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RowAVLDiskData
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store: RowStoreAVLDiskData
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accessCount: int
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hasDataChanged: boolean
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storageSize: int
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RowAVLDiskData(PersistentStore, TableBase, Object[]): void
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RowAVLDiskData(RowStoreAVLDiskData, TableBase, RowInputInterface): void
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setData(Object[]): void
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getData(): Object[]
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setNewNodes(PersistentStore): void
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insertNode(int): NodeAVL
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getRealSize(RowOutputInterface): int
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write(RowOutputInterface): void
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isNew(): boolean
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hasChanged(): boolean
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setChanged(boolean): void
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updateAccessCount(int): void
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getAccessCount(): int
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getStorageSize(): int
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setStorageSize(int): void
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setPos(long): void
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isMemory(): boolean
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isInMemory(): boolean
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isKeepInMemory(): boolean
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keepInMemory(boolean): boolean
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setInMemory(boolean): void
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http://hsqldb.org: HSQLDB - Lightweight 100% Java SQL Database Engine
(The HSQL Development Group)
- Blaine Simpson
/* Copyright (c) 2001-2019, The HSQL Development Group
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
*
* Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* Neither the name of the HSQL Development Group nor the names of its
* contributors may be used to endorse or promote products derived from this
* software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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*/
package org.hsqldb;
import java.io.IOException;
import org.hsqldb.index.NodeAVL;
import org.hsqldb.persist.PersistentStore;
import org.hsqldb.rowio.RowInputInterface;
import org.hsqldb.rowio.RowOutputInterface;
import org.hsqldb.persist.RowStoreAVLDiskData;
// fredt@users 20021205 - path 1.7.2 - enhancements
// fredt@users 20021215 - doc 1.7.2 - javadoc comments
Implementation of rows for tables with memory resident indexes and
disk-based data, such as TEXT tables.
Author: Bob Preston (sqlbob@users dot sourceforge.net), Fred Toussi (fredt@users dot sourceforge.net) Version: 2.3.4 Version: 1.7.0
/**
* Implementation of rows for tables with memory resident indexes and
* disk-based data, such as TEXT tables.
*
* @author Bob Preston (sqlbob@users dot sourceforge.net)
* @author Fred Toussi (fredt@users dot sourceforge.net)
* @version 2.3.4
* @version 1.7.0
*/
public class RowAVLDiskData extends RowAVL {
RowStoreAVLDiskData store;
int accessCount;
boolean hasDataChanged;
int storageSize;
Constructor for new rows.
/**
* Constructor for new rows.
*/
public RowAVLDiskData(PersistentStore store, TableBase t, Object[] o) {
super(t, o);
setNewNodes(store);
this.store = (RowStoreAVLDiskData) store;
hasDataChanged = true;
}
Constructor when read from the disk into the Cache. The link with
the Nodes is made separetly.
/**
* Constructor when read from the disk into the Cache. The link with
* the Nodes is made separetly.
*/
public RowAVLDiskData(RowStoreAVLDiskData store, TableBase t,
RowInputInterface in) throws IOException {
super(t, (Object[]) null);
setNewNodes(store);
position = in.getFilePosition();
storageSize = in.getSize();
rowData = in.readData(table.getColumnTypes());
hasDataChanged = false;
this.store = store;
}
public void setData(Object[] data) {
this.rowData = data;
}
public Object[] getData() {
Object[] data = rowData;
if (data == null) {
rowData = store.getData(this);
data = rowData;
} else {
accessCount++;
}
return data;
}
Used when data is read from the disk into the Cache the first time.
New Nodes are created which are then indexed.
/**
* Used when data is read from the disk into the Cache the first time.
* New Nodes are created which are then indexed.
*/
public void setNewNodes(PersistentStore store) {
int index = store.getAccessorKeys().length;
nPrimaryNode = new NodeAVL(this);
NodeAVL n = nPrimaryNode;
for (int i = 1; i < index; i++) {
n.nNext = new NodeAVL(this);
n = n.nNext;
}
}
public NodeAVL insertNode(int index) {
NodeAVL backnode = getNode(index - 1);
NodeAVL newnode = new NodeAVL(this);
newnode.nNext = backnode.nNext;
backnode.nNext = newnode;
return newnode;
}
public int getRealSize(RowOutputInterface out) {
return out.getSize(this);
}
Writes the data to disk. Unlike CachedRow, hasChanged is never set
to true when changes are made to the Nodes. (Nodes are in-memory).
The only time this is used is when a new Row is added to the Caches.
/**
* Writes the data to disk. Unlike CachedRow, hasChanged is never set
* to true when changes are made to the Nodes. (Nodes are in-memory).
* The only time this is used is when a new Row is added to the Caches.
*/
public void write(RowOutputInterface out) {
out.writeSize(storageSize);
out.writeData(this, table.colTypes);
out.writeEnd();
}
public boolean isNew() {
return false;
}
public boolean hasChanged() {
return hasDataChanged;
}
public synchronized void setChanged(boolean flag) {
hasDataChanged = flag;
}
public void updateAccessCount(int count) {
accessCount = count;
}
public int getAccessCount() {
return accessCount;
}
public int getStorageSize() {
return storageSize;
}
public void setStorageSize(int size) {
storageSize = size;
}
Sets the file position for the row and registers the row with
the table.
Params: - pos – position in data file
/**
* Sets the file position for the row and registers the row with
* the table.
*
* @param pos position in data file
*/
public void setPos(long pos) {
position = pos;
}
public boolean isMemory() {
return true;
}
used by Index, nodes are always in memory /** used by Index, nodes are always in memory */
public boolean isInMemory() {
return rowData != null;
}
public boolean isKeepInMemory() {
return false;
}
public boolean keepInMemory(boolean keep) {
return true;
}
required to purge cache /** required to purge cache */
public void setInMemory(boolean in) {
if (!in) {
rowData = null;
}
}
}