Adding support for using shift key with rubberband for adding a group of elements to the current selection
#!/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
import os, re
import datetime
from xml.dom import minidom
from types import *
from xmlclass import *
def GenerateDictFacets(facets):
return dict([(name, (None, False)) for name in facets])
def GenerateSimpleTypeXMLText(function):
def generateXMLTextMethod(value, name=None, indent=0):
text = ""
if name is not None:
ind1, ind2 = getIndent(indent, name)
text += ind1 + "<%s>" % name
text += function(value)
if name is not None:
text += "</%s>\n" % name
return text
return generateXMLTextMethod
def GenerateFloatXMLText(extra_values=[]):
def generateXMLTextMethod(value, name=None, indent=0):
text = ""
if name is not None:
ind1, ind2 = getIndent(indent, name)
text += ind1 + "<%s>" % name
if value in extra_values or value % 1 != 0 or isinstance(value, IntType):
text += str(value)
else:
text += "%.0f" % value
if name is not None:
text += "</%s>\n" % name
return text
return generateXMLTextMethod
DEFAULT_FACETS = GenerateDictFacets(["pattern", "whiteSpace", "enumeration"])
NUMBER_FACETS = GenerateDictFacets(DEFAULT_FACETS.keys() + ["maxInclusive", "maxExclusive", "minInclusive", "minExclusive"])
DECIMAL_FACETS = GenerateDictFacets(NUMBER_FACETS.keys() + ["totalDigits", "fractionDigits"])
STRING_FACETS = GenerateDictFacets(DEFAULT_FACETS.keys() + ["length", "minLength", "maxLength"])
ALL_FACETS = ["pattern", "whiteSpace", "enumeration", "maxInclusive",
"maxExclusive", "minInclusive", "minExclusive", "totalDigits",
"fractionDigits", "length", "minLength", "maxLength"]
#-------------------------------------------------------------------------------
# Structure reducing functions
#-------------------------------------------------------------------------------
# Documentation elements
def ReduceAppInfo(factory, attributes, elements):
return {"type": "appinfo", "source": attributes.get("source", None),
"content": "\n".join(elements)}
def ReduceDocumentation(factory, attributes, elements):
return {"type": "documentation", "source": attributes.get("source", None),
"language": attributes.get("lang", "any"), "content": "\n".join(elements)}
def ReduceAnnotation(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
annotation = {"type": "annotation", "appinfo": [], "documentation": {}}
for child in children:
if child["type"] == "appinfo":
annotation["appinfo"].append((child["source"], child["content"]))
elif child["type"] == "documentation":
if child["source"] is not None:
text = "(source: %(source)s):\n%(content)s\n\n"%child
else:
text = child["content"] + "\n\n"
if not annotation["documentation"].has_key(child["language"]):
annotation["documentation"] = text
else:
annotation["documentation"] += text
return annotation
# Simple type elements
def GenerateFacetReducing(facetname, canbefixed):
def ReduceFacet(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
if attributes.has_key("value"):
facet = {"type": facetname, "value": attributes["value"], "doc": annotations}
if canbefixed:
facet["fixed"] = attributes.get("fixed", False)
return facet
raise ValueError("A value must be defined for the \"%s\" facet!" % facetname)
return ReduceFacet
def ReduceList(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
list = {"type": "list", "itemType": attributes.get("itemType", None), "doc": annotations}
if len(children) > 0 and children[0]["type"] == SIMPLETYPE:
if list["itemType"] is None:
list["itemType"] = children[0]
else:
raise ValueError("Only one base type can be defined for restriction!")
if list["itemType"] is None:
raise ValueError("No base type has been defined for list!")
return list
def ReduceUnion(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
union = {"type": "union", "memberTypes": attributes.get("memberTypes", []), "doc": annotations}
for child in children:
if child["type"] == SIMPLETYPE:
union["memberTypes"].appendchild
if len(union["memberTypes"]) == 0:
raise ValueError("No base type has been defined for union!")
return union
def CreateSimpleType(factory, attributes, typeinfos):
# Initialize type informations
facets = {}
simpleType = {"type": SIMPLETYPE, "final": attributes.get("final", [])}
if attributes.has_key("name"):
simpleType["name"] = attributes["name"]
if typeinfos["type"] in ["restriction", "extension"]:
# Search for base type definition
if isinstance(typeinfos["base"], (StringType, UnicodeType)):
basetypeinfos = factory.FindSchemaElement(typeinfos["base"], SIMPLETYPE)
if basetypeinfos is None:
raise "\"%s\" isn't defined!" % typeinfos["base"]
else:
basetypeinfos = typeinfos["base"]
# Check that base type is a simple type
if basetypeinfos["type"] != SIMPLETYPE:
raise ValueError("Base type given isn't a simpleType!")
simpleType["basename"] = basetypeinfos["basename"]
# Check that derivation is allowed
if basetypeinfos.has_key("final"):
if "#all" in basetypeinfos["final"]:
raise ValueError("Base type can't be derivated!")
if "restriction" in basetypeinfos["final"] and typeinfos["type"] == "restriction":
raise ValueError("Base type can't be derivated by restriction!")
# Extract simple type facets
for facet in typeinfos.get("facets", []):
facettype = facet["type"]
if not basetypeinfos["facets"].has_key(facettype):
raise ValueError("\"%s\" facet can't be defined for \"%s\" type!" % (facettype, type))
elif basetypeinfos["facets"][facettype][1]:
raise ValueError("\"%s\" facet is fixed on base type!" % facettype)
value = facet["value"]
basevalue = basetypeinfos["facets"][facettype][0]
if facettype in ["enumeration", "pattern"]:
value = basetypeinfos["extract"](value, False)
if len(facets) == 0:
facets[facettype] = ([value], False)
continue
elif facets.keys() == [facettype]:
facets[facettype][0].append(value)
continue
else:
raise ValueError("\"%s\" facet can't be defined with another facet type!" % facettype)
elif facets.has_key("enumeration"):
raise ValueError("\"enumeration\" facet can't be defined with another facet type!")
elif facets.has_key("pattern"):
raise ValueError("\"pattern\" facet can't be defined with another facet type!")
elif facets.has_key(facettype):
raise ValueError("\"%s\" facet can't be defined two times!" % facettype)
elif facettype == "length":
if facets.has_key("minLength"):
raise ValueError("\"length\" and \"minLength\" facets can't be defined at the same time!")
if facets.has_key("maxLength"):
raise ValueError("\"length\" and \"maxLength\" facets can't be defined at the same time!")
try:
value = int(value)
except:
raise ValueError("\"length\" must be an integer!")
if value < 0:
raise ValueError("\"length\" can't be negative!")
elif basevalue is not None and basevalue != value:
raise ValueError("\"length\" can't be different from \"length\" defined in base type!")
elif facettype == "minLength":
if facets.has_key("length"):
raise ValueError("\"length\" and \"minLength\" facets can't be defined at the same time!")
try:
value = int(value)
except:
raise ValueError("\"minLength\" must be an integer!")
if value < 0:
raise ValueError("\"minLength\" can't be negative!")
elif facets.has_key("maxLength") and value > facets["maxLength"]:
raise ValueError("\"minLength\" must be lesser than or equal to \"maxLength\"!")
elif basevalue is not None and basevalue < value:
raise ValueError("\"minLength\" can't be lesser than \"minLength\" defined in base type!")
elif facettype == "maxLength":
if facets.has_key("length"):
raise ValueError("\"length\" and \"maxLength\" facets can't be defined at the same time!")
try:
value = int(value)
except:
raise ValueError("\"maxLength\" must be an integer!")
if value < 0:
raise ValueError("\"maxLength\" can't be negative!")
elif facets.has_key("minLength") and value < facets["minLength"]:
raise ValueError("\"minLength\" must be lesser than or equal to \"maxLength\"!")
elif basevalue is not None and basevalue > value:
raise ValueError("\"maxLength\" can't be greater than \"maxLength\" defined in base type!")
elif facettype == "minInclusive":
if facets.has_key("minExclusive"):
raise ValueError("\"minExclusive\" and \"minInclusive\" facets can't be defined at the same time!")
value = basetypeinfos["extract"](facet["value"], False)
if facets.has_key("maxInclusive") and value > facets["maxInclusive"][0]:
raise ValueError("\"minInclusive\" must be lesser than or equal to \"maxInclusive\"!")
elif facets.has_key("maxExclusive") and value >= facets["maxExclusive"][0]:
raise ValueError("\"minInclusive\" must be lesser than \"maxExclusive\"!")
elif facettype == "minExclusive":
if facets.has_key("minInclusive"):
raise ValueError("\"minExclusive\" and \"minInclusive\" facets can't be defined at the same time!")
value = basetypeinfos["extract"](facet["value"], False)
if facets.has_key("maxInclusive") and value >= facets["maxInclusive"][0]:
raise ValueError("\"minExclusive\" must be lesser than \"maxInclusive\"!")
elif facets.has_key("maxExclusive") and value >= facets["maxExclusive"][0]:
raise ValueError("\"minExclusive\" must be lesser than \"maxExclusive\"!")
elif facettype == "maxInclusive":
if facets.has_key("maxExclusive"):
raise ValueError("\"maxExclusive\" and \"maxInclusive\" facets can't be defined at the same time!")
value = basetypeinfos["extract"](facet["value"], False)
if facets.has_key("minInclusive") and value < facets["minInclusive"][0]:
raise ValueError("\"minInclusive\" must be lesser than or equal to \"maxInclusive\"!")
elif facets.has_key("minExclusive") and value <= facets["minExclusive"][0]:
raise ValueError("\"minExclusive\" must be lesser than \"maxInclusive\"!")
elif facettype == "maxExclusive":
if facets.has_key("maxInclusive"):
raise ValueError("\"maxExclusive\" and \"maxInclusive\" facets can't be defined at the same time!")
value = basetypeinfos["extract"](facet["value"], False)
if facets.has_key("minInclusive") and value <= facets["minInclusive"][0]:
raise ValueError("\"minInclusive\" must be lesser than \"maxExclusive\"!")
elif facets.has_key("minExclusive") and value <= facets["minExclusive"][0]:
raise ValueError("\"minExclusive\" must be lesser than \"maxExclusive\"!")
elif facettype == "whiteSpace":
if basevalue == "collapse" and value in ["preserve", "replace"] or basevalue == "replace" and value == "preserve":
raise ValueError("\"whiteSpace\" is incompatible with \"whiteSpace\" defined in base type!")
elif facettype == "totalDigits":
if facets.has_key("fractionDigits") and value <= facets["fractionDigits"][0]:
raise ValueError("\"fractionDigits\" must be lesser than or equal to \"totalDigits\"!")
elif basevalue is not None and value > basevalue:
raise ValueError("\"totalDigits\" can't be greater than \"totalDigits\" defined in base type!")
elif facettype == "fractionDigits":
if facets.has_key("totalDigits") and value <= facets["totalDigits"][0]:
raise ValueError("\"fractionDigits\" must be lesser than or equal to \"totalDigits\"!")
elif basevalue is not None and value > basevalue:
raise ValueError("\"totalDigits\" can't be greater than \"totalDigits\" defined in base type!")
facets[facettype] = (value, facet.get("fixed", False))
# Report not redefined facet from base type to new created type
for facettype, facetvalue in basetypeinfos["facets"].items():
if not facets.has_key(facettype):
facets[facettype] = facetvalue
# Generate extract value for new created type
def ExtractSimpleTypeValue(attr, extract=True):
value = basetypeinfos["extract"](attr, extract)
for facetname, (facetvalue, facetfixed) in facets.items():
if facetvalue is not None:
if facetname == "enumeration" and value not in facetvalue:
raise ValueError("\"%s\" not in enumerated values" % value)
elif facetname == "length" and len(value) != facetvalue:
raise ValueError("value must have a length of %d" % facetvalue)
elif facetname == "minLength" and len(value) < facetvalue:
raise ValueError("value must have a length of %d at least" % facetvalue)
elif facetname == "maxLength" and len(value) > facetvalue:
raise ValueError("value must have a length of %d at most" % facetvalue)
elif facetname == "minInclusive" and value < facetvalue:
raise ValueError("value must be greater than or equal to %s" % str(facetvalue))
elif facetname == "minExclusive" and value <= facetvalue:
raise ValueError("value must be greater than %s" % str(facetvalue))
elif facetname == "maxInclusive" and value > facetvalue:
raise ValueError("value must be lesser than or equal to %s" % str(facetvalue))
elif facetname == "maxExclusive" and value >= facetvalue:
raise ValueError("value must be lesser than %s" % str(facetvalue))
elif facetname == "pattern":
model = re.compile("(?:%s)?$" % "|".join(map(lambda x: "(?:%s)" % x, facetvalue)))
result = model.match(value)
if result is None:
if len(facetvalue) > 1:
raise ValueError("value doesn't follow any of the patterns %s" % ",".join(facetvalue))
else:
raise ValueError("value doesn't follow the pattern %s" % facetvalue[0])
elif facetname == "whiteSpace":
if facetvalue == "replace":
value = GetNormalizedString(value, False)
elif facetvalue == "collapse":
value = GetToken(value, False)
return value
def CheckSimpleTypeValue(value):
for facetname, (facetvalue, facetfixed) in facets.items():
if facetvalue is not None:
if facetname == "enumeration" and value not in facetvalue:
return False
elif facetname == "length" and len(value) != facetvalue:
return False
elif facetname == "minLength" and len(value) < facetvalue:
return False
elif facetname == "maxLength" and len(value) > facetvalue:
return False
elif facetname == "minInclusive" and value < facetvalue:
return False
elif facetname == "minExclusive" and value <= facetvalue:
return False
elif facetname == "maxInclusive" and value > facetvalue:
return False
elif facetname == "maxExclusive" and value >= facetvalue:
return False
elif facetname == "pattern":
model = re.compile("(?:%s)?$" % "|".join(map(lambda x: "(?:%s)" % x, facetvalue)))
result = model.match(value)
if result is None:
if len(facetvalue) > 1:
raise ValueError("value doesn't follow any of the patterns %s" % ",".join(facetvalue))
else:
raise ValueError("value doesn't follow the pattern %s" % facetvalue[0])
return True
def SimpleTypeInitialValue():
for facetname, (facetvalue, facetfixed) in facets.items():
if facetvalue is not None:
if facetname == "enumeration":
return facetvalue[0]
elif facetname == "length":
return " "*facetvalue
elif facetname == "minLength":
return " "*minLength
elif facetname == "minInclusive" and facetvalue > 0:
return facetvalue
elif facetname == "minExclusive" and facetvalue >= 0:
return facetvalue + 1
elif facetname == "maxInclusive" and facetvalue < 0:
return facetvalue
elif facetname == "maxExclusive" and facetvalue <= 0:
return facetvalue - 1
return basetypeinfos["initial"]()
GenerateSimpleType = basetypeinfos["generate"]
elif typeinfos["type"] == "list":
# Search for item type definition
if isinstance(typeinfos["itemType"], (StringType, UnicodeType)):
itemtypeinfos = factory.FindSchemaElement(typeinfos["itemType"], SIMPLETYPE)
if itemtypeinfos is None:
raise "\"%s\" isn't defined!" % typeinfos["itemType"]
else:
itemtypeinfos = typeinfos["itemType"]
# Check that item type is a simple type
if itemtypeinfos["type"] != SIMPLETYPE:
raise ValueError, "Item type given isn't a simpleType!"
simpleType["basename"] = "list"
# Check that derivation is allowed
if itemtypeinfos.has_key("final"):
if itemtypeinfos["final"].has_key("#all"):
raise ValueError("Item type can't be derivated!")
if itemtypeinfos["final"].has_key("list"):
raise ValueError("Item type can't be derivated by list!")
# Generate extract value for new created type
def ExtractSimpleTypeValue(attr, extract = True):
values = []
for value in GetToken(attr, extract).split(" "):
values.append(itemtypeinfos["extract"](value, False))
return values
def CheckSimpleTypeValue(value):
for item in value:
result = itemtypeinfos["check"](item)
if not result:
return result
return True
SimpleTypeInitialValue = lambda: []
GenerateSimpleType = GenerateSimpleTypeXMLText(lambda x: " ".join(map(itemtypeinfos["generate"], x)))
facets = GenerateDictFacets(["length", "maxLength", "minLength", "enumeration", "pattern"])
facets["whiteSpace"] = ("collapse", False)
elif typeinfos["type"] == "union":
# Search for member types definition
membertypesinfos = []
for membertype in typeinfos["memberTypes"]:
if isinstance(membertype, (StringType, UnicodeType)):
infos = factory.FindSchemaElement(membertype, SIMPLETYPE)
if infos is None:
raise ValueError("\"%s\" isn't defined!" % membertype)
else:
infos = membertype
# Check that member type is a simple type
if infos["type"] != SIMPLETYPE:
raise ValueError("Member type given isn't a simpleType!")
# Check that derivation is allowed
if infos.has_key("final"):
if infos["final"].has_key("#all"):
raise ValueError("Item type can't be derivated!")
if infos["final"].has_key("union"):
raise ValueError("Member type can't be derivated by union!")
membertypesinfos.append(infos)
simpleType["basename"] = "union"
# Generate extract value for new created type
def ExtractSimpleTypeValue(attr, extract = True):
if extract:
value = GetAttributeValue(attr)
else:
value = attr
for infos in membertypesinfos:
try:
return infos["extract"](attr, False)
except:
pass
raise ValueError("\"%s\" isn't valid for type defined for union!")
def CheckSimpleTypeValue(value):
for infos in membertypesinfos:
result = infos["check"](value)
if result:
return result
return False
SimpleTypeInitialValue = membertypesinfos[0]["initial"]
def GenerateSimpleTypeFunction(value):
if isinstance(value, BooleanType):
return {True: "true", False: "false"}[value]
else:
return str(value)
GenerateSimpleType = GenerateSimpleTypeXMLText(GenerateSimpleTypeFunction)
facets = GenerateDictFacets(["pattern", "enumeration"])
simpleType["facets"] = facets
simpleType["extract"] = ExtractSimpleTypeValue
simpleType["initial"] = SimpleTypeInitialValue
simpleType["check"] = CheckSimpleTypeValue
simpleType["generate"] = GenerateSimpleType
return simpleType
def ReduceSimpleType(factory, attributes, elements):
# Reduce all the simple type children
annotations, children = factory.ReduceElements(elements)
simpleType = CreateSimpleType(factory, attributes, children[0])
simpleType["doc"] = annotations
return simpleType
# Complex type
def ExtractAttributes(factory, elements, base=None):
attrs = []
attrnames = {}
if base is not None:
basetypeinfos = factory.FindSchemaElement(base)
if not isinstance(basetypeinfos, (UnicodeType, StringType)) and basetypeinfos["type"] == COMPLEXTYPE:
attrnames = dict(map(lambda x:(x["name"], True), basetypeinfos["attributes"]))
for element in elements:
if element["type"] == ATTRIBUTE:
if attrnames.get(element["name"], False):
raise ValueError("\"%s\" attribute has been defined two times!" % element["name"])
else:
attrnames[element["name"]] = True
attrs.append(element)
elif element["type"] == "attributeGroup":
attrgroup = factory.FindSchemaElement(element["ref"], ATTRIBUTESGROUP)
for attr in attrgroup["attributes"]:
if attrnames.get(attr["name"], False):
raise ValueError("\"%s\" attribute has been defined two times!" % attr["name"])
else:
attrnames[attr["name"]] = True
attrs.append(attr)
elif element["type"] == "anyAttribute":
raise ValueError("\"anyAttribute\" element isn't supported yet!")
return attrs
def ReduceRestriction(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
restriction = {"type": "restriction", "base": attributes.get("base", None), "facets": [], "doc": annotations}
if len(children) > 0 and children[0]["type"] == SIMPLETYPE:
if restriction["base"] is None:
restriction["base"] = children.pop(0)
else:
raise ValueError("Only one base type can be defined for restriction!")
if restriction["base"] is None:
raise ValueError("No base type has been defined for restriction!")
while len(children) > 0 and children[0]["type"] in ALL_FACETS:
restriction["facets"].append(children.pop(0))
restriction["attributes"] = ExtractAttributes(factory, children, restriction["base"])
return restriction
def ReduceExtension(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
if not attributes.has_key("base"):
raise ValueError("No base type has been defined for extension!")
extension = {"type": "extension", "attributes": [], "elements": [], "base": attributes["base"], "doc": annotations}
if len(children) > 0:
if children[0]["type"] in ["group", "all", CHOICE, "sequence"]:
group = children.pop(0)
if group["type"] in ["all", "sequence"]:
extension["elements"] = group["elements"]
extension["order"] = group["order"]
elif group["type"] == CHOICE:
content = group.copy()
content["name"] = "content"
extension["elements"].append(content)
elif group["type"] == "group":
elmtgroup = factory.FindSchemaElement(child["ref"], ELEMENTSGROUP)
if elmtgroup.has_key("elements"):
extension["elements"] = elmtgroup["elements"]
extension["order"] = elmtgroup["order"]
else:
content = elmtgroup.copy()
content["name"] = "content"
extension["elements"].append(content)
extension["attributes"] = ExtractAttributes(factory, children)
return extension
def ReduceSimpleContent(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
simpleContent = children[0].copy()
basetypeinfos = factory.FindSchemaElement(simpleContent["base"])
if basetypeinfos["type"] == SIMPLETYPE:
contenttypeinfos = simpleContent.copy()
simpleContent.pop("base")
elif basetypeinfos["type"] == COMPLEXTYPE and \
len(basetypeinfos["elements"]) == 1 and \
basetypeinfos["elements"][0]["name"] == "content" and \
basetypeinfos["elements"][0].has_key("elmt_type") and \
basetypeinfos["elements"][0]["elmt_type"]["type"] == SIMPLETYPE:
contenttypeinfos = simpleContent.copy()
contenttypeinfos["base"] = basetypeinfos["elements"][0]["elmt_type"]
else:
raise ValueError("No compatible base type defined for simpleContent!")
contenttypeinfos = CreateSimpleType(factory, attributes, contenttypeinfos)
simpleContent["elements"] = [{"name": "content", "type": ELEMENT,
"elmt_type": contenttypeinfos, "doc": annotations,
"minOccurs": 1, "maxOccurs": 1}]
simpleContent["type"] = "simpleContent"
return simpleContent
def ReduceComplexContent(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
complexContent = children[0].copy()
complexContent["type"] = "complexContent"
return complexContent
def ReduceComplexType(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
if len(children) > 0:
if children[0]["type"] in ["simpleContent", "complexContent"]:
complexType = children[0].copy()
complexType.update(attributes)
complexType["type"] = COMPLEXTYPE
return complexType
elif children[0]["type"] in ["group", "all", CHOICE, "sequence"]:
complexType = {"type": COMPLEXTYPE, "elements": [], "order": True, "doc": annotations}
complexType.update(attributes)
group = children.pop(0)
if group["type"] in ["all", "sequence"]:
choice_number = 0
for element in group["elements"]:
if element["type"] == CHOICE:
choice_number += 1
if (group["minOccurs"] == 0 or group["maxOccurs"] != 1) and len(group["elements"]) > 1 or choice_number > 1:
content = {"type": CHOICE, "name": "content", "choices": [group], "minOccurs": 1, "maxOccurs": 1}
complexType["elements"].append(content)
else:
if len(group["elements"]) == 1:
if group["minOccurs"] == 0:
group["elements"][0]["minOccurs"] = group["minOccurs"]
if group["maxOccurs"] != 1:
group["elements"][0]["maxOccurs"] = group["maxOccurs"]
for element in group["elements"]:
if element["type"] == CHOICE:
element["name"] = "content"
complexType["elements"] = group["elements"]
complexType["order"] = group["order"]
elif group["type"] == CHOICE:
content = group.copy()
content["name"] = "content"
complexType["elements"].append(content)
elif group["type"] == "group":
elmtgroup = factory.FindSchemaElement(child["ref"], ELEMENTSGROUP)
if elmtgroup.has_key("elements"):
complexType["elements"] = elmtgroup["elements"]
complexType["order"] = elmtgroup["order"]
else:
content = elmtgroup.copy()
content["name"] = "content"
complexType["elements"].append(content)
else:
complexType = {"elements": [], "order": True, "doc": annotations}
complexType.update(attributes)
complexType["type"] = COMPLEXTYPE
complexType["attributes"] = ExtractAttributes(factory, children)
return complexType
else:
raise ValueError("\"ComplexType\" can't be empty!")
# Attribute elements
def ReduceAnyAttribute(factory, attributes, elements):
return {"type" : "anyAttribute"}
def ReduceAttribute(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
if attributes.has_key("default"):
if attributes.has_key("fixed"):
raise ValueError("\"default\" and \"fixed\" can't be defined at the same time!")
elif attributes.get("use", "optional") != "optional":
raise ValueError("if \"default\" present, \"use\" can only have the value \"optional\"!")
attribute = {"type": ATTRIBUTE, "attr_type": attributes.get("type", None), "doc": annotations}
if len(children) > 0:
if attribute["attr_type"] is None:
attribute["attr_type"] = children[0]
else:
raise ValueError("Only one type can be defined for attribute!")
if attributes.has_key("ref"):
if attributes.has_key("name"):
raise ValueError("\"ref\" and \"name\" can't be defined at the same time!")
elif attributes.has_key("form"):
raise ValueError("\"ref\" and \"form\" can't be defined at the same time!")
elif attribute["attr_type"] is not None:
raise ValueError("if \"ref\" is present, no type can be defined!")
elif attribute["attr_type"] is None:
raise ValueError("No type has been defined for attribute \"%s\"!" % attributes["name"])
if attributes.has_key("type"):
tmp_attrs = attributes.copy()
tmp_attrs.pop("type")
attribute.update(tmp_attrs)
else:
attribute.update(attributes)
return attribute
def ReduceAttributeGroup(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
if attributes.has_key("ref"):
return {"type": "attributeGroup", "ref": attributes["ref"], "doc": annotations}
else:
return {"type": ATTRIBUTESGROUP, "attributes": ExtractAttributes(factory, children), "doc": annotations}
# Elements groups
def ReduceAny(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
any = {"type": ANY, "doc": annotations}
any.update(attributes)
return any
def ReduceElement(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
types = []
constraints = []
for child in children:
if child["type"] == CONSTRAINT:
constraints.append(child)
else:
types.append(child)
if attributes.has_key("default") and attributes.has_key("fixed"):
raise ValueError("\"default\" and \"fixed\" can't be defined at the same time!")
if attributes.has_key("ref"):
for attr in ["name", "default", "fixed", "form", "block", "type"]:
if attributes.has_key(attr):
raise ValueError("\"ref\" and \"%s\" can't be defined at the same time!" % attr)
if attributes.has_key("nillable"):
raise ValueError("\"ref\" and \"nillable\" can't be defined at the same time!")
if len(types) > 0:
raise ValueError("No type and no constraints can be defined where \"ref\" is defined!")
infos = factory.FindSchemaElement(attributes["ref"], ELEMENT)
if infos is not None:
element = infos.copy()
element["constraints"] = constraints
element["minOccurs"] = attributes["minOccurs"]
element["maxOccurs"] = attributes["maxOccurs"]
return element
else:
raise ValueError("\"%s\" base type isn't defined or circular referenced!" % name)
elif attributes.has_key("name"):
element = {"type": ELEMENT, "elmt_type": attributes.get("type", None), "constraints": constraints, "doc": annotations}
if len(types) > 0:
if element["elmt_type"] is None:
element["elmt_type"] = types[0]
else:
raise ValueError("Only one type can be defined for attribute!")
elif element["elmt_type"] is None:
element["elmt_type"] = "tag"
element["type"] = TAG
if attributes.has_key("type"):
tmp_attrs = attributes.copy()
tmp_attrs.pop("type")
element.update(tmp_attrs)
else:
element.update(attributes)
return element
else:
raise ValueError("\"Element\" must have at least a \"ref\" or a \"name\" defined!")
def ReduceAll(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
for child in children:
if children["maxOccurs"] == "unbounded" or children["maxOccurs"] > 1:
raise ValueError("\"all\" item can't have \"maxOccurs\" attribute greater than 1!")
return {"type": "all", "elements": children, "minOccurs": attributes["minOccurs"],
"maxOccurs": attributes["maxOccurs"], "order": False, "doc": annotations}
def ReduceChoice(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
choices = []
for child in children:
if child["type"] in [ELEMENT, ANY, TAG]:
choices.append(child)
elif child["type"] == "sequence":
child["minOccurs"] = child["maxOccurs"] = 1
choices.append(child)
#raise ValueError("\"sequence\" in \"choice\" is not supported. Create instead a new complex type!")
elif child["type"] == CHOICE:
choices.extend(child["choices"])
elif child["type"] == "group":
elmtgroup = factory.FindSchemaElement(child["ref"], ELEMENTSGROUP)
if not elmtgroup.has_key("choices"):
raise ValueError("Only group composed of \"choice\" can be referenced in \"choice\" element!")
choices_tmp = []
for choice in elmtgroup["choices"]:
if not isinstance(choice["elmt_type"], (UnicodeType, StringType)) and choice["elmt_type"]["type"] == COMPLEXTYPE:
elmt_type = "%s_%s" % (elmtgroup["name"], choice["name"])
if factory.TargetNamespace is not None:
elmt_type = "%s:%s" % (factory.TargetNamespace, elmt_type)
new_choice = choice.copy()
new_choice["elmt_type"] = elmt_type
choices_tmp.append(new_choice)
else:
choices_tmp.append(choice)
choices.extend(choices_tmp)
return {"type": CHOICE, "choices": choices, "minOccurs": attributes["minOccurs"],
"maxOccurs": attributes["maxOccurs"], "doc": annotations}
def ReduceSequence(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
sequence = []
for child in children:
if child["type"] in [ELEMENT, ANY, TAG, CHOICE]:
sequence.append(child)
elif child["type"] == "sequence":
sequence.extend(child["elements"])
elif child["type"] == "group":
elmtgroup = factory.FindSchemaElement(child["ref"], ELEMENTSGROUP)
if not elmtgroup.has_key("elements") or not elmtgroup["order"]:
raise ValueError("Only group composed of \"sequence\" can be referenced in \"sequence\" element!")
elements_tmp = []
for element in elmtgroup["elements"]:
if not isinstance(element["elmt_type"], (UnicodeType, StringType)) and element["elmt_type"]["type"] == COMPLEXTYPE:
elmt_type = "%s_%s"%(elmtgroup["name"], element["name"])
if factory.TargetNamespace is not None:
elmt_type = "%s:%s" % (factory.TargetNamespace, elmt_type)
new_element = element.copy()
new_element["elmt_type"] = elmt_type
elements_tmp.append(new_element)
else:
elements_tmp.append(element)
sequence.extend(elements_tmp)
return {"type": "sequence", "elements": sequence, "minOccurs": attributes["minOccurs"],
"maxOccurs": attributes["maxOccurs"], "order": True, "doc": annotations}
def ReduceGroup(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
if attributes.has_key("ref"):
return {"type": "group", "ref": attributes["ref"], "doc": annotations}
else:
element = children[0]
group = {"type": ELEMENTSGROUP, "doc": annotations}
if element["type"] == CHOICE:
group["choices"] = element["choices"]
else:
group.update({"elements": element["elements"], "order": group["order"]})
group.update(attributes)
return group
# Constraint elements
def ReduceUnique(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
unique = {"type": CONSTRAINT, "const_type": "unique", "selector": children[0], "fields": children[1:]}
unique.update(attributes)
return unique
def ReduceKey(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
key = {"type": CONSTRAINT, "const_type": "key", "selector": children[0], "fields": children[1:]}
key.update(attributes)
return key
def ReduceKeyRef(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
keyref = {"type": CONSTRAINT, "const_type": "keyref", "selector": children[0], "fields": children[1:]}
keyref.update(attributes)
return keyref
def ReduceSelector(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
selector = {"type": CONSTRAINT, "const_type": "selector"}
selector.update(attributes)
return selector
def ReduceField(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
field = {"type": CONSTRAINT, "const_type": "field"}
field.update(attributes)
return field
# Inclusion elements
def ReduceImport(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
raise ValueError("\"import\" element isn't supported yet!")
def ReduceInclude(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
if factory.FileName is None:
raise ValueError("Include in XSD string not yet supported")
filepath = attributes["schemaLocation"]
if filepath is not None and not os.path.exists(filepath):
filepath = os.path.join(factory.BaseFolder, filepath)
if not os.path.exists(filepath):
raise ValueError("No file '%s' found for include" % attributes["schemaLocation"])
xsdfile = open(filepath, 'r')
include_factory = XSDClassFactory(minidom.parse(xsdfile), filepath)
xsdfile.close()
include_factory.CreateClasses()
if factory.TargetNamespace == include_factory.TargetNamespace:
factory.Namespaces[factory.TargetNamespace].update(include_factory.Namespaces[include_factory.TargetNamespace])
else:
factory.Namespaces[include_factory.TargetNamespace] = include_factory.Namespaces[include_factory.TargetNamespace]
factory.ComputedClasses.update(include_factory.ComputedClasses)
return None
def ReduceRedefine(factory, attributes, elements):
annotations, children = factory.ReduceElements(elements)
raise ValueError("\"redefine\" element isn't supported yet!")
# Schema element
def ReduceSchema(factory, attributes, elements):
factory.AttributeFormDefault = attributes["attributeFormDefault"]
factory.ElementFormDefault = attributes["elementFormDefault"]
factory.BlockDefault = attributes["blockDefault"]
factory.FinalDefault = attributes["finalDefault"]
if attributes.has_key("targetNamespace"):
factory.TargetNamespace = factory.DefinedNamespaces.get(attributes["targetNamespace"], None)
factory.Namespaces[factory.TargetNamespace] = {}
annotations, children = factory.ReduceElements(elements, True)
for child in children:
if child.has_key("name"):
infos = factory.GetQualifiedNameInfos(child["name"], factory.TargetNamespace, True)
if infos is None:
factory.Namespaces[factory.TargetNamespace][child["name"]] = child
elif not CompareSchema(infos, child):
raise ValueError("\"%s\" is defined twice in targetNamespace!" % child["name"])
def CompareSchema(schema, reference):
if isinstance(schema, ListType):
if not isinstance(reference, ListType) or len(schema) != len(reference):
return False
for i, value in enumerate(schema):
result = CompareSchema(value, reference[i])
if not result:
return result
return True
elif isinstance(schema, DictType):
if not isinstance(reference, DictType) or len(schema) != len(reference):
return False
for name, value in schema.items():
ref_value = reference.get(name, None)
if ref_value is None and value != None:
return False
result = CompareSchema(value, ref_value)
if not result:
return result
return True
elif isinstance(schema, FunctionType):
if not isinstance(reference, FunctionType) or schema.__name__ != reference.__name__:
return False
else:
return True
return schema == reference
#-------------------------------------------------------------------------------
# Base class for XSD schema extraction
#-------------------------------------------------------------------------------
class XSDClassFactory(ClassFactory):
def __init__(self, document, filepath=None, debug=False):
ClassFactory.__init__(self, document, filepath, debug)
self.Namespaces["xml"] = {
"lang": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateModelNameExtraction("lang", LANGUAGE_model)
}
}
}
self.Namespaces["xsi"] = {
"noNamespaceSchemaLocation": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": NotSupportedYet("noNamespaceSchemaLocation")
}
},
"nil": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": NotSupportedYet("nil")
}
},
"schemaLocation": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": NotSupportedYet("schemaLocation")
}
},
"type": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": NotSupportedYet("type")
}
}
}
def ParseSchema(self):
for child in self.Document.childNodes:
if child.nodeType == self.Document.ELEMENT_NODE:
schema = child
break
for qualified_name, attr in schema._attrs.items():
value = GetAttributeValue(attr)
if value == "http://www.w3.org/2001/XMLSchema":
namespace, name = DecomposeQualifiedName(qualified_name)
if namespace == "xmlns":
self.DefinedNamespaces["http://www.w3.org/2001/XMLSchema"] = name
self.SchemaNamespace = name
else:
self.DefinedNamespaces["http://www.w3.org/2001/XMLSchema"] = self.SchemaNamespace
self.Namespaces[self.SchemaNamespace] = XSD_NAMESPACE
self.Schema = XSD_NAMESPACE["schema"]["extract"]["default"](self, schema)
ReduceSchema(self, self.Schema[1], self.Schema[2])
def FindSchemaElement(self, element_name, element_type=None):
namespace, name = DecomposeQualifiedName(element_name)
element = self.GetQualifiedNameInfos(name, namespace, True)
if element is None and namespace == self.TargetNamespace and name not in self.CurrentCompilations:
self.CurrentCompilations.append(name)
element = self.CreateSchemaElement(name, element_type)
self.CurrentCompilations.pop(-1)
if element is not None:
self.Namespaces[self.TargetNamespace][name] = element
if element is None:
if name in self.CurrentCompilations:
if self.Debug:
print "Warning : \"%s\" is circular referenced!" % element_name
else:
raise ValueError("\"%s\" isn't defined!" % element_name)
if element_type is not None and element["type"] != element_type:
raise ValueError("\"%s\" isn't of the expected type!" % element_name)
return element
def CreateSchemaElement(self, element_name, element_type):
for type, attributes, elements in self.Schema[2]:
namespace, name = DecomposeQualifiedName(type)
if attributes.get("name", None) == element_name:
element_infos = None
if element_type in (ATTRIBUTE, None) and name == "attribute":
element_infos = ReduceAttribute(self, attributes, elements)
elif element_type in (ELEMENT, None) and name == "element":
element_infos = ReduceElement(self, attributes, elements)
elif element_type in (ATTRIBUTESGROUP, None) and name == "attributeGroup":
element_infos = ReduceAttributeGroup(self, attributes, elements)
elif element_type in (ELEMENTSGROUP, None) and name == "group":
element_infos = ReduceGroup(self, attributes, elements)
elif element_type in (SIMPLETYPE, None) and name == "simpleType":
element_infos = ReduceSimpleType(self, attributes, elements)
elif element_type in (COMPLEXTYPE, None) and name == "complexType":
element_infos = ReduceComplexType(self, attributes, elements)
if element_infos is not None:
self.Namespaces[self.TargetNamespace][element_name] = element_infos
return element_infos
return None
"""
This function opens the xsd file and generate the classes from the xml tree
"""
def GenerateClassesFromXSD(filepath, declare=False):
xsdfile = open(filepath, 'r')
factory = XSDClassFactory(minidom.parse(xsdfile), filepath)
xsdfile.close()
return GenerateClasses(factory, declare)
"""
This function generate the classes from the xsd given as a string
"""
def GenerateClassesFromXSDstring(xsdstring, declare=False):
return GenerateClasses(XSDClassFactory(minidom.parseString(xsdstring)), declare)
#-------------------------------------------------------------------------------
# XSD schema syntax elements
#-------------------------------------------------------------------------------
XSD_NAMESPACE = {
#-------------------------------------------------------------------------------
# Syntax elements definition
#-------------------------------------------------------------------------------
"all": {"struct": """
<all
id = ID
maxOccurs = 1 : 1
minOccurs = (0 | 1) : 1
{any attributes with non-schema namespace . . .}>
Content: (annotation?, element*)
</all>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("all", ["id", "maxOccurs", "minOccurs"],
re.compile("((?:annotation )?(?:element )*)"))
},
"reduce": ReduceAll
},
"annotation": {"struct": """
<annotation
id = ID
{any attributes with non-schema namespace . . .}>
Content: (appinfo | documentation)*
</annotation>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("annotation", ["id"],
re.compile("((?:app_info |documentation )*)"))
},
"reduce": ReduceAnnotation
},
"any": {"struct": """
<any
id = ID
maxOccurs = (nonNegativeInteger | unbounded) : 1
minOccurs = nonNegativeInteger : 1
namespace = ((##any | ##other) | List of (anyURI | (##targetNamespace | ##local)) ) : ##any
processContents = (lax | skip | strict) : strict
{any attributes with non-schema namespace . . .}>
Content: (annotation?)
</any>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("any",
["id", "maxOccurs", "minOccurs", "namespace", "processContents"],
re.compile("((?:annotation )?(?:simpleType )*)"))
},
"reduce": ReduceAny
},
"anyAttribute": {"struct": """
<anyAttribute
id = ID
namespace = ((##any | ##other) | List of (anyURI | (##targetNamespace | ##local)) ) : ##any
processContents = (lax | skip | strict) : strict
{any attributes with non-schema namespace . . .}>
Content: (annotation?)
</anyAttribute>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("anyAttribute",
["id", "namespace", "processContents"], ONLY_ANNOTATION)
},
"reduce": ReduceAnyAttribute
},
"appinfo": {"struct": """
<appinfo
source = anyURI
{any attributes with non-schema namespace . . .}>
Content: ({any})*
</appinfo>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("appinfo", ["source"], re.compile("(.*)"), True)
},
"reduce": ReduceAppInfo
},
"attribute": {"struct": """
<attribute
default = string
fixed = string
form = (qualified | unqualified)
id = ID
name = NCName
ref = QName
type = QName
use = (optional | prohibited | required) : optional
{any attributes with non-schema namespace . . .}>
Content: (annotation?, simpleType?)
</attribute>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("attribute",
["default", "fixed", "form", "id", "name", "ref", "type", "use"],
re.compile("((?:annotation )?(?:simpleType )?)")),
"schema": GenerateElement("attribute",
["default", "fixed", "form", "id", "name", "type"],
re.compile("((?:annotation )?(?:simpleType )?)"))
},
"reduce": ReduceAttribute
},
"attributeGroup": {"struct": """
<attributeGroup
id = ID
name = NCName
ref = QName
{any attributes with non-schema namespace . . .}>
Content: (annotation?, ((attribute | attributeGroup)*, anyAttribute?))
</attributeGroup>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("attributeGroup",
["id", "ref"], ONLY_ANNOTATION),
"schema": GenerateElement("attributeGroup",
["id", "name"],
re.compile("((?:annotation )?(?:(?:attribute |attributeGroup )*(?:anyAttribute )?))"))
},
"reduce": ReduceAttributeGroup
},
"choice": {"struct": """
<choice
id = ID
maxOccurs = (nonNegativeInteger | unbounded) : 1
minOccurs = nonNegativeInteger : 1
{any attributes with non-schema namespace . . .}>
Content: (annotation?, (element | group | choice | sequence | any)*)
</choice>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("choice", ["id", "maxOccurs", "minOccurs"],
re.compile("((?:annotation )?(?:element |group |choice |sequence |any )*)"))
},
"reduce": ReduceChoice
},
"complexContent": {"struct": """
<complexContent
id = ID
mixed = boolean
{any attributes with non-schema namespace . . .}>
Content: (annotation?, (restriction | extension))
</complexContent>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("complexContent", ["id", "mixed"],
re.compile("((?:annotation )?(?:restriction |extension ))"))
},
"reduce": ReduceComplexContent
},
"complexType": {"struct": """
<complexType
abstract = boolean : false
block = (#all | List of (extension | restriction))
final = (#all | List of (extension | restriction))
id = ID
mixed = boolean : false
name = NCName
{any attributes with non-schema namespace . . .}>
Content: (annotation?, (simpleContent | complexContent | ((group | all | choice | sequence)?, ((attribute | attributeGroup)*, anyAttribute?))))
</complexType>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("complexType",
["abstract", "block", "final", "id", "mixed", "name"],
re.compile("((?:annotation )?(?:simpleContent |complexContent |(?:(?:group |all |choice |sequence )?(?:(?:attribute |attributeGroup )*(?:anyAttribute )?))))"))
},
"reduce": ReduceComplexType
},
"documentation": {"struct" : """
<documentation
source = anyURI
xml:lang = language
{any attributes with non-schema namespace . . .}>
Content: ({any})*
</documentation>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("documentation",
["source", "lang"], re.compile("(.*)"), True)
},
"reduce": ReduceDocumentation
},
"element": {"struct": """
<element
abstract = boolean : false
block = (#all | List of (extension | restriction | substitution))
default = string
final = (#all | List of (extension | restriction))
fixed = string
form = (qualified | unqualified)
id = ID
maxOccurs = (nonNegativeInteger | unbounded) : 1
minOccurs = nonNegativeInteger : 1
name = NCName
nillable = boolean : false
ref = QName
substitutionGroup = QName
type = QName
{any attributes with non-schema namespace . . .}>
Content: (annotation?, ((simpleType | complexType)?, (unique | key | keyref)*))
</element>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("element",
["abstract", "block", "default", "final", "fixed", "form", "id", "maxOccurs", "minOccurs", "name", "nillable", "ref", "substitutionGroup", "type"],
re.compile("((?:annotation )?(?:simpleType |complexType )?(?:unique |key |keyref )*)")),
"schema": GenerateElement("element",
["abstract", "block", "default", "final", "fixed", "form", "id", "name", "nillable", "substitutionGroup", "type"],
re.compile("((?:annotation )?(?:simpleType |complexType )?(?:unique |key |keyref )*)"))
},
"reduce": ReduceElement
},
"enumeration": {"struct": """
<enumeration
id = ID
value = anySimpleType
{any attributes with non-schema namespace . . .}>
Content: (annotation?)
</enumeration>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("enumeration", ["id", "value"], ONLY_ANNOTATION)
},
"reduce": GenerateFacetReducing("enumeration", False)
},
"extension": {"struct": """
<extension
base = QName
id = ID
{any attributes with non-schema namespace . . .}>
Content: (annotation?, ((group | all | choice | sequence)?, ((attribute | attributeGroup)*, anyAttribute?)))
</extension>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("extension", ["base", "id"],
re.compile("((?:annotation )?(?:(?:attribute |attributeGroup )*(?:anyAttribute )?))")),
"complexContent": GenerateElement("extension", ["base", "id"],
re.compile("((?:annotation )?(?:group |all |choice |sequence )?(?:(?:attribute |attributeGroup )*(?:anyAttribute )?))"))
},
"reduce": ReduceExtension
},
"field": {"struct": """
<field
id = ID
xpath = a subset of XPath expression, see below
{any attributes with non-schema namespace . . .}>
Content: (annotation?)
</field>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("field", ["id", "xpath"], ONLY_ANNOTATION)
},
"reduce": ReduceField
},
"fractionDigits": {"struct": """
<fractionDigits
fixed = boolean : false
id = ID
value = nonNegativeInteger
{any attributes with non-schema namespace . . .}>
Content: (annotation?)
</fractionDigits>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("fractionDigits",
["fixed", "id", "value"], ONLY_ANNOTATION)
},
"reduce": GenerateFacetReducing("fractionDigits", True)
},
"group": {"struct": """
<group
id = ID
maxOccurs = (nonNegativeInteger | unbounded) : 1
minOccurs = nonNegativeInteger : 1
name = NCName
ref = QName
{any attributes with non-schema namespace . . .}>
Content: (annotation?, (all | choice | sequence)?)
</group>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("group",
["id", "maxOccurs", "minOccurs", "ref"],
re.compile("((?:annotation )?(?:all |choice |sequence )?)")),
"schema": GenerateElement("group",
["id", "name"],
re.compile("((?:annotation )?(?:all |choice |sequence )?)"))
},
"reduce": ReduceGroup
},
"import": {"struct": """
<import
id = ID
namespace = anyURI
schemaLocation = anyURI
{any attributes with non-schema namespace . . .}>
Content: (annotation?)
</import>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("import",
["id", "namespace", "schemaLocation"], ONLY_ANNOTATION)
},
"reduce": ReduceImport
},
"include": {"struct": """
<include
id = ID
schemaLocation = anyURI
{any attributes with non-schema namespace . . .}>
Content: (annotation?)
</include>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("include",
["id", "schemaLocation"], ONLY_ANNOTATION)
},
"reduce": ReduceInclude
},
"key": {"struct": """
<key
id = ID
name = NCName
{any attributes with non-schema namespace . . .}>
Content: (annotation?, (selector, field+))
</key>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("key", ["id", "name"],
re.compile("((?:annotation )?(?:selector (?:field )+))"))
},
"reduce": ReduceKey
},
"keyref": {"struct": """
<keyref
id = ID
name = NCName
refer = QName
{any attributes with non-schema namespace . . .}>
Content: (annotation?, (selector, field+))
</keyref>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("keyref", ["id", "name", "refer"],
re.compile("((?:annotation )?(?:selector (?:field )+))"))
},
"reduce": ReduceKeyRef
},
"length": {"struct" : """
<length
fixed = boolean : false
id = ID
value = nonNegativeInteger
{any attributes with non-schema namespace . . .}>
Content: (annotation?)
</length>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("length",
["fixed", "id", "value"], ONLY_ANNOTATION)
},
"reduce": GenerateFacetReducing("length", True)
},
"list": {"struct": """
<list
id = ID
itemType = QName
{any attributes with non-schema namespace . . .}>
Content: (annotation?, simpleType?)
</list>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("list", ["id", "itemType"],
re.compile("((?:annotation )?(?:simpleType )?)$"))
},
"reduce": ReduceList
},
"maxExclusive": {"struct": """
<maxInclusive
fixed = boolean : false
id = ID
value = anySimpleType
{any attributes with non-schema namespace . . .}>
Content: (annotation?)
</maxInclusive>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("maxExclusive",
["fixed", "id", "value"], ONLY_ANNOTATION)
},
"reduce": GenerateFacetReducing("maxExclusive", True)
},
"maxInclusive": {"struct": """
<maxExclusive
fixed = boolean : false
id = ID
value = anySimpleType
{any attributes with non-schema namespace . . .}>
Content: (annotation?)
</maxExclusive>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("maxInclusive",
["fixed", "id", "value"], ONLY_ANNOTATION)
},
"reduce": GenerateFacetReducing("maxInclusive", True)
},
"maxLength": {"struct": """
<maxLength
fixed = boolean : false
id = ID
value = nonNegativeInteger
{any attributes with non-schema namespace . . .}>
Content: (annotation?)
</maxLength>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("maxLength",
["fixed", "id", "value"], ONLY_ANNOTATION)
},
"reduce": GenerateFacetReducing("maxLength", True)
},
"minExclusive": {"struct": """
<minExclusive
fixed = boolean : false
id = ID
value = anySimpleType
{any attributes with non-schema namespace . . .}>
Content: (annotation?)
</minExclusive>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("minExclusive",
["fixed", "id", "value"], ONLY_ANNOTATION)
},
"reduce": GenerateFacetReducing("minExclusive", True)
},
"minInclusive": {"struct": """
<minInclusive
fixed = boolean : false
id = ID
value = anySimpleType
{any attributes with non-schema namespace . . .}>
Content: (annotation?)
</minInclusive>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("minInclusive",
["fixed", "id", "value"], ONLY_ANNOTATION)
},
"reduce": GenerateFacetReducing("minInclusive", True)
},
"minLength": {"struct": """
<minLength
fixed = boolean : false
id = ID
value = nonNegativeInteger
{any attributes with non-schema namespace . . .}>
Content: (annotation?)
</minLength>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("minLength",
["fixed", "id", "value"], ONLY_ANNOTATION)
},
"reduce": GenerateFacetReducing("minLength", True)
},
"pattern": {"struct": """
<pattern
id = ID
value = string
{any attributes with non-schema namespace . . .}>
Content: (annotation?)
</pattern>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("pattern", ["id", "value"], ONLY_ANNOTATION)
},
"reduce": GenerateFacetReducing("pattern", False)
},
"redefine": {"struct": """
<redefine
id = ID
schemaLocation = anyURI
{any attributes with non-schema namespace . . .}>
Content: (annotation | (simpleType | complexType | group | attributeGroup))*
</redefine>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("refine", ["id", "schemaLocation"],
re.compile("((?:annotation |(?:simpleType |complexType |group |attributeGroup ))*)"))
},
"reduce": ReduceRedefine
},
"restriction": {"struct": """
<restriction
base = QName
id = ID
{any attributes with non-schema namespace . . .}>
Content: (annotation?, (group | all | choice | sequence)?, ((attribute | attributeGroup)*, anyAttribute?))
</restriction>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("restriction", ["base", "id"],
re.compile("((?:annotation )?(?:(?:simpleType )?(?:(?:minExclusive |minInclusive |maxExclusive |maxInclusive |totalDigits |fractionDigits |length |minLength |maxLength |enumeration |whiteSpace |pattern )*)))")),
"simpleContent": GenerateElement("restriction", ["base", "id"],
re.compile("((?:annotation )?(?:(?:simpleType )?(?:(?:minExclusive |minInclusive |maxExclusive |maxInclusive |totalDigits |fractionDigits |length |minLength |maxLength |enumeration |whiteSpace |pattern )*)?(?:(?:attribute |attributeGroup )*(?:anyAttribute )?)))")),
"complexContent": GenerateElement("restriction", ["base", "id"],
re.compile("((?:annotation )?(?:(?:simpleType )?(?:group |all |choice |sequence )?(?:(?:attribute |attributeGroup )*(?:anyAttribute )?)))")),
},
"reduce": ReduceRestriction
},
"schema": {"struct": """
<schema
attributeFormDefault = (qualified | unqualified) : unqualified
blockDefault = (#all | List of (extension | restriction | substitution)) : ''
elementFormDefault = (qualified | unqualified) : unqualified
finalDefault = (#all | List of (extension | restriction | list | union)) : ''
id = ID
targetNamespace = anyURI
version = token
xml:lang = language
{any attributes with non-schema namespace . . .}>
Content: ((include | import | redefine | annotation)*, (((simpleType | complexType | group | attributeGroup) | element | attribute | notation), annotation*)*)
</schema>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("schema",
["attributeFormDefault", "blockDefault", "elementFormDefault", "finalDefault", "id", "targetNamespace", "version", "lang"],
re.compile("((?:include |import |redefine |annotation )*(?:(?:(?:simpleType |complexType |group |attributeGroup )|element |attribute |annotation )(?:annotation )*)*)"))
}
},
"selector": {"struct": """
<selector
id = ID
xpath = a subset of XPath expression, see below
{any attributes with non-schema namespace . . .}>
Content: (annotation?)
</selector>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("selector", ["id", "xpath"], ONLY_ANNOTATION)
},
"reduce": ReduceSelector
},
"sequence": {"struct": """
<sequence
id = ID
maxOccurs = (nonNegativeInteger | unbounded) : 1
minOccurs = nonNegativeInteger : 1
{any attributes with non-schema namespace . . .}>
Content: (annotation?, (element | group | choice | sequence | any)*)
</sequence>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("sequence", ["id", "maxOccurs", "minOccurs"],
re.compile("((?:annotation )?(?:element |group |choice |sequence |any )*)"))
},
"reduce": ReduceSequence
},
"simpleContent": {"struct" : """
<simpleContent
id = ID
{any attributes with non-schema namespace . . .}>
Content: (annotation?, (restriction | extension))
</simpleContent>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("simpleContent", ["id"],
re.compile("((?:annotation )?(?:restriction |extension ))"))
},
"reduce": ReduceSimpleContent
},
"simpleType": {"struct" : """
<simpleType
final = (#all | List of (list | union | restriction))
id = ID
name = NCName
{any attributes with non-schema namespace . . .}>
Content: (annotation?, (restriction | list | union))
</simpleType>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("simpleType", ["final", "id", "name"],
re.compile("((?:annotation )?(?:restriction |list |union ))"))
},
"reduce": ReduceSimpleType
},
"totalDigits": {"struct" : """
<totalDigits
fixed = boolean : false
id = ID
value = positiveInteger
{any attributes with non-schema namespace . . .}>
Content: (annotation?)
</totalDigits>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("totalDigits",
["fixed", "id", "value"], ONLY_ANNOTATION),
},
"reduce": GenerateFacetReducing("totalDigits", True)
},
"union": {"struct": """
<union
id = ID
memberTypes = List of QName
{any attributes with non-schema namespace . . .}>
Content: (annotation?, simpleType*)
</union>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("union", ["id", "memberTypes"],
re.compile("((?:annotation )?(?:simpleType )*)"))
},
"reduce": ReduceUnion
},
"unique": {"struct": """
<unique
id = ID
name = NCName
{any attributes with non-schema namespace . . .}>
Content: (annotation?, (selector, field+))
</unique>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("unique", ["id", "name"],
re.compile("((?:annotation )?(?:selector |(?:field )+))"))
},
"reduce": ReduceUnique
},
"whiteSpace": {"struct" : """
<whiteSpace
fixed = boolean : false
id = ID
value = (collapse | preserve | replace)
{any attributes with non-schema namespace . . .}>
Content: (annotation?)
</whiteSpace>""",
"type": SYNTAXELEMENT,
"extract": {
"default": GenerateElement("whiteSpace",
["fixed", "id", "value"], ONLY_ANNOTATION)
},
"reduce": GenerateFacetReducing("whiteSpace", True)
},
#-------------------------------------------------------------------------------
# Syntax attributes definition
#-------------------------------------------------------------------------------
"abstract": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GetBoolean
},
"default": {
"default": False
}
},
"attributeFormDefault": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateEnumeratedExtraction("member attributeFormDefault", ["qualified", "unqualified"])
},
"default": {
"default": "unqualified"
}
},
"base": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateModelNameExtraction("member base", QName_model)
}
},
"block": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateGetList("block", ["restriction", "extension", "substitution"])
}
},
"blockDefault": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateGetList("block", ["restriction", "extension", "substitution"])
},
"default": {
"default": ""
}
},
"default": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GetAttributeValue
}
},
"elementFormDefault": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateEnumeratedExtraction("member elementFormDefault", ["qualified", "unqualified"])
},
"default": {
"default": "unqualified"
}
},
"final": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateGetList("final", ["restriction", "extension", "substitution"]),
"simpleType": GenerateGetList("final", ["list", "union", "restriction"])
}
},
"finalDefault": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateGetList("finalDefault", ["restriction", "extension", "list", "union"])
},
"default": {
"default": ""
}
},
"fixed": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GetBoolean,
"attribute": GetAttributeValue,
"element": GetAttributeValue
},
"default": {
"default": False,
"attribute": None,
"element": None
}
},
"form": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateEnumeratedExtraction("member form", ["qualified", "unqualified"])
}
},
"id": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateModelNameExtraction("member id", NCName_model)
}
},
"itemType": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateModelNameExtraction("member itemType", QName_model)
}
},
"memberTypes": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateModelNameListExtraction("member memberTypes", QNames_model)
},
},
"maxOccurs": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateLimitExtraction(),
"all": GenerateLimitExtraction(1, 1, False)
},
"default": {
"default": 1
}
},
"minOccurs": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateLimitExtraction(unbounded = False),
"all": GenerateLimitExtraction(0, 1, False)
},
"default": {
"default": 1
}
},
"mixed": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GetBoolean
},
"default": {
"default": None,
"complexType": False
}
},
"name": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateModelNameExtraction("member name", NCName_model)
}
},
"namespace": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateModelNameExtraction("member namespace", URI_model),
"any": GetNamespaces
},
"default": {
"default": None,
"any": "##any"
}
},
"nillable": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GetBoolean
},
},
"processContents": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateEnumeratedExtraction("member processContents", ["lax", "skip", "strict"])
},
"default": {
"default": "strict"
}
},
"ref": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateModelNameExtraction("member ref", QName_model)
}
},
"refer": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateModelNameExtraction("member refer", QName_model)
}
},
"schemaLocation": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateModelNameExtraction("member schemaLocation", URI_model)
}
},
"source": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateModelNameExtraction("member source", URI_model)
}
},
"substitutionGroup": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateModelNameExtraction("member substitutionGroup", QName_model)
}
},
"targetNamespace": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateModelNameExtraction("member targetNamespace", URI_model)
}
},
"type": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateModelNameExtraction("member type", QName_model)
}
},
"use": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GenerateEnumeratedExtraction("member usage", ["required", "optional", "prohibited"])
},
"default": {
"default": "optional"
}
},
"value": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GetAttributeValue,
"fractionDigits": GenerateIntegerExtraction(minInclusive=0),
"length": GenerateIntegerExtraction(minInclusive=0),
"maxLength": GenerateIntegerExtraction(minInclusive=0),
"minLength": GenerateIntegerExtraction(minInclusive=0),
"totalDigits": GenerateIntegerExtraction(minExclusive=0),
"whiteSpace": GenerateEnumeratedExtraction("value", ["collapse", "preserve", "replace"])
}
},
"version": {
"type": SYNTAXATTRIBUTE,
"extract": {
"default": GetToken
}
},
"xpath": {
"type": SYNTAXATTRIBUTE,
"extract": {
# "default": NotSupportedYet("xpath")
"default": GetAttributeValue
}
},
#-------------------------------------------------------------------------------
# Simple types definition
#-------------------------------------------------------------------------------
"string": {
"type": SIMPLETYPE,
"basename": "string",
"extract": GetAttributeValue,
"facets": STRING_FACETS,
"generate": GenerateSimpleTypeXMLText(lambda x : x),
"initial": lambda: "",
"check": lambda x: isinstance(x, (StringType, UnicodeType))
},
"normalizedString": {
"type": SIMPLETYPE,
"basename": "normalizedString",
"extract": GetNormalizedString,
"facets": STRING_FACETS,
"generate": GenerateSimpleTypeXMLText(lambda x : x),
"initial": lambda: "",
"check": lambda x: isinstance(x, (StringType, UnicodeType))
},
"token": {
"type": SIMPLETYPE,
"basename": "token",
"extract": GetToken,
"facets": STRING_FACETS,
"generate": GenerateSimpleTypeXMLText(lambda x : x),
"initial": lambda: "",
"check": lambda x: isinstance(x, (StringType, UnicodeType))
},
"base64Binary": {
"type": SIMPLETYPE,
"basename": "base64Binary",
"extract": NotSupportedYet("base64Binary"),
"facets": STRING_FACETS,
"generate": GenerateSimpleTypeXMLText(str),
"initial": lambda: 0,
"check": lambda x: isinstance(x, (IntType, LongType))
},
"hexBinary": {
"type": SIMPLETYPE,
"basename": "hexBinary",
"extract": GetHexInteger,
"facets": STRING_FACETS,
"generate": GenerateSimpleTypeXMLText(lambda x: ("%."+str(int(round(len("%X"%x)/2.)*2))+"X")%x),
"initial": lambda: 0,
"check": lambda x: isinstance(x, (IntType, LongType))
},
"integer": {
"type": SIMPLETYPE,
"basename": "integer",
"extract": GenerateIntegerExtraction(),
"facets": DECIMAL_FACETS,
"generate": GenerateSimpleTypeXMLText(str),
"initial": lambda: 0,
"check": lambda x: isinstance(x, IntType)
},
"positiveInteger": {
"type": SIMPLETYPE,
"basename": "positiveInteger",
"extract": GenerateIntegerExtraction(minExclusive=0),
"facets": DECIMAL_FACETS,
"generate": GenerateSimpleTypeXMLText(str),
"initial": lambda: 0,
"check": lambda x: isinstance(x, IntType)
},
"negativeInteger": {
"type": SIMPLETYPE,
"basename": "negativeInteger",
"extract": GenerateIntegerExtraction(maxExclusive=0),
"facets": DECIMAL_FACETS,
"generate": GenerateSimpleTypeXMLText(str),
"initial": lambda: 0,
"check": lambda x: isinstance(x, IntType)
},
"nonNegativeInteger": {
"type": SIMPLETYPE,
"basename": "nonNegativeInteger",
"extract": GenerateIntegerExtraction(minInclusive=0),
"facets": DECIMAL_FACETS,
"generate": GenerateSimpleTypeXMLText(str),
"initial": lambda: 0,
"check": lambda x: isinstance(x, IntType)
},
"nonPositiveInteger": {
"type": SIMPLETYPE,
"basename": "nonPositiveInteger",
"extract": GenerateIntegerExtraction(maxInclusive=0),
"facets": DECIMAL_FACETS,
"generate": GenerateSimpleTypeXMLText(str),
"initial": lambda: 0,
"check": lambda x: isinstance(x, IntType)
},
"long": {
"type": SIMPLETYPE,
"basename": "long",
"extract": GenerateIntegerExtraction(minInclusive=-2**63,maxExclusive=2**63),
"facets": DECIMAL_FACETS,
"generate": GenerateSimpleTypeXMLText(str),
"initial": lambda: 0,
"check": lambda x: isinstance(x, IntType)
},
"unsignedLong": {
"type": SIMPLETYPE,
"basename": "unsignedLong",
"extract": GenerateIntegerExtraction(minInclusive=0,maxExclusive=2**64),
"facets": DECIMAL_FACETS,
"generate": GenerateSimpleTypeXMLText(str),
"initial": lambda: 0,
"check": lambda x: isinstance(x, IntType)
},
"int": {
"type": SIMPLETYPE,
"basename": "int",
"extract": GenerateIntegerExtraction(minInclusive=-2**31,maxExclusive=2**31),
"facets": DECIMAL_FACETS,
"generate": GenerateSimpleTypeXMLText(str),
"initial": lambda: 0,
"check": lambda x: isinstance(x, IntType)
},
"unsignedInt": {
"type": SIMPLETYPE,
"basename": "unsignedInt",
"extract": GenerateIntegerExtraction(minInclusive=0,maxExclusive=2**32),
"facets": DECIMAL_FACETS,
"generate": GenerateSimpleTypeXMLText(str),
"initial": lambda: 0,
"check": lambda x: isinstance(x, IntType)
},
"short": {
"type": SIMPLETYPE,
"basename": "short",
"extract": GenerateIntegerExtraction(minInclusive=-2**15,maxExclusive=2**15),
"facets": DECIMAL_FACETS,
"generate": GenerateSimpleTypeXMLText(str),
"initial": lambda: 0,
"check": lambda x: isinstance(x, IntType)
},
"unsignedShort": {
"type": SIMPLETYPE,
"basename": "unsignedShort",
"extract": GenerateIntegerExtraction(minInclusive=0,maxExclusive=2**16),
"facets": DECIMAL_FACETS,
"generate": GenerateSimpleTypeXMLText(str),
"initial": lambda: 0,
"check": lambda x: isinstance(x, IntType)
},
"byte": {
"type": SIMPLETYPE,
"basename": "byte",
"extract": GenerateIntegerExtraction(minInclusive=-2**7,maxExclusive=2**7),
"facets": DECIMAL_FACETS,
"generate": GenerateSimpleTypeXMLText(str),
"initial": lambda: 0,
"check": lambda x: isinstance(x, IntType)
},
"unsignedByte": {
"type": SIMPLETYPE,
"basename": "unsignedByte",
"extract": GenerateIntegerExtraction(minInclusive=0,maxExclusive=2**8),
"facets": DECIMAL_FACETS,
"generate": GenerateSimpleTypeXMLText(str),
"initial": lambda: 0,
"check": lambda x: isinstance(x, IntType)
},
"decimal": {
"type": SIMPLETYPE,
"basename": "decimal",
"extract": GenerateFloatExtraction("decimal"),
"facets": DECIMAL_FACETS,
"generate": GenerateFloatXMLText(),
"initial": lambda: 0.,
"check": lambda x: isinstance(x, (IntType, FloatType))
},
"float": {
"type": SIMPLETYPE,
"basename": "float",
"extract": GenerateFloatExtraction("float", ["INF", "-INF", "NaN"]),
"facets": NUMBER_FACETS,
"generate": GenerateFloatXMLText(["INF", "-INF", "NaN"]),
"initial": lambda: 0.,
"check": lambda x: {"INF" : True, "-INF" : True, "NaN" : True}.get(x, isinstance(x, (IntType, FloatType)))
},
"double": {
"type": SIMPLETYPE,
"basename": "double",
"extract": GenerateFloatExtraction("double", ["INF", "-INF", "NaN"]),
"facets": NUMBER_FACETS,
"generate": GenerateFloatXMLText(["INF", "-INF", "NaN"]),
"initial": lambda: 0.,
"check": lambda x: {"INF" : True, "-INF" : True, "NaN" : True}.get(x, isinstance(x, (IntType, FloatType)))
},
"boolean": {
"type": SIMPLETYPE,
"basename": "boolean",
"extract": GetBoolean,
"facets": GenerateDictFacets(["pattern", "whiteSpace"]),
"generate": GenerateSimpleTypeXMLText(lambda x:{True : "true", False : "false"}[x]),
"initial": lambda: False,
"check": lambda x: isinstance(x, BooleanType)
},
"duration": {
"type": SIMPLETYPE,
"basename": "duration",
"extract": NotSupportedYet("duration"),
"facets": NUMBER_FACETS,
"generate": GenerateSimpleTypeXMLText(str),
"initial": lambda: "",
"check": lambda x: isinstance(x, (StringType, UnicodeType))
},
"dateTime": {
"type": SIMPLETYPE,
"basename": "dateTime",
"extract": GetDateTime,
"facets": NUMBER_FACETS,
"generate": GenerateSimpleTypeXMLText(datetime.datetime.isoformat),
"initial": lambda: datetime.datetime(1,1,1,0,0,0,0),
"check": lambda x: isinstance(x, datetime.datetime)
},
"date": {
"type": SIMPLETYPE,
"basename": "date",
"extract": GetDate,
"facets": NUMBER_FACETS,
"generate": GenerateSimpleTypeXMLText(datetime.date.isoformat),
"initial": lambda: datetime.date(1,1,1),
"check": lambda x: isinstance(x, datetime.date)
},
"time": {
"type": SIMPLETYPE,
"basename": "time",
"extract": GetTime,
"facets": NUMBER_FACETS,
"generate": GenerateSimpleTypeXMLText(datetime.time.isoformat),
"initial": lambda: datetime.time(0,0,0,0),
"check": lambda x: isinstance(x, datetime.time)
},
"gYear": {
"type": SIMPLETYPE,
"basename": "gYear",
"extract": NotSupportedYet("gYear"),
"facets": NUMBER_FACETS,
"generate": GenerateSimpleTypeXMLText(str),
"initial": lambda: "",
"check": lambda x: isinstance(x, (StringType, UnicodeType))
},
"gYearMonth": {
"type": SIMPLETYPE,
"basename": "gYearMonth",
"extract": NotSupportedYet("gYearMonth"),
"facets": NUMBER_FACETS,
"generate": GenerateSimpleTypeXMLText(str),
"initial": lambda: "",
"check": lambda x: isinstance(x, (StringType, UnicodeType))
},
"gMonth": {
"type": SIMPLETYPE,
"basename": "gMonth",
"extract": NotSupportedYet("gMonth"),
"facets": NUMBER_FACETS,
"generate": GenerateSimpleTypeXMLText(str),
"initial": lambda: "",
"check": lambda x: isinstance(x, (StringType, UnicodeType))
},
"gMonthDay": {
"type": SIMPLETYPE,
"basename": "gMonthDay",
"extract": NotSupportedYet("gMonthDay"),
"facets": NUMBER_FACETS,
"generate": GenerateSimpleTypeXMLText(str),
"initial": lambda: "",
"check": lambda x: isinstance(x, (StringType, UnicodeType))
},
"gDay": {
"type": SIMPLETYPE,
"basename": "gDay",
"extract": NotSupportedYet("gDay"),
"facets": NUMBER_FACETS,
"generate": GenerateSimpleTypeXMLText(str),
"initial": lambda: "",
"check": lambda x: isinstance(x, (StringType, UnicodeType))
},
"Name": {
"type": SIMPLETYPE,
"basename": "Name",
"extract": GenerateModelNameExtraction("Name", Name_model),
"facets": STRING_FACETS,
"generate": GenerateSimpleTypeXMLText(lambda x: x),
"initial": lambda: "",
"check": lambda x: isinstance(x, (StringType, UnicodeType))
},
"QName": {
"type": SIMPLETYPE,
"basename": "QName",
"extract": GenerateModelNameExtraction("QName", QName_model),
"facets": STRING_FACETS,
"generate": GenerateSimpleTypeXMLText(lambda x: x),
"initial": lambda: "",
"check": lambda x: isinstance(x, (StringType, UnicodeType))
},
"NCName": {
"type": SIMPLETYPE,
"basename": "NCName",
"extract": GenerateModelNameExtraction("NCName", NCName_model),
"facets": STRING_FACETS,
"generate": GenerateSimpleTypeXMLText(lambda x: x),
"initial": lambda: "",
"check": lambda x: isinstance(x, (StringType, UnicodeType))
},
"anyURI": {
"type": SIMPLETYPE,
"basename": "anyURI",
"extract": GenerateModelNameExtraction("anyURI", URI_model),
"facets": STRING_FACETS,
"generate": GenerateSimpleTypeXMLText(lambda x: x),
"initial": lambda: "",
"check": lambda x: isinstance(x, (StringType, UnicodeType))
},
"language": {
"type": SIMPLETYPE,
"basename": "language",
"extract": GenerateModelNameExtraction("language", LANGUAGE_model),
"facets": STRING_FACETS,
"generate": GenerateSimpleTypeXMLText(lambda x: x),
"initial": lambda: "en",
"check": lambda x: isinstance(x, (StringType, UnicodeType))
},
"ID": {
"type": SIMPLETYPE,
"basename": "ID",
"extract": GenerateModelNameExtraction("ID", Name_model),
"facets": STRING_FACETS,
"generate": GenerateSimpleTypeXMLText(lambda x: x),
"initial": lambda: "",
"check": lambda x: isinstance(x, (StringType, UnicodeType))
},
"IDREF": {
"type": SIMPLETYPE,
"basename": "IDREF",
"extract": GenerateModelNameExtraction("IDREF", Name_model),
"facets": STRING_FACETS,
"generate": GenerateSimpleTypeXMLText(lambda x: x),
"initial": lambda: "",
"check": lambda x: isinstance(x, (StringType, UnicodeType))
},
"IDREFS": {
"type": SIMPLETYPE,
"basename": "IDREFS",
"extract": GenerateModelNameExtraction("IDREFS", Names_model),
"facets": STRING_FACETS,
"generate": GenerateSimpleTypeXMLText(lambda x: x),
"initial": lambda: "",
"check": lambda x: isinstance(x, (StringType, UnicodeType))
},
"ENTITY": {
"type": SIMPLETYPE,
"basename": "ENTITY",
"extract": GenerateModelNameExtraction("ENTITY", Name_model),
"facets": STRING_FACETS,
"generate": GenerateSimpleTypeXMLText(lambda x: x),
"initial": lambda: "",
"check": lambda x: isinstance(x, (StringType, UnicodeType))
},
"ENTITIES": {
"type": SIMPLETYPE,
"basename": "ENTITIES",
"extract": GenerateModelNameExtraction("ENTITIES", Names_model),
"facets": STRING_FACETS,
"generate": GenerateSimpleTypeXMLText(lambda x: x),
"initial": lambda: "",
"check": lambda x: isinstance(x, (StringType, UnicodeType))
},
"NOTATION": {
"type": SIMPLETYPE,
"basename": "NOTATION",
"extract": GenerateModelNameExtraction("NOTATION", Name_model),
"facets": STRING_FACETS,
"generate": GenerateSimpleTypeXMLText(lambda x: x),
"initial": lambda: "",
"check": lambda x: isinstance(x, (StringType, UnicodeType))
},
"NMTOKEN": {
"type": SIMPLETYPE,
"basename": "NMTOKEN",
"extract": GenerateModelNameExtraction("NMTOKEN", NMToken_model),
"facets": STRING_FACETS,
"generate": GenerateSimpleTypeXMLText(lambda x: x),
"initial": lambda: "",
"check": lambda x: isinstance(x, (StringType, UnicodeType))
},
"NMTOKENS": {
"type": SIMPLETYPE,
"basename": "NMTOKENS",
"extract": GenerateModelNameExtraction("NMTOKENS", NMTokens_model),
"facets": STRING_FACETS,
"generate": GenerateSimpleTypeXMLText(lambda x: x),
"initial": lambda: "",
"check": lambda x: isinstance(x, (StringType, UnicodeType))
},
# Complex Types
"anyType": {"type": COMPLEXTYPE, "extract": lambda x:None},
}
if __name__ == '__main__':
classes = GenerateClassesFromXSD("test.xsd")
# Code for test of test.xsd
xmlfile = open("po.xml", 'r')
tree = minidom.parse(xmlfile)
xmlfile.close()
test = classes["PurchaseOrderType"]()
for child in tree.childNodes:
if child.nodeType == tree.ELEMENT_NODE and child.nodeName == "purchaseOrder":
test.loadXMLTree(child)
test.items.item[0].setquantity(2)
testfile = open("test.xml", 'w')
testfile.write(u'<?xml version=\"1.0\"?>\n')
testfile.write(test.generateXMLText("purchaseOrder").encode("utf-8"))
testfile.close()