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-rw-r--r--svx/source/customshapes/EnhancedCustomShapeFunctionParser.cxx1165
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diff --git a/svx/source/customshapes/EnhancedCustomShapeFunctionParser.cxx b/svx/source/customshapes/EnhancedCustomShapeFunctionParser.cxx
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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 <sal/config.h>
+
+#include <svx/EnhancedCustomShape2d.hxx>
+#include <rtl/ustring.hxx>
+#include <sal/log.hxx>
+#include <tools/fract.hxx>
+
+#include <com/sun/star/drawing/EnhancedCustomShapeParameterType.hpp>
+
+// Makes parser a static resource,
+// we're synchronized externally.
+// But watch out, the parser might have
+// state not visible to this code!
+
+#define BOOST_SPIRIT_SINGLE_GRAMMAR_INSTANCE
+
+#if OSL_DEBUG_LEVEL >= 2 && defined(DBG_UTIL)
+#define BOOST_SPIRIT_DEBUG
+#endif
+#include <boost/spirit/include/classic_core.hpp>
+
+#include <functional>
+#include <algorithm>
+#include <stack>
+#include <utility>
+
+#include <math.h>
+using namespace EnhancedCustomShape;
+using namespace com::sun::star;
+using namespace com::sun::star::drawing;
+
+void EnhancedCustomShape::FillEquationParameter( const EnhancedCustomShapeParameter& rSource, const sal_Int32 nDestPara, EnhancedCustomShapeEquation& rDest )
+{
+ sal_Int32 nValue = 0;
+ if ( rSource.Value.getValueTypeClass() == uno::TypeClass_DOUBLE )
+ {
+ double fValue(0.0);
+ if ( rSource.Value >>= fValue )
+ nValue = static_cast<sal_Int32>(fValue);
+ }
+ else
+ rSource.Value >>= nValue;
+
+ switch( rSource.Type )
+ {
+ case css::drawing::EnhancedCustomShapeParameterType::EQUATION :
+ {
+ if ( nValue & 0x40000000 )
+ {
+ nValue ^= 0x40000000;
+ rDest.nOperation |= 0x20000000 << nDestPara; // the bit is indicating that this value has to be adjusted later
+ }
+ nValue |= 0x400;
+ }
+ break;
+ case css::drawing::EnhancedCustomShapeParameterType::ADJUSTMENT : nValue += DFF_Prop_adjustValue; break;
+ case css::drawing::EnhancedCustomShapeParameterType::BOTTOM : nValue = DFF_Prop_geoBottom; break;
+ case css::drawing::EnhancedCustomShapeParameterType::RIGHT : nValue = DFF_Prop_geoRight; break;
+ case css::drawing::EnhancedCustomShapeParameterType::TOP : nValue = DFF_Prop_geoTop; break;
+ case css::drawing::EnhancedCustomShapeParameterType::LEFT : nValue = DFF_Prop_geoLeft; break;
+ }
+ if ( rSource.Type != css::drawing::EnhancedCustomShapeParameterType::NORMAL )
+ rDest.nOperation |= ( 0x2000 << nDestPara );
+ rDest.nPara[ nDestPara ] = nValue;
+}
+
+ExpressionNode::~ExpressionNode()
+{}
+
+namespace
+{
+
+
+// EXPRESSION NODES
+
+
+class ConstantValueExpression : public ExpressionNode
+{
+ double maValue;
+
+public:
+
+ explicit ConstantValueExpression( double rValue ) :
+ maValue( rValue )
+ {
+ }
+ virtual double operator()() const override
+ {
+ return maValue;
+ }
+ virtual bool isConstant() const override
+ {
+ return true;
+ }
+ virtual ExpressionFunct getType() const override
+ {
+ return ExpressionFunct::Const;
+ }
+ virtual EnhancedCustomShapeParameter fillNode( std::vector< EnhancedCustomShapeEquation >& rEquations, ExpressionNode* /* pOptionalArg */, sal_uInt32 /* nFlags */ ) override
+ {
+ EnhancedCustomShapeParameter aRet;
+ Fraction aFract( maValue );
+ if ( aFract.GetDenominator() == 1 )
+ {
+ aRet.Type = EnhancedCustomShapeParameterType::NORMAL;
+ aRet.Value <<= aFract.GetNumerator();
+ }
+ else
+ {
+ EnhancedCustomShapeEquation aEquation;
+ aEquation.nOperation = 1;
+ aEquation.nPara[ 0 ] = 1;
+ aEquation.nPara[ 1 ] = static_cast<sal_Int16>(aFract.GetNumerator());
+ aEquation.nPara[ 2 ] = static_cast<sal_Int16>(aFract.GetDenominator());
+ aRet.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aRet.Value <<= static_cast<sal_Int32>(rEquations.size());
+ rEquations.push_back( aEquation );
+ }
+ return aRet;
+ }
+};
+
+class AdjustmentExpression : public ExpressionNode
+{
+ sal_Int32 mnIndex;
+ const EnhancedCustomShape2d& mrCustoShape;
+
+public:
+
+ AdjustmentExpression( const EnhancedCustomShape2d& rCustoShape, sal_Int32 nIndex )
+ : mnIndex ( nIndex )
+ , mrCustoShape( rCustoShape )
+
+ {
+ }
+ virtual double operator()() const override
+ {
+ SAL_INFO(
+ "svx",
+ "$" << mnIndex << " --> "
+ << mrCustoShape.GetAdjustValueAsDouble(mnIndex) << " (angle: "
+ << 180.0*mrCustoShape.GetAdjustValueAsDouble(mnIndex)/10800000.0
+ << ")");
+ return mrCustoShape.GetAdjustValueAsDouble( mnIndex );
+ }
+ virtual bool isConstant() const override
+ {
+ return false;
+ }
+ virtual ExpressionFunct getType() const override
+ {
+ return ExpressionFunct::EnumAdjustment;
+ }
+ virtual EnhancedCustomShapeParameter fillNode( std::vector< EnhancedCustomShapeEquation >& /*rEquations*/, ExpressionNode* /*pOptionalArg*/, sal_uInt32 /*nFlags*/ ) override
+ {
+ EnhancedCustomShapeParameter aRet;
+ aRet.Type = EnhancedCustomShapeParameterType::ADJUSTMENT;
+ aRet.Value <<= mnIndex;
+ return aRet;
+ }
+};
+
+class EquationExpression : public ExpressionNode
+{
+ const sal_Int32 mnIndex;
+ const EnhancedCustomShape2d& mrCustoShape;
+ mutable bool mbGettingValueGuard;
+
+public:
+
+ EquationExpression( const EnhancedCustomShape2d& rCustoShape, sal_Int32 nIndex )
+ : mnIndex ( nIndex )
+ , mrCustoShape( rCustoShape )
+ , mbGettingValueGuard(false)
+ {
+ }
+ virtual double operator()() const override
+ {
+ if (mbGettingValueGuard)
+ throw ParseError("Loop in Expression");
+ mbGettingValueGuard = true;
+ double fRet = mrCustoShape.GetEquationValueAsDouble(mnIndex);
+ mbGettingValueGuard = false;
+ return fRet;
+ }
+ virtual bool isConstant() const override
+ {
+ return false;
+ }
+ virtual ExpressionFunct getType() const override
+ {
+ return ExpressionFunct::EnumEquation;
+ }
+ virtual EnhancedCustomShapeParameter fillNode( std::vector< EnhancedCustomShapeEquation >& /*rEquations*/, ExpressionNode* /*pOptionalArg*/, sal_uInt32 /*nFlags*/ ) override
+ {
+ EnhancedCustomShapeParameter aRet;
+ aRet.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aRet.Value <<= mnIndex | 0x40000000; // the bit is indicating that this equation needs to be adjusted later
+ return aRet;
+ }
+};
+
+class EnumValueExpression : public ExpressionNode
+{
+ const ExpressionFunct meFunct;
+ const EnhancedCustomShape2d& mrCustoShape;
+
+public:
+
+ EnumValueExpression( const EnhancedCustomShape2d& rCustoShape, const ExpressionFunct eFunct )
+ : meFunct ( eFunct )
+ , mrCustoShape ( rCustoShape )
+ {
+ }
+ virtual double operator()() const override
+ {
+ SAL_INFO("svx", meFunct << " --> " << mrCustoShape.GetEnumFunc(meFunct) << "(angle: " <<
+ 180.0 * mrCustoShape.GetEnumFunc(meFunct) / 10800000.0 << ")");
+
+ return mrCustoShape.GetEnumFunc( meFunct );
+ }
+ virtual bool isConstant() const override
+ {
+ return false;
+ }
+ virtual ExpressionFunct getType() const override
+ {
+ return meFunct;
+ }
+ virtual EnhancedCustomShapeParameter fillNode( std::vector< EnhancedCustomShapeEquation >& rEquations, ExpressionNode* /*pOptionalArg*/, sal_uInt32 nFlags ) override
+ {
+ EnhancedCustomShapeParameter aRet;
+
+ aRet.Value <<= sal_Int32(1);
+
+ switch( meFunct )
+ {
+ case ExpressionFunct::EnumWidth : // TODO: do not use this as constant value
+ case ExpressionFunct::EnumHeight :
+ case ExpressionFunct::EnumLogWidth :
+ case ExpressionFunct::EnumLogHeight :
+ case ExpressionFunct::EnumPi :
+ {
+ ConstantValueExpression aConstantValue( mrCustoShape.GetEnumFunc( meFunct ) );
+ aRet = aConstantValue.fillNode( rEquations, nullptr, nFlags );
+ }
+ break;
+ case ExpressionFunct::EnumLeft : aRet.Type = EnhancedCustomShapeParameterType::LEFT; break;
+ case ExpressionFunct::EnumTop : aRet.Type = EnhancedCustomShapeParameterType::TOP; break;
+ case ExpressionFunct::EnumRight : aRet.Type = EnhancedCustomShapeParameterType::RIGHT; break;
+ case ExpressionFunct::EnumBottom : aRet.Type = EnhancedCustomShapeParameterType::BOTTOM; break;
+
+ // not implemented so far
+ case ExpressionFunct::EnumXStretch :
+ case ExpressionFunct::EnumYStretch :
+ case ExpressionFunct::EnumHasStroke :
+ case ExpressionFunct::EnumHasFill : aRet.Type = EnhancedCustomShapeParameterType::NORMAL; break;
+
+ default:
+ break;
+ }
+ return aRet;
+ }
+};
+
+/** ExpressionNode implementation for unary
+ function over one ExpressionNode
+ */
+class UnaryFunctionExpression : public ExpressionNode
+{
+ const ExpressionFunct meFunct;
+ std::shared_ptr<ExpressionNode> mpArg;
+
+public:
+ UnaryFunctionExpression( const ExpressionFunct eFunct, std::shared_ptr<ExpressionNode> aArg ) :
+ meFunct( eFunct ),
+ mpArg(std::move( aArg ))
+ {
+ }
+ static double getValue( const ExpressionFunct eFunct, const std::shared_ptr<ExpressionNode>& rArg )
+ {
+ double fRet = 0;
+ switch( eFunct )
+ {
+ case ExpressionFunct::UnaryAbs : fRet = fabs( (*rArg)() ); break;
+ case ExpressionFunct::UnarySqrt: fRet = sqrt( (*rArg)() ); break;
+ case ExpressionFunct::UnarySin : fRet = sin( (*rArg)() ); break;
+ case ExpressionFunct::UnaryCos : fRet = cos( (*rArg)() ); break;
+ case ExpressionFunct::UnaryTan : fRet = tan( (*rArg)() ); break;
+ case ExpressionFunct::UnaryAtan: fRet = atan( (*rArg)() ); break;
+ case ExpressionFunct::UnaryNeg : fRet = ::std::negate<double>()( (*rArg)() ); break;
+ default:
+ break;
+ }
+ return fRet;
+ }
+ virtual double operator()() const override
+ {
+ return getValue( meFunct, mpArg );
+ }
+ virtual bool isConstant() const override
+ {
+ return mpArg->isConstant();
+ }
+ virtual ExpressionFunct getType() const override
+ {
+ return meFunct;
+ }
+ virtual EnhancedCustomShapeParameter fillNode( std::vector< EnhancedCustomShapeEquation >& rEquations, ExpressionNode* pOptionalArg, sal_uInt32 nFlags ) override
+ {
+ EnhancedCustomShapeParameter aRet;
+ switch( meFunct )
+ {
+ case ExpressionFunct::UnaryAbs :
+ {
+ EnhancedCustomShapeEquation aEquation;
+ aEquation.nOperation |= 3;
+ FillEquationParameter( mpArg->fillNode( rEquations, nullptr, nFlags ), 0, aEquation );
+ aRet.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aRet.Value <<= static_cast<sal_Int32>(rEquations.size());
+ rEquations.push_back( aEquation );
+ }
+ break;
+ case ExpressionFunct::UnarySqrt:
+ {
+ EnhancedCustomShapeEquation aEquation;
+ aEquation.nOperation |= 13;
+ FillEquationParameter( mpArg->fillNode( rEquations, nullptr, nFlags ), 0, aEquation );
+ aRet.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aRet.Value <<= static_cast<sal_Int32>(rEquations.size());
+ rEquations.push_back( aEquation );
+ }
+ break;
+ case ExpressionFunct::UnarySin :
+ {
+ EnhancedCustomShapeEquation aEquation;
+ aEquation.nOperation |= 9;
+ if ( pOptionalArg )
+ FillEquationParameter( pOptionalArg->fillNode( rEquations, nullptr, nFlags ), 0, aEquation );
+ else
+ aEquation.nPara[ 0 ] = 1;
+
+ EnhancedCustomShapeParameter aSource( mpArg->fillNode( rEquations, nullptr, nFlags | EXPRESSION_FLAG_SUMANGLE_MODE ) );
+ if ( aSource.Type == EnhancedCustomShapeParameterType::NORMAL )
+ { // sumangle needed :-(
+ EnhancedCustomShapeEquation _aEquation;
+ _aEquation.nOperation |= 0xe; // sumangle
+ FillEquationParameter( aSource, 1, _aEquation );
+ aSource.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aSource.Value <<= static_cast<sal_Int32>(rEquations.size());
+ rEquations.push_back( _aEquation );
+ }
+ FillEquationParameter( aSource, 1, aEquation );
+ aRet.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aRet.Value <<= static_cast<sal_Int32>(rEquations.size());
+ rEquations.push_back( aEquation );
+ }
+ break;
+ case ExpressionFunct::UnaryCos :
+ {
+ EnhancedCustomShapeEquation aEquation;
+ aEquation.nOperation |= 10;
+ if ( pOptionalArg )
+ FillEquationParameter( pOptionalArg->fillNode( rEquations, nullptr, nFlags ), 0, aEquation );
+ else
+ aEquation.nPara[ 0 ] = 1;
+
+ EnhancedCustomShapeParameter aSource( mpArg->fillNode( rEquations, nullptr, nFlags | EXPRESSION_FLAG_SUMANGLE_MODE ) );
+ if ( aSource.Type == EnhancedCustomShapeParameterType::NORMAL )
+ { // sumangle needed :-(
+ EnhancedCustomShapeEquation aTmpEquation;
+ aTmpEquation.nOperation |= 0xe; // sumangle
+ FillEquationParameter( aSource, 1, aTmpEquation );
+ aSource.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aSource.Value <<= static_cast<sal_Int32>(rEquations.size());
+ rEquations.push_back( aTmpEquation );
+ }
+ FillEquationParameter( aSource, 1, aEquation );
+ aRet.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aRet.Value <<= static_cast<sal_Int32>(rEquations.size());
+ rEquations.push_back( aEquation );
+ }
+ break;
+ case ExpressionFunct::UnaryTan :
+ {
+ EnhancedCustomShapeEquation aEquation;
+ aEquation.nOperation |= 16;
+ if ( pOptionalArg )
+ FillEquationParameter( pOptionalArg->fillNode( rEquations, nullptr, nFlags ), 0, aEquation );
+ else
+ aEquation.nPara[ 0 ] = 1;
+
+ EnhancedCustomShapeParameter aSource( mpArg->fillNode( rEquations, nullptr, nFlags | EXPRESSION_FLAG_SUMANGLE_MODE ) );
+ if ( aSource.Type == EnhancedCustomShapeParameterType::NORMAL )
+ { // sumangle needed :-(
+ EnhancedCustomShapeEquation aTmpEquation;
+ aTmpEquation.nOperation |= 0xe; // sumangle
+ FillEquationParameter( aSource, 1, aTmpEquation );
+ aSource.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aSource.Value <<= static_cast<sal_Int32>(rEquations.size());
+ rEquations.push_back( aTmpEquation );
+ }
+ FillEquationParameter( aSource, 1, aEquation );
+ aRet.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aRet.Value <<= static_cast<sal_Int32>(rEquations.size());
+ rEquations.push_back( aEquation );
+ }
+ break;
+ case ExpressionFunct::UnaryAtan:
+ {
+// TODO:
+ aRet.Type = EnhancedCustomShapeParameterType::NORMAL;
+ }
+ break;
+ case ExpressionFunct::UnaryNeg:
+ {
+ EnhancedCustomShapeEquation aEquation;
+ aEquation.nOperation |= 1;
+ aEquation.nPara[ 1 ] = -1;
+ aEquation.nPara[ 2 ] = 1;
+ FillEquationParameter( mpArg->fillNode( rEquations, nullptr, nFlags ), 0, aEquation );
+ aRet.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aRet.Value <<= static_cast<sal_Int32>(rEquations.size());
+ rEquations.push_back( aEquation );
+ }
+ break;
+ default:
+ break;
+ }
+ return aRet;
+ }
+};
+
+/** ExpressionNode implementation for unary
+ function over two ExpressionNodes
+ */
+class BinaryFunctionExpression : public ExpressionNode
+{
+ const ExpressionFunct meFunct;
+ std::shared_ptr<ExpressionNode> mpFirstArg;
+ std::shared_ptr<ExpressionNode> mpSecondArg;
+
+public:
+
+ BinaryFunctionExpression( const ExpressionFunct eFunct, std::shared_ptr<ExpressionNode> xFirstArg, std::shared_ptr<ExpressionNode> xSecondArg ) :
+ meFunct( eFunct ),
+ mpFirstArg(std::move( xFirstArg )),
+ mpSecondArg(std::move( xSecondArg ))
+ {
+ }
+#if defined(__clang__) || defined (__GNUC__)
+ //GetEquationValueAsDouble calls isFinite on the result
+ __attribute__((no_sanitize("float-divide-by-zero")))
+#endif
+ static double getValue( const ExpressionFunct eFunct, const std::shared_ptr<ExpressionNode>& rFirstArg, const std::shared_ptr<ExpressionNode>& rSecondArg )
+ {
+ double fRet = 0;
+ switch( eFunct )
+ {
+ case ExpressionFunct::BinaryPlus : fRet = (*rFirstArg)() + (*rSecondArg)(); break;
+ case ExpressionFunct::BinaryMinus: fRet = (*rFirstArg)() - (*rSecondArg)(); break;
+ case ExpressionFunct::BinaryMul : fRet = (*rFirstArg)() * (*rSecondArg)(); break;
+ case ExpressionFunct::BinaryDiv : fRet = (*rFirstArg)() / (*rSecondArg)(); break;
+ case ExpressionFunct::BinaryMin : fRet = ::std::min( (*rFirstArg)(), (*rSecondArg)() ); break;
+ case ExpressionFunct::BinaryMax : fRet = ::std::max( (*rFirstArg)(), (*rSecondArg)() ); break;
+ case ExpressionFunct::BinaryAtan2: fRet = atan2( (*rFirstArg)(), (*rSecondArg)() ); break;
+ default:
+ break;
+ }
+ return fRet;
+ }
+ virtual double operator()() const override
+ {
+ return getValue( meFunct, mpFirstArg, mpSecondArg );
+ }
+ virtual bool isConstant() const override
+ {
+ return mpFirstArg->isConstant() && mpSecondArg->isConstant();
+ }
+ virtual ExpressionFunct getType() const override
+ {
+ return meFunct;
+ }
+ virtual EnhancedCustomShapeParameter fillNode( std::vector< EnhancedCustomShapeEquation >& rEquations, ExpressionNode* /*pOptionalArg*/, sal_uInt32 nFlags ) override
+ {
+ EnhancedCustomShapeParameter aRet;
+ switch( meFunct )
+ {
+ case ExpressionFunct::BinaryPlus :
+ {
+ if ( nFlags & EXPRESSION_FLAG_SUMANGLE_MODE )
+ {
+ if ( mpFirstArg->getType() == ExpressionFunct::EnumAdjustment )
+ {
+ EnhancedCustomShapeEquation aEquation;
+ aEquation.nOperation |= 0xe; // sumangle
+ FillEquationParameter( mpFirstArg->fillNode( rEquations, nullptr, nFlags ), 0, aEquation );
+ FillEquationParameter( mpSecondArg->fillNode( rEquations, nullptr, nFlags ), 1, aEquation );
+ aRet.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aRet.Value <<= static_cast<sal_Int32>(rEquations.size());
+ rEquations.push_back( aEquation );
+ }
+ else if ( mpSecondArg->getType() == ExpressionFunct::EnumAdjustment )
+ {
+ EnhancedCustomShapeEquation aEquation;
+ aEquation.nOperation |= 0xe; // sumangle
+ FillEquationParameter( mpSecondArg->fillNode( rEquations, nullptr, nFlags ), 0, aEquation );
+ FillEquationParameter( mpFirstArg->fillNode( rEquations, nullptr, nFlags ), 1, aEquation );
+ aRet.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aRet.Value <<= static_cast<sal_Int32>(rEquations.size());
+ rEquations.push_back( aEquation );
+ }
+ else
+ {
+ EnhancedCustomShapeEquation aSumangle1;
+ aSumangle1.nOperation |= 0xe; // sumangle
+ FillEquationParameter( mpFirstArg->fillNode( rEquations, nullptr, nFlags &~EXPRESSION_FLAG_SUMANGLE_MODE ), 1, aSumangle1 );
+ aRet.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aRet.Value <<= static_cast<sal_Int32>(rEquations.size());
+ rEquations.push_back( aSumangle1 );
+
+ EnhancedCustomShapeEquation aSumangle2;
+ aSumangle2.nOperation |= 0xe; // sumangle
+ FillEquationParameter( mpSecondArg->fillNode( rEquations, nullptr, nFlags &~EXPRESSION_FLAG_SUMANGLE_MODE ), 1, aSumangle2 );
+ aRet.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aRet.Value <<= static_cast<sal_Int32>(rEquations.size());
+ rEquations.push_back( aSumangle2 );
+
+ EnhancedCustomShapeEquation aEquation;
+ aEquation.nOperation |= 0;
+ aEquation.nPara[ 0 ] = ( rEquations.size() - 2 ) | 0x400;
+ aEquation.nPara[ 1 ] = ( rEquations.size() - 1 ) | 0x400;
+ aRet.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aRet.Value <<= static_cast<sal_Int32>(rEquations.size());
+ rEquations.push_back( aEquation );
+ }
+ }
+ else
+ {
+ bool bFirstIsEmpty = mpFirstArg->isConstant() && ( (*mpFirstArg)() == 0 );
+ bool bSecondIsEmpty = mpSecondArg->isConstant() && ( (*mpSecondArg)() == 0 );
+
+ if ( bFirstIsEmpty )
+ aRet = mpSecondArg->fillNode( rEquations, nullptr, nFlags );
+ else if ( bSecondIsEmpty )
+ aRet = mpFirstArg->fillNode( rEquations, nullptr, nFlags );
+ else
+ {
+ EnhancedCustomShapeEquation aEquation;
+ aEquation.nOperation |= 0;
+ FillEquationParameter( mpFirstArg->fillNode( rEquations, nullptr, nFlags ), 0, aEquation );
+ FillEquationParameter( mpSecondArg->fillNode( rEquations, nullptr, nFlags ), 1, aEquation );
+ aRet.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aRet.Value <<= static_cast<sal_Int32>(rEquations.size());
+ rEquations.push_back( aEquation );
+ }
+ }
+ }
+ break;
+ case ExpressionFunct::BinaryMinus:
+ {
+ EnhancedCustomShapeEquation aEquation;
+ aEquation.nOperation |= 0;
+ FillEquationParameter( mpFirstArg->fillNode( rEquations, nullptr, nFlags ), 0, aEquation );
+ FillEquationParameter( mpSecondArg->fillNode( rEquations, nullptr, nFlags ), 2, aEquation );
+ aRet.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aRet.Value <<= static_cast<sal_Int32>(rEquations.size());
+ rEquations.push_back( aEquation );
+ }
+ break;
+ case ExpressionFunct::BinaryMul :
+ {
+ // in the dest. format the cos function is using integer as result :-(
+ // so we can't use the generic algorithm
+ if ( ( mpFirstArg->getType() == ExpressionFunct::UnarySin ) || ( mpFirstArg->getType() == ExpressionFunct::UnaryCos ) || ( mpFirstArg->getType() == ExpressionFunct::UnaryTan ) )
+ aRet = mpFirstArg->fillNode( rEquations, mpSecondArg.get(), nFlags );
+ else if ( ( mpSecondArg->getType() == ExpressionFunct::UnarySin ) || ( mpSecondArg->getType() == ExpressionFunct::UnaryCos ) || ( mpSecondArg->getType() == ExpressionFunct::UnaryTan ) )
+ aRet = mpSecondArg->fillNode( rEquations, mpFirstArg.get(), nFlags );
+ else
+ {
+ if ( mpFirstArg->isConstant() && (*mpFirstArg)() == 1 )
+ aRet = mpSecondArg->fillNode( rEquations, nullptr, nFlags );
+ else if ( mpSecondArg->isConstant() && (*mpSecondArg)() == 1 )
+ aRet = mpFirstArg->fillNode( rEquations, nullptr, nFlags );
+ else if ( ( mpFirstArg->getType() == ExpressionFunct::BinaryDiv ) // don't care of (pi/180)
+ && ( static_cast<BinaryFunctionExpression*>(mpFirstArg.get())->mpFirstArg->getType() == ExpressionFunct::EnumPi )
+ && ( static_cast<BinaryFunctionExpression*>(mpFirstArg.get())->mpSecondArg->getType() == ExpressionFunct::Const ) )
+ {
+ aRet = mpSecondArg->fillNode( rEquations, nullptr, nFlags );
+ }
+ else if ( ( mpSecondArg->getType() == ExpressionFunct::BinaryDiv ) // don't care of (pi/180)
+ && ( static_cast<BinaryFunctionExpression*>(mpSecondArg.get())->mpFirstArg->getType() == ExpressionFunct::EnumPi )
+ && ( static_cast<BinaryFunctionExpression*>(mpSecondArg.get())->mpSecondArg->getType() == ExpressionFunct::Const ) )
+ {
+ aRet = mpFirstArg->fillNode( rEquations, nullptr, nFlags );
+ }
+ else
+ {
+ EnhancedCustomShapeEquation aEquation;
+ aEquation.nOperation |= 1;
+ FillEquationParameter( mpFirstArg->fillNode( rEquations, nullptr, nFlags ), 0, aEquation );
+ FillEquationParameter( mpSecondArg->fillNode( rEquations, nullptr, nFlags ), 1, aEquation );
+ aEquation.nPara[ 2 ] = 1;
+ aRet.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aRet.Value <<= static_cast<sal_Int32>(rEquations.size());
+ rEquations.push_back( aEquation );
+ }
+ }
+ }
+ break;
+ case ExpressionFunct::BinaryDiv :
+ {
+ EnhancedCustomShapeEquation aEquation;
+ aEquation.nOperation |= 1;
+ FillEquationParameter( mpFirstArg->fillNode( rEquations, nullptr, nFlags ), 0, aEquation );
+ aEquation.nPara[ 1 ] = 1;
+ FillEquationParameter( mpSecondArg->fillNode( rEquations, nullptr, nFlags ), 2, aEquation );
+ aRet.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aRet.Value <<= static_cast<sal_Int32>(rEquations.size());
+ rEquations.push_back( aEquation );
+ }
+ break;
+ case ExpressionFunct::BinaryMin :
+ {
+ EnhancedCustomShapeEquation aEquation;
+ aEquation.nOperation |= 4;
+ FillEquationParameter( mpFirstArg->fillNode( rEquations, nullptr, nFlags ), 0, aEquation );
+ FillEquationParameter( mpSecondArg->fillNode( rEquations, nullptr, nFlags ), 1, aEquation );
+ aRet.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aRet.Value <<= static_cast<sal_Int32>(rEquations.size());
+ rEquations.push_back( aEquation );
+ }
+ break;
+ case ExpressionFunct::BinaryMax :
+ {
+ EnhancedCustomShapeEquation aEquation;
+ aEquation.nOperation |= 5;
+ FillEquationParameter( mpFirstArg->fillNode( rEquations, nullptr, nFlags ), 0, aEquation );
+ FillEquationParameter( mpSecondArg->fillNode( rEquations, nullptr, nFlags ), 1, aEquation );
+ aRet.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aRet.Value <<= static_cast<sal_Int32>(rEquations.size());
+ rEquations.push_back( aEquation );
+ }
+ break;
+ case ExpressionFunct::BinaryAtan2:
+ {
+ EnhancedCustomShapeEquation aEquation;
+ aEquation.nOperation |= 8;
+ FillEquationParameter( mpSecondArg->fillNode( rEquations, nullptr, nFlags ), 0, aEquation );
+ FillEquationParameter( mpFirstArg->fillNode( rEquations, nullptr, nFlags ), 1, aEquation );
+ aRet.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aRet.Value <<= static_cast<sal_Int32>(rEquations.size());
+ rEquations.push_back( aEquation );
+ }
+ break;
+ default:
+ break;
+ }
+ return aRet;
+ }
+};
+
+class IfExpression : public ExpressionNode
+{
+ std::shared_ptr<ExpressionNode> mpFirstArg;
+ std::shared_ptr<ExpressionNode> mpSecondArg;
+ std::shared_ptr<ExpressionNode> mpThirdArg;
+
+public:
+
+ IfExpression( std::shared_ptr<ExpressionNode> xFirstArg,
+ std::shared_ptr<ExpressionNode> xSecondArg,
+ std::shared_ptr<ExpressionNode> xThirdArg ) :
+ mpFirstArg(std::move( xFirstArg )),
+ mpSecondArg(std::move(xSecondArg )),
+ mpThirdArg(std::move( xThirdArg ))
+ {
+ }
+ virtual bool isConstant() const override
+ {
+ return
+ mpFirstArg->isConstant() &&
+ mpSecondArg->isConstant() &&
+ mpThirdArg->isConstant();
+ }
+ virtual double operator()() const override
+ {
+ return (*mpFirstArg)() > 0 ? (*mpSecondArg)() : (*mpThirdArg)();
+ }
+ virtual ExpressionFunct getType() const override
+ {
+ return ExpressionFunct::TernaryIf;
+ }
+ virtual EnhancedCustomShapeParameter fillNode( std::vector< EnhancedCustomShapeEquation >& rEquations, ExpressionNode* /*pOptionalArg*/, sal_uInt32 nFlags ) override
+ {
+ EnhancedCustomShapeParameter aRet;
+ aRet.Type = EnhancedCustomShapeParameterType::EQUATION;
+ aRet.Value <<= static_cast<sal_Int32>(rEquations.size());
+ {
+ EnhancedCustomShapeEquation aEquation;
+ aEquation.nOperation |= 6;
+ FillEquationParameter( mpFirstArg->fillNode( rEquations, nullptr, nFlags ), 0, aEquation );
+ FillEquationParameter( mpSecondArg->fillNode( rEquations, nullptr, nFlags ), 1, aEquation );
+ FillEquationParameter( mpThirdArg->fillNode( rEquations, nullptr, nFlags ), 2, aEquation );
+ rEquations.push_back( aEquation );
+ }
+ return aRet;
+ }
+};
+
+
+// FUNCTION PARSER
+
+
+typedef const char* StringIteratorT;
+
+struct ParserContext
+{
+ typedef ::std::stack< std::shared_ptr<ExpressionNode> > OperandStack;
+
+ // stores a stack of not-yet-evaluated operands. This is used
+ // by the operators (i.e. '+', '*', 'sin' etc.) to pop their
+ // arguments from. If all arguments to an operator are constant,
+ // the operator pushes a precalculated result on the stack, and
+ // a composite ExpressionNode otherwise.
+ OperandStack maOperandStack;
+
+ const EnhancedCustomShape2d* mpCustoShape;
+
+};
+
+typedef std::shared_ptr< ParserContext > ParserContextSharedPtr;
+
+/** Generate parse-dependent-but-then-constant value
+ */
+class DoubleConstantFunctor
+{
+ ParserContextSharedPtr mxContext;
+
+public:
+ explicit DoubleConstantFunctor( ParserContextSharedPtr xContext ) :
+ mxContext(std::move( xContext ))
+ {
+ }
+ void operator()( double n ) const
+ {
+ mxContext->maOperandStack.push( std::make_shared<ConstantValueExpression>( n ) );
+ }
+};
+
+class EnumFunctor
+{
+ const ExpressionFunct meFunct;
+ ParserContextSharedPtr mxContext;
+
+public:
+
+ EnumFunctor( const ExpressionFunct eFunct, ParserContextSharedPtr xContext )
+ : meFunct( eFunct )
+ , mxContext(std::move( xContext ))
+ {
+ }
+ void operator()( StringIteratorT rFirst, StringIteratorT rSecond ) const
+ {
+ /*double nVal = mnValue;*/
+ switch( meFunct )
+ {
+ case ExpressionFunct::EnumAdjustment :
+ {
+ OUString aVal( rFirst + 1, rSecond - rFirst, RTL_TEXTENCODING_UTF8 );
+ mxContext->maOperandStack.push( std::make_shared<AdjustmentExpression>( *mxContext->mpCustoShape, aVal.toInt32() ) );
+ }
+ break;
+ case ExpressionFunct::EnumEquation :
+ {
+ OUString aVal( rFirst + 1, rSecond - rFirst, RTL_TEXTENCODING_UTF8 );
+ mxContext->maOperandStack.push( std::make_shared<EquationExpression>( *mxContext->mpCustoShape, aVal.toInt32() ) );
+ }
+ break;
+ default:
+ mxContext->maOperandStack.push( std::make_shared<EnumValueExpression>( *mxContext->mpCustoShape, meFunct ) );
+ }
+ }
+};
+
+class UnaryFunctionFunctor
+{
+ const ExpressionFunct meFunct;
+ ParserContextSharedPtr mxContext;
+
+public:
+
+ UnaryFunctionFunctor( const ExpressionFunct eFunct, ParserContextSharedPtr xContext ) :
+ meFunct( eFunct ),
+ mxContext(std::move( xContext ))
+ {
+ }
+ void operator()( StringIteratorT, StringIteratorT ) const
+ {
+ ParserContext::OperandStack& rNodeStack( mxContext->maOperandStack );
+
+ if( rNodeStack.empty() )
+ throw ParseError( "Not enough arguments for unary operator" );
+
+ // retrieve arguments
+ std::shared_ptr<ExpressionNode> pArg( std::move(rNodeStack.top()) );
+ rNodeStack.pop();
+
+ if( pArg->isConstant() ) // check for constness
+ rNodeStack.push( std::make_shared<ConstantValueExpression>( UnaryFunctionExpression::getValue( meFunct, pArg ) ) );
+ else // push complex node, that calcs the value on demand
+ rNodeStack.push( std::make_shared<UnaryFunctionExpression>( meFunct, pArg ) );
+ }
+};
+
+/** Implements a binary function over two ExpressionNodes
+
+ @tpl Generator
+ Generator functor, to generate an ExpressionNode of
+ appropriate type
+
+ */
+class BinaryFunctionFunctor
+{
+ const ExpressionFunct meFunct;
+ ParserContextSharedPtr mxContext;
+
+public:
+
+ BinaryFunctionFunctor( const ExpressionFunct eFunct, ParserContextSharedPtr xContext ) :
+ meFunct( eFunct ),
+ mxContext(std::move( xContext ))
+ {
+ }
+
+ void operator()( StringIteratorT, StringIteratorT ) const
+ {
+ ParserContext::OperandStack& rNodeStack( mxContext->maOperandStack );
+
+ if( rNodeStack.size() < 2 )
+ throw ParseError( "Not enough arguments for binary operator" );
+
+ // retrieve arguments
+ std::shared_ptr<ExpressionNode> pSecondArg( std::move(rNodeStack.top()) );
+ rNodeStack.pop();
+ std::shared_ptr<ExpressionNode> pFirstArg( std::move(rNodeStack.top()) );
+ rNodeStack.pop();
+
+ assert(pSecondArg && pFirstArg && "count of arg checked before we get here");
+
+ // create combined ExpressionNode
+ auto pNode = std::make_shared<BinaryFunctionExpression>( meFunct, pFirstArg, pSecondArg );
+ // check for constness
+ if( pFirstArg->isConstant() && pSecondArg->isConstant() ) // call the operator() at pNode, store result in constant value ExpressionNode.
+ rNodeStack.push( std::make_shared<ConstantValueExpression>( (*pNode)() ) );
+ else // push complex node, that calcs the value on demand
+ rNodeStack.push( pNode );
+ }
+};
+
+class IfFunctor
+{
+ ParserContextSharedPtr mxContext;
+
+public:
+
+ explicit IfFunctor( ParserContextSharedPtr xContext ) :
+ mxContext(std::move( xContext ))
+ {
+ }
+ void operator()( StringIteratorT, StringIteratorT ) const
+ {
+ ParserContext::OperandStack& rNodeStack( mxContext->maOperandStack );
+
+ if( rNodeStack.size() < 3 )
+ throw ParseError( "Not enough arguments for ternary operator" );
+
+ // retrieve arguments
+ std::shared_ptr<ExpressionNode> pThirdArg( std::move(rNodeStack.top()) );
+ rNodeStack.pop();
+ std::shared_ptr<ExpressionNode> pSecondArg( std::move(rNodeStack.top()) );
+ rNodeStack.pop();
+ std::shared_ptr<ExpressionNode> pFirstArg( std::move(rNodeStack.top()) );
+ rNodeStack.pop();
+
+ assert(pThirdArg && pSecondArg && pFirstArg);
+
+ // create combined ExpressionNode
+ auto pNode = std::make_shared<IfExpression>( pFirstArg, pSecondArg, pThirdArg );
+ // check for constness
+ if( pFirstArg->isConstant() && pSecondArg->isConstant() && pThirdArg->isConstant() )
+ rNodeStack.push( std::make_shared<ConstantValueExpression>( (*pNode)() ) ); // call the operator() at pNode, store result in constant value ExpressionNode.
+ else
+ rNodeStack.push( pNode ); // push complex node, that calcs the value on demand
+ }
+};
+
+// Workaround for MSVC compiler anomaly (stack trashing)
+
+// The default ureal_parser_policies implementation of parse_exp
+// triggers a really weird error in MSVC7 (Version 13.00.9466), in
+// that the real_parser_impl::parse_main() call of parse_exp()
+// overwrites the frame pointer _on the stack_ (EBP of the calling
+// function gets overwritten while lying on the stack).
+
+// For the time being, our parser thus can only read the 1.0E10
+// notation, not the 1.0e10 one.
+
+// TODO(F1): Also handle the 1.0e10 case here.
+template< typename T > struct custom_real_parser_policies : public ::boost::spirit::classic::ureal_parser_policies<T>
+{
+ template< typename ScannerT >
+ static typename ::boost::spirit::classic::parser_result< ::boost::spirit::classic::chlit<>, ScannerT >::type
+ parse_exp(ScannerT& scan)
+ {
+ // as_lower_d somehow breaks MSVC7
+ return ::boost::spirit::classic::ch_p('E').parse(scan);
+ }
+};
+
+/* This class implements the following grammar (more or
+ less literally written down below, only slightly
+ obfuscated by the parser actions):
+
+ identifier = '$'|'pi'|'e'|'X'|'Y'|'Width'|'Height'
+
+ function = 'abs'|'sqrt'|'sin'|'cos'|'tan'|'atan'|'acos'|'asin'|'exp'|'log'
+
+ basic_expression =
+ number |
+ identifier |
+ function '(' additive_expression ')' |
+ '(' additive_expression ')'
+
+ unary_expression =
+ '-' basic_expression |
+ basic_expression
+
+ multiplicative_expression =
+ unary_expression ( ( '*' unary_expression )* |
+ ( '/' unary_expression )* )
+
+ additive_expression =
+ multiplicative_expression ( ( '+' multiplicative_expression )* |
+ ( '-' multiplicative_expression )* )
+
+ */
+
+class ExpressionGrammar : public ::boost::spirit::classic::grammar< ExpressionGrammar >
+{
+public:
+ /** Create an arithmetic expression grammar
+
+ @param rParserContext
+ Contains context info for the parser
+ */
+ explicit ExpressionGrammar( ParserContextSharedPtr xParserContext ) :
+ mpParserContext(std::move( xParserContext ))
+ {
+ }
+
+ template< typename ScannerT > class definition
+ {
+ public:
+ // grammar definition
+ explicit definition( const ExpressionGrammar& self )
+ {
+ using ::boost::spirit::classic::str_p;
+ using ::boost::spirit::classic::range_p;
+ using ::boost::spirit::classic::lexeme_d;
+ using ::boost::spirit::classic::real_parser;
+
+ identifier =
+ str_p( "pi" )[ EnumFunctor(ExpressionFunct::EnumPi, self.getContext() ) ]
+ | str_p( "left" )[ EnumFunctor(ExpressionFunct::EnumLeft, self.getContext() ) ]
+ | str_p( "top" )[ EnumFunctor(ExpressionFunct::EnumTop, self.getContext() ) ]
+ | str_p( "right" )[ EnumFunctor(ExpressionFunct::EnumRight, self.getContext() ) ]
+ | str_p( "bottom" )[ EnumFunctor(ExpressionFunct::EnumBottom, self.getContext() ) ]
+ | str_p( "xstretch" )[ EnumFunctor(ExpressionFunct::EnumXStretch, self.getContext() ) ]
+ | str_p( "ystretch" )[ EnumFunctor(ExpressionFunct::EnumYStretch, self.getContext() ) ]
+ | str_p( "hasstroke" )[ EnumFunctor(ExpressionFunct::EnumHasStroke, self.getContext() ) ]
+ | str_p( "hasfill" )[ EnumFunctor(ExpressionFunct::EnumHasFill, self.getContext() ) ]
+ | str_p( "width" )[ EnumFunctor(ExpressionFunct::EnumWidth, self.getContext() ) ]
+ | str_p( "height" )[ EnumFunctor(ExpressionFunct::EnumHeight, self.getContext() ) ]
+ | str_p( "logwidth" )[ EnumFunctor(ExpressionFunct::EnumLogWidth, self.getContext() ) ]
+ | str_p( "logheight" )[ EnumFunctor(ExpressionFunct::EnumLogHeight, self.getContext() ) ]
+ ;
+
+ unaryFunction =
+ (str_p( "abs" ) >> '(' >> additiveExpression >> ')' )[ UnaryFunctionFunctor( ExpressionFunct::UnaryAbs, self.getContext()) ]
+ | (str_p( "sqrt" ) >> '(' >> additiveExpression >> ')' )[ UnaryFunctionFunctor( ExpressionFunct::UnarySqrt, self.getContext()) ]
+ | (str_p( "sin" ) >> '(' >> additiveExpression >> ')' )[ UnaryFunctionFunctor( ExpressionFunct::UnarySin, self.getContext()) ]
+ | (str_p( "cos" ) >> '(' >> additiveExpression >> ')' )[ UnaryFunctionFunctor( ExpressionFunct::UnaryCos, self.getContext()) ]
+ | (str_p( "tan" ) >> '(' >> additiveExpression >> ')' )[ UnaryFunctionFunctor( ExpressionFunct::UnaryTan, self.getContext()) ]
+ | (str_p( "atan" ) >> '(' >> additiveExpression >> ')' )[ UnaryFunctionFunctor( ExpressionFunct::UnaryAtan, self.getContext()) ]
+ ;
+
+ binaryFunction =
+ (str_p( "min" ) >> '(' >> additiveExpression >> ',' >> additiveExpression >> ')' )[ BinaryFunctionFunctor( ExpressionFunct::BinaryMin, self.getContext()) ]
+ | (str_p( "max" ) >> '(' >> additiveExpression >> ',' >> additiveExpression >> ')' )[ BinaryFunctionFunctor( ExpressionFunct::BinaryMax, self.getContext()) ]
+ | (str_p( "atan2") >> '(' >> additiveExpression >> ',' >> additiveExpression >> ')' )[ BinaryFunctionFunctor( ExpressionFunct::BinaryAtan2,self.getContext()) ]
+ ;
+
+ ternaryFunction =
+ (str_p( "if" ) >> '(' >> additiveExpression >> ',' >> additiveExpression >> ',' >> additiveExpression >> ')' )[ IfFunctor( self.getContext() ) ]
+ ;
+
+ funcRef_decl =
+ lexeme_d[ +( range_p('a','z') | range_p('A','Z') | range_p('0','9') ) ];
+
+ functionReference =
+ (str_p( "?" ) >> funcRef_decl )[ EnumFunctor( ExpressionFunct::EnumEquation, self.getContext() ) ];
+
+ modRef_decl =
+ lexeme_d[ +( range_p('0','9') ) ];
+
+ modifierReference =
+ (str_p( "$" ) >> modRef_decl )[ EnumFunctor( ExpressionFunct::EnumAdjustment, self.getContext() ) ];
+
+ basicExpression =
+ real_parser<double, custom_real_parser_policies<double> >()[ DoubleConstantFunctor(self.getContext()) ]
+ | identifier
+ | functionReference
+ | modifierReference
+ | unaryFunction
+ | binaryFunction
+ | ternaryFunction
+ | '(' >> additiveExpression >> ')'
+ ;
+
+ unaryExpression =
+ ('-' >> basicExpression)[ UnaryFunctionFunctor( ExpressionFunct::UnaryNeg, self.getContext()) ]
+ | basicExpression
+ ;
+
+ multiplicativeExpression =
+ unaryExpression
+ >> *( ('*' >> unaryExpression)[ BinaryFunctionFunctor( ExpressionFunct::BinaryMul, self.getContext()) ]
+ | ('/' >> unaryExpression)[ BinaryFunctionFunctor( ExpressionFunct::BinaryDiv, self.getContext()) ]
+ )
+ ;
+
+ additiveExpression =
+ multiplicativeExpression
+ >> *( ('+' >> multiplicativeExpression)[ BinaryFunctionFunctor( ExpressionFunct::BinaryPlus, self.getContext()) ]
+ | ('-' >> multiplicativeExpression)[ BinaryFunctionFunctor( ExpressionFunct::BinaryMinus, self.getContext()) ]
+ )
+ ;
+
+ BOOST_SPIRIT_DEBUG_RULE(additiveExpression);
+ BOOST_SPIRIT_DEBUG_RULE(multiplicativeExpression);
+ BOOST_SPIRIT_DEBUG_RULE(unaryExpression);
+ BOOST_SPIRIT_DEBUG_RULE(basicExpression);
+ BOOST_SPIRIT_DEBUG_RULE(unaryFunction);
+ BOOST_SPIRIT_DEBUG_RULE(binaryFunction);
+ BOOST_SPIRIT_DEBUG_RULE(ternaryFunction);
+ BOOST_SPIRIT_DEBUG_RULE(identifier);
+ }
+
+ const ::boost::spirit::classic::rule< ScannerT >& start() const
+ {
+ return additiveExpression;
+ }
+
+ private:
+ // the constituents of the Spirit arithmetic expression grammar.
+ // For the sake of readability, without 'ma' prefix.
+ ::boost::spirit::classic::rule< ScannerT > additiveExpression;
+ ::boost::spirit::classic::rule< ScannerT > multiplicativeExpression;
+ ::boost::spirit::classic::rule< ScannerT > unaryExpression;
+ ::boost::spirit::classic::rule< ScannerT > basicExpression;
+ ::boost::spirit::classic::rule< ScannerT > unaryFunction;
+ ::boost::spirit::classic::rule< ScannerT > binaryFunction;
+ ::boost::spirit::classic::rule< ScannerT > ternaryFunction;
+ ::boost::spirit::classic::rule< ScannerT > funcRef_decl;
+ ::boost::spirit::classic::rule< ScannerT > functionReference;
+ ::boost::spirit::classic::rule< ScannerT > modRef_decl;
+ ::boost::spirit::classic::rule< ScannerT > modifierReference;
+ ::boost::spirit::classic::rule< ScannerT > identifier;
+ };
+
+ const ParserContextSharedPtr& getContext() const
+ {
+ return mpParserContext;
+ }
+
+private:
+ ParserContextSharedPtr mpParserContext; // might get modified during parsing
+};
+
+const ParserContextSharedPtr& getParserContext()
+{
+ static ParserContextSharedPtr lcl_parserContext = std::make_shared<ParserContext>();
+
+ // clear node stack (since we reuse the static object, that's
+ // the whole point here)
+ while( !lcl_parserContext->maOperandStack.empty() )
+ lcl_parserContext->maOperandStack.pop();
+
+ return lcl_parserContext;
+}
+
+}
+
+namespace EnhancedCustomShape {
+
+
+std::shared_ptr<ExpressionNode> const & FunctionParser::parseFunction( std::u16string_view rFunction, const EnhancedCustomShape2d& rCustoShape )
+{
+ // TODO(Q1): Check if a combination of the RTL_UNICODETOTEXT_FLAGS_*
+ // gives better conversion robustness here (we might want to map space
+ // etc. to ASCII space here)
+ const OString& rAsciiFunction(
+ OUStringToOString( rFunction, RTL_TEXTENCODING_ASCII_US ) );
+
+ StringIteratorT aStart( rAsciiFunction.getStr() );
+ StringIteratorT aEnd( rAsciiFunction.getStr()+rAsciiFunction.getLength() );
+
+ // static parser context, because the actual
+ // Spirit parser is also a static object
+ ParserContextSharedPtr pContext = getParserContext();
+ pContext->mpCustoShape = &rCustoShape;
+
+ ExpressionGrammar aExpressionGrammer( pContext );
+ const ::boost::spirit::classic::parse_info<StringIteratorT> aParseInfo(
+ ::boost::spirit::classic::parse( aStart,
+ aEnd,
+ aExpressionGrammer >> ::boost::spirit::classic::end_p,
+ ::boost::spirit::classic::space_p ) );
+
+ // input fully congested by the parser?
+ if( !aParseInfo.full )
+ throw ParseError( "EnhancedCustomShapeFunctionParser::parseFunction(): string not fully parseable" );
+
+ // parser's state stack now must contain exactly _one_ ExpressionNode,
+ // which represents our formula.
+ if( pContext->maOperandStack.size() != 1 )
+ throw ParseError( "EnhancedCustomShapeFunctionParser::parseFunction(): incomplete or empty expression" );
+
+
+ return pContext->maOperandStack.top();
+}
+
+}
+
+/* vim:set shiftwidth=4 softtabstop=4 expandtab: */