/* -*- 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 SbiExpression::SbiExpression( SbiParser* p, SbiExprType t, SbiExprMode eMode, const KeywordSymbolInfo* pKeywordSymbolInfo ) { pParser = p; bBased = bError = bByVal = bBracket = false; nParenLevel = 0; eCurExpr = t; m_eMode = eMode; pExpr = (t != SbSTDEXPR ) ? Term( pKeywordSymbolInfo ) : Boolean(); if( t != SbSYMBOL ) { pExpr->Optimize(pParser); } if( t == SbLVALUE && !pExpr->IsLvalue() ) { p->Error( ERRCODE_BASIC_LVALUE_EXPECTED ); } if( t == SbOPERAND && !IsVariable() ) { p->Error( ERRCODE_BASIC_VAR_EXPECTED ); } } SbiExpression::SbiExpression( SbiParser* p, double n, SbxDataType t ) { pParser = p; bBased = bError = bByVal = bBracket = false; nParenLevel = 0; eCurExpr = SbOPERAND; m_eMode = EXPRMODE_STANDARD; pExpr = std::make_unique( n, t ); pExpr->Optimize(pParser); } SbiExpression::SbiExpression( SbiParser* p, const SbiSymDef& r, SbiExprListPtr pPar ) { pParser = p; bBased = bError = bByVal = bBracket = false; nParenLevel = 0; eCurExpr = SbOPERAND; m_eMode = EXPRMODE_STANDARD; pExpr = std::make_unique( r, SbxVARIANT, std::move(pPar) ); } SbiExpression::~SbiExpression() { } // reading in a complete identifier // an identifier has the following form: // name[(Parameter)][.Name[(parameter)]]... // structure elements are coupled via the element pNext, // so that they're not in the tree. // Are there parameters without brackets following? This may be a number, // a string, a symbol or also a comma (if the 1st parameter is missing) static bool DoParametersFollow( SbiParser* p, SbiExprType eCurExpr, SbiToken eTok ) { if( eTok == LPAREN ) { return true; } // but only if similar to CALL! if( !p->WhiteSpace() || eCurExpr != SbSYMBOL ) { return false; } if ( eTok == NUMBER || eTok == MINUS || eTok == FIXSTRING || eTok == SYMBOL || eTok == COMMA || eTok == DOT || eTok == NOT || eTok == BYVAL ) { return true; } else // check for default params with reserved names ( e.g. names of tokens ) { SbiTokenizer tokens( *static_cast(p) ); // Urk the Next() / Peek() semantics are... weird tokens.Next(); if ( tokens.Peek() == ASSIGN ) { return true; } } return false; } // definition of a new symbol static SbiSymDef* AddSym ( SbiToken eTok, SbiSymPool& rPool, SbiExprType eCurExpr, const OUString& rName, SbxDataType eType, const SbiExprList* pPar ) { SbiSymDef* pDef; // A= is not a procedure bool bHasType = ( eTok == EQ || eTok == DOT ); if( ( !bHasType && eCurExpr == SbSYMBOL ) || pPar ) { // so this is a procedure // the correct pool should be found out, as // procs must always get into a public pool SbiSymPool* pPool = &rPool; if( pPool->GetScope() != SbPUBLIC ) { pPool = &rPool.GetParser()->aPublics; } SbiProcDef* pProc = pPool->AddProc( rName ); // special treatment for Colls like Documents(1) if( eCurExpr == SbSTDEXPR ) { bHasType = true; } pDef = pProc; pDef->SetType( bHasType ? eType : SbxEMPTY ); if( pPar ) { // generate dummy parameters for( sal_Int32 n = 1; n <= pPar->GetSize(); n++ ) { OUString aPar = "PAR" + OUString::number( n ); pProc->GetParams().AddSym( aPar ); } } } else { // or a normal symbol pDef = rPool.AddSym( rName ); pDef->SetType( eType ); } return pDef; } // currently even keywords are allowed (because of Dflt properties of the same name) std::unique_ptr SbiExpression::Term( const KeywordSymbolInfo* pKeywordSymbolInfo ) { if( pParser->Peek() == DOT ) { SbiExprNode* pWithVar = pParser->GetWithVar(); // #26608: get to the node-chain's end to pass the correct object SbiSymDef* pDef = pWithVar ? pWithVar->GetRealVar() : nullptr; std::unique_ptr pNd; if( !pDef ) { pParser->Next(); } else { pNd = ObjTerm( *pDef ); if( pNd ) { pNd->SetWithParent( pWithVar ); } } if( !pNd ) { pParser->Error( ERRCODE_BASIC_UNEXPECTED, DOT ); pNd = std::make_unique( 1.0, SbxDOUBLE ); } return pNd; } SbiToken eTok = (pKeywordSymbolInfo == nullptr) ? pParser->Next() : SYMBOL; // memorize the parsing's begin pParser->LockColumn(); OUString aSym( (pKeywordSymbolInfo == nullptr) ? pParser->GetSym() : pKeywordSymbolInfo->m_aKeywordSymbol ); SbxDataType eType = (pKeywordSymbolInfo == nullptr) ? pParser->GetType() : pKeywordSymbolInfo->m_eSbxDataType; SbiExprListPtr pPar; std::unique_ptr pvMoreParLcl; // are there parameters following? SbiToken eNextTok = pParser->Peek(); // is it a known parameter? // create a string constant then, which will be recognized // in the SbiParameters-ctor and is continued to be handled if( eNextTok == ASSIGN ) { pParser->UnlockColumn(); return std::make_unique( aSym ); } // no keywords allowed from here on! if( SbiTokenizer::IsKwd( eTok ) && (!pParser->IsCompatible() || eTok != INPUT) ) { pParser->Error( ERRCODE_BASIC_SYNTAX ); bError = true; } if( DoParametersFollow( pParser, eCurExpr, eTok = eNextTok ) ) { bool bStandaloneExpression = (m_eMode == EXPRMODE_STANDALONE); pPar = SbiExprList::ParseParameters( pParser, bStandaloneExpression ); bError = bError || !pPar->IsValid(); if( !bError ) bBracket = pPar->IsBracket(); eTok = pParser->Peek(); // i75443 check for additional sets of parameters while( eTok == LPAREN ) { if( pvMoreParLcl == nullptr ) { pvMoreParLcl.reset(new SbiExprListVector); } SbiExprListPtr pAddPar = SbiExprList::ParseParameters( pParser ); bError = bError || !pAddPar->IsValid(); pvMoreParLcl->push_back( std::move(pAddPar) ); eTok = pParser->Peek(); } } // It might be an object part, if . or ! is following. // In case of . the variable must already be defined; // it's an object, if pDef is NULL after the search. bool bObj = ( ( eTok == DOT || eTok == EXCLAM ) && !pParser->WhiteSpace() ); if( bObj ) { bBracket = false; // Now the bracket for the first term is obsolete if( eType == SbxVARIANT ) { eType = SbxOBJECT; } else { // Name%. really does not work! pParser->Error( ERRCODE_BASIC_BAD_DECLARATION, aSym ); bError = true; } } // Search: SbiSymDef* pDef = pParser->pPool->Find( aSym ); if( !pDef ) { // Part of the Runtime-Library? // from 31.3.1996: swapped out to parser-method // (is also needed in SbiParser::DefVar() in DIM.CXX) pDef = pParser->CheckRTLForSym( aSym, eType ); // #i109184: Check if symbol is or later will be defined inside module SbModule& rMod = pParser->aGen.GetModule(); if( rMod.FindMethod( aSym, SbxClassType::DontCare ) ) { pDef = nullptr; } } if( !pDef ) { if( bObj ) { eType = SbxOBJECT; } pDef = AddSym( eTok, *pParser->pPool, eCurExpr, aSym, eType, pPar.get() ); // Looks like this is a local ( but undefined variable ) // if it is in a static procedure then make this Symbol // static if ( !bObj && pParser->pProc && pParser->pProc->IsStatic() ) { pDef->SetStatic(); } } else { SbiConstDef* pConst = pDef->GetConstDef(); if( pConst ) { pPar = nullptr; pvMoreParLcl.reset(); if( pConst->GetType() == SbxSTRING ) { return std::make_unique( pConst->GetString() ); } else { return std::make_unique( pConst->GetValue(), pConst->GetType() ); } } // 0 parameters come up to () if( pDef->GetDims() ) { if( pPar && pPar->GetSize() && pPar->GetSize() != pDef->GetDims() ) { pParser->Error( ERRCODE_BASIC_WRONG_DIMS ); } } if( pDef->IsDefinedAs() ) { SbxDataType eDefType = pDef->GetType(); // #119187 Only error if types conflict if( eType >= SbxINTEGER && eType <= SbxSTRING && eType != eDefType ) { // How? Define with AS first and take a Suffix then? pParser->Error( ERRCODE_BASIC_BAD_DECLARATION, aSym ); bError = true; } else if ( eType == SbxVARIANT ) { // if there's nothing named, take the type of the entry, // but only if the var hasn't been defined with AS XXX // so that we catch n% = 5 : print n eType = eDefType; } } // checking type of variables: // is there named anything different in the scanner? // That's OK for methods! if( eType != SbxVARIANT && // Variant takes everything eType != pDef->GetType() && !pDef->GetProcDef() ) { // maybe pDef describes an object that so far has only been // recognized as SbxVARIANT - then change type of pDef // from 16.12.95 (similar cases possible perhaps?!?) if( eType == SbxOBJECT && pDef->GetType() == SbxVARIANT ) { pDef->SetType( SbxOBJECT ); } else { pParser->Error( ERRCODE_BASIC_BAD_DECLARATION, aSym ); bError = true; } } } std::unique_ptr pNd(new SbiExprNode( *pDef, eType )); if( !pPar ) { pPar = SbiExprList::ParseParameters( pParser,false,false ); } pNd->aVar.pPar = pPar.release(); pNd->aVar.pvMorePar = pvMoreParLcl.release(); if( bObj ) { // from 8.1.95: Object may also be of the type SbxVARIANT if( pDef->GetType() == SbxVARIANT ) pDef->SetType( SbxOBJECT ); // if we scan something with point, // the type must be SbxOBJECT if( pDef->GetType() != SbxOBJECT && pDef->GetType() != SbxVARIANT ) { // defer error until runtime if in vba mode if ( !pParser->IsVBASupportOn() ) { pParser->Error( ERRCODE_BASIC_BAD_DECLARATION, aSym ); bError = true; } } if( !bError ) { pNd->aVar.pNext = ObjTerm( *pDef ).release(); } } pParser->UnlockColumn(); return pNd; } // construction of an object term. A term of this kind is part // of an expression that begins with an object variable. std::unique_ptr SbiExpression::ObjTerm( SbiSymDef& rObj ) { pParser->Next(); SbiToken eTok = pParser->Next(); if( eTok != SYMBOL && !SbiTokenizer::IsKwd( eTok ) && !SbiTokenizer::IsExtra( eTok ) ) { // #66745 Some operators can also be allowed // as identifiers, important for StarOne if( eTok != MOD && eTok != NOT && eTok != AND && eTok != OR && eTok != XOR && eTok != EQV && eTok != IMP && eTok != IS ) { pParser->Error( ERRCODE_BASIC_VAR_EXPECTED ); bError = true; } } if( bError ) { return nullptr; } OUString aSym( pParser->GetSym() ); SbxDataType eType = pParser->GetType(); SbiExprListPtr pPar; SbiExprListVector* pvMoreParLcl = nullptr; eTok = pParser->Peek(); if( DoParametersFollow( pParser, eCurExpr, eTok ) ) { pPar = SbiExprList::ParseParameters( pParser, false/*bStandaloneExpression*/ ); bError = bError || !pPar->IsValid(); eTok = pParser->Peek(); // i109624 check for additional sets of parameters while( eTok == LPAREN ) { if( pvMoreParLcl == nullptr ) { pvMoreParLcl = new SbiExprListVector; } SbiExprListPtr pAddPar = SbiExprList::ParseParameters( pParser ); bError = bError || !pPar->IsValid(); pvMoreParLcl->push_back( std::move(pAddPar) ); eTok = pParser->Peek(); } } bool bObj = ( ( eTok == DOT || eTok == EXCLAM ) && !pParser->WhiteSpace() ); if( bObj ) { if( eType == SbxVARIANT ) { eType = SbxOBJECT; } else { // Name%. does really not work! pParser->Error( ERRCODE_BASIC_BAD_DECLARATION, aSym ); bError = true; } } // an object's symbol pool is always PUBLIC SbiSymPool& rPool = rObj.GetPool(); rPool.SetScope( SbPUBLIC ); SbiSymDef* pDef = rPool.Find( aSym ); if( !pDef ) { pDef = AddSym( eTok, rPool, eCurExpr, aSym, eType, pPar.get() ); pDef->SetType( eType ); } std::unique_ptr pNd(new SbiExprNode( *pDef, eType )); pNd->aVar.pPar = pPar.release(); pNd->aVar.pvMorePar = pvMoreParLcl; if( bObj ) { if( pDef->GetType() == SbxVARIANT ) { pDef->SetType( SbxOBJECT ); } if( pDef->GetType() != SbxOBJECT ) { pParser->Error( ERRCODE_BASIC_BAD_DECLARATION, aSym ); bError = true; } if( !bError ) { pNd->aVar.pNext = ObjTerm( *pDef ).release(); pNd->eType = eType; } } return pNd; } // an operand can be: // constant // scalar variable // structure elements // array elements // functions // bracketed expressions std::unique_ptr SbiExpression::Operand( bool bUsedForTypeOf ) { std::unique_ptr pRes; // test operand: switch( SbiToken eTok = pParser->Peek() ) { case SYMBOL: pRes = Term(); // process something like "IF Not r Is Nothing Then .." if( !bUsedForTypeOf && pParser->IsVBASupportOn() && pParser->Peek() == IS ) { eTok = pParser->Next(); pRes = std::make_unique( std::move(pRes), eTok, Like() ); } break; case DOT: // .with pRes = Term(); break; case NOT: pRes = VBA_Not(); break; case NUMBER: pParser->Next(); pRes = std::make_unique( pParser->GetDbl(), pParser->GetType() ); break; case FIXSTRING: pParser->Next(); pRes = std::make_unique( pParser->GetSym() ); break; case LPAREN: pParser->Next(); if( nParenLevel == 0 && m_eMode == EXPRMODE_LPAREN_PENDING && pParser->Peek() == RPAREN ) { m_eMode = EXPRMODE_EMPTY_PAREN; pRes = std::make_unique(); // Dummy node pParser->Next(); break; } nParenLevel++; pRes = Boolean(); if( pParser->Peek() != RPAREN ) { // If there was a LPARAM, it does not belong to the expression if( nParenLevel == 1 && m_eMode == EXPRMODE_LPAREN_PENDING ) { m_eMode = EXPRMODE_LPAREN_NOT_NEEDED; } else { pParser->Error( ERRCODE_BASIC_BAD_BRACKETS ); } } else { pParser->Next(); if( nParenLevel == 1 && m_eMode == EXPRMODE_LPAREN_PENDING ) { SbiToken eTokAfterRParen = pParser->Peek(); if( eTokAfterRParen == EQ || eTokAfterRParen == LPAREN || eTokAfterRParen == DOT ) { m_eMode = EXPRMODE_ARRAY_OR_OBJECT; } else { m_eMode = EXPRMODE_STANDARD; } } } nParenLevel--; break; default: // keywords here are OK at the moment! if( SbiTokenizer::IsKwd( eTok ) ) { pRes = Term(); } else { pParser->Next(); pRes = std::make_unique( 1.0, SbxDOUBLE ); pParser->Error( ERRCODE_BASIC_UNEXPECTED, eTok ); } break; } return pRes; } std::unique_ptr SbiExpression::Unary() { std::unique_ptr pNd; SbiToken eTok = pParser->Peek(); switch( eTok ) { case MINUS: eTok = NEG; pParser->Next(); pNd = std::make_unique( Unary(), eTok, nullptr ); break; case NOT: if( pParser->IsVBASupportOn() ) { pNd = Operand(); } else { pParser->Next(); pNd = std::make_unique( Unary(), eTok, nullptr ); } break; case PLUS: pParser->Next(); pNd = Unary(); break; case TYPEOF: { pParser->Next(); std::unique_ptr pObjNode = Operand( true/*bUsedForTypeOf*/ ); pParser->TestToken( IS ); SbiSymDef* pTypeDef = new SbiSymDef( OUString() ); pParser->TypeDecl( *pTypeDef, true ); pNd = std::make_unique( std::move(pObjNode), pTypeDef->GetTypeId() ); break; } case NEW: { pParser->Next(); SbiSymDef* pTypeDef = new SbiSymDef( OUString() ); pParser->TypeDecl( *pTypeDef, true ); pNd = std::make_unique( pTypeDef->GetTypeId() ); break; } default: pNd = Operand(); } return pNd; } std::unique_ptr SbiExpression::Exp() { std::unique_ptr pNd = Unary(); if( m_eMode != EXPRMODE_EMPTY_PAREN ) { while( pParser->Peek() == EXPON ) { SbiToken eTok = pParser->Next(); pNd = std::make_unique( std::move(pNd), eTok, Unary() ); } } return pNd; } std::unique_ptr SbiExpression::MulDiv() { std::unique_ptr pNd = Exp(); if( m_eMode != EXPRMODE_EMPTY_PAREN ) { for( ;; ) { SbiToken eTok = pParser->Peek(); if( eTok != MUL && eTok != DIV ) { break; } eTok = pParser->Next(); pNd = std::make_unique( std::move(pNd), eTok, Exp() ); } } return pNd; } std::unique_ptr SbiExpression::IntDiv() { std::unique_ptr pNd = MulDiv(); if( m_eMode != EXPRMODE_EMPTY_PAREN ) { while( pParser->Peek() == IDIV ) { SbiToken eTok = pParser->Next(); pNd = std::make_unique( std::move(pNd), eTok, MulDiv() ); } } return pNd; } std::unique_ptr SbiExpression::Mod() { std::unique_ptr pNd = IntDiv(); if( m_eMode != EXPRMODE_EMPTY_PAREN ) { while( pParser->Peek() == MOD ) { SbiToken eTok = pParser->Next(); pNd = std::make_unique( std::move(pNd), eTok, IntDiv() ); } } return pNd; } std::unique_ptr SbiExpression::AddSub() { std::unique_ptr pNd = Mod(); if( m_eMode != EXPRMODE_EMPTY_PAREN ) { for( ;; ) { SbiToken eTok = pParser->Peek(); if( eTok != PLUS && eTok != MINUS ) { break; } eTok = pParser->Next(); pNd = std::make_unique( std::move(pNd), eTok, Mod() ); } } return pNd; } std::unique_ptr SbiExpression::Cat() { std::unique_ptr pNd = AddSub(); if( m_eMode != EXPRMODE_EMPTY_PAREN ) { for( ;; ) { SbiToken eTok = pParser->Peek(); if( eTok != CAT ) { break; } eTok = pParser->Next(); pNd = std::make_unique( std::move(pNd), eTok, AddSub() ); } } return pNd; } std::unique_ptr SbiExpression::Comp() { std::unique_ptr pNd = Cat(); if( m_eMode != EXPRMODE_EMPTY_PAREN ) { short nCount = 0; for( ;; ) { SbiToken eTok = pParser->Peek(); if( m_eMode == EXPRMODE_ARRAY_OR_OBJECT ) { break; } if( eTok != EQ && eTok != NE && eTok != LT && eTok != GT && eTok != LE && eTok != GE ) { break; } eTok = pParser->Next(); pNd = std::make_unique( std::move(pNd), eTok, Cat() ); nCount++; } } return pNd; } std::unique_ptr SbiExpression::VBA_Not() { std::unique_ptr pNd; SbiToken eTok = pParser->Peek(); if( eTok == NOT ) { pParser->Next(); pNd = std::make_unique( VBA_Not(), eTok, nullptr ); } else { pNd = Comp(); } return pNd; } std::unique_ptr SbiExpression::Like() { std::unique_ptr pNd = pParser->IsVBASupportOn() ? VBA_Not() : Comp(); if( m_eMode != EXPRMODE_EMPTY_PAREN ) { short nCount = 0; while( pParser->Peek() == LIKE ) { SbiToken eTok = pParser->Next(); pNd = std::make_unique( std::move(pNd), eTok, Comp() ); nCount++; } // multiple operands in a row does not work if( nCount > 1 && !pParser->IsVBASupportOn() ) { pParser->Error( ERRCODE_BASIC_SYNTAX ); bError = true; } } return pNd; } std::unique_ptr SbiExpression::Boolean() { std::unique_ptr pNd = Like(); if( m_eMode != EXPRMODE_EMPTY_PAREN ) { for( ;; ) { SbiToken eTok = pParser->Peek(); if( (eTok != AND) && (eTok != OR) && (eTok != XOR) && (eTok != EQV) && (eTok != IMP) && (eTok != IS) ) { break; } eTok = pParser->Next(); pNd = std::make_unique( std::move(pNd), eTok, Like() ); } } return pNd; } SbiConstExpression::SbiConstExpression( SbiParser* p ) : SbiExpression( p ) { if( pExpr->IsConstant() ) { eType = pExpr->GetType(); if( pExpr->IsNumber() ) { nVal = pExpr->nVal; } else { nVal = 0; aVal = pExpr->aStrVal; } } else { // #40204 special treatment for sal_Bool-constants bool bIsBool = false; if( pExpr->eNodeType == SbxVARVAL ) { SbiSymDef* pVarDef = pExpr->GetVar(); bool bBoolVal = false; if( pVarDef->GetName().equalsIgnoreAsciiCase( "true" ) ) { bIsBool = true; bBoolVal = true; } else if( pVarDef->GetName().equalsIgnoreAsciiCase( "false" ) ) //else if( pVarDef->GetName().ICompare( "false" ) == COMPARE_EQUAL ) { bIsBool = true; bBoolVal = false; } if( bIsBool ) { pExpr = std::make_unique( (bBoolVal ? SbxTRUE : SbxFALSE), SbxINTEGER ); eType = pExpr->GetType(); nVal = pExpr->nVal; } } if( !bIsBool ) { pParser->Error( ERRCODE_BASIC_SYNTAX ); eType = SbxDOUBLE; nVal = 0; } } } short SbiConstExpression::GetShortValue() { if( eType == SbxSTRING ) { SbxVariableRef refConv = new SbxVariable; refConv->PutString( aVal ); return refConv->GetInteger(); } else { double n = nVal; if( n > 0 ) { n += .5; } else { n -= .5; } if( n > SbxMAXINT ) { n = SbxMAXINT; pParser->Error( ERRCODE_BASIC_OUT_OF_RANGE ); } else if( n < SbxMININT ) { n = SbxMININT; pParser->Error( ERRCODE_BASIC_OUT_OF_RANGE ); } return static_cast(n); } } SbiExprList::SbiExprList( ) { nDim = 0; bError = false; bBracket = false; } SbiExprList::~SbiExprList() {} SbiExpression* SbiExprList::Get( size_t n ) { return aData[n].get(); } void SbiExprList::addExpression( std::unique_ptr&& pExpr ) { aData.push_back(std::move(pExpr)); } // the parameter list is completely parsed // "procedurename()" is OK // it's a function without parameters then // i. e. you give an array as procedure parameter // #i79918/#i80532: bConst has never been set to true // -> reused as bStandaloneExpression //SbiParameters::SbiParameters( SbiParser* p, sal_Bool bConst, sal_Bool bPar) : SbiExprListPtr SbiExprList::ParseParameters( SbiParser* pParser, bool bStandaloneExpression, bool bPar) { auto pExprList = std::make_unique(); if( !bPar ) { return pExprList; } SbiToken eTok = pParser->Peek(); bool bAssumeExprLParenMode = false; bool bAssumeArrayMode = false; if( eTok == LPAREN ) { if( bStandaloneExpression ) { bAssumeExprLParenMode = true; } else { pExprList->bBracket = true; pParser->Next(); eTok = pParser->Peek(); } } if( ( pExprList->bBracket && eTok == RPAREN ) || SbiTokenizer::IsEoln( eTok ) ) { if( eTok == RPAREN ) { pParser->Next(); } return pExprList; } // read in parameter table and lay down in correct order! while( !pExprList->bError ) { std::unique_ptr pExpr; // missing argument if( eTok == COMMA ) { pExpr = std::make_unique( pParser, 0, SbxEMPTY ); } // named arguments: either .name= or name:= else { bool bByVal = false; if( eTok == BYVAL ) { bByVal = true; pParser->Next(); eTok = pParser->Peek(); } if( bAssumeExprLParenMode ) { pExpr = std::make_unique( pParser, SbSTDEXPR, EXPRMODE_LPAREN_PENDING ); bAssumeExprLParenMode = false; SbiExprMode eModeAfter = pExpr->m_eMode; if( eModeAfter == EXPRMODE_LPAREN_NOT_NEEDED ) { pExprList->bBracket = true; } else if( eModeAfter == EXPRMODE_ARRAY_OR_OBJECT ) { // Expression "looks" like an array assignment // a(...)[(...)] = ? or a(...).b(...) // RPAREN is already parsed pExprList->bBracket = true; bAssumeArrayMode = true; eTok = NIL; } else if( eModeAfter == EXPRMODE_EMPTY_PAREN ) { pExprList->bBracket = true; return pExprList; } } else { pExpr = std::make_unique( pParser ); } if( bByVal && pExpr->IsLvalue() ) { pExpr->SetByVal(); } if( !bAssumeArrayMode ) { OUString aName; if( pParser->Peek() == ASSIGN ) { // VBA mode: name:= // SbiExpression::Term() has made as string out of it aName = pExpr->GetString(); pParser->Next(); pExpr = std::make_unique( pParser ); } pExpr->GetName() = aName; } } pExprList->bError = pExprList->bError || !pExpr->IsValid(); pExprList->aData.push_back(std::move(pExpr)); if( bAssumeArrayMode ) { break; } // next element? eTok = pParser->Peek(); if( eTok != COMMA ) { if( ( pExprList->bBracket && eTok == RPAREN ) || SbiTokenizer::IsEoln( eTok ) ) { // tdf#80731 if (SbiTokenizer::IsEoln(eTok) && pExprList->bBracket) { // tdf#106529: only fail here in strict mode (i.e. when compiled from IDE), and // allow legacy code with missing closing parenthesis when started e.g. from // extensions and event handlers bool bCheckStrict = false; if (auto xContext = css::uno::getCurrentContext()) xContext->getValueByName("BasicStrict") >>= bCheckStrict; if (bCheckStrict) { pParser->Error(ERRCODE_BASIC_EXPECTED, RPAREN); pExprList->bError = true; } } break; } pParser->Error( pExprList->bBracket ? ERRCODE_BASIC_BAD_BRACKETS : ERRCODE_BASIC_EXPECTED, COMMA ); pExprList->bError = true; } else { pParser->Next(); eTok = pParser->Peek(); if( ( pExprList->bBracket && eTok == RPAREN ) || SbiTokenizer::IsEoln( eTok ) ) { break; } } } // closing bracket if( eTok == RPAREN ) { pParser->Next(); pParser->Peek(); if( !pExprList->bBracket ) { pParser->Error( ERRCODE_BASIC_BAD_BRACKETS ); pExprList->bError = true; } } pExprList->nDim = pExprList->GetSize(); return pExprList; } // A list of array dimensions is parsed. SbiExprListPtr SbiExprList::ParseDimList( SbiParser* pParser ) { auto pExprList = std::make_unique(); if( pParser->Next() != LPAREN ) { pParser->Error( ERRCODE_BASIC_EXPECTED, LPAREN ); pExprList->bError = true; return pExprList; } if( pParser->Peek() != RPAREN ) { SbiToken eTok; for( ;; ) { auto pExpr1 = std::make_unique( pParser ); eTok = pParser->Next(); if( eTok == TO ) { auto pExpr2 = std::make_unique( pParser ); pExpr1->ConvertToIntConstIfPossible(); pExpr2->ConvertToIntConstIfPossible(); eTok = pParser->Next(); pExprList->bError = pExprList->bError || !pExpr1->IsValid() || !pExpr2->IsValid(); pExprList->aData.push_back(std::move(pExpr1)); pExprList->aData.push_back(std::move(pExpr2)); } else { pExpr1->SetBased(); pExpr1->ConvertToIntConstIfPossible(); pExprList->bError = pExprList->bError || !pExpr1->IsValid(); pExprList->aData.push_back(std::move(pExpr1)); } pExprList->nDim++; if( eTok == RPAREN ) break; if( eTok != COMMA ) { pParser->Error( ERRCODE_BASIC_BAD_BRACKETS ); pParser->Next(); break; } } } else pParser->Next(); return pExprList; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */