#ifndef FREQUENCY_DISPLAY_PLOT_C #define FREQUENCY_DISPLAY_PLOT_C #include #include class FreqPrecisionClass { public: FreqPrecisionClass(const int freqPrecision) { _frequencyPrecision = freqPrecision; } virtual ~FreqPrecisionClass() { } virtual unsigned int GetFrequencyPrecision() const { return _frequencyPrecision; } virtual void SetFrequencyPrecision(const unsigned int newPrecision) { _frequencyPrecision = newPrecision; } protected: unsigned int _frequencyPrecision; private: }; class FreqDisplayScaleDraw: public QwtScaleDraw, public FreqPrecisionClass { public: FreqDisplayScaleDraw(const unsigned int precision) : QwtScaleDraw(), FreqPrecisionClass(precision) { } virtual ~FreqDisplayScaleDraw() { } virtual QwtText label(double value) const { return QString("%1").arg(value, 0, 'f', GetFrequencyPrecision()); } protected: private: }; class FreqDisplayZoomer: public QwtPlotZoomer, public FreqPrecisionClass { public: FreqDisplayZoomer(QwtPlotCanvas* canvas, const unsigned int freqPrecision) : QwtPlotZoomer(canvas),FreqPrecisionClass(freqPrecision) { setTrackerMode(QwtPicker::AlwaysOn); } virtual ~FreqDisplayZoomer(){ } virtual void updateTrackerText(){ updateDisplay(); } void SetUnitType(const std::string &type) { _unitType = type; } protected: using QwtPlotZoomer::trackerText; virtual QwtText trackerText( const QwtDoublePoint& p ) const { QwtText t(QString("%1 %2, %3 dB"). arg(p.x(), 0, 'f', GetFrequencyPrecision()). arg(_unitType.c_str()).arg(p.y(), 0, 'f', 2)); return t; } private: std::string _unitType; }; FrequencyDisplayPlot::FrequencyDisplayPlot(QWidget* parent) : QwtPlot(parent) { _startFrequency = 0; _stopFrequency = 4000; timespec_reset(&_lastReplot); resize(parent->width(), parent->height()); _useCenterFrequencyFlag = false; _numPoints = 1024; _dataPoints = new double[_numPoints]; _minFFTPoints = new double[_numPoints]; _maxFFTPoints = new double[_numPoints]; _xAxisPoints = new double[_numPoints]; // Disable polygon clipping QwtPainter::setDeviceClipping(false); // We don't need the cache here canvas()->setPaintAttribute(QwtPlotCanvas::PaintCached, false); canvas()->setPaintAttribute(QwtPlotCanvas::PaintPacked, false); QPalette palette; palette.setColor(canvas()->backgroundRole(), QColor("white")); canvas()->setPalette(palette); setAxisTitle(QwtPlot::xBottom, "Frequency (Hz)"); setAxisScaleDraw(QwtPlot::xBottom, new FreqDisplayScaleDraw(0)); _minYAxis = -120; _maxYAxis = 10; setAxisScaleEngine(QwtPlot::yLeft, new QwtLinearScaleEngine); setAxisScale(QwtPlot::yLeft, _minYAxis, _maxYAxis); setAxisTitle(QwtPlot::yLeft, "Power (dB)"); // Automatically deleted when parent is deleted _fft_plot_curve = new QwtPlotCurve("Power Spectrum"); _fft_plot_curve->attach(this); _fft_plot_curve->setPen(QPen(Qt::blue)); _fft_plot_curve->setRawData(_xAxisPoints, _dataPoints, _numPoints); _min_fft_plot_curve = new QwtPlotCurve("Minimum Power"); _min_fft_plot_curve->attach(this); _min_fft_plot_curve->setPen(QPen(Qt::magenta)); _min_fft_plot_curve->setRawData(_xAxisPoints, _minFFTPoints, _numPoints); _min_fft_plot_curve->setVisible(false); _max_fft_plot_curve = new QwtPlotCurve("Maximum Power"); _max_fft_plot_curve->attach(this); _max_fft_plot_curve->setPen(QPen(Qt::darkYellow)); _max_fft_plot_curve->setRawData(_xAxisPoints, _maxFFTPoints, _numPoints); _max_fft_plot_curve->setVisible(false); _lower_intensity_marker = new QwtPlotMarker(); _lower_intensity_marker->setLineStyle(QwtPlotMarker::HLine); _lower_intensity_marker->setLinePen(QPen(Qt::cyan)); _lower_intensity_marker->attach(this); _upper_intensity_marker = new QwtPlotMarker(); _upper_intensity_marker->setLineStyle(QwtPlotMarker::HLine); _upper_intensity_marker->setLinePen(QPen(Qt::green, 0, Qt::DotLine)); _upper_intensity_marker->attach(this); memset(_dataPoints, 0x0, _numPoints*sizeof(double)); memset(_xAxisPoints, 0x0, _numPoints*sizeof(double)); for(int64_t number = 0; number < _numPoints; number++){ _minFFTPoints[number] = 200.0; _maxFFTPoints[number] = -280.0; } // set up peak marker QwtSymbol symbol; _markerPeakAmplitude = new QwtPlotMarker(); _markerPeakAmplitude->setLinePen(QPen(Qt::yellow)); symbol.setStyle(QwtSymbol::Diamond); symbol.setSize(8); symbol.setPen(QPen(Qt::yellow)); symbol.setBrush(QBrush(Qt::yellow)); _markerPeakAmplitude->setSymbol(symbol); _markerPeakAmplitude->attach(this); _markerNoiseFloorAmplitude = new QwtPlotMarker(); _markerNoiseFloorAmplitude->setLineStyle(QwtPlotMarker::HLine); _markerNoiseFloorAmplitude->setLinePen(QPen(Qt::darkRed, 0, Qt::DotLine)); _markerNoiseFloorAmplitude->attach(this); _peakFrequency = 0; _peakAmplitude = -HUGE_VAL; _noiseFloorAmplitude = -HUGE_VAL; replot(); _zoomer = new FreqDisplayZoomer(canvas(), 0); #if QT_VERSION < 0x040000 _zoomer->setMousePattern(QwtEventPattern::MouseSelect2, Qt::RightButton, Qt::ControlModifier); #else _zoomer->setMousePattern(QwtEventPattern::MouseSelect2, Qt::RightButton, Qt::ControlModifier); #endif _zoomer->setMousePattern(QwtEventPattern::MouseSelect3, Qt::RightButton); _panner = new QwtPlotPanner(canvas()); _panner->setAxisEnabled(QwtPlot::yRight, false); _panner->setMouseButton(Qt::MidButton); // Avoid jumping when labels with more/less digits // appear/disappear when scrolling vertically const QFontMetrics fm(axisWidget(QwtPlot::yLeft)->font()); QwtScaleDraw *sd = axisScaleDraw(QwtPlot::yLeft); sd->setMinimumExtent( fm.width("100.00") ); const QColor c(Qt::darkRed); _zoomer->setRubberBandPen(c); _zoomer->setTrackerPen(c); // Do this after the zoomer has been built _resetXAxisPoints(); } FrequencyDisplayPlot::~FrequencyDisplayPlot() { delete[] _dataPoints; delete[] _maxFFTPoints; delete[] _minFFTPoints; delete[] _xAxisPoints; // _fft_plot_curves deleted when parent deleted // _zoomer and _panner deleted when parent deleted } void FrequencyDisplayPlot::set_yaxis(double min, double max) { // Get the new max/min values for the plot _minYAxis = min; _maxYAxis = max; // Set the axis max/min to the new values setAxisScale(QwtPlot::yLeft, _minYAxis, _maxYAxis); // Reset the base zoom level to the new axis scale set here _zoomer->setZoomBase(); } void FrequencyDisplayPlot::SetFrequencyRange(const double constStartFreq, const double constStopFreq, const double constCenterFreq, const bool useCenterFrequencyFlag, const double units, const std::string &strunits) { double startFreq = constStartFreq / units; double stopFreq = constStopFreq / units; double centerFreq = constCenterFreq / units; _useCenterFrequencyFlag = useCenterFrequencyFlag; if(_useCenterFrequencyFlag){ startFreq = (startFreq + centerFreq); stopFreq = (stopFreq + centerFreq); } bool reset = false; if((startFreq != _startFrequency) || (stopFreq != _stopFrequency)) reset = true; if(stopFreq > startFreq) { _startFrequency = startFreq; _stopFrequency = stopFreq; if((axisScaleDraw(QwtPlot::xBottom) != NULL) && (_zoomer != NULL)){ double display_units = ceil(log10(units)/2.0); setAxisScaleDraw(QwtPlot::xBottom, new FreqDisplayScaleDraw(display_units)); setAxisTitle(QwtPlot::xBottom, QString("Frequency (%1)").arg(strunits.c_str())); if(reset) _resetXAxisPoints(); ((FreqDisplayZoomer*)_zoomer)->SetFrequencyPrecision(display_units); ((FreqDisplayZoomer*)_zoomer)->SetUnitType(strunits); } } } double FrequencyDisplayPlot::GetStartFrequency() const { return _startFrequency; } double FrequencyDisplayPlot::GetStopFrequency() const { return _stopFrequency; } void FrequencyDisplayPlot::replot() { _markerNoiseFloorAmplitude->setYValue(_noiseFloorAmplitude); // Make sure to take into account the start frequency if(_useCenterFrequencyFlag){ _markerPeakAmplitude->setXValue((_peakFrequency/1000.0) + _startFrequency); } else{ _markerPeakAmplitude->setXValue(_peakFrequency + _startFrequency); } _markerPeakAmplitude->setYValue(_peakAmplitude); QwtPlot::replot(); } void FrequencyDisplayPlot::resizeSlot( QSize *s ) { resize(s->width(), s->height()); } void FrequencyDisplayPlot::PlotNewData(const double* dataPoints, const int64_t numDataPoints, const double noiseFloorAmplitude, const double peakFrequency, const double peakAmplitude, const double timeInterval) { // Only update plot if there is data and if the time interval has elapsed if((numDataPoints > 0) && (diff_timespec(get_highres_clock(), _lastReplot) > timeInterval)) { if(numDataPoints != _numPoints) { _numPoints = numDataPoints; delete[] _dataPoints; delete[] _minFFTPoints; delete[] _maxFFTPoints; delete[] _xAxisPoints; _dataPoints = new double[_numPoints]; _xAxisPoints = new double[_numPoints]; _minFFTPoints = new double[_numPoints]; _maxFFTPoints = new double[_numPoints]; _fft_plot_curve->setRawData(_xAxisPoints, _dataPoints, _numPoints); _min_fft_plot_curve->setRawData(_xAxisPoints, _minFFTPoints, _numPoints); _max_fft_plot_curve->setRawData(_xAxisPoints, _maxFFTPoints, _numPoints); _resetXAxisPoints(); ClearMaxData(); ClearMinData(); } memcpy(_dataPoints, dataPoints, numDataPoints*sizeof(double)); for(int64_t point = 0; point < numDataPoints; point++){ if(dataPoints[point] < _minFFTPoints[point]){ _minFFTPoints[point] = dataPoints[point]; } if(dataPoints[point] > _maxFFTPoints[point]){ _maxFFTPoints[point] = dataPoints[point]; } } _noiseFloorAmplitude = noiseFloorAmplitude; _peakFrequency = peakFrequency; _peakAmplitude = peakAmplitude; SetUpperIntensityLevel(_peakAmplitude); replot(); _lastReplot = get_highres_clock(); } } void FrequencyDisplayPlot::ClearMaxData() { for(int64_t number = 0; number < _numPoints; number++){ _maxFFTPoints[number] = _minYAxis; } } void FrequencyDisplayPlot::ClearMinData() { for(int64_t number = 0; number < _numPoints; number++){ _minFFTPoints[number] = _maxYAxis; } } void FrequencyDisplayPlot::SetMaxFFTVisible(const bool visibleFlag) { _max_fft_plot_curve->setVisible(visibleFlag); } void FrequencyDisplayPlot::SetMinFFTVisible(const bool visibleFlag) { _min_fft_plot_curve->setVisible(visibleFlag); } void FrequencyDisplayPlot::_resetXAxisPoints() { double fft_bin_size = (_stopFrequency-_startFrequency) / static_cast(_numPoints); double freqValue = _startFrequency; for(int64_t loc = 0; loc < _numPoints; loc++){ _xAxisPoints[loc] = freqValue; freqValue += fft_bin_size; } setAxisScale(QwtPlot::xBottom, _startFrequency, _stopFrequency); // Set up zoomer base for maximum unzoom x-axis // and reset to maximum unzoom level QwtDoubleRect zbase = _zoomer->zoomBase(); zbase.setLeft(_startFrequency); zbase.setRight(_stopFrequency); _zoomer->zoom(zbase); _zoomer->setZoomBase(zbase); _zoomer->zoom(0); } void FrequencyDisplayPlot::SetLowerIntensityLevel(const double lowerIntensityLevel) { _lower_intensity_marker->setYValue( lowerIntensityLevel ); } void FrequencyDisplayPlot::SetUpperIntensityLevel(const double upperIntensityLevel) { _upper_intensity_marker->setYValue( upperIntensityLevel ); } #endif /* FREQUENCY_DISPLAY_PLOT_C */