Adding support in xmlclass for timezone in datetime and for not paying attention to xml comments
#
# minixsv, Release 0.3
# file: xsvalBase.py
#
# XML schema validator base class
#
# history:
# 2004-10-07 rl created
#
# Copyright (c) 2004 by Roland Leuthe. All rights reserved.
#
# --------------------------------------------------------------------
# The minixsv XML schema validator is
#
# Copyright (c) 2004 by Roland Leuthe
#
# By obtaining, using, and/or copying this software and/or its
# associated documentation, you agree that you have read, understood,
# and will comply with the following terms and conditions:
#
# Permission to use, copy, modify, and distribute this software and
# its associated documentation for any purpose and without fee is
# hereby granted, provided that the above copyright notice appears in
# all copies, and that both that copyright notice and this permission
# notice appear in supporting documentation, and that the name of
# the author not be used in advertising or publicity
# pertaining to distribution of the software without specific, written
# prior permission.
#
# THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD
# TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANT-
# ABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR
# BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY
# DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
# WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS
# ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE
# OF THIS SOFTWARE.
# --------------------------------------------------------------------
from xsvalErrorHandler import *
import xsvalSimpleTypes
###########################################################
# Validator class for validating one input file against one XML schema file
class XsValBase:
def __init__(self, xmlIf, errorHandler):
self.xmlIf = xmlIf
self.errorHandler = errorHandler
self._raiseError = self.errorHandler.raiseError
self._addError = self.errorHandler.addError
self._addWarning = self.errorHandler.addWarning
self.checkKeyrefList = []
########################################
# validate inputTree against xsdTree
#
def validate (self, inputTree, xsdTree):
self.inputTree = inputTree
self.xsdTree = xsdTree
self.xsdRoot = self.xsdTree.getRootNode()
self.xsdNSAlias = self.xmlIf.extractNamespaceAlias(self.xsdRoot.getTagName())
self.inputRoot = self.inputTree.getRootNode()
self.inputNSAlias = self.xmlIf.extractNamespaceAlias(self.inputRoot.getTagName())
self.simpleTypeVal = xsvalSimpleTypes.XsSimpleTypeVal(self)
self._setupLookupTables()
inputRootTagName = self.inputRoot.getTagName()
inputRootLocalName = self.inputRoot.getLocalName()
if self.xsdElementDict.has_key(inputRootLocalName):
# start recursive schema validation
try:
self._checkElementTag (self.xsdElementDict[inputRootLocalName], inputRootTagName, (self.inputRoot,), 0)
except TagException, errInst:
self._addError (errInst.errstr, errInst.node, errInst.endTag)
# validate keyrefs
for inputElement, keyrefNode in self.checkKeyrefList:
self._checkKeyRefConstraint (keyrefNode, inputElement)
else:
self._raiseError ("Used root tag %s not found in schema file!" %(inputRootTagName), self.inputRoot)
########################################
# setup lookup dictionaries used during validation
#
def _setupLookupTables (self):
# retrieve all elements
self.xsdElementDict = {}
for xsdTypeNode in self.xsdRoot.getChildrenNS(self.xsdNSAlias, "element"):
self.xsdElementDict[xsdTypeNode.getAttribute("name")] = xsdTypeNode
# retrieve all type definitions (complex and simple types)
self.xsdTypeDict = {}
for xsdTypeNode in self.xsdRoot.getChildrenNS(self.xsdNSAlias, "complexType"):
self.xsdTypeDict[xsdTypeNode.getAttribute("name")] = xsdTypeNode
for xsdTypeNode in self.xsdRoot.getChildrenNS(self.xsdNSAlias, "simpleType"):
self.xsdTypeDict[xsdTypeNode.getAttribute("name")] = xsdTypeNode
# retrieve all group definitions
self.xsdGroupDict = {}
for xsdTypeNode in self.xsdRoot.getChildrenNS(self.xsdNSAlias, "group"):
self.xsdGroupDict[xsdTypeNode.getAttribute("name")] = xsdTypeNode
# retrieve all attribute group definitions
self.xsdAttributeGroupDict = {}
for xsdTypeNode in self.xsdRoot.getChildrenNS(self.xsdNSAlias, "attributeGroup"):
self.xsdAttributeGroupDict[xsdTypeNode.getAttribute("name")] = xsdTypeNode
# retrieve all identity constraints
self.xsdIdentityConstrDict = {}
for identConstrTagName in ("unique", "key", "keyref"):
identConstrNodeList = self.xsdRoot.getElementsByTagNameNS (self.xsdNSAlias, identConstrTagName)
for identConstrNode in identConstrNodeList:
identConstrName = identConstrNode.getAttribute("name")
if not self.xsdIdentityConstrDict.has_key(identConstrName):
self.xsdIdentityConstrDict[identConstrName] = {"Node": identConstrNode, "ValueDict":{}}
else:
self._raiseError ("Duplicate identity constraint name '%s' found in schema definition!" %(identConstrName), identConstrNode)
########################################
# validate inputElement against complexType node
#
def _checkComplexTypeTag (self, xsdParentElementNode, xsdElement, inputElement, inputElementChildIndex, usedAsBaseType=None):
baseTypeAttributes = {"__SPECIAL_ATTRS__":{}}
if xsdParentElementNode.getAttribute ("nillable") == "true":
baseTypeAttributes["__SPECIAL_ATTRS__"]["nil"] = "xsd:boolean"
complexContentElement = xsdElement.getFirstChildNS(self.xsdNSAlias, "complexContent")
if complexContentElement != None:
inputElementChildIndex, baseTypeAttributes = self._checkComplexContentTag (xsdParentElementNode, complexContentElement, inputElement, inputElementChildIndex, usedAsBaseType, baseTypeAttributes)
else:
inputElementChildIndex, baseTypeAttributes = self._checkComplexTypeContent (xsdElement, inputElement, inputElementChildIndex, usedAsBaseType, baseTypeAttributes)
return inputElementChildIndex, baseTypeAttributes
def _checkComplexContentTag (self, xsdParentElementNode, xsdElement, inputElement, inputElementChildIndex, usedAsBaseType, baseTypeAttributes):
extensionElement = xsdElement.getFirstChildNS(self.xsdNSAlias, "extension")
if extensionElement != None:
inputElementChildIndex, baseTypeAttributes = self._checkExtensionComplexContent (xsdParentElementNode, extensionElement, inputElement, inputElementChildIndex, usedAsBaseType, baseTypeAttributes)
else:
restrictionElement = xsdElement.getFirstChildNS(self.xsdNSAlias, "restriction")
if restrictionElement != None:
inputElementChildIndex, baseTypeAttributes = self._checkRestrictionComplexContent (xsdParentElementNode, restrictionElement, inputElement, inputElementChildIndex, usedAsBaseType, baseTypeAttributes)
return inputElementChildIndex, baseTypeAttributes
def _checkExtensionComplexContent (self, xsdParentElementNode, xsdElement, inputElement, inputElementChildIndex, usedAsBaseType, baseTypeAttributes):
baseType = self.xmlIf.extractLocalName(xsdElement.getAttribute("base"))
inputElementChildIndex, baseTypeAttributes = self._checkComplexTypeTag (xsdParentElementNode, self.xsdTypeDict[baseType], inputElement, inputElementChildIndex, "extension")
inputElementChildIndex, baseTypeAttributes = self._checkComplexTypeContent (xsdElement, inputElement, inputElementChildIndex, usedAsBaseType, baseTypeAttributes)
return inputElementChildIndex, baseTypeAttributes
def _checkRestrictionComplexContent (self, xsdParentElementNode, xsdElement, inputElement, inputElementChildIndex, usedAsBaseType, baseTypeAttributes):
# first check against base type (retrieve only the base type attributes)
baseType = self.xmlIf.extractLocalName(xsdElement.getAttribute("base"))
inputElementChildIndex, baseTypeAttributes = self._checkComplexTypeTag (xsdParentElementNode, self.xsdTypeDict[baseType], inputElement, inputElementChildIndex, "restriction")
# then check input against derived complex type
inputElementChildIndex, baseTypeAttributes = self._checkComplexTypeContent (xsdElement, inputElement, inputElementChildIndex, usedAsBaseType, baseTypeAttributes)
return inputElementChildIndex, baseTypeAttributes
def _checkComplexTypeContent (self, xsdElement, inputElement, inputElementChildIndex, usedAsBaseType, baseTypeAttributes):
inputTagName = inputElement.getTagName()
childTags = inputElement.getChildren()
if usedAsBaseType in (None, "extension"):
validChildTags = xsdElement.getChildren()
for validChildTag in validChildTags:
if validChildTag.getLocalName() not in ("attribute", "attributeGroup", "anyAttribute"):
inputElementChildIndex = self._checkParticle (validChildTag, inputElement, childTags, inputElementChildIndex)
if usedAsBaseType == None and inputElementChildIndex < len (childTags):
self._addError ("Unexpected child tag '%s' in tag '%s' found!" %(childTags[inputElementChildIndex].getTagName(), inputTagName), childTags[inputElementChildIndex])
if usedAsBaseType in (None,):
self._checkAttributeTags (xsdElement, inputElement, baseTypeAttributes)
if usedAsBaseType in ("restriction", "extension"):
validAttributes = xsdElement.getChildrenNS(self.xsdNSAlias, "attribute")
for validAttrGroup in xsdElement.getChildrenNS(self.xsdNSAlias, "attributeGroup"):
attributeGroupRef = self.xmlIf.extractLocalName(validAttrGroup.getAttribute("ref"))
validAttributes.extend (self.xsdAttributeGroupDict[attributeGroupRef].getChildrenNS(self.xsdNSAlias, "attribute"))
for validAttribute in validAttributes:
baseTypeAttributes[validAttribute.getAttribute("name")] = validAttribute
return inputElementChildIndex, baseTypeAttributes
########################################
# validate inputNodeList against xsdNode
#
def _checkList (self, elementMethod, xsdNode, inputParentNode, inputNodeList, currIndex):
if not xsdNode.hasAttribute("minOccurs"):
xsdNode.setAttribute("minOccurs", "1") # default
if not xsdNode.hasAttribute("maxOccurs"):
xsdNode.setAttribute("maxOccurs", "1") # default
minOccurs = string.atoi(xsdNode.getAttribute("minOccurs"))
maxOccurs = -1
if xsdNode.getAttribute("maxOccurs") != "unbounded":
maxOccurs = string.atoi(xsdNode.getAttribute("maxOccurs"))
occurs = 0
while maxOccurs == -1 or occurs < maxOccurs:
try:
newIndex = elementMethod (xsdNode, inputParentNode, inputNodeList, currIndex)
occurs += 1
if newIndex > currIndex:
currIndex = newIndex
else:
break # no suitable element found
except TagException, errInst:
break
if occurs == 0 and minOccurs > 0:
raise errInst
elif occurs < minOccurs:
expInputTagName = xsdNode.getAttribute("name")
if expInputTagName == None:
expInputTagName = self.xmlIf.extractLocalName(xsdNode.getAttribute("ref"))
errInst.errstr = "Minimum number (%d) of child tags '%s' in tag '%s' not available (only %d)!" %(minOccurs, expInputTagName, inputParentNode.getTagName(), occurs)
raise errInst
return currIndex
########################################
# validate inputNode against element node
#
def _checkElementTag (self, xsdNode, inputParentNode, inputNodeList, currIndex):
if xsdNode.hasAttribute("ref"):
refAttr = self.xmlIf.extractLocalName(xsdNode.getAttribute("ref"))
currIndex = self._checkElementTag (self.xsdElementDict[refAttr], inputParentNode, inputNodeList, currIndex)
else:
nameAttr = xsdNode.getAttribute ("name")
if currIndex >= len (inputNodeList):
raise TagException ("Missing child tag '%s' in tag '%s'!" %(nameAttr, inputParentNode.getTagName()), inputParentNode, 1)
inputNode = inputNodeList[currIndex]
if nameAttr != inputNode.getLocalName():
raise TagException ("Missing child tag '%s' in tag '%s'!" %(nameAttr, inputParentNode.getTagName()), inputNode, 0)
simpleType = None
complexTypeNode = xsdNode.getFirstChildNS (self.xsdNSAlias, "complexType")
simpleTypeNode = xsdNode.getFirstChildNS (self.xsdNSAlias, "simpleType")
if xsdNode.hasAttribute("type"):
typeAttr = xsdNode.getAttribute ("type")
localTypeAttr = self.xmlIf.extractLocalName(typeAttr)
if self.xsdTypeDict.has_key (localTypeAttr) and self.xsdTypeDict[localTypeAttr].getLocalName() == "complexType":
complexTypeNode = self.xsdTypeDict[localTypeAttr]
else:
simpleType = typeAttr
if complexTypeNode != None:
try:
self._checkComplexTypeTag (xsdNode, complexTypeNode, inputNode, 0)
except TagException, errInst:
self._addError (errInst.errstr, errInst.node, errInst.endTag)
else:
try:
simpleTypeReturnDict = {}
if simpleTypeNode != None:
self.simpleTypeVal.checkSimpleTypeDef (simpleTypeNode, inputNode.getTagName(), inputNode.getElementValue(), simpleTypeReturnDict)
elif simpleType != None:
self.simpleTypeVal.checkSimpleType (inputNode.getTagName(), simpleType, inputNode.getElementValue(), simpleTypeReturnDict)
# TODO: What to check if np type is specified for the element?
if simpleTypeReturnDict.has_key("adaptedAttrValue"):
inputNode.setElementValue(simpleTypeReturnDict["adaptedAttrValue"])
except xsvalSimpleTypes.SimpleTypeError, errstr:
self._addError (str(errstr), inputNode)
currIndex += 1
# check unique attributes and keys
childUniqueDefList = xsdNode.getChildrenNS (self.xsdNSAlias, "unique")
for childUniqueDef in childUniqueDefList:
self._checkIdentityConstraint (childUniqueDef, inputNode, "unique")
childKeyDefList = xsdNode.getChildrenNS (self.xsdNSAlias, "key")
for childKeyDef in childKeyDefList:
self._checkIdentityConstraint (childKeyDef, inputNode, "key")
childKeyrefDefList = xsdNode.getChildrenNS (self.xsdNSAlias, "keyref")
for childKeyrefDef in childKeyrefDefList:
self.checkKeyrefList.append ((inputNode, childKeyrefDef))
return currIndex
########################################
# validate inputNode against sequence node
#
def _checkSequenceTag (self, xsdNode, inputParentNode, inputNodeList, currIndex):
for xsdChildNode in xsdNode.getChildren():
currIndex = self._checkParticle (xsdChildNode, inputParentNode, inputNodeList, currIndex)
return currIndex
########################################
# validate inputNode against choice node
#
def _checkChoiceTag (self, xsdNode, inputParentNode, inputNodeList, currIndex):
for xsdChildNode in xsdNode.getChildren():
try:
currIndex = self._checkParticle (xsdChildNode, inputParentNode, inputNodeList, currIndex)
break
except TagException, errInst:
pass
else:
if currIndex < len(inputNodeList):
currNode = inputNodeList[currIndex]
endTag = 0
else:
currNode = inputParentNode
endTag = 1
raise TagException ("No suitable child tag for choice found!", currNode, endTag)
return currIndex
########################################
# validate inputNode against group node
#
def _checkGroupTag (self, xsdNode, inputParentNode, inputNodeList, currIndex):
if xsdNode.hasAttribute("ref"):
refAttr = self.xmlIf.extractLocalName(xsdNode.getAttribute("ref"))
currIndex = self._checkGroupTag (self.xsdGroupDict[refAttr], inputParentNode, inputNodeList, currIndex)
else:
for xsdChildNode in xsdNode.getChildren():
currIndex = self._checkParticle (xsdChildNode, inputParentNode, inputNodeList, currIndex)
return currIndex
########################################
# validate inputNode against all node
#
def _checkAllTag (self, xsdNode, inputParentNode, inputNodeList, currIndex):
oldIndex = currIndex
xsdChildDict = {}
for xsdChildNode in xsdNode.getChildren():
xsdChildDict[xsdChildNode] = 0
while currIndex < len(inputNodeList):
currNode = inputNodeList[currIndex]
for xsdChildNode in xsdChildDict.keys():
try:
newIndex = self._checkParticle (xsdChildNode, inputParentNode, inputNodeList, currIndex)
except TagException, errInst:
continue
if xsdChildDict[xsdChildNode] == 0:
xsdChildDict[xsdChildNode] = 1
currIndex = newIndex
break
else:
raise TagException ("Ambiguous child tag '%s' found in all-group!" %(currNode.getTagName()), currNode)
else:
raise TagException ("Unexpected child tag '%s' for all-group found!" %(currNode.getTagName()), currNode)
for xsdChildNode, occurs in xsdChildDict.items():
if xsdChildNode.getAttribute("minOccurs") != "0" and occurs == 0:
raise TagException ("Child tag '%s' missing in all-group (%s)" %(xsdChildNode.getAttribute("name"), inputParentNode.getTagName()), inputNodeList[oldIndex])
return currIndex
########################################
# validate inputNode against any node
#
def _checkAnyTag (self, xsdNode, inputParentNode, inputNodeList, currIndex):
processContents = xsdNode.getAttribute("processContents")
if processContents == "skip":
pass
elif processContents == "lax":
# TODO: Was muss hier gecheckt werden?
pass
elif processContents == "strict":
# TODO: Was muss hier gecheckt werden?
pass
if currIndex < len(inputNodeList):
currIndex = currIndex + 1
return currIndex
########################################
# validate inputNode against particle
#
def _checkParticle (self, xsdNode, inputParentNode, inputNodeList, currIndex):
xsdTagName = xsdNode.getTagName()
if xsdTagName == self.xsdNSAlias + "element":
currIndex = self._checkList (self._checkElementTag, xsdNode, inputParentNode, inputNodeList, currIndex)
elif xsdTagName == self.xsdNSAlias + "choice":
currIndex = self._checkList (self._checkChoiceTag, xsdNode, inputParentNode, inputNodeList, currIndex)
elif xsdTagName == self.xsdNSAlias + "sequence":
currIndex = self._checkList (self._checkSequenceTag, xsdNode, inputParentNode, inputNodeList, currIndex)
elif xsdTagName == self.xsdNSAlias + "group":
currIndex = self._checkList (self._checkGroupTag, xsdNode, inputParentNode, inputNodeList, currIndex)
elif xsdTagName == self.xsdNSAlias + "all":
currIndex = self._checkList (self._checkAllTag, xsdNode, inputParentNode, inputNodeList, currIndex)
elif xsdTagName == self.xsdNSAlias + "any":
currIndex = self._checkList (self._checkAnyTag, xsdNode, inputParentNode, inputNodeList, currIndex)
elif xsdTagName == self.xsdNSAlias + "annotation":
pass # nothing to check
else:
self._addError ("Internal error: Invalid tag %s found!" %(xsdTagName))
return currIndex
########################################
# validate attributes of inputNode against complexType node
#
def _checkAttributeTags (self, xsdNode, inputNode, validAttrDict):
validAttributes = xsdNode.getChildrenNS(self.xsdNSAlias, "attribute")
for validAttrGroup in xsdNode.getChildrenNS(self.xsdNSAlias, "attributeGroup"):
attributeGroupRef = self.xmlIf.extractLocalName(validAttrGroup.getAttribute("ref"))
validAttributes.extend (self.xsdAttributeGroupDict[attributeGroupRef].getChildrenNS(self.xsdNSAlias, "attribute"))
for validAttribute in validAttributes:
if validAttribute.hasAttribute("name"):
keyAttr = validAttribute.getAttribute("name")
else:
keyAttr = self.xmlIf.extractLocalName(validAttribute.getAttribute("ref"))
validAttrDict[keyAttr] = validAttribute
inputAttrDict = {}
for iAttrName, iAttrValue in inputNode.getAttributeDict().items():
if self.xmlIf.extractNamespaceAlias (iAttrName) != "xmlns:" and iAttrName != "xmlns":
inputAttrDict[self.xmlIf.extractLocalName(iAttrName)] = iAttrValue
for attrKey, validAttribute in validAttrDict.items():
# handle special attributes, e.g. xsi:nil
if attrKey == "__SPECIAL_ATTRS__":
for specialAttrName, specialAttrType in validAttribute.items():
if inputAttrDict.has_key(specialAttrName):
simpleTypeReturnDict = {}
try:
self.simpleTypeVal.checkSimpleType (specialAttrName, specialAttrType, inputAttrDict[specialAttrName], simpleTypeReturnDict)
except xsvalSimpleTypes.SimpleTypeError, errstr:
self._addError (str(errstr), inputNode)
del inputAttrDict[specialAttrName]
continue
attrDict = validAttribute.getAttributeDict()
if attrDict.has_key("ref"):
# TODO: What to do here??
attrRef = self.xmlIf.extractLocalName(attrDict["ref"])
if inputAttrDict.has_key(attrRef):
del inputAttrDict[attrRef]
else:
attrName = attrDict["name"]
if not attrDict.has_key("use"):
attrDict["use"] = "optional"
if inputAttrDict.has_key(attrName):
del inputAttrDict[attrName]
else:
if attrDict["use"] == "required":
self._addError ("Attribute '%s' is missing for tag %s!" %(attrName, inputNode.getTagName()), inputNode)
elif attrDict["use"] == "optional":
if attrDict.has_key("default"):
inputNode.setAttribute(attrName, attrDict["default"])
if attrDict.has_key("fixed"):
if inputNode.getAttribute(attrName) != attrDict["fixed"]:
self._addError ("Attribute '%s' must have fixed value '%s'!" %(attrName, attrDict["fixed"]), inputNode)
if inputNode.hasAttribute(attrName):
if attrDict["use"] == "prohibited":
self._addError ("Attribute '%s' is prohibited in this context!" %(attrName), inputNode)
else:
attributeValue = inputNode.getAttribute(attrName)
try:
simpleTypeReturnDict = {}
if attrDict.has_key("type"):
self.simpleTypeVal.checkSimpleType (attrName, attrDict["type"], attributeValue, simpleTypeReturnDict)
else:
typedefNode = validAttribute.getFirstChildNS(self.xsdNSAlias, "simpleType")
if typedefNode != None:
self.simpleTypeVal.checkSimpleTypeDef (typedefNode, attrName, attributeValue, simpleTypeReturnDict)
else:
pass # default if no type attribute is specified
if simpleTypeReturnDict.has_key("adaptedAttrValue"):
inputNode.setAttribute(attrName, simpleTypeReturnDict["adaptedAttrValue"])
except xsvalSimpleTypes.SimpleTypeError, errstr:
self._addError (str(errstr), inputNode)
for inputAttribute in inputAttrDict.keys():
# TODO: adapt for using namespaces!!
if self.xmlIf.extractLocalName(inputAttribute) in ("noNamespaceSchemaLocation", "schemaLocation"):
del inputAttrDict[inputAttribute]
for inputAttribute in inputAttrDict.keys():
if inputAttribute == "nil":
self._addError ("Tag '%s' hasn't been defined as nillable!" %(inputNode.getTagName()), inputNode)
else:
self._addError ("Unexpected attribute '%s' in Tag '%s'!" %(inputAttribute, inputNode.getTagName()), inputNode)
########################################
# validate unique and key definition
#
def _checkIdentityConstraint (self, identityConstrNode, inputElement, isKey):
identConstrName = identityConstrNode.getAttribute ("name")
selectorXPathNode = identityConstrNode.getFirstChildNS (self.xsdNSAlias, "selector")
selectorNodeList, dummy = self._getXPath (inputElement, selectorXPathNode.getAttribute("xpath"), self.inputNSAlias)
valueDict = {}
for selectorNode in selectorNodeList:
fieldXPathNodeList = identityConstrNode.getChildrenNS (self.xsdNSAlias, "field")
keyValue = []
for fieldXPathNode in fieldXPathNodeList:
fieldXPath = fieldXPathNode.getAttribute("xpath")
fieldNodeList, fieldAttributeList = self._getXPath (selectorNode, fieldXPath, self.inputNSAlias, isKey)
if len(fieldNodeList) > 1 or len(fieldAttributeList) > 1:
self._addError ("The field xPath of identity constraint '%s' must evaluate to exactly 0 or 1 node!" %(identConstrName), fieldXPathNode)
return
# TODO: unique and key check currently only on string base
for fieldNode in fieldNodeList:
keyValue.append (fieldNode.getElementValue ())
for attrValue in fieldAttributeList:
keyValue.append (attrValue)
if keyValue != []:
keyValue = tuple(keyValue)
if not valueDict.has_key (keyValue):
valueDict[keyValue] = 1
self.xsdIdentityConstrDict[identConstrName]["ValueDict"][keyValue] = 1
else:
self._addError ("Duplicate identity constraint values '%s' found for identity contraint '%s'!" %(keyValue, identConstrName), selectorNode)
########################################
# validate unique and key definition
#
def _checkKeyRefConstraint (self, keyrefNode, inputElement):
keyRefName = keyrefNode.getAttribute ("name")
keyReference = keyrefNode.getAttribute ("refer")
if not self.xsdIdentityConstrDict.has_key (keyReference):
self._addError ("keyref refers unknown key '%s'!" %(keyReference), keyrefNode)
return
selectorXPathNode = keyrefNode.getFirstChildNS (self.xsdNSAlias, "selector")
selectorNodeList, dummy = self._getXPath (inputElement, selectorXPathNode.getAttribute("xpath"), self.inputNSAlias)
for selectorNode in selectorNodeList:
fieldXPathNodeList = keyrefNode.getChildrenNS(self.xsdNSAlias, "field")
keyValue = []
for fieldXPathNode in fieldXPathNodeList:
fieldXPath = fieldXPathNode.getAttribute("xpath")
fieldNodeList, fieldAttributeList = self._getXPath (selectorNode, fieldXPath, self.inputNSAlias, "keyref")
if len(fieldNodeList) > 1 or len(fieldAttributeList) > 1:
self._addError ("The field xPath of keyref '%s' must evaluate to exactly 0 or 1 node!" %(keyRefName), fieldXPathNode)
return
# TODO: unique and key check currently only on string base
for fieldNode in fieldNodeList:
keyValue.append(fieldNode.getElementValue())
for attrValue in fieldAttributeList:
keyValue.append(attrValue)
keyValue = tuple(keyValue)
if not self.xsdIdentityConstrDict[keyReference]["ValueDict"].has_key (keyValue):
self._addError ("Element value '%s' does not match key type '%s'!" %(keyValue, keyReference), selectorNode)
########################################
# retrieve nodes/attributes specified by given xPath
#
def _getXPath (self, node, xPath, defaultNamespace, identityConstraint=None):
try:
nodeList, attributeList = node.getXPathList (xPath, defaultNamespace)
except IOError, errstr:
self._addError (errstr, node)
nodeList = attributeList = []
if nodeList == [] and attributeList == []:
if identityConstraint == "key":
self.errorHandler.addError ("Key is missing! XPath = '%s'!" %(xPath), node)
elif identityConstraint in ("unique", "keyref"):
self.errorHandler.addWarning ("Identity constraint is missing! XPath = '%s'!" %(xPath), node)
return nodeList, attributeList
########################################
# define own exception for XML schema validation errors
#
class TagException (StandardError):
def __init__ (self, errstr="", node=None, endTag=0):
self.node = node
self.errstr = errstr
self.endTag = endTag
StandardError.__init__(self)