2bb6d7feb7
2008/04/01 15:04:28 thb 1.13.60.3: #i85898# Stripping all external header guards 2008/04/01 10:50:42 thb 1.13.60.2: #i85898# Stripping all external header guards 2008/03/28 16:44:44 rt 1.13.60.1: #i87441# Change license header to LPGL v3.
409 lines
16 KiB
C++
409 lines
16 KiB
C++
/*************************************************************************
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*
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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*
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* Copyright 2008 by Sun Microsystems, Inc.
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*
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* OpenOffice.org - a multi-platform office productivity suite
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*
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* $RCSfile: PlottingPositionHelper.hxx,v $
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* $Revision: 1.14 $
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*
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* This file is part of OpenOffice.org.
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*
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* OpenOffice.org is free software: you can redistribute it and/or modify
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* it under the terms of the GNU Lesser General Public License version 3
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* only, as published by the Free Software Foundation.
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*
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* OpenOffice.org is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU Lesser General Public License version 3 for more details
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* (a copy is included in the LICENSE file that accompanied this code).
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*
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* You should have received a copy of the GNU Lesser General Public License
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* version 3 along with OpenOffice.org. If not, see
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* <http://www.openoffice.org/license.html>
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* for a copy of the LGPLv3 License.
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*
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************************************************************************/
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#ifndef _CHART2_PLOTTINGPOSITIONHELPER_HXX
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#define _CHART2_PLOTTINGPOSITIONHELPER_HXX
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#include "LabelAlignment.hxx"
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#include <basegfx/range/b2drectangle.hxx>
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#include <rtl/math.hxx>
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#include <com/sun/star/chart2/ExplicitScaleData.hpp>
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#include <com/sun/star/chart2/XTransformation.hpp>
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#include <com/sun/star/drawing/Direction3D.hpp>
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#include <com/sun/star/drawing/HomogenMatrix.hpp>
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#include <com/sun/star/drawing/PolyPolygonShape3D.hpp>
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#include <com/sun/star/drawing/Position3D.hpp>
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#include <com/sun/star/drawing/XShapes.hpp>
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#include <basegfx/matrix/b3dhommatrix.hxx>
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/*
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//for WeakImplHelper1
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#include <cppuhelper/implbase1.hxx>
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*/
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//.............................................................................
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namespace chart
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{
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//.............................................................................
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class ShapeFactory;
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//-----------------------------------------------------------------------------
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/**
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*/
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class PlottingPositionHelper
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{
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public:
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PlottingPositionHelper();
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PlottingPositionHelper( const PlottingPositionHelper& rSource );
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virtual ~PlottingPositionHelper();
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virtual PlottingPositionHelper* clone() const;
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virtual PlottingPositionHelper* createSecondaryPosHelper( const ::com::sun::star::chart2::ExplicitScaleData& rSecondaryScale );
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virtual void setTransformationSceneToScreen( const ::com::sun::star::drawing::HomogenMatrix& rMatrix);
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virtual void setScales( const ::com::sun::star::uno::Sequence<
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::com::sun::star::chart2::ExplicitScaleData >& rScales
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, sal_Bool bSwapXAndYAxis );
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const ::com::sun::star::uno::Sequence<
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::com::sun::star::chart2::ExplicitScaleData >& getScales() const;
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//better performance for big data
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inline void setCoordinateSystemResolution( const ::com::sun::star::uno::Sequence< sal_Int32 >& rCoordinateSystemResolution );
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inline bool isSameForGivenResolution( double fX, double fY, double fZ
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, double fX2, double fY2, double fZ2 );
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inline bool isLogicVisible( double fX, double fY, double fZ ) const;
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inline void doLogicScaling( double* pX, double* pY, double* pZ, bool bClip=false ) const;
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inline void clipLogicValues( double* pX, double* pY, double* pZ ) const;
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void clipScaledLogicValues( double* pX, double* pY, double* pZ ) const;
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inline bool clipYRange( double& rMin, double& rMax ) const;
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inline void doLogicScaling( ::com::sun::star::drawing::Position3D& rPos, bool bClip=false ) const;
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virtual ::com::sun::star::uno::Reference< ::com::sun::star::chart2::XTransformation >
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getTransformationScaledLogicToScene() const;
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virtual ::com::sun::star::drawing::Position3D
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transformLogicToScene( double fX, double fY, double fZ, bool bClip ) const;
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virtual ::com::sun::star::drawing::Position3D
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transformScaledLogicToScene( double fX, double fY, double fZ, bool bClip ) const;
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void transformScaledLogicToScene( ::com::sun::star::drawing::PolyPolygonShape3D& rPoly ) const;
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static com::sun::star::awt::Point transformSceneToScreenPosition(
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const com::sun::star::drawing::Position3D& rScenePosition3D
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, const com::sun::star::uno::Reference< com::sun::star::drawing::XShapes >& xSceneTarget
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, ShapeFactory* pShapeFactory, sal_Int32 nDimensionCount );
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inline double getLogicMinX() const;
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inline double getLogicMinY() const;
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inline double getLogicMinZ() const;
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inline double getLogicMaxX() const;
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inline double getLogicMaxY() const;
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inline double getLogicMaxZ() const;
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inline bool isMathematicalOrientationX() const;
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inline bool isMathematicalOrientationY() const;
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inline bool isMathematicalOrientationZ() const;
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::basegfx::B2DRectangle getScaledLogicClipDoubleRect() const;
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::com::sun::star::drawing::Direction3D getScaledLogicWidth() const;
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inline bool isSwapXAndY() const;
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bool isPercentY() const;
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double getBaseValueY() const;
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inline bool maySkipPointsInRegressionCalculation() const;
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protected: //member
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::com::sun::star::uno::Sequence<
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::com::sun::star::chart2::ExplicitScaleData > m_aScales;
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::basegfx::B3DHomMatrix m_aMatrixScreenToScene;
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//this is calculated based on m_aScales and m_aMatrixScreenToScene
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mutable ::com::sun::star::uno::Reference<
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::com::sun::star::chart2::XTransformation > m_xTransformationLogicToScene;
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bool m_bSwapXAndY;//e.g. true for bar chart and false for column chart
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sal_Int32 m_nXResolution;
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sal_Int32 m_nYResolution;
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sal_Int32 m_nZResolution;
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bool m_bMaySkipPointsInRegressionCalculation;
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};
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//describes wich axis of the drawinglayer scene or sreen axis are the normal axis
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enum NormalAxis
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{
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NormalAxis_X
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, NormalAxis_Y
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, NormalAxis_Z
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};
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class PolarPlottingPositionHelper : public PlottingPositionHelper
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/*
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, public ::cppu::WeakImplHelper1<
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::com::sun::star::chart2::XTransformation >
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*/
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{
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public:
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PolarPlottingPositionHelper( NormalAxis eNormalAxis=NormalAxis_Z );
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PolarPlottingPositionHelper( const PolarPlottingPositionHelper& rSource );
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virtual ~PolarPlottingPositionHelper();
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virtual PlottingPositionHelper* clone() const;
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virtual void setTransformationSceneToScreen( const ::com::sun::star::drawing::HomogenMatrix& rMatrix);
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virtual void setScales( const ::com::sun::star::uno::Sequence<
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::com::sun::star::chart2::ExplicitScaleData >& rScales
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, sal_Bool bSwapXAndYAxis );
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::basegfx::B3DHomMatrix getUnitCartesianToScene() const;
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virtual ::com::sun::star::uno::Reference< ::com::sun::star::chart2::XTransformation >
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getTransformationScaledLogicToScene() const;
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//the resulting values should be used for input to the transformation
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//received with 'getTransformationScaledLogicToScene'
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double transformToRadius( double fLogicValueOnRadiusAxis, bool bDoScaling=true ) const;
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double transformToAngleDegree( double fLogicValueOnAngleAxis, bool bDoScaling=true ) const;
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double getWidthAngleDegree( double& fStartLogicValueOnAngleAxis, double& fEndLogicValueOnAngleAxis ) const;
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//
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virtual ::com::sun::star::drawing::Position3D
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transformLogicToScene( double fX, double fY, double fZ, bool bClip ) const;
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virtual ::com::sun::star::drawing::Position3D
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transformScaledLogicToScene( double fX, double fY, double fZ, bool bClip ) const;
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::com::sun::star::drawing::Position3D
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transformAngleRadiusToScene( double fLogicValueOnAngleAxis, double fLogicValueOnRadiusAxis, double fLogicZ, bool bDoScaling=true ) const;
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::com::sun::star::drawing::Position3D
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transformUnitCircleToScene( double fUnitAngleDegree, double fUnitRadius, double fLogicZ, bool bDoScaling=true ) const;
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using PlottingPositionHelper::transformScaledLogicToScene;
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double getInnerLogicRadius() const;
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double getOuterLogicRadius() const;
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inline bool isMathematicalOrientationAngle() const;
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inline bool isMathematicalOrientationRadius() const;
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/*
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// ____ XTransformation ____
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/// @see ::com::sun::star::chart2::XTransformation
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virtual ::com::sun::star::uno::Sequence< double > SAL_CALL transform(
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const ::com::sun::star::uno::Sequence< double >& rSourceValues )
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throw (::com::sun::star::lang::IllegalArgumentException,
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::com::sun::star::uno::RuntimeException);
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/// @see ::com::sun::star::chart2::XTransformation
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virtual sal_Int32 SAL_CALL getSourceDimension()
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throw (::com::sun::star::uno::RuntimeException);
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/// @see ::com::sun::star::chart2::XTransformation
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virtual sal_Int32 SAL_CALL getTargetDimension()
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throw (::com::sun::star::uno::RuntimeException);
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*/
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public:
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//Offset for radius axis in absolute logic scaled values (1.0 == 1 category)
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double m_fRadiusOffset;
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//Offset for angle axis in real degree
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double m_fAngleDegreeOffset;
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private:
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::basegfx::B3DHomMatrix m_aUnitCartesianToScene;
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NormalAxis m_eNormalAxis;
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::basegfx::B3DHomMatrix impl_calculateMatrixUnitCartesianToScene( const ::basegfx::B3DHomMatrix& rMatrixScreenToScene ) const;
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};
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bool PolarPlottingPositionHelper::isMathematicalOrientationAngle() const
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{
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const ::com::sun::star::chart2::ExplicitScaleData& rScale = m_bSwapXAndY ? m_aScales[1] : m_aScales[2];
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if( ::com::sun::star::chart2::AxisOrientation_MATHEMATICAL==rScale.Orientation )
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return true;
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return false;
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}
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bool PolarPlottingPositionHelper::isMathematicalOrientationRadius() const
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{
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const ::com::sun::star::chart2::ExplicitScaleData& rScale = m_bSwapXAndY ? m_aScales[0] : m_aScales[1];
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if( ::com::sun::star::chart2::AxisOrientation_MATHEMATICAL==rScale.Orientation )
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return true;
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return false;
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}
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//better performance for big data
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void PlottingPositionHelper::setCoordinateSystemResolution( const ::com::sun::star::uno::Sequence< sal_Int32 >& rCoordinateSystemResolution )
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{
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m_nXResolution = 1000;
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m_nYResolution = 1000;
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m_nZResolution = 1000;
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if( rCoordinateSystemResolution.getLength() > 0 )
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m_nXResolution = rCoordinateSystemResolution[0];
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if( rCoordinateSystemResolution.getLength() > 1 )
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m_nYResolution = rCoordinateSystemResolution[1];
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if( rCoordinateSystemResolution.getLength() > 2 )
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m_nZResolution = rCoordinateSystemResolution[2];
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}
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bool PlottingPositionHelper::isSameForGivenResolution( double fX, double fY, double fZ
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, double fX2, double fY2, double fZ2 /*these values are all expected tp be scaled already*/ )
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{
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if( !::rtl::math::isFinite(fX) || !::rtl::math::isFinite(fY) || !::rtl::math::isFinite(fZ)
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|| !::rtl::math::isFinite(fX2) || !::rtl::math::isFinite(fY2) || !::rtl::math::isFinite(fZ2) )
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return false;
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double fScaledMinX = getLogicMinX();
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double fScaledMinY = getLogicMinY();
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double fScaledMinZ = getLogicMinZ();
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double fScaledMaxX = getLogicMaxX();
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double fScaledMaxY = getLogicMaxY();
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double fScaledMaxZ = getLogicMaxZ();
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doLogicScaling( &fScaledMinX, &fScaledMinY, &fScaledMinZ );
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doLogicScaling( &fScaledMaxX, &fScaledMaxY, &fScaledMaxZ);
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bool bSameX = ( static_cast<sal_Int32>(m_nXResolution*(fX - fScaledMinX)/(fScaledMaxX-fScaledMinX))
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== static_cast<sal_Int32>(m_nXResolution*(fX2 - fScaledMinX)/(fScaledMaxX-fScaledMinX)) );
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bool bSameY = ( static_cast<sal_Int32>(m_nYResolution*(fY - fScaledMinY)/(fScaledMaxY-fScaledMinY))
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== static_cast<sal_Int32>(m_nYResolution*(fY2 - fScaledMinY)/(fScaledMaxY-fScaledMinY)) );
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bool bSameZ = ( static_cast<sal_Int32>(m_nZResolution*(fZ - fScaledMinZ)/(fScaledMaxZ-fScaledMinZ))
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== static_cast<sal_Int32>(m_nZResolution*(fZ2 - fScaledMinZ)/(fScaledMaxZ-fScaledMinZ)) );
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return (bSameX && bSameY && bSameZ);
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}
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bool PlottingPositionHelper::isLogicVisible(
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double fX, double fY, double fZ ) const
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{
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return fX >= m_aScales[0].Minimum && fX <= m_aScales[0].Maximum
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&& fY >= m_aScales[1].Minimum && fY <= m_aScales[1].Maximum
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&& fZ >= m_aScales[2].Minimum && fZ <= m_aScales[2].Maximum;
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}
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void PlottingPositionHelper::doLogicScaling( double* pX, double* pY, double* pZ, bool bClip ) const
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{
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if(bClip)
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this->clipLogicValues( pX,pY,pZ );
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if(pX && m_aScales[0].Scaling.is())
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*pX = m_aScales[0].Scaling->doScaling(*pX);
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if(pY && m_aScales[1].Scaling.is())
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*pY = m_aScales[1].Scaling->doScaling(*pY);
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if(pZ && m_aScales[2].Scaling.is())
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*pZ = m_aScales[2].Scaling->doScaling(*pZ);
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}
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void PlottingPositionHelper::doLogicScaling( ::com::sun::star::drawing::Position3D& rPos, bool bClip ) const
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{
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doLogicScaling( &rPos.PositionX, &rPos.PositionY, &rPos.PositionZ, bClip );
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}
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void PlottingPositionHelper::clipLogicValues( double* pX, double* pY, double* pZ ) const
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{
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if(pX)
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{
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if( *pX < m_aScales[0].Minimum )
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*pX = m_aScales[0].Minimum;
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else if( *pX > m_aScales[0].Maximum )
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*pX = m_aScales[0].Maximum;
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}
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if(pY)
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{
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if( *pY < m_aScales[1].Minimum )
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*pY = m_aScales[1].Minimum;
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else if( *pY > m_aScales[1].Maximum )
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*pY = m_aScales[1].Maximum;
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}
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if(pZ)
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{
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if( *pZ < m_aScales[2].Minimum )
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*pZ = m_aScales[2].Minimum;
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else if( *pZ > m_aScales[2].Maximum )
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*pZ = m_aScales[2].Maximum;
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}
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}
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inline bool PlottingPositionHelper::clipYRange( double& rMin, double& rMax ) const
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{
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//returns true if something remains
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if( rMin > rMax )
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{
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double fHelp = rMin;
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rMin = rMax;
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rMax = fHelp;
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}
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if( rMin > getLogicMaxY() )
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return false;
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if( rMax < getLogicMinY() )
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return false;
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if( rMin < getLogicMinY() )
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rMin = getLogicMinY();
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if( rMax > getLogicMaxY() )
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rMax = getLogicMaxY();
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if( rMin == rMax )
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return false;
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return true;
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}
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inline double PlottingPositionHelper::getLogicMinX() const
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{
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return m_aScales[0].Minimum;
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}
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inline double PlottingPositionHelper::getLogicMinY() const
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{
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return m_aScales[1].Minimum;
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}
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inline double PlottingPositionHelper::getLogicMinZ() const
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{
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return m_aScales[2].Minimum;
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}
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inline double PlottingPositionHelper::getLogicMaxX() const
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{
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return m_aScales[0].Maximum;
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}
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inline double PlottingPositionHelper::getLogicMaxY() const
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{
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return m_aScales[1].Maximum;
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}
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inline double PlottingPositionHelper::getLogicMaxZ() const
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{
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return m_aScales[2].Maximum;
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}
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inline bool PlottingPositionHelper::isMathematicalOrientationX() const
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{
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return ::com::sun::star::chart2::AxisOrientation_MATHEMATICAL == m_aScales[0].Orientation;
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}
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inline bool PlottingPositionHelper::isMathematicalOrientationY() const
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{
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return ::com::sun::star::chart2::AxisOrientation_MATHEMATICAL == m_aScales[1].Orientation;
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}
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inline bool PlottingPositionHelper::isMathematicalOrientationZ() const
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{
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return ::com::sun::star::chart2::AxisOrientation_MATHEMATICAL == m_aScales[2].Orientation;
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}
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inline bool PlottingPositionHelper::isSwapXAndY() const
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{
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return m_bSwapXAndY;
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}
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inline bool PlottingPositionHelper::maySkipPointsInRegressionCalculation() const
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{
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return m_bMaySkipPointsInRegressionCalculation;
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}
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//.............................................................................
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} //namespace chart
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//.............................................................................
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#endif
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