def _init_ui(self): # Widgets self._txt_step_count = NumericalAttributeLineEdit(self.CLASS.step_count) self._txt_step_count.setFormat('{0:d}') self._txt_step_size = NumericalAttributeLineEdit(self.CLASS.step_size) self._txt_frame_count = NumericalAttributeLineEdit(self.CLASS.frame_count) self._txt_frame_count.setFormat('{0:d}') self._wdg_position_start = SpecimenPositionWidget(inline=True) self._wdg_position_end = SpecimenPositionWidget(inline=True) # Layout layout = _AcquisitionRasterWidget._init_ui(self) layout.insertRow(0, '<i>Step count</i>', self._txt_step_count) layout.insertRow(1, 'Step size', self._txt_step_size) layout.addRow('Frame count', self._txt_frame_count) layout.addRow('Start position', self._wdg_position_start) layout.addRow('End position', self._wdg_position_end) # Signals self._txt_step_count.textEdited.connect(self.edited) self._txt_step_size.textEdited.connect(self.edited) self._txt_frame_count.textEdited.connect(self.edited) self._wdg_position_start.edited.connect(self.edited) self._wdg_position_end.edited.connect(self.edited) return layout
def _init_ui(self): # Widgets self._txt_pixel_count_u = NumericalAttributeLineEdit(self.CLASS.pixel_count_u) self._txt_pixel_count_u.setFormat('{0:d}') self._txt_pixel_count_v = NumericalAttributeLineEdit(self.CLASS.pixel_count_v) self._txt_pixel_count_v.setFormat('{0:d}') self._txt_exposure_time = NumericalAttributeLineEdit(self.CLASS.exposure_time) self._txt_magnification = NumericalAttributeLineEdit(self.CLASS.magnification) self._txt_magnification.setFormat('{0:d}') self._txt_focal_length = NumericalAttributeLineEdit(self.CLASS.focal_length) # Layout layout = _DetectorWidget._init_ui(self) layout.insertRow(0, 'Horizontal pixel count', self._txt_pixel_count_u) layout.insertRow(1, 'Vertical pixel count', self._txt_pixel_count_v) layout.addRow('Exposure time', self._txt_exposure_time) layout.addRow('Magnification', self._txt_magnification) layout.addRow('Focal length', self._txt_focal_length) # Signals self._txt_pixel_count_u.textEdited.connect(self.edited) self._txt_pixel_count_v.textEdited.connect(self.edited) self._txt_exposure_time.textEdited.connect(self.edited) self._txt_magnification.textEdited.connect(self.edited) self._txt_focal_length.textEdited.connect(self.edited) return layout
def _init_ui(self): # Widgets self._txt_bias = NumericalAttributeLineEdit(self.CLASS.bias) self._txt_gain = NumericalAttributeLineEdit(self.CLASS.gain) self._txt_base_level = NumericalAttributeLineEdit(self.CLASS.base_level) self._txt_window = NumericalAttributeLineEdit(self.CLASS.window) self._cb_mode = QComboBox() self._cb_mode.addItems([None] + list(_PHA_MODES)) # Layouts layout = ParameterWidget._init_ui(self) layout.addRow('Bias', self._txt_bias) layout.addRow('Gain', self._txt_gain) layout.addRow('Base level', self._txt_base_level) layout.addRow('Window', self._txt_window) layout.addRow('Mode', self._cb_mode) # Signals self._txt_bias.textEdited.connect(self.edited) self._txt_gain.textEdited.connect(self.edited) self._txt_base_level.textEdited.connect(self.edited) self._txt_window.textEdited.connect(self.edited) self._cb_mode.currentIndexChanged.connect(self.edited) return layout
def _init_ui(self): # Widgets self._txt_step_count_x = NumericalAttributeLineEdit(self.CLASS.step_count_x) self._txt_step_count_x.setFormat('{0:d}') self._txt_step_count_y = NumericalAttributeLineEdit(self.CLASS.step_count_y) self._txt_step_count_y.setFormat('{0:d}') self._txt_step_size_x = NumericalAttributeLineEdit(self.CLASS.step_size_x) self._txt_step_size_y = NumericalAttributeLineEdit(self.CLASS.step_size_y) self._txt_frame_count = NumericalAttributeLineEdit(self.CLASS.frame_count) self._txt_frame_count.setFormat('{0:d}') self._cb_location = QComboBox() self._cb_location.addItems(list(_POSITION_LOCATIONS)) self._wdg_position = SpecimenPositionWidget(inline=True) # Layouts layout = _AcquisitionRasterWidget._init_ui(self) layout.insertRow(0, '<i>Step count (x)</i>', self._txt_step_count_x) layout.insertRow(1, '<i>Step count (y)</i>', self._txt_step_count_y) layout.insertRow(2, 'Step size (x)', self._txt_step_size_x) layout.insertRow(3, 'Step size (y)', self._txt_step_size_y) layout.addRow('Frame count', self._txt_frame_count) layout.addRow('Position', self._cb_location) layout.addWidget(self._wdg_position) # Signals self._txt_step_count_x.textEdited.connect(self.edited) self._txt_step_count_y.textEdited.connect(self.edited) self._txt_step_size_x.textEdited.connect(self.edited) self._txt_step_size_y.textEdited.connect(self.edited) self._txt_frame_count.textEdited.connect(self.edited) self._cb_location.currentIndexChanged.connect(self.edited) self._wdg_position.edited.connect(self.edited) return layout
def _init_ui(self): # Widgets self._cb_technology = QComboBox() self._cb_technology.addItems([None] + list(_XEDS_TECHNOLOGIES)) self._txt_nominal_throughput = NumericalAttributeLineEdit(self.CLASS.nominal_throughput) self._txt_time_constant = NumericalAttributeLineEdit(self.CLASS.time_constant) self._txt_strobe_rate = NumericalAttributeLineEdit(self.CLASS.strobe_rate) self._wdg_window = WindowWidget() # Layout form = DetectorSpectrometerWidget._init_ui(self) form.addRow('Technology', self._cb_technology) form.addRow('Nominal throughput', self._txt_nominal_throughput) form.addRow('Time constant', self._txt_time_constant) form.addRow('Strobe rate', self._txt_strobe_rate) form.addRow('Window', self._wdg_window) # Signals self._cb_technology.currentIndexChanged.connect(self.edited) self._txt_nominal_throughput.textEdited.connect(self.edited) self._txt_time_constant.textEdited.connect(self.edited) self._txt_strobe_rate.textEdited.connect(self.edited) self._wdg_window.edited.connect(self.edited) return form
class DetectorSpectrometerWidget(_DetectorWidget): def __init__(self, parent=None): _DetectorWidget.__init__(self, DetectorSpectrometer, parent) def _init_ui(self): # Widgets self._txt_channel_count = NumericalAttributeLineEdit(self.CLASS.channel_count) self._txt_channel_count.setFormat('{0:d}') self._wdg_calibration = CalibrationWidget() self._cb_collection_mode = QComboBox() self._cb_collection_mode.addItems([None] + list(_COLLECTION_MODES)) # Layout layout = _DetectorWidget._init_ui(self) layout.insertRow(0, '<i>Channel count</i>', self._txt_channel_count) layout.insertRow(1, '<i>Calibration</i>', self._wdg_calibration) layout.addRow('Collection mode', self._cb_collection_mode) # Signals self._txt_channel_count.textEdited.connect(self.edited) self._wdg_calibration.edited.connect(self.edited) self._cb_collection_mode.currentIndexChanged.connect(self.edited) return layout def _create_parameter(self): return self.CLASS(1, CalibrationConstant('Quantity', 'm', 0.0)) def parameter(self, parameter=None): parameter = _DetectorWidget.parameter(self, parameter) parameter.channel_count = self._txt_channel_count.text() parameter.calibration = self._wdg_calibration.calibration() parameter.collection_mode = self._cb_collection_mode.currentText() return parameter def setParameter(self, condition): _DetectorWidget.setParameter(self, condition) self._txt_channel_count.setText(condition.channel_count) self._wdg_calibration.setCalibration(condition.calibration) self._cb_collection_mode.setCurrentIndex(self._cb_collection_mode.findText(condition.collection_mode)) def setReadOnly(self, state): _DetectorWidget.setReadOnly(self, state) self._txt_channel_count.setReadOnly(state) self._wdg_calibration.setReadOnly(state) self._cb_collection_mode.setEnabled(not state) def isReadOnly(self): return _DetectorWidget.isReadOnly(self) and \ self._txt_channel_count.isReadOnly() and \ self._wdg_calibration.isReadOnly() and \ not self._cb_collection_mode.isEnabled() def hasAcceptableInput(self): return _DetectorWidget.hasAcceptableInput(self) and \ self._txt_channel_count.hasAcceptableInput() and \ self._wdg_calibration.hasAcceptableInput()
def _init_ui(self): # Widgets self._txt_gain = NumericalAttributeLineEdit(self.CLASS.gain) self._txt_offset = NumericalAttributeLineEdit(self.CLASS.offset) # Layouts layout = _CalibrationWidget._init_ui(self) layout.addRow('<i>Gain</i>', self._txt_gain) layout.addRow('<i>Offset</i>', self._txt_offset) # Signals self._txt_gain.textEdited.connect(self.edited) self._txt_offset.textEdited.connect(self.edited) return layout
def _init_ui(self): # Widgets self._txt_dwell_time = NumericalAttributeLineEdit(self.CLASS.dwell_time) self._txt_total_time = NumericalAttributeLineEdit(self.CLASS.total_time) self._txt_dwell_time_live = NumericalAttributeLineEdit(self.CLASS.dwell_time_live) # Layouts layout = _ConditionWidget._init_ui(self) layout.addRow('Dwell time', self._txt_dwell_time) layout.addRow('Total time', self._txt_total_time) layout.addRow('Dwell time (live)', self._txt_dwell_time_live) # Signals self._txt_dwell_time.textEdited.connect(self.edited) self._txt_total_time.textEdited.connect(self.edited) self._txt_dwell_time_live.textEdited.connect(self.edited) return layout
def _init_ui(self): # Widgets self._txt_x = NumericalAttributeLineEdit(self._class.x) self._txt_y = NumericalAttributeLineEdit(self._class.y) self._txt_z = NumericalAttributeLineEdit(self._class.z) self._txt_r = NumericalAttributeLineEdit(self._class.r) self._txt_t = NumericalAttributeLineEdit(self._class.t) # Layouts if self._inline: layout = QVBoxLayout() layout_xyz = QHBoxLayout() layout_xyz.addWidget(QLabel('X')) layout_xyz.addWidget(self._txt_x) layout_xyz.addWidget(QLabel('Y')) layout_xyz.addWidget(self._txt_y) layout_xyz.addWidget(QLabel('Z')) layout_xyz.addWidget(self._txt_z) layout_rt = QHBoxLayout() layout_rt.addWidget(QLabel('R')) layout_rt.addWidget(self._txt_r) layout_rt.addWidget(QLabel('T')) layout_rt.addWidget(self._txt_t) layout.addLayout(layout_xyz) layout.addLayout(layout_rt) else: layout = _ConditionWidget._init_ui(self) layout.addRow('X', self._txt_x) layout.addRow('Y', self._txt_y) layout.addRow('Z', self._txt_z) layout.addRow('R', self._txt_r) layout.addRow('T', self._txt_t) # Signals self._txt_x.textEdited.connect(self.edited) self._txt_y.textEdited.connect(self.edited) self._txt_z.textEdited.connect(self.edited) self._txt_r.textEdited.connect(self.edited) self._txt_t.textEdited.connect(self.edited) return layout
def _init_ui(self): # Widgets self._txt_grating_d = NumericalAttributeLineEdit(self.CLASS.grating_d) # Layouts layout = DetectorSpectrometerWidget._init_ui(self) layout.addRow('Grating spacing', self._txt_grating_d) # Signals self._txt_grating_d.textEdited.connect(self.edited) return layout
def _init_ui(self): # Widgets self._txt_value = NumericalAttributeLineEdit(self.CLASS.value) # Layouts layout = _CalibrationWidget._init_ui(self) layout.addRow('<i>Value</i>', self._txt_value) # Signals self._txt_value.textEdited.connect(self.edited) return layout
def _init_ui(self): # Widgets self._txt_line = TextAttributeLineEdit(self.CLASS.line) self._txt_energy = NumericalAttributeLineEdit(self.CLASS.energy) # Layouts layout = ElementalIDWidget._init_ui(self) layout.addRow('<i>Line</i>', self._txt_line) layout.addRow('Energy', self._txt_energy) # Signals self._txt_line.textEdited.connect(self.edited) self._txt_energy.textEdited.connect(self.edited) return layout
def _init_ui(self): # Widgets self._txt_dispersion_element = TextAttributeLineEdit(self.CLASS.dispersion_element) self._txt_crystal_2d = NumericalAttributeLineEdit(self.CLASS.crystal_2d) self._txt_rowland_circle_diameter = NumericalAttributeLineEdit(self.CLASS.rowland_circle_diameter) self._wdg_pulse_height_analyser = PulseHeightAnalyserWidget() self._wdg_window = WindowWidget() # Layouts layout = DetectorSpectrometerWidget._init_ui(self) layout.addRow('Dispersion element', self._txt_dispersion_element) layout.addRow('Crystal 2d-spacing', self._txt_crystal_2d) layout.addRow('Rowland circle diameter', self._txt_rowland_circle_diameter) layout.addRow('Pulse height analyser', self._wdg_pulse_height_analyser) layout.addRow('Window', self._wdg_window) # Signals self._txt_dispersion_element.textEdited.connect(self.edited) self._txt_crystal_2d.textEdited.connect(self.edited) self._txt_rowland_circle_diameter.textEdited.connect(self.edited) self._wdg_pulse_height_analyser.edited.connect(self.edited) self._wdg_window.edited.connect(self.edited) return layout
class ElementalIDXrayWidget(ElementalIDWidget): def __init__(self, parent=None): _ConditionWidget.__init__(self, ElementalIDXray, parent) def _init_ui(self): # Widgets self._txt_line = TextAttributeLineEdit(self.CLASS.line) self._txt_energy = NumericalAttributeLineEdit(self.CLASS.energy) # Layouts layout = ElementalIDWidget._init_ui(self) layout.addRow('<i>Line</i>', self._txt_line) layout.addRow('Energy', self._txt_energy) # Signals self._txt_line.textEdited.connect(self.edited) self._txt_energy.textEdited.connect(self.edited) return layout def _create_parameter(self): return self.CLASS(1, 'Ka') def parameter(self, parameter=None): parameter = ElementalIDWidget.parameter(self, parameter) parameter.line = self._txt_line.text() parameter.energy = self._txt_energy.text() return parameter def setParameter(self, condition): ElementalIDWidget.setParameter(self, condition) self._txt_line.setText(condition.line) self._txt_energy.setText(condition.energy) def setReadOnly(self, state): ElementalIDWidget.setReadOnly(self, state) self._txt_line.setReadOnly(state) self._txt_energy.setReadOnly(state) def isReadOnly(self): return ElementalIDWidget.isReadOnly(self) and \ self._txt_line.isReadOnly() and \ self._txt_energy.isReadOnly() def hasAcceptableInput(self): return ElementalIDWidget.hasAcceptableInput(self) and \ self._txt_line.hasAcceptableInput() and \ self._txt_energy.hasAcceptableInput()
def _init_ui(self): # Widgets self._cb_signal_type = QComboBox() self._cb_signal_type.addItems([None] + list(_SIGNAL_TYPES)) self._txt_manufacturer = TextAttributeLineEdit(self.CLASS.manufacturer) self._txt_model = TextAttributeLineEdit(self.CLASS.model) self._txt_serial_number = TextAttributeLineEdit(self.CLASS.serial_number) self._txt_measurement_unit = UnitAttributeLineEdit(self.CLASS.measurement_unit) self._txt_elevation = NumericalAttributeLineEdit(self.CLASS.elevation) self._txt_azimuth = NumericalAttributeLineEdit(self.CLASS.azimuth) self._txt_distance = NumericalAttributeLineEdit(self.CLASS.distance) self._txt_area = NumericalAttributeLineEdit(self.CLASS.area) self._txt_solid_angle = NumericalAttributeLineEdit(self.CLASS.solid_angle) self._txt_semi_angle = NumericalAttributeLineEdit(self.CLASS.semi_angle) self._txt_temperature = NumericalAttributeLineEdit(self.CLASS.temperature) # Layout layout = _ConditionWidget._init_ui(self) layout.addRow('Type of signal', self._cb_signal_type) layout.addRow('Manufacturer', self._txt_manufacturer) layout.addRow('Model', self._txt_model) layout.addRow('Serial number', self._txt_serial_number) layout.addRow('Measurement unit', self._txt_measurement_unit) layout.addRow('Elevation', self._txt_elevation) layout.addRow('Azimuth', self._txt_azimuth) layout.addRow('Distance', self._txt_distance) layout.addRow('Area', self._txt_area) layout.addRow('Solid angle', self._txt_solid_angle) layout.addRow('Semi angle', self._txt_semi_angle) layout.addRow('Temperature', self._txt_temperature) # Signals self._cb_signal_type.currentIndexChanged.connect(self.edited) self._txt_manufacturer.textEdited.connect(self.edited) self._txt_model.textEdited.connect(self.edited) self._txt_serial_number.textEdited.connect(self.edited) self._txt_measurement_unit.textEdited.connect(self.edited) self._txt_elevation.textEdited.connect(self.edited) self._txt_azimuth.textEdited.connect(self.edited) self._txt_distance.textEdited.connect(self.edited) self._txt_area.textEdited.connect(self.edited) self._txt_solid_angle.textEdited.connect(self.edited) self._txt_semi_angle.textEdited.connect(self.edited) self._txt_temperature.textEdited.connect(self.edited) return layout
def _init_ui(self): # Widgets self._txt_channel_count = NumericalAttributeLineEdit(self.CLASS.channel_count) self._txt_channel_count.setFormat('{0:d}') self._wdg_calibration = CalibrationWidget() self._cb_collection_mode = QComboBox() self._cb_collection_mode.addItems([None] + list(_COLLECTION_MODES)) # Layout layout = _DetectorWidget._init_ui(self) layout.insertRow(0, '<i>Channel count</i>', self._txt_channel_count) layout.insertRow(1, '<i>Calibration</i>', self._wdg_calibration) layout.addRow('Collection mode', self._cb_collection_mode) # Signals self._txt_channel_count.textEdited.connect(self.edited) self._wdg_calibration.edited.connect(self.edited) self._cb_collection_mode.currentIndexChanged.connect(self.edited) return layout
class CalibrationConstantWidget(_CalibrationWidget): def __init__(self, parent=None): _CalibrationWidget.__init__(self, CalibrationConstant, parent) # self.setAccessibleName('constant') def _init_ui(self): # Widgets self._txt_value = NumericalAttributeLineEdit(self.CLASS.value) # Layouts layout = _CalibrationWidget._init_ui(self) layout.addRow('<i>Value</i>', self._txt_value) # Signals self._txt_value.textEdited.connect(self.edited) return layout def _create_parameter(self): return self.CLASS('Quantity', 'm', 0.0) def parameter(self, parameter=None): parameter = _CalibrationWidget.parameter(self, parameter) parameter.value = self._txt_value.text() return parameter def setParameter(self, calibration): _CalibrationWidget.setParameter(self, calibration) self._txt_value.setText(calibration.value) def setReadOnly(self, state): _CalibrationWidget.setReadOnly(self, state) self._txt_value.setReadOnly(state) def isReadOnly(self): return _CalibrationWidget.isReadOnly(self) and \ self._txt_value.isReadOnly() def hasAcceptableInput(self): return _CalibrationWidget.hasAcceptableInput(self) and \ self._txt_value.hasAcceptableInput()
class DetectorSpectrometerCLWidget(DetectorSpectrometerWidget): def __init__(self, parent=None): _DetectorWidget.__init__(self, DetectorSpectrometerCL, parent) def _init_ui(self): # Widgets self._txt_grating_d = NumericalAttributeLineEdit(self.CLASS.grating_d) # Layouts layout = DetectorSpectrometerWidget._init_ui(self) layout.addRow('Grating spacing', self._txt_grating_d) # Signals self._txt_grating_d.textEdited.connect(self.edited) return layout def _create_parameter(self): return self.CLASS(1, CalibrationConstant('Quantity', 'm', 0.0)) def parameter(self, parameter=None): parameter = DetectorSpectrometerWidget.parameter(self, parameter) parameter.grating_d = self._txt_grating_d.text() return parameter def setParameter(self, condition): DetectorSpectrometerWidget.setParameter(self, condition) self._txt_grating_d.setText(condition.grating_d) def setReadOnly(self, state): DetectorSpectrometerWidget.setReadOnly(self, state) self._txt_grating_d.setReadOnly(state) def isReadOnly(self): return DetectorSpectrometerWidget.isReadOnly(self) and \ self._txt_grating_d.isReadOnly() def hasAcceptableInput(self): return DetectorSpectrometerWidget.hasAcceptableInput(self) and \ self._txt_grating_d.hasAcceptableInput()
class PulseHeightAnalyserWidget(ParameterWidget): def __init__(self, parent=None): ParameterWidget.__init__(self, PulseHeightAnalyser, parent) def _init_ui(self): # Widgets self._txt_bias = NumericalAttributeLineEdit(self.CLASS.bias) self._txt_gain = NumericalAttributeLineEdit(self.CLASS.gain) self._txt_base_level = NumericalAttributeLineEdit(self.CLASS.base_level) self._txt_window = NumericalAttributeLineEdit(self.CLASS.window) self._cb_mode = QComboBox() self._cb_mode.addItems([None] + list(_PHA_MODES)) # Layouts layout = ParameterWidget._init_ui(self) layout.addRow('Bias', self._txt_bias) layout.addRow('Gain', self._txt_gain) layout.addRow('Base level', self._txt_base_level) layout.addRow('Window', self._txt_window) layout.addRow('Mode', self._cb_mode) # Signals self._txt_bias.textEdited.connect(self.edited) self._txt_gain.textEdited.connect(self.edited) self._txt_base_level.textEdited.connect(self.edited) self._txt_window.textEdited.connect(self.edited) self._cb_mode.currentIndexChanged.connect(self.edited) return layout def parameter(self, parameter=None): parameter = ParameterWidget.parameter(self, parameter) parameter.bias = self._txt_bias.text() parameter.gain = self._txt_gain.text() parameter.base_level = self._txt_base_level.text() parameter.window = self._txt_window.text() parameter.mode = self._cb_mode.currentText() return parameter def setParameter(self, parameter): ParameterWidget.setParameter(self, parameter) self._txt_bias.setText(parameter.bias) self._txt_gain.setText(parameter.gain) self._txt_base_level.setText(parameter.base_level) self._txt_window.setText(parameter.window) self._cb_mode.setCurrentIndex(self._cb_mode.findText(parameter.mode)) def pulseHeightAnalyser(self): return self.parameter() def setPulseHeightAnalyser(self, pha): self.setParameter(pha) pha = pulseHeightAnalyser setPha = setPulseHeightAnalyser def setReadOnly(self, state): ParameterWidget.setReadOnly(self, state) self._txt_bias.setReadOnly(state) self._txt_gain.setReadOnly(state) self._txt_base_level.setReadOnly(state) self._txt_window.setReadOnly(state) self._cb_mode.setEnabled(not state) def isReadOnly(self): return ParameterWidget.isReadOnly(self) and \ self._txt_bias.isReadOnly() and \ self._txt_gain.isReadOnly() and \ self._txt_base_level.isReadOnly() and \ self._txt_window.isReadOnly() and \ not self._cb_mode.isEnabled() def hasAcceptableInput(self): return ParameterWidget.hasAcceptableInput(self) and \ self._txt_bias.hasAcceptableInput() and \ self._txt_gain.hasAcceptableInput() and \ self._txt_base_level.hasAcceptableInput() and \ self._txt_window.hasAcceptableInput()
class SpecimenPositionWidget(_ConditionWidget): def __init__(self, inline=False, parent=None): self._inline = inline _ConditionWidget.__init__(self, SpecimenPosition, parent) def _init_ui(self): # Widgets self._txt_x = NumericalAttributeLineEdit(self._class.x) self._txt_y = NumericalAttributeLineEdit(self._class.y) self._txt_z = NumericalAttributeLineEdit(self._class.z) self._txt_r = NumericalAttributeLineEdit(self._class.r) self._txt_t = NumericalAttributeLineEdit(self._class.t) # Layouts if self._inline: layout = QVBoxLayout() layout_xyz = QHBoxLayout() layout_xyz.addWidget(QLabel('X')) layout_xyz.addWidget(self._txt_x) layout_xyz.addWidget(QLabel('Y')) layout_xyz.addWidget(self._txt_y) layout_xyz.addWidget(QLabel('Z')) layout_xyz.addWidget(self._txt_z) layout_rt = QHBoxLayout() layout_rt.addWidget(QLabel('R')) layout_rt.addWidget(self._txt_r) layout_rt.addWidget(QLabel('T')) layout_rt.addWidget(self._txt_t) layout.addLayout(layout_xyz) layout.addLayout(layout_rt) else: layout = _ConditionWidget._init_ui(self) layout.addRow('X', self._txt_x) layout.addRow('Y', self._txt_y) layout.addRow('Z', self._txt_z) layout.addRow('R', self._txt_r) layout.addRow('T', self._txt_t) # Signals self._txt_x.textEdited.connect(self.edited) self._txt_y.textEdited.connect(self.edited) self._txt_z.textEdited.connect(self.edited) self._txt_r.textEdited.connect(self.edited) self._txt_t.textEdited.connect(self.edited) return layout def parameter(self, parameter=None): parameter = _ConditionWidget.parameter(self, parameter) parameter.x = self._txt_x.text() parameter.y = self._txt_y.text() parameter.z = self._txt_z.text() parameter.r = self._txt_r.text() parameter.t = self._txt_t.text() return parameter def setParameter(self, condition): _ConditionWidget.setParameter(self, condition) self._txt_x.setText(condition.x) self._txt_y.setText(condition.y) self._txt_z.setText(condition.z) self._txt_r.setText(condition.r) self._txt_t.setText(condition.t)
class AcquisitionRasterXYZWidget(_AcquisitionRasterWidget): def __init__(self, parent=None): _AcquisitionRasterWidget.__init__(self, AcquisitionRasterXYZ, parent) def _init_ui(self): # Widgets self._txt_step_count_x = NumericalAttributeLineEdit(self.CLASS.step_count_x) self._txt_step_count_x.setFormat('{0:d}') self._txt_step_count_y = NumericalAttributeLineEdit(self.CLASS.step_count_y) self._txt_step_count_y.setFormat('{0:d}') self._txt_step_count_z = NumericalAttributeLineEdit(self.CLASS.step_count_z) self._txt_step_count_z.setFormat('{0:d}') self._txt_step_size_x = NumericalAttributeLineEdit(self.CLASS.step_size_x) self._txt_step_size_y = NumericalAttributeLineEdit(self.CLASS.step_size_y) self._txt_step_size_z = NumericalAttributeLineEdit(self.CLASS.step_size_z) self._cb_raster_mode_z = QComboBox() self._cb_raster_mode_z.addItems([None] + list(_RASTER_MODES_Z)) self._cb_location = QComboBox() self._cb_location.addItems(list(_POSITION_LOCATIONS)) self._wdg_position = SpecimenPositionWidget(inline=True) # Layouts layout = _AcquisitionRasterWidget._init_ui(self) layout.insertRow(0, '<i>Step count (x)</i>', self._txt_step_count_x) layout.insertRow(1, '<i>Step count (y)</i>', self._txt_step_count_y) layout.insertRow(2, '<i>Step count (z)</i>', self._txt_step_count_z) layout.insertRow(3, 'Step size (x)', self._txt_step_size_x) layout.insertRow(4, 'Step size (y)', self._txt_step_size_y) layout.insertRow(5, 'Step size (z)', self._txt_step_size_z) layout.addRow('Raster mode (z)', self._cb_raster_mode_z) layout.addRow('Position', self._cb_location) layout.addWidget(self._wdg_position) # Signals self._txt_step_count_x.textEdited.connect(self.edited) self._txt_step_count_y.textEdited.connect(self.edited) self._txt_step_count_z.textEdited.connect(self.edited) self._txt_step_size_x.textEdited.connect(self.edited) self._txt_step_size_y.textEdited.connect(self.edited) self._txt_step_size_z.textEdited.connect(self.edited) self._cb_raster_mode_z.currentIndexChanged.connect(self.edited) self._cb_location.currentIndexChanged.connect(self.edited) self._wdg_position.edited.connect(self.edited) return layout def _create_parameter(self): return self.CLASS(1, 1, 1) def parameter(self, parameter=None): parameter = _AcquisitionRasterWidget.parameter(self, parameter) parameter.step_count_x = self._txt_step_count_x.text() parameter.step_count_y = self._txt_step_count_y.text() parameter.step_count_z = self._txt_step_count_z.text() parameter.step_size_x = self._txt_step_size_x.text() parameter.step_size_y = self._txt_step_size_y.text() parameter.step_size_z = self._txt_step_size_z.text() parameter.raster_mode_z = self._cb_raster_mode_z.currentText() parameter.position = (self._wdg_position.condition(), self._cb_location.currentText()) return parameter def setParameter(self, condition): _AcquisitionRasterWidget.setParameter(self, condition) self._txt_step_count_x.setText(condition.step_count_x) self._txt_step_count_y.setText(condition.step_count_y) self._txt_step_count_z.setText(condition.step_count_z) self._txt_step_size_x.setText(condition.step_size_x) self._txt_step_size_y.setText(condition.step_size_y) self._txt_step_size_z.setText(condition.step_size_z) self._cb_raster_mode_z.setCurrentIndex(self._cb_raster_mode_z.findText(condition.raster_mode_z)) position, location = condition.get_position(True) self._cb_location.setCurrentIndex(self._cb_location.findText(location)) if position is not None: self._wdg_position.setParameter(position) def setReadOnly(self, state): _AcquisitionRasterWidget.setReadOnly(self, state) self._txt_step_count_x.setReadOnly(state) self._txt_step_count_y.setReadOnly(state) self._txt_step_count_z.setReadOnly(state) self._txt_step_size_x.setReadOnly(state) self._txt_step_size_y.setReadOnly(state) self._txt_step_size_z.setReadOnly(state) self._cb_raster_mode_z.setEnabled(not state) self._cb_location.setEnabled(not state) self._wdg_position.setReadOnly(state) def isReadOnly(self): return _AcquisitionRasterWidget.isReadOnly(self) and \ self._txt_step_count_x.isReadOnly() and \ self._txt_step_count_y.isReadOnly() and \ self._txt_step_count_z.isReadOnly() and \ self._txt_step_size_x.isReadOnly() and \ self._txt_step_size_y.isReadOnly() and \ self._txt_step_size_z.isReadOnly() and \ not self._cb_raster_mode_z.isEnabled() and \ not self._cb_location.isEnabled() and \ self._wdg_position.isReadOnly() def hasAcceptableInput(self): return _AcquisitionRasterWidget.hasAcceptableInput(self) and \ self._txt_step_count_x.hasAcceptableInput() and \ self._txt_step_count_y.hasAcceptableInput() and \ self._txt_step_count_z.hasAcceptableInput() and \ self._txt_step_size_x.hasAcceptableInput() and \ self._txt_step_size_y.hasAcceptableInput() and \ self._txt_step_size_z.hasAcceptableInput() and \ self._wdg_position.hasAcceptableInput()
class DetectorCameraWidget(_DetectorWidget): def __init__(self, parent=None): _DetectorWidget.__init__(self, DetectorCamera, parent) def _init_ui(self): # Widgets self._txt_pixel_count_u = NumericalAttributeLineEdit(self.CLASS.pixel_count_u) self._txt_pixel_count_u.setFormat('{0:d}') self._txt_pixel_count_v = NumericalAttributeLineEdit(self.CLASS.pixel_count_v) self._txt_pixel_count_v.setFormat('{0:d}') self._txt_exposure_time = NumericalAttributeLineEdit(self.CLASS.exposure_time) self._txt_magnification = NumericalAttributeLineEdit(self.CLASS.magnification) self._txt_magnification.setFormat('{0:d}') self._txt_focal_length = NumericalAttributeLineEdit(self.CLASS.focal_length) # Layout layout = _DetectorWidget._init_ui(self) layout.insertRow(0, 'Horizontal pixel count', self._txt_pixel_count_u) layout.insertRow(1, 'Vertical pixel count', self._txt_pixel_count_v) layout.addRow('Exposure time', self._txt_exposure_time) layout.addRow('Magnification', self._txt_magnification) layout.addRow('Focal length', self._txt_focal_length) # Signals self._txt_pixel_count_u.textEdited.connect(self.edited) self._txt_pixel_count_v.textEdited.connect(self.edited) self._txt_exposure_time.textEdited.connect(self.edited) self._txt_magnification.textEdited.connect(self.edited) self._txt_focal_length.textEdited.connect(self.edited) return layout def _create_parameter(self): return self.CLASS(1, 1) def parameter(self, parameter=None): parameter = _DetectorWidget.parameter(self, parameter) parameter.pixel_count_u = self._txt_pixel_count_u.text() parameter.pixel_count_v = self._txt_pixel_count_v.text() parameter.exposure_time = self._txt_exposure_time.text() parameter.magnification = self._txt_magnification.text() parameter.focal_length = self._txt_focal_length.text() return parameter def setParameter(self, condition): _DetectorWidget.setParameter(self, condition) self._txt_pixel_count_u.setText(condition.pixel_count_u) self._txt_pixel_count_v.setText(condition.pixel_count_v) self._txt_exposure_time.setText(condition.exposure_time) self._txt_magnification.setText(condition.magnification) self._txt_focal_length.setText(condition.focal_length) def setReadOnly(self, state): _DetectorWidget.setReadOnly(self, state) self._txt_pixel_count_u.setReadOnly(state) self._txt_pixel_count_v.setReadOnly(state) self._txt_exposure_time.setReadOnly(state) self._txt_magnification.setReadOnly(state) self._txt_focal_length.setReadOnly(state) def isReadOnly(self): return _DetectorWidget.isReadOnly(self) and \ self._txt_pixel_count_u.isReadOnly() and \ self._txt_pixel_count_v.isReadOnly() and \ self._txt_exposure_time.isReadOnly() and \ self._txt_magnification.isReadOnly() and \ self._txt_focal_length.isReadOnly() def hasAcceptableInput(self): return _DetectorWidget.hasAcceptableInput(self) and \ self._txt_pixel_count_u.hasAcceptableInput() and \ self._txt_pixel_count_v.hasAcceptableInput() and \ self._txt_exposure_time.hasAcceptableInput() and \ self._txt_magnification.hasAcceptableInput() and \ self._txt_focal_length.hasAcceptableInput()
class _AcquisitionWidget(_ConditionWidget): def _init_ui(self): # Widgets self._txt_dwell_time = NumericalAttributeLineEdit(self.CLASS.dwell_time) self._txt_total_time = NumericalAttributeLineEdit(self.CLASS.total_time) self._txt_dwell_time_live = NumericalAttributeLineEdit(self.CLASS.dwell_time_live) # Layouts layout = _ConditionWidget._init_ui(self) layout.addRow('Dwell time', self._txt_dwell_time) layout.addRow('Total time', self._txt_total_time) layout.addRow('Dwell time (live)', self._txt_dwell_time_live) # Signals self._txt_dwell_time.textEdited.connect(self.edited) self._txt_total_time.textEdited.connect(self.edited) self._txt_dwell_time_live.textEdited.connect(self.edited) return layout def parameter(self, parameter=None): parameter = _ConditionWidget.parameter(self, parameter) parameter.dwell_time = self._txt_dwell_time.text() parameter.total_time = self._txt_total_time.text() parameter.dwell_time_live = self._txt_dwell_time_live.text() return parameter def setParameter(self, condition): _ConditionWidget.setParameter(self, condition) self._txt_dwell_time.setText(condition.dwell_time) self._txt_total_time.setText(condition.total_time) self._txt_dwell_time_live.setText(condition.dwell_time_live) def setReadOnly(self, state): _ConditionWidget.setReadOnly(self, state) self._txt_dwell_time.setReadOnly(state) self._txt_total_time.setReadOnly(state) self._txt_dwell_time_live.setReadOnly(state) def isReadOnly(self): return _ConditionWidget.isReadOnly(self) and \ self._txt_dwell_time.isReadOnly() and \ self._txt_total_time.isReadOnly() and \ self._txt_dwell_time_live.isReadOnly() def hasAcceptableInput(self): return _ConditionWidget.hasAcceptableInput(self) and \ self._txt_dwell_time.hasAcceptableInput() and \ self._txt_total_time.hasAcceptableInput() and \ self._txt_dwell_time_live.hasAcceptableInput()
class AcquisitionRasterLinescanWidget(_AcquisitionRasterWidget): def __init__(self, parent=None): _AcquisitionRasterWidget.__init__(self, AcquisitionRasterLinescan, parent) def _init_ui(self): # Widgets self._txt_step_count = NumericalAttributeLineEdit(self.CLASS.step_count) self._txt_step_count.setFormat('{0:d}') self._txt_step_size = NumericalAttributeLineEdit(self.CLASS.step_size) self._txt_frame_count = NumericalAttributeLineEdit(self.CLASS.frame_count) self._txt_frame_count.setFormat('{0:d}') self._wdg_position_start = SpecimenPositionWidget(inline=True) self._wdg_position_end = SpecimenPositionWidget(inline=True) # Layout layout = _AcquisitionRasterWidget._init_ui(self) layout.insertRow(0, '<i>Step count</i>', self._txt_step_count) layout.insertRow(1, 'Step size', self._txt_step_size) layout.addRow('Frame count', self._txt_frame_count) layout.addRow('Start position', self._wdg_position_start) layout.addRow('End position', self._wdg_position_end) # Signals self._txt_step_count.textEdited.connect(self.edited) self._txt_step_size.textEdited.connect(self.edited) self._txt_frame_count.textEdited.connect(self.edited) self._wdg_position_start.edited.connect(self.edited) self._wdg_position_end.edited.connect(self.edited) return layout def _create_parameter(self): return self.CLASS(1) def parameter(self, parameter=None): parameter = _AcquisitionRasterWidget.parameter(self, parameter) parameter.step_count = self._txt_step_count.text() parameter.step_size = self._txt_step_size.text() parameter.frame_count = self._txt_frame_count.text() parameter.position_start = self._wdg_position_start.condition() parameter.position_end = self._wdg_position_end.condition() return parameter def setParameter(self, condition): _AcquisitionRasterWidget.setParameter(self, condition) self._txt_step_count.setText(condition.step_count) self._txt_step_size.setText(condition.step_size) self._txt_frame_count.setText(condition.frame_count) self._wdg_position_start.setParameter(condition.position_start) self._wdg_position_end.setParameter(condition.position_end) def setReadOnly(self, state): _AcquisitionRasterWidget.setReadOnly(self, state) self._txt_step_count.setReadOnly(state) self._txt_step_size.setReadOnly(state) self._txt_frame_count.setReadOnly(state) self._wdg_position_start.setReadOnly(state) self._wdg_position_end.setReadOnly(state) def isReadOnly(self): return _AcquisitionRasterWidget.isReadOnly(self) and \ self._txt_step_count.isReadOnly() and \ self._txt_step_size.isReadOnly() and \ self._txt_frame_count.isReadOnly() and \ self._wdg_position_start.isReadOnly() and \ self._wdg_position_end.isReadOnly() def hasAcceptableInput(self): return _AcquisitionRasterWidget.hasAcceptableInput(self) and \ self._txt_step_count.hasAcceptableInput() and \ self._txt_step_size.hasAcceptableInput() and \ self._txt_frame_count.hasAcceptableInput() and \ self._wdg_position_start.hasAcceptableInput() and \ self._wdg_position_end.hasAcceptableInput()
class DetectorSpectrometerWDSWidget(DetectorSpectrometerWidget): def __init__(self, parent=None): _DetectorWidget.__init__(self, DetectorSpectrometerWDS, parent) def _init_ui(self): # Widgets self._txt_dispersion_element = TextAttributeLineEdit(self.CLASS.dispersion_element) self._txt_crystal_2d = NumericalAttributeLineEdit(self.CLASS.crystal_2d) self._txt_rowland_circle_diameter = NumericalAttributeLineEdit(self.CLASS.rowland_circle_diameter) self._wdg_pulse_height_analyser = PulseHeightAnalyserWidget() self._wdg_window = WindowWidget() # Layouts layout = DetectorSpectrometerWidget._init_ui(self) layout.addRow('Dispersion element', self._txt_dispersion_element) layout.addRow('Crystal 2d-spacing', self._txt_crystal_2d) layout.addRow('Rowland circle diameter', self._txt_rowland_circle_diameter) layout.addRow('Pulse height analyser', self._wdg_pulse_height_analyser) layout.addRow('Window', self._wdg_window) # Signals self._txt_dispersion_element.textEdited.connect(self.edited) self._txt_crystal_2d.textEdited.connect(self.edited) self._txt_rowland_circle_diameter.textEdited.connect(self.edited) self._wdg_pulse_height_analyser.edited.connect(self.edited) self._wdg_window.edited.connect(self.edited) return layout def _create_parameter(self): return self.CLASS(1, CalibrationConstant('Quantity', 'm', 0.0)) def parameter(self, parameter=None): parameter = DetectorSpectrometerWidget.parameter(self, parameter) parameter.dispersion_element = self._txt_dispersion_element.text() parameter.crystal_2d = self._txt_crystal_2d.text() parameter.rowland_circle_diameter = self._txt_rowland_circle_diameter.text() parameter.pulse_height_analyser = self._wdg_pulse_height_analyser.pha() parameter.window = self._wdg_window.window() return parameter def setParameter(self, condition): DetectorSpectrometerWidget.setParameter(self, condition) self._txt_dispersion_element.setText(condition.dispersion_element) self._txt_crystal_2d.setText(condition.crystal_2d) self._txt_rowland_circle_diameter.setText(condition.rowland_circle_diameter) self._wdg_pulse_height_analyser.setPha(condition.pulse_height_analyser) self._wdg_window.setWindow(condition.window) def setReadOnly(self, state): DetectorSpectrometerWidget.setReadOnly(self, state) self._txt_dispersion_element.setReadOnly(state) self._txt_crystal_2d.setReadOnly(state) self._txt_rowland_circle_diameter.setReadOnly(state) self._wdg_pulse_height_analyser.setReadOnly(state) self._wdg_window.setReadOnly(state) def isReadOnly(self): return DetectorSpectrometerWidget.isReadOnly(self) and \ self._txt_dispersion_element.isReadOnly() and \ self._txt_crystal_2d.isReadOnly() and \ self._txt_rowland_circle_diameter.isReadOnly() and \ self._wdg_pulse_height_analyser.isReadOnly() and \ self._wdg_window.isReadOnly() def hasAcceptableInput(self): return DetectorSpectrometerWidget.hasAcceptableInput(self) and \ self._txt_dispersion_element.hasAcceptableInput() and \ self._txt_crystal_2d.hasAcceptableInput() and \ self._txt_rowland_circle_diameter.hasAcceptableInput() and \ self._wdg_pulse_height_analyser.hasAcceptableInput() and \ self._wdg_window.hasAcceptableInput()
class CalibrationLinearWidget(_CalibrationWidget): def __init__(self, parent=None): _CalibrationWidget.__init__(self, CalibrationLinear, parent) # self.setAccessibleName('linear') def _init_ui(self): # Widgets self._txt_gain = NumericalAttributeLineEdit(self.CLASS.gain) self._txt_offset = NumericalAttributeLineEdit(self.CLASS.offset) # Layouts layout = _CalibrationWidget._init_ui(self) layout.addRow('<i>Gain</i>', self._txt_gain) layout.addRow('<i>Offset</i>', self._txt_offset) # Signals self._txt_gain.textEdited.connect(self.edited) self._txt_offset.textEdited.connect(self.edited) return layout def _create_parameter(self): return self.CLASS('Quantity', 'm', 0.0, 0.0) def parameter(self, parameter=None): parameter = _CalibrationWidget.parameter(self, parameter) parameter.gain = self._txt_gain.text() parameter.offset = self._txt_offset.text() return parameter def setParameter(self, calibration): _CalibrationWidget.setParameter(self, calibration) self._txt_gain.setText(calibration.gain) self._txt_offset.setText(calibration.offset) def setReadOnly(self, state): _CalibrationWidget.setReadOnly(self, state) self._txt_gain.setReadOnly(state) self._txt_offset.setReadOnly(state) def isReadOnly(self): return _CalibrationWidget.isReadOnly(self) and \ self._txt_gain.isReadOnly() and \ self._txt_offset.isReadOnly() def hasAcceptableInput(self): return _CalibrationWidget.hasAcceptableInput(self) and \ self._txt_gain.hasAcceptableInput() and \ self._txt_offset.hasAcceptableInput()
class DetectorSpectrometerXEDSWidget(DetectorSpectrometerWidget): def __init__(self, parent=None): _DetectorWidget.__init__(self, DetectorSpectrometerXEDS, parent) def _init_ui(self): # Widgets self._cb_technology = QComboBox() self._cb_technology.addItems([None] + list(_XEDS_TECHNOLOGIES)) self._txt_nominal_throughput = NumericalAttributeLineEdit(self.CLASS.nominal_throughput) self._txt_time_constant = NumericalAttributeLineEdit(self.CLASS.time_constant) self._txt_strobe_rate = NumericalAttributeLineEdit(self.CLASS.strobe_rate) self._wdg_window = WindowWidget() # Layout form = DetectorSpectrometerWidget._init_ui(self) form.addRow('Technology', self._cb_technology) form.addRow('Nominal throughput', self._txt_nominal_throughput) form.addRow('Time constant', self._txt_time_constant) form.addRow('Strobe rate', self._txt_strobe_rate) form.addRow('Window', self._wdg_window) # Signals self._cb_technology.currentIndexChanged.connect(self.edited) self._txt_nominal_throughput.textEdited.connect(self.edited) self._txt_time_constant.textEdited.connect(self.edited) self._txt_strobe_rate.textEdited.connect(self.edited) self._wdg_window.edited.connect(self.edited) return form def _create_parameter(self): return self.CLASS(1, CalibrationConstant('Quantity', 'm', 0.0)) def parameter(self, parameter=None): parameter = DetectorSpectrometerWidget.parameter(self, parameter) parameter.technology = self._cb_technology.currentText() parameter.nominal_throughput = self._txt_nominal_throughput.text() parameter.time_constant = self._txt_time_constant.text() parameter.strobe_rate = self._txt_strobe_rate.text() parameter.window = self._wdg_window.window() return parameter def setParameter(self, condition): DetectorSpectrometerWidget.setParameter(self, condition) self._cb_technology.setCurrentIndex(self._cb_technology.findText(condition.technology)) self._txt_nominal_throughput.setText(condition.nominal_throughput) self._txt_time_constant.setText(condition.time_constant) self._txt_strobe_rate.setText(condition.strobe_rate) self._wdg_window.setWindow(condition.window) def setReadOnly(self, state): DetectorSpectrometerWidget.setReadOnly(self, state) self._cb_technology.setEnabled(not state) self._txt_nominal_throughput.setReadOnly(state) self._txt_time_constant.setReadOnly(state) self._txt_strobe_rate.setReadOnly(state) self._wdg_window.setReadOnly(state) def isReadOnly(self): return DetectorSpectrometerWidget.isReadOnly(self) and \ not self._cb_technology.isEnabled() and \ self._txt_nominal_throughput.isReadOnly() and \ self._txt_time_constant.isReadOnly() and \ self._txt_strobe_rate.isReadOnly() and \ self._wdg_window.isReadOnly() def hasAcceptableInput(self): return DetectorSpectrometerWidget.hasAcceptableInput(self) and \ self._txt_nominal_throughput.hasAcceptableInput() and \ self._txt_time_constant.hasAcceptableInput() and \ self._txt_strobe_rate.hasAcceptableInput() and \ self._wdg_window.hasAcceptableInput()
class _DetectorWidget(_ConditionWidget): def _init_ui(self): # Widgets self._cb_signal_type = QComboBox() self._cb_signal_type.addItems([None] + list(_SIGNAL_TYPES)) self._txt_manufacturer = TextAttributeLineEdit(self.CLASS.manufacturer) self._txt_model = TextAttributeLineEdit(self.CLASS.model) self._txt_serial_number = TextAttributeLineEdit(self.CLASS.serial_number) self._txt_measurement_unit = UnitAttributeLineEdit(self.CLASS.measurement_unit) self._txt_elevation = NumericalAttributeLineEdit(self.CLASS.elevation) self._txt_azimuth = NumericalAttributeLineEdit(self.CLASS.azimuth) self._txt_distance = NumericalAttributeLineEdit(self.CLASS.distance) self._txt_area = NumericalAttributeLineEdit(self.CLASS.area) self._txt_solid_angle = NumericalAttributeLineEdit(self.CLASS.solid_angle) self._txt_semi_angle = NumericalAttributeLineEdit(self.CLASS.semi_angle) self._txt_temperature = NumericalAttributeLineEdit(self.CLASS.temperature) # Layout layout = _ConditionWidget._init_ui(self) layout.addRow('Type of signal', self._cb_signal_type) layout.addRow('Manufacturer', self._txt_manufacturer) layout.addRow('Model', self._txt_model) layout.addRow('Serial number', self._txt_serial_number) layout.addRow('Measurement unit', self._txt_measurement_unit) layout.addRow('Elevation', self._txt_elevation) layout.addRow('Azimuth', self._txt_azimuth) layout.addRow('Distance', self._txt_distance) layout.addRow('Area', self._txt_area) layout.addRow('Solid angle', self._txt_solid_angle) layout.addRow('Semi angle', self._txt_semi_angle) layout.addRow('Temperature', self._txt_temperature) # Signals self._cb_signal_type.currentIndexChanged.connect(self.edited) self._txt_manufacturer.textEdited.connect(self.edited) self._txt_model.textEdited.connect(self.edited) self._txt_serial_number.textEdited.connect(self.edited) self._txt_measurement_unit.textEdited.connect(self.edited) self._txt_elevation.textEdited.connect(self.edited) self._txt_azimuth.textEdited.connect(self.edited) self._txt_distance.textEdited.connect(self.edited) self._txt_area.textEdited.connect(self.edited) self._txt_solid_angle.textEdited.connect(self.edited) self._txt_semi_angle.textEdited.connect(self.edited) self._txt_temperature.textEdited.connect(self.edited) return layout def parameter(self, parameter=None): parameter = _ConditionWidget.parameter(self, parameter) parameter.signal_type = self._cb_signal_type.currentText() parameter.manufacturer = self._txt_manufacturer.text() parameter.model = self._txt_model.text() parameter.serial_number = self._txt_serial_number.text() parameter.measurement_unit = self._txt_measurement_unit.text() parameter.elevation = self._txt_elevation.text() parameter.azimuth = self._txt_azimuth.text() parameter.distance = self._txt_distance.text() parameter.area = self._txt_area.text() parameter.solid_angle = self._txt_solid_angle.text() parameter.semi_angle = self._txt_semi_angle.text() parameter.temperature = self._txt_temperature.text() return parameter def setParameter(self, condition): _ConditionWidget.setParameter(self, condition) self._cb_signal_type.setCurrentIndex(self._cb_signal_type.findText(condition.signal_type)) self._txt_manufacturer.setText(condition.manufacturer) self._txt_model.setText(condition.model) self._txt_serial_number.setText(condition.serial_number) self._txt_measurement_unit.setText(condition.measurement_unit) self._txt_elevation.setText(condition.elevation) self._txt_azimuth.setText(condition.azimuth) self._txt_distance.setText(condition.distance) self._txt_area.setText(condition.area) self._txt_solid_angle.setText(condition.solid_angle) self._txt_semi_angle.setText(condition.semi_angle) self._txt_temperature.setText(condition.temperature) def setReadOnly(self, state): _ConditionWidget.setReadOnly(self, state) self._cb_signal_type.setEnabled(not state) self._txt_manufacturer.setReadOnly(state) self._txt_model.setReadOnly(state) self._txt_serial_number.setReadOnly(state) self._txt_measurement_unit.setReadOnly(state) self._txt_elevation.setReadOnly(state) self._txt_azimuth.setReadOnly(state) self._txt_distance.setReadOnly(state) self._txt_area.setReadOnly(state) self._txt_solid_angle.setReadOnly(state) self._txt_semi_angle.setReadOnly(state) self._txt_temperature.setReadOnly(state) def isReadOnly(self): return _ConditionWidget.isReadOnly(self) and \ not self._cb_signal_type.isEnabled() and \ self._txt_manufacturer.isReadOnly() and \ self._txt_model.isReadOnly() and \ self._txt_serial_number.isReadOnly() and \ self._txt_measurement_unit.isReadOnly() and \ self._txt_elevation.isReadOnly() and \ self._txt_azimuth.isReadOnly() and \ self._txt_distance.isReadOnly() and \ self._txt_area.isReadOnly() and \ self._txt_solid_angle.isReadOnly() and \ self._txt_semi_angle.isReadOnly() and \ self._txt_temperature.isReadOnly() def hasAcceptableInput(self): return _ConditionWidget.hasAcceptableInput(self) and \ self._txt_manufacturer.hasAcceptableInput() and \ self._txt_model.hasAcceptableInput() and \ self._txt_serial_number.hasAcceptableInput() and \ self._txt_measurement_unit.hasAcceptableInput() and \ self._txt_elevation.hasAcceptableInput() and \ self._txt_azimuth.hasAcceptableInput() and \ self._txt_distance.hasAcceptableInput() and \ self._txt_area.hasAcceptableInput() and \ self._txt_solid_angle.hasAcceptableInput() and \ self._txt_semi_angle.hasAcceptableInput() and \ self._txt_temperature.hasAcceptableInput()