/* -*- mode: C++ ; c-file-style: "stroustrup" -*- ***************************** * Qwt Widget Library * Copyright (C) 1997 Josef Wilgen * Copyright (C) 2002 Uwe Rathmann * * This library is free software; you can redistribute it and/or * modify it under the terms of the Qwt License, Version 1.0 *****************************************************************************/ #ifndef QWT_SCALE_ENGINE_H #define QWT_SCALE_ENGINE_H #include "qwt_global.h" #include "qwt_scale_div.h" #include "qwt_interval.h" class QwtScaleTransformation; /*! \brief Arithmetic including a tolerance */ class QWT_EXPORT QwtScaleArithmetic { public: static double ceilEps( double value, double intervalSize ); static double floorEps( double value, double intervalSize ); static double divideEps( double interval, double steps ); static double ceil125( double x ); static double floor125( double x ); }; /*! \brief Base class for scale engines. A scale engine tries to find "reasonable" ranges and step sizes for scales. The layout of the scale can be varied with setAttribute(). Qwt offers implementations for logarithmic (log10) and linear scales. Contributions for other types of scale engines (date/time, log2 ... ) are welcome. */ class QWT_EXPORT QwtScaleEngine { public: /*! Layout attributes \sa setAttribute(), testAttribute(), reference(), lowerMargin(), upperMargin() */ enum Attribute { //! No attributes NoAttribute = 0x00, //! Build a scale which includes the reference() value. IncludeReference = 0x01, //! Build a scale which is symmetric to the reference() value. Symmetric = 0x02, /*! The endpoints of the scale are supposed to be equal the outmost included values plus the specified margins (see setMargins()). If this attribute is *not* set, the endpoints of the scale will be integer multiples of the step size. */ Floating = 0x04, //! Turn the scale upside down. Inverted = 0x08 }; //! Layout attributes typedef QFlags Attributes; explicit QwtScaleEngine(); virtual ~QwtScaleEngine(); void setAttribute( Attribute, bool on = true ); bool testAttribute( Attribute ) const; void setAttributes( Attributes ); Attributes attributes() const; void setReference( double reference ); double reference() const; void setMargins( double lower, double upper ); double lowerMargin() const; double upperMargin() const; /*! Align and divide an interval \param maxNumSteps Max. number of steps \param x1 First limit of the interval (In/Out) \param x2 Second limit of the interval (In/Out) \param stepSize Step size (Return value) */ virtual void autoScale( int maxNumSteps, double &x1, double &x2, double &stepSize ) const = 0; /*! \brief Calculate a scale division \param x1 First interval limit \param x2 Second interval limit \param maxMajSteps Maximum for the number of major steps \param maxMinSteps Maximum number of minor steps \param stepSize Step size. If stepSize == 0.0, the scaleEngine calculates one. */ virtual QwtScaleDiv divideScale( double x1, double x2, int maxMajSteps, int maxMinSteps, double stepSize = 0.0 ) const = 0; //! \return a transformation virtual QwtScaleTransformation *transformation() const = 0; protected: bool contains( const QwtInterval &, double val ) const; QList strip( const QList&, const QwtInterval & ) const; double divideInterval( double interval, int numSteps ) const; QwtInterval buildInterval( double v ) const; private: class PrivateData; PrivateData *d_data; }; /*! \brief A scale engine for linear scales The step size will fit into the pattern \f$\left\{ 1,2,5\right\} \cdot 10^{n}\f$, where n is an integer. */ class QWT_EXPORT QwtLinearScaleEngine: public QwtScaleEngine { public: virtual void autoScale( int maxSteps, double &x1, double &x2, double &stepSize ) const; virtual QwtScaleDiv divideScale( double x1, double x2, int numMajorSteps, int numMinorSteps, double stepSize = 0.0 ) const; virtual QwtScaleTransformation *transformation() const; protected: QwtInterval align( const QwtInterval&, double stepSize ) const; void buildTicks( const QwtInterval &, double stepSize, int maxMinSteps, QList ticks[QwtScaleDiv::NTickTypes] ) const; QList buildMajorTicks( const QwtInterval &interval, double stepSize ) const; void buildMinorTicks( const QList& majorTicks, int maxMinMark, double step, QList &, QList & ) const; }; /*! \brief A scale engine for logarithmic (base 10) scales The step size is measured in *decades* and the major step size will be adjusted to fit the pattern \f$\left\{ 1,2,3,5\right\} \cdot 10^{n}\f$, where n is a natural number including zero. \warning the step size as well as the margins are measured in *decades*. */ class QWT_EXPORT QwtLog10ScaleEngine: public QwtScaleEngine { public: virtual void autoScale( int maxSteps, double &x1, double &x2, double &stepSize ) const; virtual QwtScaleDiv divideScale( double x1, double x2, int numMajorSteps, int numMinorSteps, double stepSize = 0.0 ) const; virtual QwtScaleTransformation *transformation() const; protected: QwtInterval log10( const QwtInterval& ) const; QwtInterval pow10( const QwtInterval& ) const; QwtInterval align( const QwtInterval&, double stepSize ) const; void buildTicks( const QwtInterval &, double stepSize, int maxMinSteps, QList ticks[QwtScaleDiv::NTickTypes] ) const; QList buildMajorTicks( const QwtInterval &interval, double stepSize ) const; QList buildMinorTicks( const QList& majorTicks, int maxMinMark, double step ) const; }; Q_DECLARE_OPERATORS_FOR_FLAGS( QwtScaleEngine::Attributes ) #endif