/* -*- 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 *****************************************************************************/ #include #include "qwt_double_range.h" #include "qwt_math.h" static double MinRelStep = 1.0e-10; static double DefaultRelStep = 1.0e-2; static double MinEps = 1.0e-10; /*! The range is initialized to [0.0, 100.0], the step size to 1.0, and the value to 0.0. */ QwtDoubleRange::QwtDoubleRange(): d_minValue(0.0), d_maxValue(0.0), d_step(1.0), d_pageSize(1), d_isValid(false), d_value(0.0), d_exactValue(0.0), d_exactPrevValue(0.0), d_prevValue(0.0), d_periodic(false) { } //! Destroys the QwtDoubleRange QwtDoubleRange::~QwtDoubleRange() { } //! Set the value to be valid/invalid void QwtDoubleRange::setValid(bool isValid) { if ( isValid != d_isValid ) { d_isValid = isValid; valueChange(); } } //! Indicates if the value is valid bool QwtDoubleRange::isValid() const { return d_isValid; } /*! \brief No docs Description \param x ??? \param align \todo Documentation */ void QwtDoubleRange::setNewValue(double x, bool align) { double vmin,vmax; d_prevValue = d_value; vmin = qwtMin(d_minValue, d_maxValue); vmax = qwtMax(d_minValue, d_maxValue); // // Range check // if (x < vmin) { if ((d_periodic) && (vmin != vmax)) d_value = x + ::ceil( (vmin - x) / (vmax - vmin ) ) * (vmax - vmin); else d_value = vmin; } else if (x > vmax) { if ((d_periodic) && (vmin != vmax)) d_value = x - ::ceil( ( x - vmax) / (vmax - vmin )) * (vmax - vmin); else d_value = vmax; } else d_value = x; d_exactPrevValue = d_exactValue; d_exactValue = d_value; // align to grid if (align) { if (d_step != 0.0) { d_value = d_minValue + qwtRound((d_value - d_minValue) / d_step) * d_step; } else d_value = d_minValue; // correct rounding error at the border if (fabs(d_value - d_maxValue) < MinEps * qwtAbs(d_step)) d_value = d_maxValue; // correct rounding error if value = 0 if (::fabs(d_value) < MinEps * qwtAbs(d_step)) d_value = 0.0; } if (!d_isValid || d_prevValue != d_value) { d_isValid = true; valueChange(); } } /*! \brief Adjust the value to the closest point in the step raster. \param x value \warning The value is clipped when it lies outside the range. When the range is QwtDoubleRange::periodic, it will be mapped to a point in the interval such that \verbatim new value := x + n * (max. value - min. value)\endverbatim with an integer number n. */ void QwtDoubleRange::fitValue(double x) { setNewValue(x, true); } /*! \brief Set a new value without adjusting to the step raster \param x new value \warning The value is clipped when it lies outside the range. When the range is QwtDoubleRange::periodic, it will be mapped to a point in the interval such that \verbatim new value := x + n * (max. value - min. value)\endverbatim with an integer number n. */ void QwtDoubleRange::setValue(double x) { setNewValue(x, false); } /*! \brief Specify range and step size \param vmin lower boundary of the interval \param vmax higher boundary of the interval \param vstep step width \param pageSize page size in steps \warning \li A change of the range changes the value if it lies outside the new range. The current value will *not* be adjusted to the new step raster. \li vmax < vmin is allowed. \li If the step size is left out or set to zero, it will be set to 1/100 of the interval length. \li If the step size has an absurd value, it will be corrected to a better one. */ void QwtDoubleRange::setRange(double vmin, double vmax, double vstep, int pageSize) { bool rchg = ((d_maxValue != vmax) || (d_minValue != vmin)); if (rchg) { d_minValue = vmin; d_maxValue = vmax; } // // look if the step width has an acceptable // value or otherwise change it. // setStep(vstep); // // limit page size // d_pageSize = qwtLim(pageSize,0, int(qwtAbs((d_maxValue - d_minValue) / d_step))); // // If the value lies out of the range, it // will be changed. Note that it will not be adjusted to // the new step width. setNewValue(d_value, false); // call notifier after the step width has been // adjusted. if (rchg) rangeChange(); } /*! \brief Change the step raster \param vstep new step width \warning The value will \e not be adjusted to the new step raster. */ void QwtDoubleRange::setStep(double vstep) { double intv = d_maxValue - d_minValue; double newStep; if (vstep == 0.0) newStep = intv * DefaultRelStep; else { if (((intv > 0) && (vstep < 0)) || ((intv < 0) && (vstep > 0))) newStep = -vstep; else newStep = vstep; if ( fabs(newStep) < fabs(MinRelStep * intv) ) newStep = MinRelStep * intv; } if (newStep != d_step) { d_step = newStep; stepChange(); } } /*! \brief Make the range periodic When the range is periodic, the value will be set to a point inside the interval such that \verbatim point = value + n * width \endverbatim if the user tries to set a new value which is outside the range. If the range is nonperiodic (the default), values outside the range will be clipped. \param tf true for a periodic range */ void QwtDoubleRange::setPeriodic(bool tf) { d_periodic = tf; } /*! \brief Increment the value by a specified number of steps \param nSteps Number of steps to increment \warning As a result of this operation, the new value will always be adjusted to the step raster. */ void QwtDoubleRange::incValue(int nSteps) { if ( isValid() ) setNewValue(d_value + double(nSteps) * d_step, true); } /*! \brief Increment the value by a specified number of pages \param nPages Number of pages to increment. A negative number decrements the value. \warning The Page size is specified in the constructor. */ void QwtDoubleRange::incPages(int nPages) { if ( isValid() ) setNewValue(d_value + double(nPages) * double(d_pageSize) * d_step, true); } /*! \brief Notify a change of value This virtual function is called whenever the value changes. The default implementation does nothing. */ void QwtDoubleRange::valueChange() { } /*! \brief Notify a change of the range This virtual function is called whenever the range changes. The default implementation does nothing. */ void QwtDoubleRange::rangeChange() { } /*! \brief Notify a change of the step size This virtual function is called whenever the step size changes. The default implementation does nothing. */ void QwtDoubleRange::stepChange() { } /*! \return the step size \sa QwtDoubleRange::setStep, QwtDoubleRange::setRange */ double QwtDoubleRange::step() const { return qwtAbs(d_step); } /*! \brief Returns the value of the second border of the range maxValue returns the value which has been specified as the second parameter in QwtDoubleRange::setRange. \sa QwtDoubleRange::setRange() */ double QwtDoubleRange::maxValue() const { return d_maxValue; } /*! \brief Returns the value at the first border of the range minValue returns the value which has been specified as the first parameter in setRange(). \sa QwtDoubleRange::setRange() */ double QwtDoubleRange::minValue() const { return d_minValue; } /*! \brief Returns true if the range is periodic \sa QwtDoubleRange::setPeriodic() */ bool QwtDoubleRange::periodic() const { return d_periodic; } //! Returns the page size in steps. int QwtDoubleRange::pageSize() const { return d_pageSize; } //! Returns the current value. double QwtDoubleRange::value() const { return d_value; } /*! \brief Returns the exact value The exact value is the value which QwtDoubleRange::value would return if the value were not adjusted to the step raster. It differs from the current value only if QwtDoubleRange::fitValue or QwtDoubleRange::incValue have been used before. This function is intended for internal use in derived classes. */ double QwtDoubleRange::exactValue() const { return d_exactValue; } //! Returns the exact previous value double QwtDoubleRange::exactPrevValue() const { return d_exactPrevValue; } //! Returns the previous value double QwtDoubleRange::prevValue() const { return d_prevValue; }