Add support for defining execution order in FBD networks (related ST code not generated yet)
#
# minixsv, Release 0.3
# file: xsvalSchema.py
#
# Derived validator class (for validation of schema files)
#
# 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 *
from xsvalBase import XsValBase
###########################################################
# Derived validator class for validating one input schema file against the XML rules file
class XsValSchema (XsValBase):
########################################
# overloaded validate method
#
def validate (self, inputTree, xsdTree):
XsValBase.validate(self, inputTree, xsdTree)
self._checkSchemaSecondLevel()
########################################
# additional checks for schema files which are not covered by "xsStructs.xsd"
#
def _checkSchemaSecondLevel(self):
self._checkElementNodesSecondLevel()
self._checkGroupNodesSecondLevel()
self._checkAttrGroupNodesSecondLevel()
self._checkAttributeNodesSecondLevel()
self._checkSimpleTypesSecondLevel()
########################################
# additional checks for element nodes
#
def _checkElementNodesSecondLevel(self):
self.inputElementDict = {}
for inputNode in self.inputRoot.getChildrenNS(self.inputNSAlias, "element"):
self.inputElementDict[inputNode.getAttribute("name")] = inputNode
elementNodes = self.inputRoot.getElementsByTagNameNS (self.inputNSAlias, "element")
for elementNode in elementNodes:
if not elementNode.hasAttribute("name") and not elementNode.hasAttribute("ref"):
self._addError ("Element must have 'name' or 'ref' attribute!", elementNode)
continue
if elementNode.hasAttribute("name") and elementNode.hasAttribute("ref"):
self._addError ("Element must not have 'name' and 'ref' attribute!", elementNode)
continue
if elementNode.hasAttribute("ref"):
elementRef = self.xmlIf.extractLocalName(elementNode.getAttribute("ref"))
if not self.inputElementDict.has_key(elementRef):
self._addError ("Reference to undefined element '%s'!" %(elementRef), elementNode)
complexTypeNode = elementNode.getFirstChildNS (self.inputNSAlias, "complexType")
simpleTypeNode = elementNode.getFirstChildNS (self.inputNSAlias, "simpleType")
if elementNode.hasAttribute("type") and (complexTypeNode != None or simpleTypeNode != None):
self._addError ("Element has type attribute and type definition!", elementNode)
if not elementNode.hasAttribute("type") and complexTypeNode == None and simpleTypeNode == None:
self._addWarning ("Element has no type attribute and no type definition!", elementNode)
minOccurs = elementNode.getAttributeOrDefault("minOccurs", "1")
maxOccurs = elementNode.getAttributeOrDefault("maxOccurs", "1")
if maxOccurs != "unbounded":
if string.atoi(minOccurs) > string.atoi(maxOccurs):
self._addError ("Attribute minOccurs > maxOccurs!", elementNode)
########################################
# additional checks for group nodes
#
def _checkGroupNodesSecondLevel(self):
self.inputGroupDict = {}
for groupNode in self.inputRoot.getChildrenNS(self.inputNSAlias, "group"):
self.inputGroupDict[groupNode.getAttribute("name")] = groupNode
groupNodes = self.inputRoot.getElementsByTagNameNS (self.inputNSAlias, "group")
for groupNode in groupNodes:
if groupNode.hasAttribute("ref"):
groupRef = self.xmlIf.extractLocalName(groupNode.getAttribute("ref"))
if not self.inputGroupDict.has_key(groupRef):
self._addError ("Reference to undefined group '%s'!" %(groupRef), groupNode)
########################################
# additional checks for attributeGroup nodes
#
def _checkAttrGroupNodesSecondLevel(self):
self.inputAttrGroupDict = {}
for attrGroupNode in self.inputRoot.getChildrenNS(self.inputNSAlias, "attrGroup"):
self.inputAttrGroupDict[attrGroupNode.getAttribute("name")] = attrGroupNode
attrGroupNodes = self.inputRoot.getElementsByTagNameNS (self.inputNSAlias, "attrGroup")
for attrGroupNode in attrGroupNodes:
if attrGroupNode.hasAttribute("ref"):
attrGroupRef = self.xmlIf.extractLocalName(attrGroupNode.getAttribute("ref"))
if not self.inputAttrGroupDict.has_key(attrGroupRef):
self._addError ("Reference to undefined attribute group '%s'!" %(attrGroupRef), attrGroupNode)
########################################
# additional checks for attribute nodes
#
def _checkAttributeNodesSecondLevel(self):
attributeNodes = self.inputRoot.getElementsByTagNameNS (self.inputNSAlias, "attribute")
for attributeNode in attributeNodes:
if not attributeNode.hasAttribute("name") and not attributeNode.hasAttribute("ref"):
self._addError ("Attribute must have 'name' or 'ref' attribute!", attributeNode)
continue
if attributeNode.getAttribute("use") == "required" and attributeNode.hasAttribute("default"):
self._addError ("Attribute 'default' is not allowed, because 'use' is 'required'!", attributeNode)
elif attributeNode.hasAttribute("default") and attributeNode.hasAttribute("fixed"):
self._addError ("Attribute must not have 'default' AND 'fixed' attribute!", attributeNode)
########################################
# additional checks for simple types
#
def _checkSimpleTypesSecondLevel(self):
restrictionNodes, dummy = self.inputRoot.getXPathList (".//simpleType/restriction", self.inputNSAlias)
for restrictionNode in restrictionNodes:
if not restrictionNode.hasAttribute("base") and restrictionNode.getFirstChildNS (self.inputNSAlias, "simpleType") == None:
self._addError ("Simple type restriction must have 'base' attribute or 'simpleType' child tag!", restrictionNode)
minExcl = restrictionNode.getFirstChildNS(self.inputNSAlias, "minExclusive")
minIncl = restrictionNode.getFirstChildNS(self.inputNSAlias, "minInclusive")
if minExcl != None and minIncl != None:
self._addError ("Restriction attributes 'minExclusive' and 'minInclusive' cannot be defined together!", restrictionNode)
maxExcl = restrictionNode.getFirstChildNS(self.inputNSAlias, "maxExclusive")
maxIncl = restrictionNode.getFirstChildNS(self.inputNSAlias, "maxInclusive")
if maxExcl != None and maxIncl != None:
self._addError ("Restriction attributes 'maxExclusive' and 'maxInclusive' cannot be defined together!", restrictionNode)
listNodes = self.inputRoot.getElementsByTagNameNS (self.inputNSAlias, "list")
for listNode in listNodes:
if not listNode.hasAttribute("itemType") and restrictionNode.getFirstChildNS (self.inputNSAlias, "simpleType") == None:
self._addError ("List type must have 'itemType' attribute or 'simpleType' child tag!", listNode)