/* * Copyright (C) 2005-2007 Alfresco Software Limited. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * This program 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 General Public License for more details. * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * As a special exception to the terms and conditions of version 2.0 of * the GPL, you may redistribute this Program in connection with Free/Libre * and Open Source Software ("FLOSS") applications as described in Alfresco's * FLOSS exception. You should have recieved a copy of the text describing * the FLOSS exception, and it is also available here: * http://www.alfresco.com/legal/licensing" */ package org.alfresco.repo.domain.hibernate; import java.io.Serializable; import java.util.concurrent.locks.ReentrantReadWriteLock; import java.util.concurrent.locks.ReentrantReadWriteLock.ReadLock; import java.util.concurrent.locks.ReentrantReadWriteLock.WriteLock; import org.alfresco.repo.domain.ChildAssoc; import org.alfresco.repo.domain.Node; import org.alfresco.repo.domain.QNameDAO; import org.alfresco.service.cmr.repository.ChildAssociationRef; import org.alfresco.service.namespace.QName; import org.alfresco.util.EqualsHelper; /** * @author Derek Hulley */ public class ChildAssocImpl implements ChildAssoc, Serializable { private static final long serialVersionUID = -8993272236626580410L; private Long id; private Long version; private Node parent; private Node child; private Long typeQNameId; private Long qnameNamespaceId; private String qnameLocalName; private String childNodeName; private long childNodeNameCrc; private boolean isPrimary; private int index; private transient ReadLock refReadLock; private transient WriteLock refWriteLock; private transient ChildAssociationRef childAssocRef; private transient QName typeQName; private transient QName qname; public ChildAssocImpl() { ReentrantReadWriteLock lock = new ReentrantReadWriteLock(); refReadLock = lock.readLock(); refWriteLock = lock.writeLock(); index = -1; // The index is irrelevant } public void buildAssociation(Node parentNode, Node childNode) { // add the forward associations this.setParent(parentNode); this.setChild(childNode); } public void removeAssociation() { } /** * {@inheritDoc} *

* This method is thread-safe and lazily creates the required references, if required. */ public ChildAssociationRef getChildAssocRef(QNameDAO qnameDAO) { boolean trashReference = false; // first check if it is available refReadLock.lock(); try { if (childAssocRef != null) { // double check that the parent and child node references match those of our reference if (childAssocRef.getParentRef() != parent.getNodeRef() || childAssocRef.getChildRef() != child.getNodeRef()) { trashReference = true; } else { // we are sure that the reference is correct return childAssocRef; } } } finally { refReadLock.unlock(); } // get write lock refWriteLock.lock(); try { // double check if (childAssocRef == null || trashReference) { if (typeQName == null) { typeQName = qnameDAO.getQName(this.typeQNameId).getSecond(); } if (qname == null ) { String qnameNamespace = qnameDAO.getNamespace(qnameNamespaceId).getSecond(); qname = QName.createQName(qnameNamespace, qnameLocalName); } childAssocRef = new ChildAssociationRef( typeQName, parent.getNodeRef(), qname, child.getNodeRef(), this.isPrimary, index); } return childAssocRef; } finally { refWriteLock.unlock(); } } /** * {@inheritDoc} */ public QName getTypeQName(QNameDAO qnameDAO) { refReadLock.lock(); try { if (typeQName != null) { return typeQName; } } finally { refReadLock.unlock(); } refWriteLock.lock(); try { typeQName = qnameDAO.getQName(typeQNameId).getSecond(); return typeQName; } finally { refWriteLock.unlock(); } } public void setTypeQName(QNameDAO qnameDAO, QName typeQName) { Long typeQNameId = qnameDAO.getOrCreateQName(typeQName).getFirst(); refWriteLock.lock(); try { setTypeQNameId(typeQNameId); } finally { refWriteLock.unlock(); } } /** * {@inheritDoc} *

* This method is thread-safe and lazily creates the required references, if required. */ public QName getQName(QNameDAO qnameDAO) { // first check if it is available refReadLock.lock(); try { if (qname != null) { return qname; } } finally { refReadLock.unlock(); } // get write lock refWriteLock.lock(); try { // double check if (qname == null ) { String qnameNamespace = qnameDAO.getNamespace(qnameNamespaceId).getSecond(); qname = QName.createQName(qnameNamespace, qnameLocalName); } return qname; } finally { refWriteLock.unlock(); } } public void setQName(QNameDAO qnameDAO, QName qname) { String assocQNameNamespace = qname.getNamespaceURI(); String assocQNameLocalName = qname.getLocalName(); Long assocQNameNamespaceId = qnameDAO.getOrCreateNamespace(assocQNameNamespace).getFirst(); // get write lock refWriteLock.lock(); try { setQnameNamespaceId(assocQNameNamespaceId); setQnameLocalName(assocQNameLocalName); } finally { refWriteLock.unlock(); } } public boolean equals(Object obj) { if (obj == null) { return false; } else if (obj == this) { return true; } else if (!(obj instanceof ChildAssoc)) { return false; } ChildAssoc that = (ChildAssoc) obj; if (EqualsHelper.nullSafeEquals(id, that.getId())) { return true; } else { return (EqualsHelper.nullSafeEquals(this.getParent(), that.getParent()) && EqualsHelper.nullSafeEquals(this.typeQNameId, that.getTypeQNameId()) && EqualsHelper.nullSafeEquals(this.getChild(), that.getChild()) && EqualsHelper.nullSafeEquals(this.qnameLocalName, that.getQnameLocalName()) && EqualsHelper.nullSafeEquals(this.qnameNamespaceId, that.getQnameNamespaceId()) ); } } public int hashCode() { return (child == null ? 0 : child.hashCode()); } public String toString() { StringBuffer sb = new StringBuffer(32); sb.append("ChildAssoc") .append("[ id=").append(id) .append(", parent=").append(parent.getId()) .append(", child=").append(child.getId()) .append(", child name=").append(childNodeName) .append(", child name crc=").append(childNodeNameCrc) .append(", assoc type=").append(typeQNameId) .append(", assoc qname ns=").append(qnameNamespaceId) .append(", assoc qname localname=").append(qnameLocalName) .append(", isPrimary=").append(isPrimary) .append("]"); return sb.toString(); } /** * Orders the child associations by ID. A smaller ID has a higher priority. * This may change once we introduce a changeable index against which to order. */ public int compareTo(ChildAssoc another) { if (this == another) { return 0; } int thisIndex = this.getIndex(); int anotherIndex = another.getIndex(); Long thisId = this.getId(); Long anotherId = another.getId(); if (thisId == null) // this ID has not been set, make this instance greater { return -1; } else if (anotherId == null) // other ID has not been set, make this instance lesser { return 1; } else if (thisIndex == anotherIndex) // use the explicit index { return thisId.compareTo(anotherId); } else // fallback on order of creation { return (thisIndex > anotherIndex) ? 1 : -1; // a lower index, make this instance lesser } } public Long getId() { return id; } /** * For Hibernate use */ @SuppressWarnings("unused") private void setId(Long id) { this.id = id; } public Long getVersion() { return version; } /** * For Hibernate use */ @SuppressWarnings("unused") private void setVersion(Long version) { this.version = version; } public Node getParent() { return parent; } /** * For Hibernate use */ private void setParent(Node parentNode) { refWriteLock.lock(); try { this.parent = parentNode; this.childAssocRef = null; } finally { refWriteLock.unlock(); } } public Node getChild() { return child; } /** * For Hibernate use */ private void setChild(Node node) { refWriteLock.lock(); try { child = node; this.childAssocRef = null; } finally { refWriteLock.unlock(); } } public Long getTypeQNameId() { return typeQNameId; } public void setTypeQNameId(Long typeQNameId) { refWriteLock.lock(); try { this.typeQNameId = typeQNameId; this.childAssocRef = null; this.typeQName = null; } finally { refWriteLock.unlock(); } } public Long getQnameNamespaceId() { return qnameNamespaceId; } public void setQnameNamespaceId(Long qnameNamespaceId) { refWriteLock.lock(); try { this.qnameNamespaceId = qnameNamespaceId; this.childAssocRef = null; this.qname = null; } finally { refWriteLock.unlock(); } } public String getQnameLocalName() { return qnameLocalName; } public void setQnameLocalName(String qnameLocalName) { refWriteLock.lock(); try { this.qnameLocalName = qnameLocalName; this.childAssocRef = null; this.qname = null; } finally { refWriteLock.unlock(); } } public String getChildNodeName() { return childNodeName; } public void setChildNodeName(String childNodeName) { this.childNodeName = childNodeName; } public long getChildNodeNameCrc() { return childNodeNameCrc; } public void setChildNodeNameCrc(long crc) { this.childNodeNameCrc = crc; } public boolean getIsPrimary() { return isPrimary; } public void setIsPrimary(boolean isPrimary) { refWriteLock.lock(); try { this.isPrimary = isPrimary; this.childAssocRef = null; } finally { refWriteLock.unlock(); } } public int getIndex() { return index; } public void setIndex(int index) { refWriteLock.lock(); try { this.index = index; this.childAssocRef = null; } finally { refWriteLock.unlock(); } } }