/* -*- 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 <memory>
#include <defnamesbuffer.hxx>
#include <com/sun/star/sheet/NamedRangeFlag.hpp>
#include <com/sun/star/sheet/XPrintAreas.hpp>
#include <com/sun/star/sheet/XSpreadsheet.hpp>
#include <o3tl/string_view.hxx>
#include <osl/diagnose.h>
#include <rtl/ustrbuf.hxx>
#include <oox/helper/binaryinputstream.hxx>
#include <oox/helper/attributelist.hxx>
#include <oox/token/tokens.hxx>
#include <addressconverter.hxx>
#include <biffhelper.hxx>
#include <externallinkbuffer.hxx>
#include <formulabase.hxx>
#include <formulaparser.hxx>
#include <worksheetbuffer.hxx>
#include <tokenarray.hxx>
#include <tokenuno.hxx>
#include <compiler.hxx>
#include <document.hxx>
namespace oox::xls {
using namespace ::com::sun::star::sheet;
using namespace ::com::sun::star::table;
using namespace ::com::sun::star::uno;
namespace {
const sal_uInt32 BIFF12_DEFNAME_HIDDEN = 0x00000001;
const sal_uInt32 BIFF12_DEFNAME_FUNC = 0x00000002;
const sal_uInt32 BIFF12_DEFNAME_VBNAME = 0x00000004;
const sal_uInt32 BIFF12_DEFNAME_MACRO = 0x00000008;
const sal_uInt32 BIFF12_DEFNAME_BUILTIN = 0x00000020;
constexpr OUString spcOoxPrefix(u"_xlnm."_ustr);
const char* const sppcBaseNames[] =
{
"Consolidate_Area",
"Auto_Open",
"Auto_Close",
"Extract",
"Database",
"Criteria",
"Print_Area",
"Print_Titles",
"Recorder",
"Data_Form",
"Auto_Activate",
"Auto_Deactivate",
"Sheet_Title",
"_FilterDatabase"
};
OUString lclGetBaseName( sal_Unicode cBuiltinId )
{
OSL_ENSURE( cBuiltinId < SAL_N_ELEMENTS( sppcBaseNames ), "lclGetBaseName - unsupported built-in identifier" );
OUStringBuffer aBuffer;
if( cBuiltinId < SAL_N_ELEMENTS( sppcBaseNames ) )
aBuffer.appendAscii( sppcBaseNames[ cBuiltinId ] );
else
aBuffer.append( static_cast< sal_Int32 >( cBuiltinId ) );
return aBuffer.makeStringAndClear();
}
OUString lclGetPrefixedName( sal_Unicode cBuiltinId )
{
return spcOoxPrefix + lclGetBaseName( cBuiltinId );
}
/** returns the built-in name identifier from a prefixed built-in name, e.g. '_xlnm.Print_Area'. */
sal_Unicode lclGetBuiltinIdFromPrefixedName( std::u16string_view aModelName )
{
if( o3tl::matchIgnoreAsciiCase( aModelName, spcOoxPrefix ) )
{
for( sal_Unicode cBuiltinId = 0; cBuiltinId < SAL_N_ELEMENTS( sppcBaseNames ); ++cBuiltinId )
{
OUString aBaseName = lclGetBaseName( cBuiltinId );
sal_Int32 nBaseNameLen = aBaseName.getLength();
if( (sal_Int32(aModelName.size()) == spcOoxPrefix.getLength() + nBaseNameLen) && o3tl::matchIgnoreAsciiCase( aModelName, aBaseName, spcOoxPrefix.getLength() ) )
return cBuiltinId;
}
}
return BIFF_DEFNAME_UNKNOWN;
}
/** returns the built-in name identifier from a built-in base name, e.g. 'Print_Area'. */
sal_Unicode lclGetBuiltinIdFromBaseName( std::u16string_view rModelName )
{
for( sal_Unicode cBuiltinId = 0; cBuiltinId < SAL_N_ELEMENTS( sppcBaseNames ); ++cBuiltinId )
if( o3tl::equalsIgnoreAsciiCase( rModelName, sppcBaseNames[ cBuiltinId ] ) )
return cBuiltinId;
return BIFF_DEFNAME_UNKNOWN;
}
OUString lclGetUpcaseModelName( const OUString& rModelName )
{
// TODO: i18n?
return rModelName.toAsciiUpperCase();
}
} // namespace
DefinedNameModel::DefinedNameModel() :
mnSheet( -1 ),
mnFuncGroupId( -1 ),
mbMacro( false ),
mbFunction( false ),
mbVBName( false ),
mbHidden( false )
{
}
DefinedNameBase::DefinedNameBase( const WorkbookHelper& rHelper ) :
WorkbookHelper( rHelper )
{
}
const OUString& DefinedNameBase::getUpcaseModelName() const
{
if( maUpModelName.isEmpty() )
maUpModelName = lclGetUpcaseModelName( maModel.maName );
return maUpModelName;
}
DefinedName::DefinedName( const WorkbookHelper& rHelper ) :
DefinedNameBase( rHelper ),
maScRangeData(nullptr, false),
mnTokenIndex( -1 ),
mnCalcSheet( 0 ),
mcBuiltinId( BIFF_DEFNAME_UNKNOWN )
{
}
void DefinedName::importDefinedName( const AttributeList& rAttribs )
{
maModel.maName = rAttribs.getXString( XML_name, OUString() );
maModel.mnSheet = rAttribs.getInteger( XML_localSheetId, -1 );
maModel.mnFuncGroupId = rAttribs.getInteger( XML_functionGroupId, -1 );
maModel.mbMacro = rAttribs.getBool( XML_xlm, false );
maModel.mbFunction = rAttribs.getBool( XML_function, false );
maModel.mbVBName = rAttribs.getBool( XML_vbProcedure, false );
maModel.mbHidden = rAttribs.getBool( XML_hidden, false );
mnCalcSheet = (maModel.mnSheet >= 0) ? getWorksheets().getCalcSheetIndex( maModel.mnSheet ) : -1;
/* Detect built-in state from name itself, there is no built-in flag.
Built-in names are prefixed with '_xlnm.' instead. */
mcBuiltinId = lclGetBuiltinIdFromPrefixedName( maModel.maName );
}
void DefinedName::setFormula( const OUString& rFormula )
{
maModel.maFormula = rFormula;
}
void DefinedName::importDefinedName( SequenceInputStream& rStrm )
{
sal_uInt32 nFlags;
nFlags = rStrm.readuInt32();
rStrm.skip( 1 ); // keyboard shortcut
maModel.mnSheet = rStrm.readInt32();
rStrm >> maModel.maName;
mnCalcSheet = (maModel.mnSheet >= 0) ? getWorksheets().getCalcSheetIndex( maModel.mnSheet ) : -1;
// macro function/command, hidden flag
maModel.mnFuncGroupId = extractValue< sal_Int32 >( nFlags, 6, 9 );
maModel.mbMacro = getFlag( nFlags, BIFF12_DEFNAME_MACRO );
maModel.mbFunction = getFlag( nFlags, BIFF12_DEFNAME_FUNC );
maModel.mbVBName = getFlag( nFlags, BIFF12_DEFNAME_VBNAME );
maModel.mbHidden = getFlag( nFlags, BIFF12_DEFNAME_HIDDEN );
// get built-in name index from name
if( getFlag( nFlags, BIFF12_DEFNAME_BUILTIN ) )
mcBuiltinId = lclGetBuiltinIdFromBaseName( maModel.maName );
// store token array data
sal_Int64 nRecPos = rStrm.tell();
sal_Int32 nFmlaSize = rStrm.readInt32();
rStrm.skip( nFmlaSize );
sal_Int32 nAddDataSize = rStrm.readInt32();
if( !rStrm.isEof() && (nFmlaSize > 0) && (nAddDataSize >= 0) && (rStrm.getRemaining() >= nAddDataSize) )
{
sal_Int32 nTotalSize = 8 + nFmlaSize + nAddDataSize;
mxFormula.reset( new StreamDataSequence );
rStrm.seek( nRecPos );
rStrm.readData( *mxFormula, nTotalSize );
}
}
void DefinedName::createNameObject( sal_Int32 nIndex )
{
// do not create names for (macro) functions or VBA procedures
// #163146# do not ignore hidden names (may be regular names created by VBA scripts)
if( /*maModel.mbHidden ||*/ maModel.mbFunction || maModel.mbVBName )
return;
// convert original name to final Calc name (TODO: filter invalid characters from model name)
maCalcName = isBuiltinName() ? lclGetPrefixedName( mcBuiltinId ) : maModel.maName;
// #163146# do not rename sheet-local names by default, this breaks VBA scripts
// special flags for this name
sal_Int32 nNameFlags = 0;
using namespace ::com::sun::star::sheet;
if( !isGlobalName() ) switch( mcBuiltinId )
{
case BIFF_DEFNAME_CRITERIA:
case BIFF_DEFNAME_FILTERDATABASE:
nNameFlags = NamedRangeFlag::FILTER_CRITERIA;
break;
case BIFF_DEFNAME_PRINTAREA:
nNameFlags = NamedRangeFlag::PRINT_AREA;
break;
case BIFF_DEFNAME_PRINTTITLES:
nNameFlags = NamedRangeFlag::COLUMN_HEADER | NamedRangeFlag::ROW_HEADER;
break;
}
// Set the appropriate flag if it is a hidden named range
if (maModel.mbHidden)
nNameFlags |= NamedRangeFlag::HIDDEN;
// create the name and insert it into the document, maCalcName will be changed to the resulting name
if (maModel.mnSheet >= 0)
maScRangeData = createLocalNamedRangeObject(maCalcName, nIndex, nNameFlags, maModel.mnSheet);
else
maScRangeData = createNamedRangeObject( maCalcName, nIndex, nNameFlags);
mnTokenIndex = nIndex;
}
bool DefinedName::isValid(
const css::uno::Sequence<css::sheet::ExternalLinkInfo>& rExternalLinks) const
{
ScRange aRange;
OUString aExternDocName;
OUString aStartTabName;
OUString aEndTabName;
ScRefFlags nFlags = ScRefFlags::VALID | ScRefFlags::TAB_VALID;
aRange.Parse_XL_Header(maModel.maFormula.getStr(), getScDocument(), aExternDocName,
aStartTabName, aEndTabName, nFlags, /*bOnlyAcceptSingle=*/false,
&rExternalLinks);
// aExternDocName is something like 'file:///path/to/my.xlsx' in the valid case, and it's an int
// when it's invalid.
bool bInvalidExternalRef = aExternDocName.toInt32() > 0;
return !bInvalidExternalRef;
}
std::unique_ptr<ScTokenArray> DefinedName::getScTokens(
const css::uno::Sequence<css::sheet::ExternalLinkInfo>& rExternalLinks )
{
ScCompiler aCompiler(getScDocument(), ScAddress(0, 0, mnCalcSheet), formula::FormulaGrammar::GRAM_OOXML);
aCompiler.SetExternalLinks( rExternalLinks);
std::unique_ptr<ScTokenArray> pArray(aCompiler.CompileString(maModel.maFormula));
// Compile the tokens into RPN once to populate information into tokens
// where necessary, e.g. for TableRef inner reference. RPN can be discarded
// after, a resulting error must be reset.
FormulaError nErr = pArray->GetCodeError();
aCompiler.CompileTokenArray();
getScDocument().CheckLinkFormulaNeedingCheck( *pArray);
pArray->DelRPN();
pArray->SetCodeError(nErr);
return pArray;
}
void DefinedName::convertFormula( const css::uno::Sequence<css::sheet::ExternalLinkInfo>& rExternalLinks )
{
ScRangeData* pScRangeData = maScRangeData.first;
// macro function or vba procedure
if (!pScRangeData)
return;
// convert and set formula of the defined name
{
std::unique_ptr<ScTokenArray> pTokenArray = getScTokens( rExternalLinks);
pScRangeData->SetCode( *pTokenArray );
}
ScTokenArray* pTokenArray = pScRangeData->GetCode();
/* TODO: conversion to FormulaToken sequence would be completely
* unnecessary if getFormulaParser().extractCellRangeList() could operate
* on ScTokenArray instead. */
Sequence< FormulaToken > aFTokenSeq;
ScTokenConversion::ConvertToTokenSequence( getScDocument(), aFTokenSeq, *pTokenArray, true);
// set built-in names (print ranges, repeated titles, filter ranges)
if( isGlobalName() )
return;
switch( mcBuiltinId )
{
case BIFF_DEFNAME_PRINTAREA:
{
Reference< XPrintAreas > xPrintAreas( getSheetFromDoc( mnCalcSheet ), UNO_QUERY );
ScRangeList aPrintRanges;
getFormulaParser().extractCellRangeList( aPrintRanges, aFTokenSeq, mnCalcSheet );
if( xPrintAreas.is() && !aPrintRanges.empty() )
xPrintAreas->setPrintAreas( AddressConverter::toApiSequence(aPrintRanges) );
}
break;
case BIFF_DEFNAME_PRINTTITLES:
{
Reference< XPrintAreas > xPrintAreas( getSheetFromDoc( mnCalcSheet ), UNO_QUERY );
ScRangeList aTitleRanges;
getFormulaParser().extractCellRangeList( aTitleRanges, aFTokenSeq, mnCalcSheet );
if( xPrintAreas.is() && !aTitleRanges.empty() )
{
bool bHasRowTitles = false;
bool bHasColTitles = false;
const ScAddress& rMaxPos = getAddressConverter().getMaxAddress();
for (size_t i = 0, nSize = aTitleRanges.size(); i < nSize; ++i)
{
const ScRange& rRange = aTitleRanges[i];
bool bFullRow = (rRange.aStart.Col() == 0) && ( rRange.aEnd.Col() >= rMaxPos.Col() );
bool bFullCol = (rRange.aStart.Row() == 0) && ( rRange.aEnd.Row() >= rMaxPos.Row() );
if( !bHasRowTitles && bFullRow && !bFullCol )
{
xPrintAreas->setTitleRows( CellRangeAddress(rRange.aStart.Tab(),
rRange.aStart.Col(), rRange.aStart.Row(),
rRange.aEnd.Col(), rRange.aEnd.Row()) );
xPrintAreas->setPrintTitleRows( true );
bHasRowTitles = true;
}
else if( !bHasColTitles && bFullCol && !bFullRow )
{
xPrintAreas->setTitleColumns( CellRangeAddress(rRange.aStart.Tab(),
rRange.aStart.Col(), rRange.aStart.Row(),
rRange.aEnd.Col(), rRange.aEnd.Row()) );
xPrintAreas->setPrintTitleColumns( true );
bHasColTitles = true;
}
}
}
}
break;
}
}
bool DefinedName::getAbsoluteRange( ScRange& orRange ) const
{
ScRangeData* pScRangeData = maScRangeData.first;
ScTokenArray* pTokenArray = pScRangeData->GetCode();
/* TODO: conversion to FormulaToken sequence would be completely
* unnecessary if getFormulaParser().extractCellRange() could operate
* on ScTokenArray instead. */
Sequence< FormulaToken > aFTokenSeq;
ScTokenConversion::ConvertToTokenSequence(getScDocument(), aFTokenSeq, *pTokenArray, true);
return getFormulaParser().extractCellRange( orRange, aFTokenSeq );
}
DefinedName::~DefinedName()
{
// this kind of field is owned by us - see lcl_addNewByNameAndTokens
bool bOwned = maScRangeData.second;
if (bOwned)
delete maScRangeData.first;
}
DefinedNamesBuffer::DefinedNamesBuffer( const WorkbookHelper& rHelper ) :
WorkbookHelper( rHelper )
{
}
DefinedNameRef DefinedNamesBuffer::importDefinedName( const AttributeList& rAttribs )
{
DefinedNameRef xDefName = createDefinedName();
xDefName->importDefinedName( rAttribs );
return xDefName;
}
void DefinedNamesBuffer::importDefinedName( SequenceInputStream& rStrm )
{
createDefinedName()->importDefinedName( rStrm );
}
void DefinedNamesBuffer::finalizeImport()
{
// first insert all names without formula definition into the document, and insert them into the maps
int index = 0;
for( DefinedNameRef& xDefName : maDefNames )
{
if (!xDefName->isValid(getExternalLinks().getLinkInfos()))
{
continue;
}
xDefName->createNameObject( ++index );
// map by sheet index and original model name
maModelNameMap[ SheetNameKey( xDefName->getLocalCalcSheet(), xDefName->getUpcaseModelName() ) ] = xDefName;
// map by sheet index and built-in identifier
if( !xDefName->isGlobalName() && xDefName->isBuiltinName() )
maBuiltinMap[ BuiltinKey( xDefName->getLocalCalcSheet(), xDefName->getBuiltinId() ) ] = xDefName;
// map by API formula token identifier
sal_Int32 nTokenIndex = xDefName->getTokenIndex();
if( nTokenIndex >= 0 )
maTokenIdMap[ nTokenIndex ] = xDefName;
}
/* Now convert all name formulas, so that the formula parser can find all
names in case of circular dependencies. */
maDefNames.forEachMem( &DefinedName::convertFormula, getExternalLinks().getLinkInfos());
}
DefinedNameRef DefinedNamesBuffer::getByIndex( sal_Int32 nIndex ) const
{
return maDefNames.get( nIndex );
}
DefinedNameRef DefinedNamesBuffer::getByTokenIndex( sal_Int32 nIndex ) const
{
return maTokenIdMap.get( nIndex );
}
DefinedNameRef DefinedNamesBuffer::getByModelName( const OUString& rModelName, sal_Int16 nCalcSheet ) const
{
OUString aUpcaseName = lclGetUpcaseModelName( rModelName );
DefinedNameRef xDefName = maModelNameMap.get( SheetNameKey( nCalcSheet, aUpcaseName ) );
// lookup global name, if no local name exists
if( !xDefName && (nCalcSheet >= 0) )
xDefName = maModelNameMap.get( SheetNameKey( -1, aUpcaseName ) );
return xDefName;
}
DefinedNameRef DefinedNamesBuffer::getByBuiltinId( sal_Unicode cBuiltinId, sal_Int16 nCalcSheet ) const
{
return maBuiltinMap.get( BuiltinKey( nCalcSheet, cBuiltinId ) );
}
DefinedNameRef DefinedNamesBuffer::createDefinedName()
{
DefinedNameRef xDefName = std::make_shared<DefinedName>( *this );
maDefNames.push_back( xDefName );
return xDefName;
}
} // namespace oox::xls
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
↑ V530 The return value of function 'appendAscii' is required to be utilized.
↑ V530 The return value of function 'append' is required to be utilized.