class AbsoluteRelativeSpinBox(QWidget):
editingFinished = pyqtSignal()
valueChanged = pyqtSignal()
def __init__(self, *args, **kwargs):
super().__init__(*args)
layout = QStackedLayout(self)
self.double_spin = QDoubleSpinBox()
self.double_spin.valueChanged.connect(self.double_value_changed)
self.double_spin.editingFinished.connect(self.double_editing_finished)
layout.addWidget(self.double_spin)
self.int_spin = QSpinBox()
self.int_spin.setMaximum(10**4)
self.int_spin.valueChanged.connect(self.int_value_changed)
self.int_spin.editingFinished.connect(self.int_editing_finished)
layout.addWidget(self.int_spin)
self.setValue(kwargs.get('value', 0.))
def double_value_changed(self):
if self.double_spin.value() > 1:
self.layout().setCurrentIndex(1)
self.int_spin.setValue(self.double_spin.value())
self.valueChanged.emit()
def double_editing_finished(self):
if self.double_spin.value() <= 1.:
self.editingFinished.emit()
def int_value_changed(self):
if self.int_spin.value() == 0:
self.layout().setCurrentIndex(0)
self.double_spin.setValue(1. - self.double_spin.singleStep())
# There is no need to emit valueChanged signal.
def int_editing_finished(self):
if self.int_spin.value() > 0:
self.editingFinished.emit()
def value(self):
return self.int_spin.value() or self.double_spin.value()
def setValue(self, value):
if isinstance(value, int):
self.layout().setCurrentIndex(1)
self.int_spin.setValue(value)
else:
self.layout().setCurrentIndex(0)
self.double_spin.setValue(value)
def setSingleStep(self, step):
if isinstance(step, float):
self.double_spin.setSingleStep(step)
else:
self.int_spin.setSingleStep(step)
class AbsoluteRelativeSpinBox(QWidget):
editingFinished = pyqtSignal()
valueChanged = pyqtSignal()
def __init__(self, *args, **kwargs):
super().__init__(*args)
layout = QStackedLayout(self)
self.double_spin = QDoubleSpinBox()
self.double_spin.valueChanged.connect(self.double_value_changed)
self.double_spin.editingFinished.connect(self.double_editing_finished)
layout.addWidget(self.double_spin)
self.int_spin = QSpinBox()
self.int_spin.setMaximum(10 ** 4)
self.int_spin.valueChanged.connect(self.int_value_changed)
self.int_spin.editingFinished.connect(self.int_editing_finished)
layout.addWidget(self.int_spin)
self.setValue(kwargs.get('value', 0.))
def double_value_changed(self):
if self.double_spin.value() > 1:
self.layout().setCurrentIndex(1)
self.int_spin.setValue(self.double_spin.value())
self.valueChanged.emit()
def double_editing_finished(self):
if self.double_spin.value() <= 1.:
self.editingFinished.emit()
def int_value_changed(self):
if self.int_spin.value() == 0:
self.layout().setCurrentIndex(0)
self.double_spin.setValue(1. - self.double_spin.singleStep())
# There is no need to emit valueChanged signal.
def int_editing_finished(self):
if self.int_spin.value() > 0:
self.editingFinished.emit()
def value(self):
return self.int_spin.value() or self.double_spin.value()
def setValue(self, value):
if isinstance(value, int):
self.layout().setCurrentIndex(1)
self.int_spin.setValue(value)
else:
self.layout().setCurrentIndex(0)
self.double_spin.setValue(value)
def setSingleStep(self, step):
if isinstance(step, float):
self.double_spin.setSingleStep(step)
else:
self.int_spin.setSingleStep(step)
