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/*
* Copyright (C) 2013, 2014, 2015 by the Konclude Developer Team.
*
* This file is part of the reasoning system Konclude.
* For details and support, see <http://konclude.com/>.
*
* Konclude is free software: you can redistribute it and/or modify it under
* the terms of version 2.1 of the GNU Lesser General Public License (LGPL2.1)
* as published by the Free Software Foundation.
*
* You should have received a copy of the GNU Lesser General Public License
* along with Konclude. If not, see <http://www.gnu.org/licenses/>.
*
* Konclude 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. For more
* details, see GNU Lesser General Public License.
*
*/
#include "CIndividualSaturationProcessNodeExtensionData.h"
namespace Konclude {
namespace Reasoner {
namespace Kernel {
namespace Process {
CIndividualSaturationProcessNodeExtensionData::CIndividualSaturationProcessNodeExtensionData(CProcessContext* processContext) : mProcessContext(processContext) {
mMemAllocMan = mProcessContext->getMemoryAllocationManager();
}
CIndividualSaturationProcessNodeExtensionData* CIndividualSaturationProcessNodeExtensionData::initIndividualExtensionData(CIndividualSaturationProcessNode* indiNode) {
mIndiNode = indiNode;
mDisComConExtData = nullptr;
mLinkedRoleSuccHash = nullptr;
mCriticalConceptTypeQueues = nullptr;
mSuccessorExtensionData = nullptr;
mNominalHandlingData = nullptr;
mCriticalPredRoleCardHash = nullptr;
mRoleAssertionLinker = nullptr;
mAppliedDatatypeData = nullptr;
return this;
}
CSaturationDisjunctCommonConceptExtractionData* CIndividualSaturationProcessNodeExtensionData::getDisjunctCommonConceptExtractionData(bool create) {
if (!mDisComConExtData && create) {
mDisComConExtData = CObjectParameterizingAllocator< CSaturationDisjunctCommonConceptExtractionData,CProcessContext* >::allocateAndConstructAndParameterize(mMemAllocMan,mProcessContext);
mDisComConExtData->initExtractionData(mIndiNode);
}
return mDisComConExtData;
}
CLinkedRoleSaturationSuccessorHash* CIndividualSaturationProcessNodeExtensionData::getLinkedRoleSuccessorHash(bool create) {
if (create && !mLinkedRoleSuccHash) {
mLinkedRoleSuccHash = CObjectParameterizingAllocator< CLinkedRoleSaturationSuccessorHash,CProcessContext* >::allocateAndConstructAndParameterize(mMemAllocMan,mProcessContext);
mLinkedRoleSuccHash->initRoleSuccessorHash();
}
return mLinkedRoleSuccHash;
}
CCriticalSaturationConceptTypeQueues* CIndividualSaturationProcessNodeExtensionData::getCriticalConceptTypeQueues(bool create) {
if (!mCriticalConceptTypeQueues && create) {
mCriticalConceptTypeQueues = CObjectParameterizingAllocator< CCriticalSaturationConceptTypeQueues,CProcessContext* >::allocateAndConstructAndParameterize(mMemAllocMan,mProcessContext);
mCriticalConceptTypeQueues->initCriticalSaturationConceptQueues(mIndiNode);
}
return mCriticalConceptTypeQueues;
}
CSaturationIndividualNodeSuccessorExtensionData* CIndividualSaturationProcessNodeExtensionData::getSuccessorExtensionData(bool create) {
if (!mSuccessorExtensionData && create) {
mSuccessorExtensionData = CObjectParameterizingAllocator< CSaturationIndividualNodeSuccessorExtensionData,CProcessContext* >::allocateAndConstructAndParameterize(mMemAllocMan,mProcessContext);
mSuccessorExtensionData->initExtensionData(mIndiNode);
}
return mSuccessorExtensionData;
}
CSaturationIndividualNodeNominalHandlingData* CIndividualSaturationProcessNodeExtensionData::getNominalHandlingData(bool create) {
if (!mNominalHandlingData && create) {
mNominalHandlingData = CObjectParameterizingAllocator< CSaturationIndividualNodeNominalHandlingData,CProcessContext* >::allocateAndConstructAndParameterize(mMemAllocMan,mProcessContext);
mNominalHandlingData->initNominalHandlingData(mIndiNode);
}
return mNominalHandlingData;
}
CCriticalPredecessorRoleCardinalityHash* CIndividualSaturationProcessNodeExtensionData::getCriticalPredecessorRoleCardinalityHash(bool create) {
if (!mCriticalPredRoleCardHash && create) {
mCriticalPredRoleCardHash = CObjectParameterizingAllocator< CCriticalPredecessorRoleCardinalityHash,CProcessContext* >::allocateAndConstructAndParameterize(mMemAllocMan,mProcessContext);
mCriticalPredRoleCardHash->initCriticalPredecessorRoleCardinalityHash();
}
return mCriticalPredRoleCardHash;
}
CSaturationIndividualNodeDatatypeData* CIndividualSaturationProcessNodeExtensionData::getAppliedDatatypeData(bool create) {
if (!mAppliedDatatypeData && create) {
mAppliedDatatypeData = CObjectParameterizingAllocator< CSaturationIndividualNodeDatatypeData,CProcessContext* >::allocateAndConstructAndParameterize(mMemAllocMan,mProcessContext);
mAppliedDatatypeData->initExtensionData(mIndiNode);
}
return mAppliedDatatypeData;
}
CSaturationSuccessorRoleAssertionLinker* CIndividualSaturationProcessNodeExtensionData::getRoleAssertionLinker() {
return mRoleAssertionLinker;
}
CIndividualSaturationProcessNodeExtensionData* CIndividualSaturationProcessNodeExtensionData::addRoleAssertionLinker(CSaturationSuccessorRoleAssertionLinker* roleAssertionLinker) {
if (roleAssertionLinker) {
mRoleAssertionLinker = roleAssertionLinker->append(mRoleAssertionLinker);
}
return this;
}
CIndividualSaturationProcessNodeExtensionData* CIndividualSaturationProcessNodeExtensionData::addRoleAssertion(CIndividualSaturationProcessNode* destinationNode, CRole* role, bool roleNegation) {
CSaturationSuccessorRoleAssertionLinker* roleAssertionLinker = CObjectAllocator<CSaturationSuccessorRoleAssertionLinker>::allocateAndConstruct(mMemAllocMan);
roleAssertionLinker->initSaturationSuccessorRoleAssertionLinker(destinationNode,role,roleNegation);
addRoleAssertionLinker(roleAssertionLinker);
return this;
}
}; // end namespace Process
}; // end namespace Kernel
}; // end namespace Reasoner
}; // end namespace Konclude
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