Exemplo n.º 1
0
void CLSSIS3820Scaler::measureDarkCurrent(int secondsDwell)
{
	AMAction3 *action = createMeasureDarkCurrentAction(secondsDwell);

	if (action) {
		connect( action, SIGNAL(cancelled()), action, SLOT(deleteLater()) );
		connect( action, SIGNAL(failed()), action, SLOT(deleteLater()) );
		connect( action, SIGNAL(succeeded()), action, SLOT(deleteLater()) );

		action->start();
	}
}
void CLSSIS3820ScalerDarkCurrentMeasurementAction::startImplementation()
{
	// Must have a valid, connected scaler.

	CLSSIS3820Scaler *scaler = CLSBeamline::clsBeamline()->scaler();

	if (! (scaler && scaler->isConnected()) ) {
		QString message = QString("There was an error measuring scaler dark current. The scaler is invalid or not connected.");
		AMErrorMon::alert(this, CLSSIS3820SCALERDARKCURRENTMEASUREMENTACTION_INVALID_SCALER, message);
		setFailed(message);
	}

	// Must have a valid dwell time.

	double secondsDwell = scalerDarkCurrentMeasurementActionInfo()->dwellTime();

	if (!validDwellTime(secondsDwell)) {
		QString message = QString("There was an error measuring scaler dark current. The dwell time provided (%1 s) is invalid.").arg(secondsDwell);
		AMErrorMon::alert(this, CLSSIS3820SCALERDARKCURRENTMEASUREMENTACTION_INVALID_DWELL_TIME, message);
		setFailed(message);
	}

	// Update pre-measurement settings, to be restored once measurement is complete.

	measurementInitialization();

	// Create measurement action.

	AMAction3 *measurementAction = createMeasurementAction(secondsDwell);

	// Make connections and start action.

	if (measurementAction) {

		startedMapper_->setMapping(measurementAction, measurementAction);
		failedMapper_->setMapping(measurementAction, measurementAction);
		succeededMapper_->setMapping(measurementAction, measurementAction);

		connect( measurementAction, SIGNAL(started()), startedMapper_, SLOT(map()) );
		connect( measurementAction, SIGNAL(failed()), failedMapper_, SLOT(map()) );
		connect( measurementAction, SIGNAL(succeeded()), succeededMapper_, SLOT(map()) );

		measurementAction->start();

	} else {

		QString message = QString("There was an error measuring scaler dark current. An invalid measurement action was generated.");
		AMErrorMon::alert(this, CLSSIS3820SCALERDARKCURRENTMEASUREMENTACTION_INVALID_ACTION, message);
		setFailed(message);
	}
}
Exemplo n.º 3
0
AMControl::FailureExplanation CLSMAXvMotor::calibrate(double oldValue, double newValue)
{
	// Check that this motor is connected and able to be calibrated before proceeding.

	if (!isConnected()) {
		AMErrorMon::alert(this, CLSMAXVMOTOR_NOT_CONNECTED, QString("Failed to calibrate %1: motor is not connected.").arg(name()));
		return AMControl::NotConnectedFailure;
	}

	if (!canCalibrate()) {
		AMErrorMon::alert(this, CLSMAXVMOTOR_CANNOT_CALIBRATE, QString("Failed to calibrate %1: motor cannot currently be calibrated.").arg(name()));
		return AMControl::OtherFailure;
	}

	// Proceed with creating calibration action.

	AMAction3 *action = createCalibrationAction(oldValue, newValue);

	// Check that a valid calibration action was generated.
	// If an invalid calibration action was generated, abort the calibration.

	if (!action) {
		AMErrorMon::alert(this, CLSMAXVMOTOR_INVALID_CALIBRATION_ACTION, QString("Did not calibrate %1: invalid calibration action generated.").arg(name()));
		return AMControl::LimitFailure;
	}

	// Proceed with initializing the calibration action.
	// Connect it's final-state signals to its deleteLater() slot to prevent memory leak.

	connect( action, SIGNAL(cancelled()), action, SLOT(deleteLater()) );
	connect( action, SIGNAL(failed()), action, SLOT(deleteLater()) );
	connect( action, SIGNAL(succeeded()), action, SLOT(deleteLater()) );

	// Run action.

	action->start();

	return AMControl::NoFailure;
}
Exemplo n.º 4
0
void VESPERSBeamSelectorView::changeBeam(int id)
{
	AMAction3 *action = 0;

	switch(id){

	case 0:
		action = VESPERSBeamline::vespers()->createBeamChangeAction(VESPERS::Pink);
		break;

	case 1:
		action = VESPERSBeamline::vespers()->createBeamChangeAction(VESPERS::TenPercent);
		break;

	case 2:
		action = VESPERSBeamline::vespers()->createBeamChangeAction(VESPERS::OnePointSixPercent);
		break;

	case 3:
		action = VESPERSBeamline::vespers()->createBeamChangeAction(VESPERS::Si);
		break;
	}

	if (!action)
		return;

	progressBar_->setRange(0, 0);
	progressBar_->show();
	connect(action, SIGNAL(cancelled()), this, SLOT(onBeamChangeCompleted()));
	connect(action, SIGNAL(failed()), this, SLOT(onBeamChangeCompleted()));
	connect(action, SIGNAL(succeeded()), this, SLOT(onBeamChangeCompleted()));
	connect(action, SIGNAL(cancelled()), action, SLOT(deleteLater()));
	connect(action, SIGNAL(failed()), action, SLOT(deleteLater()));
	connect(action, SIGNAL(succeeded()), action, SLOT(deleteLater()));
	action->start();
}