/* -*- 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 #include #include #include #include #include #include #include #include #include #include #include #include using namespace com::sun::star; ScDPSaveGroupItem::ScDPSaveGroupItem( const OUString& rName ) : aGroupName(rName) {} ScDPSaveGroupItem::~ScDPSaveGroupItem() {} void ScDPSaveGroupItem::AddElement( const OUString& rName ) { aElements.push_back(rName); } void ScDPSaveGroupItem::AddElementsFromGroup( const ScDPSaveGroupItem& rGroup ) { // add all elements of the other group (used for nested grouping) for ( const auto& rElement : rGroup.aElements ) aElements.push_back( rElement ); } bool ScDPSaveGroupItem::RemoveElement( const OUString& rName ) { auto it = std::find(aElements.begin(), aElements.end(), rName); //TODO: ignore case if (it != aElements.end()) { aElements.erase(it); return true; } return false; // not found } bool ScDPSaveGroupItem::IsEmpty() const { return aElements.empty(); } size_t ScDPSaveGroupItem::GetElementCount() const { return aElements.size(); } const OUString* ScDPSaveGroupItem::GetElementByIndex(size_t nIndex) const { return (nIndex < aElements.size()) ? &aElements[ nIndex ] : nullptr; } void ScDPSaveGroupItem::Rename( const OUString& rNewName ) { aGroupName = rNewName; } void ScDPSaveGroupItem::RemoveElementsFromGroups( ScDPSaveGroupDimension& rDimension ) const { // remove this group's elements from their groups in rDimension // (rDimension must be a different dimension from the one which contains this) for ( const auto& rElement : aElements ) rDimension.RemoveFromGroups( rElement ); } void ScDPSaveGroupItem::ConvertElementsToItems(SvNumberFormatter* pFormatter) const { maItems.reserve(aElements.size()); for (const auto& rElement : aElements) { sal_uInt32 nFormat = 0; double fValue; ScDPItemData aData; if (pFormatter->IsNumberFormat(rElement, nFormat, fValue)) aData.SetValue(fValue); else aData.SetString(rElement); maItems.push_back(aData); } } bool ScDPSaveGroupItem::HasInGroup(const ScDPItemData& rItem) const { return std::find(maItems.begin(), maItems.end(), rItem) != maItems.end(); } void ScDPSaveGroupItem::AddToData(ScDPGroupDimension& rDataDim) const { ScDPGroupItem aGroup(aGroupName); for (const auto& rItem : maItems) aGroup.AddElement(rItem); rDataDim.AddItem(aGroup); } ScDPSaveGroupDimension::ScDPSaveGroupDimension( const OUString& rSource, const OUString& rName ) : aSourceDim( rSource ), aGroupDimName( rName ), nDatePart( 0 ) { } ScDPSaveGroupDimension::ScDPSaveGroupDimension( const OUString& rSource, const OUString& rName, const ScDPNumGroupInfo& rDateInfo, sal_Int32 nPart ) : aSourceDim( rSource ), aGroupDimName( rName ), aDateInfo( rDateInfo ), nDatePart( nPart ) { } void ScDPSaveGroupDimension::SetDateInfo( const ScDPNumGroupInfo& rInfo, sal_Int32 nPart ) { aDateInfo = rInfo; nDatePart = nPart; } void ScDPSaveGroupDimension::AddGroupItem( const ScDPSaveGroupItem& rItem ) { aGroups.push_back( rItem ); } OUString ScDPSaveGroupDimension::CreateGroupName(const OUString& rPrefix) { // create a name for a new group, using "Group1", "Group2" etc. (translated prefix in rPrefix) //TODO: look in all dimensions, to avoid clashes with automatic groups (=name of base element)? //TODO: (only dimensions for the same base) sal_Int32 nAdd = 1; // first try is "Group1" const sal_Int32 nMaxAdd = nAdd + aGroups.size(); // limit the loop while ( nAdd <= nMaxAdd ) { OUString aGroupName = rPrefix + OUString::number( nAdd ); // look for existing groups bool bExists = std::any_of(aGroups.begin(), aGroups.end(), [&aGroupName](const ScDPSaveGroupItem& rGroup) { return rGroup.GetGroupName() == aGroupName; //TODO: ignore case }); if ( !bExists ) return aGroupName; // found a new name ++nAdd; // continue with higher number } OSL_FAIL("CreateGroupName: no valid name found"); return OUString(); } const ScDPSaveGroupItem* ScDPSaveGroupDimension::GetNamedGroup( const OUString& rGroupName ) const { return const_cast< ScDPSaveGroupDimension* >( this )->GetNamedGroupAcc( rGroupName ); } ScDPSaveGroupItem* ScDPSaveGroupDimension::GetNamedGroupAcc( const OUString& rGroupName ) { auto aIter = std::find_if(aGroups.begin(), aGroups.end(), [&rGroupName](const ScDPSaveGroupItem& rGroup) { return rGroup.GetGroupName() == rGroupName; //TODO: ignore case }); if (aIter != aGroups.end()) return &*aIter; return nullptr; // none found } long ScDPSaveGroupDimension::GetGroupCount() const { return aGroups.size(); } const ScDPSaveGroupItem& ScDPSaveGroupDimension::GetGroupByIndex( long nIndex ) const { return aGroups[nIndex]; } void ScDPSaveGroupDimension::RemoveFromGroups( const OUString& rItemName ) { // if the item is in any group, remove it from the group, // also remove the group if it is empty afterwards for ( ScDPSaveGroupItemVec::iterator aIter(aGroups.begin()); aIter != aGroups.end(); ++aIter ) if ( aIter->RemoveElement( rItemName ) ) { if ( aIter->IsEmpty() ) // removed last item from the group? aGroups.erase( aIter ); // then remove the group return; // don't have to look further } } void ScDPSaveGroupDimension::RemoveGroup(const OUString& rGroupName) { auto aIter = std::find_if(aGroups.begin(), aGroups.end(), [&rGroupName](const ScDPSaveGroupItem& rGroup) { return rGroup.GetGroupName() == rGroupName; //TODO: ignore case }); if (aIter != aGroups.end()) aGroups.erase( aIter ); } bool ScDPSaveGroupDimension::IsEmpty() const { return aGroups.empty(); } bool ScDPSaveGroupDimension::HasOnlyHidden(const ScDPUniqueStringSet& rVisible) { // check if there are only groups that don't appear in the list of visible names return std::none_of(aGroups.begin(), aGroups.end(), [&rVisible](const ScDPSaveGroupItem& rGroup) { return rVisible.count(rGroup.GetGroupName()) > 0; }); } void ScDPSaveGroupDimension::Rename( const OUString& rNewName ) { aGroupDimName = rNewName; } bool ScDPSaveGroupDimension::IsInGroup(const ScDPItemData& rItem) const { return std::any_of(aGroups.begin(), aGroups.end(), [&rItem](const ScDPSaveGroupItem& rGroup) { return rGroup.HasInGroup(rItem); }); } namespace { bool isInteger(double fValue) { return rtl::math::approxEqual(fValue, rtl::math::approxFloor(fValue)); } void fillDateGroupDimension( ScDPCache& rCache, ScDPNumGroupInfo& rDateInfo, long nSourceDim, long nGroupDim, sal_Int32 nDatePart, const SvNumberFormatter* pFormatter) { // Auto min/max is only used for "Years" part, but the loop is always // needed. double fSourceMin = 0.0; double fSourceMax = 0.0; bool bFirst = true; const ScDPCache::ScDPItemDataVec& rItems = rCache.GetDimMemberValues(nSourceDim); for (const ScDPItemData& rItem : rItems) { if (rItem.GetType() != ScDPItemData::Value) continue; double fVal = rItem.GetValue(); if (bFirst) { fSourceMin = fSourceMax = fVal; bFirst = false; } else { if (fVal < fSourceMin) fSourceMin = fVal; if ( fVal > fSourceMax ) fSourceMax = fVal; } } // For the start/end values, use the same date rounding as in // ScDPNumGroupDimension::GetNumEntries (but not for the list of // available years). if (rDateInfo.mbAutoStart) rDateInfo.mfStart = rtl::math::approxFloor(fSourceMin); if (rDateInfo.mbAutoEnd) rDateInfo.mfEnd = rtl::math::approxFloor(fSourceMax) + 1; //TODO: if not automatic, limit fSourceMin/fSourceMax for list of year values? long nStart = 0, nEnd = 0; // end is inclusive switch (nDatePart) { case sheet::DataPilotFieldGroupBy::YEARS: nStart = ScDPUtil::getDatePartValue( fSourceMin, nullptr, sheet::DataPilotFieldGroupBy::YEARS, pFormatter); nEnd = ScDPUtil::getDatePartValue(fSourceMax, nullptr, sheet::DataPilotFieldGroupBy::YEARS, pFormatter); break; case sheet::DataPilotFieldGroupBy::QUARTERS: nStart = 1; nEnd = 4; break; case sheet::DataPilotFieldGroupBy::MONTHS: nStart = 1; nEnd = 12; break; case sheet::DataPilotFieldGroupBy::DAYS: nStart = 1; nEnd = 366; break; case sheet::DataPilotFieldGroupBy::HOURS: nStart = 0; nEnd = 23; break; case sheet::DataPilotFieldGroupBy::MINUTES: nStart = 0; nEnd = 59; break; case sheet::DataPilotFieldGroupBy::SECONDS: nStart = 0; nEnd = 59; break; default: OSL_FAIL("invalid date part"); } // Now, populate the group items in the cache. rCache.ResetGroupItems(nGroupDim, rDateInfo, nDatePart); for (long nValue = nStart; nValue <= nEnd; ++nValue) rCache.SetGroupItem(nGroupDim, ScDPItemData(nDatePart, nValue)); // add first/last entry (min/max) rCache.SetGroupItem(nGroupDim, ScDPItemData(nDatePart, ScDPItemData::DateFirst)); rCache.SetGroupItem(nGroupDim, ScDPItemData(nDatePart, ScDPItemData::DateLast)); } } void ScDPSaveGroupDimension::AddToData( ScDPGroupTableData& rData ) const { long nSourceIndex = rData.GetDimensionIndex( aSourceDim ); if ( nSourceIndex >= 0 ) { ScDPGroupDimension aDim( nSourceIndex, aGroupDimName ); if ( nDatePart ) { // date grouping aDim.SetDateDimension(); } else { // normal (manual) grouping for (const auto& rGroup : aGroups) rGroup.AddToData(aDim); } rData.AddGroupDimension( aDim ); } } void ScDPSaveGroupDimension::AddToCache(ScDPCache& rCache) const { long nSourceDim = rCache.GetDimensionIndex(aSourceDim); if (nSourceDim < 0) return; long nDim = rCache.AppendGroupField(); SvNumberFormatter* pFormatter = rCache.GetDoc()->GetFormatTable(); if (nDatePart) { fillDateGroupDimension(rCache, aDateInfo, nSourceDim, nDim, nDatePart, pFormatter); return; } rCache.ResetGroupItems(nDim, aDateInfo, 0); for (const ScDPSaveGroupItem& rGI : aGroups) { rGI.ConvertElementsToItems(pFormatter); rCache.SetGroupItem(nDim, ScDPItemData(rGI.GetGroupName())); } const ScDPCache::ScDPItemDataVec& rItems = rCache.GetDimMemberValues(nSourceDim); for (const ScDPItemData& rItem : rItems) { if (!IsInGroup(rItem)) // Not in any group. Add as its own group. rCache.SetGroupItem(nDim, rItem); } } ScDPSaveNumGroupDimension::ScDPSaveNumGroupDimension( const OUString& rName, const ScDPNumGroupInfo& rInfo ) : aDimensionName( rName ), aGroupInfo( rInfo ), nDatePart( 0 ) { } ScDPSaveNumGroupDimension::ScDPSaveNumGroupDimension( const OUString& rName, const ScDPNumGroupInfo& rDateInfo, sal_Int32 nPart ) : aDimensionName( rName ), aDateInfo( rDateInfo ), nDatePart( nPart ) { } void ScDPSaveNumGroupDimension::AddToData( ScDPGroupTableData& rData ) const { long nSource = rData.GetDimensionIndex( aDimensionName ); if ( nSource >= 0 ) { ScDPNumGroupDimension aDim( aGroupInfo ); // aGroupInfo: value grouping if ( nDatePart ) aDim.SetDateDimension(); rData.SetNumGroupDimension( nSource, aDim ); } } void ScDPSaveNumGroupDimension::AddToCache(ScDPCache& rCache) const { long nDim = rCache.GetDimensionIndex(aDimensionName); if (nDim < 0) return; if (aDateInfo.mbEnable) { // Date grouping SvNumberFormatter* pFormatter = rCache.GetDoc()->GetFormatTable(); fillDateGroupDimension(rCache, aDateInfo, nDim, nDim, nDatePart, pFormatter); } else if (aGroupInfo.mbEnable) { // Number-range grouping // Look through the source entries for non-integer numbers, minimum // and maximum. // non-integer GroupInfo values count, too aGroupInfo.mbIntegerOnly = (aGroupInfo.mbAutoStart || isInteger(aGroupInfo.mfStart)) && (aGroupInfo.mbAutoEnd || isInteger(aGroupInfo.mfEnd)) && isInteger(aGroupInfo.mfStep); double fSourceMin = 0.0; double fSourceMax = 0.0; bool bFirst = true; const ScDPCache::ScDPItemDataVec& rItems = rCache.GetDimMemberValues(nDim); for (const ScDPItemData& rItem : rItems) { if (rItem.GetType() != ScDPItemData::Value) continue; double fValue = rItem.GetValue(); if (bFirst) { fSourceMin = fSourceMax = fValue; bFirst = false; continue; } if (fValue < fSourceMin) fSourceMin = fValue; if (fValue > fSourceMax) fSourceMax = fValue; if (aGroupInfo.mbIntegerOnly && !isInteger(fValue)) { // If any non-integer numbers are involved, the group labels // are shown including their upper limit. aGroupInfo.mbIntegerOnly = false; } } if (aGroupInfo.mbDateValues) { // special handling for dates: always integer, round down limits aGroupInfo.mbIntegerOnly = true; fSourceMin = rtl::math::approxFloor(fSourceMin); fSourceMax = rtl::math::approxFloor(fSourceMax) + 1; } if (aGroupInfo.mbAutoStart) aGroupInfo.mfStart = fSourceMin; if (aGroupInfo.mbAutoEnd) aGroupInfo.mfEnd = fSourceMax; //TODO: limit number of entries? long nLoopCount = 0; double fLoop = aGroupInfo.mfStart; rCache.ResetGroupItems(nDim, aGroupInfo, 0); // Use "less than" instead of "less or equal" for the loop - don't // create a group that consists only of the end value. Instead, the // end value is then included in the last group (last group is bigger // than the others). The first group has to be created nonetheless. // GetNumGroupForValue has corresponding logic. bool bFirstGroup = true; while (bFirstGroup || (fLoop < aGroupInfo.mfEnd && !rtl::math::approxEqual(fLoop, aGroupInfo.mfEnd))) { ScDPItemData aItem; aItem.SetRangeStart(fLoop); rCache.SetGroupItem(nDim, aItem); ++nLoopCount; fLoop = aGroupInfo.mfStart + nLoopCount * aGroupInfo.mfStep; bFirstGroup = false; // ScDPItemData values are compared with approxEqual } ScDPItemData aItem; aItem.SetRangeFirst(); rCache.SetGroupItem(nDim, aItem); aItem.SetRangeLast(); rCache.SetGroupItem(nDim, aItem); } } void ScDPSaveNumGroupDimension::SetGroupInfo( const ScDPNumGroupInfo& rNew ) { aGroupInfo = rNew; } void ScDPSaveNumGroupDimension::SetDateInfo( const ScDPNumGroupInfo& rInfo, sal_Int32 nPart ) { aDateInfo = rInfo; nDatePart = nPart; } namespace { struct ScDPSaveGroupDimNameFunc { OUString const maDimName; explicit ScDPSaveGroupDimNameFunc( const OUString& rDimName ) : maDimName( rDimName ) {} bool operator()( const ScDPSaveGroupDimension& rGroupDim ) const { return rGroupDim.GetGroupDimName() == maDimName; } }; struct ScDPSaveGroupSourceNameFunc { OUString const maSrcDimName; explicit ScDPSaveGroupSourceNameFunc( const OUString& rSrcDimName ) : maSrcDimName( rSrcDimName ) {} bool operator()( const ScDPSaveGroupDimension& rGroupDim ) const { return rGroupDim.GetSourceDimName() == maSrcDimName; } }; } // namespace ScDPDimensionSaveData::ScDPDimensionSaveData() { } bool ScDPDimensionSaveData::operator==( const ScDPDimensionSaveData& ) const { return false; } void ScDPDimensionSaveData::AddGroupDimension( const ScDPSaveGroupDimension& rGroupDim ) { OSL_ENSURE( ::std::none_of( maGroupDims.begin(), maGroupDims.end(), ScDPSaveGroupDimNameFunc( rGroupDim.GetGroupDimName() ) ), "ScDPDimensionSaveData::AddGroupDimension - group dimension exists already" ); // ReplaceGroupDimension() adds new or replaces existing ReplaceGroupDimension( rGroupDim ); } void ScDPDimensionSaveData::ReplaceGroupDimension( const ScDPSaveGroupDimension& rGroupDim ) { ScDPSaveGroupDimVec::iterator aIt = ::std::find_if( maGroupDims.begin(), maGroupDims.end(), ScDPSaveGroupDimNameFunc( rGroupDim.GetGroupDimName() ) ); if( aIt == maGroupDims.end() ) maGroupDims.push_back( rGroupDim ); else *aIt = rGroupDim; } void ScDPDimensionSaveData::RemoveGroupDimension( const OUString& rGroupDimName ) { ScDPSaveGroupDimVec::iterator aIt = ::std::find_if( maGroupDims.begin(), maGroupDims.end(), ScDPSaveGroupDimNameFunc( rGroupDimName ) ); if( aIt != maGroupDims.end() ) maGroupDims.erase( aIt ); } void ScDPDimensionSaveData::AddNumGroupDimension( const ScDPSaveNumGroupDimension& rGroupDim ) { OSL_ENSURE( maNumGroupDims.count( rGroupDim.GetDimensionName() ) == 0, "ScDPDimensionSaveData::AddNumGroupDimension - numeric group dimension exists already" ); // ReplaceNumGroupDimension() adds new or replaces existing ReplaceNumGroupDimension( rGroupDim ); } void ScDPDimensionSaveData::ReplaceNumGroupDimension( const ScDPSaveNumGroupDimension& rGroupDim ) { ScDPSaveNumGroupDimMap::iterator aIt = maNumGroupDims.find( rGroupDim.GetDimensionName() ); if( aIt == maNumGroupDims.end() ) maNumGroupDims.emplace( rGroupDim.GetDimensionName(), rGroupDim ); else aIt->second = rGroupDim; } void ScDPDimensionSaveData::RemoveNumGroupDimension( const OUString& rGroupDimName ) { maNumGroupDims.erase( rGroupDimName ); } void ScDPDimensionSaveData::WriteToData( ScDPGroupTableData& rData ) const { // rData is assumed to be empty // AddToData also handles date grouping for( const auto& rGroupDim : maGroupDims ) rGroupDim.AddToData( rData ); for( const auto& rEntry : maNumGroupDims ) rEntry.second.AddToData( rData ); } void ScDPDimensionSaveData::WriteToCache(ScDPCache& rCache) const { for (const auto& rEntry : maGroupDims) rEntry.AddToCache(rCache); for (const auto& rEntry : maNumGroupDims) rEntry.second.AddToCache(rCache); } const ScDPSaveGroupDimension* ScDPDimensionSaveData::GetGroupDimForBase( const OUString& rBaseDimName ) const { return const_cast< ScDPDimensionSaveData* >( this )->GetGroupDimAccForBase( rBaseDimName ); } const ScDPSaveGroupDimension* ScDPDimensionSaveData::GetNamedGroupDim( const OUString& rGroupDimName ) const { return const_cast< ScDPDimensionSaveData* >( this )->GetNamedGroupDimAcc( rGroupDimName ); } const ScDPSaveGroupDimension* ScDPDimensionSaveData::GetFirstNamedGroupDim( const OUString& rBaseDimName ) const { return const_cast< ScDPDimensionSaveData* >( this )->GetFirstNamedGroupDimAcc( rBaseDimName ); } const ScDPSaveGroupDimension* ScDPDimensionSaveData::GetNextNamedGroupDim( const OUString& rGroupDimName ) const { return const_cast< ScDPDimensionSaveData* >( this )->GetNextNamedGroupDimAcc( rGroupDimName ); } const ScDPSaveNumGroupDimension* ScDPDimensionSaveData::GetNumGroupDim( const OUString& rGroupDimName ) const { return const_cast< ScDPDimensionSaveData* >( this )->GetNumGroupDimAcc( rGroupDimName ); } ScDPSaveGroupDimension* ScDPDimensionSaveData::GetGroupDimAccForBase( const OUString& rBaseDimName ) { ScDPSaveGroupDimension* pGroupDim = GetFirstNamedGroupDimAcc( rBaseDimName ); return pGroupDim ? pGroupDim : GetNextNamedGroupDimAcc( rBaseDimName ); } ScDPSaveGroupDimension* ScDPDimensionSaveData::GetNamedGroupDimAcc( const OUString& rGroupDimName ) { ScDPSaveGroupDimVec::iterator aIt = ::std::find_if( maGroupDims.begin(), maGroupDims.end(), ScDPSaveGroupDimNameFunc( rGroupDimName ) ); return (aIt == maGroupDims.end()) ? nullptr : &*aIt; } ScDPSaveGroupDimension* ScDPDimensionSaveData::GetFirstNamedGroupDimAcc( const OUString& rBaseDimName ) { ScDPSaveGroupDimVec::iterator aIt = ::std::find_if( maGroupDims.begin(), maGroupDims.end(), ScDPSaveGroupSourceNameFunc( rBaseDimName ) ); return (aIt == maGroupDims.end()) ? nullptr : &*aIt; } ScDPSaveGroupDimension* ScDPDimensionSaveData::GetNextNamedGroupDimAcc( const OUString& rGroupDimName ) { // find the group dimension with the passed name ScDPSaveGroupDimVec::iterator aIt = ::std::find_if( maGroupDims.begin(), maGroupDims.end(), ScDPSaveGroupDimNameFunc( rGroupDimName ) ); // find next group dimension based on the same source dimension name if( aIt != maGroupDims.end() ) aIt = ::std::find_if( aIt + 1, maGroupDims.end(), ScDPSaveGroupSourceNameFunc( aIt->GetSourceDimName() ) ); return (aIt == maGroupDims.end()) ? nullptr : &*aIt; } ScDPSaveNumGroupDimension* ScDPDimensionSaveData::GetNumGroupDimAcc( const OUString& rGroupDimName ) { ScDPSaveNumGroupDimMap::iterator aIt = maNumGroupDims.find( rGroupDimName ); return (aIt == maNumGroupDims.end()) ? nullptr : &aIt->second; } bool ScDPDimensionSaveData::HasGroupDimensions() const { return !maGroupDims.empty() || !maNumGroupDims.empty(); } sal_Int32 ScDPDimensionSaveData::CollectDateParts( const OUString& rBaseDimName ) const { sal_Int32 nParts = 0; // start with part of numeric group if( const ScDPSaveNumGroupDimension* pNumDim = GetNumGroupDim( rBaseDimName ) ) nParts |= pNumDim->GetDatePart(); // collect parts from all matching group dimensions for( const ScDPSaveGroupDimension* pGroupDim = GetFirstNamedGroupDim( rBaseDimName ); pGroupDim; pGroupDim = GetNextNamedGroupDim( pGroupDim->GetGroupDimName() ) ) nParts |= pGroupDim->GetDatePart(); return nParts; } OUString ScDPDimensionSaveData::CreateGroupDimName( const OUString& rSourceName, const ScDPObject& rObject, bool bAllowSource, const std::vector* pDeletedNames ) { // create a name for the new dimension by appending a number to the original // dimension's name bool bUseSource = bAllowSource; // if set, try the unchanged original name first sal_Int32 nAdd = 2; // first try is "Name2" const sal_Int32 nMaxAdd = 1000; // limit the loop while ( nAdd <= nMaxAdd ) { OUString aDimName( rSourceName ); if ( !bUseSource ) aDimName += OUString::number(nAdd); // look for existing group dimensions bool bExists = std::any_of(maGroupDims.begin(), maGroupDims.end(), [&aDimName](const ScDPSaveGroupDimension& rDim) { return rDim.GetGroupDimName() == aDimName; //TODO: ignore case }); // look for base dimensions that happen to have that name if ( !bExists && rObject.IsDimNameInUse( aDimName ) ) { if ( pDeletedNames && std::find( pDeletedNames->begin(), pDeletedNames->end(), aDimName ) != pDeletedNames->end() ) { // allow the name anyway if the name is in pDeletedNames } else bExists = true; } if ( !bExists ) return aDimName; // found a new name if ( bUseSource ) bUseSource = false; else ++nAdd; // continue with higher number } OSL_FAIL("CreateGroupDimName: no valid name found"); return OUString(); } namespace { static const char* aDatePartIds[] = { STR_DPFIELD_GROUP_BY_SECONDS, STR_DPFIELD_GROUP_BY_MINUTES, STR_DPFIELD_GROUP_BY_HOURS, STR_DPFIELD_GROUP_BY_DAYS, STR_DPFIELD_GROUP_BY_MONTHS, STR_DPFIELD_GROUP_BY_QUARTERS, STR_DPFIELD_GROUP_BY_YEARS }; } OUString ScDPDimensionSaveData::CreateDateGroupDimName( sal_Int32 nDatePart, const ScDPObject& rObject, bool bAllowSource, const std::vector* pDeletedNames ) { using namespace css::sheet::DataPilotFieldGroupBy; OUString aPartName; switch( nDatePart ) { case SECONDS: aPartName = ScResId(aDatePartIds[0]); break; case MINUTES: aPartName = ScResId(aDatePartIds[1]); break; case HOURS: aPartName = ScResId(aDatePartIds[2]); break; case DAYS: aPartName = ScResId(aDatePartIds[3]); break; case MONTHS: aPartName = ScResId(aDatePartIds[4]); break; case QUARTERS: aPartName = ScResId(aDatePartIds[5]); break; case YEARS: aPartName = ScResId(aDatePartIds[6]); break; } OSL_ENSURE(!aPartName.isEmpty(), "ScDPDimensionSaveData::CreateDateGroupDimName - invalid date part"); return CreateGroupDimName( aPartName, rObject, bAllowSource, pDeletedNames ); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */