursion:
super, attrs = Generate_xsd_classes(node, parent)
inheritance.extend(super)
attributes.update(attrs)
# if sequence tag have been found, order is returned
if sequence:
return inheritance, attributes, order
else:
return inheritance, attributes
"""
Function that extracts data from a node
"""
def GetAttributeValue(attr):
if len(attr.childNodes) == 1:
return attr.childNodes[0].data.encode()
else:
return ""
"""
Funtion that returns the Python type and default value for a given type
"""
def GetTypeInitialValue(attr_type):
type_compute = attr_type[4:].replace("[]", "")
if attr_type.startswith("bse:"):
if type_compute == "boolean":
return BooleanType, "False"
elif type_compute in ["decimal","unsignedLong","long","integer"]:
return IntType, "0"
elif type_compute in ["string","anyURI","NMTOKEN"]:
return StringType, "\"\""
elif type_compute == "time":
return TimeType, "time(0,0,0,0)"
elif type_compute == "date":
return DateType, "date(1,1,1)"
elif type_compute == "dateTime":
return DateTimeType, "datetime(1,1,1,0,0,0,0)"
elif type_compute == "language":
return StringType, "\"en-US\""
else:
print "Can't affect: %s"%type_compute
elif attr_type.startswith("cls:"):
if type_compute in XMLClasses:
return XMLClasses[type_compute],"%s()"%type_compute
"""
Function that computes value from a python type (Only Boolean are critical because
there is no uppercase in plcopen)
"""
def ComputeValue(value):
if type(value) == BooleanType:
if value:
return "true"
else:
return "false"
else:
return str(value)
"""
Function that extracts a value from a string following the xsd type given
"""
def GetComputedValue(attr_type, value):
type_compute = attr_type[4:].replace("[]", "")
if type_compute == "boolean":
if value == "true":
return True
elif value == "false":
return False
else:
raise ValueError, "\"%s\" is not a valid boolean!"%value
elif type_compute in ["decimal","unsignedLong","long","integer"]:
return int(value)
elif type_compute in ["string","anyURI","NMTOKEN","language"]:
return value
elif type_compute == "time":
result = time_model.match(value)
if result:
values = result.groups()
time_values = [int(v) for v in values[:2]]
seconds = float(values[2])
time_values.extend([int(seconds), int((seconds % 1) * 1000000)])
return time(*time_values)
else:
raise ValueError, "\"%s\" is not a valid time!"%value
elif type_compute == "date":
result = date_model.match(value)
if result:
date_values = [int(v) for v in result.groups()]
return date(*date_values)
else:
raise ValueError, "\"%s\" is not a valid date!"%value
elif type_compute == "dateTime":
result = datetime_model.match(value)
if result:
values = result.groups()
datetime_values = [int(v) for v in values[:5]]
seconds = float(values[5])
datetime_values.extend([int(seconds), int((seconds % 1) * 1000000)])
return datetime(*datetime_values)
else:
raise ValueError, "\"%s\" is not a valid datetime!"%value
else:
print "Can't affect: %s"%type_compute
return None
"""
This is the Metaclass for PLCOpen element classes. It generates automatically
the basic useful methods for manipulate the differents attributes of the classes
"""
class MetaClass(type):
def __init__(cls, name, bases, dict, user_classes):
super(MetaClass, cls).__init__(name, bases, {})
#print name, bases, dict, "\n"
initialValues = {}
for attr, values in dict.items():
if attr in ["order", "basetype"]:
pass
# Class is a enumerated type
elif attr == "enum":
value_type, initial = GetTypeInitialValue(dict["basetype"])
initialValues["value"] = "\"%s\""%values[0]
setattr(cls, "value", values[0])
setattr(cls, "setValue", MetaClass.generateSetEnumMethod(cls, values, value_type))
setattr(cls, "getValue", MetaClass.generateGetMethod(cls, "value"))
# Class is a limited type
elif attr == "limit":
value_type, initial = GetTypeInitialValue(dict["basetype"])
initial = 0
if "min" in values:
initial = max(initial, values["min"])
if "max" in values:
initial = min(initial, values["max"])
initialValues["value"] = "%d"%initial
setattr(cls, "value", initial)
setattr(cls, "setValue", MetaClass.generateSetLimitMethod(cls, values, value_type))
setattr(cls, "getValue", MetaClass.generateGetMethod(cls, "value"))
# Class has an attribute that can have different value types
elif attr == "choice_content":
setattr(cls, "content", None)
initialValues["content"] = "None"
setattr(cls, "deleteContent", MetaClass.generateDeleteMethod(cls, "content"))
setattr(cls, "setContent", MetaClass.generateSetChoiceMethod(cls, values))
setattr(cls, "getContent", MetaClass.generateGetMethod(cls, "content"))
elif attr == "multichoice_content":
setattr(cls, "content", [])
initialValues["content"] = "[]"
setattr(cls, "appendContent", MetaClass.generateAppendChoiceMethod(cls, values))
setattr(cls, "insertContent", MetaClass.generateInsertChoiceMethod(cls, values))
setattr(cls, "removeContent", MetaClass.generateRemoveMethod(cls, "content"))
setattr(cls, "countContent", MetaClass.generateCountMethod(cls, "content"))
setattr(cls, "setContent", MetaClass.generateSetMethod(cls, "content", ListType))
setattr(cls, "getContent", MetaClass.generateGetMethod(cls, "content"))
# It's an attribute of the class
else:
attrname = attr[0].upper()+attr[1:]
attr_type, xml_type, write_type = values
value_type, initial = GetTypeInitialValue(attr_type)
# Value of the attribute is a list
if attr_type.endswith("[]"):
setattr(cls, attr, [])
initialValues[attr] = "[]"
setattr(cls, "append"+attrname, MetaClass.generateAppendMethod(cls, attr, value_type))
setattr(cls, "insert"+attrname, MetaClass.generateInsertMethod(cls, attr, value_type))
setattr(cls, "remove"+attrname, MetaClass.generateRemoveMethod(cls, attr))
setattr(cls, "count"+attrname, MetaClass.generateCountMethod(cls, attr))
setattr(cls, "set"+attrname, MetaClass.generateSetMethod(cls, attr, ListType))
else:
if write_type == "optional":
setattr(cls, attr, None)
initialValues[attr] = "None"
setattr(cls, "add"+attrname, MetaClass.generateAddMethod(cls, attr, initial, user_classes))
setattr(cls, "delete"+attrname, MetaClass.generateDeleteMethod(cls, attr))
else:
setattr(cls, attr, initial)
initialValues[attr] = initial
setattr(cls, "set"+attrname, MetaClass.generateSetMethod(cls, attr, value_type))
setattr(cls, "get"+attrname, MetaClass.generateGetMethod(cls, attr))
setattr(cls, "__init__", MetaClass.generateInitMethod(cls, bases, initialValues, user_classes))
setattr(cls, "loadXMLTree", MetaClass.generateLoadXMLTree(cls, bases, dict, user_classes))
setattr(cls, "generateXMLText", MetaClass.generateGenerateXMLText(cls, bases, dict))
setattr(cls, "singleLineAttributes", True)
"""
Method that generate the method for loading an xml tree by following the
attributes list defined
"""
def generateLoadXMLTree(cls, bases, dict, user_classes):
def loadXMLTreeMethod(self, tree):
# If class is derived, values of inheritance classes are loaded
for base in bases:
base.loadXMLTree(self, tree)
# Class is a enumerated or limited value
if "enum" in dict.keys() or "limit" in dict.keys():
attr_value = GetAttributeValue(tree)
attr_type = dict["basetype"]
val = GetComputedValue(attr_type, attr_value)
self.setValue(val)
else:
# Load the node attributes if they are defined in the list
for attrname, attr in tree._attrs.items():
if attrname in dict.keys():
attr_type, xml_type, write_type = dict[attrname]
attr_value = GetAttributeValue(attr)
if write_type != "optional" or attr_value != "":
# Extracts the value
if attr_type.startswith("bse:"):
val = GetComputedValue(attr_type, attr_value)
elif attr_type.startswith("cls:"):
val = eval("%s()"%attr_type[4:], globals().update(user_classes))
val.loadXMLTree(attr)
setattr(self, attrname, val)
# Load the node childs if they are defined in the list
for node in tree.childNodes:
name = node.nodeName
# We make fun of #text elements
if name != "#text":
# Class has an attribute that can have different value types
if "choice_content" in dict.keys() and name in dict["choice_content"].keys():
attr_type = dict["choice_content"][name]
# Extracts the value
if attr_type.startswith("bse:"):
attr_value = GetAttributeValue(node)
if write_type != "optional" or attr_value != "":
val = GetComputedValue(attr_type.replace("[]",""), attr_value)
else:
val = None
elif attr_type.startswith("cls:"):
val = eval("%s()"%attr_type[4:].replace("[]",""), globals().update(user_classes))
val.loadXMLTree(node)
# Stock value in content attribute
if val:
if attr_type.endswith("[]"):
if self.content:
self.content["value"].append(val)
else:
self.content = {"name":name,"value":[val]}
else:
self.content = {"name":name,"value":val}
# Class has a list of attributes that can have different value types
elif "multichoice_content" in dict.keys() and name in dict["multichoice_content"].keys():
attr_type = dict["multichoice_content"][name]
# Extracts the value
if attr_type.startswith("bse:"):
attr_value = GetAttributeValue(node)
if write_type != "optional" or attr_value != "":
val = GetComputedValue(attr_type, attr_value)
else:
val = None
elif attr_type.startswith("cls:"):
val = eval("%s()"%attr_type[4:], globals().update(user_classes))
val.loadXMLTree(node)
# Add to content attribute list
if val:
self.content.append({"name":name,"value":val})
# The node child is defined in the list
elif name in dict.keys():
attr_type, xml_type, write_type = dict[name]
# Extracts the value
if attr_type.startswith("bse:"):
attr_value = GetAttributeValue(node)
if write_type != "optional" or attr_value != "":
val = GetComputedValue(attr_type.replace("[]",""), attr_value)
else:
val = None
elif attr_type.startswith("cls:"):
val = eval("%s()"%attr_type[4:].replace("[]",""), globals().update(user_classes))
val.loadXMLTree(node)
# Stock value in attribute
if val:
if attr_type.endswith("[]"):
getattr(self, name).append(val)
else:
setattr(self, name, val)
return loadXMLTreeMethod
"""
Method that generates the method for generating an xml text by following the
attributes list defined
"""
def generateGenerateXMLText(cls, bases, dict):
def generateXMLTextMethod(self, name, indent, extras = {}, derived = False):
ind1, ind2 = getIndent(indent, name)
if not derived:
text = ind1 + "<%s"%name
else:
text = ""
if len(bases) > 0:
base_extras = {}
if "order" in dict.keys():
order = dict["order"]
else:
order = []
if "choice_content" in dict.keys() and "choice_content" not in order:
order.append("choice_content")
if "multichoice_content" in dict.keys() and "multichoice_content" not in order:
order.append("multichoice_content")
size = 0
first = True
for attr, value in extras.items():
if not first and not self.singleLineAttributes:
text += "\n%s"%(ind2)
text += " %s=\"%s\""%(attr, ComputeValue(value))
first = False
for attr, values in dict.items():
if attr in ["order","choice_content","multichoice_content"]:
pass
elif attr in ["enum","limit"]:
if not derived:
text += ">%s</%s>\n"%(ComputeValue(self.value),name)
else:
text += ComputeValue(self.value)
return text
elif values[1] == "attribute":
value = getattr(self, attr, None)
if values[2] != "optional" or value != None:
if not first and not self.singleLineAttributes:
text += "\n%s"%(ind2)
if values[0].startswith("cls"):
if len(bases) > 0:
base_extras[attr] = value.getValue()
else:
text += " %s=\"%s\""%(attr, ComputeValue(value.getValue()))
else:
if len(bases) > 0:
base_extras[attr] = value
else:
text += " %s=\"%s\""%(attr, ComputeValue(value))
first = False
if len(bases) > 0:
first, new_text = bases[0].generateXMLText(self, name, indent, base_extras, True)
text += new_text
else:
first = True
ind3, ind4 = getIndent(indent + 1, name)
for attr in order:
value = getattr(self, attr, None)
if attr == "choice_content":
if self.content:
if first:
text += ">\n"
first = False
value_type = dict[attr][self.content["name"]]
if value_type.startswith("bse:"):
if value_type.endswith("[]"):
for content in self.content["value"]:
text += ind1 + "<%s>%s</%s>\n"%(self.content["name"], ComputeValue(content), self.content["name"])
else:
text += ind1 + "<%s>%s</%s>\n"%(self.content["name"], ComputeValue(self.content["value"]), self.content["name"])
elif value_type.endswith("[]"):
for content in self.content["value"]:
text += content.generateXMLText(self.content["name"], indent + 1)
else:
text += self.content["value"].generateXMLText(self.content["name"], indent + 1)
elif attr == "multichoice_content":
if len(self.content) > 0:
for element in self.content:
if first:
text += ">\n"
first = False
value_type = dict[attr][element["name"]]
if value_type.startswith("bse:"):
text += ind1 + "<%s>%s</%s>\n"%(element["name"], ComputeValue(element["value"]), element["name"])
else:
text += element["value"].generateXMLText(element["name"], indent + 1)
elif dict[attr][2] != "optional" or value != None:
if dict[attr][0].endswith("[]"):
if first and len(value) > 0:
text += ">\n"
first = False
for element in value:
if dict[attr][0].startswith("bse:"):
text += ind3 + "<%s>%s</%s>\n"%(attr, ComputeValue(element), attr)
else:
text += element.generateXMLText(attr, indent + 1)
else:
if first:
text += ">\n"
first = False
if dict[attr][0].startswith("bse:"):
text += ind3 + "<%s>%s</%s>\n"%(attr, ComputeValue(value), attr)
else:
text += getattr(self, attr).generateXMLText(attr, indent + 1)
if not derived:
if first:
text += "/>\n"
else:
text += ind1 + "</%s>\n"%(name)
return text
else:
return first, text
return generateXMLTextMethod
"""
Methods that generates the different methods for setting and getting the attributes
"""
def generateInitMethod(cls, bases, dict, user_classes):
def initMethod(self):
for base in bases:
base.__init__(self)
for attr, initial in dict.items():
setattr(self, attr, eval(initial, globals().update(user_classes)))
return initMethod
def generateSetMethod(cls, attr, choice_type):
def setMethod(self, value):
setattr(self, attr, value)
return setMethod
def generateSetChoiceMethod(cls, attr_type):
def setChoiceMethod(self, name, value):
self.content = {"name":name,"value":value}
return setChoiceMethod
def generateSetEnumMethod(cls, enum, attr_type):
def setEnumMethod(self, value):
if value in enum:
self.value = value
else:
raise ValueError, "%s is not a valid value. Must be in %s"%(value, str(enum))
return setEnumMethod
def generateSetLimitMethod(cls, limit, attr_type):
def setMethod(self, value):
if "min" in limit and value < limit["min"]:
raise ValueError, "%s is not a valid value. Must be greater than %d"%(value, limit["min"])
elif "max" in limit and value > limit["max"]:
raise ValueError, "%s is not a valid value. Must be smaller than %d"%(value, limit["max"])
else:
self.value = value
return setMethod
def generateGetMethod(cls, attr):
def getMethod(self):
return getattr(self, attr, None)
return getMethod
def generateAddMethod(cls, attr, initial, user_classes):
def addMethod(self):
setattr(self, attr, eval(initial, globals().update(user_classes)))
return addMethod
def generateDeleteMethod(cls, attr):
def deleteMethod(self):
setattr(self, attr, None)
return deleteMethod
def generateAppendMethod(cls, attr, attr_type):
def appendMethod(self, value):
getattr(self, attr).append(value)
return appendMethod
def generateInsertMethod(cls, attr, attr_type):
def insertMethod(self, index, value):
getattr(self, attr).insert(index, value)
return insertMethod
def generateAppendChoiceMethod(cls, choice_types):
def appendMethod(self, name, value):
self.content.append({"name":name,"value":value})
return appendMethod
def generateInsertChoiceMethod(cls, choice_types):
def insertMethod(self, index, name, value):
self.content.insert(index, {"name":name,"value":value})
return insertMethod
def generateRemoveMethod(cls, attr):
def removeMethod(self, index):
getattr(self, attr).pop(index)
return removeMethod
def generateCountMethod(cls, attr):
def countMethod(self):
return len(getattr(self, attr))
return countMethod
"""
Methods that generate the classes
"""
def CreateClasses(user_classes, user_types):
for classname in XMLClasses.keys():
CreateClass(classname, user_classes, user_types)
def CreateClass(classname, user_classes, user_types):
# Checks that classe haven't been generated yet
if classname not in user_classes and classname not in user_types and classname in XMLClasses:
inheritance, attributes = XMLClasses[classname]
#print classe, inheritance, attributes
dict = {}
bases = []
# If inheritance classes haven't been generated
for base in inheritance:
if base not in user_classes:
CreateClass(base, user_classes, user_types)
bases.append(user_classes[base])
# Checks that all attribute types are available
for attribute, type_attribute in attributes.items():
if attribute == "group":
user_types[classname] = type_attribute
elif attribute == "ref":
user_types[classname] = {}
for attr in type_attribute:
if attr[4:] not in user_types:
CreateClass(attr[4:], user_classes, user_types)
user_types[classname].update(user_types[attr[4:]])
elif attribute in ["choice_content","multichoice_content"]:
element_types = {}
for attr, value in type_attribute.items():
if attr == "ref":
for ref in type_attribute["ref"]:
if ref[4:] not in user_types:
CreateClass(ref[4:], user_classes, user_types)
element_types.update(user_types[ref[4:]])
else:
element_types[attr] = value
dict[attribute] = element_types
else:
dict[attribute] = type_attribute
if attribute == "enum":
user_types["%s_enum"%classname] = type_attribute
elif attribute not in ["limit", "order"]:
if type_attribute[0].startswith("ppx:"):
type_compute = type_attribute[0][4:].replace("[]","")
if type_compute not in user_classes:
CreateClass(type_compute, user_classes, user_types)
if "group" not in attributes.keys() and "ref" not in attributes.keys():
cls = MetaClass.__new__(MetaClass, classname, tuple(bases), dict)
MetaClass.__init__(cls, classname, tuple(bases), dict, user_classes)
user_classes[classname] = cls
"""
Methods that print the classes generated
"""
def PrintClasses():
for classname, xmlclass in XMLClasses.items():
print "%s : %s\n"%(classname, str(xmlclass))
def PrintClassNames():
classnames = XMLClasses.keys()
classnames.sort()
for classname in classnames:
print classname