/** * BufferedObjectIndex * Copyright 2010 by Michael Peter Christen * First released 18.4.2010 at http://yacy.net * * $LastChangedDate$ * $LastChangedRevision$ * $LastChangedBy$ * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this program in the file lgpl21.txt * If not, see . */ package net.yacy.kelondro.index; import java.io.IOException; import java.util.ArrayList; import java.util.Collection; import java.util.Iterator; import java.util.List; import java.util.Map; import java.util.TreeMap; import net.yacy.cora.order.CloneableIterator; import net.yacy.cora.storage.HandleSet; import net.yacy.cora.util.ConcurrentLog; import net.yacy.cora.util.SpaceExceededException; import net.yacy.kelondro.index.Row.Entry; import net.yacy.kelondro.util.MergeIterator; /** * a write buffer for ObjectIndex entries * @author Michael Peter Christen * */ public class BufferedObjectIndex implements Index, Iterable { private final Index backend; private final RowSet buffer; private final int buffersize; private final Row.EntryComparator entryComparator; public BufferedObjectIndex(final Index backend, final int buffersize) { this.backend = backend; this.buffersize = buffersize; this.buffer = new RowSet(backend.row()); this.entryComparator = new Row.EntryComparator(backend.row().objectOrder); } @Override public byte[] smallestKey() { if (this.buffer == null || this.buffer.isEmpty()) return this.backend.smallestKey(); if (this.backend.isEmpty()) return this.buffer.smallestKey(); return this.backend.row().getOrdering().smallest(this.buffer.smallestKey(), this.backend.smallestKey()); } @Override public byte[] largestKey() { if (this.buffer == null || this.buffer.isEmpty()) return this.backend.largestKey(); if (this.backend.isEmpty()) return this.buffer.largestKey(); return this.backend.row().getOrdering().largest(this.buffer.largestKey(), this.backend.largestKey()); } private final void flushBuffer() throws IOException, SpaceExceededException { if (!this.buffer.isEmpty()) { for (final Row.Entry e: this.buffer) { this.backend.put(e); } this.buffer.clear(); } } @Override public void optimize() { this.backend.optimize(); this.buffer.optimize(); } @Override public long mem() { return this.backend.mem() + this.buffer.mem(); } /** * check size of buffer in such a way that a put into the buffer is possible * afterwards without exceeding the given maximal buffersize * @throws SpaceExceededException * @throws IOException */ private final void checkBuffer() throws IOException, SpaceExceededException { if (this.buffer.size() >= this.buffersize) flushBuffer(); } @Override public void addUnique(final Entry row) throws SpaceExceededException, IOException { synchronized (this.backend) { checkBuffer(); this.buffer.put(row); } } @Override public void clear() throws IOException { synchronized (this.backend) { this.backend.clear(); this.buffer.clear(); } } @Override public synchronized void close() { synchronized (this.backend) { try { flushBuffer(); } catch (final IOException e) { ConcurrentLog.logException(e); } catch (final SpaceExceededException e) { ConcurrentLog.logException(e); } this.backend.close(); } } @Override public void deleteOnExit() { this.backend.deleteOnExit(); } @Override public String filename() { return this.backend.filename(); } @Override public int size() { synchronized (this.backend) { return this.buffer.size() + this.backend.size(); } } @Override public Entry get(final byte[] key, final boolean forcecopy) throws IOException { synchronized (this.backend) { final Entry entry = this.buffer.get(key, forcecopy); if (entry != null) return entry; return this.backend.get(key, forcecopy); } } @Override public Map get(final Collection keys, final boolean forcecopy) throws IOException, InterruptedException { final Map map = new TreeMap(row().objectOrder); Row.Entry entry; for (final byte[] key: keys) { entry = get(key, forcecopy); if (entry != null) map.put(key, entry); } return map; } @Override public boolean has(final byte[] key) { synchronized (this.backend) { return this.buffer.has(key) || this.backend.has(key); } } @Override public boolean isEmpty() { synchronized (this.backend) { return this.buffer.isEmpty() && this.backend.isEmpty(); } } /** * Adds the row to the index. The row is identified by the primary key of the row. * @param row a index row * @return true if this set did _not_ already contain the given row. * @throws IOException * @throws SpaceExceededException */ @Override public boolean put(final Entry row) throws IOException, SpaceExceededException { synchronized (this.backend) { checkBuffer(); return this.buffer.put(row); } } @Override public Entry remove(final byte[] key) throws IOException { synchronized (this.backend) { final Entry entry = this.buffer.remove(key); if (entry != null) return entry; return this.backend.remove(key); } } @Override public boolean delete(final byte[] key) throws IOException { synchronized (this.backend) { final boolean b = this.buffer.delete(key); if (b) return true; return this.backend.delete(key); } } @Override public List removeDoubles() throws IOException, SpaceExceededException { synchronized (this.backend) { flushBuffer(); return this.backend.removeDoubles(); } } @Override public List top(final int count) throws IOException { final List list = new ArrayList(); synchronized (this.backend) { List list0 = this.buffer.top(count); list.addAll(list0); list0 = this.backend.top(count - list.size()); list.addAll(list0); } return list; } @Override public List random(final int count) throws IOException { List list0, list1; synchronized (this.backend) { list0 = this.buffer.random(Math.max(1, count / 2)); list1 = this.backend.random(count - list0.size()); } // multiplex the lists final List list = new ArrayList(); Iterator i0 = list0.iterator(); Iterator i1 = list1.iterator(); while (i0.hasNext() || i1.hasNext()) { if (i0.hasNext()) list.add(i0.next()); if (i1.hasNext()) list.add(i1.next()); } return list; } @Override public Entry removeOne() throws IOException { synchronized (this.backend) { if (!this.buffer.isEmpty()) { final Entry entry = this.buffer.removeOne(); if (entry != null) return entry; } return this.backend.removeOne(); } } @Override public Entry replace(final Entry row) throws SpaceExceededException, IOException { synchronized (this.backend) { final Entry entry = this.buffer.replace(row); if (entry != null) return entry; return this.backend.replace(row); } } @Override public Row row() { return this.buffer.row(); } @Override public CloneableIterator keys(final boolean up, final byte[] firstKey) throws IOException { synchronized (this.backend) { CloneableIterator a = this.buffer.keys(up, firstKey); CloneableIterator b = this.backend.keys(up, firstKey); if (b == null) return a; if (a == null) return b; return new MergeIterator(a, b, this.buffer.rowdef.getOrdering(), MergeIterator.simpleMerge, up); } } @Override public Iterator iterator() { try { return this.rows(); } catch (final IOException e) { ConcurrentLog.logException(e); return null; } } @Override public CloneableIterator rows(final boolean up, final byte[] firstKey) throws IOException { synchronized (this.backend) { return new MergeIterator( this.buffer.rows(up, firstKey), this.backend.rows(up, firstKey), this.entryComparator, MergeIterator.simpleMerge, up); } } @Override public CloneableIterator rows() throws IOException { synchronized (this.backend) { return new MergeIterator( this.buffer.rows(), this.backend.rows(), this.entryComparator, MergeIterator.simpleMerge, true); } } /** * special iterator for BufferedObjectIndex: * iterates only objects from the buffer. The use case for this iterator is given * if first elements are iterated and then all iterated elements are deleted from the index. * To minimize the IO load the buffer is filled from the backend in such a way that * it creates a minimum of Read/Write-Head operations which is done using the removeOne() method. * The buffer will be filled with the demanded number of records. The given load value does * not denote the number of removeOne() operations but the number of records that are missing in the * buffer to provide the give load number of record entries. * The given load number must not exceed the maximal number of entries in the buffer. * To give room for put()-inserts while the iterator is running it is recommended to set the load * value at maximum to the maximum number of entries in the buffer divided by two. * @param load number of records that shall be in the buffer when returning the buffer iterator * @return an iterator of the elements in the buffer. * @throws IOException */ public HandleSet keysFromBuffer(final int load) throws IOException { if (load > this.buffersize) throw new IOException("buffer load size exceeded"); synchronized (this.backend) { int missing = Math.min(this.backend.size(), load - this.buffer.size()); while (missing-- > 0) { try { this.buffer.put(this.backend.removeOne()); } catch (final SpaceExceededException e) { ConcurrentLog.logException(e); break; } } final HandleSet handles = new RowHandleSet(this.buffer.row().primaryKeyLength, this.buffer.row().objectOrder, this.buffer.size()); final Iterator i = this.buffer.keys(); while (i.hasNext()) { try { handles.put(i.next()); } catch (final SpaceExceededException e) { ConcurrentLog.logException(e); break; } } handles.optimize(); return handles; } } }