/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* * $Id: SchemaInfo.hpp 568078 2007-08-21 11:43:25Z amassari $ */ #if !defined(SCHEMAINFO_HPP) #define SCHEMAINFO_HPP /** When in a , type definitions being used (and indeed * refs to 's and 's) may refer to info * items either in the schema being redefined, in the , * or else in the schema doing the redefining. Because of this * latter we have to be prepared sometimes to look for our type * definitions outside the schema stored in fSchemaRootElement. * This simple class does this; it's just a linked list that * lets us look at the 's on the queue; note also that this * should provide us with a mechanism to handle nested 's. * It's also a handy way of saving schema info when importing/including. */ // --------------------------------------------------------------------------- // Includes // --------------------------------------------------------------------------- #include #include #include #include XERCES_CPP_NAMESPACE_BEGIN // --------------------------------------------------------------------------- // Forward Declarations // --------------------------------------------------------------------------- class ValidationContext; class VALIDATORS_EXPORT SchemaInfo : public XMemory { public: enum ListType { // Redefine is treated as an include IMPORT = 1, INCLUDE = 2 }; enum { C_ComplexType, C_SimpleType, C_Group, C_Attribute, C_AttributeGroup, C_Element, C_Notation, C_Count }; // ----------------------------------------------------------------------- // Constructor/Destructor // ----------------------------------------------------------------------- SchemaInfo(const unsigned short fElemAttrDefaultQualified, const int blockDefault, const int finalDefault, const int targetNSURI, const int scopeCount, const unsigned int namespaceScopeLevel, XMLCh* const schemaURL, const XMLCh* const targetNSURIString, const DOMElement* const root, MemoryManager* const manager = XMLPlatformUtils::fgMemoryManager); ~SchemaInfo(); // ----------------------------------------------------------------------- // Getter methods // ----------------------------------------------------------------------- XMLCh* getCurrentSchemaURL() const; const XMLCh* const getTargetNSURIString() const; const DOMElement* getRoot() const; bool getProcessed() const; int getBlockDefault() const; int getFinalDefault() const; int getTargetNSURI() const; int getScopeCount() const; unsigned int getNamespaceScopeLevel() const; unsigned short getElemAttrDefaultQualified() const; BaseRefVectorEnumerator getImportingListEnumerator() const; ValueVectorOf* getRecursingAnonTypes() const; ValueVectorOf* getRecursingTypeNames() const; ValueVectorOf* getNonXSAttList() const; ValidationContext* getValidationContext() const; // ----------------------------------------------------------------------- // Setter methods // ----------------------------------------------------------------------- void setProcessed(const bool aValue = true); void setScopeCount(const int aValue); void setBlockDefault(const int aValue); void setFinalDefault(const int aValue); void setElemAttrDefaultQualified(const unsigned short aValue); // ----------------------------------------------------------------------- // Access methods // ----------------------------------------------------------------------- void addSchemaInfo(SchemaInfo* const toAdd, const ListType aListType); bool containsInfo(const SchemaInfo* const toCheck, const ListType aListType) const; SchemaInfo* getImportInfo(const unsigned int namespaceURI) const; DOMElement* getTopLevelComponent(const unsigned short compCategory, const XMLCh* const compName, const XMLCh* const name); DOMElement* getTopLevelComponent(const unsigned short compCategory, const XMLCh* const compName, const XMLCh* const name, SchemaInfo** enclosingSchema); void updateImportingInfo(SchemaInfo* const importingInfo); bool circularImportExist(const unsigned int nameSpaceURI); bool isFailedRedefine(const DOMElement* const anElem); void addFailedRedefine(const DOMElement* const anElem); bool isImportingNS(const int namespaceURI); void addImportedNS(const int namespaceURI); void addRecursingType(const DOMElement* const elem, const XMLCh* const name); private: // ----------------------------------------------------------------------- // Unimplemented constructors and operators // ----------------------------------------------------------------------- SchemaInfo(const SchemaInfo&); SchemaInfo& operator=(const SchemaInfo&); // ----------------------------------------------------------------------- // Private helper methods // ----------------------------------------------------------------------- void clearTopLevelComponents(); // ----------------------------------------------------------------------- // Private data members // ----------------------------------------------------------------------- bool fAdoptInclude; bool fProcessed; unsigned short fElemAttrDefaultQualified; int fBlockDefault; int fFinalDefault; int fTargetNSURI; int fScopeCount; unsigned int fNamespaceScopeLevel; XMLCh* fCurrentSchemaURL; const XMLCh* fTargetNSURIString; const DOMElement* fSchemaRootElement; RefVectorOf* fIncludeInfoList; RefVectorOf* fImportedInfoList; RefVectorOf* fImportingInfoList; ValueVectorOf* fFailedRedefineList; ValueVectorOf* fImportedNSList; ValueVectorOf* fRecursingAnonTypes; ValueVectorOf* fRecursingTypeNames; RefHashTableOf* fTopLevelComponents[C_Count]; DOMElement* fLastTopLevelComponent[C_Count]; ValueVectorOf* fNonXSAttList; ValidationContext* fValidationContext; MemoryManager* fMemoryManager; }; // --------------------------------------------------------------------------- // SchemaInfo: Getter methods // --------------------------------------------------------------------------- inline unsigned short SchemaInfo::getElemAttrDefaultQualified() const { return fElemAttrDefaultQualified; } inline bool SchemaInfo::getProcessed() const { return fProcessed; } inline int SchemaInfo::getBlockDefault() const { return fBlockDefault; } inline int SchemaInfo::getFinalDefault() const { return fFinalDefault; } inline unsigned int SchemaInfo::getNamespaceScopeLevel() const { return fNamespaceScopeLevel; } inline XMLCh* SchemaInfo::getCurrentSchemaURL() const { return fCurrentSchemaURL; } inline const XMLCh* const SchemaInfo::getTargetNSURIString() const { return fTargetNSURIString; } inline const DOMElement* SchemaInfo::getRoot() const { return fSchemaRootElement; } inline int SchemaInfo::getTargetNSURI() const { return fTargetNSURI; } inline int SchemaInfo::getScopeCount() const { return fScopeCount; } inline BaseRefVectorEnumerator SchemaInfo::getImportingListEnumerator() const { return BaseRefVectorEnumerator(fImportingInfoList); } inline ValueVectorOf* SchemaInfo::getRecursingAnonTypes() const { return fRecursingAnonTypes; } inline ValueVectorOf* SchemaInfo::getRecursingTypeNames() const { return fRecursingTypeNames; } inline ValueVectorOf* SchemaInfo::getNonXSAttList() const { return fNonXSAttList; } // --------------------------------------------------------------------------- // Setter methods // --------------------------------------------------------------------------- inline void SchemaInfo::setScopeCount(const int aValue) { fScopeCount = aValue; } inline void SchemaInfo::setBlockDefault(const int aValue) { fBlockDefault = aValue; } inline void SchemaInfo::setFinalDefault(const int aValue) { fFinalDefault = aValue; } inline void SchemaInfo::setElemAttrDefaultQualified(const unsigned short aValue) { fElemAttrDefaultQualified = aValue; } inline void SchemaInfo::setProcessed(const bool aValue) { fProcessed = aValue; /* if (fProcessed && fIncludeInfoList) { unsigned int includeListLen = fIncludeInfoList->size()); for (unsigned int i = 0; i < includeListLen; i++) { fIncludeInfoList->elementAt(i)->clearTopLevelComponents(); } }*/ } // --------------------------------------------------------------------------- // SchemaInfo: Access methods // --------------------------------------------------------------------------- inline void SchemaInfo::addImportedNS(const int namespaceURI) { if (!fImportedNSList) { fImportedNSList = new (fMemoryManager) ValueVectorOf(4, fMemoryManager); } if (!fImportedNSList->containsElement(namespaceURI)) fImportedNSList->addElement(namespaceURI); } inline void SchemaInfo::addSchemaInfo(SchemaInfo* const toAdd, const ListType aListType) { if (aListType == IMPORT) { if (!fImportedInfoList) fImportedInfoList = new (fMemoryManager) RefVectorOf(4, false, fMemoryManager); if (!fImportedInfoList->containsElement(toAdd)) { fImportedInfoList->addElement(toAdd); addImportedNS(toAdd->getTargetNSURI()); toAdd->updateImportingInfo(this); } } else { if (!fIncludeInfoList) { fIncludeInfoList = new (fMemoryManager) RefVectorOf(8, false, fMemoryManager); fAdoptInclude = true; } if (!fIncludeInfoList->containsElement(toAdd)) { fIncludeInfoList->addElement(toAdd); toAdd->fIncludeInfoList = fIncludeInfoList; } } } inline SchemaInfo* SchemaInfo::getImportInfo(const unsigned int namespaceURI) const { unsigned int importSize = (fImportedInfoList) ? fImportedInfoList->size() : 0; SchemaInfo* currInfo = 0; for (unsigned int i=0; i < importSize; i++) { currInfo = fImportedInfoList->elementAt(i); if (currInfo->getTargetNSURI() == (int) namespaceURI) break; } return currInfo; } inline ValidationContext* SchemaInfo::getValidationContext() const { return fValidationContext; } inline bool SchemaInfo::containsInfo(const SchemaInfo* const toCheck, const ListType aListType) const { if ((aListType == INCLUDE) && fIncludeInfoList) { return fIncludeInfoList->containsElement(toCheck); } else if ((aListType == IMPORT) && fImportedInfoList) { return fImportedInfoList->containsElement(toCheck); } return false; } inline bool SchemaInfo::circularImportExist(const unsigned int namespaceURI) { unsigned int importSize = fImportingInfoList->size(); for (unsigned int i=0; i < importSize; i++) { if (fImportingInfoList->elementAt(i)->getTargetNSURI() == (int) namespaceURI) { return true; } } return false; } inline bool SchemaInfo::isFailedRedefine(const DOMElement* const anElem) { if (fFailedRedefineList) return (fFailedRedefineList->containsElement(anElem)); return false; } inline void SchemaInfo::addFailedRedefine(const DOMElement* const anElem) { if (!fFailedRedefineList) { fFailedRedefineList = new (fMemoryManager) ValueVectorOf(4, fMemoryManager); } fFailedRedefineList->addElement(anElem); } inline bool SchemaInfo::isImportingNS(const int namespaceURI) { if (!fImportedNSList) return false; return (fImportedNSList->containsElement(namespaceURI)); } inline void SchemaInfo::addRecursingType(const DOMElement* const elem, const XMLCh* const name) { if (!fRecursingAnonTypes) { fRecursingAnonTypes = new (fMemoryManager) ValueVectorOf(8, fMemoryManager); fRecursingTypeNames = new (fMemoryManager) ValueVectorOf(8, fMemoryManager); } fRecursingAnonTypes->addElement(elem); fRecursingTypeNames->addElement(name); } inline void SchemaInfo::clearTopLevelComponents() { for (unsigned int i = 0; i < C_Count; i++) { delete fTopLevelComponents[i]; fTopLevelComponents[i] = 0; fLastTopLevelComponent[i] = 0; } } XERCES_CPP_NAMESPACE_END #endif /** * End of file SchemaInfo.hpp */