/*
* This program is free software; you can redistribute it and/or modify it under the
* terms of the GNU Lesser General Public License, version 2.1 as published by the Free Software
* Foundation.
*
* You should have received a copy of the GNU Lesser General Public License along with this
* program; if not, you can obtain a copy at http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html
* or from the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*
* 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 Lesser General Public License for more details.
*
* Copyright (c) 2008 - 2009 Object Refinery Ltd, Pentaho Corporation and Contributors. All rights reserved.
*/
package org.pentaho.reporting.engine.classic.extensions.datasources.olap4j;
import java.sql.SQLException;
import java.sql.Statement;
import java.util.ArrayList;
import java.util.LinkedHashSet;
import java.util.List;
import javax.swing.table.AbstractTableModel;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.olap4j.Cell;
import org.olap4j.CellSet;
import org.olap4j.CellSetAxis;
import org.olap4j.Position;
import org.olap4j.metadata.Dimension;
import org.olap4j.metadata.Member;
import org.pentaho.reporting.engine.classic.core.MetaAttributeNames;
import org.pentaho.reporting.engine.classic.core.MetaTableModel;
import org.pentaho.reporting.engine.classic.core.util.CloseableTableModel;
import org.pentaho.reporting.engine.classic.core.wizard.DataAttributes;
import org.pentaho.reporting.engine.classic.core.wizard.DefaultDataAttributes;
import org.pentaho.reporting.engine.classic.core.wizard.EmptyDataAttributes;
import org.pentaho.reporting.engine.classic.core.wizard.DefaultConceptQueryMapper;
import org.pentaho.reporting.libraries.base.util.FastStack;
/**
* Axis indexes are predefined: 0 = Columns, 1 = rows, 2 = pages, 3 = sections, 4 = Chapters, 5 and greater: unnamed) Up
* to 128 axises can be specified. There can be queries with no axis at all, which returns a single cell.
*
* @author : Thomas Morgner
*/
@SuppressWarnings({"UnnecessaryUnboxing"})
public class DenormalizedMDXTableModel extends AbstractTableModel implements CloseableTableModel, MetaTableModel
{
private static final Log logger = LogFactory.getLog(DenormalizedMDXTableModel.class);
private boolean noMeasures;
private CellSet resultSet;
private int rowCount;
private int columnCount;
private String[] columnNames;
private int[] axesSize;
private int[] columnToAxisPosition;
private Dimension[] columnToDimensionMapping;
private QueryResultWrapper resultWrapper;
public DenormalizedMDXTableModel(final QueryResultWrapper resultWrapper)
{
if (resultWrapper == null)
{
throw new NullPointerException("ResultSet returned was null");
}
this.resultWrapper = resultWrapper;
this.resultSet = resultWrapper.getCellSet();
// rowcount is the product of all axis-sizes. If an axis contains more than one member, then
// Mondrian already performs the crossjoin for us.
// column count is the sum of the maximum of all hierachy levels of all axis.
final List<CellSetAxis> axes = this.resultSet.getAxes();
this.rowCount = 0;
this.axesSize = new int[axes.size()];
final int[] axesMembers = new int[axes.size()];
final List<Dimension>[] dimensionsForMembersPerAxis = new List[axes.size()];
final List<Integer>[] membersPerAxis = new List[axes.size()];
// Axis contains (zero or more) positions, which contains (zero or more) members
for (int axesIndex = axes.size() - 1; axesIndex >= 0; axesIndex -= 1)
{
final CellSetAxis axis = axes.get(axesIndex);
final List<Position> positions = axis.getPositions();
axesSize[axesIndex] = positions.size();
if (positions.isEmpty())
{
noMeasures = true;
}
final ArrayList<Integer> memberList = new ArrayList<Integer>();
final ArrayList<Dimension> dimensionsForMembers = new ArrayList<Dimension>();
for (int positionsIndex = 0; positionsIndex < positions.size(); positionsIndex++)
{
final Position position = positions.get(positionsIndex);
final List<Member> members = position.getMembers();
for (int positionIndex = 0; positionIndex < members.size(); positionIndex++)
{
final LinkedHashSet<String> columnNamesSet = new LinkedHashSet<String>();
Member m = members.get(positionIndex);
final Dimension dimension = m.getDimension();
while (m != null)
{
final String name = m.getLevel().getUniqueName();
if (columnNamesSet.contains(name) == false)
{
columnNamesSet.add(name);
}
m = m.getParentMember();
}
final int hierarchyLevelCount = columnNamesSet.size();
if (memberList.size() <= positionIndex)
{
memberList.add(hierarchyLevelCount);
dimensionsForMembers.add(dimension);
}
else
{
final Integer existingLevel = memberList.get(positionIndex);
if (existingLevel.intValue() < hierarchyLevelCount)
{
memberList.set(positionIndex, hierarchyLevelCount);
dimensionsForMembers.set(positionIndex, dimension);
}
}
}
}
int memberCount = 0;
for (int i = 0; i < memberList.size(); i++)
{
memberCount += memberList.get(i);
}
axesMembers[axesIndex] = memberCount;
dimensionsForMembersPerAxis[axesIndex] = dimensionsForMembers;
membersPerAxis[axesIndex] = memberList;
}
if (axesSize.length > 0)
{
rowCount = axesSize[0];
for (int i = 1; i < axesSize.length; i++)
{
final int size = axesSize[i];
rowCount *= size;
}
}
rowCount = Math.max(1, rowCount);
for (int i = 0; i < axesMembers.length; i++)
{
columnCount += axesMembers[i];
}
if (noMeasures == false)
{
columnCount += 1;
}
columnNames = new String[columnCount];
columnToDimensionMapping = new Dimension[columnCount];
columnToAxisPosition = new int[columnCount];
int columnIndex = 0;
int dimColIndex = 0;
final FastStack memberStack = new FastStack();
for (int axesIndex = axes.size() - 1; axesIndex >= 0; axesIndex -= 1)
{
final CellSetAxis axis = axes.get(axesIndex);
final List<Position> positions = axis.getPositions();
final LinkedHashSet<String> columnNamesSet = new LinkedHashSet<String>();
for (int positionsIndex = 0; positionsIndex < positions.size(); positionsIndex++)
{
final Position position = positions.get(positionsIndex);
final List<Member> members = position.getMembers();
for (int positionIndex = 0; positionIndex < members.size(); positionIndex++)
{
memberStack.clear();
Member m = members.get(positionIndex);
while (m != null)
{
memberStack.push(m);
m = m.getParentMember();
}
while (memberStack.isEmpty() == false)
{
m = (Member) memberStack.pop();
final String name = m.getLevel().getUniqueName();
if (columnNamesSet.contains(name) == false)
{
columnNamesSet.add(name);
}
}
}
}
if (columnNamesSet.size() != axesMembers[axesIndex])
{
logger.error("ERROR: Number of names is not equal the pre-counted number.");
}
final List<Dimension> dimForMemberPerAxis = dimensionsForMembersPerAxis[axesIndex];
final List<Integer> memberCntPerAxis = membersPerAxis[axesIndex];
for (int i = 0; i < memberCntPerAxis.size(); i++)
{
final Integer count = memberCntPerAxis.get(i);
final Dimension dim = dimForMemberPerAxis.get(i);
for (int x = 0; x < count.intValue(); x += 1)
{
this.columnToDimensionMapping[dimColIndex + x] = dim;
this.columnToAxisPosition[dimColIndex + x] = axesIndex;
}
dimColIndex = count.intValue() + dimColIndex;
}
final String[] names = columnNamesSet.toArray(new String[columnNamesSet.size()]);
System.arraycopy(names, 0, this.columnNames, columnIndex, names.length);
columnIndex += names.length;
}
if (noMeasures == false)
{
final Member measureName = computeMeasureName(resultSet);
if (measureName != null)
{
columnNames[columnIndex] = measureName.getUniqueName();
}
else
{
columnNames[columnIndex] = "Measure";
}
}
}
private static Member computeMeasureName(final CellSet resultSet)
{
final List<Position> positionList = resultSet.getFilterAxis().getPositions();
for (int i = 0; i < positionList.size(); i++)
{
final Position position = positionList.get(i);
final List<Member> members = position.getMembers();
for (int positionIndex = 0; positionIndex < members.size(); positionIndex++)
{
Member m = members.get(positionIndex);
while (m != null)
{
if (m.getMemberType() == Member.Type.MEASURE)
{
return m;
}
m = m.getParentMember();
}
}
}
return null;
}
public int getRowCount()
{
return rowCount;
}
public int getColumnCount()
{
return columnCount;
}
/**
* Returns a default name for the column using spreadsheet conventions: A, B, C, ... Z, AA, AB, etc. If
* <code>column</code> cannot be found, returns an empty string.
*
* @param column the column being queried
* @return a string containing the default name of <code>column</code>
*/
public String getColumnName(final int column)
{
return columnNames[column];
}
public Class getColumnClass(final int columnIndex)
{
if (getRowCount() == 0)
{
return Object.class;
}
try
{
final Object targetClassObj = getValueAt(0, columnIndex);
if (targetClassObj == null)
{
return Object.class;
}
else
{
return targetClassObj.getClass();
}
}
catch (Exception e)
{
return Object.class;
}
}
public Object getValueAt(final int rowIndex,
final int columnIndex)
{
if (columnIndex >= columnNames.length)
{
throw new IndexOutOfBoundsException();
}
final List<Integer> cellKey = new ArrayList(axesSize.length);
int tmpRowIdx = rowIndex;
for (int i = 0; i < axesSize.length; i++)
{
final int axisSize = axesSize[i];
if (axisSize == 0)
{
cellKey.add(Integer.valueOf(0));
}
else
{
final int pos = tmpRowIdx % axisSize;
cellKey.add(Integer.valueOf(pos));
tmpRowIdx = tmpRowIdx / axisSize;
}
}
// user asked for a dimension ...
final Dimension dimension = columnToDimensionMapping[columnIndex];
if (dimension == null)
{
final Cell cell = resultSet.getCell(cellKey);
if (cell.isNull())
{
return null;
}
return cell.getValue();
}
Member contextMember = getContextMember(dimension, columnIndex, cellKey);
final String name = contextMember.getParentMember() == null ? contextMember.getName() : null;
while (contextMember != null)
{
if (contextMember.getLevel().getUniqueName().equals(getColumnName(columnIndex)))
{
return contextMember.getName();
}
contextMember = contextMember.getParentMember();
}
return name;
}
private Member getContextMember(final Dimension dimension,
final int columnIndex,
final List<Integer> cellKey)
{
final int axisIndex = columnToAxisPosition[columnIndex];
final CellSetAxis axis = resultSet.getAxes().get(axisIndex);
final Integer posIndex = cellKey.get(axisIndex);
final List<Position> positionList = axis.getPositions();
if (positionList.isEmpty())
{
return null;
}
final Position position = positionList.get(posIndex);
final List<Member> memberList = position.getMembers();
for (int i = 0; i < memberList.size(); i++)
{
final Member member = memberList.get(i);
if (dimension.equals(member.getDimension()))
{
return member;
}
}
return null;
}
public void close()
{
try
{
resultSet.close();
}
catch (SQLException e)
{
// ignore, but log.
}
try
{
final Statement statement = resultWrapper.getStatement();
statement.close();
}
catch (SQLException e)
{
// ignore ..
}
}
/**
* Returns the meta-attribute as Java-Object. The object type that is expected by the report engine is defined in the
* TableMetaData property set. It is the responsibility of the implementor to map the native meta-data model into a
* model suitable for reporting.
* <p/>
* Meta-data models that only describe meta-data for columns can ignore the row-parameter.
*
* @param rowIndex the row of the cell for which the meta-data is queried.
* @param columnIndex the index of the column for which the meta-data is queried.
* @return the meta-data object.
*/
public DataAttributes getCellDataAttributes(final int rowIndex, final int columnIndex)
{
if (columnIndex >= columnNames.length)
{
throw new IndexOutOfBoundsException();
}
final List<Integer> cellKey = new ArrayList(axesSize.length);
int tmpRowIdx = rowIndex;
for (int i = 0; i < axesSize.length; i++)
{
final int axisSize = axesSize[i];
if (axisSize == 0)
{
cellKey.add(Integer.valueOf(tmpRowIdx));
}
else
{
final int pos = tmpRowIdx % axisSize;
cellKey.add(Integer.valueOf(pos));
tmpRowIdx = tmpRowIdx / axisSize;
}
}
// user asked for a dimension ...
final Dimension dimension = columnToDimensionMapping[columnIndex];
if (dimension == null || noMeasures == false)
{
final Cell cell = resultSet.getCell(cellKey);
return new MDXMetaDataCellAttributes(EmptyDataAttributes.INSTANCE, cell);
}
Member contextMember = getContextMember(dimension, columnIndex, cellKey);
final String name = contextMember.getParentMember() == null ? contextMember.getName() : null;
while (contextMember != null)
{
if (contextMember.getLevel().getUniqueName().equals(getColumnName(columnIndex)))
{
return new MDXMetaDataMemberAttributes(EmptyDataAttributes.INSTANCE, contextMember);
}
contextMember = contextMember.getParentMember();
}
return EmptyDataAttributes.INSTANCE;
}
public boolean isCellDataAttributesSupported()
{
return true;
}
public DataAttributes getColumnAttributes(final int column)
{
return EmptyDataAttributes.INSTANCE;
}
/**
* Returns table-wide attributes. This usually contain hints about the data-source used to query the data as well as
* hints on the sort-order of the data.
*
* @return the table attributes.
*/
public DataAttributes getTableAttributes()
{
final DefaultDataAttributes dataAttributes = new DefaultDataAttributes();
dataAttributes.setMetaAttribute(MetaAttributeNames.Core.NAMESPACE,
MetaAttributeNames.Core.CROSSTAB_MODE, DefaultConceptQueryMapper.INSTANCE, MetaAttributeNames.Core.CROSSTAB_VALUE_NORMALIZED);
return dataAttributes;
}
}