void ConfigMultiRotorWidget::setupUI(SystemSettings::AirframeTypeOptions frameType)
{
Q_ASSERT(m_aircraft);
Q_ASSERT(uiowner);
Q_ASSERT(quad);
int i;
// set aircraftType to Multirotor, disable triyaw channel
setComboCurrentIndex(m_aircraft->aircraftType, m_aircraft->aircraftType->findText("Multirotor"));
m_aircraft->triYawChannelBox->setEnabled(false);
// disable all motor channel boxes
for (i=1; i <=8; i++) {
// do it manually so we can turn off any error decorations
QComboBox *combobox = uiowner->findChild<QComboBox*>("multiMotorChannelBox" + QString::number(i));
if (combobox) {
combobox->setEnabled(false);
combobox->setItemData(0, 0, Qt::DecorationRole);
}
}
switch(frameType) {
case SystemSettings::AIRFRAMETYPE_TRI:
setComboCurrentIndex( m_aircraft->multirotorFrameType, m_aircraft->multirotorFrameType->findData(SystemSettings::AIRFRAMETYPE_TRI));
//Enable all necessary motor channel boxes...
enableComboBoxes(uiowner, CHANNELBOXNAME, 3, true);
m_aircraft->mrRollMixLevel->setValue(100);
m_aircraft->mrPitchMixLevel->setValue(100);
setYawMixLevel(50);
m_aircraft->triYawChannelBox->setEnabled(true);
break;
case SystemSettings::AIRFRAMETYPE_QUADX:
setComboCurrentIndex( m_aircraft->multirotorFrameType, m_aircraft->multirotorFrameType->findData(SystemSettings::AIRFRAMETYPE_QUADX));
//Enable all necessary motor channel boxes...
enableComboBoxes(uiowner, CHANNELBOXNAME, 4, true);
// init mixer levels
m_aircraft->mrRollMixLevel->setValue(50);
m_aircraft->mrPitchMixLevel->setValue(50);
setYawMixLevel(50);
break;
case SystemSettings::AIRFRAMETYPE_QUADP:
setComboCurrentIndex( m_aircraft->multirotorFrameType, m_aircraft->multirotorFrameType->findData(SystemSettings::AIRFRAMETYPE_QUADP));
//Enable all necessary motor channel boxes...
enableComboBoxes(uiowner, CHANNELBOXNAME, 4, true);
m_aircraft->mrRollMixLevel->setValue(100);
m_aircraft->mrPitchMixLevel->setValue(100);
setYawMixLevel(50);
break;
case SystemSettings::AIRFRAMETYPE_HEXA:
setComboCurrentIndex( m_aircraft->multirotorFrameType, m_aircraft->multirotorFrameType->findData(SystemSettings::AIRFRAMETYPE_HEXA));
//Enable all necessary motor channel boxes...
enableComboBoxes(uiowner, CHANNELBOXNAME, 6, true);
m_aircraft->mrRollMixLevel->setValue(50);
m_aircraft->mrPitchMixLevel->setValue(33);
setYawMixLevel(33);
break;
case SystemSettings::AIRFRAMETYPE_HEXAX:
setComboCurrentIndex( m_aircraft->multirotorFrameType, m_aircraft->multirotorFrameType->findData(SystemSettings::AIRFRAMETYPE_HEXAX));
//Enable all necessary motor channel boxes...
enableComboBoxes(uiowner, CHANNELBOXNAME, 6, true);
m_aircraft->mrRollMixLevel->setValue(33);
m_aircraft->mrPitchMixLevel->setValue(50);
setYawMixLevel(33);
break;
case SystemSettings::AIRFRAMETYPE_HEXACOAX:
setComboCurrentIndex( m_aircraft->multirotorFrameType, m_aircraft->multirotorFrameType->findData(SystemSettings::AIRFRAMETYPE_HEXACOAX));
//Enable all necessary motor channel boxes...
enableComboBoxes(uiowner, CHANNELBOXNAME, 6, true);
m_aircraft->mrRollMixLevel->setValue(100);
m_aircraft->mrPitchMixLevel->setValue(50);
setYawMixLevel(66);
break;
case SystemSettings::AIRFRAMETYPE_OCTO:
setComboCurrentIndex( m_aircraft->multirotorFrameType, m_aircraft->multirotorFrameType->findData(SystemSettings::AIRFRAMETYPE_OCTO));
//Enable all necessary motor channel boxes
enableComboBoxes(uiowner, CHANNELBOXNAME, 8, true);
m_aircraft->mrRollMixLevel->setValue(33);
m_aircraft->mrPitchMixLevel->setValue(33);
setYawMixLevel(25);
break;
case SystemSettings::AIRFRAMETYPE_OCTOV:
setComboCurrentIndex( m_aircraft->multirotorFrameType, m_aircraft->multirotorFrameType->findData(SystemSettings::AIRFRAMETYPE_OCTOV));
//Enable all necessary motor channel boxes
enableComboBoxes(uiowner, CHANNELBOXNAME, 8, true);
m_aircraft->mrRollMixLevel->setValue(25);
m_aircraft->mrPitchMixLevel->setValue(25);
setYawMixLevel(25);
break;
case SystemSettings::AIRFRAMETYPE_OCTOCOAXP:
setComboCurrentIndex( m_aircraft->multirotorFrameType, m_aircraft->multirotorFrameType->findData(SystemSettings::AIRFRAMETYPE_OCTOCOAXP));
//Enable all necessary motor channel boxes
enableComboBoxes(uiowner, CHANNELBOXNAME, 8, true);
m_aircraft->mrRollMixLevel->setValue(100);
m_aircraft->mrPitchMixLevel->setValue(100);
setYawMixLevel(50);
break;
case SystemSettings::AIRFRAMETYPE_OCTOCOAXX:
setComboCurrentIndex( m_aircraft->multirotorFrameType, m_aircraft->multirotorFrameType->findData(SystemSettings::AIRFRAMETYPE_OCTOCOAXX));
//Enable all necessary motor channel boxes
enableComboBoxes(uiowner, CHANNELBOXNAME, 8, true);
m_aircraft->mrRollMixLevel->setValue(50);
m_aircraft->mrPitchMixLevel->setValue(50);
setYawMixLevel(50);
break;
default:
Q_ASSERT(0);
break;
}
//Draw the appropriate airframe
drawAirframe(frameType);
}
/**
Virtual function to refresh the UI widget values
*/
void ConfigGroundVehicleWidget::refreshWidgetsValues(QString frameType)
{
setupUI(frameType);
initMixerCurves(frameType);
UAVDataObject *mixer = dynamic_cast<UAVDataObject *>(getObjectManager()->getObject(QString("MixerSettings")));
Q_ASSERT(mixer);
GUIConfigDataUnion config = getConfigData();
// THIS SECTION STILL NEEDS WORK. FOR THE MOMENT, USE THE FIXED-WING ONBOARD SETTING IN ORDER TO MINIMIZE CHANCES OF BOLLOXING REAL CODE
// Retrieve channel setup values
setComboCurrentIndex(m_aircraft->gvMotor1ChannelBox, config.ground.GroundVehicleThrottle1);
setComboCurrentIndex(m_aircraft->gvMotor2ChannelBox, config.ground.GroundVehicleThrottle2);
setComboCurrentIndex(m_aircraft->gvSteering1ChannelBox, config.ground.GroundVehicleSteering1);
setComboCurrentIndex(m_aircraft->gvSteering2ChannelBox, config.ground.GroundVehicleSteering2);
if (frameType == "GroundVehicleDifferential") {
// Find the channel number for Motor1
int channel = m_aircraft->gvMotor1ChannelBox->currentIndex() - 1;
if (channel > -1) {
// If for some reason the actuators were incoherent, we might fail here, hence the check.
m_aircraft->differentialSteeringSlider1->setValue(
getMixerVectorValue(mixer, channel, VehicleConfig::MIXERVECTOR_YAW) / 1.27);
}
channel = m_aircraft->gvMotor2ChannelBox->currentIndex() - 1;
if (channel > -1) {
m_aircraft->differentialSteeringSlider2->setValue(
-getMixerVectorValue(mixer, channel, VehicleConfig::MIXERVECTOR_YAW) / 1.27);
}
}
}
/**
Virtual function to refresh the UI widget values
*/
void ConfigGroundVehicleWidget::refreshAirframeWidgetsValues(SystemSettings::AirframeTypeOptions frameType)
{
MixerSettings *mixerSettings = MixerSettings::GetInstance(getObjectManager());
Q_ASSERT(mixerSettings);
GUIConfigDataUnion config = GetConfigData();
//THIS SECTION STILL NEEDS WORK. FOR THE MOMENT, USE THE FIXED-WING ONBOARD SETTING IN ORDER TO MINIMIZE CHANCES OF BOLLOXING REAL CODE
// Retrieve channel setup values
setComboCurrentIndex(m_aircraft->gvMotor1ChannelBox, config.ground.GroundVehicleThrottle1);
setComboCurrentIndex(m_aircraft->gvMotor2ChannelBox, config.ground.GroundVehicleThrottle2);
setComboCurrentIndex(m_aircraft->gvSteering1ChannelBox, config.ground.GroundVehicleSteering1);
setComboCurrentIndex(m_aircraft->gvSteering2ChannelBox, config.ground.GroundVehicleSteering2);
if (frameType == SystemSettings::AIRFRAMETYPE_GROUNDVEHICLEDIFFERENTIAL) {
//CURRENTLY BROKEN UNTIL WE DECIDE HOW DIFFERENTIAL SHOULD BEHAVE
// If the vehicle type is "differential", restore the slider setting
// Find the channel number for Motor1
int channel = m_aircraft->gvMotor1ChannelBox->currentIndex()-1;
if (channel > -1) { // If for some reason the actuators were incoherent, we might fail here, hence the check.
m_aircraft->differentialSteeringSlider1->setValue(getMixerVectorValue(mixerSettings,channel,MixerSettings::MIXER1VECTOR_ROLL)*100);
m_aircraft->differentialSteeringSlider2->setValue(getMixerVectorValue(mixerSettings,channel,MixerSettings::MIXER1VECTOR_PITCH)*100);
}
}
if (frameType == SystemSettings::AIRFRAMETYPE_GROUNDVEHICLEMOTORCYCLE) {
//CURRENTLY BROKEN UNTIL WE DECIDE HOW MOTORCYCLE SHOULD BEHAVE
// obj = dynamic_cast<UAVDataObject*>(getObjectManager()->getObject(QString("MixerSettings")));
// Q_ASSERT(obj);
// int chMixerNumber = m_aircraft->gvMotor1ChannelBox->currentIndex()-1;
// if (chMixerNumber >=0) {
// field = obj->getField(mixerVectors.at(chMixerNumber));
// int ti = field->getElementNames().indexOf("Yaw");
// m_aircraft->differentialSteeringSlider1->setValue(field->getDouble(ti)*100);
//
// ti = field->getElementNames().indexOf("Pitch");
// m_aircraft->differentialSteeringSlider2->setValue(field->getDouble(ti)*100);
// }
}
}
/**
Virtual function to refresh the UI widget values
*/
void ConfigFixedWingWidget::refreshWidgetsValues(QString frameType)
{
Q_ASSERT(m_aircraft);
setupUI(frameType);
UAVDataObject *mixer = dynamic_cast<UAVDataObject *>(getObjectManager()->getObject(QString("MixerSettings")));
Q_ASSERT(mixer);
QList<double> curveValues;
getThrottleCurve(mixer, VehicleConfig::MIXER_THROTTLECURVE1, &curveValues);
// is at least one of the curve values != 0?
if (isValidThrottleCurve(&curveValues)) {
// yes, use the curve we just read from mixersettings
m_aircraft->fixedWingThrottle->initCurve(&curveValues);
} else {
// no, init a straight curve
m_aircraft->fixedWingThrottle->initLinearCurve(curveValues.count(), 1.0);
}
GUIConfigDataUnion config = getConfigData();
fixedGUISettingsStruct fixed = config.fixedwing;
// Then retrieve how channels are setup
setComboCurrentIndex(m_aircraft->fwEngineChannelBox, fixed.FixedWingThrottle);
setComboCurrentIndex(m_aircraft->fwAileron1ChannelBox, fixed.FixedWingRoll1);
setComboCurrentIndex(m_aircraft->fwAileron2ChannelBox, fixed.FixedWingRoll2);
setComboCurrentIndex(m_aircraft->fwElevator1ChannelBox, fixed.FixedWingPitch1);
setComboCurrentIndex(m_aircraft->fwElevator2ChannelBox, fixed.FixedWingPitch2);
setComboCurrentIndex(m_aircraft->fwRudder1ChannelBox, fixed.FixedWingYaw1);
setComboCurrentIndex(m_aircraft->fwRudder2ChannelBox, fixed.FixedWingYaw2);
// Get mixing values for GUI sliders (values stored onboard)
m_aircraft->elevonSlider3->setValue(getMixerValue(mixer, "RollDifferential"));
if (frameType == "FixedWingElevon" || frameType == "Elevon") {
m_aircraft->elevonSlider1->setValue(getMixerValue(mixer, "MixerValueRoll"));
m_aircraft->elevonSlider2->setValue(getMixerValue(mixer, "MixerValuePitch"));
} else if (frameType == "FixedWingVtail" || frameType == "Vtail") {
m_aircraft->elevonSlider1->setValue(getMixerValue(mixer, "MixerValueYaw"));
m_aircraft->elevonSlider2->setValue(getMixerValue(mixer, "MixerValuePitch"));
}
}
/**
Refreshes the current value of the SystemSettings which holds the aircraft type
Note: The default behavior of ConfigTaskWidget is bypassed.
Therefore no automatic synchronization of UAV Objects to UI is done.
*/
void ConfigVehicleTypeWidget::refreshWidgetsValues(UAVObject *o)
{
Q_UNUSED(o);
if (!allObjectsUpdated()) {
return;
}
bool dirty = isDirty();
// Get the Airframe type from the system settings:
UAVDataObject *system = dynamic_cast<UAVDataObject *>(getObjectManager()->getObject(QString("SystemSettings")));
Q_ASSERT(system);
UAVObjectField *field = system->getField(QString("AirframeType"));
Q_ASSERT(field);
// At this stage, we will need to have some hardcoded settings in this code, this
// is not ideal, but there you go.
QString frameType = field->getValue().toString();
qDebug() << "ConfigVehicleTypeWidget::refreshWidgetsValues - frame type:" << frameType;
QString category = frameCategory(frameType);
setComboCurrentIndex(m_aircraft->aircraftType, m_aircraft->aircraftType->findText(category));
VehicleConfig *vehicleConfig = getVehicleConfigWidget(category);
if (vehicleConfig) {
vehicleConfig->refreshWidgetsValues(frameType);
}
updateFeedForwardUI();
setDirty(dirty);
qDebug() << "ConfigVehicleTypeWidget::refreshWidgetsValues - end";
}
/**
Helper function to refresh the UI widget values
*/
void ConfigCustomWidget::refreshWidgetsValues(QString frameType)
{
Q_ASSERT(m_aircraft);
setupUI(frameType);
UAVDataObject *system = dynamic_cast<UAVDataObject *>(getObjectManager()->getObject(QString("SystemSettings")));
Q_ASSERT(system);
QPointer<UAVObjectField> field = system->getField(QString("AirframeType"));
// Do not allow table edit until AirframeType == Custom
// First save set AirframeType to 'Custom' and next modify.
if (field->getValue().toString() != "Custom") {
m_aircraft->customMixerTable->setEditTriggers(QAbstractItemView::NoEditTriggers);
} else {
m_aircraft->customMixerTable->setEditTriggers(QAbstractItemView::AllEditTriggers);
}
UAVDataObject *mixer = dynamic_cast<UAVDataObject *>(getObjectManager()->getObject(QString("MixerSettings")));
Q_ASSERT(mixer);
getChannelDescriptions();
QList<double> curveValues;
getThrottleCurve(mixer, VehicleConfig::MIXER_THROTTLECURVE1, &curveValues);
// is at least one of the curve values != 0?
if (isValidThrottleCurve(&curveValues)) {
// yes, use the curve we just read from mixersettings
m_aircraft->customThrottle1Curve->initCurve(&curveValues);
} else {
// no, init a straight curve
m_aircraft->customThrottle1Curve->initLinearCurve(curveValues.count(), 1.0);
}
double Throttle2CurveMin = m_aircraft->customThrottle2Curve->getMin();
if (MixerSettings * mxr = qobject_cast<MixerSettings *>(mixer)) {
MixerSettings::DataFields mixerSettingsData = mxr->getData();
if (mixerSettingsData.Curve2Source == MixerSettings::CURVE2SOURCE_THROTTLE && Throttle2CurveMin >= 0) {
m_aircraft->customThrottle2Curve->setMixerType(MixerCurve::MIXERCURVE_THROTTLE);
} else {
m_aircraft->customThrottle2Curve->setMixerType(MixerCurve::MIXERCURVE_PITCH);
}
}
// Setup all Throttle2 curves for all types of airframes
getThrottleCurve(mixer, VehicleConfig::MIXER_THROTTLECURVE2, &curveValues);
if (isValidThrottleCurve(&curveValues)) {
m_aircraft->customThrottle2Curve->initCurve(&curveValues);
} else {
m_aircraft->customThrottle2Curve->initLinearCurve(curveValues.count(), 1.0, m_aircraft->customThrottle2Curve->getMin());
}
// Update the mixer table:
for (int channel = 0; channel < m_aircraft->customMixerTable->columnCount(); channel++) {
UAVObjectField *field = mixer->getField(mixerTypes.at(channel));
if (field) {
QComboBox *q = (QComboBox *)m_aircraft->customMixerTable->cellWidget(0, channel);
if (q) {
QString s = field->getValue().toString();
setComboCurrentIndex(q, q->findText(s));
}
m_aircraft->customMixerTable->item(1, channel)->setText(
QString::number(getMixerVectorValue(mixer, channel, VehicleConfig::MIXERVECTOR_THROTTLECURVE1)));
m_aircraft->customMixerTable->item(2, channel)->setText(
QString::number(getMixerVectorValue(mixer, channel, VehicleConfig::MIXERVECTOR_THROTTLECURVE2)));
m_aircraft->customMixerTable->item(3, channel)->setText(
QString::number(getMixerVectorValue(mixer, channel, VehicleConfig::MIXERVECTOR_ROLL)));
m_aircraft->customMixerTable->item(4, channel)->setText(
QString::number(getMixerVectorValue(mixer, channel, VehicleConfig::MIXERVECTOR_PITCH)));
m_aircraft->customMixerTable->item(5, channel)->setText(
QString::number(getMixerVectorValue(mixer, channel, VehicleConfig::MIXERVECTOR_YAW)));
}
}
}
/**
Virtual function to setup the UI
*/
void ConfigGroundVehicleWidget::setupUI(QString frameType)
{
// Setup the UI
Q_ASSERT(m_aircraft);
QSvgRenderer *renderer = new QSvgRenderer();
renderer->load(QString(":/configgadget/images/ground-shapes.svg"));
m_vehicleImg = new QGraphicsSvgItem();
m_vehicleImg->setSharedRenderer(renderer);
UAVDataObject *system = dynamic_cast<UAVDataObject *>(getObjectManager()->getObject(QString("SystemSettings")));
Q_ASSERT(system);
QPointer<UAVObjectField> frameTypeSaved = system->getField(QString("AirframeType"));
m_aircraft->differentialSteeringSlider1->setEnabled(false);
m_aircraft->differentialSteeringSlider2->setEnabled(false);
m_aircraft->gvThrottleCurve1GroupBox->setEnabled(true);
m_aircraft->gvThrottleCurve2GroupBox->setEnabled(true);
m_aircraft->groundVehicleThrottle1->setMixerType(MixerCurve::MIXERCURVE_THROTTLE);
m_aircraft->groundVehicleThrottle2->setMixerType(MixerCurve::MIXERCURVE_PITCH);
initMixerCurves(frameType);
if (frameType == "GroundVehicleDifferential" || frameType == "Differential (tank)") {
// Tank
m_vehicleImg->setElementId("tank");
setComboCurrentIndex(m_aircraft->groundVehicleType,
m_aircraft->groundVehicleType->findText("Differential (tank)"));
m_aircraft->gvMotor1ChannelBox->setEnabled(true);
m_aircraft->gvMotor2ChannelBox->setEnabled(true);
m_aircraft->gvThrottleCurve1GroupBox->setEnabled(false);
m_aircraft->gvMotor1Label->setText("Left motor");
m_aircraft->gvMotor2Label->setText("Right motor");
m_aircraft->gvSteering1ChannelBox->setEnabled(false);
m_aircraft->gvSteering2ChannelBox->setEnabled(false);
m_aircraft->gvSteering1Label->setText("Front steering");
m_aircraft->gvSteering2Label->setText("Rear steering");
m_aircraft->differentialSteeringSlider1->setEnabled(true);
m_aircraft->differentialSteeringSlider2->setEnabled(true);
m_aircraft->gvThrottleCurve1GroupBox->setTitle("Throttle curve1");
m_aircraft->gvThrottleCurve2GroupBox->setTitle("Throttle curve2 ");
m_aircraft->groundVehicleThrottle2->setMixerType(MixerCurve::MIXERCURVE_PITCH);
m_aircraft->groundVehicleThrottle1->setMixerType(MixerCurve::MIXERCURVE_THROTTLE);
initMixerCurves(frameType);
// If new setup, set sliders to defaults and set curves values
if (frameTypeSaved->getValue().toString() != "GroundVehicleDifferential") {
m_aircraft->differentialSteeringSlider1->setValue(100);
m_aircraft->differentialSteeringSlider2->setValue(100);
m_aircraft->groundVehicleThrottle1->initLinearCurve(5, 1.0, 0.0);
m_aircraft->groundVehicleThrottle2->initLinearCurve(5, 1.0, 0.0);
}
} else if (frameType == "GroundVehicleMotorcycle" || frameType == "Motorcycle") {
// Motorcycle
m_vehicleImg->setElementId("motorbike");
setComboCurrentIndex(m_aircraft->groundVehicleType, m_aircraft->groundVehicleType->findText("Motorcycle"));
m_aircraft->gvMotor1ChannelBox->setEnabled(true);
m_aircraft->gvMotor2ChannelBox->setEnabled(false);
m_aircraft->gvMotor2Label->setText("Rear motor");
m_aircraft->gvSteering1ChannelBox->setEnabled(true);
m_aircraft->gvSteering2ChannelBox->setEnabled(true);
m_aircraft->gvSteering1Label->setText("Front steering");
m_aircraft->gvSteering2Label->setText("Balancing");
// Curve1 for Motorcyle
m_aircraft->gvThrottleCurve1GroupBox->setTitle("Throttle curve1");
m_aircraft->gvThrottleCurve1GroupBox->setEnabled(true);
m_aircraft->gvThrottleCurve2GroupBox->setTitle("Throttle curve2");
m_aircraft->gvThrottleCurve2GroupBox->setEnabled(true);
m_aircraft->groundVehicleThrottle2->setMixerType(MixerCurve::MIXERCURVE_THROTTLE);
m_aircraft->groundVehicleThrottle1->setMixerType(MixerCurve::MIXERCURVE_THROTTLE);
initMixerCurves(frameType);
// If new setup, set curves values
if (frameTypeSaved->getValue().toString() != "GroundVehicleMotorCycle") {
m_aircraft->groundVehicleThrottle2->initLinearCurve(5, 1.0, 0.0);
m_aircraft->groundVehicleThrottle1->initLinearCurve(5, 1.0, 0.0);
}
} else {
// Car
m_vehicleImg->setElementId("car");
setComboCurrentIndex(m_aircraft->groundVehicleType, m_aircraft->groundVehicleType->findText("Turnable (car)"));
m_aircraft->gvMotor1ChannelBox->setEnabled(true);
m_aircraft->gvMotor2ChannelBox->setEnabled(true);
m_aircraft->gvMotor1Label->setText("Front motor");
m_aircraft->gvMotor2Label->setText("Rear motor");
m_aircraft->gvSteering1ChannelBox->setEnabled(true);
m_aircraft->gvSteering2ChannelBox->setEnabled(true);
m_aircraft->gvSteering1Label->setText("Front steering");
m_aircraft->gvSteering2Label->setText("Rear steering");
m_aircraft->gvThrottleCurve2GroupBox->setTitle("Throttle curve2");
m_aircraft->gvThrottleCurve2GroupBox->setEnabled(true);
m_aircraft->gvThrottleCurve1GroupBox->setTitle("Throttle curve1");
m_aircraft->gvThrottleCurve1GroupBox->setEnabled(true);
m_aircraft->groundVehicleThrottle2->setMixerType(MixerCurve::MIXERCURVE_PITCH);
m_aircraft->groundVehicleThrottle1->setMixerType(MixerCurve::MIXERCURVE_THROTTLE);
initMixerCurves(frameType);
// If new setup, set curves values
if (frameTypeSaved->getValue().toString() != "GroundVehicleCar") {
m_aircraft->groundVehicleThrottle1->initLinearCurve(5, 1.0, 0.0);
m_aircraft->groundVehicleThrottle2->initLinearCurve(5, 1.0, 0.0);
}
}
QGraphicsScene *scene = new QGraphicsScene();
scene->addItem(m_vehicleImg);
scene->setSceneRect(m_vehicleImg->boundingRect());
m_aircraft->groundShape->fitInView(m_vehicleImg, Qt::KeepAspectRatio);
m_aircraft->groundShape->setScene(scene);
}
/**
Virtual function to setup the UI
*/
void ConfigGroundVehicleWidget::setupUI(QString frameType)
{
// Setup the UI
m_aircraft->gvEngineChannelBox->setEnabled(false);
m_aircraft->gvAileron1ChannelBox->setEnabled(false);
m_aircraft->gvAileron2ChannelBox->setEnabled(false);
m_aircraft->differentialSteeringSlider1->setEnabled(false);
m_aircraft->differentialSteeringSlider2->setEnabled(false);
if (frameType == "GroundVehicleDifferential" || frameType == "Differential (tank)") {
// Tank
setComboCurrentIndex(m_aircraft->groundVehicleType,
m_aircraft->groundVehicleType->findText("Differential (tank)"));
m_aircraft->gvMotor1ChannelBox->setEnabled(true);
m_aircraft->gvMotor2ChannelBox->setEnabled(true);
m_aircraft->gvMotor1Label->setText("Left motor");
m_aircraft->gvMotor2Label->setText("Right motor");
m_aircraft->gvSteering1ChannelBox->setEnabled(false);
m_aircraft->gvSteering2ChannelBox->setEnabled(false);
m_aircraft->gvSteering2Label->setText("Rear steering");
m_aircraft->differentialSteeringSlider1->setEnabled(true);
m_aircraft->differentialSteeringSlider2->setEnabled(true);
m_aircraft->gvThrottleCurve1GroupBox->setTitle("Left throttle curve");
m_aircraft->gvThrottleCurve2GroupBox->setTitle("Right throttle curve");
} else if (frameType == "GroundVehicleMotorcycle" || frameType == "Motorcycle") {
// Motorcycle
setComboCurrentIndex(m_aircraft->groundVehicleType, m_aircraft->groundVehicleType->findText("Motorcycle"));
m_aircraft->gvMotor1ChannelBox->setEnabled(false);
m_aircraft->gvMotor2ChannelBox->setEnabled(true);
m_aircraft->gvMotor1Label->setText("Front motor");
m_aircraft->gvMotor2Label->setText("Rear motor");
m_aircraft->gvSteering1ChannelBox->setEnabled(true);
m_aircraft->gvSteering2ChannelBox->setEnabled(true);
m_aircraft->gvSteering2Label->setText("Balancing");
m_aircraft->gvThrottleCurve1GroupBox->setTitle("Front throttle curve");
m_aircraft->gvThrottleCurve2GroupBox->setTitle("Rear throttle curve");
} else {
// Car
setComboCurrentIndex(m_aircraft->groundVehicleType, m_aircraft->groundVehicleType->findText("Turnable (car)"));
m_aircraft->gvMotor1ChannelBox->setEnabled(true);
m_aircraft->gvMotor2ChannelBox->setEnabled(true);
m_aircraft->gvMotor1Label->setText("Front motor");
m_aircraft->gvMotor2Label->setText("Rear motor");
m_aircraft->gvSteering1ChannelBox->setEnabled(true);
m_aircraft->gvSteering2ChannelBox->setEnabled(true);
m_aircraft->gvThrottleCurve1GroupBox->setTitle("Front throttle curve");
m_aircraft->gvThrottleCurve2GroupBox->setTitle("Rear throttle curve");
}
}
/**
Virtual function to refresh the UI widget values
*/
void ConfigGroundVehicleWidget::refreshWidgetsValues(QString frameType)
{
setupUI(frameType);
UAVDataObject *mixer = dynamic_cast<UAVDataObject *>(getObjectManager()->getObject(QString("MixerSettings")));
Q_ASSERT(mixer);
QList<double> curveValues;
getThrottleCurve(mixer, VehicleConfig::MIXER_THROTTLECURVE1, &curveValues);
// is at least one of the curve values != 0?
if (isValidThrottleCurve(&curveValues)) {
// yes, use the curve we just read from mixersettings
m_aircraft->groundVehicleThrottle1->initCurve(&curveValues);
} else {
// no, init a straight curve
m_aircraft->groundVehicleThrottle1->initLinearCurve(curveValues.count(), 1.0);
}
// Setup all Throttle2 curves for all types of airframes
getThrottleCurve(mixer, VehicleConfig::MIXER_THROTTLECURVE2, &curveValues);
if (isValidThrottleCurve(&curveValues)) {
m_aircraft->groundVehicleThrottle2->initCurve(&curveValues);
} else {
m_aircraft->groundVehicleThrottle2->initLinearCurve(curveValues.count(), 1.0);
}
GUIConfigDataUnion config = getConfigData();
// THIS SECTION STILL NEEDS WORK. FOR THE MOMENT, USE THE FIXED-WING ONBOARD SETTING IN ORDER TO MINIMIZE CHANCES OF BOLLOXING REAL CODE
// Retrieve channel setup values
setComboCurrentIndex(m_aircraft->gvMotor1ChannelBox, config.ground.GroundVehicleThrottle1);
setComboCurrentIndex(m_aircraft->gvMotor2ChannelBox, config.ground.GroundVehicleThrottle2);
setComboCurrentIndex(m_aircraft->gvSteering1ChannelBox, config.ground.GroundVehicleSteering1);
setComboCurrentIndex(m_aircraft->gvSteering2ChannelBox, config.ground.GroundVehicleSteering2);
if (frameType == "GroundVehicleDifferential") {
// CURRENTLY BROKEN UNTIL WE DECIDE HOW DIFFERENTIAL SHOULD BEHAVE
// If the vehicle type is "differential", restore the slider setting
// Find the channel number for Motor1
// obj = dynamic_cast<UAVDataObject*>(getObjectManager()->getObject(QString("MixerSettings")));
// Q_ASSERT(obj);
int channel = m_aircraft->gvMotor1ChannelBox->currentIndex() - 1;
if (channel > -1) {
// If for some reason the actuators were incoherent, we might fail here, hence the check.
m_aircraft->differentialSteeringSlider1->setValue(
getMixerVectorValue(mixer, channel, VehicleConfig::MIXERVECTOR_ROLL) * 100);
m_aircraft->differentialSteeringSlider2->setValue(
getMixerVectorValue(mixer, channel, VehicleConfig::MIXERVECTOR_PITCH) * 100);
}
} else if (frameType == "GroundVehicleMotorcycle") {
// CURRENTLY BROKEN UNTIL WE DECIDE HOW MOTORCYCLE SHOULD BEHAVE
// obj = dynamic_cast<UAVDataObject*>(getObjectManager()->getObject(QString("MixerSettings")));
// Q_ASSERT(obj);
// int chMixerNumber = m_aircraft->gvMotor1ChannelBox->currentIndex()-1;
// if (chMixerNumber >=0) {
// field = obj->getField(mixerVectors.at(chMixerNumber));
// int ti = field->getElementNames().indexOf("Yaw");
// m_aircraft->differentialSteeringSlider1->setValue(field->getDouble(ti)*100);
//
// ti = field->getElementNames().indexOf("Pitch");
// m_aircraft->differentialSteeringSlider2->setValue(field->getDouble(ti)*100);
// }
}
}
/**
Virtual function to setup the UI
*/
void ConfigGroundVehicleWidget::setupUI(SystemSettings::AirframeTypeOptions frameType)
{
m_aircraft->differentialSteeringMixBox->setHidden(true);
//STILL NEEDS WORK
// Setup the UI
setComboCurrentIndex(m_aircraft->aircraftType, m_aircraft->aircraftType->findText("Ground"));
m_aircraft->gvEngineChannelBox->setEnabled(false);
m_aircraft->gvEngineLabel->setEnabled(false);
m_aircraft->gvAileron1ChannelBox->setEnabled(false);
m_aircraft->gvAileron1Label->setEnabled(false);
m_aircraft->gvAileron2ChannelBox->setEnabled(false);
m_aircraft->gvAileron2Label->setEnabled(false);
if (frameType == SystemSettings::AIRFRAMETYPE_GROUNDVEHICLEDIFFERENTIAL){ //Tank
setComboCurrentIndex(m_aircraft->groundVehicleType, m_aircraft->groundVehicleType->findText("Differential (tank)"));
m_aircraft->gvMotor1ChannelBox->setEnabled(true);
m_aircraft->gvMotor1Label->setEnabled(true);
m_aircraft->gvMotor2ChannelBox->setEnabled(true);
m_aircraft->gvMotor2Label->setEnabled(true);
m_aircraft->gvMotor1Label->setText("Left motor");
m_aircraft->gvMotor2Label->setText("Right motor");
m_aircraft->gvSteering1ChannelBox->setEnabled(false);
m_aircraft->gvSteering1Label->setEnabled(false);
m_aircraft->gvSteering2ChannelBox->setEnabled(false);
m_aircraft->gvSteering2Label->setEnabled(false);
m_aircraft->gvSteering2Label->setText("Rear steering");
m_aircraft->differentialSteeringMixBox->setHidden(false);
m_aircraft->gvThrottleCurve1GroupBox->setTitle("Left throttle curve");
m_aircraft->gvThrottleCurve2GroupBox->setTitle("Right throttle curve");
}
else if (frameType == SystemSettings::AIRFRAMETYPE_GROUNDVEHICLEMOTORCYCLE){ //Motorcycle
setComboCurrentIndex(m_aircraft->groundVehicleType, m_aircraft->groundVehicleType->findText("Motorcycle"));
m_aircraft->gvMotor1ChannelBox->setEnabled(false);
m_aircraft->gvMotor1Label->setEnabled(false);
m_aircraft->gvMotor2ChannelBox->setEnabled(true);
m_aircraft->gvMotor2Label->setEnabled(true);
m_aircraft->gvMotor1Label->setText("Front motor");
m_aircraft->gvMotor2Label->setText("Rear motor");
m_aircraft->gvSteering1ChannelBox->setEnabled(true);
m_aircraft->gvSteering1Label->setEnabled(true);
m_aircraft->gvSteering2ChannelBox->setEnabled(true);
m_aircraft->gvSteering2Label->setEnabled(true);
m_aircraft->gvSteering2Label->setText("Balancing");
m_aircraft->differentialSteeringMixBox->setHidden(true);
m_aircraft->gvThrottleCurve1GroupBox->setTitle("Front throttle curve");
m_aircraft->gvThrottleCurve2GroupBox->setTitle("Rear throttle curve");
}
else {//Car
setComboCurrentIndex(m_aircraft->groundVehicleType, m_aircraft->groundVehicleType->findText("Turnable (car)"));
m_aircraft->gvMotor1ChannelBox->setEnabled(true);
m_aircraft->gvMotor1Label->setEnabled(true);
m_aircraft->gvMotor2ChannelBox->setEnabled(true);
m_aircraft->gvMotor2Label->setEnabled(true);
m_aircraft->gvMotor1Label->setText("Front motor");
m_aircraft->gvMotor2Label->setText("Rear motor");
m_aircraft->gvSteering1ChannelBox->setEnabled(true);
m_aircraft->gvSteering1Label->setEnabled(true);
m_aircraft->gvSteering2ChannelBox->setEnabled(true);
m_aircraft->gvSteering2Label->setEnabled(true);
m_aircraft->differentialSteeringMixBox->setHidden(true);
m_aircraft->gvThrottleCurve1GroupBox->setTitle("Front throttle curve");
m_aircraft->gvThrottleCurve2GroupBox->setTitle("Rear throttle curve");
}
}
/**
Virtual function to setup the UI
*/
void ConfigFixedWingWidget::setupUI(QString frameType)
{
Q_ASSERT(m_aircraft);
QSvgRenderer *renderer = new QSvgRenderer();
renderer->load(QString(":/configgadget/images/fixedwing-shapes.svg"));
planeimg = new QGraphicsSvgItem();
planeimg->setSharedRenderer(renderer);
UAVDataObject *system = dynamic_cast<UAVDataObject *>(getObjectManager()->getObject(QString("SystemSettings")));
Q_ASSERT(system);
QPointer<UAVObjectField> field = system->getField(QString("AirframeType"));
UAVDataObject *mixer = dynamic_cast<UAVDataObject *>(getObjectManager()->getObject(QString("MixerSettings")));
Q_ASSERT(mixer);
if (frameType == "FixedWing" || frameType == "Aileron") {
planeimg->setElementId("aileron");
setComboCurrentIndex(m_aircraft->fixedWingType, m_aircraft->fixedWingType->findText("Aileron"));
m_aircraft->fwRudder1ChannelBox->setEnabled(true);
m_aircraft->fwRudder2ChannelBox->setEnabled(true);
m_aircraft->fwElevator1ChannelBox->setEnabled(true);
m_aircraft->fwElevator2ChannelBox->setEnabled(true);
m_aircraft->fwAileron1ChannelBox->setEnabled(true);
m_aircraft->fwAileron2ChannelBox->setEnabled(true);
m_aircraft->fwAileron1Label->setText("Aileron 1");
m_aircraft->fwAileron2Label->setText("Aileron 2");
m_aircraft->fwElevator1Label->setText("Elevator 1");
m_aircraft->fwElevator2Label->setText("Elevator 2");
m_aircraft->elevonSlider1->setEnabled(false);
m_aircraft->elevonSlider2->setEnabled(false);
m_aircraft->elevonSlider3->setEnabled(true);
m_aircraft->elevonSlider1->setValue(100);
m_aircraft->elevonSlider2->setValue(100);
// Get values saved if frameType = current frameType set on board
if (field->getValue().toString() == "FixedWing") {
m_aircraft->elevonSlider3->setValue(getMixerValue(mixer, "RollDifferential"));
} else {
m_aircraft->elevonSlider3->setValue(0);
}
} else if (frameType == "FixedWingElevon" || frameType == "Elevon") {
planeimg->setElementId("elevon");
setComboCurrentIndex(m_aircraft->fixedWingType, m_aircraft->fixedWingType->findText("Elevon"));
m_aircraft->fwAileron1Label->setText("Elevon 1");
m_aircraft->fwAileron2Label->setText("Elevon 2");
m_aircraft->fwElevator1ChannelBox->setEnabled(false);
m_aircraft->fwElevator2ChannelBox->setEnabled(false);
m_aircraft->fwRudder1ChannelBox->setEnabled(true);
m_aircraft->fwElevator1ChannelBox->setCurrentText("None");
m_aircraft->fwRudder2ChannelBox->setEnabled(true);
m_aircraft->fwElevator2ChannelBox->setCurrentText("None");
m_aircraft->fwElevator1Label->setText("Elevator 1");
m_aircraft->fwElevator2Label->setText("Elevator 2");
m_aircraft->elevonLabel1->setText("Roll");
m_aircraft->elevonLabel2->setText("Pitch");
m_aircraft->elevonSlider1->setEnabled(true);
m_aircraft->elevonSlider2->setEnabled(true);
m_aircraft->elevonSlider3->setEnabled(true);
// Get values saved if frameType = current frameType set on board
if (field->getValue().toString() == "FixedWingElevon") {
m_aircraft->elevonSlider1->setValue(getMixerValue(mixer, "MixerValueRoll"));
m_aircraft->elevonSlider2->setValue(getMixerValue(mixer, "MixerValuePitch"));
m_aircraft->elevonSlider3->setValue(getMixerValue(mixer, "RollDifferential"));
} else {
m_aircraft->elevonSlider1->setValue(100);
m_aircraft->elevonSlider2->setValue(100);
m_aircraft->elevonSlider3->setValue(0);
}
} else if (frameType == "FixedWingVtail" || frameType == "Vtail") {
planeimg->setElementId("vtail");
setComboCurrentIndex(m_aircraft->fixedWingType, m_aircraft->fixedWingType->findText("Vtail"));
m_aircraft->fwRudder1ChannelBox->setEnabled(false);
m_aircraft->fwRudder1ChannelBox->setCurrentText("None");
m_aircraft->fwRudder1ChannelBox->setToolTip("");
m_aircraft->fwRudder2ChannelBox->setEnabled(false);
m_aircraft->fwRudder2ChannelBox->setCurrentText("None");
m_aircraft->fwRudder2ChannelBox->setToolTip("");
m_aircraft->fwElevator1Label->setText("Vtail 1");
m_aircraft->fwElevator1ChannelBox->setEnabled(true);
m_aircraft->fwElevator2Label->setText("Vtail 2");
m_aircraft->fwElevator2ChannelBox->setEnabled(true);
m_aircraft->fwAileron1Label->setText("Aileron 1");
m_aircraft->fwAileron2Label->setText("Aileron 2");
m_aircraft->elevonLabel1->setText("Rudder");
m_aircraft->elevonLabel2->setText("Pitch");
m_aircraft->elevonSlider1->setEnabled(true);
m_aircraft->elevonSlider2->setEnabled(true);
m_aircraft->elevonSlider3->setEnabled(true);
// Get values saved if frameType = current frameType set on board
if (field->getValue().toString() == "FixedWingVtail") {
m_aircraft->elevonSlider1->setValue(getMixerValue(mixer, "MixerValueYaw"));
m_aircraft->elevonSlider2->setValue(getMixerValue(mixer, "MixerValuePitch"));
m_aircraft->elevonSlider3->setValue(getMixerValue(mixer, "RollDifferential"));
} else {
m_aircraft->elevonSlider1->setValue(100);
m_aircraft->elevonSlider2->setValue(100);
m_aircraft->elevonSlider3->setValue(0);
}
}
QGraphicsScene *scene = new QGraphicsScene();
scene->addItem(planeimg);
scene->setSceneRect(planeimg->boundingRect());
m_aircraft->planeShape->fitInView(planeimg, Qt::KeepAspectRatio);
m_aircraft->planeShape->setScene(scene);
}
/**
Helper function to refresh the UI widget values
*/
void ConfigMultiRotorWidget::refreshAirframeWidgetsValues(SystemSettings::AirframeTypeOptions frameType)
{
int channel;
double value;
GUIConfigDataUnion config = GetConfigData();
multiGUISettingsStruct multi = config.multi;
MixerSettings *mixerSettings = MixerSettings::GetInstance(getObjectManager());
Q_ASSERT(mixerSettings);
if (frameType == SystemSettings::AIRFRAMETYPE_QUADP)
{
// Motors 1/2/3/4 are: N / E / S / W
setComboCurrentIndex(m_aircraft->multiMotorChannelBox1,multi.VTOLMotorN);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox2,multi.VTOLMotorE);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox3,multi.VTOLMotorS);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox4,multi.VTOLMotorW);
// Now, read the 1st mixer R/P/Y levels and initialize the mix sliders.
// This assumes that all vectors are identical - if not, the user should use the
// "custom" setting.
channel = m_aircraft->multiMotorChannelBox1->currentIndex() - 1;
if (channel > -1)
{
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_PITCH);
m_aircraft->mrPitchMixLevel->setValue( qRound(value/1.27) );
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_YAW);
setYawMixLevel( -qRound(value/1.27) );
channel = m_aircraft->multiMotorChannelBox2->currentIndex() - 1;
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_ROLL);
m_aircraft->mrRollMixLevel->setValue( -qRound(value/1.27));
}
}
else if (frameType == SystemSettings::AIRFRAMETYPE_QUADX)
{
// Motors 1/2/3/4 are: NW / NE / SE / SW
setComboCurrentIndex(m_aircraft->multiMotorChannelBox1,multi.VTOLMotorNW);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox2,multi.VTOLMotorNE);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox3,multi.VTOLMotorSE);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox4,multi.VTOLMotorSW);
// Now, read the 1st mixer R/P/Y levels and initialize the mix sliders.
// This assumes that all vectors are identical - if not, the user should use the
// "custom" setting.
channel = m_aircraft->multiMotorChannelBox1->currentIndex() - 1;
if (channel > -1)
{
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_PITCH);
m_aircraft->mrPitchMixLevel->setValue( qRound(value/1.27) );
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_YAW);
setYawMixLevel( -qRound(value/1.27) );
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_ROLL);
m_aircraft->mrRollMixLevel->setValue( qRound(value/1.27));
}
}
else if (frameType == SystemSettings::AIRFRAMETYPE_HEXA)
{
// Motors 1/2/3 4/5/6 are: N / NE / SE / S / SW / NW
setComboCurrentIndex(m_aircraft->multiMotorChannelBox1,multi.VTOLMotorN);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox2,multi.VTOLMotorNE);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox3,multi.VTOLMotorSE);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox4,multi.VTOLMotorS);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox5,multi.VTOLMotorSW);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox6,multi.VTOLMotorNW);
// Now, read the 1st mixer R/P/Y levels and initialize the mix sliders.
// This assumes that all vectors are identical - if not, the user should use the
// "custom" setting.
channel = m_aircraft->multiMotorChannelBox1->currentIndex() - 1;
if (channel > -1)
{
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_PITCH);
m_aircraft->mrPitchMixLevel->setValue( qRound(value/1.27) );
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_YAW);
setYawMixLevel( -qRound(value/1.27) );
//change channels
channel = m_aircraft->multiMotorChannelBox2->currentIndex() - 1;
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_ROLL);
m_aircraft->mrRollMixLevel->setValue( -qRound(value/1.27) );
}
}
else if (frameType == SystemSettings::AIRFRAMETYPE_HEXAX)
{
// Motors 1/2/3 4/5/6 are: NE / E / SE / SW / W / NW
setComboCurrentIndex(m_aircraft->multiMotorChannelBox1,multi.VTOLMotorNE);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox2,multi.VTOLMotorE);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox3,multi.VTOLMotorSE);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox4,multi.VTOLMotorSW);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox5,multi.VTOLMotorW);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox6,multi.VTOLMotorNW);
// Now, read the 1st mixer R/P/Y levels and initialize the mix sliders.
// This assumes that all vectors are identical - if not, the user should use the
// "custom" setting.
channel = m_aircraft->multiMotorChannelBox1->currentIndex() - 1;
if (channel > -1)
{
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_PITCH);
m_aircraft->mrPitchMixLevel->setValue( qRound(value/1.27) );
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_YAW);
setYawMixLevel( -qRound(value/1.27) );
channel = m_aircraft->multiMotorChannelBox2->currentIndex() - 1;
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_ROLL);
m_aircraft->mrRollMixLevel->setValue( -qRound(value/1.27) );
}
}
else if (frameType == SystemSettings::AIRFRAMETYPE_HEXACOAX)
{
// Motors 1/2/3 4/5/6 are: NW/W NE/E S/SE
setComboCurrentIndex(m_aircraft->multiMotorChannelBox1,multi.VTOLMotorNW);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox2,multi.VTOLMotorW);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox3,multi.VTOLMotorNE);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox4,multi.VTOLMotorE);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox5,multi.VTOLMotorS);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox6,multi.VTOLMotorSE);
// Now, read the 1st mixer R/P/Y levels and initialize the mix sliders.
// This assumes that all vectors are identical - if not, the user should use the
// "custom" setting.
channel = m_aircraft->multiMotorChannelBox1->currentIndex() - 1;
if (channel > -1)
{
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_PITCH);
m_aircraft->mrPitchMixLevel->setValue( qRound(2*value/1.27) );
channel = m_aircraft->multiMotorChannelBox2->currentIndex() - 1;
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_YAW);
setYawMixLevel( qRound(value/1.27) );
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_ROLL);
m_aircraft->mrRollMixLevel->setValue( qRound(value/1.27) );
}
}
else if (frameType == SystemSettings::AIRFRAMETYPE_OCTO ||
frameType == SystemSettings::AIRFRAMETYPE_OCTOV ||
frameType == SystemSettings::AIRFRAMETYPE_OCTOCOAXP)
{
// Motors 1 to 8 are N / NE / E / etc
setComboCurrentIndex(m_aircraft->multiMotorChannelBox1,multi.VTOLMotorN);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox2,multi.VTOLMotorNE);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox3,multi.VTOLMotorE);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox4,multi.VTOLMotorSE);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox5,multi.VTOLMotorS);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox6,multi.VTOLMotorSW);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox7,multi.VTOLMotorW);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox8,multi.VTOLMotorNW);
// Now, read the 1st mixer R/P/Y levels and initialize the mix sliders.
// This assumes that all vectors are identical - if not, the user should use the
// "custom" setting.
channel = m_aircraft->multiMotorChannelBox1->currentIndex() - 1;
if (channel > -1)
{
if (frameType == SystemSettings::AIRFRAMETYPE_OCTO) {
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_PITCH);
m_aircraft->mrPitchMixLevel->setValue( qRound(value/1.27) );
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_YAW);
setYawMixLevel( -qRound(value/1.27) );
//change channels
channel = m_aircraft->multiMotorChannelBox2->currentIndex() - 1;
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_ROLL);
m_aircraft->mrRollMixLevel->setValue( -qRound(value/1.27) );
}
else if (frameType == SystemSettings::AIRFRAMETYPE_OCTOV) {
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_PITCH);
m_aircraft->mrPitchMixLevel->setValue( qRound(value/1.27) );
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_YAW);
setYawMixLevel( -qRound(value/1.27) );
//change channels
channel = m_aircraft->multiMotorChannelBox2->currentIndex() - 1;
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_ROLL);
m_aircraft->mrRollMixLevel->setValue( -qRound(value/1.27) );
}
else if (frameType == SystemSettings::AIRFRAMETYPE_OCTOCOAXP) {
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_PITCH);
m_aircraft->mrPitchMixLevel->setValue( qRound(value/1.27) );
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_YAW);
setYawMixLevel( -qRound(value/1.27) );
//change channels
channel = m_aircraft->multiMotorChannelBox3->currentIndex() - 1;
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_ROLL);
m_aircraft->mrRollMixLevel->setValue( -qRound(value/1.27) );
}
}
}
else if (frameType == SystemSettings::AIRFRAMETYPE_OCTOCOAXX)
{
// Motors 1 to 8 are N / NE / E / etc
setComboCurrentIndex(m_aircraft->multiMotorChannelBox1,multi.VTOLMotorNW);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox2,multi.VTOLMotorN);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox3,multi.VTOLMotorNE);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox4,multi.VTOLMotorE);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox5,multi.VTOLMotorSE);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox6,multi.VTOLMotorS);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox7,multi.VTOLMotorSW);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox8,multi.VTOLMotorW);
// Now, read the 1st mixer R/P/Y levels and initialize the mix sliders.
// This assumes that all vectors are identical - if not, the user should use the
// "custom" setting.
channel = m_aircraft->multiMotorChannelBox1->currentIndex() - 1;
if (channel > -1)
{
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_PITCH);
m_aircraft->mrPitchMixLevel->setValue( qRound(value/1.27) );
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_YAW);
setYawMixLevel( -qRound(value/1.27) );
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_ROLL);
m_aircraft->mrRollMixLevel->setValue( qRound(value/1.27) );
}
}
else if (frameType == SystemSettings::AIRFRAMETYPE_TRI)
{
// Motors 1 to 8 are N / NE / E / etc
setComboCurrentIndex(m_aircraft->multiMotorChannelBox1,multi.VTOLMotorNW);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox2,multi.VTOLMotorNE);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox3,multi.VTOLMotorS);
setComboCurrentIndex(m_aircraft->multiMotorChannelBox4,multi.VTOLMotorS);
setComboCurrentIndex(m_aircraft->triYawChannelBox,multi.TRIYaw);
channel = m_aircraft->multiMotorChannelBox1->currentIndex() - 1;
if (channel > -1)
{
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_PITCH);
m_aircraft->mrPitchMixLevel->setValue( qRound(2*value/1.27) );
value = getMixerVectorValue(mixerSettings, channel, MixerSettings::MIXER1VECTOR_ROLL);
m_aircraft->mrRollMixLevel->setValue( qRound(value/1.27) );
}
}
drawAirframe(frameType);
}
