/*- * See the file LICENSE for redistribution information. * * Copyright (c) 2002, 2010 Oracle and/or its affiliates. All rights reserved. * * $Id$ */ package com.sleepycat.db; import com.sleepycat.db.internal.DbConstants; import com.sleepycat.db.internal.DbUtil; import java.nio.ByteBuffer; /** A DatabaseEntry that holds multiple key/data pairs returned by a single {@link com.sleepycat.db.Database Database} or {@link com.sleepycat.db.Cursor Cursor} get call. */ public class MultipleKeyNIODataEntry extends MultipleEntry { /** Construct an entry with no data. The object must be configured before use with the {@link com.sleepycat.db.DatabaseEntry#setDataNIO DatabaseEntry.setDataNIO} method. */ public MultipleKeyNIODataEntry() { super(null); } /** Construct an entry with a given java.nio.ByteBuffer. The offset is set to zero; the size is set to the length of the buffer.

@param data ByteBuffer wrapped by the entry. */ public MultipleKeyNIODataEntry(final ByteBuffer data) { super(data); } /** * Return the bulk retrieval flag and reset the entry position so that the * next set of key/data can be returned. */ /* package */ int getMultiFlag() { pos = 0; return DbConstants.DB_MULTIPLE_KEY; } /** Get the next key/data pair in the returned set. This method may only be called after a successful call to a {@link com.sleepycat.db.Database Database} or {@link com.sleepycat.db.Cursor Cursor} get method with this object as the data parameter.

@param key an entry that is set to refer to the next key element in the returned set.

@param data an entry that is set to refer to the next data element in the returned set.

@return indicates whether a value was found. A return of false indicates that the end of the set was reached. */ public boolean next(final DatabaseEntry key, final DatabaseEntry data) { byte[] intarr; int saveoffset; if (pos == 0) pos = ulen - INT32SZ; // pull the offsets out of the ByteBuffer. if(this.data_nio.capacity() < 16) return false; intarr = new byte[16]; saveoffset = this.data_nio.position(); this.data_nio.position(pos - INT32SZ*3); this.data_nio.get(intarr, 0, 16); this.data_nio.position(saveoffset); final int keyoff = DbUtil.array2int(intarr, 12); // crack out the key and data offsets and lengths. if (keyoff < 0) return false; final int keysz = DbUtil.array2int(intarr, 8); final int dataoff = DbUtil.array2int(intarr, 4); final int datasz = DbUtil.array2int(intarr, 0); // move the position to one before the last offset read. pos -= INT32SZ*4; key.setDataNIO(this.data_nio); key.setOffset(keyoff); key.setSize(keysz); data.setDataNIO(this.data_nio); data.setOffset(dataoff); data.setSize(datasz); return true; } }