void BioXASSSRLMonochromatorEnergyCalibrationView::setMono(BioXASSSRLMonochromator *newMono)
{
if (mono_ != newMono) {
if (mono_ && mono_->energyControl()) {
disconnect( mono_->energyControl(), 0, this, 0 );
}
mono_ = newMono;
if (mono_ && mono_->energyControl()) {
connect( mono_->energyControl(), SIGNAL(movingChanged(bool)), this, SLOT(updateCalibrateButton()) );
connect( mono_->energyControl(), SIGNAL(calibrationStarted()), this, SLOT(onCalibrationStarted()) );
connect( mono_->energyControl(), SIGNAL(calibrationFailed(int)), this, SLOT(onCalibrationFailed()) );
connect( mono_->energyControl(), SIGNAL(calibrationSucceeded()), this, SLOT(onCalibrationSucceeded()) );
}
update();
emit monoChanged(mono_);
}
void BioXASPersistentView::setMono(BioXASSSRLMonochromator *newMono)
{
if (mono_ != newMono) {
if (mono_) {
energyEditor_->setControl(0);
regionEditor_->setControl(0);
braggEditor_->setControl(0);
}
mono_ = newMono;
if (mono_) {
energyEditor_->setControl(mono_->energyControl());
regionEditor_->setControl(mono_->regionControl());
braggEditor_->setControl(mono_->braggMotor());
}
emit monoChanged(mono_);
}
}
void BioXASSSRLMonochromatorConfigurationView::setMono(BioXASSSRLMonochromator *newMono)
{
if (mono_ != newMono) {
if (mono_)
disconnect( mono_, 0, this, 0 );
mono_ = newMono;
if (mono_) {
connect( mono_, SIGNAL(verticalChanged(CLSMAXvMotor*)), this, SLOT(updateHeightEditor()) );
connect( mono_, SIGNAL(lateralChanged(CLSMAXvMotor*)), this, SLOT(updateLateralEditor()) );
connect( mono_, SIGNAL(paddleChanged(BioXASMAXvMotor*)), this, SLOT(updatePaddleEditor()) );
connect( mono_, SIGNAL(regionChanged(AMControl*)), this, SLOT(updateRegionEditor()) );
connect( mono_, SIGNAL(regionChanged(AMControl*)), this, SLOT(updateRegionStatusView()) );
}
refresh();
emit monoChanged(mono_);
}
}
void BioXASSSRLMonochromatorEnergyView::setMono(BioXASSSRLMonochromator *newControl)
{
if (mono_ != newControl) {
if (mono_)
disconnect( mono_, 0, this, 0 );
mono_ = newControl;
if (mono_) {
connect( mono_, SIGNAL(stepEnergyChanged(BioXASSSRLMonochromatorEnergyControl*)), this, SLOT(updateStepEnergyEditor()) );
connect( mono_, SIGNAL(encoderEnergyChanged(BioXASSSRLMonochromatorEnergyControl*)), this, SLOT(updateEncoderEnergyEditor()) );
connect( mono_, SIGNAL(stepBraggChanged(BioXASMAXvMotor*)), this, SLOT(updateStepBraggEditor()) );
connect( mono_, SIGNAL(encoderBraggChanged(BioXASMAXvMotor*)), this, SLOT(updateEncoderBraggEditor()) );
connect( mono_, SIGNAL(m1MirrorPitchControlChanged(AMControl*)), this, SLOT(updateMirrorPitchEditor()) );
connect( mono_, SIGNAL(braggChanged(BioXASMAXvMotor*)), this, SLOT(updateBraggConfigurationView()) );
}
refresh();
emit monoChanged(mono_);
}
}
void BioXASSSRLMonochromatorConfigurationView::setMono(BioXASSSRLMonochromator *newMono)
{
if (mono_ != newMono) {
if (mono_) {
// Clear UI elements.
upperSlitEditor_->setControl(0);
lowerSlitEditor_->setControl(0);
heightEditor_->setControl(0);
lateralEditor_->setControl(0);
paddleEditor_->setControl(0);
crystal1PitchEditor_->setControl(0);
crystal1RollEditor_->setControl(0);
crystal2PitchEditor_->setControl(0);
crystal2RollEditor_->setControl(0);
regionEditor_->setControl(0);
regionStatusWidget_->setRegionControl(0);
stepEnergyEditor_->setControl(0);
encoderEnergyEditor_->setControl(0);
stepBraggEditor_->setControl(0);
encoderBraggEditor_->setControl(0);
m1PitchEditor_->setControl(0);
braggConfigWidget_->setBraggMotor(0);
}
mono_ = newMono;
if (mono_) {
// Update UI elements.
upperSlitEditor_->setControl(mono_->upperSlitControl());
lowerSlitEditor_->setControl(mono_->lowerSlitControl());
heightEditor_->setControl(mono_->verticalMotor());
lateralEditor_->setControl(mono_->lateralMotor());
paddleEditor_->setControl(mono_->paddleControl());
crystal1PitchEditor_->setControl(mono_->crystal1PitchMotor());
crystal1RollEditor_->setControl(mono_->crystal1RollMotor());
crystal2PitchEditor_->setControl(mono_->crystal2PitchMotor());
crystal2RollEditor_->setControl(mono_->crystal2RollMotor());
regionEditor_->setControl(mono_->regionControl());
regionStatusWidget_->setRegionControl(mono_->regionControl());
stepEnergyEditor_->setControl(mono_->stepEnergyControl());
encoderEnergyEditor_->setControl(mono_->encoderEnergyControl());
stepBraggEditor_->setControl(mono_->stepBraggControl());
encoderBraggEditor_->setControl(mono_->encoderBraggControl());
m1PitchEditor_->setControl(mono_->m1MirrorPitchControl());
braggConfigWidget_->setBraggMotor(mono_->braggMotor());
}
emit monoChanged(mono_);
}
}