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449 lines
15 KiB
449 lines
15 KiB
/**
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* HandleMap
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* Copyright 2008 by Michael Peter Christen; mc@yacy.net, Frankfurt a. M., Germany
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* First released 08.04.2008 at http://yacy.net
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*
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* $LastChangedDate$
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* $LastChangedRevision$
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* $LastChangedBy$
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public License
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* along with this program in the file lgpl21.txt
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* If not, see <http://www.gnu.org/licenses/>.
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*/
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package net.yacy.kelondro.index;
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import java.io.BufferedInputStream;
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import java.io.BufferedOutputStream;
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import java.io.File;
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import java.io.FileInputStream;
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import java.io.FileOutputStream;
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import java.io.IOException;
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import java.io.InputStream;
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import java.io.OutputStream;
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import java.util.ArrayList;
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import java.util.Iterator;
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import java.util.List;
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import java.util.concurrent.BlockingQueue;
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import java.util.concurrent.Callable;
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import java.util.concurrent.ExecutionException;
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import java.util.concurrent.ExecutorService;
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import java.util.concurrent.Executors;
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import java.util.concurrent.Future;
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import java.util.concurrent.LinkedBlockingQueue;
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import java.util.zip.GZIPInputStream;
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import java.util.zip.GZIPOutputStream;
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import net.yacy.cora.order.ByteOrder;
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import net.yacy.cora.order.CloneableIterator;
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import net.yacy.kelondro.logging.Log;
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public final class HandleMap implements Iterable<Row.Entry> {
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private final Row rowdef;
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private RAMIndexCluster index;
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/**
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* initialize a HandleMap
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* This may store a key and a long value for each key.
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* The class is used as index for database files
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* @param keylength
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* @param objectOrder
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* @param space
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*/
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public HandleMap(final int keylength, final ByteOrder objectOrder, final int idxbytes, final int expectedspace, final String name) {
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this.rowdef = new Row(new Column[]{new Column("key", Column.celltype_binary, Column.encoder_bytes, keylength, "key"), new Column("long c-" + idxbytes + " {b256}")}, objectOrder);
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this.index = new RAMIndexCluster(name, this.rowdef, spread(expectedspace));
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}
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/**
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* initialize a HandleMap with the content of a dumped index
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* @param keylength
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* @param objectOrder
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* @param file
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* @throws IOException
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* @throws RowSpaceExceededException
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*/
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public HandleMap(final int keylength, final ByteOrder objectOrder, final int idxbytes, final File file) throws IOException, RowSpaceExceededException {
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this(keylength, objectOrder, idxbytes, (int) (file.length() / (keylength + idxbytes)), file.getAbsolutePath());
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// read the index dump and fill the index
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InputStream is;
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try {
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is = new BufferedInputStream(new FileInputStream(file), 1024 * 1024);
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} catch (final OutOfMemoryError e) {
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is = new FileInputStream(file);
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}
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if (file.getName().endsWith(".gz")) is = new GZIPInputStream(is);
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final byte[] a = new byte[keylength + idxbytes];
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int c;
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Row.Entry entry;
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while (true) {
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c = is.read(a);
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if (c <= 0) break;
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entry = this.rowdef.newEntry(a); // may be null if a is not well-formed
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if (entry != null) this.index.addUnique(entry);
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}
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is.close();
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is = null;
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assert this.index.size() == file.length() / (keylength + idxbytes);
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trim();
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}
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public void trim() {
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this.index.trim();
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}
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public long mem() {
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return this.index.mem();
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}
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private static final int spread(final int expectedspace) {
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return Math.min(Runtime.getRuntime().availableProcessors(), Math.max(Runtime.getRuntime().availableProcessors(), expectedspace / 8000));
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}
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public final int[] saturation() {
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int keym = 0;
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int valm = this.rowdef.width(1);
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int valc;
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byte[] lastk = null, thisk;
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for (final Row.Entry row: this) {
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// check length of key
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if (lastk == null) {
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lastk = row.bytes();
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} else {
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thisk = row.bytes();
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keym = Math.max(keym, eq(lastk, thisk));
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lastk = thisk;
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}
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// check length of value
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for (valc = this.rowdef.primaryKeyLength; valc < this.rowdef.objectsize; valc++) {
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if (lastk[valc] != 0) break;
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} // valc is the number of leading zeros plus primaryKeyLength
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valm = Math.min(valm, valc - this.rowdef.primaryKeyLength); // valm is the number of leading zeros
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}
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return new int[]{keym, this.rowdef.width(1) - valm};
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}
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private final int eq(final byte[] a, final byte[] b) {
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for (int i = 0; i < a.length; i++) {
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if (a[i] != b[i]) return i;
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}
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return a.length;
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}
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/**
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* write a dump of the index to a file. All entries are written in order
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* which makes it possible to read them again in a fast way
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* @param file
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* @return the number of written entries
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* @throws IOException
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*/
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public final int dump(final File file) throws IOException {
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// we must use an iterator from the combined index, because we need the entries sorted
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// otherwise we could just write the byte[] from the in kelondroRowSet which would make
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// everything much faster, but this is not an option here.
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final File tmp = new File(file.getParentFile(), file.getName() + ".prt");
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final Iterator<Row.Entry> i = this.index.rows(true, null);
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OutputStream os;
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try {
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os = new BufferedOutputStream(new FileOutputStream(tmp), 4 * 1024 * 1024);
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} catch (final OutOfMemoryError e) {
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os = new FileOutputStream(tmp);
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}
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if (file.getName().endsWith(".gz")) os = new GZIPOutputStream(os);
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int c = 0;
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while (i.hasNext()) {
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os.write(i.next().bytes());
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c++;
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}
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os.flush();
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os.close();
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tmp.renameTo(file);
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assert file.exists() : file.toString();
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assert !tmp.exists() : tmp.toString();
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return c;
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}
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public final Row row() {
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return this.index.row();
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}
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public final void clear() {
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this.index.clear();
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}
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public final byte[] smallestKey() {
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return this.index.smallestKey();
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}
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public final byte[] largestKey() {
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return this.index.largestKey();
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}
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public final boolean has(final byte[] key) {
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assert (key != null);
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return this.index.has(key);
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}
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public final long get(final byte[] key) {
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assert (key != null);
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final Row.Entry indexentry = this.index.get(key, false);
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if (indexentry == null) return -1;
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return indexentry.getColLong(1);
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}
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/**
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* Adds the key-value pair to the index.
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* @param key the index key
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* @param l the value
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* @return the previous entry of the index
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* @throws IOException
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* @throws RowSpaceExceededException
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*/
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public final long put(final byte[] key, final long l) throws RowSpaceExceededException {
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assert l >= 0 : "l = " + l;
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assert (key != null);
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final Row.Entry newentry = this.rowdef.newEntry();
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newentry.setCol(0, key);
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newentry.setCol(1, l);
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final Row.Entry oldentry = this.index.replace(newentry);
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if (oldentry == null) return -1;
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return oldentry.getColLong(1);
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}
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public final void putUnique(final byte[] key, final long l) throws RowSpaceExceededException {
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assert l >= 0 : "l = " + l;
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assert (key != null);
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final Row.Entry newentry = this.rowdef.newEntry();
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newentry.setCol(0, key);
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newentry.setCol(1, l);
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this.index.addUnique(newentry);
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}
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public final long add(final byte[] key, final long a) throws RowSpaceExceededException {
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assert key != null;
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assert a > 0; // it does not make sense to add 0. If this occurres, it is a performance issue
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synchronized (this.index) {
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final Row.Entry indexentry = this.index.get(key, true);
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if (indexentry == null) {
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final Row.Entry newentry = this.rowdef.newEntry();
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newentry.setCol(0, key);
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newentry.setCol(1, a);
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this.index.addUnique(newentry);
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return 1;
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}
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final long i = indexentry.getColLong(1) + a;
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indexentry.setCol(1, i);
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this.index.put(indexentry);
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return i;
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}
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}
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public final long inc(final byte[] key) throws RowSpaceExceededException {
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return add(key, 1);
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}
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public final long dec(final byte[] key) throws RowSpaceExceededException {
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return add(key, -1);
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}
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public final ArrayList<long[]> removeDoubles() throws RowSpaceExceededException {
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final ArrayList<long[]> report = new ArrayList<long[]>();
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long[] is;
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int c;
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long l;
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final int initialSize = size();
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final ArrayList<RowCollection> rd = this.index.removeDoubles();
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for (final RowCollection rowset: rd) {
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is = new long[rowset.size()];
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c = 0;
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for (final Row.Entry e: rowset) {
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l = e.getColLong(1);
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assert l < initialSize : "l = " + l + ", initialSize = " + initialSize;
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is[c++] = l;
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}
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report.add(is);
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}
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return report;
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}
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public final ArrayList<byte[]> top(final int count) {
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final List<Row.Entry> list0 = this.index.top(count);
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final ArrayList<byte[]> list = new ArrayList<byte[]>();
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for (final Row.Entry entry: list0) {
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list.add(entry.getPrimaryKeyBytes());
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}
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return list;
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}
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public final synchronized long remove(final byte[] key) {
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assert (key != null);
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final Row.Entry indexentry;
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synchronized (this.index) {
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final boolean exist = this.index.has(key);
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if (!exist) return -1;
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final int s = this.index.size();
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final long m = this.index.mem();
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indexentry = this.index.remove(key);
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assert (indexentry != null);
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assert this.index.size() < s : "s = " + s + ", index.size() = " + this.index.size();
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assert this.index.mem() <= m : "m = " + m + ", index.mem() = " + this.index.mem();
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}
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if (indexentry == null) return -1;
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return indexentry.getColLong(1);
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}
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public final long removeone() {
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final Row.Entry indexentry = this.index.removeOne();
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if (indexentry == null) return -1;
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return indexentry.getColLong(1);
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}
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public final int size() {
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return this.index.size();
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}
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public final boolean isEmpty() {
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return this.index.isEmpty();
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}
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public final CloneableIterator<byte[]> keys(final boolean up, final byte[] firstKey) {
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return this.index.keys(up, firstKey);
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}
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public final CloneableIterator<Row.Entry> rows(final boolean up, final byte[] firstKey) {
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return this.index.rows(up, firstKey);
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}
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public final void close() {
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this.index.close();
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this.index = null;
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}
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/**
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* this method creates a concurrent thread that can take entries that are used to initialize the map
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* it should be used when a HandleMap is initialized when a file is read. Concurrency of FileIO and
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* map creation will speed up the initialization process.
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* @param keylength
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* @param objectOrder
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* @param space
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* @param bufferSize
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* @return
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*/
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public final static initDataConsumer asynchronusInitializer(final String name, final int keylength, final ByteOrder objectOrder, final int idxbytes, final int expectedspace) {
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final initDataConsumer initializer = new initDataConsumer(new HandleMap(keylength, objectOrder, idxbytes, expectedspace, name));
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final ExecutorService service = Executors.newSingleThreadExecutor();
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initializer.setResult(service.submit(initializer));
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service.shutdown();
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return initializer;
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}
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private final static class entry {
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public byte[] key;
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public long l;
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public entry(final byte[] key, final long l) {
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this.key = key;
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this.l = l;
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}
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}
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protected static final entry poisonEntry = new entry(new byte[0], 0);
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public final static class initDataConsumer implements Callable<HandleMap> {
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private final BlockingQueue<entry> cache;
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private final HandleMap map;
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private Future<HandleMap> result;
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public initDataConsumer(final HandleMap map) {
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this.map = map;
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this.cache = new LinkedBlockingQueue<entry>();
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}
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protected final void setResult(final Future<HandleMap> result) {
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this.result = result;
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}
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/**
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* hand over another entry that shall be inserted into the HandleMap with an addl method
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* @param key
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* @param l
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*/
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public final void consume(final byte[] key, final long l) {
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while (true) try {
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this.cache.put(new entry(key, l));
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break;
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} catch (final InterruptedException e) {
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continue;
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}
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}
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/**
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* to signal the initialization thread that no more entries will be submitted with consumer()
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* this method must be called. The process will not terminate if this is not called before.
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*/
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public final void finish() {
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while (true) try {
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this.cache.put(poisonEntry);
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break;
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} catch (final InterruptedException e) {
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continue;
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}
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}
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/**
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* this must be called after a finish() was called. this method blocks until all entries
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* had been processed, and the content was sorted. It returns the HandleMap
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* that the user wanted to initialize
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* @return
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* @throws InterruptedException
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* @throws ExecutionException
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*/
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public final HandleMap result() throws InterruptedException, ExecutionException {
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return this.result.get();
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}
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@Override
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public final HandleMap call() throws IOException {
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try {
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finishloop: while (true) {
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entry c;
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try {
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while ((c = this.cache.take()) != poisonEntry) {
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this.map.putUnique(c.key, c.l);
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}
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break finishloop;
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} catch (final InterruptedException e) {
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continue finishloop;
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}
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}
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} catch (final RowSpaceExceededException e) {
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Log.logException(e);
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}
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return this.map;
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}
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public synchronized void close() {
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this.map.close();
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}
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}
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@Override
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public Iterator<Row.Entry> iterator() {
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return rows(true, null);
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}
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}
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