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sdrangel/sdrbase/gui/glscopenggui.cpp
2017-05-25 20:13:34 +02:00

1530 lines
49 KiB
C++

///////////////////////////////////////////////////////////////////////////////////
// Copyright (C) 2017 F4EXB //
// written by Edouard Griffiths //
// //
// This program is free software; you can redistribute it and/or modify //
// it under the terms of the GNU General Public License as published by //
// the Free Software Foundation as version 3 of the License, or //
// //
// This program is distributed in the hope that it will be useful, //
// but WITHOUT ANY WARRANTY; without even the implied warranty of //
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the //
// GNU General Public License V3 for more details. //
// //
// You should have received a copy of the GNU General Public License //
// along with this program. If not, see <http://www.gnu.org/licenses/>. //
///////////////////////////////////////////////////////////////////////////////////
#include <QColorDialog>
#include "glscopenggui.h"
#include "glscopeng.h"
#include "ui_glscopenggui.h"
#include "util/simpleserializer.h"
const double GLScopeNGGUI::amps[11] = { 0.2, 0.1, 0.05, 0.02, 0.01, 0.005, 0.002, 0.001, 0.0005, 0.0002, 0.0001 };
GLScopeNGGUI::GLScopeNGGUI(QWidget* parent) :
QWidget(parent),
ui(new Ui::GLScopeNGGUI),
m_messageQueue(0),
m_scopeVis(0),
m_glScope(0),
m_sampleRate(0),
m_timeBase(1),
m_timeOffset(0),
m_traceLenMult(1)
{
qDebug("GLScopeNGGUI::GLScopeNGGUI");
setEnabled(false);
ui->setupUi(this);
ui->trigDelayFine->setMaximum(ScopeVisNG::m_traceChunkSize / 10.0);
ui->traceColor->setStyleSheet("QLabel { background-color : rgb(255,255,64); }");
m_focusedTraceColor.setRgb(255,255,64);
ui->trigColor->setStyleSheet("QLabel { background-color : rgb(0,255,0); }");
m_focusedTriggerColor.setRgb(0,255,0);
ui->traceText->setText("X");
ui->mem->setMaximum(ScopeVisNG::m_nbTraceMemories - 1);
}
GLScopeNGGUI::~GLScopeNGGUI()
{
delete ui;
}
void GLScopeNGGUI::setBuddies(MessageQueue* messageQueue, ScopeVisNG* scopeVis, GLScopeNG* glScope)
{
qDebug("GLScopeNGGUI::setBuddies");
m_messageQueue = messageQueue;
m_scopeVis = scopeVis;
m_glScope = glScope;
// initialize display combo
ui->onlyX->setChecked(true);
ui->onlyY->setChecked(false);
ui->horizontalXY->setChecked(false);
ui->verticalXY->setChecked(false);
ui->polar->setChecked(false);
ui->onlyY->setEnabled(false);
ui->horizontalXY->setEnabled(false);
ui->verticalXY->setEnabled(false);
ui->polar->setEnabled(false);
m_glScope->setDisplayMode(GLScopeNG::DisplayX);
// initialize trigger combo
ui->trigPos->setChecked(true);
ui->trigNeg->setChecked(false);
ui->trigBoth->setChecked(false);
ui->trigOneShot->setChecked(false);
ui->trigOneShot->setEnabled(false);
ui->freerun->setChecked(true);
// Add a trigger
ScopeVisNG::TriggerData triggerData;
fillTriggerData(triggerData);
m_scopeVis->addTrigger(triggerData);
// Add a trace
ScopeVisNG::TraceData traceData;
fillTraceData(traceData);
m_scopeVis->addTrace(traceData);
setEnabled(true);
connect(m_glScope, SIGNAL(sampleRateChanged(int)), this, SLOT(on_scope_sampleRateChanged(int)));
ui->traceMode->clear();
fillProjectionCombo(ui->traceMode);
ui->trigMode->clear();
fillProjectionCombo(ui->trigMode);
m_scopeVis->configure(2*m_traceLenMult*ScopeVisNG::m_traceChunkSize,
m_timeBase,
m_timeOffset*10,
(uint32_t) (m_glScope->getTraceSize() * (ui->trigPre->value()/100.0f)),
ui->freerun->isChecked());
m_scopeVis->configure(m_traceLenMult*ScopeVisNG::m_traceChunkSize,
m_timeBase,
m_timeOffset*10,
(uint32_t) (m_glScope->getTraceSize() * (ui->trigPre->value()/100.0f)),
ui->freerun->isChecked());
setTraceLenDisplay();
setTimeScaleDisplay();
setTimeOfsDisplay();
setAmpScaleDisplay();
setAmpOfsDisplay();
setTraceDelayDisplay();
}
void GLScopeNGGUI::setSampleRate(int sampleRate)
{
m_sampleRate = sampleRate;
}
void GLScopeNGGUI::on_scope_sampleRateChanged(int sampleRate)
{
//m_sampleRate = m_glScope->getSampleRate();
m_sampleRate = sampleRate;
ui->sampleRateText->setText(tr("%1\nkS/s").arg(m_sampleRate / 1000.0f, 0, 'f', 2));
setTraceLenDisplay();
setTimeScaleDisplay();
setTimeOfsDisplay();
setTraceDelayDisplay();
setTrigPreDisplay();
setTrigDelayDisplay();
}
void GLScopeNGGUI::resetToDefaults()
{
}
QByteArray GLScopeNGGUI::serialize() const
{
SimpleSerializer s(1);
// first row
s.writeS32(1, (int) m_glScope->getDisplayMode());
s.writeS32(2, ui->traceIntensity->value());
s.writeS32(3, ui->gridIntensity->value());
s.writeS32(4, ui->time->value());
s.writeS32(5, ui->timeOfs->value());
s.writeS32(6, ui->traceLen->value());
// second row - by trace
const std::vector<ScopeVisNG::TraceData>& tracesData = m_scopeVis->getTracesData();
std::vector<ScopeVisNG::TraceData>::const_iterator traceDataIt = tracesData.begin();
s.writeU32(10, (uint32_t) tracesData.size());
int i = 0;
for (; traceDataIt != tracesData.end(); ++traceDataIt, i++)
{
s.writeS32(20 + 16*i, (int) traceDataIt->m_projectionType);
s.writeU32(21 + 16*i, traceDataIt->m_ampIndex);
s.writeS32(22 + 16*i, traceDataIt->m_ofsCoarse);
s.writeS32(23 + 16*i, traceDataIt->m_ofsFine);
s.writeS32(24 + 16*i, traceDataIt->m_traceDelayCoarse);
s.writeS32(25 + 16*i, traceDataIt->m_traceDelayFine);
s.writeFloat(26 + 16*i, traceDataIt->m_traceColorR);
s.writeFloat(27 + 16*i, traceDataIt->m_traceColorG);
s.writeFloat(28 + 16*i, traceDataIt->m_traceColorB);
}
// third row - by trigger
s.writeU32(200, (uint32_t) m_scopeVis->getNbTriggers());
s.writeS32(201, ui->trigPre->value());
for (unsigned int i = 0; i < m_scopeVis->getNbTriggers(); i++)
{
const ScopeVisNG::TriggerData& triggerData = m_scopeVis->getTriggerData(i);
s.writeS32(210 + 16*i, (int) triggerData.m_projectionType);
s.writeS32(211 + 16*i, triggerData.m_triggerRepeat);
s.writeBool(212 + 16*i, triggerData.m_triggerPositiveEdge);
s.writeBool(213 + 16*i, triggerData.m_triggerBothEdges);
s.writeS32(214 + 16*i, triggerData.m_triggerLevelCoarse);
s.writeS32(215 + 16*i, triggerData.m_triggerLevelFine);
s.writeS32(216 + 16*i, triggerData.m_triggerDelayCoarse);
s.writeS32(217 + 16*i, triggerData.m_triggerDelayFine);
s.writeFloat(218 + 16*i, triggerData.m_triggerColorR);
s.writeFloat(219 + 16*i, triggerData.m_triggerColorG);
s.writeFloat(220 + 16*i, triggerData.m_triggerColorB);
}
return s.final();
}
bool GLScopeNGGUI::deserialize(const QByteArray& data)
{
qDebug("GLScopeNGGUI::deserialize");
SimpleDeserializer d(data);
if(!d.isValid()) {
resetToDefaults();
return false;
}
if(d.getVersion() == 1)
{
TraceUIBlocker traceUIBlocker(ui);
TrigUIBlocker trigUIBlocker(ui);
int intValue;
uint32_t uintValue;
bool boolValue;
ui->onlyX->setEnabled(false);
ui->onlyY->setEnabled(false);
ui->horizontalXY->setEnabled(false);
ui->verticalXY->setEnabled(false);
ui->polar->setEnabled(false);
ui->traceMode->setCurrentIndex(intValue);
d.readS32(1, &intValue, (int) GLScopeNG::DisplayX);
m_glScope->setDisplayMode((GLScopeNG::DisplayMode) intValue);
ui->onlyX->setChecked(false);
ui->onlyY->setChecked(false);
ui->horizontalXY->setChecked(false);
ui->verticalXY->setChecked(false);
ui->polar->setChecked(false);
switch (m_glScope->getDisplayMode())
{
case GLScopeNG::DisplayY:
ui->onlyY->setChecked(true);
break;
case GLScopeNG::DisplayXYH:
ui->horizontalXY->setChecked(true);
break;
case GLScopeNG::DisplayXYV:
ui->verticalXY->setChecked(true);
break;
case GLScopeNG::DisplayPol:
ui->polar->setChecked(true);
break;
case GLScopeNG::DisplayX:
default:
ui->onlyX->setChecked(true);
break;
}
d.readS32(2, &intValue, 50);
ui->traceIntensity->setValue(intValue);
d.readS32(3, &intValue, 10);
ui->gridIntensity->setValue(intValue);
d.readS32(4, &intValue, 1);
ui->time->setValue(intValue);
d.readS32(5, &intValue, 0);
ui->timeOfs->setValue(intValue);
d.readS32(6, &intValue, 1);
ui->traceLen->setValue(intValue);
// trace stuff
uint32_t nbTracesSaved;
d.readU32(10, &nbTracesSaved, 1);
const std::vector<ScopeVisNG::TraceData>& tracesData = m_scopeVis->getTracesData();
uint32_t iTrace = tracesData.size();
qDebug("GLScopeNGGUI::deserialize: nbTracesSaved: %u tracesData.size(): %lu", nbTracesSaved, tracesData.size());
while (iTrace > nbTracesSaved) // remove possible traces in excess
{
m_scopeVis->removeTrace(iTrace - 1);
iTrace--;
}
for (iTrace = 0; iTrace < nbTracesSaved; iTrace++)
{
ScopeVisNG::TraceData traceData;
float r, g, b;
d.readS32(20 + 16*iTrace, &intValue, 0);
ui->traceMode->setCurrentIndex(intValue);
d.readU32(21 + 16*iTrace, &uintValue, 0);
ui->amp->setValue(uintValue);
d.readS32(22 + 16*iTrace, &intValue, 0);
ui->ofsCoarse->setValue(intValue);
d.readS32(23 + 16*iTrace, &intValue, 0);
ui->ofsFine->setValue(intValue);
d.readS32(24 + 16*iTrace, &intValue, 0);
ui->traceDelayCoarse->setValue(intValue);
d.readS32(25 + 16*iTrace, &intValue, 0);
ui->traceDelayFine->setValue(intValue);
d.readFloat(26 + 16*iTrace, &r, 1.0f);
d.readFloat(27 + 16*iTrace, &g, 1.0f);
d.readFloat(28 + 16*iTrace, &b, 1.0f);
m_focusedTraceColor.setRgbF(r, g, b);
fillTraceData(traceData);
if (iTrace < tracesData.size()) // change existing traces
{
m_scopeVis->changeTrace(traceData, iTrace);
}
else // add new traces
{
m_scopeVis->addTrace(traceData);
}
}
ui->trace->setMaximum(nbTracesSaved-1);
ui->trace->setValue(nbTracesSaved-1);
m_glScope->setFocusedTraceIndex(nbTracesSaved-1);
int r,g,b,a;
m_focusedTraceColor.getRgb(&r, &g, &b, &a);
ui->traceColor->setStyleSheet(tr("QLabel { background-color : rgb(%1,%2,%3); }").arg(r).arg(g).arg(b));
setTraceIndexDisplay();
setAmpScaleDisplay();
setAmpOfsDisplay();
setTraceDelayDisplay();
ui->onlyX->setEnabled(true);
ui->onlyY->setEnabled(nbTracesSaved > 1);
ui->horizontalXY->setEnabled(nbTracesSaved > 1);
ui->verticalXY->setEnabled(nbTracesSaved > 1);
ui->polar->setEnabled(nbTracesSaved > 1);
// trigger stuff
uint32_t nbTriggersSaved;
d.readU32(200, &nbTriggersSaved, 1);
uint32_t nbTriggers = m_scopeVis->getNbTriggers();
uint32_t iTrigger = nbTriggers;
d.readS32(201, &intValue, 0);
ui->trigPre->setValue(intValue);
qDebug("GLScopeNGGUI::deserialize: nbTriggersSaved: %u nbTriggers: %u", nbTriggersSaved, nbTriggers);
while (iTrigger > nbTriggersSaved) // remove possible triggers in excess
{
m_scopeVis->removeTrigger(iTrigger - 1);
iTrigger--;
}
for (iTrigger = 0; iTrigger < nbTriggersSaved; iTrigger++)
{
ScopeVisNG::TriggerData triggerData = m_scopeVis->getTriggerData(iTrigger);
float r, g, b;
d.readS32(210 + 16*iTrigger, &intValue, 0);
ui->trigMode->setCurrentIndex(intValue);
d.readS32(211 + 16*iTrigger, &intValue, 1);
ui->trigCount->setValue(intValue);
d.readBool(212 + 16*iTrigger, &boolValue, true);
ui->trigPos->setChecked(boolValue);
d.readBool(213 + 16*iTrigger, &boolValue, false);
ui->trigBoth->setChecked(boolValue);
d.readS32(214 + 16*iTrigger, &intValue, 1);
ui->trigLevelCoarse->setValue(intValue);
d.readS32(215 + 16*iTrigger, &intValue, 1);
ui->trigLevelFine->setValue(intValue);
d.readS32(216 + 16*iTrigger, &intValue, 1);
ui->trigDelayCoarse->setValue(intValue);
d.readS32(217 + 16*iTrigger, &intValue, 1);
ui->trigDelayFine->setValue(intValue);
d.readFloat(218 + 16*iTrigger, &r, 1.0f);
d.readFloat(219 + 16*iTrigger, &g, 1.0f);
d.readFloat(220 + 16*iTrigger, &b, 1.0f);
m_focusedTriggerColor.setRgbF(r, g, b);
fillTriggerData(triggerData);
if (iTrigger < nbTriggers) // change existing triggers
{
m_scopeVis->changeTrigger(triggerData, iTrigger);
}
else // add new trigers
{
m_scopeVis->addTrigger(triggerData);
}
if (iTrigger == nbTriggersSaved-1)
{
m_glScope->setFocusedTriggerData(triggerData);
}
}
ui->trig->setMaximum(nbTriggersSaved-1);
ui->trig->setValue(nbTriggersSaved-1);
m_focusedTriggerColor.getRgb(&r, &g, &b, &a);
ui->trigColor->setStyleSheet(tr("QLabel { background-color : rgb(%1,%2,%3); }").arg(r).arg(g).arg(b));
setTrigCountDisplay();
setTrigDelayDisplay();
setTrigIndexDisplay();
setTrigLevelDisplay();
setTrigPreDisplay();
return true;
}
else
{
resetToDefaults();
return false;
}
}
void GLScopeNGGUI::on_onlyX_toggled(bool checked)
{
if (checked)
{
ui->onlyY->setChecked(false);
ui->horizontalXY->setChecked(false);
ui->verticalXY->setChecked(false);
ui->polar->setChecked(false);
m_glScope->setDisplayMode(GLScopeNG::DisplayX);
}
}
void GLScopeNGGUI::on_onlyY_toggled(bool checked)
{
if (checked)
{
ui->onlyX->setChecked(false);
ui->horizontalXY->setChecked(false);
ui->verticalXY->setChecked(false);
ui->polar->setChecked(false);
m_glScope->setDisplayMode(GLScopeNG::DisplayY);
}
}
void GLScopeNGGUI::on_horizontalXY_toggled(bool checked)
{
if (checked)
{
ui->onlyX->setChecked(false);
ui->onlyY->setChecked(false);
ui->verticalXY->setChecked(false);
ui->polar->setChecked(false);
m_glScope->setDisplayMode(GLScopeNG::DisplayXYH);
}
}
void GLScopeNGGUI::on_verticalXY_toggled(bool checked)
{
if (checked)
{
ui->onlyX->setChecked(false);
ui->onlyY->setChecked(false);
ui->horizontalXY->setChecked(false);
ui->polar->setChecked(false);
m_glScope->setDisplayMode(GLScopeNG::DisplayXYV);
}
}
void GLScopeNGGUI::on_polar_toggled(bool checked)
{
if (checked)
{
ui->onlyX->setChecked(false);
ui->onlyY->setChecked(false);
ui->horizontalXY->setChecked(false);
ui->verticalXY->setChecked(false);
m_glScope->setDisplayMode(GLScopeNG::DisplayPol);
}
}
void GLScopeNGGUI::on_traceIntensity_valueChanged(int value)
{
ui->traceIntensity->setToolTip(QString("Trace intensity: %1").arg(value));
m_glScope->setDisplayTraceIntensity(value);
}
void GLScopeNGGUI::on_gridIntensity_valueChanged(int value)
{
ui->gridIntensity->setToolTip(QString("Grid intensity: %1").arg(value));
m_glScope->setDisplayGridIntensity(value);
}
void GLScopeNGGUI::on_time_valueChanged(int value)
{
m_timeBase = value;
setTimeScaleDisplay();
setTraceDelayDisplay();
m_scopeVis->configure(m_traceLenMult*ScopeVisNG::m_traceChunkSize,
m_timeBase,
m_timeOffset*10,
(uint32_t) (m_glScope->getTraceSize() * (ui->trigPre->value()/100.0f)),
ui->freerun->isChecked());
}
void GLScopeNGGUI::on_timeOfs_valueChanged(int value)
{
if ((value < 0) || (value > 100)) {
return;
}
m_timeOffset = value;
setTimeOfsDisplay();
m_scopeVis->configure(m_traceLenMult*ScopeVisNG::m_traceChunkSize,
m_timeBase,
m_timeOffset*10,
(uint32_t) (m_glScope->getTraceSize() * (ui->trigPre->value()/100.0f)),
ui->freerun->isChecked());
}
void GLScopeNGGUI::on_traceLen_valueChanged(int value)
{
if ((value < 1) || (value > 100)) {
return;
}
m_traceLenMult = value;
m_scopeVis->configure(m_traceLenMult*ScopeVisNG::m_traceChunkSize,
m_timeBase,
m_timeOffset*10,
(uint32_t) (m_glScope->getTraceSize() * (ui->trigPre->value()/100.0f)),
ui->freerun->isChecked());
setTraceLenDisplay();
setTimeScaleDisplay();
setTimeOfsDisplay();
setTrigDelayDisplay();
setTrigPreDisplay();
}
void GLScopeNGGUI::on_trace_valueChanged(int value)
{
ui->traceText->setText(value == 0 ? "X" : QString("Y%1").arg(ui->trace->value()));
ScopeVisNG::TraceData traceData;
m_scopeVis->getTraceData(traceData, value);
qDebug() << "GLScopeNGGUI::on_trace_valueChanged:"
<< " m_projectionType: " << (int) traceData.m_projectionType
<< " m_amp" << traceData.m_amp
<< " m_ofs" << traceData.m_ofs
<< " m_traceDelay" << traceData.m_traceDelay;
setTraceUI(traceData);
m_scopeVis->focusOnTrace(value);
}
void GLScopeNGGUI::on_traceAdd_clicked(bool checked __attribute__((unused)))
{
ScopeVisNG::TraceData traceData;
fillTraceData(traceData);
addTrace(traceData);
}
void GLScopeNGGUI::on_traceDel_clicked(bool checked __attribute__((unused)))
{
if (ui->trace->value() > 0) // not the X trace
{
ui->trace->setMaximum(ui->trace->maximum() - 1);
if (ui->trace->value() == 0)
{
ui->onlyX->setChecked(true);
ui->onlyY->setEnabled(false);
ui->horizontalXY->setEnabled(false);
ui->verticalXY->setEnabled(false);
ui->polar->setEnabled(false);
m_glScope->setDisplayMode(GLScopeNG::DisplayX);
}
m_scopeVis->removeTrace(ui->trace->value());
changeCurrentTrace();
}
}
void GLScopeNGGUI::on_traceUp_clicked(bool checked __attribute__((unused)))
{
if (ui->trace->maximum() > 0) // more than one trace
{
int newTraceIndex = (ui->trace->value() + 1) % (ui->trace->maximum()+1);
m_scopeVis->moveTrace(ui->trace->value(), true);
ui->trace->setValue(newTraceIndex); // follow trace
ScopeVisNG::TraceData traceData;
m_scopeVis->getTraceData(traceData, ui->trace->value());
setTraceUI(traceData);
m_scopeVis->focusOnTrace(ui->trace->value());
}
}
void GLScopeNGGUI::on_traceDown_clicked(bool checked __attribute__((unused)))
{
if (ui->trace->value() > 0) // not the X (lowest) trace
{
int newTraceIndex = (ui->trace->value() - 1) % (ui->trace->maximum()+1);
m_scopeVis->moveTrace(ui->trace->value(), false);
ui->trace->setValue(newTraceIndex); // follow trace
ScopeVisNG::TraceData traceData;
m_scopeVis->getTraceData(traceData, ui->trace->value());
setTraceUI(traceData);
m_scopeVis->focusOnTrace(ui->trace->value());
}
}
void GLScopeNGGUI::on_trig_valueChanged(int value)
{
ui->trigText->setText(tr("%1").arg(value));
ScopeVisNG::TriggerData triggerData;
m_scopeVis->getTriggerData(triggerData, value);
qDebug() << "GLScopeNGGUI::on_trig_valueChanged:"
<< " m_projectionType: " << (int) triggerData.m_projectionType
<< " m_triggerRepeat" << triggerData.m_triggerRepeat
<< " m_triggerPositiveEdge" << triggerData.m_triggerPositiveEdge
<< " m_triggerBothEdges" << triggerData.m_triggerBothEdges
<< " m_triggerLevel" << triggerData.m_triggerLevel;
setTriggerUI(triggerData);
m_scopeVis->focusOnTrigger(value);
}
void GLScopeNGGUI::on_trigAdd_clicked(bool checked __attribute__((unused)))
{
ScopeVisNG::TriggerData triggerData;
fillTriggerData(triggerData);
addTrigger(triggerData);
}
void GLScopeNGGUI::on_trigDel_clicked(bool checked __attribute__((unused)))
{
if (ui->trig->value() > 0)
{
m_scopeVis->removeTrigger(ui->trig->value());
ui->trig->setMaximum(ui->trig->maximum() - 1);
}
}
void GLScopeNGGUI::on_trigUp_clicked(bool checked __attribute__((unused)))
{
if (ui->trig->maximum() > 0) // more than one trigger
{
int newTriggerIndex = (ui->trig->value() + 1) % (ui->trig->maximum()+1);
m_scopeVis->moveTrigger(ui->trace->value(), true);
ui->trig->setValue(newTriggerIndex); // follow trigger
ScopeVisNG::TriggerData triggerData;
m_scopeVis->getTriggerData(triggerData, ui->trig->value());
setTriggerUI(triggerData);
m_scopeVis->focusOnTrigger(ui->trig->value());
}
}
void GLScopeNGGUI::on_trigDown_clicked(bool checked __attribute__((unused)))
{
if (ui->trig->value() > 0) // not the 0 (lowest) trigger
{
int newTriggerIndex = (ui->trig->value() - 1) % (ui->trig->maximum()+1);
m_scopeVis->moveTrigger(ui->trace->value(), false);
ui->trig->setValue(newTriggerIndex); // follow trigger
ScopeVisNG::TriggerData triggerData;
m_scopeVis->getTriggerData(triggerData, ui->trig->value());
setTriggerUI(triggerData);
m_scopeVis->focusOnTrigger(ui->trig->value());
}
}
void GLScopeNGGUI::on_traceMode_currentIndexChanged(int index __attribute__((unused)))
{
setAmpScaleDisplay();
setAmpOfsDisplay();
changeCurrentTrace();
}
void GLScopeNGGUI::on_amp_valueChanged(int value __attribute__((unused)))
{
setAmpScaleDisplay();
changeCurrentTrace();
}
void GLScopeNGGUI::on_ofsCoarse_valueChanged(int value __attribute__((unused)))
{
setAmpOfsDisplay();
changeCurrentTrace();
}
void GLScopeNGGUI::on_ofsFine_valueChanged(int value __attribute__((unused)))
{
setAmpOfsDisplay();
changeCurrentTrace();
}
void GLScopeNGGUI::on_traceDelayCoarse_valueChanged(int value __attribute__((unused)))
{
setTraceDelayDisplay();
changeCurrentTrace();
}
void GLScopeNGGUI::on_traceDelayFine_valueChanged(int value __attribute__((unused)))
{
setTraceDelayDisplay();
changeCurrentTrace();
}
void GLScopeNGGUI::on_traceView_toggled(bool checked __attribute__((unused)))
{
changeCurrentTrace();
}
void GLScopeNGGUI::on_traceColor_clicked()
{
QColor newColor = QColorDialog::getColor(m_focusedTraceColor);
if (newColor.isValid()) // user clicked OK and selected a color
{
m_focusedTraceColor = newColor;
int r,g,b,a;
m_focusedTraceColor.getRgb(&r, &g, &b, &a);
ui->traceColor->setStyleSheet(tr("QLabel { background-color : rgb(%1,%2,%3); }").arg(r).arg(g).arg(b));
changeCurrentTrace();
}
}
void GLScopeNGGUI::on_mem_valueChanged(int value)
{
QString text;
text.sprintf("%02d", value);
ui->memText->setText(text);
disableLiveMode(value > 0); // block trigger UI line if memory is active
m_scopeVis->setMemoryIndex(value);
}
void GLScopeNGGUI::on_trigMode_currentIndexChanged(int index __attribute__((unused)))
{
setTrigLevelDisplay();
changeCurrentTrigger();
}
void GLScopeNGGUI::on_trigCount_valueChanged(int value __attribute__((unused)))
{
setTrigCountDisplay();
changeCurrentTrigger();
}
void GLScopeNGGUI::on_trigPos_toggled(bool checked)
{
if (checked)
{
ui->trigNeg->setChecked(false);
ui->trigBoth->setChecked(false);
}
changeCurrentTrigger();
}
void GLScopeNGGUI::on_trigNeg_toggled(bool checked)
{
if (checked)
{
ui->trigPos->setChecked(false);
ui->trigBoth->setChecked(false);
}
changeCurrentTrigger();
}
void GLScopeNGGUI::on_trigBoth_toggled(bool checked)
{
if (checked)
{
ui->trigNeg->setChecked(false);
ui->trigPos->setChecked(false);
}
changeCurrentTrigger();
}
void GLScopeNGGUI::on_trigLevelCoarse_valueChanged(int value __attribute__((unused)))
{
setTrigLevelDisplay();
changeCurrentTrigger();
}
void GLScopeNGGUI::on_trigLevelFine_valueChanged(int value __attribute__((unused)))
{
setTrigLevelDisplay();
changeCurrentTrigger();
}
void GLScopeNGGUI::on_trigDelayCoarse_valueChanged(int value __attribute__((unused)))
{
setTrigDelayDisplay();
changeCurrentTrigger();
}
void GLScopeNGGUI::on_trigDelayFine_valueChanged(int value __attribute__((unused)))
{
setTrigDelayDisplay();
changeCurrentTrigger();
}
void GLScopeNGGUI::on_trigPre_valueChanged(int value __attribute__((unused)))
{
setTrigPreDisplay();
m_scopeVis->configure(m_traceLenMult*ScopeVisNG::m_traceChunkSize,
m_timeBase,
m_timeOffset*10,
(uint32_t) (m_glScope->getTraceSize() * (ui->trigPre->value()/100.0f)),
ui->freerun->isChecked());
}
void GLScopeNGGUI::on_trigColor_clicked()
{
QColor newColor = QColorDialog::getColor(m_focusedTriggerColor);
if (newColor.isValid()) // user clicked "OK"
{
m_focusedTriggerColor = newColor;
int r,g,b,a;
m_focusedTriggerColor.getRgb(&r, &g, &b, &a);
ui->trigColor->setStyleSheet(tr("QLabel { background-color : rgb(%1,%2,%3); }").arg(r).arg(g).arg(b));
changeCurrentTrigger();
}
}
void GLScopeNGGUI::on_trigOneShot_toggled(bool checked)
{
m_scopeVis->setOneShot(checked);
}
void GLScopeNGGUI::on_freerun_toggled(bool checked)
{
if (checked)
{
ui->trigOneShot->setChecked(false);
ui->trigOneShot->setEnabled(false);
}
else
{
ui->trigOneShot->setEnabled(true);
}
m_scopeVis->configure(m_traceLenMult*ScopeVisNG::m_traceChunkSize,
m_timeBase,
m_timeOffset*10,
(uint32_t) (m_glScope->getTraceSize() * (ui->trigPre->value()/100.0f)),
ui->freerun->isChecked());
}
void GLScopeNGGUI::setTraceIndexDisplay()
{
ui->traceText->setText(ui->trace->value() == 0 ? "X" : QString("Y%1").arg(ui->trace->value()));
}
void GLScopeNGGUI::setTrigCountDisplay()
{
QString text;
text.sprintf("%02d", ui->trigCount->value());
ui->trigCountText->setText(text);
}
void GLScopeNGGUI::setTimeScaleDisplay()
{
m_sampleRate = m_glScope->getSampleRate();
unsigned int n_samples = (m_glScope->getTraceSize() * 1.0) / (double) m_timeBase;
double t = (m_glScope->getTraceSize() * 1.0 / m_sampleRate) / (double) m_timeBase;
if (n_samples < 1000) {
ui->timeText->setToolTip(tr("%1 S").arg(n_samples));
} else if (n_samples < 1000000) {
ui->timeText->setToolTip(tr("%1 kS").arg(n_samples/1000.0));
} else {
ui->timeText->setToolTip(tr("%1 MS").arg(n_samples/1000000.0));
}
if(t < 0.000001)
{
t = round(t * 100000000000.0) / 100.0;
ui->timeText->setText(tr("%1\nns").arg(t));
}
else if(t < 0.001)
{
t = round(t * 100000000.0) / 100.0;
ui->timeText->setText(tr("%1\nµs").arg(t));
}
else if(t < 1.0)
{
t = round(t * 100000.0) / 100.0;
ui->timeText->setText(tr("%1\nms").arg(t));
}
else
{
t = round(t * 100.0) / 100.0;
ui->timeText->setText(tr("%1\ns").arg(t));
}
}
void GLScopeNGGUI::setTraceLenDisplay()
{
unsigned int n_samples = m_traceLenMult * ScopeVisNG::m_traceChunkSize;
if (n_samples < 1000) {
ui->traceLenText->setToolTip(tr("%1 S").arg(n_samples));
} else if (n_samples < 1000000) {
ui->traceLenText->setToolTip(tr("%1 kS").arg(n_samples/1000.0));
} else {
ui->traceLenText->setToolTip(tr("%1 MS").arg(n_samples/1000000.0));
}
m_sampleRate = m_glScope->getSampleRate();
double t = (m_glScope->getTraceSize() * 1.0 / m_sampleRate);
if(t < 0.000001)
ui->traceLenText->setText(tr("%1\nns").arg(t * 1000000000.0, 0, 'f', 2));
else if(t < 0.001)
ui->traceLenText->setText(tr("%1\nµs").arg(t * 1000000.0, 0, 'f', 2));
else if(t < 1.0)
ui->traceLenText->setText(tr("%1\nms").arg(t * 1000.0, 0, 'f', 2));
else
ui->traceLenText->setText(tr("%1\ns").arg(t * 1.0, 0, 'f', 2));
}
void GLScopeNGGUI::setTimeOfsDisplay()
{
unsigned int n_samples = m_glScope->getTraceSize() * (m_timeOffset/100.0);
double dt = m_glScope->getTraceSize() * (m_timeOffset/100.0) / m_sampleRate;
if (n_samples < 1000) {
ui->timeOfsText->setToolTip(tr("%1 S").arg(n_samples));
} else if (n_samples < 1000000) {
ui->timeOfsText->setToolTip(tr("%1 kS").arg(n_samples/1000.0));
} else {
ui->timeOfsText->setToolTip(tr("%1 MS").arg(n_samples/1000000.0));
}
if(dt < 0.000001)
ui->timeOfsText->setText(tr("%1\nns").arg(dt * 1000000000.0, 0, 'f', 2));
else if(dt < 0.001)
ui->timeOfsText->setText(tr("%1\nµs").arg(dt * 1000000.0, 0, 'f', 2));
else if(dt < 1.0)
ui->timeOfsText->setText(tr("%1\nms").arg(dt * 1000.0, 0, 'f', 2));
else
ui->timeOfsText->setText(tr("%1\ns").arg(dt * 1.0, 0, 'f', 2));
}
void GLScopeNGGUI::setAmpScaleDisplay()
{
ScopeVisNG::ProjectionType projectionType = (ScopeVisNG::ProjectionType) ui->traceMode->currentIndex();
double ampValue = amps[ui->amp->value()];
if (projectionType == ScopeVisNG::ProjectionMagDB)
{
double displayValue = ampValue*500.0f;
if (displayValue < 10.0f) {
ui->ampText->setText(tr("%1\ndB").arg(displayValue, 0, 'f', 2));
}
else {
ui->ampText->setText(tr("%1\ndB").arg(displayValue, 0, 'f', 1));
}
}
else
{
double a = ampValue*10.0f;
if(a < 0.000001)
ui->ampText->setText(tr("%1\nn").arg(a * 1000000000.0));
else if(a < 0.001)
ui->ampText->setText(tr("%1\nµ").arg(a * 1000000.0));
else if(a < 1.0)
ui->ampText->setText(tr("%1\nm").arg(a * 1000.0));
else
ui->ampText->setText(tr("%1").arg(a * 1.0));
}
}
void GLScopeNGGUI::setAmpOfsDisplay()
{
ScopeVisNG::ProjectionType projectionType = (ScopeVisNG::ProjectionType) ui->traceMode->currentIndex();
double o = (ui->ofsCoarse->value() * 10.0f) + (ui->ofsFine->value() / 20.0f);
if (projectionType == ScopeVisNG::ProjectionMagDB)
{
ui->ofsText->setText(tr("%1\ndB").arg(o/10.0f - 100.0f, 0, 'f', 1));
}
else
{
double a;
if (projectionType == ScopeVisNG::ProjectionMagLin)
{
a = o/2000.0f;
}
else
{
a = o/1000.0f;
}
if(fabs(a) < 0.000001f)
ui->ofsText->setText(tr("%1\nn").arg(a * 1000000000.0));
else if(fabs(a) < 0.001f)
ui->ofsText->setText(tr("%1\nµ").arg(a * 1000000.0));
else if(fabs(a) < 1.0f)
ui->ofsText->setText(tr("%1\nm").arg(a * 1000.0));
else
ui->ofsText->setText(tr("%1").arg(a * 1.0));
}
}
void GLScopeNGGUI::setTraceDelayDisplay()
{
if (m_sampleRate > 0)
{
int n_samples = ui->traceDelayCoarse->value()*100 + ui->traceDelayFine->value();
double t = ((double) n_samples) / m_sampleRate;
if (n_samples < 1000) {
ui->traceDelayText->setToolTip(tr("%1 S").arg(n_samples));
} else if (n_samples < 1000000) {
ui->traceDelayText->setToolTip(tr("%1 kS").arg(n_samples/1000.0));
} else {
ui->traceDelayText->setToolTip(tr("%1 MS").arg(n_samples/1000000.0));
}
if(t < 0.000001)
ui->traceDelayText->setText(tr("%1\nns").arg(t * 1000000000.0, 0, 'f', 2));
else if(t < 0.001)
ui->traceDelayText->setText(tr("%1\nµs").arg(t * 1000000.0, 0, 'f', 2));
else if(t < 1.0)
ui->traceDelayText->setText(tr("%1\nms").arg(t * 1000.0, 0, 'f', 2));
else
ui->traceDelayText->setText(tr("%1\ns").arg(t * 1.0, 0, 'f', 2));
}
}
void GLScopeNGGUI::setTrigIndexDisplay()
{
ui->trigText->setText(tr("%1").arg(ui->trig->value()));
}
void GLScopeNGGUI::setTrigLevelDisplay()
{
double t = (ui->trigLevelCoarse->value() / 100.0f) + (ui->trigLevelFine->value() / 20000.0f);
ScopeVisNG::ProjectionType projectionType = (ScopeVisNG::ProjectionType) ui->trigMode->currentIndex();
ui->trigLevelCoarse->setToolTip(QString("Trigger level coarse: %1 %").arg(ui->trigLevelCoarse->value() / 100.0f));
ui->trigLevelFine->setToolTip(QString("Trigger level fine: %1 ppm").arg(ui->trigLevelFine->value() * 50));
if (projectionType == ScopeVisNG::ProjectionMagDB) {
ui->trigLevelText->setText(tr("%1\ndB").arg(100.0 * (t - 1.0), 0, 'f', 1));
}
else
{
double a;
if (projectionType == ScopeVisNG::ProjectionMagLin) {
a = 1.0 + t;
} else {
a = t;
}
if(fabs(a) < 0.000001)
ui->trigLevelText->setText(tr("%1\nn").arg(a * 1000000000.0f, 0, 'f', 2));
else if(fabs(a) < 0.001)
ui->trigLevelText->setText(tr("%1\nµ").arg(a * 1000000.0f, 0, 'f', 2));
else if(fabs(a) < 1.0)
ui->trigLevelText->setText(tr("%1\nm").arg(a * 1000.0f, 0, 'f', 2));
else
ui->trigLevelText->setText(tr("%1").arg(a * 1.0f, 0, 'f', 2));
}
}
void GLScopeNGGUI::setTrigDelayDisplay()
{
if (m_sampleRate > 0)
{
double delayMult = ui->trigDelayCoarse->value() + ui->trigDelayFine->value() / (ScopeVisNG::m_traceChunkSize / 10.0);
unsigned int n_samples_delay = m_traceLenMult * ScopeVisNG::m_traceChunkSize * delayMult;
if (n_samples_delay < 1000) {
ui->trigDelayText->setToolTip(tr("%1 S").arg(n_samples_delay));
} else if (n_samples_delay < 1000000) {
ui->trigDelayText->setToolTip(tr("%1 kS").arg(n_samples_delay/1000.0));
} else if (n_samples_delay < 1000000000) {
ui->trigDelayText->setToolTip(tr("%1 MS").arg(n_samples_delay/1000000.0));
} else {
ui->trigDelayText->setToolTip(tr("%1 GS").arg(n_samples_delay/1000000000.0));
}
m_sampleRate = m_glScope->getSampleRate();
double t = (n_samples_delay * 1.0f / m_sampleRate);
if(t < 0.000001)
ui->trigDelayText->setText(tr("%1\nns").arg(t * 1000000000.0, 0, 'f', 2));
else if(t < 0.001)
ui->trigDelayText->setText(tr("%1\nµs").arg(t * 1000000.0, 0, 'f', 2));
else if(t < 1.0)
ui->trigDelayText->setText(tr("%1\nms").arg(t * 1000.0, 0, 'f', 2));
else
ui->trigDelayText->setText(tr("%1\ns").arg(t * 1.0, 0, 'f', 2));
}
}
void GLScopeNGGUI::setTrigPreDisplay()
{
if (m_sampleRate > 0)
{
unsigned int n_samples_delay = m_glScope->getTraceSize() * (ui->trigPre->value()/100.0f);
double dt = m_glScope->getTraceSize() * (ui->trigPre->value()/100.0f) / m_sampleRate;
if (n_samples_delay < 1000) {
ui->trigPreText->setToolTip(tr("%1 S").arg(n_samples_delay));
} else if (n_samples_delay < 1000000) {
ui->trigPreText->setToolTip(tr("%1 kS").arg(n_samples_delay/1000.0));
} else if (n_samples_delay < 1000000000) {
ui->trigPreText->setToolTip(tr("%1 MS").arg(n_samples_delay/1000000.0));
} else {
ui->trigPreText->setToolTip(tr("%1 GS").arg(n_samples_delay/1000000000.0));
}
if(dt < 0.000001)
ui->trigPreText->setText(tr("%1\nns").arg(dt * 1000000000.0f, 0, 'f', 2));
else if(dt < 0.001)
ui->trigPreText->setText(tr("%1\nµs").arg(dt * 1000000.0f, 0, 'f', 2));
else if(dt < 1.0)
ui->trigPreText->setText(tr("%1\nms").arg(dt * 1000.0f, 0, 'f', 2));
else
ui->trigPreText->setText(tr("%1\ns").arg(dt * 1.0f, 0, 'f', 2));
}
}
void GLScopeNGGUI::changeCurrentTrace()
{
ScopeVisNG::TraceData traceData;
fillTraceData(traceData);
uint32_t currentTraceIndex = ui->trace->value();
m_scopeVis->changeTrace(traceData, currentTraceIndex);
}
void GLScopeNGGUI::changeCurrentTrigger()
{
ScopeVisNG::TriggerData triggerData;
fillTriggerData(triggerData);
uint32_t currentTriggerIndex = ui->trig->value();
m_scopeVis->changeTrigger(triggerData, currentTriggerIndex);
}
void GLScopeNGGUI::fillProjectionCombo(QComboBox* comboBox)
{
comboBox->addItem("Real", ScopeVisNG::ProjectionReal);
comboBox->addItem("Imag", ScopeVisNG::ProjectionImag);
comboBox->addItem("Mag", ScopeVisNG::ProjectionMagLin);
comboBox->addItem("MagdB", ScopeVisNG::ProjectionMagDB);
comboBox->addItem("Phi", ScopeVisNG::ProjectionPhase);
comboBox->addItem("dPhi", ScopeVisNG::ProjectionDPhase);
}
void GLScopeNGGUI::disableLiveMode(bool disable)
{
ui->traceLen->setEnabled(!disable);
ui->trig->setEnabled(!disable);
ui->trigAdd->setEnabled(!disable);
ui->trigDel->setEnabled(!disable);
ui->trigMode->setEnabled(!disable);
ui->trigCount->setEnabled(!disable);
ui->trigPos->setEnabled(!disable);
ui->trigNeg->setEnabled(!disable);
ui->trigBoth->setEnabled(!disable);
ui->trigLevelCoarse->setEnabled(!disable);
ui->trigLevelFine->setEnabled(!disable);
ui->trigDelayCoarse->setEnabled(!disable);
ui->trigDelayFine->setEnabled(!disable);
ui->trigPre->setEnabled(!disable);
ui->trigOneShot->setEnabled(!disable);
ui->freerun->setEnabled(!disable);
}
void GLScopeNGGUI::fillTraceData(ScopeVisNG::TraceData& traceData)
{
traceData.m_projectionType = (ScopeVisNG::ProjectionType) ui->traceMode->currentIndex();
traceData.m_hasTextOverlay = (traceData.m_projectionType == ScopeVisNG::ProjectionMagDB);
traceData.m_textOverlay.clear();
traceData.m_inputIndex = 0;
traceData.m_amp = 0.2 / amps[ui->amp->value()];
traceData.m_ampIndex = ui->amp->value();
traceData.m_ofsCoarse = ui->ofsCoarse->value();
traceData.m_ofsFine = ui->ofsFine->value();
if (traceData.m_projectionType == ScopeVisNG::ProjectionMagLin) {
traceData.m_ofs = ((10.0 * ui->ofsCoarse->value()) + (ui->ofsFine->value() / 20.0)) / 2000.0f;
} else {
traceData.m_ofs = ((10.0 * ui->ofsCoarse->value()) + (ui->ofsFine->value() / 20.0)) / 1000.0f;
}
traceData.m_traceDelayCoarse = ui->traceDelayCoarse->value();
traceData.m_traceDelayFine = ui->traceDelayFine->value();
traceData.m_traceDelay = traceData.m_traceDelayCoarse * 100 + traceData.m_traceDelayFine;
traceData.setColor(m_focusedTraceColor);
traceData.m_viewTrace = ui->traceView->isChecked();
}
void GLScopeNGGUI::fillTriggerData(ScopeVisNG::TriggerData& triggerData)
{
triggerData.m_projectionType = (ScopeVisNG::ProjectionType) ui->trigMode->currentIndex();
triggerData.m_inputIndex = 0;
triggerData.m_triggerLevel = (ui->trigLevelCoarse->value() / 100.0) + (ui->trigLevelFine->value() / 20000.0);
triggerData.m_triggerLevelCoarse = ui->trigLevelCoarse->value();
triggerData.m_triggerLevelFine = ui->trigLevelFine->value();
triggerData.m_triggerPositiveEdge = ui->trigPos->isChecked();
triggerData.m_triggerBothEdges = ui->trigBoth->isChecked();
triggerData.m_triggerRepeat = ui->trigCount->value();
triggerData.m_triggerDelayMult = ui->trigDelayCoarse->value() + ui->trigDelayFine->value() / (ScopeVisNG::m_traceChunkSize / 10.0);
triggerData.m_triggerDelay = (int) (m_traceLenMult * ScopeVisNG::m_traceChunkSize * triggerData.m_triggerDelayMult);
triggerData.m_triggerDelayCoarse = ui->trigDelayCoarse->value();
triggerData.m_triggerDelayFine = ui->trigDelayFine->value();
triggerData.setColor(m_focusedTriggerColor);
}
void GLScopeNGGUI::setTraceUI(const ScopeVisNG::TraceData& traceData)
{
TraceUIBlocker traceUIBlocker(ui);
ui->traceMode->setCurrentIndex((int) traceData.m_projectionType);
ui->amp->setValue(traceData.m_ampIndex);
setAmpScaleDisplay();
ui->ofsCoarse->setValue(traceData.m_ofsCoarse);
ui->ofsFine->setValue(traceData.m_ofsFine);
setAmpOfsDisplay();
ui->traceDelayCoarse->setValue(traceData.m_traceDelayCoarse);
ui->traceDelayFine->setValue(traceData.m_traceDelayFine);
setTraceDelayDisplay();
m_focusedTraceColor = traceData.m_traceColor;
int r, g, b, a;
m_focusedTraceColor.getRgb(&r, &g, &b, &a);
ui->traceColor->setStyleSheet(tr("QLabel { background-color : rgb(%1,%2,%3); }").arg(r).arg(g).arg(b));
ui->traceView->setChecked(traceData.m_viewTrace);
}
void GLScopeNGGUI::setTriggerUI(const ScopeVisNG::TriggerData& triggerData)
{
TrigUIBlocker trigUIBlocker(ui);
ui->trigMode->setCurrentIndex((int) triggerData.m_projectionType);
ui->trigCount->setValue(triggerData.m_triggerRepeat);
setTrigCountDisplay();
ui->trigPos->setChecked(false);
ui->trigNeg->setChecked(false);
ui->trigPos->doToggle(false);
ui->trigNeg->doToggle(false);
if (triggerData.m_triggerBothEdges)
{
ui->trigBoth->setChecked(true);
ui->trigBoth->doToggle(true);
}
else
{
ui->trigBoth->setChecked(false);
ui->trigBoth->doToggle(false);
if (triggerData.m_triggerPositiveEdge)
{
ui->trigPos->setChecked(true);
ui->trigPos->doToggle(true);
}
else
{
ui->trigNeg->setChecked(true);
ui->trigNeg->doToggle(true);
}
}
ui->trigLevelCoarse->setValue(triggerData.m_triggerLevelCoarse);
ui->trigLevelFine->setValue(triggerData.m_triggerLevelFine);
setTrigLevelDisplay();
ui->trigDelayCoarse->setValue(triggerData.m_triggerDelayCoarse);
ui->trigDelayFine->setValue(triggerData.m_triggerDelayFine);
setTrigDelayDisplay();
m_focusedTriggerColor = triggerData.m_triggerColor;
int r, g, b, a;
m_focusedTriggerColor.getRgb(&r, &g, &b, &a);
ui->trigColor->setStyleSheet(tr("QLabel { background-color : rgb(%1,%2,%3); }").arg(r).arg(g).arg(b));
}
void GLScopeNGGUI::applySettings()
{
}
bool GLScopeNGGUI::handleMessage(Message* message __attribute__((unused)))
{
return false;
}
GLScopeNGGUI::TrigUIBlocker::TrigUIBlocker(Ui::GLScopeNGGUI *ui) :
m_ui(ui)
{
m_oldStateTrigMode = ui->trigMode->blockSignals(true);
m_oldStateTrigCount = ui->trigCount->blockSignals(true);
m_oldStateTrigPos = ui->trigPos->blockSignals(true);
m_oldStateTrigNeg = ui->trigNeg->blockSignals(true);
m_oldStateTrigBoth = ui->trigBoth->blockSignals(true);
m_oldStateTrigLevelCoarse = ui->trigLevelCoarse->blockSignals(true);
m_oldStateTrigLevelFine = ui->trigLevelFine->blockSignals(true);
m_oldStateTrigDelayCoarse = ui->trigDelayCoarse->blockSignals(true);
m_oldStateTrigDelayFine = ui->trigDelayFine->blockSignals(true);
}
GLScopeNGGUI::TrigUIBlocker::~TrigUIBlocker()
{
unBlock();
}
void GLScopeNGGUI::TrigUIBlocker::unBlock()
{
m_ui->trigMode->blockSignals(m_oldStateTrigMode);
m_ui->trigCount->blockSignals(m_oldStateTrigCount);
m_ui->trigPos->blockSignals(m_oldStateTrigPos);
m_ui->trigNeg->blockSignals(m_oldStateTrigNeg);
m_ui->trigBoth->blockSignals(m_oldStateTrigBoth);
m_ui->trigLevelCoarse->blockSignals(m_oldStateTrigLevelCoarse);
m_ui->trigLevelFine->blockSignals(m_oldStateTrigLevelFine);
m_ui->trigDelayCoarse->blockSignals(m_oldStateTrigDelayCoarse);
m_ui->trigDelayFine->blockSignals(m_oldStateTrigDelayFine);
}
GLScopeNGGUI::TraceUIBlocker::TraceUIBlocker(Ui::GLScopeNGGUI* ui) :
m_ui(ui)
{
m_oldStateTrace = m_ui->trace->blockSignals(true);
m_oldStateTraceAdd = m_ui->traceAdd->blockSignals(true);
m_oldStateTraceDel = m_ui->traceDel->blockSignals(true);
m_oldStateTraceMode = m_ui->traceMode->blockSignals(true);
m_oldStateAmp = m_ui->amp->blockSignals(true);
m_oldStateOfsCoarse = m_ui->ofsCoarse->blockSignals(true);
m_oldStateOfsFine = m_ui->ofsFine->blockSignals(true);
m_oldStateTraceDelayCoarse = m_ui->traceDelayCoarse->blockSignals(true);
m_oldStateTraceDelayFine = m_ui->traceDelayFine->blockSignals(true);
m_oldStateTraceColor = m_ui->traceColor->blockSignals(true);
}
GLScopeNGGUI::TraceUIBlocker::~TraceUIBlocker()
{
unBlock();
}
void GLScopeNGGUI::TraceUIBlocker::unBlock()
{
m_ui->trace->blockSignals(m_oldStateTrace);
m_ui->traceAdd->blockSignals(m_oldStateTraceAdd);
m_ui->traceDel->blockSignals(m_oldStateTraceDel);
m_ui->traceMode->blockSignals(m_oldStateTraceMode);
m_ui->amp->blockSignals(m_oldStateAmp);
m_ui->ofsCoarse->blockSignals(m_oldStateOfsCoarse);
m_ui->ofsFine->blockSignals(m_oldStateOfsFine);
m_ui->traceDelayCoarse->blockSignals(m_oldStateTraceDelayCoarse);
m_ui->traceDelayFine->blockSignals(m_oldStateTraceDelayFine);
m_ui->traceColor->blockSignals(m_oldStateTraceColor);
}
GLScopeNGGUI::MainUIBlocker::MainUIBlocker(Ui::GLScopeNGGUI* ui) :
m_ui(ui)
{
m_oldStateOnlyX = m_ui->onlyX->blockSignals(true);
m_oldStateOnlyY = m_ui->onlyY->blockSignals(true);
m_oldStateHorizontalXY = m_ui->horizontalXY->blockSignals(true);
m_oldStateVerticalXY = m_ui->verticalXY->blockSignals(true);
m_oldStatePolar = m_ui->polar->blockSignals(true);
// m_oldStateTime = m_ui->time->blockSignals(true);
// m_oldStateTimeOfs = m_ui->timeOfs->blockSignals(true);
// m_oldStateTraceLen = m_ui->traceLen->blockSignals(true);
}
GLScopeNGGUI::MainUIBlocker::~MainUIBlocker()
{
unBlock();
}
void GLScopeNGGUI::MainUIBlocker::unBlock()
{
m_ui->onlyX->blockSignals(m_oldStateOnlyX);
m_ui->onlyY->blockSignals(m_oldStateOnlyY);
m_ui->horizontalXY->blockSignals(m_oldStateHorizontalXY);
m_ui->verticalXY->blockSignals(m_oldStateVerticalXY);
m_ui->polar->blockSignals(m_oldStatePolar);
// m_ui->time->blockSignals(m_oldStateTime);
// m_ui->timeOfs->blockSignals(m_oldStateTimeOfs);
// m_ui->traceLen->blockSignals(m_oldStateTraceLen);
}
void GLScopeNGGUI::setDisplayMode(DisplayMode displayMode)
{
if (ui->trace->maximum() == 0)
{
ui->onlyX->setChecked(true);
}
else
{
switch (displayMode)
{
case DisplayX:
ui->onlyX->setChecked(true);
break;
case DisplayY:
ui->onlyY->setChecked(true);
break;
case DisplayXYH:
ui->horizontalXY->setChecked(true);
break;
case DisplayXYV:
ui->verticalXY->setChecked(true);
break;
case DisplayPol:
ui->polar->setChecked(true);
break;
default:
ui->onlyX->setChecked(true);
break;
}
}
}
void GLScopeNGGUI::setTraceIntensity(int value)
{
if ((value < ui->traceIntensity->minimum()) || (value > ui->traceIntensity->maximum())) {
return;
}
ui->traceIntensity->setValue(value);
}
void GLScopeNGGUI::setGridIntensity(int value)
{
if ((value < ui->gridIntensity->minimum()) || (value > ui->gridIntensity->maximum())) {
return;
}
ui->gridIntensity->setValue(value);
}
void GLScopeNGGUI::setTimeBase(int step)
{
if ((step < ui->time->minimum()) || (step > ui->time->maximum())) {
return;
}
ui->time->setValue(step);
}
void GLScopeNGGUI::setTimeOffset(int step)
{
if ((step < ui->timeOfs->minimum()) || (step > ui->timeOfs->maximum())) {
return;
}
ui->timeOfs->setValue(step);
}
void GLScopeNGGUI::setTraceLength(int step)
{
if ((step < ui->traceLen->minimum()) || (step > ui->traceLen->maximum())) {
return;
}
ui->traceLen->setValue(step);
}
void GLScopeNGGUI::setPreTrigger(int step)
{
if ((step < ui->trigPre->minimum()) || (step > ui->trigPre->maximum())) {
return;
}
ui->trigPre->setValue(step);
}
void GLScopeNGGUI::changeTrace(int traceIndex, const ScopeVisNG::TraceData& traceData)
{
m_scopeVis->changeTrace(traceData, traceIndex);
}
void GLScopeNGGUI::addTrace(const ScopeVisNG::TraceData& traceData)
{
if (ui->trace->maximum() < 3)
{
if (ui->trace->value() == 0)
{
ui->onlyY->setEnabled(true);
ui->horizontalXY->setEnabled(true);
ui->verticalXY->setEnabled(true);
ui->polar->setEnabled(true);
}
m_scopeVis->addTrace(traceData);
ui->trace->setMaximum(ui->trace->maximum() + 1);
}
}
void GLScopeNGGUI::focusOnTrace(int traceIndex)
{
on_trace_valueChanged(traceIndex);
}
void GLScopeNGGUI::changeTrigger(int triggerIndex, const ScopeVisNG::TriggerData& triggerData)
{
m_scopeVis->changeTrigger(triggerData, triggerIndex);
}
void GLScopeNGGUI::addTrigger(const ScopeVisNG::TriggerData& triggerData)
{
if (ui->trig->maximum() < 9)
{
m_scopeVis->addTrigger(triggerData);
ui->trig->setMaximum(ui->trig->maximum() + 1);
}
}
void GLScopeNGGUI::focusOnTrigger(int triggerIndex)
{
on_trig_valueChanged(triggerIndex);
}