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HermiT is reasoner for ontologies written using the Web Ontology Language (OWL). Given an OWL file, HermiT can determine whether or not the ontology is consistent, identify subsumption relationships between classes, and much more. This is the maven build of HermiT and is designed for people who wish to use HermiT from within the OWL API. It is now versioned in the main HermiT version repository, although not officially supported by the HermiT developers. The version number of this package is a composite of the HermiT version and an value representing releases of this packaged version. So, 1.3.7.1 is the first release of the mavenized version of HermiT based on the 1.3.7 release of HermiT. This package includes the Jautomata library (http://jautomata.sourceforge.net/), and builds with it directly. This library appears to be no longer under active development, and so a "fork" seems appropriate. No development is intended or anticipated on this code base.

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/* Copyright 2008, 2009, 2010 by the Oxford University Computing Laboratory

   This file is part of HermiT.

   HermiT is free software: you can redistribute it and/or modify
   it under the terms of the GNU Lesser General Public License as published by
   the Free Software Foundation, either version 3 of the License, or
   (at your option) any later version.

   HermiT 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 Lesser General Public License for more details.

   You should have received a copy of the GNU Lesser General Public License
   along with HermiT.  If not, see .
*/

package org.semanticweb.HermiT.blocking;

import java.io.Serializable;
import java.util.List;

import org.semanticweb.HermiT.model.AtomicRole;
import org.semanticweb.HermiT.model.Concept;
import org.semanticweb.HermiT.model.DLClause;
import org.semanticweb.HermiT.model.DLOntology;
import org.semanticweb.HermiT.model.DataRange;
import org.semanticweb.HermiT.model.Variable;
import org.semanticweb.HermiT.tableau.DLClauseEvaluator;
import org.semanticweb.HermiT.tableau.Node;
import org.semanticweb.HermiT.tableau.Tableau;

public class AncestorBlocking implements BlockingStrategy,Serializable {
    private static final long serialVersionUID=1075850000309773283L;

    protected final DirectBlockingChecker m_directBlockingChecker;
    protected final BlockingSignatureCache m_blockingSignatureCache;
    protected Tableau m_tableau;
    protected boolean m_useBlockingSignatureCache;

    public AncestorBlocking(DirectBlockingChecker directBlockingChecker,BlockingSignatureCache blockingSignatureCache) {
        m_directBlockingChecker=directBlockingChecker;
        m_blockingSignatureCache=blockingSignatureCache;
    }
    public void initialize(Tableau tableau) {
        m_tableau=tableau;
        m_directBlockingChecker.initialize(tableau);
        updateBlockingSignatureCacheUsage();
    }
    public void additionalDLOntologySet(DLOntology additionalDLOntology) {
        updateBlockingSignatureCacheUsage();
    }
    public void additionalDLOntologyCleared() {
        updateBlockingSignatureCacheUsage();
    }
    protected void updateBlockingSignatureCacheUsage() {
        m_useBlockingSignatureCache=(m_tableau.getAdditionalHyperresolutionManager()==null);
    }
    public void clear() {
        m_directBlockingChecker.clear();
    }
    public void computeBlocking(boolean finalChance) {
        Node node=m_tableau.getFirstTableauNode();
        while (node!=null) {
            if (node.isActive()) {
                Node parent=node.getParent();
                if (parent==null)
                    node.setBlocked(null,false);
                else if (parent.isBlocked())
                    node.setBlocked(parent,false);
                else if (m_useBlockingSignatureCache && m_blockingSignatureCache!=null && m_blockingSignatureCache.containsSignature(node))
                    node.setBlocked(Node.SIGNATURE_CACHE_BLOCKER,true);
                else
                    checkParentBlocking(node);
            }
            node=node.getNextTableauNode();
        }
    }
    public boolean computeIsBlocked(Node node) {
        throw new UnsupportedOperationException("Unsupported operation: Ancestor blocking cannot be used with a lazy expansion strategy. ");
    }
    protected final void checkParentBlocking(Node node) {
        Node blocker=node.getParent();
        while (blocker!=null) {
            if (m_directBlockingChecker.isBlockedBy(blocker,node)) {
                node.setBlocked(blocker,true);
                break;
            }
            blocker=blocker.getParent();
        }
    }
    public boolean isPermanentAssertion(Concept concept,Node node) {
        return true;
    }
    public boolean isPermanentAssertion(DataRange range,Node node) {
        return true;
    }
    public void assertionAdded(Concept concept,Node node,boolean isCore) {
        m_directBlockingChecker.assertionAdded(concept,node,isCore);
    }
    public void assertionCoreSet(Concept concept,Node node) {
    }
    public void assertionRemoved(Concept concept,Node node,boolean isCore) {
        m_directBlockingChecker.assertionRemoved(concept,node,isCore);
    }
    public void assertionAdded(DataRange range,Node node,boolean isCore) {
        m_directBlockingChecker.assertionAdded(range,node,isCore);
    }
    public void assertionCoreSet(DataRange range,Node node) {
    }
    public void assertionRemoved(DataRange range,Node node,boolean isCore) {
        m_directBlockingChecker.assertionRemoved(range,node,isCore);
    }
    public void assertionAdded(AtomicRole atomicRole,Node nodeFrom,Node nodeTo,boolean isCore) {
        m_directBlockingChecker.assertionAdded(atomicRole,nodeFrom,nodeTo,isCore);
    }
    public void assertionCoreSet(AtomicRole atomicRole,Node nodeFrom,Node nodeTo) {
        m_directBlockingChecker.assertionAdded(atomicRole,nodeFrom,nodeTo,true);
    }
    public void assertionRemoved(AtomicRole atomicRole,Node nodeFrom,Node nodeTo,boolean isCore) {
        m_directBlockingChecker.assertionRemoved(atomicRole,nodeFrom,nodeTo,isCore);
    }
    public void nodesMerged(Node mergeFrom,Node mergeInto) {
        m_directBlockingChecker.nodesMerged(mergeFrom,mergeInto);
    }
    public void nodesUnmerged(Node mergeFrom,Node mergeInto) {
        m_directBlockingChecker.nodesUnmerged(mergeFrom,mergeInto);
    }
    public void nodeStatusChanged(Node node) {
    }
    public void nodeInitialized(Node node) {
        m_directBlockingChecker.nodeInitialized(node);
    }
    public void nodeDestroyed(Node node) {
        m_directBlockingChecker.nodeDestroyed(node);
    }
    public void modelFound() {
        if (m_useBlockingSignatureCache && m_blockingSignatureCache!=null) {
            // Since we've found a model, we know what is blocked and what is not, so we don't need to update the blocking status.
            Node node=m_tableau.getFirstTableauNode();
            while (node!=null) {
                if (node.isActive() && !node.isBlocked() && m_directBlockingChecker.canBeBlocker(node))
                    m_blockingSignatureCache.addNode(node);
                node=node.getNextTableauNode();
            }
        }
    }
    public boolean isExact() {
        return true;
    }
    public void dlClauseBodyCompiled(List workers,DLClause dlClause,List variables,Object[] valuesBuffer,boolean[] coreVariables) {
        for (int i=0;i