/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* This file incorporates work covered by the following license notice:
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed
* with this work for additional information regarding copyright
* ownership. The ASF licenses this file to you under the Apache
* License, Version 2.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at http://www.apache.org/licenses/LICENSE-2.0 .
*/
#include <dpcache.hxx>
#include <dpobject.hxx>
#include <dptabsrc.hxx>
#include <dpsave.hxx>
#include <dpdimsave.hxx>
#include <dpoutput.hxx>
#include <dpshttab.hxx>
#include <dpsdbtab.hxx>
#include <dpgroup.hxx>
#include <document.hxx>
#include <rechead.hxx>
#include <pivot.hxx>
#include <dapiuno.hxx>
#include <miscuno.hxx>
#include <scerrors.hxx>
#include <refupdat.hxx>
#include <sc.hrc>
#include <attrib.hxx>
#include <scitems.hxx>
#include <unonames.hxx>
#include <dpglobal.hxx>
#include <globstr.hrc>
#include <queryentry.hxx>
#include <dputil.hxx>
#include <com/sun/star/beans/XPropertySet.hpp>
#include <com/sun/star/sdb/XCompletedExecution.hpp>
#include <com/sun/star/sdbc/DataType.hpp>
#include <com/sun/star/sdbc/SQLException.hpp>
#include <com/sun/star/sdbc/XResultSetMetaData.hpp>
#include <com/sun/star/sdbc/XResultSetMetaDataSupplier.hpp>
#include <com/sun/star/sdbc/XRow.hpp>
#include <com/sun/star/sdbc/XRowSet.hpp>
#include <com/sun/star/sheet/GeneralFunction2.hpp>
#include <com/sun/star/sheet/DataPilotFieldFilter.hpp>
#include <com/sun/star/sheet/DataPilotFieldOrientation.hpp>
#include <com/sun/star/sheet/DataPilotFieldReferenceType.hpp>
#include <com/sun/star/sheet/DataPilotTableHeaderData.hpp>
#include <com/sun/star/sheet/DataPilotTablePositionData.hpp>
#include <com/sun/star/sheet/DataPilotTablePositionType.hpp>
#include <com/sun/star/sheet/DimensionFlags.hpp>
#include <com/sun/star/task/InteractionHandler.hpp>
#include <com/sun/star/lang/XMultiServiceFactory.hpp>
#include <com/sun/star/lang/XSingleServiceFactory.hpp>
#include <com/sun/star/lang/XSingleComponentFactory.hpp>
#include <com/sun/star/lang/XInitialization.hpp>
#include <com/sun/star/container/XContentEnumerationAccess.hpp>
#include <com/sun/star/sheet/XDrillDownDataSupplier.hpp>
#include <comphelper/processfactory.hxx>
#include <comphelper/string.hxx>
#include <comphelper/types.hxx>
#include <sal/macros.h>
#include <tools/debug.hxx>
#include <tools/diagnose_ex.h>
#include <svl/zforlist.hxx>
#include <vcl/svapp.hxx>
#include <vcl/weld.hxx>
#include <utility>
#include <vector>
#include <memory>
#include <algorithm>
using namespace com::sun::star;
using ::std::vector;
using ::std::shared_ptr;
using ::com::sun::star::uno::Sequence;
using ::com::sun::star::uno::Reference;
using ::com::sun::star::uno::UNO_QUERY;
using ::com::sun::star::uno::Any;
using ::com::sun::star::uno::Exception;
using ::com::sun::star::lang::XComponent;
using ::com::sun::star::sheet::DataPilotTableHeaderData;
using ::com::sun::star::sheet::DataPilotTablePositionData;
using ::com::sun::star::sheet::XDimensionsSupplier;
using ::com::sun::star::beans::XPropertySet;
#define SC_SERVICE_ROWSET "com.sun.star.sdb.RowSet"
#define SC_DBPROP_DATASOURCENAME "DataSourceName"
#define SC_DBPROP_COMMAND "Command"
#define SC_DBPROP_COMMANDTYPE "CommandType"
#define SCDPSOURCE_SERVICE "com.sun.star.sheet.DataPilotSource"
namespace {
/**
* Database connection implementation for UNO database API. Note that in
* the UNO database API, column index is 1-based, whereas the interface
* requires that column index be 0-based.
*/
class DBConnector : public ScDPCache::DBConnector
{
ScDPCache& mrCache;
uno::Reference<sdbc::XRowSet> mxRowSet;
uno::Reference<sdbc::XRow> mxRow;
uno::Reference<sdbc::XResultSetMetaData> mxMetaData;
Date maNullDate;
public:
DBConnector(ScDPCache& rCache, const uno::Reference<sdbc::XRowSet>& xRowSet, const Date& rNullDate);
bool isValid() const;
virtual void getValue(long nCol, ScDPItemData &rData, SvNumFormatType& rNumType) const override;
virtual OUString getColumnLabel(long nCol) const override;
virtual long getColumnCount() const override;
virtual bool first() override;
virtual bool next() override;
virtual void finish() override;
};
DBConnector::DBConnector(ScDPCache& rCache, const uno::Reference<sdbc::XRowSet>& xRowSet, const Date& rNullDate) :
mrCache(rCache), mxRowSet(xRowSet), maNullDate(rNullDate)
{
Reference<sdbc::XResultSetMetaDataSupplier> xMetaSupp(mxRowSet, UNO_QUERY);
if (xMetaSupp.is())
mxMetaData = xMetaSupp->getMetaData();
mxRow.set(mxRowSet, UNO_QUERY);
}
bool DBConnector::isValid() const
{
return mxRowSet.is() && mxRow.is() && mxMetaData.is();
}
bool DBConnector::first()
{
return mxRowSet->first();
}
bool DBConnector::next()
{
return mxRowSet->next();
}
void DBConnector::finish()
{
mxRowSet->beforeFirst();
}
long DBConnector::getColumnCount() const
{
return mxMetaData->getColumnCount();
}
OUString DBConnector::getColumnLabel(long nCol) const
{
return mxMetaData->getColumnLabel(nCol+1);
}
void DBConnector::getValue(long nCol, ScDPItemData &rData, SvNumFormatType& rNumType) const
{
rNumType = SvNumFormatType::NUMBER;
sal_Int32 nType = mxMetaData->getColumnType(nCol+1);
try
{
double fValue = 0.0;
switch (nType)
{
case sdbc::DataType::BIT:
case sdbc::DataType::BOOLEAN:
{
rNumType = SvNumFormatType::LOGICAL;
fValue = mxRow->getBoolean(nCol+1) ? 1 : 0;
rData.SetValue(fValue);
break;
}
case sdbc::DataType::TINYINT:
case sdbc::DataType::SMALLINT:
case sdbc::DataType::INTEGER:
case sdbc::DataType::BIGINT:
case sdbc::DataType::FLOAT:
case sdbc::DataType::REAL:
case sdbc::DataType::DOUBLE:
case sdbc::DataType::NUMERIC:
case sdbc::DataType::DECIMAL:
{
//TODO: do the conversion here?
fValue = mxRow->getDouble(nCol+1);
rData.SetValue(fValue);
break;
}
case sdbc::DataType::DATE:
{
rNumType = SvNumFormatType::DATE;
util::Date aDate = mxRow->getDate(nCol+1);
fValue = Date(aDate.Day, aDate.Month, aDate.Year) - maNullDate;
rData.SetValue(fValue);
break;
}
case sdbc::DataType::TIME:
{
rNumType = SvNumFormatType::TIME;
util::Time aTime = mxRow->getTime(nCol+1);
fValue = aTime.Hours / static_cast<double>(::tools::Time::hourPerDay) +
aTime.Minutes / static_cast<double>(::tools::Time::minutePerDay) +
aTime.Seconds / static_cast<double>(::tools::Time::secondPerDay) +
aTime.NanoSeconds / static_cast<double>(::tools::Time::nanoSecPerDay);
rData.SetValue(fValue);
break;
}
case sdbc::DataType::TIMESTAMP:
{
rNumType = SvNumFormatType::DATETIME;
util::DateTime aStamp = mxRow->getTimestamp(nCol+1);
fValue = ( Date( aStamp.Day, aStamp.Month, aStamp.Year ) - maNullDate ) +
aStamp.Hours / static_cast<double>(::tools::Time::hourPerDay) +
aStamp.Minutes / static_cast<double>(::tools::Time::minutePerDay) +
aStamp.Seconds / static_cast<double>(::tools::Time::secondPerDay) +
aStamp.NanoSeconds / static_cast<double>(::tools::Time::nanoSecPerDay);
rData.SetValue(fValue);
break;
}
case sdbc::DataType::CHAR:
case sdbc::DataType::VARCHAR:
case sdbc::DataType::LONGVARCHAR:
case sdbc::DataType::SQLNULL:
case sdbc::DataType::BINARY:
case sdbc::DataType::VARBINARY:
case sdbc::DataType::LONGVARBINARY:
default:
// nCol is 0-based, and the left-most column always has nCol == 0.
rData.SetStringInterned(
mrCache.InternString(nCol, mxRow->getString(nCol+1)));
}
}
catch (uno::Exception&)
{
rData.SetEmpty();
}
}
}
sheet::DataPilotFieldOrientation lcl_GetDataGetOrientation( const uno::Reference<sheet::XDimensionsSupplier>& xSource )
{
sheet::DataPilotFieldOrientation nRet = sheet::DataPilotFieldOrientation_HIDDEN;
if ( xSource.is() )
{
uno::Reference<container::XNameAccess> xDimsName = xSource->getDimensions();
uno::Reference<container::XIndexAccess> xIntDims = new ScNameToIndexAccess( xDimsName );
long nIntCount = xIntDims->getCount();
bool bFound = false;
for (long nIntDim=0; nIntDim<nIntCount && !bFound; nIntDim++)
{
uno::Reference<uno::XInterface> xIntDim =
ScUnoHelpFunctions::AnyToInterface( xIntDims->getByIndex(nIntDim) );
uno::Reference<beans::XPropertySet> xDimProp( xIntDim, uno::UNO_QUERY );
if ( xDimProp.is() )
{
bFound = ScUnoHelpFunctions::GetBoolProperty( xDimProp,
SC_UNO_DP_ISDATALAYOUT );
//TODO: error checking -- is "IsDataLayoutDimension" property required??
if (bFound)
nRet = ScUnoHelpFunctions::GetEnumProperty(
xDimProp, SC_UNO_DP_ORIENTATION,
sheet::DataPilotFieldOrientation_HIDDEN );
}
}
}
return nRet;
}
ScDPServiceDesc::ScDPServiceDesc(
const OUString& rServ, const OUString& rSrc, const OUString& rNam,
const OUString& rUser, const OUString& rPass ) :
aServiceName( rServ ),
aParSource( rSrc ),
aParName( rNam ),
aParUser( rUser ),
aParPass( rPass ) {}
bool ScDPServiceDesc::operator== ( const ScDPServiceDesc& rOther ) const
{
return aServiceName == rOther.aServiceName &&
aParSource == rOther.aParSource &&
aParName == rOther.aParName &&
aParUser == rOther.aParUser &&
aParPass == rOther.aParPass;
}
ScDPObject::ScDPObject( ScDocument* pD ) :
pDoc( pD ),
mpTableData(static_cast<ScDPTableData*>(nullptr)),
nHeaderRows( 0 ),
mbHeaderLayout(false),
bAllowMove(false),
bSettingsChanged(false),
mbEnableGetPivotData(true)
{
}
ScDPObject::ScDPObject(const ScDPObject& r) :
pDoc( r.pDoc ),
aTableName( r.aTableName ),
aTableTag( r.aTableTag ),
aOutRange( r.aOutRange ),
mpTableData(static_cast<ScDPTableData*>(nullptr)),
nHeaderRows( r.nHeaderRows ),
mbHeaderLayout( r.mbHeaderLayout ),
bAllowMove(false),
bSettingsChanged(false),
mbEnableGetPivotData(r.mbEnableGetPivotData)
{
if (r.pSaveData)
pSaveData.reset( new ScDPSaveData(*r.pSaveData) );
if (r.pSheetDesc)
pSheetDesc.reset( new ScSheetSourceDesc(*r.pSheetDesc) );
if (r.pImpDesc)
pImpDesc.reset( new ScImportSourceDesc(*r.pImpDesc) );
if (r.pServDesc)
pServDesc.reset( new ScDPServiceDesc(*r.pServDesc) );
// xSource (and pOutput) is not copied
}
ScDPObject::~ScDPObject()
{
Clear();
}
ScDPObject& ScDPObject::operator= (const ScDPObject& r)
{
Clear();
pDoc = r.pDoc;
aTableName = r.aTableName;
aTableTag = r.aTableTag;
aOutRange = r.aOutRange;
nHeaderRows = r.nHeaderRows;
mbHeaderLayout = r.mbHeaderLayout;
bAllowMove = false;
bSettingsChanged = false;
mbEnableGetPivotData = r.mbEnableGetPivotData;
if (r.pSaveData)
pSaveData.reset( new ScDPSaveData(*r.pSaveData) );
if (r.pSheetDesc)
pSheetDesc.reset( new ScSheetSourceDesc(*r.pSheetDesc) );
if (r.pImpDesc)
pImpDesc.reset( new ScImportSourceDesc(*r.pImpDesc) );
if (r.pServDesc)
pServDesc.reset( new ScDPServiceDesc(*r.pServDesc) );
return *this;
}
void ScDPObject::EnableGetPivotData(bool b)
{
mbEnableGetPivotData = b;
}
void ScDPObject::SetAllowMove(bool bSet)
{
bAllowMove = bSet;
}
void ScDPObject::SetSaveData(const ScDPSaveData& rData)
{
if ( pSaveData.get() != &rData ) // API implementation modifies the original SaveData object
{
pSaveData.reset( new ScDPSaveData( rData ) );
}
InvalidateData(); // re-init source from SaveData
}
void ScDPObject::SetHeaderLayout (bool bUseGrid)
{
mbHeaderLayout = bUseGrid;
}
void ScDPObject::SetOutRange(const ScRange& rRange)
{
aOutRange = rRange;
if ( pOutput )
pOutput->SetPosition( rRange.aStart );
}
const ScRange& ScDPObject::GetOutRange() const
{
return aOutRange;
}
void ScDPObject::SetSheetDesc(const ScSheetSourceDesc& rDesc)
{
if ( pSheetDesc && rDesc == *pSheetDesc )
return; // nothing to do
pImpDesc.reset();
pServDesc.reset();
pSheetDesc.reset( new ScSheetSourceDesc(rDesc) );
// make valid QueryParam
const ScRange& rSrcRange = pSheetDesc->GetSourceRange();
ScQueryParam aParam = pSheetDesc->GetQueryParam();
aParam.nCol1 = rSrcRange.aStart.Col();
aParam.nRow1 = rSrcRange.aStart.Row();
aParam.nCol2 = rSrcRange.aEnd.Col();
aParam.nRow2 = rSrcRange.aEnd.Row();
aParam.bHasHeader = true;
pSheetDesc->SetQueryParam(aParam);
ClearTableData(); // new source must be created
}
void ScDPObject::SetImportDesc(const ScImportSourceDesc& rDesc)
{
if ( pImpDesc && rDesc == *pImpDesc )
return; // nothing to do
pSheetDesc.reset();
pServDesc.reset();
pImpDesc.reset( new ScImportSourceDesc(rDesc) );
ClearTableData(); // new source must be created
}
void ScDPObject::SetServiceData(const ScDPServiceDesc& rDesc)
{
if ( pServDesc && rDesc == *pServDesc )
return; // nothing to do
pSheetDesc.reset();
pImpDesc.reset();
pServDesc.reset( new ScDPServiceDesc(rDesc) );
ClearTableData(); // new source must be created
}
void ScDPObject::WriteSourceDataTo( ScDPObject& rDest ) const
{
if ( pSheetDesc )
rDest.SetSheetDesc( *pSheetDesc );
else if ( pImpDesc )
rDest.SetImportDesc( *pImpDesc );
else if ( pServDesc )
rDest.SetServiceData( *pServDesc );
// name/tag are not source data, but needed along with source data
rDest.aTableName = aTableName;
rDest.aTableTag = aTableTag;
}
void ScDPObject::WriteTempDataTo( ScDPObject& rDest ) const
{
rDest.nHeaderRows = nHeaderRows;
}
bool ScDPObject::IsSheetData() const
{
return ( pSheetDesc != nullptr );
}
void ScDPObject::SetName(const OUString& rNew)
{
aTableName = rNew;
}
void ScDPObject::SetTag(const OUString& rNew)
{
aTableTag = rNew;
}
bool ScDPObject::IsDataDescriptionCell(const ScAddress& rPos)
{
if (!pSaveData)
return false;
long nDataDimCount = pSaveData->GetDataDimensionCount();
if (nDataDimCount != 1)
// There has to be exactly one data dimension for the description to
// appear at top-left corner.
return false;
CreateOutput();
ScRange aTabRange = pOutput->GetOutputRange(sheet::DataPilotOutputRangeType::TABLE);
return (rPos == aTabRange.aStart);
}
uno::Reference<sheet::XDimensionsSupplier> const & ScDPObject::GetSource()
{
CreateObjects();
return xSource;
}
void ScDPObject::CreateOutput()
{
CreateObjects();
if (!pOutput)
{
bool bFilterButton = IsSheetData() && pSaveData && pSaveData->GetFilterButton();
pOutput.reset( new ScDPOutput( pDoc, xSource, aOutRange.aStart, bFilterButton ) );
pOutput->SetHeaderLayout ( mbHeaderLayout );
long nOldRows = nHeaderRows;
nHeaderRows = pOutput->GetHeaderRows();
if ( bAllowMove && nHeaderRows != nOldRows )
{
long nDiff = nOldRows - nHeaderRows;
if ( nOldRows == 0 )
--nDiff;
if ( nHeaderRows == 0 )
++nDiff;
long nNewRow = aOutRange.aStart.Row() + nDiff;
if ( nNewRow < 0 )
nNewRow = 0;
ScAddress aStart( aOutRange.aStart );
aStart.SetRow(nNewRow);
pOutput->SetPosition( aStart );
//TODO: modify aOutRange?
bAllowMove = false; // use only once
}
}
}
namespace {
class DisableGetPivotData
{
ScDPObject& mrDPObj;
bool mbOldState;
public:
DisableGetPivotData(ScDPObject& rObj, bool bOld) : mrDPObj(rObj), mbOldState(bOld)
{
mrDPObj.EnableGetPivotData(false);
}
~DisableGetPivotData()
{
mrDPObj.EnableGetPivotData(mbOldState);
}
};
class FindIntersectingTable
{
ScRange maRange;
public:
explicit FindIntersectingTable(const ScRange& rRange) : maRange(rRange) {}
bool operator() (const std::unique_ptr<ScDPObject>& rObj) const
{
return maRange.Intersects(rObj->GetOutRange());
}
};
class FindIntersectingTableByColumns
{
SCCOL mnCol1;
SCCOL mnCol2;
SCROW mnRow;
SCTAB mnTab;
public:
FindIntersectingTableByColumns(SCCOL nCol1, SCCOL nCol2, SCROW nRow, SCTAB nTab) :
mnCol1(nCol1), mnCol2(nCol2), mnRow(nRow), mnTab(nTab) {}
bool operator() (const std::unique_ptr<ScDPObject>& rObj) const
{
const ScRange& rRange = rObj->GetOutRange();
if (mnTab != rRange.aStart.Tab())
// Not on this sheet.
return false;
if (rRange.aEnd.Row() < mnRow)
// This table is above the row. It's safe.
return false;
if (mnCol1 <= rRange.aStart.Col() && rRange.aEnd.Col() <= mnCol2)
// This table is fully enclosed in this column range.
return false;
if (rRange.aEnd.Col() < mnCol1 || mnCol2 < rRange.aStart.Col())
// This table is entirely outside this column range.
return false;
// This table must be intersected by this column range.
return true;
}
};
class FindIntersectingTableByRows
{
SCCOL mnCol;
SCROW mnRow1;
SCROW mnRow2;
SCTAB mnTab;
public:
FindIntersectingTableByRows(SCCOL nCol, SCROW nRow1, SCROW nRow2, SCTAB nTab) :
mnCol(nCol), mnRow1(nRow1), mnRow2(nRow2), mnTab(nTab) {}
bool operator() (const std::unique_ptr<ScDPObject>& rObj) const
{
const ScRange& rRange = rObj->GetOutRange();
if (mnTab != rRange.aStart.Tab())
// Not on this sheet.
return false;
if (rRange.aEnd.Col() < mnCol)
// This table is to the left of the column. It's safe.
return false;
if (mnRow1 <= rRange.aStart.Row() && rRange.aEnd.Row() <= mnRow2)
// This table is fully enclosed in this row range.
return false;
if (rRange.aEnd.Row() < mnRow1 || mnRow2 < rRange.aStart.Row())
// This table is entirely outside this row range.
return false;
// This table must be intersected by this row range.
return true;
}
};
class AccumulateOutputRanges
{
ScRangeList maRanges;
SCTAB mnTab;
public:
explicit AccumulateOutputRanges(SCTAB nTab) : mnTab(nTab) {}
AccumulateOutputRanges(const AccumulateOutputRanges& r) : maRanges(r.maRanges), mnTab(r.mnTab) {}
void operator() (const std::unique_ptr<ScDPObject>& rObj)
{
const ScRange& rRange = rObj->GetOutRange();
if (mnTab != rRange.aStart.Tab())
// Not on this sheet.
return;
maRanges.Join(rRange);
}
const ScRangeList& getRanges() const { return maRanges; }
};
}
ScDPTableData* ScDPObject::GetTableData()
{
if (!mpTableData)
{
shared_ptr<ScDPTableData> pData;
const ScDPDimensionSaveData* pDimData = pSaveData ? pSaveData->GetExistingDimensionData() : nullptr;
if ( pImpDesc )
{
// database data
const ScDPCache* pCache = pImpDesc->CreateCache(pDimData);
if (pCache)
{
pCache->AddReference(this);
pData.reset(new ScDatabaseDPData(pDoc, *pCache));
}
}
else
{
// cell data
if (!pSheetDesc)
{
OSL_FAIL("no source descriptor");
pSheetDesc.reset( new ScSheetSourceDesc(pDoc) ); // dummy defaults
}
{
// Temporarily disable GETPIVOTDATA to avoid having
// GETPIVOTDATA called onto itself from within the source
// range.
DisableGetPivotData aSwitch(*this, mbEnableGetPivotData);
const ScDPCache* pCache = pSheetDesc->CreateCache(pDimData);
if (pCache)
{
pCache->AddReference(this);
pData.reset(new ScSheetDPData(pDoc, *pSheetDesc, *pCache));
}
}
}
// grouping (for cell or database data)
if (pData && pDimData)
{
shared_ptr<ScDPGroupTableData> pGroupData(new ScDPGroupTableData(pData, pDoc));
pDimData->WriteToData(*pGroupData);
pData = pGroupData;
}
mpTableData = pData; // after SetCacheId
}
return mpTableData.get();
}
void ScDPObject::CreateObjects()
{
if (!xSource.is())
{
pOutput.reset(); // not valid when xSource is changed
if ( pServDesc )
{
xSource = CreateSource( *pServDesc );
}
if ( !xSource.is() ) // database or sheet data, or error in CreateSource
{
OSL_ENSURE( !pServDesc, "DPSource could not be created" );
ScDPTableData* pData = GetTableData();
if (pData)
{
if (pSaveData)
// Make sure to transfer these flags to the table data
// since they may have changed.
pData->SetEmptyFlags(pSaveData->GetIgnoreEmptyRows(), pSaveData->GetRepeatIfEmpty());
pData->ReloadCacheTable();
ScDPSource* pSource = new ScDPSource( pData );
xSource = pSource;
}
}
if (pSaveData)
pSaveData->WriteToSource( xSource );
}
else if (bSettingsChanged)
{
pOutput.reset(); // not valid when xSource is changed
uno::Reference<util::XRefreshable> xRef( xSource, uno::UNO_QUERY );
if (xRef.is())
{
try
{
xRef->refresh();
}
catch(uno::Exception&)
{
OSL_FAIL("exception in refresh");
}
}
if (pSaveData)
pSaveData->WriteToSource( xSource );
}
bSettingsChanged = false;
}
void ScDPObject::InvalidateData()
{
bSettingsChanged = true;
}
void ScDPObject::Clear()
{
pOutput.reset();
pSaveData.reset();
pSheetDesc.reset();
pImpDesc.reset();
pServDesc.reset();
ClearTableData();
}
void ScDPObject::ClearTableData()
{
ClearSource();
if (mpTableData)
mpTableData->GetCacheTable().getCache().RemoveReference(this);
mpTableData.reset();
}
void ScDPObject::ReloadGroupTableData()
{
ClearSource();
if (!mpTableData)
// Table data not built yet. No need to reload the group data.
return;
if (!pSaveData)
// How could it not have the save data... but whatever.
return;
const ScDPDimensionSaveData* pDimData = pSaveData->GetExistingDimensionData();
if (!pDimData || !pDimData->HasGroupDimensions())
{
// No group dimensions exist. Check if it currently has group
// dimensions, and if so, remove all of them.
ScDPGroupTableData* pData = dynamic_cast<ScDPGroupTableData*>(mpTableData.get());
if (pData)
{
// Replace the existing group table data with the source data.
shared_ptr<ScDPTableData> pSource = pData->GetSourceTableData();
mpTableData = pSource;
}
return;
}
ScDPGroupTableData* pData = dynamic_cast<ScDPGroupTableData*>(mpTableData.get());
if (pData)
{
// This is already a group table data. Salvage the source data and
// re-create a new group data.
shared_ptr<ScDPTableData> pSource = pData->GetSourceTableData();
shared_ptr<ScDPGroupTableData> pGroupData(new ScDPGroupTableData(pSource, pDoc));
pDimData->WriteToData(*pGroupData);
mpTableData = pGroupData;
}
else
{
// This is a source data. Create a group data based on it.
shared_ptr<ScDPGroupTableData> pGroupData(new ScDPGroupTableData(mpTableData, pDoc));
pDimData->WriteToData(*pGroupData);
mpTableData = pGroupData;
}
bSettingsChanged = true;
}
void ScDPObject::ClearSource()
{
Reference< XComponent > xObjectComp( xSource, UNO_QUERY );
if (xObjectComp.is())
{
try
{
xObjectComp->dispose();
}
catch( const Exception& )
{
DBG_UNHANDLED_EXCEPTION("sc.core");
}
}
xSource = nullptr;
}
ScRange ScDPObject::GetNewOutputRange( bool& rOverflow )
{
CreateOutput(); // create xSource and pOutput if not already done
rOverflow = pOutput->HasError(); // range overflow or exception from source
if ( rOverflow )
return ScRange( aOutRange.aStart );
else
{
// don't store the result in aOutRange, because nothing has been output yet
return pOutput->GetOutputRange();
}
}
void ScDPObject::Output( const ScAddress& rPos )
{
// clear old output area
pDoc->DeleteAreaTab( aOutRange.aStart.Col(), aOutRange.aStart.Row(),
aOutRange.aEnd.Col(), aOutRange.aEnd.Row(),
aOutRange.aStart.Tab(), InsertDeleteFlags::ALL );
pDoc->RemoveFlagsTab( aOutRange.aStart.Col(), aOutRange.aStart.Row(),
aOutRange.aEnd.Col(), aOutRange.aEnd.Row(),
aOutRange.aStart.Tab(), ScMF::Auto );
CreateOutput(); // create xSource and pOutput if not already done
pOutput->SetPosition( rPos );
pOutput->Output();
// aOutRange is always the range that was last output to the document
aOutRange = pOutput->GetOutputRange();
const ScAddress& s = aOutRange.aStart;
const ScAddress& e = aOutRange.aEnd;
pDoc->ApplyFlagsTab(s.Col(), s.Row(), e.Col(), e.Row(), s.Tab(), ScMF::DpTable);
}
ScRange ScDPObject::GetOutputRangeByType( sal_Int32 nType )
{
CreateOutput();
if (pOutput->HasError())
return ScRange(aOutRange.aStart);
return pOutput->GetOutputRange(nType);
}
ScRange ScDPObject::GetOutputRangeByType( sal_Int32 nType ) const
{
if (!pOutput || pOutput->HasError())
return ScRange(ScAddress::INITIALIZE_INVALID);
return pOutput->GetOutputRange(nType);
}
static bool lcl_HasButton( const ScDocument* pDoc, SCCOL nCol, SCROW nRow, SCTAB nTab )
{
return pDoc->GetAttr( nCol, nRow, nTab, ATTR_MERGE_FLAG )->HasPivotButton();
}
void ScDPObject::RefreshAfterLoad()
{
// apply drop-down attribute, initialize nHeaderRows, without accessing the source
// (button attribute must be present)
// simple test: block of button cells at the top, followed by an empty cell
SCCOL nFirstCol = aOutRange.aStart.Col();
SCROW nFirstRow = aOutRange.aStart.Row();
SCTAB nTab = aOutRange.aStart.Tab();
SCROW nInitial = 0;
SCROW nOutRows = aOutRange.aEnd.Row() + 1 - aOutRange.aStart.Row();
while ( nInitial + 1 < nOutRows && lcl_HasButton( pDoc, nFirstCol, nFirstRow + nInitial, nTab ) )
++nInitial;
if ( nInitial + 1 < nOutRows &&
pDoc->IsBlockEmpty( nTab, nFirstCol, nFirstRow + nInitial, nFirstCol, nFirstRow + nInitial ) &&
aOutRange.aEnd.Col() > nFirstCol )
{
nHeaderRows = nInitial;
}
else
nHeaderRows = 0; // nothing found, no drop-down lists
}
void ScDPObject::BuildAllDimensionMembers()
{
if (!pSaveData)
return;
// #i111857# don't always create empty mpTableData for external service.
if (pServDesc)
return;
ScDPTableData* pTableData = GetTableData();
if(pTableData)
pSaveData->BuildAllDimensionMembers(pTableData);
}
bool ScDPObject::SyncAllDimensionMembers()
{
if (!pSaveData)
return false;
// #i111857# don't always create empty mpTableData for external service.
// Ideally, xSource should be used instead of mpTableData.
if (pServDesc)
return false;
ScDPTableData* pData = GetTableData();
if (!pData)
// No table data exists. This can happen when refreshing from an
// external source which doesn't exist.
return false;
// Refresh the cache wrapper since the cache may have changed.
pData->SetEmptyFlags(pSaveData->GetIgnoreEmptyRows(), pSaveData->GetRepeatIfEmpty());
pData->ReloadCacheTable();
pSaveData->SyncAllDimensionMembers(pData);
return true;
}
bool ScDPObject::GetMemberNames( sal_Int32 nDim, Sequence<OUString>& rNames )
{
vector<ScDPLabelData::Member> aMembers;
if (!GetMembers(nDim, GetUsedHierarchy(nDim), aMembers))
return false;
size_t n = aMembers.size();
rNames.realloc(n);
for (size_t i = 0; i < n; ++i)
rNames[i] = aMembers[i].maName;
return true;
}
bool ScDPObject::GetMembers( sal_Int32 nDim, sal_Int32 nHier, vector<ScDPLabelData::Member>& rMembers )
{
Reference< sheet::XMembersAccess > xMembersNA;
if (!GetMembersNA( nDim, nHier, xMembersNA ))
return false;
Reference<container::XIndexAccess> xMembersIA( new ScNameToIndexAccess(xMembersNA) );
sal_Int32 nCount = xMembersIA->getCount();
vector<ScDPLabelData::Member> aMembers;
aMembers.reserve(nCount);
for (sal_Int32 i = 0; i < nCount; ++i)
{
Reference<container::XNamed> xMember(xMembersIA->getByIndex(i), UNO_QUERY);
ScDPLabelData::Member aMem;
if (xMember.is())
aMem.maName = xMember->getName();
Reference<beans::XPropertySet> xMemProp(xMember, UNO_QUERY);
if (xMemProp.is())
{
aMem.mbVisible = ScUnoHelpFunctions::GetBoolProperty(xMemProp, SC_UNO_DP_ISVISIBLE);
aMem.mbShowDetails = ScUnoHelpFunctions::GetBoolProperty(xMemProp, SC_UNO_DP_SHOWDETAILS);
aMem.maLayoutName = ScUnoHelpFunctions::GetStringProperty(
xMemProp, SC_UNO_DP_LAYOUTNAME, OUString());
}
aMembers.push_back(aMem);
}
rMembers.swap(aMembers);
return true;
}
void ScDPObject::UpdateReference( UpdateRefMode eUpdateRefMode,
const ScRange& rRange, SCCOL nDx, SCROW nDy, SCTAB nDz )
{
// Output area
SCCOL nCol1 = aOutRange.aStart.Col();
SCROW nRow1 = aOutRange.aStart.Row();
SCTAB nTab1 = aOutRange.aStart.Tab();
SCCOL nCol2 = aOutRange.aEnd.Col();
SCROW nRow2 = aOutRange.aEnd.Row();
SCTAB nTab2 = aOutRange.aEnd.Tab();
ScRefUpdateRes eRes =
ScRefUpdate::Update( pDoc, eUpdateRefMode,
rRange.aStart.Col(), rRange.aStart.Row(), rRange.aStart.Tab(),
rRange.aEnd.Col(), rRange.aEnd.Row(), rRange.aEnd.Tab(), nDx, nDy, nDz,
nCol1, nRow1, nTab1, nCol2, nRow2, nTab2 );
if ( eRes != UR_NOTHING )
SetOutRange( ScRange( nCol1, nRow1, nTab1, nCol2, nRow2, nTab2 ) );
// sheet source data
if ( pSheetDesc )
{
const OUString& rRangeName = pSheetDesc->GetRangeName();
if (!rRangeName.isEmpty())
// Source range is a named range. No need to update.
return;
const ScRange& rSrcRange = pSheetDesc->GetSourceRange();
nCol1 = rSrcRange.aStart.Col();
nRow1 = rSrcRange.aStart.Row();
nTab1 = rSrcRange.aStart.Tab();
nCol2 = rSrcRange.aEnd.Col();
nRow2 = rSrcRange.aEnd.Row();
nTab2 = rSrcRange.aEnd.Tab();
eRes = ScRefUpdate::Update( pDoc, eUpdateRefMode,
rRange.aStart.Col(), rRange.aStart.Row(), rRange.aStart.Tab(),
rRange.aEnd.Col(), rRange.aEnd.Row(), rRange.aEnd.Tab(), nDx, nDy, nDz,
nCol1, nRow1, nTab1, nCol2, nRow2, nTab2 );
if ( eRes != UR_NOTHING )
{
SCCOL nDiffX = nCol1 - pSheetDesc->GetSourceRange().aStart.Col();
SCROW nDiffY = nRow1 - pSheetDesc->GetSourceRange().aStart.Row();
ScQueryParam aParam = pSheetDesc->GetQueryParam();
aParam.nCol1 = sal::static_int_cast<SCCOL>( aParam.nCol1 + nDiffX );
aParam.nCol2 = sal::static_int_cast<SCCOL>( aParam.nCol2 + nDiffX );
aParam.nRow1 += nDiffY; //TODO: used?
aParam.nRow2 += nDiffY; //TODO: used?
SCSIZE nEC = aParam.GetEntryCount();
for (SCSIZE i=0; i<nEC; i++)
if (aParam.GetEntry(i).bDoQuery)
aParam.GetEntry(i).nField += nDiffX;
pSheetDesc->SetQueryParam(aParam);
pSheetDesc->SetSourceRange(ScRange(nCol1, nRow1, nTab1, nCol2, nRow2, nTab2));
}
}
}
bool ScDPObject::RefsEqual( const ScDPObject& r ) const
{
if ( aOutRange != r.aOutRange )
return false;
if ( pSheetDesc && r.pSheetDesc )
{
if ( pSheetDesc->GetSourceRange() != r.pSheetDesc->GetSourceRange() )
return false;
}
else if ( pSheetDesc || r.pSheetDesc )
{
OSL_FAIL("RefsEqual: SheetDesc set at only one object");
return false;
}
return true;
}
void ScDPObject::WriteRefsTo( ScDPObject& r ) const
{
r.SetOutRange( aOutRange );
if ( pSheetDesc )
r.SetSheetDesc( *pSheetDesc );
}
void ScDPObject::GetPositionData(const ScAddress& rPos, DataPilotTablePositionData& rPosData)
{
CreateOutput();
pOutput->GetPositionData(rPos, rPosData);
}
bool ScDPObject::GetDataFieldPositionData(
const ScAddress& rPos, Sequence<sheet::DataPilotFieldFilter>& rFilters)
{
CreateOutput();
vector<sheet::DataPilotFieldFilter> aFilters;
if (!pOutput->GetDataResultPositionData(aFilters, rPos))
return false;
sal_Int32 n = static_cast<sal_Int32>(aFilters.size());
rFilters.realloc(n);
for (sal_Int32 i = 0; i < n; ++i)
rFilters[i] = aFilters[i];
return true;
}
void ScDPObject::GetDrillDownData(const ScAddress& rPos, Sequence< Sequence<Any> >& rTableData)
{
CreateOutput();
Reference<sheet::XDrillDownDataSupplier> xDrillDownData(xSource, UNO_QUERY);
if (!xDrillDownData.is())
return;
Sequence<sheet::DataPilotFieldFilter> filters;
if (!GetDataFieldPositionData(rPos, filters))
return;
rTableData = xDrillDownData->getDrillDownData(filters);
}
bool ScDPObject::IsDimNameInUse(const OUString& rName) const
{
if (!xSource.is())
return false;
Reference<container::XNameAccess> xDims = xSource->getDimensions();
Sequence<OUString> aDimNames = xDims->getElementNames();
sal_Int32 n = aDimNames.getLength();
for (sal_Int32 i = 0; i < n; ++i)
{
const OUString& rDimName = aDimNames[i];
if (rDimName.equalsIgnoreAsciiCase(rName))
return true;
Reference<beans::XPropertySet> xPropSet(xDims->getByName(rDimName), UNO_QUERY);
if (!xPropSet.is())
continue;
OUString aLayoutName = ScUnoHelpFunctions::GetStringProperty(
xPropSet, SC_UNO_DP_LAYOUTNAME, OUString());
if (aLayoutName.equalsIgnoreAsciiCase(rName))
return true;
}
return false;
}
OUString ScDPObject::GetDimName( long nDim, bool& rIsDataLayout, sal_Int32* pFlags )
{
rIsDataLayout = false;
OUString aRet;
if ( xSource.is() )
{
uno::Reference<container::XNameAccess> xDimsName = xSource->getDimensions();
uno::Reference<container::XIndexAccess> xDims = new ScNameToIndexAccess( xDimsName );
long nDimCount = xDims->getCount();
if ( nDim < nDimCount )
{
uno::Reference<uno::XInterface> xIntDim =
ScUnoHelpFunctions::AnyToInterface( xDims->getByIndex(nDim) );
uno::Reference<container::XNamed> xDimName( xIntDim, uno::UNO_QUERY );
uno::Reference<beans::XPropertySet> xDimProp( xIntDim, uno::UNO_QUERY );
if ( xDimName.is() && xDimProp.is() )
{
bool bData = ScUnoHelpFunctions::GetBoolProperty( xDimProp,
SC_UNO_DP_ISDATALAYOUT );
//TODO: error checking -- is "IsDataLayoutDimension" property required??
OUString aName;
try
{
aName = xDimName->getName();
}
catch(uno::Exception&)
{
}
if ( bData )
rIsDataLayout = true;
else
aRet = aName;
if (pFlags)
*pFlags = ScUnoHelpFunctions::GetLongProperty( xDimProp,
SC_UNO_DP_FLAGS );
}
}
}
return aRet;
}
bool ScDPObject::IsDuplicated( long nDim )
{
bool bDuplicated = false;
if ( xSource.is() )
{
uno::Reference<container::XNameAccess> xDimsName = xSource->getDimensions();
uno::Reference<container::XIndexAccess> xDims = new ScNameToIndexAccess( xDimsName );
long nDimCount = xDims->getCount();
if ( nDim < nDimCount )
{
uno::Reference<uno::XInterface> xIntDim =
ScUnoHelpFunctions::AnyToInterface( xDims->getByIndex(nDim) );
uno::Reference<beans::XPropertySet> xDimProp( xIntDim, uno::UNO_QUERY );
if ( xDimProp.is() )
{
try
{
uno::Any aOrigAny = xDimProp->getPropertyValue( SC_UNO_DP_ORIGINAL );
uno::Reference<uno::XInterface> xIntOrig;
if ( (aOrigAny >>= xIntOrig) && xIntOrig.is() )
bDuplicated = true;
}
catch(uno::Exception&)
{
}
}
}
}
return bDuplicated;
}
long ScDPObject::GetDimCount()
{
long nRet = 0;
if ( xSource.is() )
{
try
{
uno::Reference<container::XNameAccess> xDimsName = xSource->getDimensions();
if ( xDimsName.is() )
nRet = xDimsName->getElementNames().getLength();
}
catch(uno::Exception&)
{
}
}
return nRet;
}
void ScDPObject::GetHeaderPositionData(const ScAddress& rPos, DataPilotTableHeaderData& rData)
{
CreateOutput(); // create xSource and pOutput if not already done
// Reset member values to invalid state.
rData.Dimension = rData.Hierarchy = rData.Level = -1;
rData.Flags = 0;
DataPilotTablePositionData aPosData;
pOutput->GetPositionData(rPos, aPosData);
const sal_Int32 nPosType = aPosData.PositionType;
if (nPosType == css::sheet::DataPilotTablePositionType::COLUMN_HEADER || nPosType == css::sheet::DataPilotTablePositionType::ROW_HEADER)
aPosData.PositionData >>= rData;
}
namespace {
class FindByName
{
OUString maName; // must be all uppercase.
public:
explicit FindByName(const OUString& rName) : maName(rName) {}
bool operator() (const ScDPSaveDimension* pDim) const
{
// Layout name takes precedence.
const boost::optional<OUString> & pLayoutName = pDim->GetLayoutName();
if (pLayoutName && ScGlobal::pCharClass->uppercase(*pLayoutName) == maName)
return true;
ScGeneralFunction eGenFunc = pDim->GetFunction();
ScSubTotalFunc eFunc = ScDPUtil::toSubTotalFunc(eGenFunc);
OUString aSrcName = ScDPUtil::getSourceDimensionName(pDim->GetName());
OUString aFuncName = ScDPUtil::getDisplayedMeasureName(aSrcName, eFunc);
if (maName == ScGlobal::pCharClass->uppercase(aFuncName))
return true;
return maName == ScGlobal::pCharClass->uppercase(aSrcName);
}
};
class LessByDimOrder
{
const ScDPSaveData::DimOrderType& mrDimOrder;
public:
explicit LessByDimOrder(const ScDPSaveData::DimOrderType& rDimOrder) : mrDimOrder(rDimOrder) {}
bool operator() (const sheet::DataPilotFieldFilter& r1, const sheet::DataPilotFieldFilter& r2) const
{
size_t nRank1 = mrDimOrder.size();
size_t nRank2 = mrDimOrder.size();
ScDPSaveData::DimOrderType::const_iterator it1 = mrDimOrder.find(r1.FieldName);
if (it1 != mrDimOrder.end())
nRank1 = it1->second;
ScDPSaveData::DimOrderType::const_iterator it2 = mrDimOrder.find(r2.FieldName);
if (it2 != mrDimOrder.end())
nRank2 = it2->second;
return nRank1 < nRank2;
}
};
}
double ScDPObject::GetPivotData(const OUString& rDataFieldName, std::vector<sheet::DataPilotFieldFilter>& rFilters)
{
double fRet;
rtl::math::setNan(&fRet);
if (!mbEnableGetPivotData)
return fRet;
CreateObjects();
std::vector<const ScDPSaveDimension*> aDataDims;
pSaveData->GetAllDimensionsByOrientation(sheet::DataPilotFieldOrientation_DATA, aDataDims);
if (aDataDims.empty())
return fRet;
std::vector<const ScDPSaveDimension*>::iterator it = std::find_if(
aDataDims.begin(), aDataDims.end(),
FindByName(ScGlobal::pCharClass->uppercase(rDataFieldName)));
if (it == aDataDims.end())
return fRet;
size_t nDataIndex = std::distance(aDataDims.begin(), it);
uno::Reference<sheet::XDataPilotResults> xDPResults(xSource, uno::UNO_QUERY);
if (!xDPResults.is())
return fRet;
// Dimensions must be sorted in order of appearance, and row dimensions
// must come before column dimensions.
std::sort(rFilters.begin(), rFilters.end(), LessByDimOrder(pSaveData->GetDimensionSortOrder()));
size_t n = rFilters.size();
uno::Sequence<sheet::DataPilotFieldFilter> aFilters(n);
for (size_t i = 0; i < n; ++i)
aFilters[i] = rFilters[i];
uno::Sequence<double> aRes = xDPResults->getFilteredResults(aFilters);
if (static_cast<sal_Int32>(nDataIndex) >= aRes.getLength())
return fRet;
return aRes[nDataIndex];
}
bool ScDPObject::IsFilterButton( const ScAddress& rPos )
{
CreateOutput(); // create xSource and pOutput if not already done
return pOutput->IsFilterButton( rPos );
}
long ScDPObject::GetHeaderDim( const ScAddress& rPos, sheet::DataPilotFieldOrientation& rOrient )
{
CreateOutput(); // create xSource and pOutput if not already done
return pOutput->GetHeaderDim( rPos, rOrient );
}
bool ScDPObject::GetHeaderDrag( const ScAddress& rPos, bool bMouseLeft, bool bMouseTop, long nDragDim,
tools::Rectangle& rPosRect, sheet::DataPilotFieldOrientation& rOrient, long& rDimPos )
{
CreateOutput(); // create xSource and pOutput if not already done
return pOutput->GetHeaderDrag( rPos, bMouseLeft, bMouseTop, nDragDim, rPosRect, rOrient, rDimPos );
}
void ScDPObject::GetMemberResultNames(ScDPUniqueStringSet& rNames, long nDimension)
{
CreateOutput(); // create xSource and pOutput if not already done
pOutput->GetMemberResultNames(rNames, nDimension); // used only with table data -> level not needed
}
OUString ScDPObject::GetFormattedString(const OUString& rDimName, const double fValue)
{
ScDPTableData* pTableData = GetTableData();
if(!pTableData)
return OUString();
long nDim;
for (nDim = 0; nDim < pTableData->GetColumnCount(); ++nDim)
{
if(rDimName == pTableData->getDimensionName(nDim))
break;
}
ScDPItemData aItemData;
aItemData.SetValue(fValue);
return GetTableData()->GetFormattedString(nDim, aItemData, false);
}
namespace {
bool dequote( const OUString& rSource, sal_Int32 nStartPos, sal_Int32& rEndPos, OUString& rResult )
{
// nStartPos has to point to opening quote
const sal_Unicode cQuote = '\'';
if (rSource[nStartPos] == cQuote)
{
OUStringBuffer aBuffer;
sal_Int32 nPos = nStartPos + 1;
const sal_Int32 nLen = rSource.getLength();
while ( nPos < nLen )
{
const sal_Unicode cNext = rSource[nPos];
if ( cNext == cQuote )
{
if (nPos+1 < nLen && rSource[nPos+1] == cQuote)
{
// double quote is used for an embedded quote
aBuffer.append( cNext ); // append one quote
++nPos; // skip the next one
}
else
{
// end of quoted string
rResult = aBuffer.makeStringAndClear();
rEndPos = nPos + 1; // behind closing quote
return true;
}
}
else
aBuffer.append( cNext );
++nPos;
}
// no closing quote before the end of the string -> error (bRet still false)
}
return false;
}
struct ScGetPivotDataFunctionEntry
{
const sal_Char* pName;
sal_Int16 eFunc;
};
bool parseFunction( const OUString& rList, sal_Int32 nStartPos, sal_Int32& rEndPos, sal_Int16& rFunc )
{
static const ScGetPivotDataFunctionEntry aFunctions[] =
{
// our names
{ "Sum", sheet::GeneralFunction2::SUM },
{ "Count", sheet::GeneralFunction2::COUNT },
{ "Average", sheet::GeneralFunction2::AVERAGE },
{ "Max", sheet::GeneralFunction2::MAX },
{ "Min", sheet::GeneralFunction2::MIN },
{ "Product", sheet::GeneralFunction2::PRODUCT },
{ "CountNums", sheet::GeneralFunction2::COUNTNUMS },
{ "StDev", sheet::GeneralFunction2::STDEV },
{ "StDevp", sheet::GeneralFunction2::STDEVP },
{ "Var", sheet::GeneralFunction2::VAR },
{ "VarP", sheet::GeneralFunction2::VARP },
// compatibility names
{ "Count Nums", sheet::GeneralFunction2::COUNTNUMS },
{ "StdDev", sheet::GeneralFunction2::STDEV },
{ "StdDevp", sheet::GeneralFunction2::STDEVP }
};
const sal_Int32 nListLen = rList.getLength();
while (nStartPos < nListLen && rList[nStartPos] == ' ')
++nStartPos;
bool bParsed = false;
bool bFound = false;
OUString aFuncStr;
sal_Int32 nFuncEnd = 0;
if (nStartPos < nListLen && rList[nStartPos] == '\'')
bParsed = dequote( rList, nStartPos, nFuncEnd, aFuncStr );
else
{
nFuncEnd = rList.indexOf(']', nStartPos);
if (nFuncEnd >= 0)
{
aFuncStr = rList.copy(nStartPos, nFuncEnd - nStartPos);
bParsed = true;
}
}
if ( bParsed )
{
aFuncStr = comphelper::string::strip(aFuncStr, ' ');
const sal_Int32 nFuncCount = SAL_N_ELEMENTS(aFunctions);
for ( sal_Int32 nFunc=0; nFunc<nFuncCount && !bFound; nFunc++ )
{
if (aFuncStr.equalsIgnoreAsciiCaseAscii(aFunctions[nFunc].pName))
{
rFunc = aFunctions[nFunc].eFunc;
bFound = true;
while (nFuncEnd < nListLen && rList[nFuncEnd] == ' ')
++nFuncEnd;
rEndPos = nFuncEnd;
}
}
}
return bFound;
}
bool extractAtStart( const OUString& rList, sal_Int32& rMatched, bool bAllowBracket, sal_Int16* pFunc,
OUString& rDequoted )
{
sal_Int32 nMatchList = 0;
sal_Unicode cFirst = rList[0];
bool bParsed = false;
if ( cFirst == '\'' || cFirst == '[' )
{
// quoted string or string in brackets must match completely
OUString aDequoted;
sal_Int32 nQuoteEnd = 0;
if ( cFirst == '\'' )
bParsed = dequote( rList, 0, nQuoteEnd, aDequoted );
else if ( cFirst == '[' )
{
// skip spaces after the opening bracket
sal_Int32 nStartPos = 1;
const sal_Int32 nListLen = rList.getLength();
while (nStartPos < nListLen && rList[nStartPos] == ' ')
++nStartPos;
if (nStartPos < nListLen && rList[nStartPos] == '\'') // quoted within the brackets?
{
if ( dequote( rList, nStartPos, nQuoteEnd, aDequoted ) )
{
// after the quoted string, there must be the closing bracket, optionally preceded by spaces,
// and/or a function name
while (nQuoteEnd < nListLen && rList[nQuoteEnd] == ' ')
++nQuoteEnd;
// semicolon separates function name
if (nQuoteEnd < nListLen && rList[nQuoteEnd] == ';' && pFunc)
{
sal_Int32 nFuncEnd = 0;
if ( parseFunction( rList, nQuoteEnd + 1, nFuncEnd, *pFunc ) )
nQuoteEnd = nFuncEnd;
}
if (nQuoteEnd < nListLen && rList[nQuoteEnd] == ']')
{
++nQuoteEnd; // include the closing bracket for the matched length
bParsed = true;
}
}
}
else
{
// implicit quoting to the closing bracket
sal_Int32 nClosePos = rList.indexOf(']', nStartPos);
if (nClosePos >= 0)
{
sal_Int32 nNameEnd = nClosePos;
sal_Int32 nSemiPos = rList.indexOf(';', nStartPos);
if (nSemiPos >= 0 && nSemiPos < nClosePos && pFunc)
{
sal_Int32 nFuncEnd = 0;
if (parseFunction(rList, nSemiPos+1, nFuncEnd, *pFunc))
nNameEnd = nSemiPos;
}
aDequoted = rList.copy(nStartPos, nNameEnd - nStartPos);
// spaces before the closing bracket or semicolon
aDequoted = comphelper::string::stripEnd(aDequoted, ' ');
nQuoteEnd = nClosePos + 1;
bParsed = true;
}
}
}
if ( bParsed )
{
nMatchList = nQuoteEnd; // match count in the list string, including quotes
rDequoted = aDequoted;
}
}
if (bParsed)
{
// look for following space or end of string
bool bValid = false;
if ( sal::static_int_cast<sal_Int32>(nMatchList) >= rList.getLength() )
bValid = true;
else
{
sal_Unicode cNext = rList[nMatchList];
if ( cNext == ' ' || ( bAllowBracket && cNext == '[' ) )
bValid = true;
}
if ( bValid )
{
rMatched = nMatchList;
return true;
}
}
return false;
}
bool isAtStart(
const OUString& rList, const OUString& rSearch, sal_Int32& rMatched,
bool bAllowBracket, sal_Int16* pFunc )
{
sal_Int32 nMatchList = 0;
sal_Int32 nMatchSearch = 0;
sal_Unicode cFirst = rList[0];
if ( cFirst == '\'' || cFirst == '[' )
{
OUString aDequoted;
bool bParsed = extractAtStart( rList, rMatched, bAllowBracket, pFunc, aDequoted);
if ( bParsed && ScGlobal::GetpTransliteration()->isEqual( aDequoted, rSearch ) )
{
nMatchList = rMatched; // match count in the list string, including quotes
nMatchSearch = rSearch.getLength();
}
}
else
{
// otherwise look for search string at the start of rList
ScGlobal::GetpTransliteration()->equals(
rList, 0, rList.getLength(), nMatchList, rSearch, 0, rSearch.getLength(), nMatchSearch);
}
if (nMatchSearch == rSearch.getLength())
{
// search string is at start of rList - look for following space or end of string
bool bValid = false;
if ( sal::static_int_cast<sal_Int32>(nMatchList) >= rList.getLength() )
bValid = true;
else
{
sal_Unicode cNext = rList[nMatchList];
if ( cNext == ' ' || ( bAllowBracket && cNext == '[' ) )
bValid = true;
}
if ( bValid )
{
rMatched = nMatchList;
return true;
}
}
return false;
}
} // anonymous namespace
bool ScDPObject::ParseFilters(
OUString& rDataFieldName,
std::vector<sheet::DataPilotFieldFilter>& rFilters,
std::vector<sal_Int16>& rFilterFuncs, const OUString& rFilterList )
{
// parse the string rFilterList into parameters for GetPivotData
CreateObjects(); // create xSource if not already done
std::vector<OUString> aDataNames; // data fields (source name)
std::vector<OUString> aGivenNames; // data fields (compound name)
std::vector<OUString> aFieldNames; // column/row/data fields
std::vector< uno::Sequence<OUString> > aFieldValueNames;
std::vector< uno::Sequence<OUString> > aFieldValues;
// get all the field and item names
uno::Reference<container::XNameAccess> xDimsName = xSource->getDimensions();
uno::Reference<container::XIndexAccess> xIntDims = new ScNameToIndexAccess( xDimsName );
sal_Int32 nDimCount = xIntDims->getCount();
for ( sal_Int32 nDim = 0; nDim<nDimCount; nDim++ )
{
uno::Reference<uno::XInterface> xIntDim = ScUnoHelpFunctions::AnyToInterface( xIntDims->getByIndex(nDim) );
uno::Reference<container::XNamed> xDim( xIntDim, uno::UNO_QUERY );
uno::Reference<beans::XPropertySet> xDimProp( xDim, uno::UNO_QUERY );
uno::Reference<sheet::XHierarchiesSupplier> xDimSupp( xDim, uno::UNO_QUERY );
bool bDataLayout = ScUnoHelpFunctions::GetBoolProperty( xDimProp,
SC_UNO_DP_ISDATALAYOUT );
sheet::DataPilotFieldOrientation nOrient = ScUnoHelpFunctions::GetEnumProperty(
xDimProp, SC_UNO_DP_ORIENTATION,
sheet::DataPilotFieldOrientation_HIDDEN );
if ( !bDataLayout )
{
if ( nOrient == sheet::DataPilotFieldOrientation_DATA )
{
OUString aSourceName;
OUString aGivenName;
ScDPOutput::GetDataDimensionNames( aSourceName, aGivenName, xIntDim );
aDataNames.push_back( aSourceName );
aGivenNames.push_back( aGivenName );
}
else if ( nOrient != sheet::DataPilotFieldOrientation_HIDDEN )
{
// get level names, as in ScDPOutput
uno::Reference<container::XIndexAccess> xHiers = new ScNameToIndexAccess( xDimSupp->getHierarchies() );
sal_Int32 nHierarchy = ScUnoHelpFunctions::GetLongProperty( xDimProp,
SC_UNO_DP_USEDHIERARCHY );
if ( nHierarchy >= xHiers->getCount() )
nHierarchy = 0;
uno::Reference<uno::XInterface> xHier = ScUnoHelpFunctions::AnyToInterface(
xHiers->getByIndex(nHierarchy) );
uno::Reference<sheet::XLevelsSupplier> xHierSupp( xHier, uno::UNO_QUERY );
if ( xHierSupp.is() )
{
uno::Reference<container::XIndexAccess> xLevels = new ScNameToIndexAccess( xHierSupp->getLevels() );
sal_Int32 nLevCount = xLevels->getCount();
for (sal_Int32 nLev=0; nLev<nLevCount; nLev++)
{
uno::Reference<uno::XInterface> xLevel = ScUnoHelpFunctions::AnyToInterface(
xLevels->getByIndex(nLev) );
uno::Reference<container::XNamed> xLevNam( xLevel, uno::UNO_QUERY );
uno::Reference<sheet::XMembersSupplier> xLevSupp( xLevel, uno::UNO_QUERY );
if ( xLevNam.is() && xLevSupp.is() )
{
uno::Reference<sheet::XMembersAccess> xMembers = xLevSupp->getMembers();
OUString aFieldName( xLevNam->getName() );
// getElementNames() and getLocaleIndependentElementNames()
// must be consecutive calls to obtain strings in matching order.
uno::Sequence<OUString> aMemberValueNames( xMembers->getElementNames() );
uno::Sequence<OUString> aMemberValues( xMembers->getLocaleIndependentElementNames() );
aFieldNames.push_back( aFieldName );
aFieldValueNames.push_back( aMemberValueNames );
aFieldValues.push_back( aMemberValues );
}
}
}
}
}
}
// compare and build filters
SCSIZE nDataFields = aDataNames.size();
SCSIZE nFieldCount = aFieldNames.size();
OSL_ENSURE( aGivenNames.size() == nDataFields && aFieldValueNames.size() == nFieldCount &&
aFieldValues.size() == nFieldCount, "wrong count" );
bool bError = false;
bool bHasData = false;
OUString aRemaining(comphelper::string::strip(rFilterList, ' '));
while (!aRemaining.isEmpty() && !bError)
{
bool bUsed = false;
// look for data field name
for ( SCSIZE nDataPos=0; nDataPos<nDataFields && !bUsed; nDataPos++ )
{
OUString aFound;
sal_Int32 nMatched = 0;
if (isAtStart(aRemaining, aDataNames[nDataPos], nMatched, false, nullptr))
aFound = aDataNames[nDataPos];
else if (isAtStart(aRemaining, aGivenNames[nDataPos], nMatched, false, nullptr))
aFound = aGivenNames[nDataPos];
if (!aFound.isEmpty())
{
rDataFieldName = aFound;
aRemaining = aRemaining.copy(nMatched);
bHasData = true;
bUsed = true;
}
}
// look for field name
OUString aSpecField;
bool bHasFieldName = false;
if ( !bUsed )
{
sal_Int32 nMatched = 0;
for ( SCSIZE nField=0; nField<nFieldCount && !bHasFieldName; nField++ )
{
if (isAtStart(aRemaining, aFieldNames[nField], nMatched, true, nullptr))
{
aSpecField = aFieldNames[nField];
aRemaining = aRemaining.copy(nMatched);
aRemaining = comphelper::string::stripStart(aRemaining, ' ');
// field name has to be followed by item name in brackets
if (aRemaining.startsWith("["))
{
bHasFieldName = true;
// bUsed remains false - still need the item
}
else
{
bUsed = true;
bError = true;
}
}
}
}
// look for field item
if ( !bUsed )
{
bool bItemFound = false;
sal_Int32 nMatched = 0;
OUString aFoundName;
OUString aFoundValueName;
OUString aFoundValue;
sal_Int16 eFunc = sheet::GeneralFunction2::NONE;
sal_Int16 eFoundFunc = sheet::GeneralFunction2::NONE;
OUString aQueryValueName;
const bool bHasQuery = extractAtStart( aRemaining, nMatched, false, &eFunc, aQueryValueName);
OUString aQueryValue = aQueryValueName;
if (mpTableData)
{
SvNumberFormatter* pFormatter = mpTableData->GetCacheTable().getCache().GetNumberFormatter();
if (pFormatter)
{
// Parse possible number from aQueryValueName and format
// locale independent as aQueryValue.
sal_uInt32 nNumFormat = 0;
double fValue;
if (pFormatter->IsNumberFormat( aQueryValueName, nNumFormat, fValue))
aQueryValue = ScDPCache::GetLocaleIndependentFormattedString( fValue, *pFormatter, nNumFormat);
}
}
for ( SCSIZE nField=0; nField<nFieldCount; nField++ )
{
// If a field name is given, look in that field only, otherwise in all fields.
// aSpecField is initialized from aFieldNames array, so exact comparison can be used.
if ( !bHasFieldName || aFieldNames[nField] == aSpecField )
{
const uno::Sequence<OUString>& rItemNames = aFieldValueNames[nField];
const uno::Sequence<OUString>& rItemValues = aFieldValues[nField];
sal_Int32 nItemCount = rItemNames.getLength();
assert(nItemCount == rItemValues.getLength());
const OUString* pItemNamesArr = rItemNames.getConstArray();
const OUString* pItemValuesArr = rItemValues.getConstArray();
for ( sal_Int32 nItem=0; nItem<nItemCount; nItem++ )
{
bool bThisItemFound;
if (bHasQuery)
{
// First check given value name against both.
bThisItemFound = ScGlobal::GetpTransliteration()->isEqual(
aQueryValueName, pItemNamesArr[nItem]);
if (!bThisItemFound && pItemValuesArr[nItem] != pItemNamesArr[nItem])
bThisItemFound = ScGlobal::GetpTransliteration()->isEqual(
aQueryValueName, pItemValuesArr[nItem]);
if (!bThisItemFound && aQueryValueName != aQueryValue)
{
// Second check locale independent value
// against both.
/* TODO: or check only value string against
* value string, not against the value name? */
bThisItemFound = ScGlobal::GetpTransliteration()->isEqual(
aQueryValue, pItemNamesArr[nItem]);
if (!bThisItemFound && pItemValuesArr[nItem] != pItemNamesArr[nItem])
bThisItemFound = ScGlobal::GetpTransliteration()->isEqual(
aQueryValue, pItemValuesArr[nItem]);
}
}
else
{
bThisItemFound = isAtStart( aRemaining, pItemNamesArr[nItem], nMatched, false, &eFunc );
if (!bThisItemFound && pItemValuesArr[nItem] != pItemNamesArr[nItem])
bThisItemFound = isAtStart( aRemaining, pItemValuesArr[nItem], nMatched, false, &eFunc );
/* TODO: this checks only the given value name,
* check also locale independent value. But we'd
* have to do that in each iteration of the loop
* inside isAtStart() since a query could not be
* extracted and a match could be on the passed
* item value name string or item value string
* starting at aRemaining. */
}
if (bThisItemFound)
{
if ( bItemFound )
bError = true; // duplicate (also across fields)
else
{
aFoundName = aFieldNames[nField];
aFoundValueName = pItemNamesArr[nItem];
aFoundValue = pItemValuesArr[nItem];
eFoundFunc = eFunc;
bItemFound = true;
bUsed = true;
}
}
}
}
}
if ( bItemFound && !bError )
{
sheet::DataPilotFieldFilter aField;
aField.FieldName = aFoundName;
aField.MatchValueName = aFoundValueName;
aField.MatchValue = aFoundValue;
rFilters.push_back(aField);
rFilterFuncs.push_back(eFoundFunc);
aRemaining = aRemaining.copy(nMatched);
}
}
if ( !bUsed )
bError = true;
// remove any number of spaces between entries
aRemaining = comphelper::string::stripStart(aRemaining, ' ');
}
if ( !bError && !bHasData && aDataNames.size() == 1 )
{
// if there's only one data field, its name need not be specified
rDataFieldName = aDataNames[0];
bHasData = true;
}
return bHasData && !bError;
}
void ScDPObject::ToggleDetails(const DataPilotTableHeaderData& rElemDesc, ScDPObject* pDestObj)
{
CreateObjects(); // create xSource if not already done
// find dimension name
uno::Reference<container::XNamed> xDim;
uno::Reference<container::XNameAccess> xDimsName = xSource->getDimensions();
uno::Reference<container::XIndexAccess> xIntDims = new ScNameToIndexAccess( xDimsName );
long nIntCount = xIntDims->getCount();
if ( rElemDesc.Dimension < nIntCount )
{
uno::Reference<uno::XInterface> xIntDim = ScUnoHelpFunctions::AnyToInterface(
xIntDims->getByIndex(rElemDesc.Dimension) );
xDim.set( xIntDim, uno::UNO_QUERY );
}
OSL_ENSURE( xDim.is(), "dimension not found" );
if ( !xDim.is() ) return;
OUString aDimName = xDim->getName();
uno::Reference<beans::XPropertySet> xDimProp( xDim, uno::UNO_QUERY );
bool bDataLayout = ScUnoHelpFunctions::GetBoolProperty( xDimProp,
SC_UNO_DP_ISDATALAYOUT );
if (bDataLayout)
{
// the elements of the data layout dimension can't be found by their names
// -> don't change anything
return;
}
// query old state
long nHierCount = 0;
uno::Reference<container::XIndexAccess> xHiers;
uno::Reference<sheet::XHierarchiesSupplier> xHierSupp( xDim, uno::UNO_QUERY );
if ( xHierSupp.is() )
{
uno::Reference<container::XNameAccess> xHiersName = xHierSupp->getHierarchies();
xHiers = new ScNameToIndexAccess( xHiersName );
nHierCount = xHiers->getCount();
}
uno::Reference<uno::XInterface> xHier;
if ( rElemDesc.Hierarchy < nHierCount )
xHier = ScUnoHelpFunctions::AnyToInterface( xHiers->getByIndex(rElemDesc.Hierarchy) );
OSL_ENSURE( xHier.is(), "hierarchy not found" );
if ( !xHier.is() ) return;
long nLevCount = 0;
uno::Reference<container::XIndexAccess> xLevels;
uno::Reference<sheet::XLevelsSupplier> xLevSupp( xHier, uno::UNO_QUERY );
if ( xLevSupp.is() )
{
uno::Reference<container::XNameAccess> xLevsName = xLevSupp->getLevels();
xLevels = new ScNameToIndexAccess( xLevsName );
nLevCount = xLevels->getCount();
}
uno::Reference<uno::XInterface> xLevel;
if ( rElemDesc.Level < nLevCount )
xLevel = ScUnoHelpFunctions::AnyToInterface( xLevels->getByIndex(rElemDesc.Level) );
OSL_ENSURE( xLevel.is(), "level not found" );
if ( !xLevel.is() ) return;
uno::Reference<sheet::XMembersAccess> xMembers;
uno::Reference<sheet::XMembersSupplier> xMbrSupp( xLevel, uno::UNO_QUERY );
if ( xMbrSupp.is() )
xMembers = xMbrSupp->getMembers();
bool bFound = false;
bool bShowDetails = true;
if ( xMembers.is() )
{
if ( xMembers->hasByName(rElemDesc.MemberName) )
{
uno::Reference<uno::XInterface> xMemberInt = ScUnoHelpFunctions::AnyToInterface(
xMembers->getByName(rElemDesc.MemberName) );
uno::Reference<beans::XPropertySet> xMbrProp( xMemberInt, uno::UNO_QUERY );
if ( xMbrProp.is() )
{
bShowDetails = ScUnoHelpFunctions::GetBoolProperty( xMbrProp,
SC_UNO_DP_SHOWDETAILS );
//TODO: don't set bFound if property is unknown?
bFound = true;
}
}
}
OSL_ENSURE( bFound, "member not found" );
//TODO: use Hierarchy and Level in SaveData !!!!
// modify pDestObj if set, this object otherwise
ScDPSaveData* pModifyData = pDestObj ? ( pDestObj->pSaveData.get() ) : pSaveData.get();
OSL_ENSURE( pModifyData, "no data?" );
if ( pModifyData )
{
const OUString aName = rElemDesc.MemberName;
pModifyData->GetDimensionByName(aDimName)->
GetMemberByName(aName)->SetShowDetails( !bShowDetails ); // toggle
if ( pDestObj )
pDestObj->InvalidateData(); // re-init source from SaveData
else
InvalidateData(); // re-init source from SaveData
}
}
static PivotFunc lcl_FirstSubTotal( const uno::Reference<beans::XPropertySet>& xDimProp ) // PIVOT_FUNC mask
{
uno::Reference<sheet::XHierarchiesSupplier> xDimSupp( xDimProp, uno::UNO_QUERY );
if ( xDimProp.is() && xDimSupp.is() )
{
uno::Reference<container::XIndexAccess> xHiers = new ScNameToIndexAccess( xDimSupp->getHierarchies() );
long nHierarchy = ScUnoHelpFunctions::GetLongProperty( xDimProp,
SC_UNO_DP_USEDHIERARCHY );
if ( nHierarchy >= xHiers->getCount() )
nHierarchy = 0;
uno::Reference<uno::XInterface> xHier = ScUnoHelpFunctions::AnyToInterface(
xHiers->getByIndex(nHierarchy) );
uno::Reference<sheet::XLevelsSupplier> xHierSupp( xHier, uno::UNO_QUERY );
if ( xHierSupp.is() )
{
uno::Reference<container::XIndexAccess> xLevels = new ScNameToIndexAccess( xHierSupp->getLevels() );
uno::Reference<uno::XInterface> xLevel =
ScUnoHelpFunctions::AnyToInterface( xLevels->getByIndex( 0 ) );
uno::Reference<beans::XPropertySet> xLevProp( xLevel, uno::UNO_QUERY );
if ( xLevProp.is() )
{
uno::Any aSubAny;
try
{
aSubAny = xLevProp->getPropertyValue( SC_UNO_DP_SUBTOTAL2 );
}
catch(uno::Exception&)
{
}
uno::Sequence<sal_Int16> aSeq;
if ( aSubAny >>= aSeq )
{
PivotFunc nMask = PivotFunc::NONE;
const sal_Int16* pArray = aSeq.getConstArray();
long nCount = aSeq.getLength();
for (long i=0; i<nCount; i++)
nMask |= ScDataPilotConversion::FunctionBit(pArray[i]);
return nMask;
}
}
}
}
OSL_FAIL("FirstSubTotal: NULL");
return PivotFunc::NONE;
}
namespace {
class FindByColumn
{
SCCOL mnCol;
PivotFunc mnMask;
public:
FindByColumn(SCCOL nCol, PivotFunc nMask) : mnCol(nCol), mnMask(nMask) {}
bool operator() (const ScPivotField& r) const
{
return r.nCol == mnCol && r.nFuncMask == mnMask;
}
};
}
void lcl_FillOldFields( ScPivotFieldVector& rFields,
const uno::Reference<sheet::XDimensionsSupplier>& xSource,
sheet::DataPilotFieldOrientation nOrient, bool bAddData )
{
ScPivotFieldVector aFields;
bool bDataFound = false;
//TODO: merge multiple occurrences (data field with different functions)
//TODO: force data field in one dimension
vector<long> aPos;
uno::Reference<container::XNameAccess> xDimsName = xSource->getDimensions();
uno::Reference<container::XIndexAccess> xDims = new ScNameToIndexAccess( xDimsName );
long nDimCount = xDims->getCount();
for (long nDim = 0; nDim < nDimCount; ++nDim)
{
// Get dimension object.
uno::Reference<uno::XInterface> xIntDim =
ScUnoHelpFunctions::AnyToInterface( xDims->getByIndex(nDim) );
// dimension properties
uno::Reference<beans::XPropertySet> xDimProp( xIntDim, uno::UNO_QUERY );
// dimension orientation, hidden by default.
sheet::DataPilotFieldOrientation nDimOrient = ScUnoHelpFunctions::GetEnumProperty(
xDimProp, SC_UNO_DP_ORIENTATION,
sheet::DataPilotFieldOrientation_HIDDEN );
if ( xDimProp.is() && nDimOrient == nOrient )
{
// Let's take this dimension.
// function mask.
PivotFunc nMask = PivotFunc::NONE;
if ( nOrient == sheet::DataPilotFieldOrientation_DATA )
{
sal_Int16 eFunc = ScUnoHelpFunctions::GetShortProperty(
xDimProp, SC_UNO_DP_FUNCTION2,
sheet::GeneralFunction2::NONE );
if ( eFunc == sheet::GeneralFunction2::AUTO )
{
//TODO: test for numeric data
eFunc = sheet::GeneralFunction2::SUM;
}
nMask = ScDataPilotConversion::FunctionBit(eFunc);
}
else
nMask = lcl_FirstSubTotal( xDimProp ); // from first hierarchy
// is this data layout dimension?
bool bDataLayout = ScUnoHelpFunctions::GetBoolProperty(
xDimProp, SC_UNO_DP_ISDATALAYOUT);
// is this dimension cloned?
long nDupSource = -1;
try
{
uno::Any aOrigAny = xDimProp->getPropertyValue(SC_UNO_DP_ORIGINAL_POS);
sal_Int32 nTmp = 0;
if (aOrigAny >>= nTmp)
nDupSource = nTmp;
}
catch(uno::Exception&)
{
}
sal_uInt8 nDupCount = 0;
if (nDupSource >= 0)
{
// this dimension is cloned.
SCCOL nCompCol; // ID of the original dimension.
if ( bDataLayout )
nCompCol = PIVOT_DATA_FIELD;
else
nCompCol = static_cast<SCCOL>(nDupSource); //TODO: seek source column from name
ScPivotFieldVector::iterator it = std::find_if(aFields.begin(), aFields.end(), FindByColumn(nCompCol, nMask));
if (it != aFields.end())
nDupCount = it->mnDupCount + 1;
}
aFields.emplace_back();
ScPivotField& rField = aFields.back();
if (bDataLayout)
{
rField.nCol = PIVOT_DATA_FIELD;
bDataFound = true;
}
else
{
rField.mnOriginalDim = nDupSource;
rField.nCol = static_cast<SCCOL>(nDim); //TODO: seek source column from name
}
rField.nFuncMask = nMask;
rField.mnDupCount = nDupCount;
long nPos = ScUnoHelpFunctions::GetLongProperty(
xDimProp, SC_UNO_DP_POSITION);
aPos.push_back(nPos);
try
{
if (nOrient == sheet::DataPilotFieldOrientation_DATA)
xDimProp->getPropertyValue(SC_UNO_DP_REFVALUE)
>>= rField.maFieldRef;
}
catch (uno::Exception&)
{
}
}
}
// sort by getPosition() value
size_t nOutCount = aFields.size();
if (nOutCount >= 1)
{
for (size_t i = 0; i < nOutCount - 1; ++i)
{
for (size_t j = 0; j + i < nOutCount - 1; ++j)
{
if ( aPos[j+1] < aPos[j] )
{
std::swap( aPos[j], aPos[j+1] );
std::swap( aFields[j], aFields[j+1] );
}
}
}
}
if (bAddData && !bDataFound)
aFields.emplace_back(PIVOT_DATA_FIELD);
rFields.swap(aFields);
}
void ScDPObject::FillOldParam(ScPivotParam& rParam) const
{
const_cast<ScDPObject*>(this)->CreateObjects(); // xSource is needed for field numbers
if (!xSource.is())
return;
rParam.nCol = aOutRange.aStart.Col();
rParam.nRow = aOutRange.aStart.Row();
rParam.nTab = aOutRange.aStart.Tab();
// ppLabelArr / nLabels is not changed
bool bAddData = ( lcl_GetDataGetOrientation( xSource ) == sheet::DataPilotFieldOrientation_HIDDEN );
lcl_FillOldFields(
rParam.maPageFields, xSource, sheet::DataPilotFieldOrientation_PAGE, false);
lcl_FillOldFields(
rParam.maColFields, xSource, sheet::DataPilotFieldOrientation_COLUMN, bAddData);
lcl_FillOldFields(
rParam.maRowFields, xSource, sheet::DataPilotFieldOrientation_ROW, false);
lcl_FillOldFields(
rParam.maDataFields, xSource, sheet::DataPilotFieldOrientation_DATA, false);
uno::Reference<beans::XPropertySet> xProp( xSource, uno::UNO_QUERY );
if (xProp.is())
{
try
{
rParam.bMakeTotalCol = ScUnoHelpFunctions::GetBoolProperty( xProp,
SC_UNO_DP_COLGRAND, true );
rParam.bMakeTotalRow = ScUnoHelpFunctions::GetBoolProperty( xProp,
SC_UNO_DP_ROWGRAND, true );
// following properties may be missing for external sources
rParam.bIgnoreEmptyRows = ScUnoHelpFunctions::GetBoolProperty( xProp,
SC_UNO_DP_IGNOREEMPTY );
rParam.bDetectCategories = ScUnoHelpFunctions::GetBoolProperty( xProp,
SC_UNO_DP_REPEATEMPTY );
}
catch(uno::Exception&)
{
// no error
}
}
}
static void lcl_FillLabelData( ScDPLabelData& rData, const uno::Reference< beans::XPropertySet >& xDimProp )
{
uno::Reference<sheet::XHierarchiesSupplier> xDimSupp( xDimProp, uno::UNO_QUERY );
if (!xDimProp.is() || !xDimSupp.is())
return;
uno::Reference<container::XIndexAccess> xHiers = new ScNameToIndexAccess( xDimSupp->getHierarchies() );
long nHierarchy = ScUnoHelpFunctions::GetLongProperty(
xDimProp, SC_UNO_DP_USEDHIERARCHY);
if ( nHierarchy >= xHiers->getCount() )
nHierarchy = 0;
rData.mnUsedHier = nHierarchy;
uno::Reference<uno::XInterface> xHier =
ScUnoHelpFunctions::AnyToInterface(xHiers->getByIndex(nHierarchy));
uno::Reference<sheet::XLevelsSupplier> xHierSupp( xHier, uno::UNO_QUERY );
if (!xHierSupp.is())
return;
uno::Reference<container::XIndexAccess> xLevels =
new ScNameToIndexAccess( xHierSupp->getLevels() );
uno::Reference<uno::XInterface> xLevel =
ScUnoHelpFunctions::AnyToInterface( xLevels->getByIndex(0) );
uno::Reference<beans::XPropertySet> xLevProp( xLevel, uno::UNO_QUERY );
if (!xLevProp.is())
return;
rData.mbShowAll = ScUnoHelpFunctions::GetBoolProperty(
xLevProp, SC_UNO_DP_SHOWEMPTY);
rData.mbRepeatItemLabels = ScUnoHelpFunctions::GetBoolProperty(
xLevProp, SC_UNO_DP_REPEATITEMLABELS);
try
{
xLevProp->getPropertyValue( SC_UNO_DP_SORTING )
>>= rData.maSortInfo;
xLevProp->getPropertyValue( SC_UNO_DP_LAYOUT )
>>= rData.maLayoutInfo;
xLevProp->getPropertyValue( SC_UNO_DP_AUTOSHOW )
>>= rData.maShowInfo;
}
catch(uno::Exception&)
{
}
}
void ScDPObject::FillLabelDataForDimension(
const uno::Reference<container::XIndexAccess>& xDims, sal_Int32 nDim, ScDPLabelData& rLabelData)
{
uno::Reference<uno::XInterface> xIntDim =
ScUnoHelpFunctions::AnyToInterface( xDims->getByIndex(nDim) );
uno::Reference<container::XNamed> xDimName( xIntDim, uno::UNO_QUERY );
uno::Reference<beans::XPropertySet> xDimProp( xIntDim, uno::UNO_QUERY );
if (!xDimName.is() || !xDimProp.is())
return;
bool bData = ScUnoHelpFunctions::GetBoolProperty(
xDimProp, SC_UNO_DP_ISDATALAYOUT);
//TODO: error checking -- is "IsDataLayoutDimension" property required??
sal_Int32 nOrigPos = -1;
OUString aFieldName;
try
{
aFieldName = xDimName->getName();
uno::Any aOrigAny = xDimProp->getPropertyValue(SC_UNO_DP_ORIGINAL_POS);
aOrigAny >>= nOrigPos;
}
catch(uno::Exception&)
{
}
OUString aLayoutName = ScUnoHelpFunctions::GetStringProperty(
xDimProp, SC_UNO_DP_LAYOUTNAME, OUString());
OUString aSubtotalName = ScUnoHelpFunctions::GetStringProperty(
xDimProp, SC_UNO_DP_FIELD_SUBTOTALNAME, OUString());
// Name from the UNO dimension object may have trailing '*'s in which
// case it's a duplicate dimension. Convert that to a duplicate index.
sal_uInt8 nDupCount = ScDPUtil::getDuplicateIndex(aFieldName);
aFieldName = ScDPUtil::getSourceDimensionName(aFieldName);
rLabelData.maName = aFieldName;
rLabelData.mnCol = static_cast<SCCOL>(nDim);
rLabelData.mnDupCount = nDupCount;
rLabelData.mbDataLayout = bData;
rLabelData.mbIsValue = true; //TODO: check
if (!bData)
{
rLabelData.mnOriginalDim = static_cast<long>(nOrigPos);
rLabelData.maLayoutName = aLayoutName;
rLabelData.maSubtotalName = aSubtotalName;
if (nOrigPos >= 0)
// This is a duplicated dimension. Use the original dimension index.
nDim = nOrigPos;
GetHierarchies(nDim, rLabelData.maHiers);
GetMembers(nDim, GetUsedHierarchy(nDim), rLabelData.maMembers);
lcl_FillLabelData(rLabelData, xDimProp);
rLabelData.mnFlags = ScUnoHelpFunctions::GetLongProperty(
xDimProp, SC_UNO_DP_FLAGS );
}
}
void ScDPObject::FillLabelData(sal_Int32 nDim, ScDPLabelData& rLabels)
{
CreateObjects();
if (!xSource.is())
return;
uno::Reference<container::XNameAccess> xDimsName = xSource->getDimensions();
uno::Reference<container::XIndexAccess> xDims = new ScNameToIndexAccess( xDimsName );
sal_Int32 nDimCount = xDims->getCount();
if (nDimCount <= 0 || nDim >= nDimCount)
return;
FillLabelDataForDimension(xDims, nDim, rLabels);
}
void ScDPObject::FillLabelData(ScPivotParam& rParam)
{
rParam.maLabelArray.clear();
CreateObjects();
if (!xSource.is())
return;
uno::Reference<container::XNameAccess> xDimsName = xSource->getDimensions();
uno::Reference<container::XIndexAccess> xDims = new ScNameToIndexAccess( xDimsName );
sal_Int32 nDimCount = xDims->getCount();
if (nDimCount <= 0)
return;
for (sal_Int32 nDim = 0; nDim < nDimCount; ++nDim)
{
ScDPLabelData* pNewLabel = new ScDPLabelData;
FillLabelDataForDimension(xDims, nDim, *pNewLabel);
rParam.maLabelArray.push_back(std::unique_ptr<ScDPLabelData>(pNewLabel));
}
}
bool ScDPObject::GetHierarchiesNA( sal_Int32 nDim, uno::Reference< container::XNameAccess >& xHiers )
{
bool bRet = false;
uno::Reference<container::XNameAccess> xDimsName( GetSource()->getDimensions() );
uno::Reference<container::XIndexAccess> xIntDims(new ScNameToIndexAccess( xDimsName ));
if( xIntDims.is() )
{
uno::Reference<sheet::XHierarchiesSupplier> xHierSup(xIntDims->getByIndex( nDim ), uno::UNO_QUERY);
if (xHierSup.is())
{
xHiers.set( xHierSup->getHierarchies() );
bRet = xHiers.is();
}
}
return bRet;
}
void ScDPObject::GetHierarchies( sal_Int32 nDim, uno::Sequence< OUString >& rHiers )
{
uno::Reference< container::XNameAccess > xHiersNA;
if( GetHierarchiesNA( nDim, xHiersNA ) )
{
rHiers = xHiersNA->getElementNames();
}
}
sal_Int32 ScDPObject::GetUsedHierarchy( sal_Int32 nDim )
{
sal_Int32 nHier = 0;
uno::Reference<container::XNameAccess> xDimsName( GetSource()->getDimensions() );
uno::Reference<container::XIndexAccess> xIntDims(new ScNameToIndexAccess( xDimsName ));
uno::Reference<beans::XPropertySet> xDim(xIntDims->getByIndex( nDim ), uno::UNO_QUERY);
if (xDim.is())
nHier = ScUnoHelpFunctions::GetLongProperty( xDim, SC_UNO_DP_USEDHIERARCHY );
return nHier;
}
bool ScDPObject::GetMembersNA( sal_Int32 nDim, uno::Reference< sheet::XMembersAccess >& xMembers )
{
return GetMembersNA( nDim, GetUsedHierarchy( nDim ), xMembers );
}
bool ScDPObject::GetMembersNA( sal_Int32 nDim, sal_Int32 nHier, uno::Reference< sheet::XMembersAccess >& xMembers )
{
bool bRet = false;
uno::Reference<container::XNameAccess> xDimsName( GetSource()->getDimensions() );
uno::Reference<container::XIndexAccess> xIntDims(new ScNameToIndexAccess( xDimsName ));
uno::Reference<beans::XPropertySet> xDim(xIntDims->getByIndex( nDim ), uno::UNO_QUERY);
if (xDim.is())
{
uno::Reference<sheet::XHierarchiesSupplier> xHierSup(xDim, uno::UNO_QUERY);
if (xHierSup.is())
{
uno::Reference<container::XIndexAccess> xHiers(new ScNameToIndexAccess(xHierSup->getHierarchies()));
uno::Reference<sheet::XLevelsSupplier> xLevSupp( xHiers->getByIndex(nHier), uno::UNO_QUERY );
if ( xLevSupp.is() )
{
uno::Reference<container::XIndexAccess> xLevels(new ScNameToIndexAccess( xLevSupp->getLevels()));
if (xLevels.is())
{
sal_Int32 nLevCount = xLevels->getCount();
if (nLevCount > 0)
{
uno::Reference<sheet::XMembersSupplier> xMembSupp( xLevels->getByIndex(0), uno::UNO_QUERY );
if ( xMembSupp.is() )
{
xMembers.set(xMembSupp->getMembers());
bRet = true;
}
}
}
}
}
}
return bRet;
}
// convert old pivot tables into new datapilot tables
namespace {
OUString lcl_GetDimName( const uno::Reference<sheet::XDimensionsSupplier>& xSource, long nDim )
{
OUString aName;
if ( xSource.is() )
{
uno::Reference<container::XNameAccess> xDimsName = xSource->getDimensions();
uno::Reference<container::XIndexAccess> xDims = new ScNameToIndexAccess( xDimsName );
long nDimCount = xDims->getCount();
if ( nDim < nDimCount )
{
uno::Reference<uno::XInterface> xIntDim =
ScUnoHelpFunctions::AnyToInterface( xDims->getByIndex(nDim) );
uno::Reference<container::XNamed> xDimName( xIntDim, uno::UNO_QUERY );
if (xDimName.is())
{
try
{
aName = xDimName->getName();
}
catch(uno::Exception&)
{
}
}
}
}
return aName;
}
bool hasFieldColumn(const vector<ScPivotField>* pRefFields, SCCOL nCol)
{
if (!pRefFields)
return false;
vector<ScPivotField>::const_iterator itr = pRefFields->begin(), itrEnd = pRefFields->end();
for (; itr != itrEnd; ++itr)
{
if (itr->nCol == nCol)
// This array of fields contains the specified column.
return true;
}
return false;
}
class FindByOriginalDim
{
long mnDim;
public:
explicit FindByOriginalDim(long nDim) : mnDim(nDim) {}
bool operator() (const ScPivotField& r) const
{
return mnDim == r.getOriginalDim();
}
};
}
void ScDPObject::ConvertOrientation(
ScDPSaveData& rSaveData, const ScPivotFieldVector& rFields, sheet::DataPilotFieldOrientation nOrient,
const Reference<XDimensionsSupplier>& xSource,
const ScDPLabelDataVector& rLabels,
const ScPivotFieldVector* pRefColFields,
const ScPivotFieldVector* pRefRowFields,
const ScPivotFieldVector* pRefPageFields )
{
ScPivotFieldVector::const_iterator itr, itrBeg = rFields.begin(), itrEnd = rFields.end();
for (itr = itrBeg; itr != itrEnd; ++itr)
{
const ScPivotField& rField = *itr;
long nCol = rField.getOriginalDim();
PivotFunc nFuncs = rField.nFuncMask;
const sheet::DataPilotFieldReference& rFieldRef = rField.maFieldRef;
ScDPSaveDimension* pDim = nullptr;
if ( nCol == PIVOT_DATA_FIELD )
pDim = rSaveData.GetDataLayoutDimension();
else
{
OUString aDocStr = lcl_GetDimName( xSource, nCol ); // cols must start at 0
if (!aDocStr.isEmpty())
pDim = rSaveData.GetDimensionByName(aDocStr);
else
pDim = nullptr;
}
if (!pDim)
continue;
if ( nOrient == sheet::DataPilotFieldOrientation_DATA ) // set summary function
{
// generate an individual entry for each function
bool bFirst = true;
// if a dimension is used for column/row/page and data,
// use duplicated dimensions for all data occurrences
if (hasFieldColumn(pRefColFields, nCol))
bFirst = false;
if (bFirst && hasFieldColumn(pRefRowFields, nCol))
bFirst = false;
if (bFirst && hasFieldColumn(pRefPageFields, nCol))
bFirst = false;
if (bFirst)
{
// if set via api, a data column may occur several times
// (if the function hasn't been changed yet) -> also look for duplicate data column
bFirst = std::none_of(itrBeg, itr, FindByOriginalDim(nCol));
}
ScGeneralFunction eFunc = ScDataPilotConversion::FirstFunc(rField.nFuncMask);
if (!bFirst)
pDim = rSaveData.DuplicateDimension(pDim->GetName());
pDim->SetOrientation(nOrient);
pDim->SetFunction(eFunc);
if( rFieldRef.ReferenceType == sheet::DataPilotFieldReferenceType::NONE )
pDim->SetReferenceValue(nullptr);
else
pDim->SetReferenceValue(&rFieldRef);
}
else // set SubTotals
{
pDim->SetOrientation( nOrient );
std::vector<ScGeneralFunction> nSubTotalFuncs;
nSubTotalFuncs.reserve(16);
sal_uInt16 nMask = 1;
for (sal_uInt16 nBit=0; nBit<16; nBit++)
{
if ( nFuncs & static_cast<PivotFunc>(nMask) )
nSubTotalFuncs.push_back( ScDataPilotConversion::FirstFunc( static_cast<PivotFunc>(nMask) ) );
nMask *= 2;
}
pDim->SetSubTotals( nSubTotalFuncs );
// ShowEmpty was implicit in old tables,
// must be set for data layout dimension (not accessible in dialog)
if ( nCol == PIVOT_DATA_FIELD )
pDim->SetShowEmpty( true );
}
size_t nDimIndex = rField.nCol;
pDim->RemoveLayoutName();
pDim->RemoveSubtotalName();
if (nDimIndex < rLabels.size())
{
const ScDPLabelData& rLabel = *rLabels[nDimIndex].get();
if (!rLabel.maLayoutName.isEmpty())
pDim->SetLayoutName(rLabel.maLayoutName);
if (!rLabel.maSubtotalName.isEmpty())
pDim->SetSubtotalName(rLabel.maSubtotalName);
}
}
}
bool ScDPObject::IsOrientationAllowed( sheet::DataPilotFieldOrientation nOrient, sal_Int32 nDimFlags )
{
bool bAllowed = true;
switch (nOrient)
{
case sheet::DataPilotFieldOrientation_PAGE:
bAllowed = ( nDimFlags & sheet::DimensionFlags::NO_PAGE_ORIENTATION ) == 0;
break;
case sheet::DataPilotFieldOrientation_COLUMN:
bAllowed = ( nDimFlags & sheet::DimensionFlags::NO_COLUMN_ORIENTATION ) == 0;
break;
case sheet::DataPilotFieldOrientation_ROW:
bAllowed = ( nDimFlags & sheet::DimensionFlags::NO_ROW_ORIENTATION ) == 0;
break;
case sheet::DataPilotFieldOrientation_DATA:
bAllowed = ( nDimFlags & sheet::DimensionFlags::NO_DATA_ORIENTATION ) == 0;
break;
default:
{
// allowed to remove from previous orientation
}
}
return bAllowed;
}
bool ScDPObject::HasRegisteredSources()
{
bool bFound = false;
uno::Reference<lang::XMultiServiceFactory> xManager = comphelper::getProcessServiceFactory();
uno::Reference<container::XContentEnumerationAccess> xEnAc( xManager, uno::UNO_QUERY );
if ( xEnAc.is() )
{
uno::Reference<container::XEnumeration> xEnum = xEnAc->createContentEnumeration(
SCDPSOURCE_SERVICE );
if ( xEnum.is() && xEnum->hasMoreElements() )
bFound = true;
}
return bFound;
}
std::vector<OUString> ScDPObject::GetRegisteredSources()
{
std::vector<OUString> aVec;
// use implementation names...
uno::Reference<lang::XMultiServiceFactory> xManager = comphelper::getProcessServiceFactory();
uno::Reference<container::XContentEnumerationAccess> xEnAc( xManager, uno::UNO_QUERY );
if ( xEnAc.is() )
{
uno::Reference<container::XEnumeration> xEnum = xEnAc->createContentEnumeration(
SCDPSOURCE_SERVICE );
if ( xEnum.is() )
{
while ( xEnum->hasMoreElements() )
{
uno::Any aAddInAny = xEnum->nextElement();
// if ( aAddInAny.getReflection()->getTypeClass() == TypeClass_INTERFACE )
{
uno::Reference<uno::XInterface> xIntFac;
aAddInAny >>= xIntFac;
if ( xIntFac.is() )
{
uno::Reference<lang::XServiceInfo> xInfo( xIntFac, uno::UNO_QUERY );
if ( xInfo.is() )
{
OUString sName = xInfo->getImplementationName();
aVec.push_back( sName );
}
}
}
}
}
}
return aVec;
}
uno::Reference<sheet::XDimensionsSupplier> ScDPObject::CreateSource( const ScDPServiceDesc& rDesc )
{
OUString aImplName = rDesc.aServiceName;
uno::Reference<sheet::XDimensionsSupplier> xRet;
uno::Reference<lang::XMultiServiceFactory> xManager = comphelper::getProcessServiceFactory();
uno::Reference<container::XContentEnumerationAccess> xEnAc(xManager, uno::UNO_QUERY);
if (!xEnAc.is())
return xRet;
uno::Reference<container::XEnumeration> xEnum =
xEnAc->createContentEnumeration(SCDPSOURCE_SERVICE);
if (!xEnum.is())
return xRet;
while (xEnum->hasMoreElements() && !xRet.is())
{
uno::Any aAddInAny = xEnum->nextElement();
uno::Reference<uno::XInterface> xIntFac;
aAddInAny >>= xIntFac;
if (!xIntFac.is())
continue;
uno::Reference<lang::XServiceInfo> xInfo(xIntFac, uno::UNO_QUERY);
if (!xInfo.is() || xInfo->getImplementationName() != aImplName)
continue;
try
{
// #i113160# try XSingleComponentFactory in addition to (old) XSingleServiceFactory,
// passing the context to the component (see ScUnoAddInCollection::Initialize)
uno::Reference<uno::XInterface> xInterface;
uno::Reference<uno::XComponentContext> xCtx(
comphelper::getComponentContext(xManager));
uno::Reference<lang::XSingleComponentFactory> xCFac( xIntFac, uno::UNO_QUERY );
if (xCFac.is())
xInterface = xCFac->createInstanceWithContext(xCtx);
if (!xInterface.is())
{
uno::Reference<lang::XSingleServiceFactory> xFac( xIntFac, uno::UNO_QUERY );
if ( xFac.is() )
xInterface = xFac->createInstance();
}
uno::Reference<lang::XInitialization> xInit( xInterface, uno::UNO_QUERY );
if (xInit.is())
{
// initialize
uno::Sequence<uno::Any> aSeq(4);
uno::Any* pArray = aSeq.getArray();
pArray[0] <<= rDesc.aParSource;
pArray[1] <<= rDesc.aParName;
pArray[2] <<= rDesc.aParUser;
pArray[3] <<= rDesc.aParPass;
xInit->initialize( aSeq );
}
xRet.set( xInterface, uno::UNO_QUERY );
}
catch(uno::Exception&)
{
}
}
return xRet;
}
#if DUMP_PIVOT_TABLE
void ScDPObject::Dump() const
{
if (pSaveData)
pSaveData->Dump();
if (mpTableData)
mpTableData->Dump();
}
void ScDPObject::DumpCache() const
{
if (!mpTableData)
return;
const ScDPCache &rCache = mpTableData->GetCacheTable().getCache();
rCache.Dump();
}
#endif
ScDPCollection::SheetCaches::SheetCaches(ScDocument* pDoc) : mpDoc(pDoc) {}
namespace {
struct FindInvalidRange
{
bool operator() (const ScRange& r) const
{
return !r.IsValid();
}
};
void setGroupItemsToCache( ScDPCache& rCache, const std::set<ScDPObject*>& rRefs )
{
// Go through all referencing pivot tables, and re-fill the group dimension info.
std::set<ScDPObject*>::const_iterator itRef = rRefs.begin(), itRefEnd = rRefs.end();
for (; itRef != itRefEnd; ++itRef)
{
const ScDPObject* pObj = *itRef;
const ScDPSaveData* pSave = pObj->GetSaveData();
if (!pSave)
continue;
const ScDPDimensionSaveData* pGroupDims = pSave->GetExistingDimensionData();
if (!pGroupDims)
continue;
pGroupDims->WriteToCache(rCache);
}
}
}
bool ScDPCollection::SheetCaches::hasCache(const ScRange& rRange) const
{
RangeIndexType::const_iterator it = std::find(maRanges.begin(), maRanges.end(), rRange);
if (it == maRanges.end())
return false;
// Already cached.
size_t nIndex = std::distance(maRanges.begin(), it);
CachesType::const_iterator const itCache = m_Caches.find(nIndex);
return itCache != m_Caches.end();
}
const ScDPCache* ScDPCollection::SheetCaches::getCache(const ScRange& rRange, const ScDPDimensionSaveData* pDimData)
{
RangeIndexType::iterator it = std::find(maRanges.begin(), maRanges.end(), rRange);
if (it != maRanges.end())
{
// Already cached.
size_t nIndex = std::distance(maRanges.begin(), it);
CachesType::iterator const itCache = m_Caches.find(nIndex);
if (itCache == m_Caches.end())
{
OSL_FAIL("Cache pool and index pool out-of-sync !!!");
return nullptr;
}
if (pDimData)
{
(itCache->second)->ClearGroupFields();
pDimData->WriteToCache(*itCache->second);
}
return itCache->second.get();
}
// Not cached. Create a new cache.
::std::unique_ptr<ScDPCache> pCache(new ScDPCache(mpDoc));
pCache->InitFromDoc(mpDoc, rRange);
if (pDimData)
pDimData->WriteToCache(*pCache);
// Get the smallest available range index.
it = std::find_if(maRanges.begin(), maRanges.end(), FindInvalidRange());
size_t nIndex = maRanges.size();
if (it == maRanges.end())
{
// All range indices are valid. Append a new index.
maRanges.push_back(rRange);
}
else
{
// Slot with invalid range. Re-use this slot.
*it = rRange;
nIndex = std::distance(maRanges.begin(), it);
}
const ScDPCache* p = pCache.get();
m_Caches.insert(std::make_pair(nIndex, std::move(pCache)));
return p;
}
ScDPCache* ScDPCollection::SheetCaches::getExistingCache(const ScRange& rRange)
{
RangeIndexType::iterator it = std::find(maRanges.begin(), maRanges.end(), rRange);
if (it == maRanges.end())
// Not cached.
return nullptr;
// Already cached.
size_t nIndex = std::distance(maRanges.begin(), it);
CachesType::iterator const itCache = m_Caches.find(nIndex);
if (itCache == m_Caches.end())
{
OSL_FAIL("Cache pool and index pool out-of-sync !!!");
return nullptr;
}
return itCache->second.get();
}
const ScDPCache* ScDPCollection::SheetCaches::getExistingCache(const ScRange& rRange) const
{
RangeIndexType::const_iterator it = std::find(maRanges.begin(), maRanges.end(), rRange);
if (it == maRanges.end())
// Not cached.
return nullptr;
// Already cached.
size_t nIndex = std::distance(maRanges.begin(), it);
CachesType::const_iterator const itCache = m_Caches.find(nIndex);
if (itCache == m_Caches.end())
{
OSL_FAIL("Cache pool and index pool out-of-sync !!!");
return nullptr;
}
return itCache->second.get();
}
size_t ScDPCollection::SheetCaches::size() const
{
return m_Caches.size();
}
void ScDPCollection::SheetCaches::updateReference(
UpdateRefMode eMode, const ScRange& r, SCCOL nDx, SCROW nDy, SCTAB nDz)
{
if (maRanges.empty())
// No caches.
return;
RangeIndexType::iterator it = maRanges.begin(), itEnd = maRanges.end();
for (; it != itEnd; ++it)
{
const ScRange& rKeyRange = *it;
SCCOL nCol1 = rKeyRange.aStart.Col();
SCROW nRow1 = rKeyRange.aStart.Row();
SCTAB nTab1 = rKeyRange.aStart.Tab();
SCCOL nCol2 = rKeyRange.aEnd.Col();
SCROW nRow2 = rKeyRange.aEnd.Row();
SCTAB nTab2 = rKeyRange.aEnd.Tab();
ScRefUpdateRes eRes = ScRefUpdate::Update(
mpDoc, eMode,
r.aStart.Col(), r.aStart.Row(), r.aStart.Tab(),
r.aEnd.Col(), r.aEnd.Row(), r.aEnd.Tab(), nDx, nDy, nDz,
nCol1, nRow1, nTab1, nCol2, nRow2, nTab2);
if (eRes != UR_NOTHING)
{
// range updated.
ScRange aNew(nCol1, nRow1, nTab1, nCol2, nRow2, nTab2);
*it = aNew;
}
}
}
void ScDPCollection::SheetCaches::updateCache(const ScRange& rRange, std::set<ScDPObject*>& rRefs)
{
RangeIndexType::iterator it = std::find(maRanges.begin(), maRanges.end(), rRange);
if (it == maRanges.end())
{
// Not cached. Nothing to do.
rRefs.clear();
return;
}
size_t nIndex = std::distance(maRanges.begin(), it);
CachesType::iterator const itCache = m_Caches.find(nIndex);
if (itCache == m_Caches.end())
{
OSL_FAIL("Cache pool and index pool out-of-sync !!!");
rRefs.clear();
return;
}
ScDPCache& rCache = *itCache->second;
// Update the cache with new cell values. This will clear all group dimension info.
rCache.InitFromDoc(mpDoc, rRange);
std::set<ScDPObject*> aRefs(rCache.GetAllReferences());
rRefs.swap(aRefs);
// Make sure to re-populate the group dimension info.
setGroupItemsToCache(rCache, rRefs);
}
bool ScDPCollection::SheetCaches::remove(const ScDPCache* p)
{
CachesType::iterator it = m_Caches.begin(), itEnd = m_Caches.end();
for (; it != itEnd; ++it)
{
if (it->second.get() == p)
{
size_t idx = it->first;
m_Caches.erase(it);
maRanges[idx].SetInvalid();
return true;
}
}
return false;
}
const std::vector<ScRange>& ScDPCollection::SheetCaches::getAllRanges() const
{
return maRanges;
}
ScDPCollection::NameCaches::NameCaches(ScDocument* pDoc) : mpDoc(pDoc) {}
bool ScDPCollection::NameCaches::hasCache(const OUString& rName) const
{
return m_Caches.count(rName) != 0;
}
const ScDPCache* ScDPCollection::NameCaches::getCache(
const OUString& rName, const ScRange& rRange, const ScDPDimensionSaveData* pDimData)
{
CachesType::const_iterator const itr = m_Caches.find(rName);
if (itr != m_Caches.end())
// already cached.
return itr->second.get();
::std::unique_ptr<ScDPCache> pCache(new ScDPCache(mpDoc));
pCache->InitFromDoc(mpDoc, rRange);
if (pDimData)
pDimData->WriteToCache(*pCache);
const ScDPCache *const p = pCache.get();
m_Caches.insert(std::make_pair(rName, std::move(pCache)));
return p;
}
ScDPCache* ScDPCollection::NameCaches::getExistingCache(const OUString& rName)
{
CachesType::iterator const itr = m_Caches.find(rName);
return itr != m_Caches.end() ? itr->second.get() : nullptr;
}
size_t ScDPCollection::NameCaches::size() const
{
return m_Caches.size();
}
void ScDPCollection::NameCaches::updateCache(
const OUString& rName, const ScRange& rRange, std::set<ScDPObject*>& rRefs)
{
CachesType::iterator const itr = m_Caches.find(rName);
if (itr == m_Caches.end())
{
rRefs.clear();
return;
}
ScDPCache& rCache = *itr->second.get();
// Update the cache with new cell values. This will clear all group dimension info.
rCache.InitFromDoc(mpDoc, rRange);
std::set<ScDPObject*> aRefs(rCache.GetAllReferences());
rRefs.swap(aRefs);
// Make sure to re-populate the group dimension info.
setGroupItemsToCache(rCache, rRefs);
}
bool ScDPCollection::NameCaches::remove(const ScDPCache* p)
{
CachesType::iterator it = m_Caches.begin(), itEnd = m_Caches.end();
for (; it != itEnd; ++it)
{
if (it->second.get() == p)
{
m_Caches.erase(it);
return true;
}
}
return false;
}
ScDPCollection::DBType::DBType(sal_Int32 nSdbType, const OUString& rDBName, const OUString& rCommand) :
mnSdbType(nSdbType), maDBName(rDBName), maCommand(rCommand) {}
bool ScDPCollection::DBType::less::operator() (const DBType& left, const DBType& right) const
{
return left < right;
}
ScDPCollection::DBCaches::DBCaches(ScDocument* pDoc) : mpDoc(pDoc) {}
bool ScDPCollection::DBCaches::hasCache(sal_Int32 nSdbType, const OUString& rDBName, const OUString& rCommand) const
{
DBType aType(nSdbType, rDBName, rCommand);
CachesType::const_iterator const itr = m_Caches.find(aType);
return itr != m_Caches.end();
}
const ScDPCache* ScDPCollection::DBCaches::getCache(
sal_Int32 nSdbType, const OUString& rDBName, const OUString& rCommand,
const ScDPDimensionSaveData* pDimData)
{
DBType aType(nSdbType, rDBName, rCommand);
CachesType::const_iterator const itr = m_Caches.find(aType);
if (itr != m_Caches.end())
// already cached.
return itr->second.get();
uno::Reference<sdbc::XRowSet> xRowSet = createRowSet(nSdbType, rDBName, rCommand);
if (!xRowSet.is())
return nullptr;
::std::unique_ptr<ScDPCache> pCache(new ScDPCache(mpDoc));
SvNumberFormatter aFormat( comphelper::getProcessComponentContext(), ScGlobal::eLnge);
DBConnector aDB(*pCache, xRowSet, aFormat.GetNullDate());
if (!aDB.isValid())
return nullptr;
if (!pCache->InitFromDataBase(aDB))
{
// initialization failed.
comphelper::disposeComponent(xRowSet);
return nullptr;
}
if (pDimData)
pDimData->WriteToCache(*pCache);
::comphelper::disposeComponent(xRowSet);
const ScDPCache* p = pCache.get();
m_Caches.insert(std::make_pair(aType, std::move(pCache)));
return p;
}
ScDPCache* ScDPCollection::DBCaches::getExistingCache(
sal_Int32 nSdbType, const OUString& rDBName, const OUString& rCommand)
{
DBType aType(nSdbType, rDBName, rCommand);
CachesType::iterator const itr = m_Caches.find(aType);
return itr != m_Caches.end() ? itr->second.get() : nullptr;
}
uno::Reference<sdbc::XRowSet> ScDPCollection::DBCaches::createRowSet(
sal_Int32 nSdbType, const OUString& rDBName, const OUString& rCommand)
{
uno::Reference<sdbc::XRowSet> xRowSet;
try
{
xRowSet.set(comphelper::getProcessServiceFactory()->createInstance(
SC_SERVICE_ROWSET),
UNO_QUERY);
uno::Reference<beans::XPropertySet> xRowProp(xRowSet, UNO_QUERY);
OSL_ENSURE( xRowProp.is(), "can't get RowSet" );
if (!xRowProp.is())
{
xRowSet.set(nullptr);
return xRowSet;
}
// set source parameters
xRowProp->setPropertyValue( SC_DBPROP_DATASOURCENAME, Any(rDBName) );
xRowProp->setPropertyValue( SC_DBPROP_COMMAND, Any(rCommand) );
xRowProp->setPropertyValue( SC_DBPROP_COMMANDTYPE, Any(nSdbType) );
uno::Reference<sdb::XCompletedExecution> xExecute( xRowSet, uno::UNO_QUERY );
if ( xExecute.is() )
{
uno::Reference<task::XInteractionHandler> xHandler(
task::InteractionHandler::createWithParent(comphelper::getProcessComponentContext(), nullptr),
uno::UNO_QUERY_THROW);
xExecute->executeWithCompletion( xHandler );
}
else
xRowSet->execute();
return xRowSet;
}
catch ( const sdbc::SQLException& rError )
{
//! store error message
std::unique_ptr<weld::MessageDialog> xInfoBox(Application::CreateMessageDialog(nullptr,
VclMessageType::Info, VclButtonsType::Ok,
rError.Message));
xInfoBox->run();
}
catch ( uno::Exception& )
{
OSL_FAIL("Unexpected exception in database");
}
xRowSet.set(nullptr);
return xRowSet;
}
void ScDPCollection::DBCaches::updateCache(
sal_Int32 nSdbType, const OUString& rDBName, const OUString& rCommand,
std::set<ScDPObject*>& rRefs)
{
DBType aType(nSdbType, rDBName, rCommand);
CachesType::iterator const it = m_Caches.find(aType);
if (it == m_Caches.end())
{
// not cached.
rRefs.clear();
return;
}
ScDPCache& rCache = *it->second;
uno::Reference<sdbc::XRowSet> xRowSet = createRowSet(nSdbType, rDBName, rCommand);
if (!xRowSet.is())
{
rRefs.clear();
return;
}
SvNumberFormatter aFormat( comphelper::getProcessComponentContext(), ScGlobal::eLnge);
DBConnector aDB(rCache, xRowSet, aFormat.GetNullDate());
if (!aDB.isValid())
return;
if (!rCache.InitFromDataBase(aDB))
{
// initialization failed.
rRefs.clear();
comphelper::disposeComponent(xRowSet);
return;
}
comphelper::disposeComponent(xRowSet);
std::set<ScDPObject*> aRefs(rCache.GetAllReferences());
aRefs.swap(rRefs);
// Make sure to re-populate the group dimension info.
setGroupItemsToCache(rCache, rRefs);
}
bool ScDPCollection::DBCaches::remove(const ScDPCache* p)
{
CachesType::iterator it = m_Caches.begin(), itEnd = m_Caches.end();
for (; it != itEnd; ++it)
{
if (it->second.get() == p)
{
m_Caches.erase(it);
return true;
}
}
return false;
}
ScDPCollection::ScDPCollection(ScDocument* pDocument) :
mpDoc( pDocument ),
maSheetCaches(pDocument),
maNameCaches(pDocument),
maDBCaches(pDocument)
{
}
ScDPCollection::ScDPCollection(const ScDPCollection& r) :
mpDoc(r.mpDoc),
maSheetCaches(r.mpDoc),
maNameCaches(r.mpDoc),
maDBCaches(r.mpDoc)
{
}
ScDPCollection::~ScDPCollection()
{
maTables.clear();
}
namespace {
/**
* Unary predicate to match DP objects by the table ID.
*/
class MatchByTable
{
SCTAB mnTab;
public:
explicit MatchByTable(SCTAB nTab) : mnTab(nTab) {}
bool operator() (const std::unique_ptr<ScDPObject>& rObj) const
{
return rObj->GetOutRange().aStart.Tab() == mnTab;
}
};
}
const char* ScDPCollection::ReloadCache(const ScDPObject* pDPObj, std::set<ScDPObject*>& rRefs)
{
if (!pDPObj)
return STR_ERR_DATAPILOTSOURCE;
if (pDPObj->IsSheetData())
{
// data source is internal sheet.
const ScSheetSourceDesc* pDesc = pDPObj->GetSheetDesc();
if (!pDesc)
return STR_ERR_DATAPILOTSOURCE;
const char* pErrId = pDesc->CheckSourceRange();
if (pErrId)
return pErrId;
if (pDesc->HasRangeName())
{
// cache by named range
ScDPCollection::NameCaches& rCaches = GetNameCaches();
if (rCaches.hasCache(pDesc->GetRangeName()))
rCaches.updateCache(pDesc->GetRangeName(), pDesc->GetSourceRange(), rRefs);
else
{
// Not cached yet. Collect all tables that use this named
// range as data source.
GetAllTables(pDesc->GetRangeName(), rRefs);
}
}
else
{
// cache by cell range
ScDPCollection::SheetCaches& rCaches = GetSheetCaches();
if (rCaches.hasCache(pDesc->GetSourceRange()))
rCaches.updateCache(pDesc->GetSourceRange(), rRefs);
else
{
// Not cached yet. Collect all tables that use this range as
// data source.
GetAllTables(pDesc->GetSourceRange(), rRefs);
}
}
}
else if (pDPObj->IsImportData())
{
// data source is external database.
const ScImportSourceDesc* pDesc = pDPObj->GetImportSourceDesc();
if (!pDesc)
return STR_ERR_DATAPILOTSOURCE;
ScDPCollection::DBCaches& rCaches = GetDBCaches();
if (rCaches.hasCache(pDesc->GetCommandType(), pDesc->aDBName, pDesc->aObject))
rCaches.updateCache(
pDesc->GetCommandType(), pDesc->aDBName, pDesc->aObject, rRefs);
else
{
// Not cached yet. Collect all tables that use this range as
// data source.
GetAllTables(pDesc->GetCommandType(), pDesc->aDBName, pDesc->aObject, rRefs);
}
}
return nullptr;
}
bool ScDPCollection::ReloadGroupsInCache(const ScDPObject* pDPObj, std::set<ScDPObject*>& rRefs)
{
if (!pDPObj)
return false;
const ScDPSaveData* pSaveData = pDPObj->GetSaveData();
if (!pSaveData)
return false;
// Note: Unlike reloading cache, when modifying the group dimensions the
// cache may not have all its references when this method is called.
// Therefore, we need to always call GetAllTables to get its correct
// references even when the cache exists. This may become a non-issue
// if/when we implement loading and saving of pivot caches.
ScDPCache* pCache = nullptr;
if (pDPObj->IsSheetData())
{
// data source is internal sheet.
const ScSheetSourceDesc* pDesc = pDPObj->GetSheetDesc();
if (!pDesc)
return false;
if (pDesc->HasRangeName())
{
// cache by named range
ScDPCollection::NameCaches& rCaches = GetNameCaches();
if (rCaches.hasCache(pDesc->GetRangeName()))
pCache = rCaches.getExistingCache(pDesc->GetRangeName());
else
{
// Not cached yet. Cache the source dimensions. Groups will
// be added below.
pCache = const_cast<ScDPCache*>(
rCaches.getCache(pDesc->GetRangeName(), pDesc->GetSourceRange(), nullptr));
}
GetAllTables(pDesc->GetRangeName(), rRefs);
}
else
{
// cache by cell range
ScDPCollection::SheetCaches& rCaches = GetSheetCaches();
if (rCaches.hasCache(pDesc->GetSourceRange()))
pCache = rCaches.getExistingCache(pDesc->GetSourceRange());
else
{
// Not cached yet. Cache the source dimensions. Groups will
// be added below.
pCache = const_cast<ScDPCache*>(
rCaches.getCache(pDesc->GetSourceRange(), nullptr));
}
GetAllTables(pDesc->GetSourceRange(), rRefs);
}
}
else if (pDPObj->IsImportData())
{
// data source is external database.
const ScImportSourceDesc* pDesc = pDPObj->GetImportSourceDesc();
if (!pDesc)
return false;
ScDPCollection::DBCaches& rCaches = GetDBCaches();
if (rCaches.hasCache(pDesc->GetCommandType(), pDesc->aDBName, pDesc->aObject))
pCache = rCaches.getExistingCache(
pDesc->GetCommandType(), pDesc->aDBName, pDesc->aObject);
else
{
// Not cached yet. Cache the source dimensions. Groups will
// be added below.
pCache = const_cast<ScDPCache*>(
rCaches.getCache(pDesc->GetCommandType(), pDesc->aDBName, pDesc->aObject, nullptr));
}
GetAllTables(pDesc->GetCommandType(), pDesc->aDBName, pDesc->aObject, rRefs);
}
if (!pCache)
return false;
// Clear the existing group data from the cache, and rebuild it from the
// dimension data.
pCache->ClearGroupFields();
const ScDPDimensionSaveData* pDimData = pSaveData->GetExistingDimensionData();
if (pDimData)
pDimData->WriteToCache(*pCache);
return true;
}
bool ScDPCollection::GetReferenceGroups(const ScDPObject& rDPObj, const ScDPDimensionSaveData** pGroups) const
{
for (const std::unique_ptr<ScDPObject>& aTable : maTables)
{
const ScDPObject& rRefObj = *aTable.get();
if (&rRefObj == &rDPObj)
continue;
if (rDPObj.IsSheetData()){
if(!rRefObj.IsSheetData())
continue;
const ScSheetSourceDesc* pDesc = rDPObj.GetSheetDesc();
const ScSheetSourceDesc* pRefDesc = rRefObj.GetSheetDesc();
if (pDesc == nullptr || pRefDesc == nullptr)
continue;
if (pDesc->HasRangeName())
{
if (!pRefDesc->HasRangeName())
continue;
if (pDesc->GetRangeName() == pRefDesc->GetRangeName())
{
*pGroups = rRefObj.GetSaveData()->GetExistingDimensionData();
return true;
}
}
else
{
if (pRefDesc->HasRangeName())
continue;
if (pDesc->GetSourceRange() == pRefDesc->GetSourceRange())
{
*pGroups = rRefObj.GetSaveData()->GetExistingDimensionData();
return true;
}
}
}
else if (rDPObj.IsImportData())
{
if (!rRefObj.IsImportData ())
continue;
const ScImportSourceDesc* pDesc = rDPObj.GetImportSourceDesc();
const ScImportSourceDesc* pRefDesc = rRefObj.GetImportSourceDesc();
if (pDesc == nullptr || pRefDesc == nullptr)
continue;
if (pDesc->aDBName == pRefDesc->aDBName &&
pDesc->aObject == pRefDesc->aObject &&
pDesc->GetCommandType() == pRefDesc->GetCommandType())
{
*pGroups = rRefObj.GetSaveData()->GetExistingDimensionData();
return true;
}
}
}
return false;
}
void ScDPCollection::DeleteOnTab( SCTAB nTab )
{
maTables.erase( std::remove_if(maTables.begin(), maTables.end(), MatchByTable(nTab)), maTables.end());
}
void ScDPCollection::UpdateReference( UpdateRefMode eUpdateRefMode,
const ScRange& r, SCCOL nDx, SCROW nDy, SCTAB nDz )
{
TablesType::iterator itr = maTables.begin(), itrEnd = maTables.end();
for (; itr != itrEnd; ++itr)
(*itr)->UpdateReference(eUpdateRefMode, r, nDx, nDy, nDz);
// Update the source ranges of the caches.
maSheetCaches.updateReference(eUpdateRefMode, r, nDx, nDy, nDz);
}
void ScDPCollection::CopyToTab( SCTAB nOld, SCTAB nNew )
{
TablesType aAdded;
TablesType::const_iterator it = maTables.begin(), itEnd = maTables.end();
for (; it != itEnd; ++it)
{
const ScDPObject& rObj = *it->get();
ScRange aOutRange = rObj.GetOutRange();
if (aOutRange.aStart.Tab() != nOld)
continue;
ScAddress& s = aOutRange.aStart;
ScAddress& e = aOutRange.aEnd;
s.SetTab(nNew);
e.SetTab(nNew);
ScDPObject* pNew = new ScDPObject(rObj);
pNew->SetOutRange(aOutRange);
mpDoc->ApplyFlagsTab(s.Col(), s.Row(), e.Col(), e.Row(), s.Tab(), ScMF::DpTable);
aAdded.push_back(std::unique_ptr<ScDPObject>(pNew));
}
std::move(aAdded.begin(), aAdded.end(), std::back_inserter(maTables));
}
bool ScDPCollection::RefsEqual( const ScDPCollection& r ) const
{
if (maTables.size() != r.maTables.size())
return false;
TablesType::const_iterator itr = maTables.begin(), itr2 = r.maTables.begin(), itrEnd = maTables.end();
for (; itr != itrEnd; ++itr, ++itr2)
if (!(*itr)->RefsEqual(*itr2->get()))
return false;
return true;
}
void ScDPCollection::WriteRefsTo( ScDPCollection& r ) const
{
if ( maTables.size() == r.maTables.size() )
{
//TODO: assert equal names?
TablesType::const_iterator itr = maTables.begin(), itrEnd = maTables.end();
TablesType::iterator itr2 = r.maTables.begin();
for (; itr != itrEnd; ++itr, ++itr2)
(*itr)->WriteRefsTo(*itr2->get());
}
else
{
// #i8180# If data pilot tables were deleted with their sheet,
// this collection contains extra entries that must be restored.
// Matching objects are found by their names.
size_t nSrcSize = maTables.size();
size_t nDestSize = r.maTables.size();
OSL_ENSURE( nSrcSize >= nDestSize, "WriteRefsTo: missing entries in document" );
for (size_t nSrcPos = 0; nSrcPos < nSrcSize; ++nSrcPos)
{
const ScDPObject& rSrcObj = *maTables[nSrcPos].get();
const OUString& aName = rSrcObj.GetName();
bool bFound = false;
for (size_t nDestPos = 0; nDestPos < nDestSize && !bFound; ++nDestPos)
{
ScDPObject& rDestObj = *r.maTables[nDestPos].get();
if (rDestObj.GetName() == aName)
{
rSrcObj.WriteRefsTo(rDestObj); // found object, copy refs
bFound = true;
}
}
if (!bFound)
{
// none found, re-insert deleted object (see ScUndoDataPilot::Undo)
ScDPObject* pDestObj = new ScDPObject(rSrcObj);
r.InsertNewTable(pDestObj);
}
}
OSL_ENSURE( maTables.size() == r.maTables.size(), "WriteRefsTo: couldn't restore all entries" );
}
}
size_t ScDPCollection::GetCount() const
{
return maTables.size();
}
ScDPObject& ScDPCollection::operator [](size_t nIndex)
{
return *maTables[nIndex].get();
}
const ScDPObject& ScDPCollection::operator [](size_t nIndex) const
{
return *maTables[nIndex].get();
}
ScDPObject* ScDPCollection::GetByName(const OUString& rName) const
{
for (std::unique_ptr<ScDPObject> const & pObject : maTables)
{
if (pObject->GetName() == rName)
return pObject.get();
}
return nullptr;
}
OUString ScDPCollection::CreateNewName() const
{
size_t n = maTables.size();
for (size_t nAdd = 0; nAdd <= n; ++nAdd) // nCount+1 tries
{
OUString aNewName = "DataPilot" + OUString::number(1 + nAdd);
bool bFound = false;
TablesType::const_iterator itr = maTables.begin(), itrEnd = maTables.end();
for (; itr != itrEnd; ++itr)
{
if ((*itr)->GetName() == aNewName)
{
bFound = true;
break;
}
}
if (!bFound)
return aNewName; // found unused Name
}
return OUString(); // should not happen
}
void ScDPCollection::FreeTable(const ScDPObject* pDPObject)
{
const ScRange& rOutRange = pDPObject->GetOutRange();
const ScAddress& s = rOutRange.aStart;
const ScAddress& e = rOutRange.aEnd;
mpDoc->RemoveFlagsTab(s.Col(), s.Row(), e.Col(), e.Row(), s.Tab(), ScMF::DpTable);
auto funcRemoveCondition = [pDPObject] (std::unique_ptr<ScDPObject> const & pCurrent)
{
return pCurrent.get() == pDPObject;
};
maTables.erase(std::remove_if(maTables.begin(), maTables.end(), funcRemoveCondition), maTables.end());
}
void ScDPCollection::InsertNewTable(ScDPObject* pDPObj)
{
const ScRange& rOutRange = pDPObj->GetOutRange();
const ScAddress& s = rOutRange.aStart;
const ScAddress& e = rOutRange.aEnd;
mpDoc->ApplyFlagsTab(s.Col(), s.Row(), e.Col(), e.Row(), s.Tab(), ScMF::DpTable);
maTables.push_back(std::unique_ptr<ScDPObject>(pDPObj));
}
bool ScDPCollection::HasTable(const ScDPObject* pDPObj) const
{
for (const std::unique_ptr<ScDPObject>& aTable : maTables)
{
if (aTable.get() == pDPObj)
{
return true;
}
}
return false;
}
ScDPCollection::SheetCaches& ScDPCollection::GetSheetCaches()
{
return maSheetCaches;
}
const ScDPCollection::SheetCaches& ScDPCollection::GetSheetCaches() const
{
return maSheetCaches;
}
ScDPCollection::NameCaches& ScDPCollection::GetNameCaches()
{
return maNameCaches;
}
const ScDPCollection::NameCaches& ScDPCollection::GetNameCaches() const
{
return maNameCaches;
}
ScDPCollection::DBCaches& ScDPCollection::GetDBCaches()
{
return maDBCaches;
}
const ScDPCollection::DBCaches& ScDPCollection::GetDBCaches() const
{
return maDBCaches;
}
ScRangeList ScDPCollection::GetAllTableRanges( SCTAB nTab ) const
{
return std::for_each(maTables.begin(), maTables.end(), AccumulateOutputRanges(nTab)).getRanges();
}
bool ScDPCollection::IntersectsTableByColumns( SCCOL nCol1, SCCOL nCol2, SCROW nRow, SCTAB nTab ) const
{
return std::any_of(maTables.begin(), maTables.end(), FindIntersectingTableByColumns(nCol1, nCol2, nRow, nTab));
}
bool ScDPCollection::IntersectsTableByRows( SCCOL nCol, SCROW nRow1, SCROW nRow2, SCTAB nTab ) const
{
return std::any_of(maTables.begin(), maTables.end(), FindIntersectingTableByRows(nCol, nRow1, nRow2, nTab));
}
bool ScDPCollection::HasTable( const ScRange& rRange ) const
{
return std::any_of(maTables.begin(), maTables.end(), FindIntersectingTable(rRange));
}
#if DEBUG_PIVOT_TABLE
namespace {
struct DumpTable
{
void operator() (const std::unique_ptr<ScDPObject>& rObj) const
{
cout << "-- '" << rObj->GetName() << "'" << endl;
ScDPSaveData* pSaveData = rObj->GetSaveData();
if (!pSaveData)
return;
pSaveData->Dump();
cout << endl; // blank line
}
};
}
void ScDPCollection::DumpTables() const
{
std::for_each(maTables.begin(), maTables.end(), DumpTable());
}
#endif
void ScDPCollection::RemoveCache(const ScDPCache* pCache)
{
if (maSheetCaches.remove(pCache))
// sheet cache removed.
return;
if (maNameCaches.remove(pCache))
// named range cache removed.
return;
if (maDBCaches.remove(pCache))
// database cache removed.
return;
}
void ScDPCollection::GetAllTables(const ScRange& rSrcRange, std::set<ScDPObject*>& rRefs) const
{
std::set<ScDPObject*> aRefs;
TablesType::const_iterator it = maTables.begin(), itEnd = maTables.end();
for (; it != itEnd; ++it)
{
const ScDPObject& rObj = *it->get();
if (!rObj.IsSheetData())
// Source is not a sheet range.
continue;
const ScSheetSourceDesc* pDesc = rObj.GetSheetDesc();
if (!pDesc)
continue;
if (pDesc->HasRangeName())
// This table has a range name as its source.
continue;
if (pDesc->GetSourceRange() != rSrcRange)
// Different source range.
continue;
aRefs.insert(const_cast<ScDPObject*>(&rObj));
}
rRefs.swap(aRefs);
}
void ScDPCollection::GetAllTables(const OUString& rSrcName, std::set<ScDPObject*>& rRefs) const
{
std::set<ScDPObject*> aRefs;
TablesType::const_iterator it = maTables.begin(), itEnd = maTables.end();
for (; it != itEnd; ++it)
{
const ScDPObject& rObj = *it->get();
if (!rObj.IsSheetData())
// Source is not a sheet range.
continue;
const ScSheetSourceDesc* pDesc = rObj.GetSheetDesc();
if (!pDesc)
continue;
if (!pDesc->HasRangeName())
// This table probably has a sheet range as its source.
continue;
if (pDesc->GetRangeName() != rSrcName)
// Different source name.
continue;
aRefs.insert(const_cast<ScDPObject*>(&rObj));
}
rRefs.swap(aRefs);
}
void ScDPCollection::GetAllTables(
sal_Int32 nSdbType, const OUString& rDBName, const OUString& rCommand,
std::set<ScDPObject*>& rRefs) const
{
std::set<ScDPObject*> aRefs;
TablesType::const_iterator it = maTables.begin(), itEnd = maTables.end();
for (; it != itEnd; ++it)
{
const ScDPObject& rObj = *it->get();
if (!rObj.IsImportData())
// Source data is not a database.
continue;
const ScImportSourceDesc* pDesc = rObj.GetImportSourceDesc();
if (!pDesc)
continue;
if (pDesc->aDBName != rDBName || pDesc->aObject != rCommand || pDesc->GetCommandType() != nSdbType)
// Different database source.
continue;
aRefs.insert(const_cast<ScDPObject*>(&rObj));
}
rRefs.swap(aRefs);
}
bool operator<(const ScDPCollection::DBType& left, const ScDPCollection::DBType& right)
{
if (left.mnSdbType != right.mnSdbType)
return left.mnSdbType < right.mnSdbType;
if (left.maDBName != right.maDBName)
return left.maDBName < right.maDBName;
return left.maCommand < right.maCommand;
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
↑ V794 The assignment operator should be protected from the case of 'this == &r'.