/* -*- c++ -*- */
/*
* Copyright 2008-2011,2014 Free Software Foundation, Inc.
*
* This file is part of GNU Radio
*
* SPDX-License-Identifier: GPL-3.0-or-later
*
*/
#ifndef FREQUENCY_DISPLAY_PLOT_C
#define FREQUENCY_DISPLAY_PLOT_C
#include <gnuradio/qtgui/FrequencyDisplayPlot.h>
#include <gnuradio/qtgui/qtgui_types.h>
#include <qwt_scale_draw.h>
#include <QColor>
#include <iostream>
/***********************************************************************
* Widget to provide mouse pointer coordinate text
**********************************************************************/
class FreqDisplayZoomer : public QwtPlotZoomer, public FreqOffsetAndPrecisionClass
{
public:
#if QWT_VERSION < 0x060100
FreqDisplayZoomer(QwtPlotCanvas* canvas, const unsigned int freqPrecision)
#else /* QWT_VERSION < 0x060100 */
FreqDisplayZoomer(QWidget* canvas, const unsigned int freqPrecision)
#endif /* QWT_VERSION < 0x060100 */
: QwtPlotZoomer(canvas), FreqOffsetAndPrecisionClass(freqPrecision)
{
setTrackerMode(QwtPicker::AlwaysOn);
}
virtual void updateTrackerText() { updateDisplay(); }
void setUnitType(const std::string& type) { d_unitType = type; }
void setYUnit(const std::string& unit) { d_y_unit = unit; }
protected:
using QwtPlotZoomer::trackerText;
QwtText trackerText(QPoint const& p) const override
{
QwtDoublePoint dp = QwtPlotZoomer::invTransform(p);
QwtText t(QString("%1 %2, %3 %4")
.arg(dp.x(), 0, 'f', getFrequencyPrecision())
.arg(d_unitType.c_str())
.arg(dp.y(), 0, 'f', 2)
.arg(d_y_unit.c_str()));
return t;
}
private:
std::string d_unitType;
std::string d_y_unit = "dB";
};
/***********************************************************************
* Main frequency display plotter widget
**********************************************************************/
FrequencyDisplayPlot::FrequencyDisplayPlot(int nplots, QWidget* parent)
: DisplayPlot(nplots, parent)
{
d_start_frequency = -1;
d_stop_frequency = 1;
d_numPoints = 0;
d_min_fft_data = new double[d_numPoints];
d_max_fft_data = new double[d_numPoints];
d_xdata = new double[d_numPoints];
d_half_freq = false;
d_autoscale_shot = false;
setAxisTitle(QwtPlot::xBottom, "Frequency (Hz)");
setAxisScaleDraw(QwtPlot::xBottom, new FreqDisplayScaleDraw(0));
d_ymin = -120;
d_ymax = 10;
setAxisScaleEngine(QwtPlot::yLeft, new QwtLinearScaleEngine);
setAxisScale(QwtPlot::yLeft, d_ymin, d_ymax);
setAxisTitle(QwtPlot::yLeft, "Relative Gain (dB)");
QList<QColor> default_colors;
default_colors << QColor(Qt::blue) << QColor(Qt::red) << QColor(Qt::green)
<< QColor(Qt::black) << QColor(Qt::cyan) << QColor(Qt::magenta)
<< QColor(Qt::yellow) << QColor(Qt::gray) << QColor(Qt::darkRed)
<< QColor(Qt::darkGreen) << QColor(Qt::darkBlue)
<< QColor(Qt::darkGray);
// Create a curve for each input
// Automatically deleted when parent is deleted
for (unsigned int i = 0; i < d_nplots; ++i) {
d_ydata.push_back(new double[d_numPoints]);
memset(d_ydata[i], 0x0, d_numPoints * sizeof(double));
d_plot_curve.push_back(new QwtPlotCurve(QString("Data %1").arg(i)));
d_plot_curve[i]->attach(this);
QwtSymbol* symbol = new QwtSymbol(QwtSymbol::NoSymbol,
QBrush(default_colors[i]),
QPen(default_colors[i]),
QSize(7, 7));
#if QWT_VERSION < 0x060000
d_plot_curve[i]->setRawData(d_xdata, d_ydata[i], d_numPoints);
d_plot_curve[i]->setSymbol(*symbol);
#else
d_plot_curve[i]->setRawSamples(d_xdata, d_ydata[i], d_numPoints);
d_plot_curve[i]->setSymbol(symbol);
#endif
setLineColor(i, default_colors[i]);
}
// Create min/max plotter curves
d_min_fft_plot_curve = new QwtPlotCurve("Min Hold");
d_min_fft_plot_curve->attach(this);
const QColor default_min_fft_color = Qt::magenta;
setMinFFTColor(default_min_fft_color);
#if QWT_VERSION < 0x060000
d_min_fft_plot_curve->setRawData(d_xdata, d_min_fft_data, d_numPoints);
#else
d_min_fft_plot_curve->setRawSamples(d_xdata, d_min_fft_data, d_numPoints);
#endif
d_min_fft_plot_curve->setVisible(false);
d_min_fft_plot_curve->setZ(0);
d_max_fft_plot_curve = new QwtPlotCurve("Max Hold");
d_max_fft_plot_curve->attach(this);
QColor default_max_fft_color = Qt::darkYellow;
setMaxFFTColor(default_max_fft_color);
#if QWT_VERSION < 0x060000
d_max_fft_plot_curve->setRawData(d_xdata, d_max_fft_data, d_numPoints);
#else
d_max_fft_plot_curve->setRawSamples(d_xdata, d_max_fft_data, d_numPoints);
#endif
d_max_fft_plot_curve->setVisible(false);
d_max_fft_plot_curve->setZ(0);
d_lower_intensity_marker = new QwtPlotMarker();
d_lower_intensity_marker->setLineStyle(QwtPlotMarker::HLine);
QColor default_marker_lower_intensity_color = Qt::cyan;
setMarkerLowerIntensityColor(default_marker_lower_intensity_color);
d_lower_intensity_marker->attach(this);
d_upper_intensity_marker = new QwtPlotMarker();
d_upper_intensity_marker->setLineStyle(QwtPlotMarker::HLine);
QColor default_marker_upper_intensity_color = Qt::green;
setMarkerUpperIntensityColor(default_marker_upper_intensity_color);
d_upper_intensity_marker->attach(this);
memset(d_xdata, 0x0, d_numPoints * sizeof(double));
for (int64_t number = 0; number < d_numPoints; number++) {
d_min_fft_data[number] = 200.0;
d_max_fft_data[number] = -280.0;
}
d_marker_peak_amplitude = new QwtPlotMarker();
QColor default_marker_peak_amplitude_color = Qt::yellow;
setMarkerPeakAmplitudeColor(default_marker_peak_amplitude_color);
/// THIS CAUSES A PROBLEM!
// d_marker_peak_amplitude->attach(this);
d_marker_noise_floor_amplitude = new QwtPlotMarker();
d_marker_noise_floor_amplitude->setLineStyle(QwtPlotMarker::HLine);
QColor default_marker_noise_floor_amplitude_color = Qt::darkRed;
setMarkerNoiseFloorAmplitudeColor(default_marker_noise_floor_amplitude_color);
d_marker_noise_floor_amplitude->attach(this);
d_marker_cf = new QwtPlotMarker();
d_marker_cf->setLineStyle(QwtPlotMarker::VLine);
QColor default_marker_cf_color = Qt::lightGray;
setMarkerCFColor(default_marker_cf_color);
d_marker_cf->attach(this);
d_marker_cf->hide();
d_peak_frequency = 0;
d_peak_amplitude = -HUGE_VAL;
d_noise_floor_amplitude = -HUGE_VAL;
d_zoomer = new FreqDisplayZoomer(canvas(), 0);
#if QWT_VERSION < 0x060000
d_zoomer->setSelectionFlags(QwtPicker::RectSelection | QwtPicker::DragSelection);
#endif
d_zoomer->setMousePattern(
QwtEventPattern::MouseSelect2, Qt::RightButton, Qt::ControlModifier);
d_zoomer->setMousePattern(QwtEventPattern::MouseSelect3, Qt::RightButton);
const QColor default_zoomer_color(Qt::darkRed);
setZoomerColor(default_zoomer_color);
// Do this after the zoomer has been built
_resetXAxisPoints();
// Turn off min/max hold plots in legend
#if QWT_VERSION < 0x060100
QWidget* w;
w = legend()->find(d_min_fft_plot_curve);
((QwtLegendItem*)w)->setChecked(true);
((QwtLegendItem*)w)->setVisible(false);
w = legend()->find(d_max_fft_plot_curve);
((QwtLegendItem*)w)->setChecked(true);
((QwtLegendItem*)w)->setVisible(false);
legend()->setVisible(false);
#else /* QWT_VERSION < 0x060100 */
QWidget* w;
w = ((QwtLegend*)legend())->legendWidget(itemToInfo(d_min_fft_plot_curve));
((QwtLegendLabel*)w)->setChecked(true);
((QwtLegendLabel*)w)->setVisible(false);
w = ((QwtLegend*)legend())->legendWidget(itemToInfo(d_max_fft_plot_curve));
((QwtLegendLabel*)w)->setChecked(true);
((QwtLegendLabel*)w)->setVisible(false);
#endif /* QWT_VERSION < 0x060100 */
d_trigger_line = new QwtPlotMarker();
d_trigger_line->setLineStyle(QwtPlotMarker::HLine);
d_trigger_line->setLinePen(QPen(Qt::red, 0.6, Qt::DashLine));
d_trigger_line->setRenderHint(QwtPlotItem::RenderAntialiased);
d_trigger_line->setXValue(0.0);
d_trigger_line->setYValue(0.0);
replot();
}
FrequencyDisplayPlot::~FrequencyDisplayPlot()
{
for (unsigned int i = 0; i < d_nplots; ++i)
delete[] d_ydata[i];
delete[] d_max_fft_data;
delete[] d_min_fft_data;
delete[] d_xdata;
}
void FrequencyDisplayPlot::setYaxis(double min, double max)
{
// Get the new max/min values for the plot
d_ymin = min;
d_ymax = max;
// Set the axis max/min to the new values
setAxisScale(QwtPlot::yLeft, d_ymin, d_ymax);
// Reset the base zoom level to the new axis scale set here.
// But don't do it if we set the axis due to auto scaling.
if (!d_autoscale_state)
d_zoomer->setZoomBase();
}
double FrequencyDisplayPlot::getYMin() const { return d_ymin; }
double FrequencyDisplayPlot::getYMax() const { return d_ymax; }
void FrequencyDisplayPlot::setFrequencyRange(const double centerfreq,
const double bandwidth,
const double units,
const std::string& strunits)
{
double startFreq;
double stopFreq = (centerfreq + bandwidth / 2.0f) / units;
if (d_half_freq)
startFreq = centerfreq / units;
else
startFreq = (centerfreq - bandwidth / 2.0f) / units;
d_xdata_multiplier = units;
bool reset = false;
if ((startFreq != d_start_frequency) || (stopFreq != d_stop_frequency))
reset = true;
if (stopFreq > startFreq) {
d_start_frequency = startFreq;
d_stop_frequency = stopFreq;
d_center_frequency = centerfreq / units;
if ((axisScaleDraw(QwtPlot::xBottom) != NULL) && (d_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();
clearMaxData();
clearMinData();
}
((FreqDisplayZoomer*)d_zoomer)->setFrequencyPrecision(display_units);
((FreqDisplayZoomer*)d_zoomer)->setUnitType(strunits);
}
}
}
double FrequencyDisplayPlot::getStartFrequency() const { return d_start_frequency; }
double FrequencyDisplayPlot::getStopFrequency() const { return d_stop_frequency; }
void FrequencyDisplayPlot::replot()
{
d_marker_noise_floor_amplitude->setYValue(d_noise_floor_amplitude);
d_marker_peak_amplitude->setXValue(d_peak_frequency + d_start_frequency);
// Make sure to take into account the start frequency
// if(d_useCenterFrequencyFlag){
// d_marker_peak_amplitude->setXValue((d_peak_frequency/1000.0) +
// d_start_frequency);
// }
// else{
// _markerPeakAmplitude->setXValue(d_peak_frequency + d_start_frequency);
// }
d_marker_peak_amplitude->setYValue(d_peak_amplitude);
QwtPlot::replot();
}
void FrequencyDisplayPlot::plotNewData(const std::vector<double*> dataPoints,
const int64_t numDataPoints,
const double noiseFloorAmplitude,
const double peakFrequency,
const double peakAmplitude,
const double timeInterval)
{
int64_t _npoints_in = d_half_freq ? numDataPoints / 2 : numDataPoints;
int64_t _in_index = d_half_freq ? _npoints_in : 0;
if (!d_stop) {
if (numDataPoints > 0) {
if (_npoints_in != d_numPoints) {
d_numPoints = _npoints_in;
delete[] d_min_fft_data;
delete[] d_max_fft_data;
delete[] d_xdata;
d_xdata = new double[d_numPoints];
d_min_fft_data = new double[d_numPoints];
d_max_fft_data = new double[d_numPoints];
for (unsigned int i = 0; i < d_nplots; ++i) {
delete[] d_ydata[i];
d_ydata[i] = new double[d_numPoints];
#if QWT_VERSION < 0x060000
d_plot_curve[i]->setRawData(d_xdata, d_ydata[i], d_numPoints);
#else
d_plot_curve[i]->setRawSamples(d_xdata, d_ydata[i], d_numPoints);
#endif
}
#if QWT_VERSION < 0x060000
d_min_fft_plot_curve->setRawData(d_xdata, d_min_fft_data, d_numPoints);
d_max_fft_plot_curve->setRawData(d_xdata, d_max_fft_data, d_numPoints);
#else
d_min_fft_plot_curve->setRawSamples(d_xdata, d_min_fft_data, d_numPoints);
d_max_fft_plot_curve->setRawSamples(d_xdata, d_max_fft_data, d_numPoints);
#endif
_resetXAxisPoints();
clearMaxData();
clearMinData();
}
double bottom = 1e20, top = -1e20;
for (unsigned int n = 0; n < d_nplots; ++n) {
memcpy(d_ydata[n],
&(dataPoints[n][_in_index]),
_npoints_in * sizeof(double));
for (int64_t point = 0; point < _npoints_in; point++) {
if (dataPoints[n][point + _in_index] < d_min_fft_data[point]) {
d_min_fft_data[point] = dataPoints[n][point + _in_index];
}
if (dataPoints[n][point + _in_index] > d_max_fft_data[point]) {
d_max_fft_data[point] = dataPoints[n][point + _in_index];
}
// Find overall top and bottom values in plot.
// Used for autoscaling y-axis.
if (dataPoints[n][point] < bottom) {
bottom = dataPoints[n][point];
}
if (dataPoints[n][point] > top) {
top = dataPoints[n][point];
}
}
}
if (d_autoscale_state) {
_autoScale(bottom, top);
if (d_autoscale_shot) {
d_autoscale_state = false;
d_autoscale_shot = false;
}
}
d_noise_floor_amplitude = noiseFloorAmplitude;
d_peak_frequency = peakFrequency;
d_peak_amplitude = peakAmplitude;
setUpperIntensityLevel(d_peak_amplitude);
replot();
}
}
}
void FrequencyDisplayPlot::plotNewData(const double* dataPoints,
const int64_t numDataPoints,
const double noiseFloorAmplitude,
const double peakFrequency,
const double peakAmplitude,
const double timeInterval)
{
std::vector<double*> vecDataPoints;
vecDataPoints.push_back((double*)dataPoints);
plotNewData(vecDataPoints,
numDataPoints,
noiseFloorAmplitude,
peakFrequency,
peakAmplitude,
timeInterval);
}
void FrequencyDisplayPlot::clearMaxData()
{
for (int64_t number = 0; number < d_numPoints; number++) {
d_max_fft_data[number] = d_ymin;
}
}
void FrequencyDisplayPlot::clearMinData()
{
for (int64_t number = 0; number < d_numPoints; number++) {
d_min_fft_data[number] = d_ymax;
}
}
void FrequencyDisplayPlot::_autoScale(double bottom, double top)
{
// Auto scale the y-axis with a margin of 10 dB on either side.
d_ymin = bottom - 10;
d_ymax = top + 10;
setYaxis(d_ymin, d_ymax);
}
void FrequencyDisplayPlot::setAutoScale(bool state) { d_autoscale_state = state; }
void FrequencyDisplayPlot::setAutoScaleShot()
{
d_autoscale_state = true;
d_autoscale_shot = true;
}
void FrequencyDisplayPlot::setPlotPosHalf(bool half)
{
d_half_freq = half;
if (half)
d_start_frequency = d_center_frequency;
}
void FrequencyDisplayPlot::setMaxFFTVisible(const bool visibleFlag)
{
d_max_fft_visible = visibleFlag;
d_max_fft_plot_curve->setVisible(visibleFlag);
}
const bool FrequencyDisplayPlot::getMaxFFTVisible() const { return d_max_fft_visible; }
void FrequencyDisplayPlot::setMinFFTVisible(const bool visibleFlag)
{
d_min_fft_visible = visibleFlag;
d_min_fft_plot_curve->setVisible(visibleFlag);
}
const bool FrequencyDisplayPlot::getMinFFTVisible() const { return d_min_fft_visible; }
void FrequencyDisplayPlot::_resetXAxisPoints()
{
double fft_bin_size =
(d_stop_frequency - d_start_frequency) / static_cast<double>(d_numPoints);
double freqValue = d_start_frequency;
for (int64_t loc = 0; loc < d_numPoints; loc++) {
d_xdata[loc] = freqValue;
freqValue += fft_bin_size;
}
setAxisScale(QwtPlot::xBottom, d_start_frequency, d_stop_frequency);
// Set up zoomer base for maximum unzoom x-axis
// and reset to maximum unzoom level
QwtDoubleRect zbase = d_zoomer->zoomBase();
d_zoomer->zoom(zbase);
d_zoomer->setZoomBase(zbase);
d_zoomer->setZoomBase(true);
d_zoomer->zoom(0);
}
void FrequencyDisplayPlot::setLowerIntensityLevel(const double lowerIntensityLevel)
{
d_lower_intensity_marker->setYValue(lowerIntensityLevel);
}
void FrequencyDisplayPlot::setUpperIntensityLevel(const double upperIntensityLevel)
{
d_upper_intensity_marker->setYValue(upperIntensityLevel);
}
void FrequencyDisplayPlot::setTraceColour(QColor c) { d_plot_curve[0]->setPen(QPen(c)); }
void FrequencyDisplayPlot::setBGColour(QColor c)
{
QPalette palette;
palette.setColor(canvas()->backgroundRole(), c);
canvas()->setPalette(palette);
}
void FrequencyDisplayPlot::showCFMarker(const bool show)
{
if (show)
d_marker_cf->show();
else
d_marker_cf->hide();
}
void FrequencyDisplayPlot::onPickerPointSelected(const QwtDoublePoint& p)
{
QPointF point = p;
// fprintf(stderr,"onPickerPointSelected %f %f %d\n", point.x(), point.y(),
// d_xdata_multiplier);
point.setX(point.x() * d_xdata_multiplier);
emit plotPointSelected(point);
}
void FrequencyDisplayPlot::onPickerPointSelected6(const QPointF& p)
{
QPointF point = p;
// fprintf(stderr,"onPickerPointSelected %f %f %d\n", point.x(), point.y(),
// d_xdata_multiplier);
point.setX(point.x() * d_xdata_multiplier);
emit plotPointSelected(point);
}
void FrequencyDisplayPlot::setYLabel(const std::string& label, const std::string& unit)
{
std::string l = label;
if (unit.length() > 0)
l += " (" + unit + ")";
setAxisTitle(QwtPlot::yLeft, QString(l.c_str()));
static_cast<FreqDisplayZoomer*>(d_zoomer)->setYUnit(unit);
}
void FrequencyDisplayPlot::setMinFFTColor(QColor c)
{
d_min_fft_color = c;
d_min_fft_plot_curve->setPen(QPen(c));
}
const QColor FrequencyDisplayPlot::getMinFFTColor() const { return d_min_fft_color; }
void FrequencyDisplayPlot::setMaxFFTColor(QColor c)
{
d_max_fft_color = c;
d_max_fft_plot_curve->setPen(QPen(c));
}
const QColor FrequencyDisplayPlot::getMaxFFTColor() const { return d_max_fft_color; }
void FrequencyDisplayPlot::setMarkerLowerIntensityColor(QColor c)
{
d_marker_lower_intensity_color = c;
d_lower_intensity_marker->setLinePen(QPen(c));
}
const QColor FrequencyDisplayPlot::getMarkerLowerIntensityColor() const
{
return d_marker_lower_intensity_color;
}
void FrequencyDisplayPlot::setMarkerLowerIntensityVisible(bool visible)
{
d_marker_lower_intensity_visible = visible;
if (visible)
d_lower_intensity_marker->setLineStyle(QwtPlotMarker::HLine);
else
d_lower_intensity_marker->setLineStyle(QwtPlotMarker::NoLine);
}
const bool FrequencyDisplayPlot::getMarkerLowerIntensityVisible() const
{
return d_marker_lower_intensity_visible;
}
void FrequencyDisplayPlot::setMarkerUpperIntensityColor(QColor c)
{
d_marker_upper_intensity_color = c;
d_upper_intensity_marker->setLinePen(QPen(c, 0, Qt::DotLine));
}
const QColor FrequencyDisplayPlot::getMarkerUpperIntensityColor() const
{
return d_marker_upper_intensity_color;
}
void FrequencyDisplayPlot::setMarkerUpperIntensityVisible(bool visible)
{
d_marker_upper_intensity_visible = visible;
if (visible)
d_upper_intensity_marker->setLineStyle(QwtPlotMarker::HLine);
else
d_upper_intensity_marker->setLineStyle(QwtPlotMarker::NoLine);
}
const bool FrequencyDisplayPlot::getMarkerUpperIntensityVisible() const
{
return d_marker_upper_intensity_visible;
}
void FrequencyDisplayPlot::setMarkerPeakAmplitudeColor(QColor c)
{
d_marker_peak_amplitude_color = c;
d_marker_peak_amplitude->setLinePen(QPen(c));
QwtSymbol symbol;
symbol.setStyle(QwtSymbol::Diamond);
symbol.setSize(8);
symbol.setPen(QPen(c));
symbol.setBrush(QBrush(c));
#if QWT_VERSION < 0x060000
d_marker_peak_amplitude->setSymbol(symbol);
#else
d_marker_peak_amplitude->setSymbol(&symbol);
#endif
}
const QColor FrequencyDisplayPlot::getMarkerPeakAmplitudeColor() const
{
return d_marker_peak_amplitude_color;
}
void FrequencyDisplayPlot::setMarkerNoiseFloorAmplitudeColor(QColor c)
{
d_marker_noise_floor_amplitude_color = c;
d_marker_noise_floor_amplitude->setLinePen(QPen(c, 0, Qt::DotLine));
}
const QColor FrequencyDisplayPlot::getMarkerNoiseFloorAmplitudeColor() const
{
return d_marker_noise_floor_amplitude_color;
}
void FrequencyDisplayPlot::setMarkerNoiseFloorAmplitudeVisible(bool visible)
{
d_marker_noise_floor_amplitude_visible = visible;
if (visible)
d_marker_noise_floor_amplitude->setLineStyle(QwtPlotMarker::HLine);
else
d_marker_noise_floor_amplitude->setLineStyle(QwtPlotMarker::NoLine);
}
const bool FrequencyDisplayPlot::getMarkerNoiseFloorAmplitudeVisible() const
{
return d_marker_noise_floor_amplitude_visible;
}
void FrequencyDisplayPlot::setMarkerCFColor(QColor c)
{
d_marker_cf_color = c;
d_marker_cf->setLinePen(QPen(c, 0, Qt::DotLine));
}
const QColor FrequencyDisplayPlot::getMarkerCFColor() const { return d_marker_cf_color; }
void FrequencyDisplayPlot::attachTriggerLine(bool en)
{
if (en) {
d_trigger_line->attach(this);
} else {
d_trigger_line->detach();
}
}
void FrequencyDisplayPlot::setTriggerLine(double level)
{
d_trigger_line->setYValue(level);
}
#endif /* FREQUENCY_DISPLAY_PLOT_C */