class _NoScan(LayoutWidget):
def __init__(self, procdesc, state):
LayoutWidget.__init__(self)
scale = procdesc["scale"]
self.value = ScientificSpinBox()
disable_scroll_wheel(self.value)
self.value.setDecimals(procdesc["ndecimals"])
self.value.setPrecision()
if procdesc["global_min"] is not None:
self.value.setMinimum(procdesc["global_min"] / scale)
else:
self.value.setMinimum(float("-inf"))
if procdesc["global_max"] is not None:
self.value.setMaximum(procdesc["global_max"] / scale)
else:
self.value.setMaximum(float("inf"))
self.value.setSingleStep(procdesc["global_step"] / scale)
self.value.setRelativeStep()
if procdesc["unit"]:
self.value.setSuffix(" " + procdesc["unit"])
self.addWidget(QtWidgets.QLabel("Value:"), 0, 0)
self.addWidget(self.value, 0, 1)
self.value.setValue(state["value"] / scale)
def update(value):
state["value"] = value * scale
self.value.valueChanged.connect(update)
self.repetitions = QtWidgets.QSpinBox()
self.repetitions.setMinimum(1)
self.repetitions.setMaximum((1 << 31) - 1)
disable_scroll_wheel(self.repetitions)
self.addWidget(QtWidgets.QLabel("Repetitions:"), 1, 0)
self.addWidget(self.repetitions, 1, 1)
self.repetitions.setValue(state["repetitions"])
def update_repetitions(value):
state["repetitions"] = value
self.repetitions.valueChanged.connect(update_repetitions)
class _NoScan(LayoutWidget):
def __init__(self, procdesc, state):
LayoutWidget.__init__(self)
scale = procdesc["scale"]
self.value = ScientificSpinBox()
disable_scroll_wheel(self.value)
self.value.setDecimals(procdesc["ndecimals"])
self.value.setPrecision()
if procdesc["global_min"] is not None:
self.value.setMinimum(procdesc["global_min"] / scale)
else:
self.value.setMinimum(float("-inf"))
if procdesc["global_max"] is not None:
self.value.setMaximum(procdesc["global_max"] / scale)
else:
self.value.setMaximum(float("inf"))
self.value.setSingleStep(procdesc["global_step"] / scale)
self.value.setRelativeStep()
if procdesc["unit"]:
self.value.setSuffix(" " + procdesc["unit"])
self.addWidget(QtWidgets.QLabel("Value:"), 0, 0)
self.addWidget(self.value, 0, 1)
self.value.setValue(state["value"] / scale)
def update(value):
state["value"] = value * scale
self.value.valueChanged.connect(update)
self.repetitions = QtWidgets.QSpinBox()
self.repetitions.setMinimum(1)
self.repetitions.setMaximum((1 << 31) - 1)
disable_scroll_wheel(self.repetitions)
self.addWidget(QtWidgets.QLabel("Repetitions:"), 1, 0)
self.addWidget(self.repetitions, 1, 1)
self.repetitions.setValue(state["repetitions"])
def update_repetitions(value):
state["repetitions"] = value
self.repetitions.valueChanged.connect(update_repetitions)
def _make_spin_box(self):
box = ScientificSpinBox()
disable_scroll_wheel(box)
box.valueChanged.connect(self.value_changed)
spec = self.schema.get("spec", {})
step = spec.get("step", 1.0)
box.setDecimals(8)
box.setPrecision()
box.setSingleStep(step / self.scale)
box.setRelativeStep()
box.setMinimum(spec.get("min", float("-inf")) / self.scale)
box.setMaximum(spec.get("max", float("inf")) / self.scale)
unit = spec.get("unit", "")
if unit:
box.setSuffix(" " + unit)
return box
def __init__(self, procdesc, state):
LayoutWidget.__init__(self)
scale = procdesc["scale"]
def apply_properties(widget):
widget.setDecimals(procdesc["ndecimals"])
if procdesc["global_min"] is not None:
widget.setMinimum(procdesc["global_min"]/scale)
else:
widget.setMinimum(float("-inf"))
if procdesc["global_max"] is not None:
widget.setMaximum(procdesc["global_max"]/scale)
else:
widget.setMaximum(float("inf"))
if procdesc["global_step"] is not None:
widget.setSingleStep(procdesc["global_step"]/scale)
if procdesc["unit"]:
widget.setSuffix(" " + procdesc["unit"])
center = ScientificSpinBox()
disable_scroll_wheel(center)
apply_properties(center)
center.setPrecision()
center.setRelativeStep()
center.setValue(state["center"]/scale)
self.addWidget(center, 0, 1)
self.addWidget(QtWidgets.QLabel("Center:"), 0, 0)
span = ScientificSpinBox()
disable_scroll_wheel(span)
apply_properties(span)
span.setPrecision()
span.setRelativeStep()
span.setMinimum(0)
span.setValue(state["span"]/scale)
self.addWidget(span, 1, 1)
self.addWidget(QtWidgets.QLabel("Span:"), 1, 0)
step = ScientificSpinBox()
disable_scroll_wheel(step)
apply_properties(step)
step.setPrecision()
step.setRelativeStep()
step.setMinimum(0)
step.setValue(state["step"]/scale)
self.addWidget(step, 2, 1)
self.addWidget(QtWidgets.QLabel("Step:"), 2, 0)
randomize = QtWidgets.QCheckBox("Randomize")
self.addWidget(randomize, 3, 1)
randomize.setChecked(state["randomize"])
def update_center(value):
state["center"] = value*scale
def update_span(value):
state["span"] = value*scale
def update_step(value):
state["step"] = value*scale
def update_randomize(value):
state["randomize"] = value
center.valueChanged.connect(update_center)
span.valueChanged.connect(update_span)
step.valueChanged.connect(update_step)
randomize.stateChanged.connect(update_randomize)
def __init__(self, procdesc, state):
LayoutWidget.__init__(self)
scale = procdesc["scale"]
def apply_properties(widget):
widget.setDecimals(procdesc["ndecimals"])
if procdesc["global_min"] is not None:
widget.setMinimum(procdesc["global_min"]/scale)
else:
widget.setMinimum(float("-inf"))
if procdesc["global_max"] is not None:
widget.setMaximum(procdesc["global_max"]/scale)
else:
widget.setMaximum(float("inf"))
if procdesc["global_step"] is not None:
widget.setSingleStep(procdesc["global_step"]/scale)
if procdesc["unit"]:
widget.setSuffix(" " + procdesc["unit"])
center = ScientificSpinBox()
disable_scroll_wheel(center)
apply_properties(center)
center.setPrecision()
center.setRelativeStep()
center.setValue(state["center"])
self.addWidget(center, 0, 1)
self.addWidget(QtWidgets.QLabel("Center:"), 0, 0)
span = ScientificSpinBox()
disable_scroll_wheel(span)
apply_properties(span)
span.setPrecision()
span.setRelativeStep()
span.setMinimum(0)
span.setValue(state["span"])
self.addWidget(span, 1, 1)
self.addWidget(QtWidgets.QLabel("Span:"), 1, 0)
step = ScientificSpinBox()
disable_scroll_wheel(step)
apply_properties(step)
step.setPrecision()
step.setRelativeStep()
step.setMinimum(0)
step.setValue(state["step"])
self.addWidget(step, 2, 1)
self.addWidget(QtWidgets.QLabel("Step:"), 2, 0)
randomize = QtWidgets.QCheckBox("Randomize")
self.addWidget(randomize, 3, 1)
randomize.setChecked(state["randomize"])
def update_center(value):
state["center"] = value*scale
def update_span(value):
state["span"] = value*scale
def update_step(value):
state["step"] = value*scale
def update_randomize(value):
state["randomize"] = value
center.valueChanged.connect(update_center)
span.valueChanged.connect(update_span)
step.valueChanged.connect(update_step)
randomize.stateChanged.connect(update_randomize)
