// Copyright 2012 Georg-August-Universität Göttingen, Germany // // Licensed 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. package de.ugoe.cs.autoquest.tasktrees.temporalrelation; import java.io.IOException; import java.io.ObjectInputStream; import java.util.HashMap; import de.ugoe.cs.autoquest.tasktrees.taskequality.TaskEquality; import de.ugoe.cs.autoquest.tasktrees.taskequality.TaskEqualityRuleManager; import de.ugoe.cs.autoquest.tasktrees.treeifc.ITask; import de.ugoe.cs.autoquest.tasktrees.treeifc.ITaskInstance; import de.ugoe.cs.autoquest.usageprofiles.SymbolComparator; /** * TODO comment */ public class TaskInstanceComparator implements SymbolComparator { /** */ private static final long serialVersionUID = 1L; /** */ private static final int MAX_BUFFER_SIZE = 2 * 1024 * 1024; /** */ private TaskEquality minimalNodeEquality; /** */ private transient Comparer comparer; /** */ private transient Comparer lexicalComparer; /** */ private transient HashMap equalityBuffer = new HashMap(); /** */ private transient HashMap lexicalEqualityBuffer; /** * */ public TaskInstanceComparator(TaskEquality minimalNodeEquality) { this.minimalNodeEquality = minimalNodeEquality; init(); } /* (non-Javadoc) * @see SymbolComparator#equals(Object, Object) */ @Override public boolean equals(ITaskInstance taskInstance1, ITaskInstance taskInstance2) { return equals(taskInstance1.getTask(), taskInstance2.getTask()); } /** * */ public boolean equals(ITask task1, ITask task2) { Boolean result; if (task1 != task2) { //if ((task1 instanceof IEventTask) && (task2 instanceof IEventTask)) { long key = ((long) System.identityHashCode(task1)) << 32; key += System.identityHashCode(task2); result = equalityBuffer.get(key); if (result == null) { result = comparer.compare(task1, task2); if (equalityBuffer.size() < MAX_BUFFER_SIZE) { equalityBuffer.put(key, result); } } /*} else { result = false; }*/ } else { result = true; } return result; } /** * */ public boolean areLexicallyEqual(ITask task1, ITask task2) { Boolean result; if (task1 != task2) { long key = ((long) System.identityHashCode(task1)) << 32; key += System.identityHashCode(task2); result = lexicalEqualityBuffer.get(key); if (result == null) { result = lexicalComparer.compare(task1, task2); if (equalityBuffer.size() < MAX_BUFFER_SIZE) { lexicalEqualityBuffer.put(key, result); } } } else { result = true; } return result; } /** *

* TODO: comment *

* */ public void clearBuffers() { equalityBuffer.clear(); init(); } /** * */ private void init() { if (minimalNodeEquality == TaskEquality.LEXICALLY_EQUAL) { comparer = new LexicalComparer(); } else if (minimalNodeEquality == TaskEquality.SYNTACTICALLY_EQUAL) { comparer = new SyntacticalComparer(); } else if (minimalNodeEquality == TaskEquality.SEMANTICALLY_EQUAL) { comparer = new SemanticalComparer(); } else { comparer = new DefaultComparer(this.minimalNodeEquality); } if (minimalNodeEquality == TaskEquality.LEXICALLY_EQUAL) { lexicalComparer = comparer; lexicalEqualityBuffer = equalityBuffer; } else { lexicalComparer = new LexicalComparer(); lexicalEqualityBuffer = new HashMap(); } } /** *

* deserialize this object and reinitialize the buffers *

*/ private void readObject(ObjectInputStream in) throws IOException, ClassNotFoundException { in.defaultReadObject(); init(); } /** * */ private static interface Comparer { /** * */ boolean compare(ITask task1, ITask task2); } /** * */ private static class LexicalComparer implements Comparer { /** * */ public boolean compare(ITask task1, ITask task2) { return TaskEqualityRuleManager.getInstance().areLexicallyEqual(task1, task2); } } /** * */ private static class SyntacticalComparer implements Comparer { /** * */ public boolean compare(ITask task1, ITask task2) { return TaskEqualityRuleManager.getInstance().areSyntacticallyEqual(task1, task2); } } /** * */ private static class SemanticalComparer implements Comparer { /** * */ public boolean compare(ITask task1, ITask task2) { return TaskEqualityRuleManager.getInstance().areSemanticallyEqual(task1, task2); } } /** * */ private static class DefaultComparer implements Comparer { /** *

* the minimal task equality two identified sublists need to have to consider them as equal *

*/ private TaskEquality minimalNodeEquality; /** * */ public DefaultComparer(TaskEquality minimalNodeEquality) { this.minimalNodeEquality = minimalNodeEquality; } /** * */ public boolean compare(ITask task1, ITask task2) { return TaskEqualityRuleManager.getInstance().areAtLeastEqual (task1, task2, minimalNodeEquality); } } }