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520 lines
19 KiB
520 lines
19 KiB
// kelondroDyn.java
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// -----------------------
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// part of The Kelondro Database
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// (C) by Michael Peter Christen; mc@anomic.de
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// first published on http://www.anomic.de
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// Frankfurt, Germany, 2004
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// last major change: 09.02.2004
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//
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// This program is free software; you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation; either version 2 of the License, or
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// (at your option) any later version.
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//
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// This program 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
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// GNU General Public License for more details.
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//
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// You should have received a copy of the GNU General Public License
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// along with this program; if not, write to the Free Software
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// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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//
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// Using this software in any meaning (reading, learning, copying, compiling,
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// running) means that you agree that the Author(s) is (are) not responsible
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// for cost, loss of data or any harm that may be caused directly or indirectly
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// by usage of this softare or this documentation. The usage of this software
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// is on your own risk. The installation and usage (starting/running) of this
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// software may allow other people or application to access your computer and
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// any attached devices and is highly dependent on the configuration of the
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// software which must be done by the user of the software; the author(s) is
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// (are) also not responsible for proper configuration and usage of the
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// software, even if provoked by documentation provided together with
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// the software.
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//
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// Any changes to this file according to the GPL as documented in the file
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// gpl.txt aside this file in the shipment you received can be done to the
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// lines that follows this copyright notice here, but changes must not be
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// done inside the copyright notive above. A re-distribution must contain
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// the intact and unchanged copyright notice.
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// Contributions and changes to the program code must be marked as such.
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/*
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This class extends the kelondroTree and adds dynamic data handling
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A dynamic content is created, by using several tree nodes and
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combining them over a set of associated keys.
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Example: a byte[] of length 1000 shall be stored in a kelondroTree
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with node size 256. The key for the entry is 'entry'.
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Then kelondroDyn stores the first part of four into the entry
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'entry00', the second into 'entry01', and so on.
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*/
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package de.anomic.kelondro;
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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.util.Iterator;
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public class kelondroDyn {
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private static final int counterlen = 8;
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private static final int EcoFSBufferSize = 20;
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protected int keylen;
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private int reclen;
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//private int segmentCount;
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private char fillChar;
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private kelondroIndex index;
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private kelondroObjectBuffer buffer;
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private kelondroRow rowdef;
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public kelondroDyn(File file, boolean useNodeCache, boolean useObjectCache, int key,
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int nodesize, char fillChar, kelondroByteOrder objectOrder, boolean usetree, boolean writebuffer, boolean resetOnFail) {
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// creates or opens a dynamic tree
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rowdef = new kelondroRow("byte[] key-" + (key + counterlen) + ", byte[] node-" + nodesize, objectOrder, 0);
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kelondroIndex fbi;
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if (usetree) {
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try {
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fbi = new kelondroTree(file, useNodeCache, 0, rowdef, 1, 8);
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} catch (IOException e) {
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e.printStackTrace();
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if (resetOnFail) {
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file.delete();
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try {
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fbi = new kelondroTree(file, useNodeCache, -1, rowdef, 1, 8);
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} catch (IOException e1) {
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e1.printStackTrace();
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throw new kelondroException(e.getMessage());
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}
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} else {
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throw new kelondroException(e.getMessage());
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}
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}
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} else {
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if (file.exists()) {
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if (file.isDirectory()) {
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fbi = new kelondroFlexTable(file.getParentFile(), file.getName(), rowdef, 0, resetOnFail);
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} else {
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fbi = new kelondroEcoTable(file, rowdef, kelondroEcoTable.tailCacheUsageAuto, EcoFSBufferSize, 0);
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}
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} else {
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fbi = new kelondroEcoTable(file, rowdef, kelondroEcoTable.tailCacheUsageAuto, EcoFSBufferSize, 0);
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}
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}
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this.index = ((useObjectCache) && (!(fbi instanceof kelondroEcoTable))) ? (kelondroIndex) new kelondroCache(fbi) : fbi;
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this.keylen = key;
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this.reclen = nodesize;
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this.fillChar = fillChar;
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//this.segmentCount = 0;
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//if (!(tree.fileExisted)) writeSegmentCount();
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buffer = new kelondroObjectBuffer(file.toString());
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}
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public static final void delete(File file) {
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if (file.isFile()) {
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file.delete();
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if (file.exists()) file.deleteOnExit();
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} else {
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kelondroFlexWidthArray.delete(file.getParentFile(), file.getName());
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}
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}
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public void reset() throws IOException {
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String name = this.index.filename();
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this.index.reset();
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this.buffer = new kelondroObjectBuffer(name);
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}
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public kelondroRow row() {
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return this.rowdef;
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}
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public synchronized int sizeDyn() {
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//this.segmentCount = 0;
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//Iterator i = keys(true); while (i.hasNext()) segmentCount++;
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//return segmentCount;
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return index.size();
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}
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private static String counter(int c) {
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String s = Integer.toHexString(c);
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while (s.length() < counterlen) s = "0" + s;
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return s;
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}
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private byte[] dynKey(String key, int record) {
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if (key.length() > keylen) throw new RuntimeException("key len (" + key.length() + ") out of limit (" + keylen + "): '" + key + "'");
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while (key.length() < keylen) key = key + fillChar;
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key = key + counter(record);
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return key.getBytes();
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}
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protected String origKey(byte[] rawKey) {
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int n = keylen - 1;
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if (n >= rawKey.length) n = rawKey.length - 1;
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while ((n > 0) && (rawKey[n] == (byte) fillChar)) n--;
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return new String(rawKey, 0, n + 1);
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}
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public class dynKeyIterator implements kelondroCloneableIterator<String> {
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// the iterator iterates all keys
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kelondroCloneableIterator<kelondroRow.Entry> ri;
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String nextKey;
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public dynKeyIterator(kelondroCloneableIterator<kelondroRow.Entry> iter) {
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ri = iter;
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nextKey = n();
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}
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public dynKeyIterator clone(Object modifier) {
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return new dynKeyIterator(ri.clone(modifier));
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}
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public boolean hasNext() {
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return nextKey != null;
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}
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public String next() {
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String result = nextKey;
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nextKey = n();
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return origKey(result.getBytes());
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}
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public void remove() {
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throw new UnsupportedOperationException("no remove in RawKeyIterator");
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}
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private String n() {
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byte[] g;
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String k;
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String v;
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int c;
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kelondroRow.Entry nt;
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while (ri.hasNext()) {
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nt = (kelondroRow.Entry) ri.next();
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if (nt == null) return null;
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g = nt.getColBytes(0);
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if (g == null) return null;
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k = new String(g, 0, keylen);
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v = new String(g, keylen, counterlen);
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try {
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c = Integer.parseInt(v, 16);
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} catch (NumberFormatException e) {
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c = -1;
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}
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if (c == 0) return k;
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}
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return null;
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}
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}
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public synchronized kelondroCloneableIterator<String> dynKeys(boolean up, boolean rotating) throws IOException {
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// iterates only the keys of the Nodes
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// enumerated objects are of type String
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dynKeyIterator i = new dynKeyIterator(index.rows(up, null));
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if (rotating) return new kelondroRotateIterator<String>(i, null, index.size()); else return i;
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}
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public synchronized dynKeyIterator dynKeys(boolean up, byte[] firstKey) throws IOException {
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return new dynKeyIterator(index.rows(up, firstKey));
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}
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private byte[] getValueCached(byte[] key) throws IOException {
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// read from buffer
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byte[] buffered = (byte[]) buffer.get(key);
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if (buffered != null) return buffered;
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// read from db
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kelondroRow.Entry result = index.get(key);
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if (result == null) return null;
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// return result
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return result.getColBytes(1);
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}
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private synchronized void setValueCached(byte[] key, byte[] value) throws IOException {
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// update storage
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synchronized (this) {
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index.put(rowdef.newEntry(new byte[][]{key, value}));
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buffer.put(key, value);
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}
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}
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public synchronized int getDyn(String key, int pos) throws IOException {
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int reccnt = pos / reclen;
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// read within a single record
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byte[] buf = getValueCached(dynKey(key, reccnt));
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if (buf == null) return -1;
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int recpos = pos % reclen;
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if (buf.length <= recpos) return -1;
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return buf[recpos] & 0xFF;
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}
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public synchronized byte[] getDyn(String key, int pos, int len) throws IOException {
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int recpos = pos % reclen;
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int reccnt = pos / reclen;
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byte[] segment1;
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// read first within a single record
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if ((recpos == 0) && (reclen == len)) {
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segment1 = getValueCached(dynKey(key, reccnt));
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if (segment1 == null) return null;
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} else {
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byte[] buf = getValueCached(dynKey(key, reccnt));
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if (buf == null) return null;
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if (buf.length < reclen) {
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byte[] buff = new byte[reclen];
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System.arraycopy(buf, 0, buff, 0, buf.length);
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buf = buff;
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buff = null;
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}
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// System.out.println("read:
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// buf.length="+buf.length+",recpos="+recpos+",len="+len);
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if (recpos + len <= reclen) {
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segment1 = new byte[len];
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System.arraycopy(buf, recpos, segment1, 0, len);
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} else {
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segment1 = new byte[reclen - recpos];
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System.arraycopy(buf, recpos, segment1, 0, reclen - recpos);
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}
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}
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// if this is all, return
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if (recpos + len <= reclen) return segment1;
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// read from several records
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// we combine recursively all participating records
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// we have two segments: the one in the starting record, and the remaining
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// segment 1 in record <reccnt> : start = recpos, length = reclen - recpos
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// segment 2 in record <reccnt>+1: start = 0, length = len - reclen + recpos
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// recursively step further
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byte[] segment2 = getDyn(key, pos + segment1.length, len - segment1.length);
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if (segment2 == null) return segment1;
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// now combine the two segments into the result
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byte[] result = new byte[segment1.length + segment2.length];
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System.arraycopy(segment1, 0, result, 0, segment1.length);
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System.arraycopy(segment2, 0, result, segment1.length, segment2.length);
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return result;
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}
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public synchronized void putDyn(String key, int pos, byte[] b, int off, int len) throws IOException {
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int recpos = pos % reclen;
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int reccnt = pos / reclen;
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byte[] buf;
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// first write current record
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if ((recpos == 0) && (reclen == len)) {
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if (off == 0) {
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setValueCached(dynKey(key, reccnt), b);
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} else {
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buf = new byte[len];
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System.arraycopy(b, off, buf, 0, len);
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setValueCached(dynKey(key, reccnt), b);
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}
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} else {
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buf = getValueCached(dynKey(key, reccnt));
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if (buf == null) {
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buf = new byte[reclen];
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} else if (buf.length < reclen) {
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byte[] buff = new byte[reclen];
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System.arraycopy(buf, 0, buff, 0, buf.length);
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buf = buff;
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buff = null;
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}
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// System.out.println("write:
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// b.length="+b.length+",off="+off+",len="+(reclen-recpos));
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if (len < (reclen - recpos))
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System.arraycopy(b, off, buf, recpos, len);
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else
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System.arraycopy(b, off, buf, recpos, reclen - recpos);
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setValueCached(dynKey(key, reccnt), buf);
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}
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// if more records are necessary, write to them also recursively
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if (recpos + len > reclen) {
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putDyn(key, pos + reclen - recpos, b, off + reclen - recpos, len - reclen + recpos);
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}
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}
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public synchronized void remove(String key) throws IOException {
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// remove value in cache and tree
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if (key == null) return;
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int recpos = 0;
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byte[] k;
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while (index.get(k = dynKey(key, recpos)) != null) {
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index.remove(k, false);
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buffer.remove(k);
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recpos++;
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}
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//segmentCount--; writeSegmentCount();
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}
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public synchronized boolean existsDyn(String key) throws IOException {
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return (key != null) && (getValueCached(dynKey(key, 0)) != null);
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}
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public synchronized kelondroRA getRA(String filekey) {
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// this returns always a RARecord, even if no existed bevore
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//return new kelondroBufferedRA(new RARecord(filekey), 512, 0);
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return new RARecord(filekey);
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}
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public class RARecord extends kelondroAbstractRA implements kelondroRA {
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int seekpos = 0;
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String filekey;
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public RARecord(String filekey) {
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this.filekey = filekey;
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}
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public long length() throws IOException {
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return Long.MAX_VALUE;
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}
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public long available() throws IOException {
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return Long.MAX_VALUE;
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}
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public int read() throws IOException {
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return getDyn(filekey, seekpos++);
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}
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public void write(int i) throws IOException {
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byte[] b = new byte[1];
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b[0] = (byte) i;
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putDyn(filekey, seekpos++, b, 0, 1);
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}
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public int read(byte[] b, int off, int len) throws IOException {
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int l = Math.min(b.length - off, len);
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byte[] buf = getDyn(filekey, seekpos, l);
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if (buf == null) return -1;
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l = Math.min(buf.length, l);
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System.arraycopy(buf, 0, b, off, l);
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seekpos += l;
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return l;
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}
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public void write(byte[] b, int off, int len) throws IOException {
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putDyn(filekey, seekpos, b, off, len);
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seekpos += len;
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}
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public void seek(long pos) throws IOException {
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seekpos = (int) pos;
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}
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public void close() throws IOException {
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// no need to do anything here
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}
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}
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public synchronized void writeFile(String key, File f) throws IOException {
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// reads a file from the FS and writes it into the database
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kelondroRA kra = null;
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FileInputStream fis = null;
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try {
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kra = getRA(key);
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byte[] buffer = new byte[1024];
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byte[] result = new byte[(int) f.length()];
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fis = new FileInputStream(f);
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int i;
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int pos = 0;
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while ((i = fis.read(buffer)) > 0) {
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System.arraycopy(buffer, 0, result, pos, i);
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pos += i;
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}
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fis.close();
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kra.writeArray(result);
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} finally {
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if (fis != null)
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try {
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fis.close();
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} catch (Exception e) {
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}
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if (kra != null)
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try {
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kra.close();
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} catch (Exception e) {
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}
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}
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}
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public synchronized void readFile(String key, File f) throws IOException {
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// reads a file from the DB and writes it to the FS
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kelondroRA kra = null;
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FileOutputStream fos = null;
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try {
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kra = getRA(key);
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byte[] result = kra.readArray();
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fos = new FileOutputStream(f);
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fos.write(result);
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} finally {
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if (fos != null)
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try {
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fos.close();
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} catch (Exception e) {
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}
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if (kra != null)
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try {
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kra.close();
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} catch (Exception e) {
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}
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}
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}
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public synchronized void close() {
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index.close();
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}
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public static void main(String[] args) {
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// test app for DB functions
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// reads/writes files to a database table
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// arguments:
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// {-f2db/-db2f} <db-name> <key> <filename>
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if (args.length == 1) {
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// open a db and list keys
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try {
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kelondroDyn kd = new kelondroDyn(new File(args[0]), true, true, 4 ,100, '_', kelondroNaturalOrder.naturalOrder, false, false, true);
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System.out.println(kd.sizeDyn() + " elements in DB");
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Iterator<String> i = kd.dynKeys(true, false);
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while (i.hasNext())
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System.out.println(i.next());
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kd.close();
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} catch (IOException e) {
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e.printStackTrace();
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}
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}
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if (args.length == 4) {
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boolean writeFile = (args[0].equals("-db2f"));
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File db = new File(args[1]);
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String key = args[2];
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File f = new File(args[3]);
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kelondroDyn kd;
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try {
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kd = new kelondroDyn(db, true, true, 80, 200, '_', kelondroNaturalOrder.naturalOrder, false, false, true);
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if (writeFile)
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kd.readFile(key, f);
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else
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kd.writeFile(key, f);
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} catch (IOException e) {
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System.out.println("ERROR: " + e.toString());
|
|
}
|
|
}
|
|
}
|
|
|
|
public static int countElementsDyn(kelondroDyn t) {
|
|
int count = 0;
|
|
try {
|
|
Iterator<String> iter = t.dynKeys(true, false);
|
|
while (iter.hasNext()) {count++; if (iter.next() == null) System.out.println("ERROR! null element found");}
|
|
return count;
|
|
} catch (IOException e) {
|
|
return -1;
|
|
}
|
|
}
|
|
} |