WSJT-X/widgets/widegraph.cpp
Bill Somerville b8e4517718 Improve performance of Fox and contest log view windows
This include inverting  the order of table view rows  so the newest is
at the top, without that the Qt MVC interactions when using a database
table based model is too slow and complex to manage.

The table views  now have sort by column capability  in the normal way
(click column  header to  reverse sort order)  for timely  logging and
non-disruption  of  Tx  starts  the  log  view  should  be  sorted  in
descending time order and scrolled to the last row added. Without that
Fox and  contest logging will work  but serious delays may  be invoked
that disrupt operation.
2018-12-06 05:41:16 +00:00

526 lines
15 KiB
C++

#include "widegraph.h"
#include <algorithm>
#include <QApplication>
#include <QSettings>
#include <QDateTime>
#include <QKeyEvent>
#include "ui_widegraph.h"
#include "commons.h"
#include "Configuration.hpp"
#include "MessageBox.hpp"
#include "SettingsGroup.hpp"
#include "moc_widegraph.cpp"
namespace
{
auto user_defined = QObject::tr ("User Defined");
float swide[MAX_SCREENSIZE];
}
WideGraph::WideGraph(QSettings * settings, QWidget *parent) :
QDialog(parent),
ui(new Ui::WideGraph),
m_settings (settings),
m_palettes_path {":/Palettes"},
m_ntr0 {0},
m_n {0},
m_bHaveTransmitted {false}
{
ui->setupUi(this);
setWindowTitle (QApplication::applicationName () + " - " + tr ("Wide Graph"));
setWindowFlags (Qt::WindowCloseButtonHint | Qt::WindowMinimizeButtonHint);
setMaximumWidth (MAX_SCREENSIZE);
setMaximumHeight (880);
ui->widePlot->setCursor(Qt::CrossCursor);
ui->widePlot->setMaximumHeight(800);
ui->widePlot->setCurrent(false);
connect(ui->widePlot, SIGNAL(freezeDecode1(int)),this,
SLOT(wideFreezeDecode(int)));
connect(ui->widePlot, SIGNAL(setFreq1(int,int)),this,
SLOT(setFreq2(int,int)));
{
//Restore user's settings
SettingsGroup g {m_settings, "WideGraph"};
restoreGeometry (m_settings->value ("geometry", saveGeometry ()).toByteArray ());
ui->widePlot->setPlotZero(m_settings->value("PlotZero", 0).toInt());
ui->widePlot->setPlotGain(m_settings->value("PlotGain", 0).toInt());
ui->widePlot->setPlot2dGain(m_settings->value("Plot2dGain", 0).toInt());
ui->widePlot->setPlot2dZero(m_settings->value("Plot2dZero", 0).toInt());
ui->zeroSlider->setValue(ui->widePlot->plotZero());
ui->gainSlider->setValue(ui->widePlot->plotGain());
ui->gain2dSlider->setValue(ui->widePlot->plot2dGain());
ui->zero2dSlider->setValue(ui->widePlot->plot2dZero());
int n = m_settings->value("BinsPerPixel",2).toInt();
m_bFlatten=m_settings->value("Flatten",true).toBool();
m_bRef=m_settings->value("UseRef",false).toBool();
ui->cbFlatten->setChecked(m_bFlatten);
ui->widePlot->setFlatten(m_bFlatten,m_bRef);
ui->cbRef->setChecked(m_bRef);
ui->widePlot->setBreadth(m_settings->value("PlotWidth",1000).toInt());
ui->bppSpinBox->setValue(n);
m_nsmo=m_settings->value("SmoothYellow",1).toInt();
ui->smoSpinBox->setValue(m_nsmo);
m_Percent2DScreen=m_settings->value("Percent2D",30).toInt();
m_waterfallAvg = m_settings->value("WaterfallAvg",5).toInt();
ui->waterfallAvgSpinBox->setValue(m_waterfallAvg);
ui->widePlot->setWaterfallAvg(m_waterfallAvg);
ui->widePlot->setCurrent(m_settings->value("Current",false).toBool());
ui->widePlot->setCumulative(m_settings->value("Cumulative",true).toBool());
ui->widePlot->setLinearAvg(m_settings->value("LinearAvg",false).toBool());
ui->widePlot->setReference(m_settings->value("Reference",false).toBool());
if(ui->widePlot->current()) ui->spec2dComboBox->setCurrentIndex(0);
if(ui->widePlot->cumulative()) ui->spec2dComboBox->setCurrentIndex(1);
if(ui->widePlot->linearAvg()) ui->spec2dComboBox->setCurrentIndex(2);
if(ui->widePlot->Reference()) ui->spec2dComboBox->setCurrentIndex(3);
int nbpp=m_settings->value("BinsPerPixel",2).toInt();
ui->widePlot->setBinsPerPixel(nbpp);
ui->sbPercent2dPlot->setValue(m_Percent2DScreen);
ui->widePlot->setStartFreq(m_settings->value("StartFreq",0).toInt());
ui->fStartSpinBox->setValue(ui->widePlot->startFreq());
m_waterfallPalette=m_settings->value("WaterfallPalette","Default").toString();
m_userPalette = WFPalette {m_settings->value("UserPalette").value<WFPalette::Colours> ()};
m_fMinPerBand = m_settings->value ("FminPerBand").toHash ();
setRxRange ();
ui->controls_widget->setVisible(!m_settings->value("HideControls",false).toBool());
ui->cbControls->setChecked(!m_settings->value("HideControls",false).toBool());
}
int index=0;
for (QString const& file:
m_palettes_path.entryList(QDir::NoDotAndDotDot |
QDir::System | QDir::Hidden |
QDir::AllDirs | QDir::Files,
QDir::DirsFirst)) {
QString t=file.mid(0,file.length()-4);
ui->paletteComboBox->addItem(t);
if(t==m_waterfallPalette) ui->paletteComboBox->setCurrentIndex(index);
index++;
}
ui->paletteComboBox->addItem (user_defined);
if (user_defined == m_waterfallPalette) ui->paletteComboBox->setCurrentIndex(index);
readPalette ();
}
WideGraph::~WideGraph ()
{
}
void WideGraph::closeEvent (QCloseEvent * e)
{
saveSettings ();
QDialog::closeEvent (e);
}
void WideGraph::saveSettings() //saveSettings
{
SettingsGroup g {m_settings, "WideGraph"};
m_settings->setValue ("geometry", saveGeometry ());
m_settings->setValue ("PlotZero", ui->widePlot->plotZero());
m_settings->setValue ("PlotGain", ui->widePlot->plotGain());
m_settings->setValue ("Plot2dGain", ui->widePlot->plot2dGain());
m_settings->setValue ("Plot2dZero", ui->widePlot->plot2dZero());
m_settings->setValue ("PlotWidth", ui->widePlot->plotWidth ());
m_settings->setValue ("BinsPerPixel", ui->bppSpinBox->value ());
m_settings->setValue ("SmoothYellow", ui->smoSpinBox->value ());
m_settings->setValue ("Percent2D",m_Percent2DScreen);
m_settings->setValue ("WaterfallAvg", ui->waterfallAvgSpinBox->value ());
m_settings->setValue ("Current", ui->widePlot->current());
m_settings->setValue ("Cumulative", ui->widePlot->cumulative());
m_settings->setValue ("LinearAvg", ui->widePlot->linearAvg());
m_settings->setValue ("Reference", ui->widePlot->Reference());
m_settings->setValue ("BinsPerPixel", ui->widePlot->binsPerPixel ());
m_settings->setValue ("StartFreq", ui->widePlot->startFreq ());
m_settings->setValue ("WaterfallPalette", m_waterfallPalette);
m_settings->setValue ("UserPalette", QVariant::fromValue (m_userPalette.colours ()));
m_settings->setValue("Flatten",m_bFlatten);
m_settings->setValue("UseRef",m_bRef);
m_settings->setValue ("HideControls", ui->controls_widget->isHidden ());
m_settings->setValue ("FminPerBand", m_fMinPerBand);
}
void WideGraph::drawRed(int ia, int ib)
{
ui->widePlot->drawRed(ia,ib,swide);
}
void WideGraph::dataSink2(float s[], float df3, int ihsym, int ndiskdata) //dataSink2
{
static float splot[NSMAX];
int nbpp = ui->widePlot->binsPerPixel();
//Average spectra over specified number, m_waterfallAvg
if (m_n==0) {
for (int i=0; i<NSMAX; i++)
splot[i]=s[i];
} else {
for (int i=0; i<NSMAX; i++)
splot[i] += s[i];
}
m_n++;
if (m_n>=m_waterfallAvg) {
for (int i=0; i<NSMAX; i++)
splot[i] /= m_n; //Normalize the average
m_n=0;
int i=int(ui->widePlot->startFreq()/df3 + 0.5);
int jz=5000.0/(nbpp*df3);
if(jz>MAX_SCREENSIZE) jz=MAX_SCREENSIZE;
m_jz=jz;
for (int j=0; j<jz; j++) {
float ss=0.0;
float smax=0;
for (int k=0; k<nbpp; k++) {
float sp=splot[i++];
ss += sp;
smax=qMax(smax,sp);
}
// swide[j]=nbpp*smax;
swide[j]=nbpp*ss;
}
// Time according to this computer
qint64 ms = QDateTime::currentMSecsSinceEpoch() % 86400000;
int ntr = (ms/1000) % m_TRperiod;
if((ndiskdata && ihsym <= m_waterfallAvg) || (!ndiskdata && ntr<m_ntr0)) {
float flagValue=1.0e30;
if(m_bHaveTransmitted) flagValue=2.0e30;
for(int i=0; i<MAX_SCREENSIZE; i++) {
swide[i] = flagValue;
}
for(int i=0; i<NSMAX; i++) {
splot[i] = flagValue;
}
m_bHaveTransmitted=false;
}
m_ntr0=ntr;
ui->widePlot->draw(swide,true,false);
}
}
void WideGraph::on_bppSpinBox_valueChanged(int n) //bpp
{
ui->widePlot->setBinsPerPixel(n);
}
void WideGraph::on_waterfallAvgSpinBox_valueChanged(int n) //Navg
{
m_waterfallAvg = n;
ui->widePlot->setWaterfallAvg(n);
}
void WideGraph::keyPressEvent(QKeyEvent *e) //F11, F12
{
switch(e->key())
{
int n;
case Qt::Key_F11:
n=11;
if(e->modifiers() & Qt::ControlModifier) n+=100;
emit f11f12(n);
break;
case Qt::Key_F12:
n=12;
if(e->modifiers() & Qt::ControlModifier) n+=100;
emit f11f12(n);
break;
default:
QDialog::keyPressEvent (e);
}
}
void WideGraph::setRxFreq(int n) //setRxFreq
{
ui->widePlot->setRxFreq(n);
ui->widePlot->draw(swide,false,false);
}
int WideGraph::rxFreq() //rxFreq
{
return ui->widePlot->rxFreq();
}
int WideGraph::nStartFreq() //nStartFreq
{
return ui->widePlot->startFreq();
}
void WideGraph::wideFreezeDecode(int n) //wideFreezeDecode
{
emit freezeDecode2(n);
}
void WideGraph::setRxRange ()
{
ui->widePlot->setRxRange (Fmin ());
ui->widePlot->DrawOverlay();
ui->widePlot->update();
}
int WideGraph::Fmin() //Fmin
{
return "60m" == m_rxBand ? 0 : m_fMinPerBand.value (m_rxBand, 2500).toUInt ();
}
int WideGraph::Fmax() //Fmax
{
return std::min(5000,ui->widePlot->Fmax());
}
int WideGraph::fSpan()
{
return ui->widePlot->fSpan ();
}
void WideGraph::setPeriod(int ntrperiod, int nsps) //SetPeriod
{
m_TRperiod=ntrperiod;
m_nsps=nsps;
ui->widePlot->setNsps(ntrperiod, nsps);
}
void WideGraph::setTxFreq(int n) //setTxFreq
{
emit setXIT2(n);
ui->widePlot->setTxFreq(n);
}
void WideGraph::setMode(QString mode) //setMode
{
m_mode=mode;
ui->fSplitSpinBox->setEnabled(m_mode=="JT9+JT65");
ui->widePlot->setMode(mode);
ui->widePlot->DrawOverlay();
ui->widePlot->update();
}
void WideGraph::setSubMode(int n) //setSubMode
{
m_nSubMode=n;
ui->widePlot->setSubMode(n);
ui->widePlot->DrawOverlay();
ui->widePlot->update();
}
void WideGraph::setModeTx(QString modeTx) //setModeTx
{
m_modeTx=modeTx;
ui->widePlot->setModeTx(modeTx);
ui->widePlot->DrawOverlay();
ui->widePlot->update();
}
//Current-Cumulative-Yellow
void WideGraph::on_spec2dComboBox_currentIndexChanged(const QString &arg1)
{
ui->widePlot->setCurrent(false);
ui->widePlot->setCumulative(false);
ui->widePlot->setLinearAvg(false);
ui->widePlot->setReference(false);
ui->smoSpinBox->setEnabled(false);
if(arg1=="Current") ui->widePlot->setCurrent(true);
if(arg1=="Cumulative") ui->widePlot->setCumulative(true);
if(arg1=="Linear Avg") {
ui->widePlot->setLinearAvg(true);
ui->smoSpinBox->setEnabled(true);
}
if(arg1=="Reference") {
ui->widePlot->setReference(true);
}
replot();
}
void WideGraph::on_fSplitSpinBox_valueChanged(int n) //fSplit
{
if (m_rxBand != "60m") m_fMinPerBand[m_rxBand] = n;
setRxRange ();
}
void WideGraph::setFreq2(int rxFreq, int txFreq) //setFreq2
{
emit setFreq3(rxFreq,txFreq);
}
void WideGraph::setDialFreq(double d) //setDialFreq
{
ui->widePlot->setDialFreq(d);
}
void WideGraph::setRxBand (QString const& band)
{
m_rxBand = band;
if ("60m" == m_rxBand)
{
ui->fSplitSpinBox->setEnabled (false);
ui->fSplitSpinBox->setValue (0);
}
else
{
ui->fSplitSpinBox->setValue (m_fMinPerBand.value (band, 2500).toUInt ());
ui->fSplitSpinBox->setEnabled (m_mode=="JT9+JT65");
}
ui->widePlot->setRxBand(band);
setRxRange ();
}
void WideGraph::on_fStartSpinBox_valueChanged(int n) //fStart
{
ui->widePlot->setStartFreq(n);
}
void WideGraph::readPalette () //readPalette
{
try
{
if (user_defined == m_waterfallPalette)
{
ui->widePlot->setColours (WFPalette {m_userPalette}.interpolate ());
}
else
{
ui->widePlot->setColours (WFPalette {m_palettes_path.absoluteFilePath (m_waterfallPalette + ".pal")}.interpolate());
}
}
catch (std::exception const& e)
{
MessageBox::warning_message (this, tr ("Read Palette"), e.what ());
}
}
void WideGraph::on_paletteComboBox_activated (QString const& palette) //palette selector
{
m_waterfallPalette = palette;
readPalette();
replot();
}
void WideGraph::on_cbFlatten_toggled(bool b) //Flatten On/Off
{
m_bFlatten=b;
if(m_bRef and m_bFlatten) {
m_bRef=false;
ui->cbRef->setChecked(false);
}
ui->widePlot->setFlatten(m_bFlatten,m_bRef);
}
void WideGraph::on_cbRef_toggled(bool b)
{
m_bRef=b;
if(m_bRef and m_bFlatten) {
m_bFlatten=false;
ui->cbFlatten->setChecked(false);
}
ui->widePlot->setFlatten(m_bFlatten,m_bRef);
}
void WideGraph::on_cbControls_toggled(bool b)
{
ui->controls_widget->setVisible(b);
}
void WideGraph::on_adjust_palette_push_button_clicked (bool) //Adjust Palette
{
try
{
if (m_userPalette.design ())
{
m_waterfallPalette = user_defined;
ui->paletteComboBox->setCurrentText (m_waterfallPalette);
readPalette ();
}
}
catch (std::exception const& e)
{
MessageBox::warning_message (this, tr ("Read Palette"), e.what ());
}
}
bool WideGraph::flatten() //Flatten
{
return m_bFlatten;
}
bool WideGraph::useRef() //Flatten
{
return m_bRef;
}
void WideGraph::replot()
{
if(ui->widePlot->scaleOK()) ui->widePlot->replot();
}
void WideGraph::on_gainSlider_valueChanged(int value) //Gain
{
ui->widePlot->setPlotGain(value);
replot();
}
void WideGraph::on_zeroSlider_valueChanged(int value) //Zero
{
ui->widePlot->setPlotZero(value);
replot();
}
void WideGraph::on_gain2dSlider_valueChanged(int value) //Gain2
{
ui->widePlot->setPlot2dGain(value);
if(ui->widePlot->scaleOK ()) {
ui->widePlot->draw(swide,false,false);
if(m_mode=="QRA64") ui->widePlot->draw(swide,false,true);
}
}
void WideGraph::on_zero2dSlider_valueChanged(int value) //Zero2
{
ui->widePlot->setPlot2dZero(value);
if(ui->widePlot->scaleOK ()) {
ui->widePlot->draw(swide,false,false);
if(m_mode=="QRA64") ui->widePlot->draw(swide,false,true);
}
}
void WideGraph::setTol(int n) //setTol
{
ui->widePlot->setTol(n);
ui->widePlot->DrawOverlay();
ui->widePlot->update();
}
void WideGraph::on_smoSpinBox_valueChanged(int n)
{
m_nsmo=n;
}
int WideGraph::smoothYellow()
{
return m_nsmo;
}
void WideGraph::setWSPRtransmitted()
{
m_bHaveTransmitted=true;
}
void WideGraph::setVHF(bool bVHF)
{
ui->widePlot->setVHF(bVHF);
}
void WideGraph::on_sbPercent2dPlot_valueChanged(int n)
{
m_Percent2DScreen=n;
ui->widePlot->SetPercent2DScreen(n);
}
void WideGraph::setRedFile(QString fRed)
{
ui->widePlot->setRedFile(fRed);
}