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yacy_search_server/source/de/anomic/kelondro/kelondroRowSet.java

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// kelondroRowSet.java
// (C) 2006 by Michael Peter Christen; mc@anomic.de, Frankfurt a. M., Germany
// first published 20.06.2006 on http://www.anomic.de
//
// $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 de.anomic.kelondro;
import java.io.IOException;
import java.util.TreeSet;
import java.util.Iterator;
import java.util.Random;
public class kelondroRowSet extends kelondroRowCollection implements kelondroIndex {
private static final int collectionReSortLimit = 90;
private static final int removeMaxSize = 100;
private kelondroProfile profile;
private TreeSet removeMarker;
public kelondroRowSet(kelondroRow rowdef) {
super(rowdef);
this.removeMarker = new TreeSet();
this.profile = new kelondroProfile();
}
public kelondroRowSet(kelondroRow rowdef, int objectCount) {
super(rowdef, objectCount);
this.removeMarker = new TreeSet();
this.profile = new kelondroProfile();
}
public kelondroRow.Entry get(byte[] key) {
return get(key, 0, key.length);
}
private kelondroRow.Entry get(byte[] key, int astart, int alength) {
long handle = profile.startRead();
kelondroRow.Entry entry = null;
synchronized (chunkcache) {
int index = find(key, astart, alength);
if ((index >= 0) && (!(isMarkedRemoved(index)))) entry = get(index);
}
profile.stopRead(handle);
return entry;
}
public kelondroRow.Entry put(kelondroRow.Entry entry) {
long handle = profile.startWrite();
int index = -1;
kelondroRow.Entry oldentry = null;
synchronized (chunkcache) {
index = find(entry.bytes(), super.rowdef.colstart[super.sortColumn], super.rowdef.width(super.sortColumn));
if (isMarkedRemoved(index)) {
set(index, entry);
removeMarker.remove(new Integer(index));
} else if (index < 0) {
add(entry);
} else {
oldentry = get(index);
set(index, entry);
}
}
profile.stopWrite(handle);
return oldentry;
}
public int size() {
return super.size() - removeMarker.size();
}
public kelondroRow.Entry remove(byte[] a) {
return removeMarked(a);
}
public kelondroRow.Entry removeMarked(byte[] a) {
return removeMarked(a, 0, a.length);
}
private kelondroRow.Entry removeMarked(byte[] a, int astart, int alength) {
if (chunkcount == 0) return null;
long handle = profile.startDelete();
// check if it is contained in chunkcache
kelondroRow.Entry entry = null;
synchronized(chunkcache) {
int p = find(a, astart, alength);
if (p < 0) {
// the entry is not there
profile.stopDelete(handle);
return null;
}
// there is an entry
entry = get(p);
if (p < sortBound) {
removeMarker.add(new Integer(p));
} else {
super.swap(p, --chunkcount, 0);
}
// check case when complete chunkcache is marked as deleted
if (removeMarker.size() == chunkcount) {
this.clear();
removeMarker.clear();
}
}
// check if removeMarker is full
if (removeMarker.size() >= removeMaxSize) resolveMarkedRemoved();
profile.stopDelete(handle);
return entry;
}
private boolean isMarkedRemoved(int index) {
return removeMarker.contains(new Integer(index));
}
public void shape() {
//System.out.println("SHAPE");
synchronized (chunkcache) {
resolveMarkedRemoved();
super.sort();
}
}
private void resolveMarkedRemoved() {
if (removeMarker.size() == 0) return;
Integer nxt = (Integer) removeMarker.first();
removeMarker.remove(nxt);
int idx = nxt.intValue();
int d = 1;
while (removeMarker.size() > 0) {
nxt = (Integer) removeMarker.first();
removeMarker.remove(nxt);
super.removeShift(idx, d, nxt.intValue());
idx = nxt.intValue() - d;
d++;
}
super.removeShift(idx, d, chunkcount);
chunkcount -= d;
removeMarker.clear();
}
protected kelondroRow.Entry removeShift(byte[] a) {
return removeShift(a, 0, a.length);
}
private kelondroRow.Entry removeShift(byte[] a, int astart, int alength) {
// the byte[] a may be shorter than the chunksize
if (chunkcount == 0) return null;
long handle = profile.startDelete();
kelondroRow.Entry entry = null;
synchronized(chunkcache) {
int p = find(a, astart, alength);
if (p < 0) return null;
entry = get(p);
if (p < sortBound) {
removeShift(p);
} else {
super.swap(p, --chunkcount, 0);
}
}
profile.stopDelete(handle);
return entry;
}
public void removeMarkedAll(kelondroRowCollection c) {
long handle = profile.startDelete();
Iterator i = c.elements();
byte[] b;
while (i.hasNext()) {
b = (byte[]) i.next();
removeMarked(b, 0, b.length);
}
profile.stopDelete(handle);
}
public kelondroOrder getOrdering() {
return this.sortOrder;
}
public void setOrdering(kelondroOrder newOrder, int newColumn) {
if ((this.sortOrder == null) ||
(!(this.sortOrder.signature().equals(newOrder.signature()))) ||
(newColumn != this.sortColumn)) {
this.sortOrder = newOrder;
this.sortBound = 0;
this.sortColumn = newColumn;
}
}
private int find(byte[] a, int astart, int alength) {
// returns the chunknumber; -1 if not found
if (this.sortOrder == null) return iterativeSearch(a, astart, alength);
// check if a re-sorting make sense
if ((this.chunkcount - this.sortBound) > collectionReSortLimit) shape();
// first try to find in sorted area
int p = binarySearch(a, astart, alength);
if (p >= 0) return p;
// then find in unsorted area
return iterativeSearch(a, astart, alength);
}
private int iterativeSearch(byte[] key, int astart, int alength) {
// returns the chunknumber
if (this.sortOrder == null) {
for (int i = this.sortBound; i < this.chunkcount; i++) {
if (match(key, astart, alength, i)) return i;
}
return -1;
} else {
for (int i = this.sortBound; i < this.chunkcount; i++) {
if (compare(key, astart, alength, i) == 0) return i;
}
return -1;
}
}
private int binarySearch(byte[] key, int astart, int alength) {
// returns the exact position of the key if the key exists,
// or -1 if the key does not exist
assert (this.sortOrder != null);
int l = 0;
int rbound = this.sortBound;
int p = 0;
int d;
while (l < rbound) {
p = l + ((rbound - l) >> 1);
d = compare(key, astart, alength, p);
if (d == 0) return p;
else if (d < 0) rbound = p;
else l = p + 1;
}
return -1;
}
private int binaryPosition(byte[] key, int astart, int alength) {
// returns the exact position of the key if the key exists,
// or a position of an entry that is greater than the key if the
// key does not exist
assert (this.sortOrder != null);
int l = 0;
int rbound = this.sortBound;
int p = 0;
int d;
while (l < rbound) {
p = l + ((rbound - l) >> 1);
d = compare(key, astart, alength, p);
if (d == 0) return p;
else if (d < 0) rbound = p;
else l = p + 1;
}
return l;
}
private int compare(byte[] a, int astart, int alength, int chunknumber) {
assert (chunknumber < chunkcount);
int l = Math.min(this.rowdef.width(0), Math.min(a.length - astart, alength));
return this.sortOrder.compare(a, astart, l, chunkcache, chunknumber * this.rowdef.objectsize(), l);
}
private boolean match(byte[] a, int astart, int alength, int chunknumber) {
if (chunknumber >= chunkcount) return false;
int i = 0;
int p = chunknumber * this.rowdef.objectsize();
final int len = Math.min(this.rowdef.width(0), Math.min(alength, a.length - astart));
while (i < len) if (a[astart + i++] != chunkcache[p++]) return false;
return true;
}
public kelondroProfile profile() {
return profile;
}
public Iterator rows(boolean up, boolean rotating, byte[] firstKey) throws IOException {
return new rowIterator(up, rotating, firstKey);
}
public class rowIterator implements Iterator {
private boolean up, rot;
private byte[] first;
private int p, bound;
public rowIterator(boolean up, boolean rotating, byte[] firstKey) {
this.up = up;
this.rot = rotating;
this.first = firstKey;
this.bound = sortBound;
// see that all elements are sorted
shape();
if (first == null) {
p = 0;
} else {
p = binaryPosition(first, 0, first.length);
}
}
public boolean hasNext() {
if (rot) return true;
if (up) {
return p < bound;
} else {
return p >= 0;
}
}
public Object next() {
kelondroRow.Entry entry = get(p);
if (up) p++; else p--;
if (rot) {
if (p == bound) p = 0;
if (p < 0) p = bound - 1;
}
return entry;
}
public void remove() {
throw new UnsupportedOperationException();
}
}
public static void main(String[] args) {
/*
String[] test = { "eins", "zwei", "drei", "vier", "fuenf", "sechs", "sieben", "acht", "neun", "zehn" };
kelondroRowSet c = new kelondroRowSet(new kelondroRow(new int[]{10, 3}));
c.setOrdering(kelondroNaturalOrder.naturalOrder, 0);
for (int i = 0; i < test.length; i++) c.add(test[i].getBytes());
for (int i = 0; i < test.length; i++) c.add(test[i].getBytes());
c.shape();
c.removeMarked("fuenf".getBytes(), 0, 5);
Iterator i = c.elements();
String s;
System.out.print("INPUT-ITERATOR: ");
while (i.hasNext()) {
s = new String((byte[]) i.next()).trim();
System.out.print(s + ", ");
if (s.equals("drei")) i.remove();
}
System.out.println("");
System.out.println("INPUT-TOSTRING: " + c.toString());
c.shape();
System.out.println("SORTED : " + c.toString());
c.uniq();
System.out.println("UNIQ : " + c.toString());
c.trim();
System.out.println("TRIM : " + c.toString());
*/
/*
// second test
c = new kelondroRowSet(new kelondroRow(new int[]{10, 3}));
c.setOrdering(kelondroNaturalOrder.naturalOrder, 0);
Random rand = new Random(0);
long start = System.currentTimeMillis();
long t, d = 0;
String w;
for (long k = 0; k < 60000; k++) {
t = System.currentTimeMillis();
w = "a" + Long.toString(rand.nextLong());
c.add(w.getBytes());
if (k % 10000 == 0)
System.out.println("added " + k + " entries in " +
((t - start) / 1000) + " seconds, " +
(((t - start) > 1000) ? (k / ((t - start) / 1000)) : k) +
" entries/second, size = " + c.size());
}
System.out.println("bevore sort: " + ((System.currentTimeMillis() - start) / 1000) + " seconds");
c.shape();
System.out.println("after sort: " + ((System.currentTimeMillis() - start) / 1000) + " seconds");
c.uniq();
System.out.println("after uniq: " + ((System.currentTimeMillis() - start) / 1000) + " seconds");
System.out.println("RESULT SIZE: " + c.size());
System.out.println();
// third test
c = new kelondroRowSet(new kelondroRow(new int[]{10, 3}), 60000);
c.setOrdering(kelondroNaturalOrder.naturalOrder, 0);
rand = new Random(0);
start = System.currentTimeMillis();
d = 0;
for (long k = 0; k < 60000; k++) {
t = System.currentTimeMillis();
w = "a" + Long.toString(rand.nextLong());
if (c.get(w.getBytes(), 0, 10) == null) c.add(w.getBytes()); else d++;
if (k % 10000 == 0)
System.out.println("added " + k + " entries in " +
((t - start) / 1000) + " seconds, " +
(((t - start) > 1000) ? (k / ((t - start) / 1000)) : k) +
" entries/second, " + d + " double, size = " + c.size() +
", sum = " + (c.size() + d));
}
System.out.println("RESULT SIZE: " + c.size());
*/
long start = System.currentTimeMillis();
kelondroRowSet c = new kelondroRowSet(new kelondroRow(new int[]{12, 12}), 0);
Random random = new Random(0);
byte[] key;
for (int i = 0; i < 100000; i++) {
key = randomHash(random);
c.put(c.rowdef.newEntry(new byte[][]{key, key}));
if (i % 1000 == 0) System.out.println(i + " entries. ");
}
System.out.println("RESULT SIZE: " + c.size());
System.out.println("Time: " + ((System.currentTimeMillis() - start) / 1000) + " seconds");
}
public static byte[] randomHash(final long r0, final long r1) {
// a long can have 64 bit, but a 12-byte hash can have 6 * 12 = 72 bits
// so we construct a generic Hash using two long values
return (kelondroBase64Order.enhancedCoder.encodeLong(Math.abs(r0), 11).substring(5) +
kelondroBase64Order.enhancedCoder.encodeLong(Math.abs(r1), 11).substring(5)).getBytes();
}
public static byte[] randomHash(Random r) {
return randomHash(r.nextLong(), r.nextLong());
}
}