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/*
* Copyright 2004-2010 H2 Group. Multiple-Licensed under the H2 License,
* Version 1.0, and under the Eclipse Public License, Version 1.0
* (http://h2database.com/html/license.html).
* Initial Developer: H2 Group
*/
package org.h2.table;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Set;
import org.h2.command.Prepared;
import org.h2.constant.ErrorCode;
import org.h2.constraint.Constraint;
import org.h2.engine.Constants;
import org.h2.engine.DbObject;
import org.h2.engine.Right;
import org.h2.engine.Session;
import org.h2.engine.UndoLogRecord;
import org.h2.expression.Expression;
import org.h2.expression.ExpressionVisitor;
import org.h2.index.Index;
import org.h2.index.IndexType;
import org.h2.message.DbException;
import org.h2.message.Trace;
import org.h2.result.Row;
import org.h2.result.RowList;
import org.h2.result.SearchRow;
import org.h2.result.SimpleRow;
import org.h2.result.SimpleRowValue;
import org.h2.schema.Schema;
import org.h2.schema.SchemaObjectBase;
import org.h2.schema.Sequence;
import org.h2.schema.TriggerObject;
import org.h2.util.New;
import org.h2.value.CompareMode;
import org.h2.value.DataType;
import org.h2.value.Value;
import org.h2.value.ValueNull;
/**
* This is the base class for most tables.
* A table contains a list of columns and a list of rows.
*/
public abstract class Table extends SchemaObjectBase {
/**
* The table type that means this table is a regular persistent table.
*/
public static final int TYPE_CACHED = 0;
/**
* The table type that means this table is a regular persistent table.
*/
public static final int TYPE_MEMORY = 1;
/**
* The table type name for linked tables.
*/
public static final String TABLE_LINK = "TABLE LINK";
/**
* The table type name for system tables.
*/
public static final String SYSTEM_TABLE = "SYSTEM TABLE";
/**
* The table type name for regular data tables.
*/
public static final String TABLE = "TABLE";
/**
* The table type name for views.
*/
public static final String VIEW = "VIEW";
/**
* The table type name for external table engines.
*/
public static final String EXTERNAL_TABLE_ENGINE = "EXTERNAL";
/**
* The columns of this table.
*/
protected Column[] columns;
/**
* The amount of memory required for a row if all values would be very small.
*/
protected int memoryPerRow;
/**
* The compare mode used for this table.
*/
protected CompareMode compareMode;
/**
* Protected tables are not listed in the meta data and are excluded when
* using the SCRIPT command.
*/
protected boolean isHidden;
private final HashMap columnMap = New.hashMap();
private boolean persistIndexes;
private boolean persistData;
private ArrayList triggers;
private ArrayList constraints;
private ArrayList sequences;
private ArrayList views;
private boolean checkForeignKeyConstraints = true;
private boolean onCommitDrop, onCommitTruncate;
private Row nullRow;
public Table(Schema schema, int id, String name, boolean persistIndexes, boolean persistData) {
initSchemaObjectBase(schema, id, name, Trace.TABLE);
this.persistIndexes = persistIndexes;
this.persistData = persistData;
compareMode = schema.getDatabase().getCompareMode();
}
public void rename(String newName) {
super.rename(newName);
for (int i = 0; constraints != null && i < constraints.size(); i++) {
Constraint constraint = constraints.get(i);
constraint.rebuild();
}
}
/**
* Lock the table for the given session.
* This method waits until the lock is granted.
*
* @param session the session
* @param exclusive true for write locks, false for read locks
* @param force lock even in the MVCC mode
* @throws SQLException if a lock timeout occurred
*/
public abstract void lock(Session session, boolean exclusive, boolean force);
/**
* Close the table object and flush changes.
*
* @param session the session
*/
public abstract void close(Session session);
/**
* Release the lock for this session.
*
* @param s the session
*/
public abstract void unlock(Session s);
/**
* Create an index for this table
*
* @param session the session
* @param indexName the name of the index
* @param indexId the id
* @param cols the index columns
* @param indexType the index type
* @param create whether this is a new index
* @param indexComment the comment
* @return the index
*/
public abstract Index addIndex(Session session, String indexName, int indexId, IndexColumn[] cols, IndexType indexType,
boolean create, String indexComment);
/**
* Remove a row from the table and all indexes.
*
* @param session the session
* @param row the row
*/
public abstract void removeRow(Session session, Row row);
/**
* Remove all rows from the table and indexes.
*
* @param session the session
*/
public abstract void truncate(Session session);
/**
* Add a row to the table and all indexes.
*
* @param session the session
* @param row the row
* @throws SQLException if a constraint was violated
*/
public abstract void addRow(Session session, Row row);
/**
* Check if this table supports ALTER TABLE.
*
* @throws SQLException if it is not supported
*/
public abstract void checkSupportAlter();
/**
* Get the table type name
*
* @return the table type name
*/
public abstract String getTableType();
/**
* Get the scan index to iterate through all rows.
*
* @param session the session
* @return the index
*/
public abstract Index getScanIndex(Session session);
/**
* Get any unique index for this table if one exists.
*
* @return a unique index
*/
public abstract Index getUniqueIndex();
/**
* Get all indexes for this table.
*
* @return the list of indexes
*/
public abstract ArrayList getIndexes();
/**
* Check if this table is locked exclusively.
*
* @return true if it is.
*/
public abstract boolean isLockedExclusively();
/**
* Get the last data modification id.
*
* @return the modification id
*/
public abstract long getMaxDataModificationId();
/**
* Check if the table is deterministic.
*
* @return true if it is
*/
public abstract boolean isDeterministic();
/**
* Check if the row count can be retrieved quickly.
*
* @return true if it can
*/
public abstract boolean canGetRowCount();
/**
* Check if this table can be dropped.
*
* @return true if it can
*/
public abstract boolean canDrop();
/**
* Get the row count for this table.
*
* @param session the session
* @return the row count
*/
public abstract long getRowCount(Session session);
/**
* Get the approximated row count for this table.
*
* @return the approximated row count
*/
public abstract long getRowCountApproximation();
public String getCreateSQLForCopy(Table table, String quotedName) {
throw DbException.throwInternalError();
}
/**
* Add all objects that this table depends on to the hash set.
*
* @param dependencies the current set of dependencies
*/
public void addDependencies(HashSet dependencies) {
if (sequences != null) {
for (Sequence s : sequences) {
dependencies.add(s);
}
}
ExpressionVisitor visitor = ExpressionVisitor.get(ExpressionVisitor.GET_DEPENDENCIES);
visitor.setDependencies(dependencies);
for (Column col : columns) {
col.isEverything(visitor);
}
}
public ArrayList getChildren() {
ArrayList children = New.arrayList();
ArrayList indexes = getIndexes();
if (indexes != null) {
children.addAll(indexes);
}
if (constraints != null) {
children.addAll(constraints);
}
if (triggers != null) {
children.addAll(triggers);
}
if (sequences != null) {
children.addAll(sequences);
}
if (views != null) {
children.addAll(views);
}
ArrayList rights = database.getAllRights();
for (Right right : rights) {
if (right.getGrantedTable() == this) {
children.add(right);
}
}
return children;
}
protected void setColumns(Column[] columns) {
this.columns = columns;
if (columnMap.size() > 0) {
columnMap.clear();
}
// a row needs memory even if there are no columns
int memory = 1;
for (int i = 0; i < columns.length; i++) {
Column col = columns[i];
int dataType = col.getType();
if (dataType == Value.UNKNOWN) {
throw DbException.get(ErrorCode.UNKNOWN_DATA_TYPE_1, col.getSQL());
}
memory += DataType.getDataType(dataType).memory;
col.setTable(this, i);
String columnName = col.getName();
if (columnMap.get(columnName) != null) {
throw DbException.get(ErrorCode.DUPLICATE_COLUMN_NAME_1, columnName);
}
columnMap.put(columnName, col);
}
memoryPerRow = memory;
}
/**
* Rename a column of this table.
*
* @param column the column to rename
* @param newName the new column name
*/
public void renameColumn(Column column, String newName) {
for (Column c : columns) {
if (c == column) {
continue;
}
if (c.getName().equals(newName)) {
throw DbException.get(ErrorCode.DUPLICATE_COLUMN_NAME_1, newName);
}
}
columnMap.remove(column.getName());
column.rename(newName);
columnMap.put(newName, column);
}
/**
* Check if the table is exclusively locked by this session.
*
* @param session the session
* @return true if it is
*/
public boolean isLockedExclusivelyBy(Session session) {
return false;
}
/**
* Update a list of rows in this table.
*
* @param prepared the prepared statement
* @param session the session
* @param rows a list of row pairs of the form old row, new row, old row,
* new row,...
*/
public void updateRows(Prepared prepared, Session session, RowList rows) {
// remove the old rows
int rowScanCount = 0;
for (rows.reset(); rows.hasNext();) {
if ((++rowScanCount & 127) == 0) {
prepared.checkCanceled();
}
Row o = rows.next();
rows.next();
removeRow(session, o);
session.log(this, UndoLogRecord.DELETE, o);
}
// add the new rows
for (rows.reset(); rows.hasNext();) {
if ((++rowScanCount & 127) == 0) {
prepared.checkCanceled();
}
rows.next();
Row n = rows.next();
addRow(session, n);
session.log(this, UndoLogRecord.INSERT, n);
}
}
public void removeChildrenAndResources(Session session) {
while (views != null && views.size() > 0) {
TableView view = views.get(0);
views.remove(0);
database.removeSchemaObject(session, view);
}
while (triggers != null && triggers.size() > 0) {
TriggerObject trigger = triggers.get(0);
triggers.remove(0);
database.removeSchemaObject(session, trigger);
}
while (constraints != null && constraints.size() > 0) {
Constraint constraint = constraints.get(0);
constraints.remove(0);
database.removeSchemaObject(session, constraint);
}
for (Right right : database.getAllRights()) {
if (right.getGrantedTable() == this) {
database.removeDatabaseObject(session, right);
}
}
database.removeMeta(session, getId());
// must delete sequences later (in case there is a power failure
// before removing the table object)
while (sequences != null && sequences.size() > 0) {
Sequence sequence = sequences.get(0);
sequences.remove(0);
if (!isTemporary()) {
// only remove if no other table depends on this sequence
// this is possible when calling ALTER TABLE ALTER COLUMN
if (database.getDependentTable(sequence, this) == null) {
database.removeSchemaObject(session, sequence);
}
}
}
}
/**
* Check that this column is not referenced by a referential constraint or
* multi-column index.
*
* @param col the column
* @throws SQLException if the column is referenced
*/
public void checkColumnIsNotReferenced(Column col) {
for (int i = 0; constraints != null && i < constraints.size(); i++) {
Constraint constraint = constraints.get(i);
if (constraint.containsColumn(col)) {
throw DbException.get(ErrorCode.COLUMN_MAY_BE_REFERENCED_1, constraint.getSQL());
}
}
ArrayList indexes = getIndexes();
for (int i = 0; indexes != null && i < indexes.size(); i++) {
Index index = indexes.get(i);
if (index.getColumns().length == 1) {
continue;
}
if (index.getCreateSQL() == null) {
continue;
}
if (index.getColumnIndex(col) >= 0) {
throw DbException.get(ErrorCode.COLUMN_MAY_BE_REFERENCED_1, index.getSQL());
}
}
}
public Row getTemplateRow() {
return new Row(new Value[columns.length], memoryPerRow);
}
/**
* Get a new simple row object.
*
* @param singleColumn if only one value need to be stored
* @return the simple row object
*/
public SearchRow getTemplateSimpleRow(boolean singleColumn) {
if (singleColumn) {
return new SimpleRowValue(columns.length);
}
return new SimpleRow(new Value[columns.length]);
}
Row getNullRow() {
synchronized (this) {
if (nullRow == null) {
nullRow = new Row(new Value[columns.length], 1);
for (int i = 0; i < columns.length; i++) {
nullRow.setValue(i, ValueNull.INSTANCE);
}
}
return nullRow;
}
}
public Column[] getColumns() {
return columns;
}
public int getType() {
return DbObject.TABLE_OR_VIEW;
}
/**
* Get the column at the given index.
*
* @param index the column index (0, 1,...)
* @return the column
*/
public Column getColumn(int index) {
return columns[index];
}
/**
* Get the column with the given name.
*
* @param columnName the column name
* @return the column
* @throws SQLException if the column was not found
*/
public Column getColumn(String columnName) {
Column column = columnMap.get(columnName);
if (column == null) {
throw DbException.get(ErrorCode.COLUMN_NOT_FOUND_1, columnName);
}
return column;
}
/**
* Get the best plan for the given search mask.
*
* @param session the session
* @param masks null means 'always false'
* @return the plan item
*/
public PlanItem getBestPlanItem(Session session, int[] masks) {
PlanItem item = new PlanItem();
item.setIndex(getScanIndex(session));
item.cost = item.getIndex().getCost(session, null);
ArrayList indexes = getIndexes();
for (int i = 1; indexes != null && masks != null && i < indexes.size(); i++) {
Index index = indexes.get(i);
double cost = index.getCost(session, masks);
if (cost < item.cost) {
item.cost = cost;
item.setIndex(index);
}
}
return item;
}
/**
* Get the primary key index if there is one, or null if there is none.
*
* @return the primary key index or null
*/
public Index findPrimaryKey() {
ArrayList indexes = getIndexes();
for (int i = 0; indexes != null && i < indexes.size(); i++) {
Index idx = indexes.get(i);
if (idx.getIndexType().isPrimaryKey()) {
return idx;
}
}
return null;
}
public Index getPrimaryKey() {
Index index = findPrimaryKey();
if (index != null) {
return index;
}
throw DbException.get(ErrorCode.INDEX_NOT_FOUND_1, Constants.PREFIX_PRIMARY_KEY);
}
/**
* Validate all values in this row, convert the values if required, and
* update the sequence values if required. This call will also set the
* default values if required and set the computed column if there are any.
*
* @param session the session
* @param row the row
*/
public void validateConvertUpdateSequence(Session session, Row row) {
for (int i = 0; i < columns.length; i++) {
Value value = row.getValue(i);
Column column = columns[i];
Value v2;
if (column.getComputed()) {
// force updating the value
value = null;
v2 = column.computeValue(session, row);
}
v2 = column.validateConvertUpdateSequence(session, value);
if (v2 != value) {
row.setValue(i, v2);
}
}
}
private void remove(ArrayList< ? extends DbObject> list, DbObject obj) {
if (list != null) {
int i = list.indexOf(obj);
if (i >= 0) {
list.remove(i);
}
}
}
/**
* Remove the given index from the list.
*
* @param index the index to remove
*/
public void removeIndex(Index index) {
ArrayList indexes = getIndexes();
if (indexes != null) {
remove(indexes, index);
if (index.getIndexType().isPrimaryKey()) {
for (Column col : index.getColumns()) {
col.setPrimaryKey(false);
}
}
}
}
/**
* Remove the given view from the list.
*
* @param view the view to remove
*/
void removeView(TableView view) {
remove(views, view);
}
/**
* Remove the given constraint from the list.
*
* @param constraint the constraint to remove
*/
public void removeConstraint(Constraint constraint) {
remove(constraints, constraint);
}
/**
* Remove a sequence from the table. Sequences are used as identity columns.
*
* @param session the session
* @param sequence the sequence to remove
*/
public void removeSequence(Session session, Sequence sequence) {
remove(sequences, sequence);
}
/**
* Remove the given trigger from the list.
*
* @param trigger the trigger to remove
*/
public void removeTrigger(TriggerObject trigger) {
remove(triggers, trigger);
}
/**
* Add a view to this table.
*
* @param view the view to add
*/
public void addView(TableView view) {
views = add(views, view);
}
/**
* Add a constraint to the table.
*
* @param constraint the constraint to add
*/
public void addConstraint(Constraint constraint) {
if (constraints == null || constraints.indexOf(constraint) < 0) {
constraints = add(constraints, constraint);
}
}
public ArrayList getConstraints() {
return constraints;
}
/**
* Add a sequence to this table.
*
* @param sequence the sequence to add
*/
public void addSequence(Sequence sequence) {
sequences = add(sequences, sequence);
}
/**
* Add a trigger to this table.
*
* @param trigger the trigger to add
*/
public void addTrigger(TriggerObject trigger) {
triggers = add(triggers, trigger);
}
private ArrayList add(ArrayList list, T obj) {
if (list == null) {
list = New.arrayList();
}
// self constraints are two entries in the list
list.add(obj);
return list;
}
/**
* Fire the triggers for this table.
*
* @param session the session
* @param type the trigger type
* @param beforeAction whether 'before' triggers should be called
*/
public void fire(Session session, int type, boolean beforeAction) {
if (triggers != null) {
for (TriggerObject trigger : triggers) {
trigger.fire(session, type, beforeAction);
}
}
}
/**
* Check whether this table has a select trigger.
*
* @return true if it has
*/
public boolean hasSelectTrigger() {
if (triggers != null) {
for (TriggerObject trigger : triggers) {
if (trigger.isSelectTrigger()) {
return true;
}
}
}
return false;
}
/**
* Check if row based triggers or constraints are defined.
* In this case the fire after and before row methods need to be called.
*
* @return if there are any triggers or rows defined
*/
public boolean fireRow() {
return (constraints != null && constraints.size() > 0) || (triggers != null && triggers.size() > 0);
}
/**
* Fire all triggers that need to be called before a row is updated.
*
* @param session the session
* @param oldRow the old data or null for an insert
* @param newRow the new data or null for a delete
* @return true if no further action is required (for 'instead of' triggers)
*/
public boolean fireBeforeRow(Session session, Row oldRow, Row newRow) {
boolean done = fireRow(session, oldRow, newRow, true, false);
fireConstraints(session, oldRow, newRow, true);
return done;
}
private void fireConstraints(Session session, Row oldRow, Row newRow, boolean before) {
if (constraints != null) {
for (Constraint constraint : constraints) {
if (constraint.isBefore() == before) {
constraint.checkRow(session, this, oldRow, newRow);
}
}
}
}
/**
* Fire all triggers that need to be called after a row is updated.
*
* @param session the session
* @param oldRow the old data or null for an insert
* @param newRow the new data or null for a delete
* @param rollback when the operation occurred within a rollback
*/
public void fireAfterRow(Session session, Row oldRow, Row newRow, boolean rollback) {
fireRow(session, oldRow, newRow, false, rollback);
if (!rollback) {
fireConstraints(session, oldRow, newRow, false);
}
}
private boolean fireRow(Session session, Row oldRow, Row newRow, boolean beforeAction, boolean rollback) {
if (triggers != null) {
for (TriggerObject trigger : triggers) {
boolean done = trigger.fireRow(session, oldRow, newRow, beforeAction, rollback);
if (done) {
return true;
}
}
}
return false;
}
public boolean isGlobalTemporary() {
return false;
}
/**
* Check if this table can be truncated.
*
* @return true if it can
*/
public boolean canTruncate() {
return false;
}
/**
* Enable or disable foreign key constraint checking for this table.
*
* @param session the session
* @param enabled true if checking should be enabled
* @param checkExisting true if existing rows must be checked during this call
*/
public void setCheckForeignKeyConstraints(Session session, boolean enabled, boolean checkExisting)
{
if (enabled && checkExisting) {
for (int i = 0; constraints != null && i < constraints.size(); i++) {
Constraint c = constraints.get(i);
c.checkExistingData(session);
}
}
checkForeignKeyConstraints = enabled;
}
public boolean getCheckForeignKeyConstraints() {
return checkForeignKeyConstraints;
}
/**
* Get the index that has the given column as the first element.
* This method returns null if no matching index is found.
*
* @param column the column
* @param first if the min value should be returned
* @return the index or null
*/
public Index getIndexForColumn(Column column, boolean first) {
ArrayList indexes = getIndexes();
for (int i = 1; indexes != null && i < indexes.size(); i++) {
Index index = indexes.get(i);
if (index.canGetFirstOrLast()) {
int idx = index.getColumnIndex(column);
if (idx == 0) {
return index;
}
}
}
return null;
}
public boolean getOnCommitDrop() {
return onCommitDrop;
}
public void setOnCommitDrop(boolean onCommitDrop) {
this.onCommitDrop = onCommitDrop;
}
public boolean getOnCommitTruncate() {
return onCommitTruncate;
}
public void setOnCommitTruncate(boolean onCommitTruncate) {
this.onCommitTruncate = onCommitTruncate;
}
/**
* If the index is still required by a constraint, transfer the ownership to
* it. Otherwise, the index is removed.
*
* @param session the session
* @param index the index that is no longer required
*/
public void removeIndexOrTransferOwnership(Session session, Index index) {
boolean stillNeeded = false;
for (int i = 0; constraints != null && i < constraints.size(); i++) {
Constraint cons = constraints.get(i);
if (cons.usesIndex(index)) {
cons.setIndexOwner(index);
database.update(session, cons);
stillNeeded = true;
}
}
if (!stillNeeded) {
database.removeSchemaObject(session, index);
}
}
/**
* Check if a deadlock occurred. This method is called recursively. There is
* a circle if the session to be tested has already being visited. If this
* session is part of the circle (if it is the clash session), the method
* must return an empty object array. Once a deadlock has been detected, the
* methods must add the session to the list. If this session is not part of
* the circle, or if no deadlock is detected, this method returns null.
*
* @param session the session to be tested for
* @param clash set with sessions already visited, and null when starting
* verification
* @param visited set with sessions already visited, and null when starting
* verification
* @return an object array with the sessions involved in the deadlock, or
* null
*/
public ArrayList checkDeadlock(Session session, Session clash, Set visited) {
return null;
}
public boolean isPersistIndexes() {
return persistIndexes;
}
public boolean isPersistData() {
return persistData;
}
/**
* Compare two values with the current comparison mode. The values may be of
* different type.
*
* @param a the first value
* @param b the second value
* @return 0 if both values are equal, -1 if the first value is smaller, and
* 1 otherwise
*/
public int compareTypeSave(Value a, Value b) {
int dataType = Value.getHigherOrder(a.getType(), b.getType());
a = a.convertTo(dataType);
b = b.convertTo(dataType);
return a.compareTypeSave(b, compareMode);
}
public CompareMode getCompareMode() {
return compareMode;
}
/**
* Tests if the table can be written. Usually, this depends on the
* database.checkWritingAllowed method, but some tables (eg. TableLink)
* overwrite this default behaviour.
*/
public void checkWritingAllowed() {
database.checkWritingAllowed();
}
/**
* Get or generate a default value for the given column.
*
* @param session the session
* @param column the column
* @return the value
*/
public Value getDefaultValue(Session session, Column column) {
Expression defaultExpr = column.getDefaultExpression();
Value v;
if (defaultExpr == null) {
v = column.validateConvertUpdateSequence(session, null);
} else {
v = defaultExpr.getValue(session);
}
return column.convert(v);
}
public boolean isHidden() {
return isHidden;
}
}