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yacy_search_server/source/net/yacy/kelondro/blob/Compressor.java

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9.6 KiB

// Compressor.java
// (C) 2008 by Michael Peter Christen; mc@yacy.net, Frankfurt a. M., Germany
// first published 17.10.2008 on http://yacy.net
//
// This is a part of YaCy, a peer-to-peer based web search engine
//
// $LastChangedDate: 2006-04-02 22:40:07 +0200 (So, 02 Apr 2006) $
// $LastChangedRevision: 1986 $
// $LastChangedBy: orbiter $
//
// LICENSE
//
// 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
package net.yacy.kelondro.blob;
import java.io.ByteArrayInputStream;
import java.io.ByteArrayOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.util.HashMap;
import java.util.Map;
import java.util.zip.GZIPInputStream;
import java.util.zip.GZIPOutputStream;
import net.yacy.kelondro.logging.Log;
import net.yacy.kelondro.order.ByteOrder;
import net.yacy.kelondro.order.CloneableIterator;
import net.yacy.kelondro.util.ByteArray;
public class Compressor implements BLOB {
static byte[] gzipMagic = {(byte) 'z', (byte) '|'}; // magic for gzip-encoded content
static byte[] plainMagic = {(byte) 'p', (byte) '|'}; // magic for plain content (no encoding)
private BLOB backend;
private HashMap<String, byte[]> buffer; // entries which are not yet compressed, format is RAW (without magic)
private long bufferlength;
private long maxbufferlength;
private int cdr;
public Compressor(BLOB backend, long buffersize) {
this.backend = backend;
this.maxbufferlength = buffersize;
this.cdr = 0;
initBuffer();
}
public String name() {
return this.backend.name();
}
public synchronized void clear() throws IOException {
initBuffer();
this.backend.clear();
}
private void initBuffer() {
this.buffer = new HashMap<String, byte[]>();
this.bufferlength = 0;
}
public ByteOrder ordering() {
return this.backend.ordering();
}
public synchronized void close(boolean writeIDX) {
// no more thread is running, flush all queues
try {
flushAll();
} catch (IOException e) {
Log.logSevere("Compressor", "", e);
}
this.backend.close(writeIDX);
}
private byte[] compress(byte[] b) {
int l = b.length;
if (l < 100) return markWithPlainMagic(b);
byte[] bb = compressAddMagic(b);
if (bb.length >= l) return markWithPlainMagic(b);
return bb;
}
private byte[] compressAddMagic(byte[] b) {
// compress a byte array and add a leading magic for the compression
try {
cdr++;
//System.out.print("/(" + cdr + ")"); // DEBUG
final ByteArrayOutputStream baos = new ByteArrayOutputStream(b.length / 5);
baos.write(gzipMagic);
final OutputStream os = new GZIPOutputStream(baos, 512);
os.write(b);
os.close();
baos.close();
return baos.toByteArray();
} catch (IOException e) {
Log.logSevere("Compressor", "", e);
return null;
}
}
private byte[] markWithPlainMagic(byte[] b) {
//System.out.print("+"); // DEBUG
byte[] r = new byte[b.length + 2];
r[0] = plainMagic[0];
r[1] = plainMagic[1];
System.arraycopy(b, 0, r, 2, b.length);
return r;
}
private byte[] decompress(byte[] b) {
// use a magic in the head of the bytes to identify compression type
if (b == null) return null;
if (ByteArray.startsWith(b, gzipMagic)) {
//System.out.print("\\"); // DEBUG
cdr--;
ByteArrayInputStream bais = new ByteArrayInputStream(b);
// eat up the magic
bais.read();
bais.read();
// decompress what is remaining
InputStream gis;
try {
gis = new GZIPInputStream(bais);
final ByteArrayOutputStream baos = new ByteArrayOutputStream(b.length);
final byte[] buf = new byte[1024];
int n;
while ((n = gis.read(buf)) > 0) baos.write(buf, 0, n);
gis.close();
bais.close();
baos.close();
return baos.toByteArray();
} catch (IOException e) {
e.printStackTrace();
return null;
}
} else if (ByteArray.startsWith(b, plainMagic)) {
//System.out.print("-"); // DEBUG
byte[] r = new byte[b.length - 2];
System.arraycopy(b, 2, r, 0, b.length - 2);
return r;
} else {
// we consider that the entry is also plain, but without leading magic
return b;
}
}
public synchronized byte[] get(byte[] key) throws IOException {
// depending on the source of the result, we additionally do entry compression
// because if a document was read once, we think that it will not be retrieved another time again soon
byte[] b = buffer.remove(new String(key));
if (b != null) {
// compress the entry now and put it to the backend
byte[] bb = compress(b);
this.backend.put(key, bb);
this.bufferlength = this.bufferlength - b.length;
return b;
}
// return from the backend
b = this.backend.get(key);
if (b == null) return null;
return decompress(b);
}
public synchronized boolean has(byte[] key) {
return
this.buffer.containsKey(new String(key)) || this.backend.has(key);
}
public int keylength() {
return this.backend.keylength();
}
public synchronized long length() {
try {
return this.backend.length() + this.bufferlength;
} catch (IOException e) {
e.printStackTrace();
return 0;
}
}
public synchronized long length(byte[] key) throws IOException {
byte[] b = buffer.get(new String(key));
if (b != null) return b.length;
b = this.backend.get(key);
if (b == null) return 0;
b = decompress(b);
return (b == null) ? 0 : b.length;
}
private int removeFromQueues(byte[] key) {
byte[] b = buffer.remove(new String(key));
if (b != null) return b.length;
return 0;
}
public synchronized void put(byte[] key, byte[] b) throws IOException {
// first ensure that the files do not exist anywhere
remove(key);
// check if the buffer is full or could be full after this write
if (this.bufferlength + b.length * 2 > this.maxbufferlength) {
// in case that we compress, just compress as much as is necessary to get enough room
while (this.bufferlength + b.length * 2 > this.maxbufferlength && this.buffer.size() > 0) {
flushOne();
}
// in case that this was not enough, just flush all
if (this.bufferlength + b.length * 2 > this.maxbufferlength) flushAll();
}
// files are written uncompressed to the uncompressed-queue
// they are either written uncompressed to the database
// or compressed later
this.buffer.put(new String(key), b);
this.bufferlength += b.length;
}
public synchronized void remove(byte[] key) throws IOException {
this.backend.remove(key);
long rx = removeFromQueues(key);
if (rx > 0) this.bufferlength -= rx;
}
public synchronized int size() {
return this.backend.size() + this.buffer.size();
}
public synchronized CloneableIterator<byte[]> keys(boolean up, boolean rotating) throws IOException {
flushAll();
return this.backend.keys(up, rotating);
}
public synchronized CloneableIterator<byte[]> keys(boolean up, byte[] firstKey) throws IOException {
flushAll();
return this.backend.keys(up, firstKey);
}
private boolean flushOne() throws IOException {
if (this.buffer.size() == 0) return false;
// depending on process case, write it to the file or compress it to the other queue
Map.Entry<String, byte[]> entry = this.buffer.entrySet().iterator().next();
this.buffer.remove(entry.getKey());
byte[] b = entry.getValue();
this.bufferlength -= b.length;
b = compress(b);
this.backend.put(entry.getKey().getBytes(), b);
return true;
}
private void flushAll() throws IOException {
while (this.buffer.size() > 0) {
if (!flushOne()) break;
}
assert this.bufferlength == 0;
}
public int replace(byte[] key, Rewriter rewriter) throws IOException {
byte[] b = get(key);
if (b == null) return 0;
byte[] c = rewriter.rewrite(b);
int reduction = c.length - b.length;
assert reduction >= 0;
if (reduction == 0) return 0;
this.put(key, c);
return reduction;
}
}