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sdrangel/plugins/samplemimo/testmi/testmigui.cpp

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///////////////////////////////////////////////////////////////////////////////////
// Copyright (C) 2019 Edouard Griffiths, F4EXB //
// //
// 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 //
// (at your option) any later version. //
// //
// 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 <QDebug>
#include <QTime>
#include <QDateTime>
#include <QString>
#include <QMessageBox>
#include "plugin/pluginapi.h"
#include "device/deviceapi.h"
#include "device/deviceuiset.h"
#include "gui/colormapper.h"
#include "gui/glspectrum.h"
#include "gui/crightclickenabler.h"
#include "gui/basicdevicesettingsdialog.h"
#include "dsp/dspengine.h"
#include "dsp/dspdevicemimoengine.h"
#include "dsp/dspcommands.h"
#include "util/db.h"
#include "mainwindow.h"
#include "ui_testmigui.h"
#include "testmigui.h"
TestMIGui::TestMIGui(DeviceUISet *deviceUISet, QWidget* parent) :
QWidget(parent),
ui(new Ui::TestMIGui),
m_deviceUISet(deviceUISet),
m_settings(),
m_doApplySettings(true),
m_forceSettings(true),
m_sampleMIMO(nullptr),
m_tickCount(0),
m_lastEngineState(DeviceAPI::StNotStarted)
{
qDebug("TestMIGui::TestMIGui");
m_sampleMIMO = m_deviceUISet->m_deviceAPI->getSampleMIMO();
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m_streamIndex = 0;
ui->setupUi(this);
ui->centerFrequency->setColorMapper(ColorMapper(ColorMapper::GrayGold));
ui->centerFrequency->setValueRange(7, 0, 9999999);
ui->sampleRate->setColorMapper(ColorMapper(ColorMapper::GrayGreenYellow));
ui->sampleRate->setValueRange(7, 48000, 9999999);
ui->frequencyShift->setColorMapper(ColorMapper(ColorMapper::GrayGold));
ui->frequencyShift->setValueRange(false, 7, -9999999, 9999999);
ui->frequencyShiftLabel->setText(QString("%1").arg(QChar(0x94, 0x03)));
displaySettings();
connect(&m_updateTimer, SIGNAL(timeout()), this, SLOT(updateHardware()));
connect(&m_statusTimer, SIGNAL(timeout()), this, SLOT(updateStatus()));
m_statusTimer.start(500);
connect(&m_inputMessageQueue, SIGNAL(messageEnqueued()), this, SLOT(handleInputMessages()), Qt::QueuedConnection);
m_sampleMIMO->setMessageQueueToGUI(&m_inputMessageQueue);
CRightClickEnabler *startStopRightClickEnabler = new CRightClickEnabler(ui->startStop);
connect(startStopRightClickEnabler, SIGNAL(rightClick(const QPoint &)), this, SLOT(openDeviceSettingsDialog(const QPoint &)));
}
TestMIGui::~TestMIGui()
{
delete ui;
}
void TestMIGui::destroy()
{
delete this;
}
void TestMIGui::setName(const QString& name)
{
setObjectName(name);
}
QString TestMIGui::getName() const
{
return objectName();
}
void TestMIGui::resetToDefaults()
{
m_settings.resetToDefaults();
displaySettings();
sendSettings();
}
qint64 TestMIGui::getCenterFrequency() const
{
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return m_settings.m_streams[m_streamIndex].m_centerFrequency;
}
void TestMIGui::setCenterFrequency(qint64 centerFrequency)
{
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m_settings.m_streams[m_streamIndex].m_centerFrequency = centerFrequency;
displaySettings();
sendSettings();
}
QByteArray TestMIGui::serialize() const
{
return m_settings.serialize();
}
bool TestMIGui::deserialize(const QByteArray& data)
{
if(m_settings.deserialize(data)) {
displaySettings();
m_forceSettings = true;
sendSettings();
return true;
} else {
resetToDefaults();
return false;
}
}
void TestMIGui::on_startStop_toggled(bool checked)
{
if (m_doApplySettings)
{
TestMI::MsgStartStop *message = TestMI::MsgStartStop::create(checked);
m_sampleMIMO->getInputMessageQueue()->push(message);
}
}
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void TestMIGui::on_streamIndex_currentIndexChanged(int index)
{
m_streamIndex = index;
updateFileRecordStatus();
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displaySettings();
}
void TestMIGui::on_centerFrequency_changed(quint64 value)
{
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m_settings.m_streams[m_streamIndex].m_centerFrequency = value * 1000;
sendSettings();
}
void TestMIGui::on_autoCorr_currentIndexChanged(int index)
{
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if ((index < 0) || (index > TestMIStreamSettings::AutoCorrLast)) {
return;
}
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m_settings.m_streams[m_streamIndex].m_autoCorrOptions = (TestMIStreamSettings::AutoCorrOptions) index;
sendSettings();
}
void TestMIGui::on_frequencyShift_changed(qint64 value)
{
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m_settings.m_streams[m_streamIndex].m_frequencyShift = value;
sendSettings();
}
void TestMIGui::on_decimation_currentIndexChanged(int index)
{
if ((index < 0) || (index > 6)) {
return;
}
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m_settings.m_streams[m_streamIndex].m_log2Decim = index;
sendSettings();
}
void TestMIGui::on_fcPos_currentIndexChanged(int index)
{
if ((index < 0) || (index > 2)) {
return;
}
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m_settings.m_streams[m_streamIndex].m_fcPos = (TestMIStreamSettings::fcPos_t) index;
sendSettings();
}
void TestMIGui::on_sampleRate_changed(quint64 value)
{
updateFrequencyShiftLimit();
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m_settings.m_streams[m_streamIndex].m_frequencyShift = ui->frequencyShift->getValueNew();
m_settings.m_streams[m_streamIndex].m_sampleRate = value;
sendSettings();
}
void TestMIGui::on_sampleSize_currentIndexChanged(int index)
{
if ((index < 0) || (index > 2)) {
return;
}
updateAmpCoarseLimit();
updateAmpFineLimit();
displayAmplitude();
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m_settings.m_streams[m_streamIndex].m_amplitudeBits = ui->amplitudeCoarse->value() * 100 + ui->amplitudeFine->value();
m_settings.m_streams[m_streamIndex].m_sampleSizeIndex = index;
sendSettings();
}
void TestMIGui::on_amplitudeCoarse_valueChanged(int value)
{
(void) value;
updateAmpFineLimit();
displayAmplitude();
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m_settings.m_streams[m_streamIndex].m_amplitudeBits = ui->amplitudeCoarse->value() * 100 + ui->amplitudeFine->value();
sendSettings();
}
void TestMIGui::on_amplitudeFine_valueChanged(int value)
{
(void) value;
displayAmplitude();
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m_settings.m_streams[m_streamIndex].m_amplitudeBits = ui->amplitudeCoarse->value() * 100 + ui->amplitudeFine->value();
sendSettings();
}
void TestMIGui::on_modulation_currentIndexChanged(int index)
{
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if ((index < 0) || (index > TestMIStreamSettings::ModulationLast)) {
return;
}
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m_settings.m_streams[m_streamIndex].m_modulation = (TestMIStreamSettings::Modulation) index;
sendSettings();
}
void TestMIGui::on_modulationFrequency_valueChanged(int value)
{
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m_settings.m_streams[m_streamIndex].m_modulationTone = value;
ui->modulationFrequencyText->setText(QString("%1").arg(m_settings.m_streams[m_streamIndex].m_modulationTone / 100.0, 0, 'f', 2));
sendSettings();
}
void TestMIGui::on_amModulation_valueChanged(int value)
{
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m_settings.m_streams[m_streamIndex].m_amModulation = value;
ui->amModulationText->setText(QString("%1").arg(m_settings.m_streams[m_streamIndex].m_amModulation));
sendSettings();
}
void TestMIGui::on_fmDeviation_valueChanged(int value)
{
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m_settings.m_streams[m_streamIndex].m_fmDeviation = value;
ui->fmDeviationText->setText(QString("%1").arg(m_settings.m_streams[m_streamIndex].m_fmDeviation / 10.0, 0, 'f', 1));
sendSettings();
}
void TestMIGui::on_dcBias_valueChanged(int value)
{
ui->dcBiasText->setText(QString(tr("%1 %").arg(value)));
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m_settings.m_streams[m_streamIndex].m_dcFactor = value / 100.0f;
sendSettings();
}
void TestMIGui::on_iBias_valueChanged(int value)
{
ui->iBiasText->setText(QString(tr("%1 %").arg(value)));
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m_settings.m_streams[m_streamIndex].m_iFactor = value / 100.0f;
sendSettings();
}
void TestMIGui::on_qBias_valueChanged(int value)
{
ui->qBiasText->setText(QString(tr("%1 %").arg(value)));
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m_settings.m_streams[m_streamIndex].m_qFactor = value / 100.0f;
sendSettings();
}
void TestMIGui::on_phaseImbalance_valueChanged(int value)
{
ui->phaseImbalanceText->setText(QString(tr("%1 %").arg(value)));
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m_settings.m_streams[m_streamIndex].m_phaseImbalance = value / 100.0f;
sendSettings();
}
void TestMIGui::on_record_toggled(bool checked)
{
if (checked) {
ui->record->setStyleSheet("QToolButton { background-color : red; }");
} else {
ui->record->setStyleSheet("QToolButton { background:rgb(79,79,79); }");
}
TestMI::MsgFileRecord* message = TestMI::MsgFileRecord::create(checked, m_streamIndex);
m_sampleMIMO->getInputMessageQueue()->push(message);
}
void TestMIGui::displayAmplitude()
{
int amplitudeInt = ui->amplitudeCoarse->value() * 100 + ui->amplitudeFine->value();
double power;
switch (ui->sampleSize->currentIndex())
{
case 0: // 8 bits: 128
power = (double) amplitudeInt*amplitudeInt / (double) (1<<14);
break;
case 1: // 12 bits 2048
power = (double) amplitudeInt*amplitudeInt / (double) (1<<22);
break;
case 2: // 16 bits 32768
default:
power = (double) amplitudeInt*amplitudeInt / (double) (1<<30);
break;
}
ui->amplitudeBits->setText(QString(tr("%1 b").arg(amplitudeInt)));
double powerDb = CalcDb::dbPower(power);
ui->power->setText(QString(tr("%1 dB").arg(QString::number(powerDb, 'f', 1))));
}
void TestMIGui::updateAmpCoarseLimit()
{
switch (ui->sampleSize->currentIndex())
{
case 0: // 8 bits: 128
ui->amplitudeCoarse->setMaximum(1);
break;
case 1: // 12 bits 2048
ui->amplitudeCoarse->setMaximum(20);
break;
case 2: // 16 bits 32768
default:
ui->amplitudeCoarse->setMaximum(327);
break;
}
}
void TestMIGui::updateAmpFineLimit()
{
switch (ui->sampleSize->currentIndex())
{
case 0: // 8 bits: 128
if (ui->amplitudeCoarse->value() == 1) {
ui->amplitudeFine->setMaximum(27);
} else {
ui->amplitudeFine->setMaximum(99);
}
break;
case 1: // 12 bits 2048
if (ui->amplitudeCoarse->value() == 20) {
ui->amplitudeFine->setMaximum(47);
} else {
ui->amplitudeFine->setMaximum(99);
}
break;
case 2: // 16 bits 32768
default:
if (ui->amplitudeCoarse->value() == 327) {
ui->amplitudeFine->setMaximum(67);
} else {
ui->amplitudeFine->setMaximum(99);
}
break;
}
}
void TestMIGui::updateFrequencyShiftLimit()
{
int sampleRate = ui->sampleRate->getValueNew();
ui->frequencyShift->setValueRange(false, 7, -sampleRate, sampleRate);
}
void TestMIGui::updateFileRecordStatus()
{
if (((TestMI*) m_sampleMIMO)->isRecording(m_streamIndex)) {
ui->record->setStyleSheet("QToolButton { background-color : red; }");
} else {
ui->record->setStyleSheet("QToolButton { background:rgb(79,79,79); }");
}
}
void TestMIGui::displaySettings()
{
blockApplySettings(true);
ui->sampleSize->blockSignals(true);
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ui->streamIndex->setCurrentIndex(m_streamIndex);
ui->centerFrequency->setValue(m_settings.m_streams[m_streamIndex].m_centerFrequency / 1000);
ui->decimation->setCurrentIndex(m_settings.m_streams[m_streamIndex].m_log2Decim);
ui->fcPos->setCurrentIndex((int) m_settings.m_streams[m_streamIndex].m_fcPos);
ui->sampleRate->setValue(m_settings.m_streams[m_streamIndex].m_sampleRate);
updateFrequencyShiftLimit();
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ui->frequencyShift->setValue(m_settings.m_streams[m_streamIndex].m_frequencyShift);
ui->sampleSize->setCurrentIndex(m_settings.m_streams[m_streamIndex].m_sampleSizeIndex);
updateAmpCoarseLimit();
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int amplitudeBits = m_settings.m_streams[m_streamIndex].m_amplitudeBits;
ui->amplitudeCoarse->setValue(amplitudeBits/100);
updateAmpFineLimit();
ui->amplitudeFine->setValue(amplitudeBits%100);
displayAmplitude();
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int dcBiasPercent = roundf(m_settings.m_streams[m_streamIndex].m_dcFactor * 100.0f);
ui->dcBias->setValue((int) dcBiasPercent);
ui->dcBiasText->setText(QString(tr("%1 %").arg(dcBiasPercent)));
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int iBiasPercent = roundf(m_settings.m_streams[m_streamIndex].m_iFactor * 100.0f);
ui->iBias->setValue((int) iBiasPercent);
ui->iBiasText->setText(QString(tr("%1 %").arg(iBiasPercent)));
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int qBiasPercent = roundf(m_settings.m_streams[m_streamIndex].m_qFactor * 100.0f);
ui->qBias->setValue((int) qBiasPercent);
ui->qBiasText->setText(QString(tr("%1 %").arg(qBiasPercent)));
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int phaseImbalancePercent = roundf(m_settings.m_streams[m_streamIndex].m_phaseImbalance * 100.0f);
ui->phaseImbalance->setValue((int) phaseImbalancePercent);
ui->phaseImbalanceText->setText(QString(tr("%1 %").arg(phaseImbalancePercent)));
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ui->autoCorr->setCurrentIndex(m_settings.m_streams[m_streamIndex].m_autoCorrOptions);
ui->sampleSize->blockSignals(false);
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ui->modulation->setCurrentIndex((int) m_settings.m_streams[m_streamIndex].m_modulation);
ui->modulationFrequency->setValue(m_settings.m_streams[m_streamIndex].m_modulationTone);
ui->modulationFrequencyText->setText(QString("%1").arg(m_settings.m_streams[m_streamIndex].m_modulationTone / 100.0, 0, 'f', 2));
ui->amModulation->setValue(m_settings.m_streams[m_streamIndex].m_amModulation);
ui->amModulationText->setText(QString("%1").arg(m_settings.m_streams[m_streamIndex].m_amModulation));
ui->fmDeviation->setValue(m_settings.m_streams[m_streamIndex].m_fmDeviation);
ui->fmDeviationText->setText(QString("%1").arg(m_settings.m_streams[m_streamIndex].m_fmDeviation / 10.0, 0, 'f', 1));
blockApplySettings(false);
}
void TestMIGui::sendSettings()
{
if(!m_updateTimer.isActive()) {
m_updateTimer.start(100);
}
}
void TestMIGui::updateHardware()
{
if (m_doApplySettings)
{
TestMI::MsgConfigureTestSource* message = TestMI::MsgConfigureTestSource::create(m_settings, m_forceSettings);
m_sampleMIMO->getInputMessageQueue()->push(message);
m_forceSettings = false;
m_updateTimer.stop();
}
}
void TestMIGui::updateStatus()
{
int state = m_deviceUISet->m_deviceAPI->state();
if(m_lastEngineState != state)
{
switch(state)
{
case DeviceAPI::StNotStarted:
ui->startStop->setStyleSheet("QToolButton { background:rgb(79,79,79); }");
break;
case DeviceAPI::StIdle:
ui->startStop->setStyleSheet("QToolButton { background-color : blue; }");
break;
case DeviceAPI::StRunning:
ui->startStop->setStyleSheet("QToolButton { background-color : green; }");
break;
case DeviceAPI::StError:
ui->startStop->setStyleSheet("QToolButton { background-color : red; }");
QMessageBox::information(this, tr("Message"), m_deviceUISet->m_deviceAPI->errorMessage());
break;
default:
break;
}
m_lastEngineState = state;
}
}
bool TestMIGui::handleMessage(const Message& message)
{
if (TestMI::MsgConfigureTestSource::match(message))
{
qDebug("TestMIGui::handleMessage: MsgConfigureTestSource");
const TestMI::MsgConfigureTestSource& cfg = (TestMI::MsgConfigureTestSource&) message;
m_settings = cfg.getSettings();
displaySettings();
return true;
}
else if (TestMI::MsgStartStop::match(message))
{
qDebug("TestMIGui::handleMessage: MsgStartStop");
TestMI::MsgStartStop& notif = (TestMI::MsgStartStop&) message;
blockApplySettings(true);
ui->startStop->setChecked(notif.getStartStop());
blockApplySettings(false);
return true;
}
else
{
return false;
}
}
void TestMIGui::handleInputMessages()
{
Message* message;
while ((message = m_inputMessageQueue.pop()) != 0)
{
if (DSPDeviceMIMOEngine::SignalNotification::match(*message))
{
DSPDeviceMIMOEngine::SignalNotification* notif = (DSPDeviceMIMOEngine::SignalNotification*) message;
m_deviceSampleRate = notif->getSampleRate();
m_deviceCenterFrequency = notif->getCenterFrequency();
// Do not consider multiple sources at this time
qDebug("TestMIGui::handleInputMessages: DSPDeviceMIMOEngine::SignalNotification: SampleRate:%d, CenterFrequency:%llu",
notif->getSampleRate(),
notif->getCenterFrequency());
updateSampleRateAndFrequency();
delete message;
}
else
{
if (handleMessage(*message))
{
delete message;
}
}
}
}
void TestMIGui::updateSampleRateAndFrequency()
{
m_deviceUISet->getSpectrum()->setSampleRate(m_deviceSampleRate);
m_deviceUISet->getSpectrum()->setCenterFrequency(m_deviceCenterFrequency);
ui->deviceRateText->setText(tr("%1k").arg((float)m_deviceSampleRate / 1000));
}
void TestMIGui::openDeviceSettingsDialog(const QPoint& p)
{
BasicDeviceSettingsDialog dialog(this);
dialog.setUseReverseAPI(m_settings.m_useReverseAPI);
dialog.setReverseAPIAddress(m_settings.m_reverseAPIAddress);
dialog.setReverseAPIPort(m_settings.m_reverseAPIPort);
dialog.setReverseAPIDeviceIndex(m_settings.m_reverseAPIDeviceIndex);
dialog.move(p);
dialog.exec();
m_settings.m_useReverseAPI = dialog.useReverseAPI();
m_settings.m_reverseAPIAddress = dialog.getReverseAPIAddress();
m_settings.m_reverseAPIPort = dialog.getReverseAPIPort();
m_settings.m_reverseAPIDeviceIndex = dialog.getReverseAPIDeviceIndex();
sendSettings();
}