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office-gobmx/basic/source/comp/exprnode.cxx
Andreas Heinisch 3ba8b56b32 tdf#147089 - Round Integral Division (IDIV) literals to Integer values 
Change-Id: Ia243c6117a437d0c6efb33a4e76c5e9ee539fbdc
Reviewed-on: https://gerrit.libreoffice.org/c/core/+/130302
Tested-by: Jenkins
Reviewed-by: Andreas Heinisch <andreas.heinisch@yahoo.de>
2022-02-21 23:10:46 +01:00

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/* -*- 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 <cmath>
#include <o3tl/temporary.hxx>
#include <parser.hxx>
#include <expr.hxx>
#include <tools/long.hxx>
#include <basic/sberrors.hxx>
#include <rtl/math.hxx>
SbiExprNode::SbiExprNode( std::unique_ptr<SbiExprNode> l, SbiToken t, std::unique_ptr<SbiExprNode> r ) :
pLeft(std::move(l)),
pRight(std::move(r)),
pWithParent(nullptr),
eNodeType(SbxNODE),
eType(SbxVARIANT), // Nodes are always Variant
eTok(t),
bError(false)
{
}
SbiExprNode::SbiExprNode( double n, SbxDataType t ):
nVal(n),
pWithParent(nullptr),
eNodeType(SbxNUMVAL),
eType(t),
eTok(NIL),
bError(false)
{
}
SbiExprNode::SbiExprNode( const OUString& rVal ):
aStrVal(rVal),
pWithParent(nullptr),
eNodeType(SbxSTRVAL),
eType(SbxSTRING),
eTok(NIL),
bError(false)
{
}
SbiExprNode::SbiExprNode( const SbiSymDef& r, SbxDataType t, SbiExprListPtr l ) :
pWithParent(nullptr),
eNodeType(SbxVARVAL),
eTok(NIL),
bError(false)
{
eType = ( t == SbxVARIANT ) ? r.GetType() : t;
aVar.pDef = const_cast<SbiSymDef*>(&r);
aVar.pPar = l.release();
aVar.pvMorePar = nullptr;
aVar.pNext= nullptr;
}
// #120061 TypeOf
SbiExprNode::SbiExprNode( std::unique_ptr<SbiExprNode> l, sal_uInt16 nId ) :
nTypeStrId(nId),
pLeft(std::move(l)),
pWithParent(nullptr),
eNodeType(SbxTYPEOF),
eType(SbxBOOL),
eTok(NIL),
bError(false)
{
}
// new <type>
SbiExprNode::SbiExprNode( sal_uInt16 nId ) :
nTypeStrId(nId),
pWithParent(nullptr),
eNodeType(SbxNEW),
eType(SbxOBJECT),
eTok(NIL),
bError(false)
{
}
SbiExprNode::SbiExprNode() :
pWithParent(nullptr),
eNodeType(SbxDUMMY),
eType(SbxVARIANT),
eTok(NIL),
bError(false)
{
}
SbiExprNode::~SbiExprNode()
{
if( IsVariable() )
{
delete aVar.pPar;
delete aVar.pNext;
delete aVar.pvMorePar;
}
}
SbiSymDef* SbiExprNode::GetVar()
{
if( eNodeType == SbxVARVAL )
return aVar.pDef;
else
return nullptr;
}
SbiSymDef* SbiExprNode::GetRealVar()
{
SbiExprNode* p = GetRealNode();
if( p )
return p->GetVar();
else
return nullptr;
}
// From 1995-12-18
SbiExprNode* SbiExprNode::GetRealNode()
{
if( eNodeType == SbxVARVAL )
{
SbiExprNode* p = this;
while( p->aVar.pNext )
p = p->aVar.pNext;
return p;
}
else
return nullptr;
}
// This method transform the type, if it fits into the Integer range
void SbiExprNode::ConvertToIntConstIfPossible()
{
if( eNodeType == SbxNUMVAL )
{
if( eType >= SbxINTEGER && eType <= SbxDOUBLE )
{
if( nVal >= SbxMININT && nVal <= SbxMAXINT && modf( nVal, &o3tl::temporary(double()) ) == 0 )
{
eType = SbxINTEGER;
}
}
}
}
bool SbiExprNode::IsNumber() const
{
return eNodeType == SbxNUMVAL;
}
bool SbiExprNode::IsVariable() const
{
return eNodeType == SbxVARVAL;
}
bool SbiExprNode::IsLvalue() const
{
return IsVariable();
}
// Adjustment of a tree:
// 1. Constant Folding
// 2. Type-Adjustment
// 3. Conversion of the operands into Strings
// 4. Lifting of the composite- and error-bits
void SbiExprNode::Optimize(SbiParser* pParser)
{
FoldConstants(pParser);
CollectBits();
}
// Lifting of the error-bits
void SbiExprNode::CollectBits()
{
if( pLeft )
{
pLeft->CollectBits();
bError = bError || pLeft->bError;
}
if( pRight )
{
pRight->CollectBits();
bError = bError || pRight->bError;
}
}
// If a twig can be converted, True will be returned. In this case
// the result is in the left twig.
void SbiExprNode::FoldConstants(SbiParser* pParser)
{
if( IsOperand() || eTok == LIKE ) return;
if (pLeft && !pRight)
FoldConstantsUnaryNode(pParser);
else if (pLeft && pRight)
FoldConstantsBinaryNode(pParser);
if( eNodeType == SbxNUMVAL )
{
// Potentially convolve in INTEGER (because of better opcode)?
if( eType == SbxSINGLE || eType == SbxDOUBLE )
{
if( nVal >= SbxMINLNG && nVal <= SbxMAXLNG
&& !modf( nVal, &o3tl::temporary(double()) ) )
eType = SbxLONG;
}
if( eType == SbxLONG && nVal >= SbxMININT && nVal <= SbxMAXINT )
eType = SbxINTEGER;
}
}
void SbiExprNode::FoldConstantsBinaryNode(SbiParser* pParser)
{
pLeft->FoldConstants(pParser);
pRight->FoldConstants(pParser);
if( !(pLeft->IsConstant() && pRight->IsConstant()
&& pLeft->eNodeType == pRight->eNodeType) )
return;
CollectBits();
if( eTok == CAT )
// CAT affiliate also two numbers!
eType = SbxSTRING;
if( pLeft->eType == SbxSTRING )
// No Type Mismatch!
eType = SbxSTRING;
if( eType == SbxSTRING )
{
OUString rl( pLeft->GetString() );
OUString rr( pRight->GetString() );
pLeft.reset();
pRight.reset();
if( eTok == PLUS || eTok == CAT )
{
eTok = CAT;
// Linking:
aStrVal = rl;
aStrVal += rr;
eType = SbxSTRING;
eNodeType = SbxSTRVAL;
}
else
{
eType = SbxBOOL;
eNodeType = SbxNUMVAL;
int eRes = rr.compareTo( rl );
switch( eTok )
{
case EQ:
nVal = ( eRes == 0 ) ? SbxTRUE : SbxFALSE;
break;
case NE:
nVal = ( eRes != 0 ) ? SbxTRUE : SbxFALSE;
break;
case LT:
nVal = ( eRes > 0 ) ? SbxTRUE : SbxFALSE;
break;
case GT:
nVal = ( eRes < 0 ) ? SbxTRUE : SbxFALSE;
break;
case LE:
nVal = ( eRes >= 0 ) ? SbxTRUE : SbxFALSE;
break;
case GE:
nVal = ( eRes <= 0 ) ? SbxTRUE : SbxFALSE;
break;
default:
pParser->Error( ERRCODE_BASIC_CONVERSION );
bError = true;
break;
}
}
}
else
{
double nl = pLeft->nVal;
double nr = pRight->nVal;
// tdf#141201, tdf#147089 - round MOD/IDIV literals to Integer values
if (eTok == MOD || eTok == IDIV)
{
nl = rtl::math::round(nl);
nr = rtl::math::round(nr);
}
tools::Long ll = 0, lr = 0;
if( ( eTok >= AND && eTok <= IMP )
|| eTok == IDIV || eTok == MOD )
{
// Integer operations
bool bErr = false;
if( nl > SbxMAXLNG )
{
bErr = true;
nl = SbxMAXLNG;
}
else if( nl < SbxMINLNG )
{
bErr = true;
nl = SbxMINLNG;
}
if( nr > SbxMAXLNG )
{
bErr = true;
nr = SbxMAXLNG;
}
else if( nr < SbxMINLNG )
{
bErr = true;
nr = SbxMINLNG;
}
ll = static_cast<tools::Long>(nl); lr = static_cast<tools::Long>(nr);
if( bErr )
{
pParser->Error( ERRCODE_BASIC_MATH_OVERFLOW );
bError = true;
}
}
bool bBothInt = ( pLeft->eType < SbxSINGLE
&& pRight->eType < SbxSINGLE );
pLeft.reset();
pRight.reset();
nVal = 0;
eType = SbxDOUBLE;
eNodeType = SbxNUMVAL;
bool bCheckType = false;
switch( eTok )
{
case EXPON:
nVal = pow( nl, nr ); break;
case MUL:
bCheckType = true;
nVal = nl * nr; break;
case DIV:
if( !nr )
{
pParser->Error( ERRCODE_BASIC_ZERODIV ); nVal = HUGE_VAL;
bError = true;
} else nVal = nl / nr;
break;
case PLUS:
bCheckType = true;
nVal = nl + nr; break;
case MINUS:
bCheckType = true;
nVal = nl - nr; break;
case EQ:
nVal = ( nl == nr ) ? SbxTRUE : SbxFALSE;
eType = SbxBOOL; break;
case NE:
nVal = ( nl != nr ) ? SbxTRUE : SbxFALSE;
eType = SbxBOOL; break;
case LT:
nVal = ( nl < nr ) ? SbxTRUE : SbxFALSE;
eType = SbxBOOL; break;
case GT:
nVal = ( nl > nr ) ? SbxTRUE : SbxFALSE;
eType = SbxBOOL; break;
case LE:
nVal = ( nl <= nr ) ? SbxTRUE : SbxFALSE;
eType = SbxBOOL; break;
case GE:
nVal = ( nl >= nr ) ? SbxTRUE : SbxFALSE;
eType = SbxBOOL; break;
case IDIV:
if( !lr )
{
pParser->Error( ERRCODE_BASIC_ZERODIV ); nVal = HUGE_VAL;
bError = true;
} else nVal = ll / lr;
eType = SbxLONG; break;
case MOD:
if( !lr )
{
pParser->Error( ERRCODE_BASIC_ZERODIV ); nVal = HUGE_VAL;
bError = true;
} else nVal = ll - lr * (ll/lr);
eType = SbxLONG; break;
case AND:
nVal = static_cast<double>( ll & lr ); eType = SbxLONG; break;
case OR:
nVal = static_cast<double>( ll | lr ); eType = SbxLONG; break;
case XOR:
nVal = static_cast<double>( ll ^ lr ); eType = SbxLONG; break;
case EQV:
nVal = static_cast<double>( ~ll ^ lr ); eType = SbxLONG; break;
case IMP:
nVal = static_cast<double>( ~ll | lr ); eType = SbxLONG; break;
default: break;
}
if( !std::isfinite( nVal ) )
pParser->Error( ERRCODE_BASIC_MATH_OVERFLOW );
// Recover the data type to kill rounding error
if( bCheckType && bBothInt
&& nVal >= SbxMINLNG && nVal <= SbxMAXLNG )
{
// Decimal place away
tools::Long n = static_cast<tools::Long>(nVal);
nVal = n;
eType = ( n >= SbxMININT && n <= SbxMAXINT )
? SbxINTEGER : SbxLONG;
}
}
}
void SbiExprNode::FoldConstantsUnaryNode(SbiParser* pParser)
{
pLeft->FoldConstants(pParser);
if (pLeft->IsNumber())
{
nVal = pLeft->nVal;
pLeft.reset();
eType = SbxDOUBLE;
eNodeType = SbxNUMVAL;
switch( eTok )
{
case NEG:
nVal = -nVal; break;
case NOT: {
// Integer operation!
bool bErr = false;
if( nVal > SbxMAXLNG )
{
bErr = true;
nVal = SbxMAXLNG;
}
else if( nVal < SbxMINLNG )
{
bErr = true;
nVal = SbxMINLNG;
}
if( bErr )
{
pParser->Error( ERRCODE_BASIC_MATH_OVERFLOW );
bError = true;
}
nVal = static_cast<double>(~static_cast<tools::Long>(nVal));
eType = SbxLONG;
} break;
default: break;
}
}
if( eNodeType == SbxNUMVAL )
{
// Potentially convolve in INTEGER (because of better opcode)?
if( eType == SbxSINGLE || eType == SbxDOUBLE )
{
if( nVal >= SbxMINLNG && nVal <= SbxMAXLNG
&& !modf( nVal, &o3tl::temporary(double()) ) )
eType = SbxLONG;
}
if( eType == SbxLONG && nVal >= SbxMININT && nVal <= SbxMAXINT )
eType = SbxINTEGER;
}
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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