void CLSValueEditor::setMaximumValue(double maximumValue)
{
if (maximumValue_ != maximumValue) {
maximumValue_ = maximumValue;
emit maximumValueChanged(maximumValue_);
}
}
Aperture::Aperture(QtCamDevice *dev, QObject *parent) :
Capability(parent),
m_aperture(new QtCamAperture(dev, this)) {
setCapability(m_aperture);
QObject::connect(m_aperture, SIGNAL(valueChanged()), this, SIGNAL(valueChanged()));
QObject::connect(m_aperture, SIGNAL(minimumValueChanged()), this, SIGNAL(minimumChanged()));
QObject::connect(m_aperture, SIGNAL(maximumValueChanged()), this, SIGNAL(maximunmChanged()));
}
Iso::Iso(QtCamDevice *dev, QObject *parent) :
Capability(parent),
m_iso(new QtCamIso(dev, this)) {
setCapability(m_iso);
QObject::connect(m_iso, SIGNAL(valueChanged()), this, SIGNAL(valueChanged()));
QObject::connect(m_iso, SIGNAL(minimumValueChanged()), this, SIGNAL(minimumChanged()));
QObject::connect(m_iso, SIGNAL(maximumValueChanged()), this, SIGNAL(maximunmChanged()));
}
void AMPVwStatusAndUnitConversionControl::setHighLimitValue(double newHighLimit)
{
highLimitValue_ = writeUnitConverter()->convertFromRaw(newHighLimit);
emit maximumValueChanged(highLimitValue_);
}
void AMReadOnlyPVControl::setHighLimitValue(double newHighLimit)
{
highLimitValue_ = newHighLimit;
emit maximumValueChanged(highLimitValue_);
}
