/*- * See the file LICENSE for redistribution information. * * Copyright (c) 2000, 2010 Oracle and/or its affiliates. All rights reserved. * */ package com.sleepycat.bind.serial; import com.sleepycat.bind.tuple.TupleBase; import com.sleepycat.bind.tuple.TupleInput; import com.sleepycat.bind.tuple.TupleOutput; import com.sleepycat.db.DatabaseEntry; import com.sleepycat.db.ForeignKeyNullifier; import com.sleepycat.db.SecondaryDatabase; import com.sleepycat.db.SecondaryKeyCreator; /** * A abstract key creator that uses a tuple key and a serial data entry. This * class takes care of serializing and deserializing the data entry, and * converting the key entry to/from {@link TupleInput} and {@link TupleOutput} * objects. * The following abstract method must be implemented by a concrete subclass * to create the index key using these objects * *

If {@link com.sleepycat.db.ForeignKeyDeleteAction#NULLIFY} was * specified when opening the secondary database, the following method must be * overridden to nullify the foreign index key. If NULLIFY was not specified, * this method need not be overridden.

* * * @see Class Evolution * * @author Mark Hayes */ public abstract class TupleSerialKeyCreator extends TupleBase implements SecondaryKeyCreator, ForeignKeyNullifier { protected SerialBinding dataBinding; /** * Creates a tuple-serial key creator. * * @param classCatalog is the catalog to hold shared class information and * for a database should be a {@link StoredClassCatalog}. * * @param dataClass is the data base class. */ public TupleSerialKeyCreator(ClassCatalog classCatalog, Class dataClass) { this(new SerialBinding(classCatalog, dataClass)); } /** * Creates a tuple-serial key creator. * * @param dataBinding is the data binding. */ public TupleSerialKeyCreator(SerialBinding dataBinding) { this.dataBinding = dataBinding; } // javadoc is inherited public boolean createSecondaryKey(SecondaryDatabase db, DatabaseEntry primaryKeyEntry, DatabaseEntry dataEntry, DatabaseEntry indexKeyEntry) { TupleOutput output = getTupleOutput(null); TupleInput primaryKeyInput = entryToInput(primaryKeyEntry); D dataInput = dataBinding.entryToObject(dataEntry); if (createSecondaryKey(primaryKeyInput, dataInput, output)) { outputToEntry(output, indexKeyEntry); return true; } else { return false; } } // javadoc is inherited public boolean nullifyForeignKey(SecondaryDatabase db, DatabaseEntry dataEntry) { D data = dataBinding.entryToObject(dataEntry); data = nullifyForeignKey(data); if (data != null) { dataBinding.objectToEntry(data, dataEntry); return true; } else { return false; } } /** * Creates the index key entry from primary key tuple entry and * deserialized data entry. * * @param primaryKeyInput is the {@link TupleInput} for the primary key * entry, or null if no primary key entry is used to construct the index * key. * * @param dataInput is the deserialized data entry, or null if no data * entry is used to construct the index key. * * @param indexKeyOutput is the destination index key tuple. For index * keys which are optionally present, no tuple entry should be output to * indicate that the key is not present or null. * * @return true if a key was created, or false to indicate that the key is * not present. */ public abstract boolean createSecondaryKey(TupleInput primaryKeyInput, D dataInput, TupleOutput indexKeyOutput); /** * Clears the index key in the deserialized data entry. * *

On entry the data parameter contains the index key to be cleared. It * should be changed by this method such that {@link #createSecondaryKey} * will return false. Other fields in the data object should remain * unchanged.

* * @param data is the source and destination deserialized data * entry. * * @return the destination data object, or null to indicate that the * key is not present and no change is necessary. The data returned may * be the same object passed as the data parameter or a newly created * object. */ public D nullifyForeignKey(D data) { return null; } }