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258 lines
9.3 KiB
258 lines
9.3 KiB
// kelondroIntBytesMap.java
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// (C) 2006 by Michael Peter Christen; mc@anomic.de, Frankfurt a. M., Germany
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// first published 08.06.2006 on http://www.anomic.de
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//
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// $LastChangedDate: 2006-04-02 22:40:07 +0200 (So, 02 Apr 2006) $
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// $LastChangedRevision: 1986 $
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// $LastChangedBy: orbiter $
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//
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// LICENSE
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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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package de.anomic.kelondro;
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import java.util.ArrayList;
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import java.util.HashSet;
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import java.util.Iterator;
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import java.util.Random;
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public class kelondroIntBytesMap {
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// we use two indexes: one for initialization, and one for data aquired during runtime
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// this has a gread advantage, if the setup-data is large. Then a re-organisation of
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// the run-time data does not need much memory and is done faster.
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// we distinguish two phases: the init phase where data can only be written
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// to index0 with addb, and a runtime-phase where data can only be written
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// to index1 with putb.
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private kelondroRow rowdef;
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private kelondroRowSet index0, index1;
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private kelondroOrder<kelondroRow.Entry> entryOrder;
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public kelondroIntBytesMap(int payloadSize, int initSize) {
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this.rowdef = new kelondroRow("Cardinal key-4 {b256}, byte[] payload-" + payloadSize, kelondroNaturalOrder.naturalOrder, 0);
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this.index0 = new kelondroRowSet(rowdef, initSize);
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this.index1 = null;
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this.entryOrder = new kelondroRow.EntryComparator(rowdef.objectOrder);
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}
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public long memoryNeededForGrow() {
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if (index1 == null)
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return index0.memoryNeededForGrow();
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else
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return index1.memoryNeededForGrow();
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}
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public kelondroRow row() {
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return index0.row();
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}
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public byte[] getb(int ii) {
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assert ii >= 0 : "i = " + ii;
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byte[] key = kelondroNaturalOrder.encodeLong((long) ii, 4);
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if (index0 != null) {
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if (index1 == null) {
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// finish initialization phase
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index0.sort();
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index0.uniq();
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index1 = new kelondroRowSet(rowdef, 0);
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}
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kelondroRow.Entry indexentry = index0.get(key);
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if (indexentry != null) return indexentry.getColBytes(1);
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}
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assert (index1 != null);
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kelondroRow.Entry indexentry = index1.get(key);
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if (indexentry == null) return null;
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return indexentry.getColBytes(1);
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}
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public byte[] putb(int ii, byte[] value) {
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assert ii >= 0 : "i = " + ii;
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assert value != null;
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byte[] key = kelondroNaturalOrder.encodeLong((long) ii, 4);
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if (index0 != null) {
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if (index1 == null) {
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// finish initialization phase
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index0.sort();
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index0.uniq();
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index1 = new kelondroRowSet(rowdef, 0);
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}
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kelondroRow.Entry indexentry = index0.get(key);
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if (indexentry != null) {
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byte[] oldv = indexentry.getColBytes(1);
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indexentry.setCol(0, key);
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indexentry.setCol(1, value);
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index0.put(indexentry);
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return oldv;
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}
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// else place it in the index1
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}
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// at this point index1 cannot be null
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assert (index1 != null);
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kelondroRow.Entry newentry = rowdef.newEntry();
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newentry.setCol(0, (long) ii);
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newentry.setCol(1, value);
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kelondroRow.Entry oldentry = index1.put(newentry);
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if (oldentry == null) return null;
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return oldentry.getColBytes(1);
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}
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public void addb(int ii, byte[] value) {
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assert index1 == null; // valid only in init-phase
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assert ii >= 0 : "i = " + ii;
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assert value != null;
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kelondroRow.Entry newentry = index0.row().newEntry();
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newentry.setCol(0, (long) ii);
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newentry.setCol(1, value);
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index0.addUnique(newentry);
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}
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public byte[] removeb(int ii) {
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assert ii >= 0 : "i = " + ii;
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byte[] key = kelondroNaturalOrder.encodeLong((long) ii, 4);
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if (index0 != null) {
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if (index1 == null) {
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// finish initialization phase
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index0.sort();
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index0.uniq();
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index1 = new kelondroRowSet(rowdef, 0);
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}
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kelondroRow.Entry indexentry = index0.remove(key, true);
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if (indexentry != null) {
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return indexentry.getColBytes(1);
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}
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// else remove it from the index1
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}
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// at this point index1 cannot be null
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assert (index1 != null);
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if (index1.size() == 0) return null;
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kelondroRow.Entry indexentry = index1.remove(key, true);
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if (indexentry == null) return null;
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return indexentry.getColBytes(1);
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}
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public byte[] removeoneb() {
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if ((index1 != null) && (index1.size() != 0)) {
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kelondroRow.Entry indexentry = index1.removeOne();
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assert (indexentry != null);
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if (indexentry == null) return null;
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//assert consistencyAnalysis0() : "consistency problem: " + consistencyAnalysis();
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return indexentry.getColBytes(1);
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}
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if ((index0 != null) && (index0.size() != 0)) {
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kelondroRow.Entry indexentry = index0.removeOne();
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assert (indexentry != null);
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if (indexentry == null) return null;
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//assert consistencyAnalysis0() : "consistency problem: " + consistencyAnalysis();
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return indexentry.getColBytes(1);
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}
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return null;
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}
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public int size() {
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if ((index0 != null) && (index1 == null)) {
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//assert consistencyAnalysis0() : "consistency problem: " + consistencyAnalysis();
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return index0.size();
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}
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if ((index0 == null) && (index1 != null)) {
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//assert consistencyAnalysis0() : "consistency problem: " + consistencyAnalysis();
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return index1.size();
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}
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assert ((index0 != null) && (index1 != null));
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//assert consistencyAnalysis0() : "consistency problem: " + consistencyAnalysis();
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return index0.size() + index1.size();
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}
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public Iterator<kelondroRow.Entry> rows() {
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if (index0 != null) {
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if (index1 == null) {
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// finish initialization phase
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index0.sort();
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index0.uniq();
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index1 = new kelondroRowSet(rowdef, 0);
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}
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return index0.rows(true, null);
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}
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assert (index1 != null);
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if (index0 == null) {
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return index1.rows(true, null);
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}
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return new kelondroMergeIterator<kelondroRow.Entry>(
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index0.rows(true, null),
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index1.rows(true, null),
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entryOrder,
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kelondroMergeIterator.simpleMerge,
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true);
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}
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public void flush() {
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if (index0 != null) {
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index0.sort();
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index0.trim(true);
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}
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if (index1 != null) {
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index1.sort();
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index1.trim(true);
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}
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}
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public kelondroProfile profile() {
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if (index0 == null) return index1.profile();
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if (index1 == null) return index0.profile();
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return kelondroProfile.consolidate(index0.profile(), index1.profile());
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}
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public static void main(String[] args) {
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boolean assertEnabled = false;
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assert assertEnabled = true;
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System.out.println((assertEnabled) ? "asserts are enabled" : "enable asserts with 'java -ea'; not enabled yet");
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long start = System.currentTimeMillis();
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long randomstart = 0;
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Random random = new Random(randomstart);
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long r;
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Long R;
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int p, rc = 0;
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ArrayList<Long> ra = new ArrayList<Long>();
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HashSet<Long> jcontrol = new HashSet<Long>();
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kelondroIntBytesMap kcontrol = new kelondroIntBytesMap(1, 0);
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for (int i = 0; i < 1000000; i++) {
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r = Math.abs(random.nextLong() % 10000);
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//System.out.println("add " + r);
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jcontrol.add(new Long(r));
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kcontrol.putb((int) r, "x".getBytes());
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if (random.nextLong() % 5 == 0) ra.add(new Long(r));
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if ((ra.size() > 0) && (random.nextLong() % 7 == 0)) {
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rc++;
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p = Math.abs(random.nextInt()) % ra.size();
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R = (Long) ra.get(p);
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//System.out.println("remove " + R.longValue());
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jcontrol.remove(R);
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kcontrol.removeb((int) R.longValue());
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assert kcontrol.removeb((int) R.longValue()) == null;
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}
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assert jcontrol.size() == kcontrol.size();
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}
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System.out.println("removed: " + rc + ", size of jcontrol set: "
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+ jcontrol.size() + ", size of kcontrol set: "
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+ kcontrol.size());
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System.out.println("Time: "
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+ ((System.currentTimeMillis() - start) / 1000) + " seconds");
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}
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}
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