void ConfigStabilizationWidget::updateThrottleCurveFromObject()
{
    bool dirty = isDirty();
    UAVObject *stabBank = getObjectManager()->getObject(QString(m_stabTabBars.at(0)->tabData(m_currentStabSettingsBank).toString()));

    Q_ASSERT(stabBank);

    UAVObjectField *field = stabBank->getField("ThrustPIDScaleCurve");
    Q_ASSERT(field);

    QList<double> curve;
    for (quint32 i = 0; i < field->getNumElements(); i++) {
        curve.append(field->getValue(i).toDouble());
    }

    ui->thrustPIDScalingCurve->setCurve(&curve);

    field = stabBank->getField("EnableThrustPIDScaling");
    Q_ASSERT(field);

    bool enabled = field->getValue() == "TRUE";
    ui->enableThrustPIDScalingCheckBox->setChecked(enabled);
    ui->thrustPIDScalingCurve->setEnabled(enabled);
    setDirty(dirty);
}
/**
  Saves the AHRS sensors calibration (to RAM and SD)
  */
void ConfigAHRSWidget::saveAHRSCalibration()
{
    UAVObject *obj = dynamic_cast<UAVDataObject*>(getObjectManager()->getObject(QString("AHRSCalibration")));
    UAVObjectField *field = obj->getField(QString("measure_var"));
    field->setValue("SET");
    obj->updated();
    updateObjectPersistance(ObjectPersistence::OPERATION_SAVE, obj);

}
void ConfigStabilizationWidget::updateObjectFromThrottleCurve()
{
    UAVObject *stabBank = getObjectManager()->getObject(QString(m_stabTabBars.at(0)->tabData(m_currentStabSettingsBank).toString()));

    Q_ASSERT(stabBank);

    UAVObjectField *field = stabBank->getField("ThrustPIDScaleCurve");
    Q_ASSERT(field);

    QList<double> curve   = ui->thrustPIDScalingCurve->getCurve();
    for (quint32 i = 0; i < field->getNumElements(); i++) {
        field->setValue(curve.at(i), i);
    }

    field = stabBank->getField("EnableThrustPIDScaling");
    Q_ASSERT(field);
    field->setValue(ui->enableThrustPIDScalingCheckBox->isChecked() ? "TRUE" : "FALSE");
}
QString UsageTrackerPlugin::getUAVFieldValue(UAVObjectManager *objManager, QString objectName, QString fieldName, int index) const
{
    UAVObject *object = objManager->getObject(objectName);

    if (object != NULL) {
        UAVObjectField *field = object->getField(fieldName);
        if (field != NULL) {
            return field->getValue(index).toString();
        }
    }
    return tr("Unknown");
}
/**
  Launches the AHRS sensors calibration
  */
void ConfigAHRSWidget::launchAHRSCalibration()
{
    m_ahrs->calibInstructions->setText("Estimating sensor variance...");
    m_ahrs->ahrsCalibStart->setEnabled(false);

    UAVObject *obj = dynamic_cast<UAVDataObject*>(getObjectManager()->getObject(QString("AHRSCalibration")));
    UAVObjectField *field = obj->getField(QString("measure_var"));
    field->setValue("MEASURE");
    obj->updated();

    QTimer::singleShot(calibrationDelay*1000, this, SLOT(calibPhase2()));
    m_ahrs->calibProgress->setRange(0,calibrationDelay);
    phaseCounter = 0;
    progressBarIndex = 0;
    connect(&progressBarTimer, SIGNAL(timeout()), this, SLOT(incrementProgress()));
    progressBarTimer.start(1000);
}
// Slot called by the menu manager on user action
void UAVSettingsImportExportFactory::importUAVSettings()
{
    // ask for file name
    QString fileName;
    QString filters = tr("UAVObjects XML files (*.uav);; XML files (*.xml)");

    fileName = QFileDialog::getOpenFileName(0, tr("Import UAV Settings"), "", filters);
    if (fileName.isEmpty()) {
        return;
    }

    // Now open the file
    QFile file(fileName);
    QDomDocument doc("UAVObjects");
    file.open(QFile::ReadOnly | QFile::Text);
    if (!doc.setContent(file.readAll())) {
        QMessageBox msgBox;
        msgBox.setText(tr("File Parsing Failed."));
        msgBox.setInformativeText(tr("This file is not a correct XML file"));
        msgBox.setStandardButtons(QMessageBox::Ok);
        msgBox.exec();
        return;
    }
    file.close();

    // find the root of settings subtree
    emit importAboutToBegin();
    qDebug() << "Import about to begin";

    QDomElement root = doc.documentElement();
    if (root.tagName() == "uavobjects") {
        root = root.firstChildElement("settings");
    }
    if (root.isNull() || (root.tagName() != "settings")) {
        QMessageBox msgBox;
        msgBox.setText(tr("Wrong file contents"));
        msgBox.setInformativeText(tr("This file does not contain correct UAVSettings"));
        msgBox.setStandardButtons(QMessageBox::Ok);
        msgBox.exec();
        return;
    }

    // We are now ok: setup the import summary dialog & update it as we
    // go along.
    ImportSummaryDialog swui((QWidget *)Core::ICore::instance()->mainWindow());

    ExtensionSystem::PluginManager *pm = ExtensionSystem::PluginManager::instance();
    UAVObjectManager *objManager = pm->getObject<UAVObjectManager>();
    swui.show();

    QDomNode node = root.firstChild();
    while (!node.isNull()) {
        QDomElement e = node.toElement();
        if (e.tagName() == "object") {
            // - Read each object
            QString uavObjectName = e.attribute("name");
            uint uavObjectID = e.attribute("id").toUInt(NULL, 16);

            // Sanity Check:
            UAVObject *obj   = objManager->getObject(uavObjectName);
            if (obj == NULL) {
                // This object is unknown!
                qDebug() << "Object unknown:" << uavObjectName << uavObjectID;
                swui.addLine(uavObjectName, "Error (Object unknown)", false);
            } else {
                // - Update each field
                // - Issue and "updated" command
                bool error     = false;
                bool setError  = false;
                QDomNode field = node.firstChild();
                while (!field.isNull()) {
                    QDomElement f = field.toElement();
                    if (f.tagName() == "field") {
                        UAVObjectField *uavfield = obj->getField(f.attribute("name"));
                        if (uavfield) {
                            QStringList list = f.attribute("values").split(",");
                            if (list.length() == 1) {
                                if (false == uavfield->checkValue(f.attribute("values"))) {
                                    qDebug() << "checkValue returned false on: " << uavObjectName << f.attribute("values");
                                    setError = true;
                                } else {
                                    uavfield->setValue(f.attribute("values"));
                                }
                            } else {
                                // This is an enum:
                                int i = 0;
                                QStringList list = f.attribute("values").split(",");
                                foreach(QString element, list) {
                                    if (false == uavfield->checkValue(element, i)) {
                                        qDebug() << "checkValue(list) returned false on: " << uavObjectName << list;
                                        setError = true;
                                    } else {
                                        uavfield->setValue(element, i);
                                    }
                                    i++;
                                }
                            }
                        } else {
                            error = true;
                        }
                    }
                    field = field.nextSibling();
                }
                obj->updated();

                if (error) {
                    swui.addLine(uavObjectName, "Warning (Object field unknown)", true);
                } else if (uavObjectID != obj->getObjID()) {
                    qDebug() << "Mismatch for Object " << uavObjectName << uavObjectID << " - " << obj->getObjID();
                    swui.addLine(uavObjectName, "Warning (ObjectID mismatch)", true);
                } else if (setError) {
                    swui.addLine(uavObjectName, "Warning (Objects field value(s) invalid)", false);
                } else {
                    swui.addLine(uavObjectName, "OK", true);
                }
            }
ConfigAHRSWidget::ConfigAHRSWidget(QWidget *parent) : ConfigTaskWidget(parent)
{
    m_ahrs = new Ui_AHRSWidget();
    m_ahrs->setupUi(this);

    // Initialization of the Paper plane widget
    m_ahrs->sixPointsHelp->setScene(new QGraphicsScene(this));

    paperplane = new QGraphicsSvgItem();
    paperplane->setSharedRenderer(new QSvgRenderer());
    paperplane->renderer()->load(QString(":/configgadget/images/paper-plane.svg"));
    paperplane->setElementId("plane-horizontal");
    m_ahrs->sixPointsHelp->scene()->addItem(paperplane);
    m_ahrs->sixPointsHelp->setSceneRect(paperplane->boundingRect());

    // Initialization of the AHRS bargraph graph

    m_ahrs->ahrsBargraph->setScene(new QGraphicsScene(this));

    QSvgRenderer *renderer = new QSvgRenderer();
    ahrsbargraph = new QGraphicsSvgItem();
    renderer->load(QString(":/configgadget/images/ahrs-calib.svg"));
    ahrsbargraph->setSharedRenderer(renderer);
    ahrsbargraph->setElementId("background");
    ahrsbargraph->setObjectName("background");
    m_ahrs->ahrsBargraph->scene()->addItem(ahrsbargraph);
    m_ahrs->ahrsBargraph->setSceneRect(ahrsbargraph->boundingRect());

    // Initialize the 9 bargraph values:

    QMatrix lineMatrix = renderer->matrixForElement("accel_x");
    QRectF rect = lineMatrix.mapRect(renderer->boundsOnElement("accel_x"));
    qreal startX = rect.x();
    qreal startY = rect.y()+ rect.height();
    // maxBarHeight will be used for scaling it later.
    maxBarHeight = rect.height();
    // Then once we have the initial location, we can put it
    // into a QGraphicsSvgItem which we will display at the same
    // place: we do this so that the heading scale can be clipped to
    // the compass dial region.
    accel_x = new QGraphicsSvgItem();
    accel_x->setSharedRenderer(renderer);
    accel_x->setElementId("accel_x");
    m_ahrs->ahrsBargraph->scene()->addItem(accel_x);
    accel_x->setPos(startX, startY);
    accel_x->setTransform(QTransform::fromScale(1,0),true);

    lineMatrix = renderer->matrixForElement("accel_y");
    rect = lineMatrix.mapRect(renderer->boundsOnElement("accel_y"));
    startX = rect.x();
    startY = rect.y()+ rect.height();
    accel_y = new QGraphicsSvgItem();
    accel_y->setSharedRenderer(renderer);
    accel_y->setElementId("accel_y");
    m_ahrs->ahrsBargraph->scene()->addItem(accel_y);
    accel_y->setPos(startX,startY);
    accel_y->setTransform(QTransform::fromScale(1,0),true);

    lineMatrix = renderer->matrixForElement("accel_z");
    rect = lineMatrix.mapRect(renderer->boundsOnElement("accel_z"));
    startX = rect.x();
    startY = rect.y()+ rect.height();
    accel_z = new QGraphicsSvgItem();
    accel_z->setSharedRenderer(renderer);
    accel_z->setElementId("accel_z");
    m_ahrs->ahrsBargraph->scene()->addItem(accel_z);
    accel_z->setPos(startX,startY);
    accel_z->setTransform(QTransform::fromScale(1,0),true);

    lineMatrix = renderer->matrixForElement("gyro_x");
    rect = lineMatrix.mapRect(renderer->boundsOnElement("gyro_x"));
    startX = rect.x();
    startY = rect.y()+ rect.height();
    gyro_x = new QGraphicsSvgItem();
    gyro_x->setSharedRenderer(renderer);
    gyro_x->setElementId("gyro_x");
    m_ahrs->ahrsBargraph->scene()->addItem(gyro_x);
    gyro_x->setPos(startX,startY);
    gyro_x->setTransform(QTransform::fromScale(1,0),true);

    lineMatrix = renderer->matrixForElement("gyro_y");
    rect = lineMatrix.mapRect(renderer->boundsOnElement("gyro_y"));
    startX = rect.x();
    startY = rect.y()+ rect.height();
    gyro_y = new QGraphicsSvgItem();
    gyro_y->setSharedRenderer(renderer);
    gyro_y->setElementId("gyro_y");
    m_ahrs->ahrsBargraph->scene()->addItem(gyro_y);
    gyro_y->setPos(startX,startY);
    gyro_y->setTransform(QTransform::fromScale(1,0),true);


    lineMatrix = renderer->matrixForElement("gyro_z");
    rect = lineMatrix.mapRect(renderer->boundsOnElement("gyro_z"));
    startX = rect.x();
    startY = rect.y()+ rect.height();
    gyro_z = new QGraphicsSvgItem();
    gyro_z->setSharedRenderer(renderer);
    gyro_z->setElementId("gyro_z");
    m_ahrs->ahrsBargraph->scene()->addItem(gyro_z);
    gyro_z->setPos(startX,startY);
    gyro_z->setTransform(QTransform::fromScale(1,0),true);

    lineMatrix = renderer->matrixForElement("mag_x");
    rect = lineMatrix.mapRect(renderer->boundsOnElement("mag_x"));
    startX = rect.x();
    startY = rect.y()+ rect.height();
    mag_x = new QGraphicsSvgItem();
    mag_x->setSharedRenderer(renderer);
    mag_x->setElementId("mag_x");
    m_ahrs->ahrsBargraph->scene()->addItem(mag_x);
    mag_x->setPos(startX,startY);
    mag_x->setTransform(QTransform::fromScale(1,0),true);

    lineMatrix = renderer->matrixForElement("mag_y");
    rect = lineMatrix.mapRect(renderer->boundsOnElement("mag_y"));
    startX = rect.x();
    startY = rect.y()+ rect.height();
    mag_y = new QGraphicsSvgItem();
    mag_y->setSharedRenderer(renderer);
    mag_y->setElementId("mag_y");
    m_ahrs->ahrsBargraph->scene()->addItem(mag_y);
    mag_y->setPos(startX,startY);
    mag_y->setTransform(QTransform::fromScale(1,0),true);

    lineMatrix = renderer->matrixForElement("mag_z");
    rect = lineMatrix.mapRect(renderer->boundsOnElement("mag_z"));
    startX = rect.x();
    startY = rect.y()+ rect.height();
    mag_z = new QGraphicsSvgItem();
    mag_z->setSharedRenderer(renderer);
    mag_z->setElementId("mag_z");
    m_ahrs->ahrsBargraph->scene()->addItem(mag_z);
    mag_z->setPos(startX,startY);
    mag_z->setTransform(QTransform::fromScale(1,0),true);

    position = -1;

    // Fill the dropdown menus:
    UAVObject *obj = dynamic_cast<UAVDataObject*>(getObjectManager()->getObject(QString("AHRSSettings")));
    UAVObjectField *field = obj->getField(QString("Algorithm"));
    m_ahrs->algorithm->addItems(field->getOptions());

    // Register for Home Location state changes
    obj = dynamic_cast<UAVDataObject*>(getObjectManager()->getObject(QString("HomeLocation")));
    connect(obj, SIGNAL(objectUpdated(UAVObject*)), this , SLOT(enableHomeLocSave(UAVObject*)));

    // Connect the signals
    connect(m_ahrs->ahrsCalibStart, SIGNAL(clicked()), this, SLOT(launchAHRSCalibration()));
    connect(m_ahrs->ahrsSettingsRequest, SIGNAL(clicked()), this, SLOT(ahrsSettingsRequest()));
    /*
    connect(m_ahrs->algorithm, SIGNAL(currentIndexChanged(int)), this, SLOT(ahrsSettingsSave()));
    connect(m_ahrs->indoorFlight, SIGNAL(stateChanged(int)), this, SLOT(homeLocationSave()));
    connect(m_ahrs->homeLocation, SIGNAL(clicked()), this, SLOT(homeLocationSaveSD()));
    */
    connect(m_ahrs->ahrsSettingsSaveRAM, SIGNAL(clicked()), this, SLOT(ahrsSettingsSaveRAM()));
    connect(m_ahrs->ahrsSettingsSaveSD, SIGNAL(clicked()), this, SLOT(ahrsSettingsSaveSD()));
    connect(m_ahrs->sixPointsStart, SIGNAL(clicked()), this, SLOT(sixPointCalibrationMode()));
    connect(m_ahrs->sixPointsSave, SIGNAL(clicked()), this, SLOT(savePositionData()));
    connect(parent, SIGNAL(autopilotConnected()),this, SLOT(ahrsSettingsRequest()));


}
Example #8
0
/**
  * Updates the slider positions and min/max values
  *
  */
void ConfigServoWidget::updateChannels(UAVObject* controlCommand)
{

    QString fieldName = QString("Connected");
    UAVObjectField *field = controlCommand->getField(fieldName);
	if (field->getValue().toBool())
        m_config->RCInputConnected->setText("RC Receiver Connected");
	else
        m_config->RCInputConnected->setText("RC Receiver Not Connected");

	if (m_config->doRCInputCalibration->isChecked())
	{
		if (firstUpdate)
		{
            // Increase the data rate from the board so that the sliders
            // move faster
            UAVObject::Metadata mdata = controlCommand->getMetadata();
            mdata.flightTelemetryUpdateMode = UAVObject::UPDATEMODE_PERIODIC;
            mccDataRate = mdata.flightTelemetryUpdatePeriod;
            mdata.flightTelemetryUpdatePeriod = 150;
            controlCommand->setMetadata(mdata);

            // Also protect the user by setting all values to zero
            // and making the ActuatorCommand object readonly
            UAVDataObject* obj = dynamic_cast<UAVDataObject*>(getObjectManager()->getObject(QString("ActuatorCommand")));
            mdata = obj->getMetadata();
            mdata.flightAccess = UAVObject::ACCESS_READONLY;
            obj->setMetadata(mdata);
            UAVObjectField *field = obj->getField("Channel");
            for (int i=0; i< field->getNumElements(); i++) {
                field->setValue(0,i);
            }
            obj->updated();

        }

		field = controlCommand->getField(QString("Channel"));
		for (int i = 0; i < 8; i++)
			updateChannelInSlider(inSliders[i], inMinLabels[i], inMaxLabels[i], reversals[i], field->getValue(i).toInt());

        firstUpdate = false;
	}
	else
	{
		if (!firstUpdate)
		{
            // Restore original data rate from the board:
            UAVObject::Metadata mdata = controlCommand->getMetadata();
            mdata.flightTelemetryUpdateMode = UAVObject::UPDATEMODE_PERIODIC;
            mdata.flightTelemetryUpdatePeriod = mccDataRate;
            controlCommand->setMetadata(mdata);

            UAVDataObject* obj = dynamic_cast<UAVDataObject*>(getObjectManager()->getObject(QString("ActuatorCommand")));
            mdata = obj->getMetadata();
            mdata.flightAccess = UAVObject::ACCESS_READWRITE;
            obj->setMetadata(mdata);

        }
        firstUpdate = true;
    }
    //Update the Flight mode channel slider
    UAVObject* obj = getObjectManager()->getObject("ManualControlSettings");
    // Find the channel currently assigned to flightmode
    field = obj->getField("FlightMode");
    int chIndex = field->getOptions().indexOf(field->getValue().toString());
	if (chIndex < field->getOptions().length() - 1)
	{
		float valueScaled;

		int chMin = inSliders[chIndex]->minimum();
		int chMax = inSliders[chIndex]->maximum();
		int chNeutral = inSliders[chIndex]->value();

		int value = controlCommand->getField("Channel")->getValue(chIndex).toInt();
		if ((chMax > chMin && value >= chNeutral) || (chMin > chMax && value <= chNeutral))
		{
			if (chMax != chNeutral)
				valueScaled = (float)(value - chNeutral) / (float)(chMax - chNeutral);
			else
				valueScaled = 0;
		}
		else
		{
			if (chMin != chNeutral)
				valueScaled = (float)(value - chNeutral) / (float)(chNeutral - chMin);
			else
				valueScaled = 0;
        }

        // Bound
		if (valueScaled >  1.0) valueScaled =  1.0;
		else
		if (valueScaled < -1.0) valueScaled = -1.0;

		m_config->fmsSlider->setValue(valueScaled * 100);
	}
}