def gui(self):
self.gui_reset()
nSteps = pg.SpinBox(int=True, step=1)
first_volume = pg.SpinBox(int=True, step=1)
nVolumes = pg.SpinBox(int=True, step=1)
nVolumes.setMinimum(1)
ratio_type = ComboBox()
ratio_type.addItem('average')
ratio_type.addItem('standard deviation')
self.items.append({
'name': 'nSteps',
'string': 'Number of steps per volume',
'object': nSteps
})
self.items.append({
'name': 'first_volume',
'string': 'First Volume',
'object': first_volume
})
self.items.append({
'name': 'nVolumes',
'string': 'Number of Volumes',
'object': nVolumes
})
self.items.append({
'name': 'ratio_type',
'string': 'Ratio Type',
'object': ratio_type
})
super().gui()
def __init__(self):
pg.LayoutWidget.__init__(self)
currRow = 0
img = renderTeX('$\\Phi(\\vec{k}) \\propto \\frac{\\mathrm{exp}\\left(-(L_{\\mathrm{min}} k)^2\\right)}{\\left(1/{L_0}^2 + k^2\\right)^{-11/6}}$')
eqnLabel = QtGui.QLabel(alignment=QtCore.Qt.AlignHCenter)
eqnLabel.setPixmap(QtGui.QPixmap.fromImage(img))
self.addWidget(eqnLabel,row=currRow,col=0,colspan=2)
currRow += 1
self.addWidget(QtGui.QLabel('L0:'), row=currRow, col=0)
self.L0SpinBox = pg.SpinBox(value=2.,bounds=[0,None],suffix='m',
siPrefix=True, dec=True, step=1.0, minStep=0.1)
self.addWidget(self.L0SpinBox,row=currRow,col=1)
currRow += 1
self.addWidget(QtGui.QLabel('Lmin:'), row=currRow, col=0)
self.LminSpinBox = pg.SpinBox(value=0.1,bounds=[0,None],suffix='m',
siPrefix=True, dec=True, step=0.1, minStep=0.1)
self.addWidget(self.LminSpinBox, row=currRow,col=1)
currRow += 1
genButton = QtGui.QPushButton('Generate field')
self.addWidget(genButton, row=currRow, colspan=2)
genButton.clicked.connect(self.generate)
self.setHidden(True)
def create_optimizer_toolbox(self, tb):
optimizer_combo = self.init_combo_param(
['SGD', 'Adagrad', 'Adadelta', 'Adam', 'Nadam'])
self.optimizer_form_dict = {
'optimizer combo':
optimizer_combo,
'activation unit':
self.init_combo_param(['relu']),
'lr':
pg.SpinBox(value=self.learner.optimizer_params['lr'],
step=0.00001),
'beta_1':
pg.SpinBox(value=self.learner.optimizer_params['beta_1'],
step=0.1),
'beta_2':
pg.SpinBox(value=self.learner.optimizer_params['beta_2'],
step=0.0001),
'epsilon':
pg.SpinBox(value=self.learner.optimizer_params['epsilon'],
step=1e-09),
'decay':
pg.SpinBox(value=self.learner.optimizer_params['decay'], step=0.1)
}
self.create_toolbox(tb, 'Optimizer', self.optimizer_form_dict)
def __init__(self, minimum, maximum, label, tick=0, parent=None):
super(Slider, self).__init__(parent=parent)
self.verticalLayout = QtGui.QVBoxLayout(self)
self.label = QtGui.QLabel(self)
self.label.setAlignment(QtCore.Qt.AlignCenter)
self.font = QtGui.QFont("?", 18)
self.label.setFont(self.font)
if label == "\u2113":
self.spin = pg.SpinBox(value=glo_var.l,
bounds=[1, 20],
parent=self)
self.spin.setRange(1, 20)
self.intspinargs = {"int": True, "step": 1}
self.spin.setOpts(**self.intspinargs)
elif label == "\u03b1":
self.spin = pg.SpinBox(value=glo_var.alpha,
bounds=[0, 1],
parent=self)
else:
self.spin = pg.SpinBox(value=glo_var.beta,
bounds=[0, 1],
parent=self)
self.verticalLayout.addWidget(self.label)
self.verticalLayout.addWidget(self.spin)
self.horizontalLayout = QtGui.QHBoxLayout()
spacerItem = QtGui.QSpacerItem(0, 0, QtGui.QSizePolicy.Expanding,
QtGui.QSizePolicy.Minimum)
self.horizontalLayout.addItem(spacerItem)
self.slider = QtGui.QSlider(self)
self.slider.setOrientation(QtCore.Qt.Vertical)
# check!
self.text_label = label
self.label.setText(self.text_label)
self.horizontalLayout.addWidget(self.slider)
spacerItem1 = QtGui.QSpacerItem(0, 20, QtGui.QSizePolicy.Expanding,
QtGui.QSizePolicy.Minimum)
self.horizontalLayout.addItem(spacerItem1)
self.verticalLayout.addLayout(self.horizontalLayout)
self.resize(self.sizeHint())
self.minimum = minimum
self.maximum = maximum
self.x = None
if label == "\u2113":
self.x = 1
# self.slider.setSingleStep(1)
self.spin.sigValueChanging.connect(self.Intspinvalue)
else:
self.spin.sigValueChanging.connect(self.spinvalue)
self.slider.minimumSizeHint()
self.slider.setTickPosition(3)
def gui(self):
s=g.settings['light_sheet_analyzer']
self.gui_reset()
self.nSteps = pg.SpinBox(int=True, step=1)
self.nSteps.setMinimum(1)
self.nSteps.setValue(s['nSteps'])
self.shift_factor = pg.SpinBox(int=False, step=.1)
self.shift_factor.setValue(s['shift_factor'])
self.theta = pg.SpinBox(int=True, step=1)
self.theta.setValue(s['theta'])
self.triangle_scan = CheckBox()
self.triangle_scan.setValue(s['triangle_scan'])
self.interpolate = CheckBox()
self.interpolate.setValue(s['interpolate'])
self.trim_last_frame = CheckBox()
self.trim_last_frame.setValue(s['trim_last_frame'])
self.zscan = CheckBox()
self.zscan.setValue(s['trim_last_frame'])
self.items.append({'name': 'nSteps', 'string': 'Number of steps per volume', 'object': self.nSteps})
self.items.append({'name': 'shift_factor', 'string': 'Shift Factor', 'object': self.shift_factor})
self.items.append({'name': 'theta', 'string': 'Theta', 'object': self.theta})
self.items.append({'name': 'triangle_scan', 'string': 'Trangle Scan', 'object': self.triangle_scan})
self.items.append({'name': 'interpolate', 'string': 'Interpolate', 'object': self.interpolate})
self.items.append({'name': 'trim_last_frame', 'string': 'Trim Last Frame', 'object': self.trim_last_frame})
self.items.append({'name': 'zscan', 'string': 'Z scan', 'object': self.zscan})
super().gui()
def __init__(self):
super().__init__()
self.setTitle("Phase Pattern")
self.layout = QGridLayout()
self.amplitude = pg.SpinBox(value=1.0)
self.l_value = pg.SpinBox(int=True, step=1)
self.phase = pg.SpinBox()
self.k = XYController("K")
self.pos = XYController("Centre")
self.amplitude.sigValueChanged.connect(self.value_changed.emit)
self.l_value.sigValueChanged.connect(self.value_changed.emit)
self.phase.sigValueChanged.connect(self.value_changed.emit)
self.k.value_changed.connect(self.value_changed.emit)
self.pos.value_changed.connect(self.value_changed.emit)
self.layout.addWidget(QLabel("Amplitude:"), 0, 0, 1, 1)
self.layout.addWidget(self.amplitude, 0, 1, 1, 1)
self.layout.addWidget(QLabel("L:"), 0, 2, 1, 1)
self.layout.addWidget(self.l_value, 0, 3, 1, 1)
self.layout.addWidget(QLabel("Phase:"), 0, 4, 1, 1)
self.layout.addWidget(self.phase, 0, 5, 1, 1)
self.layout.addWidget(self.k, 1, 0, 1, 3)
self.layout.addWidget(self.pos, 1, 3, 1, 3)
self.setLayout(self.layout)
def __init__(self, device, parent=None):
super().__init__()
vbox = QVBoxLayout()
self.measurement_time = pg.SpinBox(value=0.01,
suffix='s',
bounds=(0.001, None))
self.coincidence_window = pg.SpinBox(value=0.01,
suffix='s',
bounds=(0, None))
self.long_button = QPushButton("Measure")
self.long_button.setCheckable(True)
self.measurement_thread = QThread()
self.measurement_thread.finished.connect(self.run_measurement)
self.long_button.clicked.connect(self.run_measurement)
self.graph = pg.PlotWidget()
self.setLayout(vbox)
self.channel_1_data = np.zeros((300))
self.channel_2_data = np.zeros((300))
self.coincidences_data = np.zeros((300))
self.channel_1 = self.graph.plot([], pen=pg.mkPen('b'))
self.channel_2 = self.graph.plot([], pen=pg.mkPen('r'))
self.coincidences = self.graph.plot([], pen=pg.mkPen('w'))
self.device = device
vbox.addWidget(self.measurement_time)
vbox.addWidget(self.coincidence_window)
vbox.addWidget(self.long_button)
vbox.addWidget(self.graph)
vbox.addWidget(SLMControllerWidget())
def ViewControl(self):
self.ViewControlgroupBox = QGroupBox("View Control")
#Integer with bounds
label1 = QLabel("Freq")
label2 = QLabel("DAC")
self.freqsp = pg.SpinBox(value=10, suffix='Hz',siPrefix=True, bounds=[10,20], minStep=1,step=1,wrapping=False)
self.dacsp = pg.SpinBox(value=10,step=1,int=True,bounds=[0,None],format='0x{value:X}',
regex='(0x)?(?P<number>[0-9a-fA-F]+)$',evalFunc=lambda s: ast.literal_eval('0x'+s))
self.DacSelectbtn = QPushButton("External")
self.DacSelectbtn.setCheckable(True)
self.Alignbtn = QPushButton("Align")
layout1 = QHBoxLayout()
layout1.addWidget(label1)
layout1.addWidget(self.freqsp)
layout1.addWidget(label2)
layout1.addWidget(self.dacsp)
layout2 = QHBoxLayout()
layout2.addWidget(self.DacSelectbtn)
layout2.addWidget(self.Alignbtn)
layout = QVBoxLayout()
layout.addLayout(layout1)
layout.addLayout(layout2)
#Set Layout
self.ViewControlgroupBox.setLayout(layout)
def __init__(self, settings):
super().__init__()
self.settings = settings
vbox = QVBoxLayout()
hbox = QHBoxLayout()
hbox.addWidget(QLabel('Interval (s):'))
self.spin_interval = pg.SpinBox(compactHeight=False, bounds=(0.01, 10.0))
self.spin_interval.setValue(self.settings.interval)
self.spin_interval.valueChanged.connect(self.interval_changed)
hbox.addWidget(self.spin_interval)
vbox.addLayout(hbox)
hbox = QHBoxLayout()
hbox.addWidget(QLabel('lowcut:'))
self.spin_lowcut = pg.SpinBox(compactHeight=False, bounds=(0, 10000), step=10)
self.spin_lowcut.setValue(self.settings.lowcut)
self.spin_lowcut.valueChanged.connect(self.lowcut_changed)
hbox.addWidget(self.spin_lowcut)
hbox.addWidget(QLabel('highcut:'))
self.spin_highcut = pg.SpinBox(compactHeight=False, bounds=(0, 10000), step=10)
self.spin_highcut.setValue(self.settings.highcut)
self.spin_highcut.valueChanged.connect(self.highcut_changed)
hbox.addWidget(self.spin_highcut)
vbox.addLayout(hbox)
vbox.addStretch()
self.setLayout(vbox)
def gui(self):
self.gui_reset()
s = g.settings['scaledAverageSubtract']
#buttons
self.analysisWin = WindowSelector()
#spinboxes
self.windowSize_Box = pg.SpinBox(int=True, step=1)
self.windowSize_Box.setMinimum(1)
self.windowSize_Box.setMaximum(100000)
self.windowSize_Box.setValue(s['windowSize'])
self.averageSize_Box = pg.SpinBox(int=True, step=1)
self.averageSize_Box.setMinimum(1)
self.averageSize_Box.setMaximum(100000)
self.averageSize_Box.setValue(s['averageSize'])
self.items.append({
'name': 'windowSize',
'string': '# of frames for rolling average:',
'object': self.windowSize_Box
})
self.items.append({
'name': 'averageSize',
'string': '# of frames for peak average:',
'object': self.averageSize_Box
})
self.items.append({
'name': 'analysisWindow',
'string': 'Choose window (with ROI) to analyse',
'object': self.analysisWin
})
super().gui()
def create_training_toolbox(self, tb):
model_type_combo = self.init_combo_param(['svm'])
self.model_form = {
'Kernel': model_type_combo,
'Gamma': pg.SpinBox(value=self.learner.gamma, step=1),
'C': pg.SpinBox(value=self.learner.C, step=1)
}
self.create_toolbox(tb, 'Training', self.model_form)
def create_neural_network_layer_toolbox(self, tb):
self.nn_form_dict = {
'n filter': pg.SpinBox(value=self.learner.n_filters[0], step=1),
'n pool': pg.SpinBox(value=self.learner.n_pool, step=1),
'n conv': pg.SpinBox(value=self.learner.n_conv[0], step=1),
'droupout rate': pg.SpinBox(value=self.learner.dropout[0],
step=0.05)
}
self.create_toolbox(tb, 'Layer #1', self.nn_form_dict)
def affichage(name, shareddic):
""" Ploting and Display """
pg.mkQApp()
pg.setConfigOptions(antialias=True) ## this will be expensive for the local plot
force = pg.SpinBox(value=0, int=True, minStep=1, step=10, bounds=(-128, 128))#QtGui.QLineEdit()
phase = pg.SpinBox(value=1, minStep=0.1, step=0.1, bounds=(0, 2))#QtGui.QLineEdit()
freq = pg.SpinBox(value=55, minStep=1, step=1, dec=True, bounds=(0, 900))#QtGui.QLineEdit()
label = QtGui.QLabel()
#self.data = data
#self.fps = fps
labelf = QtGui.QLabel()
labelf.setText('Force')
labelp = QtGui.QLabel()
labelp.setText('Phase')
labelfr = QtGui.QLabel()
labelfr.setText('Frequence')
lcheck = QtGui.QCheckBox('plot local')
lcheck.setChecked(True)
lplt = pg.PlotWidget()
lplt.setYRange(-45, 45)
lplt.setTitle('Position')
fplt = pg.PlotWidget()
fplt.setYRange(-150, 150)
fplt.setTitle('Forces')
fplt.getAxis('bottom').setScale(1.0/RESANG)
layout = pg.LayoutWidget()
layout.addWidget(labelf)
layout.addWidget(labelp)
layout.addWidget(labelfr)
layout.addWidget(force, row=2, col=0)
layout.addWidget(phase, row=2, col=1)
layout.addWidget(freq, row=2, col=2)
layout.addWidget(lcheck, row=3, col=0)
layout.addWidget(label, row=3, col=1)
layout.addWidget(lplt, row=4, col=0, colspan=3)
layout.addWidget(fplt, row=5, col=0, colspan=3)
layout.resize(800, 800)
layout.setWindowTitle('Timon 12: Demo')
layout.show()
def update(shareddic):
""" Every refresh of the display """
localdata = [0]*1000
taille = shareddic['taille']
localdata = shareddic['data']
lplt.plot(localdata, clear=True)
fps = shareddic['fps']
label.setText("Communication %0.2f Hz Taille buffer: %0.2f" % (fps, taille/3.0))
force = shareddic['force']
degre = shareddic['degre']
forcenow = shareddic['forcenow']
fplt.plot(range(-ANGLEMAX*RESANG, ANGLEMAX*RESANG), force, clear=True)
fplt.plot([degre*RESANG], [forcenow], pen=(0, 0, 255), symbolBrush=(255, 0, 0), symbolPen='r')
timer = QtCore.QTimer()
timer.timeout.connect(lambda: update(shareddic))
timer.start(50)
QtGui.QApplication.instance().exec_()
def addEnvelope(self,etype='Coulomb',name='Env'):
item = pg.TreeWidgetItem([name])
self.envelopes.addChild(item)
self.eNames.append(name)
self.eTypes[name] = etype
typeLabel = QtGui.QLabel(etype)
item.setWidget(2,typeLabel)
colorButton = ColorButton()
self.eCButtons[name] = colorButton
color = get_color()
colorButton.setColor(color)
item.setExpanded(True)
self.eBoxes[name] = {}
colorItem = pg.TreeWidgetItem(['Color'])
if etype == 'Coulomb':
item1 = pg.TreeWidgetItem(['Friction Angle'])
item2 = pg.TreeWidgetItem(['Cohesion'])
step1 = 1
step2 = 50
elif etype == 'Brown':
item1 = pg.TreeWidgetItem(['m'])
item2 = pg.TreeWidgetItem(['UCS'])
step1 = 1
step2 = 1
else:
print etype
return 0
item.addChild(colorItem)
item.addChild(item1)
item.addChild(item2)
frictionBox = pg.SpinBox(value=50, step=step1)
cohesionBox = pg.SpinBox(value=1e3, step=step2)
frictionBox.sigValueChanged.connect(self.plot)
cohesionBox.sigValueChanged.connect(self.plot)
colorItem.setWidget(2,colorButton)
item1.setWidget(2,frictionBox)
item2.setWidget(2,cohesionBox)
self.fBoxes[name] = frictionBox
self.cBoxes[name] = cohesionBox
for dname in self.dNames:
child = pg.TreeWidgetItem([dname])
item.addChild(child)
box = CheckBox()
child.setWidget(2,box)
self.eBoxes[name][dname] = box
box.click()
box.clicked.connect(lambda:self.getEnvelope(name))
removeEnvelopeItem = pg.TreeWidgetItem([''])
item.addChild(removeEnvelopeItem)
removeButton = QtGui.QPushButton('Remove')
removeEnvelopeItem.setWidget(2,removeButton)
removeButton.clicked.connect(lambda:self.removeEnvelope(item))
colorButton.sigColorChanged.connect(self.plot)
self.nEnvelopes += 1
self.getEnvelope(eName=name)
def setup_data_analysis_box(self):
''' '''
self.DataAnalysisBox_layout = QW.QGridLayout()
self.DataAnalysisBox.setLayout(self.DataAnalysisBox_layout)
self.DataModification_label = QW.QLabel('Modifications:', self)
self.DataModification_label.setFont(self.subtitle_font)
self.DataAnalysisBox_layout.addWidget(self.DataModification_label, 0,
0)
self.flipX_cb = QW.QCheckBox(self.DataAnalysisBox)
self.flipX_cb.setText('Flip x')
self.flipX_cb.setChecked(True)
# self.flipX_checkBox.clicked.connect(self.flip_time_scale)
self.DataAnalysisBox_layout.addWidget(self.flipX_cb, 1, 0)
self.removeDC_cb = QW.QCheckBox(self.DataAnalysisBox)
self.removeDC_cb.setText('Remove DC Offset')
# self.removeDC_cb.clicked.connect(self.remove_DC_offset)
self.removeDC_cb.setChecked(True)
self.DataAnalysisBox_layout.addWidget(self.removeDC_cb, 2, 0)
self.setTimeZero_cb = QW.QCheckBox(self.DataAnalysisBox)
self.setTimeZero_cb.setText('Set time Zero')
# self.setTimeZero_cb.clicked.connect(self.set_time_zero)
self.setTimeZero_cb.setChecked(True)
self.DataAnalysisBox_layout.addWidget(self.setTimeZero_cb, 3, 0)
self.setTimeZero_sb = pg.SpinBox(self.DataAnalysisBox)
self.setTimeZero_sb.setMinimumSize(1, 25)
# self.shiftTimeZero_input.valueChanged.connect(self.set_time_zero)
self.DataAnalysisBox_layout.addWidget(self.setTimeZero_sb, 2, 1)
# self.shiftTimeZero_input.setValidator(QtGui.QDoubleValidator())
# self.shiftTimeZero_input.textChanged.connect(self.setShiftTimeZero)
# Filter
# self.timeZero = 0
self.filter_label = QW.QLabel('Filter [THz]', self.DataAnalysisBox)
self.filter_label.setFont(self.subtitle_font)
# self.filterBox_name.setFont(font)
self.DataAnalysisBox_layout.addWidget(self.filter_label, 0, 2)
# self.filterLowPass_label = qw.QLabel('Low Pass', self.DataAnalysisBox)
self.filterLowPass_cb = QW.QCheckBox(self.DataAnalysisBox)
self.filterLowPass_cb.setText('Low Pass Frequency')
# self.setTimeZero_cb.clicked.connect(self.set_time_zero)
self.filterLowPass_cb.setChecked(True)
self.DataAnalysisBox_layout.addWidget(self.filterLowPass_cb, 1, 2)
self.filterLowPass_sb = pg.SpinBox(self, dec=True)
self.filterLowPass_sb.setMinimumSize(1, 25)
# self.filterLowPassFreq.setPlaceholderText('freq')
self.filterLowPass_sb.valueChanged.connect(self.filter_data_lowpass)
self.DataAnalysisBox_layout.addWidget(self.filterLowPass_sb, 1, 3)
def __init__(self, **kwd):
super(AIWindow, self).__init__(**kwd)
self.main_layout = main_layout = QtGui.QHBoxLayout()
self.setLayout(main_layout)
btn_layout = QtGui.QVBoxLayout()
main_layout.addLayout(btn_layout)
start_stop_save_layout = QtGui.QHBoxLayout()
btn_layout.addLayout(start_stop_save_layout)
self.start_stop_buttons = PlotterStartStopPauseSave(
layout=start_stop_save_layout, parent=self)
self.sample_rate = pg.SpinBox(value=1000,
step=1,
dec=True,
int=True,
siPrefix=True,
bounds=[1, 100000],
suffix='S/s')
tmp = pg.LayoutWidget()
tmp.addWidget(pg.QtGui.QLabel('Sample rate'), col=0)
tmp.addWidget(self.sample_rate, col=1)
btn_layout.addWidget(tmp)
self.duration = pg.SpinBox(value=10,
dec=True,
step=1,
bounds=[1, 10000],
suffix=' s')
tmp = pg.LayoutWidget()
tmp.addWidget(pg.QtGui.QLabel('Acquisition duration'), col=0)
tmp.addWidget(self.duration, col=1)
btn_layout.addWidget(tmp)
ai = AIConnection(with_enable_button=False)
btn_layout.addWidget(ai.make_layout())
self.ai = ai
self.channels = []
self.channel_items = ["off", "0", "1", "2", "3"]
for i in range(4):
chan = pg.ComboBox(
items=self.channel_items,
default=self.channel_items[1] if i == 0 else None)
self.channels.append(chan)
btn_layout.addWidget(chan)
btn_layout.addStretch(1)
self.add_plot_widgets()
if self.parent():
self.start_stop_buttons.connect(self.parent().new_tab_state)
def __init__(self,
parent=None,
show_region=True,
show_crosshair=True,
show_label=True,
*args,
**kwargs):
self.parent = parent
super().__init__(parent)
layout = QVBoxLayout(self)
# # Set up the PlotWidget
self.PlotWidget = CustomPlotWidget(self,
show_region=show_region,
show_crosshair=show_crosshair,
show_label=show_label,
*args,
**kwargs)
self.PlotWidget.region.sigRegionChanged.connect(
self.updateBoxFromRegion)
self.PlotItem = self.PlotWidget.PlotItem
self.ViewBox = self.PlotWidget.ViewBox
layout.addWidget(self.PlotWidget)
# # Set up the region controls
control_layout = QHBoxLayout()
self.lower_box = pg.SpinBox(self, bounds=(None, None))
self.lower_box.valueChanged.connect(self.updateRegionFromBox)
self.lower_box_proxy = pg.SignalProxy(self.lower_box.valueChanged,
rateLimit=30,
slot=self.on_region_changed)
self.upper_box = pg.SpinBox(self, bounds=(None, None))
self.upper_box_proxy = pg.SignalProxy(self.upper_box.valueChanged,
rateLimit=30,
slot=self.on_region_changed)
self.upper_box.valueChanged.connect(self.updateRegionFromBox)
self.zoom_btn = QPushButton('Zoom', self)
self.zoom_btn.clicked.connect(self.zoomToRegion)
control_layout.addWidget(QLabel('Lower', self))
control_layout.addWidget(self.lower_box)
control_layout.addWidget(QLabel('Upper', self))
control_layout.addWidget(self.upper_box)
control_layout.addWidget(self.zoom_btn)
layout.addLayout(control_layout)
self.clear()
def gui(self):
s = g.settings['frame_remover']
self.gui_reset()
self.window = WindowSelector()
self.removeFrames_button = QPushButton('Remove Frames')
self.removeFrames_button.pressed.connect(self.removeFrames)
self.start_slider = pg.SpinBox(int=True, step=1)
self.start_slider.setValue(s['start'])
self.end_slider = pg.SpinBox(int=True, step=1)
self.end_slider.setValue(s['end'])
self.frames_slider = pg.SpinBox(int=True, step=1)
self.frames_slider.setValue(s['length'])
self.interval_slider = pg.SpinBox(int=True, step=1)
self.interval_slider.setValue(s['interval'])
self.items.append({
'name': 'window',
'string': 'Select Window',
'object': self.window
})
self.items.append({
'name': 'start',
'string': 'Start frame',
'object': self.start_slider
})
self.items.append({
'name': 'end',
'string': 'End frame',
'object': self.end_slider
})
self.items.append({
'name': 'length',
'string': 'Number of frames to remove',
'object': self.frames_slider
})
self.items.append({
'name': 'interval',
'string': 'Interval',
'object': self.interval_slider
})
self.items.append({
'name': 'removeFrames_button',
'string': '',
'object': self.removeFrames_button
})
super().gui()
def gui(self):
self.gui_reset()
red_window=WindowSelector()
self.green_window=WindowSelector()
self.x_shift_spin = pg.SpinBox(int=True, step=1)
self.y_shift_spin = pg.SpinBox(int=True, step=1)
self.items.append({'name': 'red_window', 'string': 'Overlay Red Window', 'object': red_window})
self.items.append({'name': 'green_window', 'string': 'With Green Window', 'object': self.green_window})
self.items.append({'name': 'x_shift', 'string': 'X Pixel Shift', 'object': self.x_shift_spin})
self.items.append({'name': 'y_shift', 'string': 'Y Pixel Shift', 'object': self.y_shift_spin})
super().gui()
def __init__(self, **kwd):
super(PlotterWindow, self).__init__(**kwd)
self.main_layout = main_layout = QtGui.QHBoxLayout()
self.setLayout(main_layout)
btn_layout = QtGui.QVBoxLayout()
main_layout.addLayout(btn_layout)
start_stop_save_layout = QtGui.QHBoxLayout()
btn_layout.addLayout(start_stop_save_layout)
self.start_stop_buttons = PlotterStartStopPauseSave(
layout=start_stop_save_layout, parent=self)
self.sample_rate = pg.SpinBox(value=10,
dec=True,
step=1,
bounds=[0.01, 100],
suffix=' S/s')
tmp = pg.LayoutWidget()
tmp.addWidget(pg.QtGui.QLabel('Sample rate'), col=0)
tmp.addWidget(self.sample_rate, col=1)
btn_layout.addWidget(tmp)
self.duration = pg.SpinBox(value=10,
dec=True,
step=1,
bounds=[1, 10000],
suffix=' s')
tmp = pg.LayoutWidget()
tmp.addWidget(pg.QtGui.QLabel('Acquisition duration'), col=0)
tmp.addWidget(self.duration, col=1)
btn_layout.addWidget(tmp)
n = 4
self.voltmeters = []
for i in range(n):
voltmeter = VoltmeterConnection(with_enable_button=True)
if i < 1:
voltmeter.enable_button.setCheckState(2)
# voltmeter.set_state('Unconnected')
# print([elm for elm in dir(type(voltmeter.enable_button)) if 'eck' in elm])
# print(voltmeter.enable_button.setChecked(True))
# voltmeter.enable_button.setState(True)
btn_layout.addWidget(voltmeter.make_layout())
self.voltmeters.append(voltmeter)
btn_layout.addStretch(1)
self.add_plot_widgets()
if self.parent():
self.start_stop_buttons.connect(self.parent().new_tab_state)
def __init__(self, name):
super().__init__()
self.setTitle(name)
self.layout = QGridLayout()
self.x = pg.SpinBox()
self.y = pg.SpinBox()
self.x.sigValueChanged.connect(self.value_changed.emit)
self.y.sigValueChanged.connect(self.value_changed.emit)
self.layout.addWidget(QLabel("x:"), 0, 0)
self.layout.addWidget(QLabel("y:"), 0, 5)
self.layout.addWidget(self.x, 0, 1, 1, 4)
self.layout.addWidget(self.y, 0, 6, 1, 4)
self.setLayout(self.layout)
def add_params_to_ui(self, params):
"""Add parameters to user interface.
When the model function is changed and certain parameters are now part
of the expression, they need to be added to the user interface.
Args:
params: a list of parameter names to add to the user interface.
"""
for p in params:
layout = QtWidgets.QHBoxLayout()
layout.addWidget(QtWidgets.QLabel(f"{p}: ", minimumWidth=30))
min_box = pg.SpinBox(value=-np.inf,
finite=False,
compactHeight=False)
min_box.setMaximumWidth(75)
layout.addWidget(min_box)
self._idx_min_value_box = layout.count() - 1
layout.addWidget(
QtWidgets.QLabel("≤",
alignment=QtCore.Qt.AlignHCenter
| QtCore.Qt.AlignVCenter))
value_box = pg.SpinBox(
value=1.0,
dec=True,
step=0.1,
minStep=0,
finite=True,
compactHeight=False,
)
value_box.sigValueChanging.connect(
lambda: self.ui.show_initial_fit.setChecked(True))
value_box.sigValueChanging.connect(self.plot_initial_model)
value_box.setMaximumWidth(75)
layout.addWidget(value_box)
self._idx_value_box = layout.count() - 1
layout.addWidget(
QtWidgets.QLabel("≤",
alignment=QtCore.Qt.AlignHCenter
| QtCore.Qt.AlignVCenter))
max_box = pg.SpinBox(value=+np.inf,
finite=False,
compactHeight=False)
max_box.setMaximumWidth(75)
layout.addWidget(max_box)
self._idx_max_value_box = layout.count() - 1
layout.addWidget(QtWidgets.QCheckBox("Fixed"))
self._idx_fixed_checkbox = layout.count() - 1
self._params[p] = layout
self.ui.param_layout.addLayout(layout)
def __init__(
self,
parent=None,
value=1.,
limits=[0.001, 1000],
orientation=Qt.Horizontal,
):
QWidget.__init__(self, parent)
self._val = None
self.limits = limits
if orientation == Qt.Horizontal:
self.mainlayout = QHBoxLayout()
else:
self.mainlayout = QVBoxLayout()
self.setLayout(self.mainlayout)
#~ self.spinbox = QDoubleSpinBox(decimals = 4, singleStep = .1,
#~ minimum = self.limits[0], maximum = self.limits[1])
self.spinbox = pg.SpinBox(decimals=4, step=.1, bounds=self.limits)
self.mainlayout.addWidget(self.spinbox)
self.slider = QSlider(Qt.Horizontal, minimum=0, maximum=100)
self.mainlayout.addWidget(self.slider)
self.slider.setMinimumWidth(20)
self.spinbox.valueChanged.connect(self.spinbox_changed)
self.slider.valueChanged.connect(self.slider_changed)
self.setValue(value)
def makeWidget(self):
'''Extended SimpleParameter widget - float values only, additionally displaying
corresponding channel's color.
Returns:
widget with a color button and a spinbox for setting threshold value
'''
opts = self.param.opts
t = opts['type']
defs = {
'value': 0,
'min': None,
'max': None,
'step': 1.0,
'dec': False,
'siPrefix': False,
'suffix': '',
'decimals': 3,
}
for k in defs:
if k in opts:
defs[k] = opts[k]
if 'limits' in opts:
defs['bounds'] = opts['limits']
w = pg.SpinBox()
w.setOpts(**defs)
w.sigChanged = w.sigValueChanged
w.sigChanging = w.sigValueChanging
return w
def make_group(
d,
name: str = ''
):
g = QtWidgets.QGroupBox()
g.setTitle(str(name))
layout = QtWidgets.QFormLayout()
g.setLayout(layout)
for row, key in enumerate(d):
label = QtWidgets.QLabel(str(key))
value = d[key]
if isinstance(value, dict):
wd = make_group(value, '')
layout.addRow(str(key), wd)
else:
if isinstance(value, bool):
wd = QtWidgets.QCheckBox()
wd.setChecked(value)
elif isinstance(value, numbers.Real):
wd = pg.SpinBox(value=value)
else:
wd = QtWidgets.QLineEdit()
wd.setText(str(value))
layout.addRow(label, wd)
return g
def __init__(self, parent=None, show_slider=True, show_spinbox=True):
QT.QWidget.__init__(self, parent)
self.layout = QT.QHBoxLayout()
self.setLayout(self.layout)
if show_slider:
self.slider = QT.QSlider(orientation=QT.Qt.Horizontal,
minimum=0,
maximum=999)
self.layout.addWidget(self.slider)
self.slider.valueChanged.connect(self.slider_changed)
else:
self.slider = None
if show_spinbox:
self.spinbox = pg.SpinBox(decimals=4,
bounds=[-np.inf, np.inf],
suffix='s',
siPrefix=True,
step=0.1,
dec=True,
minStep=0.001)
self.layout.addWidget(self.spinbox)
self.spinbox.valueChanged.connect(self.spinbox_changed)
else:
self.spinbox = None
self.t = 0 # s
self.set_start_stop(0., 10.)
def gui(self):
s=g.settings['annotator']
self.gui_reset()
#windows
self.window_button = WindowSelector()
#buttons
self.addIndex_button = QPushButton('Add Index')
self.addIndex_button.pressed.connect(self.addIndex)
#boxes
self.fontSize_slider = pg.SpinBox(int=True, step=1)
self.fontSize_slider.setValue(s['fontSize'])
self.fontColour_combobox = pg.ComboBox()
self.fontColours = {'white': 1, 'black': 2}
self.fontColour_combobox.setItems(self.fontColours)
self.textPosition_combobox = pg.ComboBox()
self.textPosition = {'ms': 1, 'ma': 2, 'ls': 3, 'mb': 4, 'mt': 5, 'mm': 6, 'md': 7, 'rs': 8}
self.textPosition_combobox.setItems(self.textPosition)
#self.exportFolder = FolderSelector('*.txt')
self.items.append({'name': 'window', 'string': 'Select Window', 'object': self.window_button})
self.items.append({'name': 'fontSize', 'string': 'Font Size', 'object': self.fontSize_slider})
self.items.append({'name': 'fontColour', 'string': 'Font Colour', 'object': self.fontColour_combobox})
self.items.append({'name': 'textPosition', 'string': 'Anchor Position', 'object': self.textPosition_combobox})
self.items.append({'name': 'addIndex', 'string': 'Add Numbers to Image Stack ', 'object': self.addIndex_button})
super().gui()
def __init__(self):
pg.LayoutWidget.__init__(self)
currRow = 0
img = renderTeX(
'$D(\\vec{r}) \\propto \\frac{r^{2/3}}{L^{2/3} + r^{2/3}}$')
eqnLabel = QtGui.QLabel(alignment=QtCore.Qt.AlignHCenter)
eqnLabel.setPixmap(QtGui.QPixmap.fromImage(img))
self.addWidget(eqnLabel, row=currRow, col=0, colspan=2)
currRow += 1
self.addWidget(QtGui.QLabel('L:'), row=currRow, col=0)
self.LSpinBox = pg.SpinBox(value=2.,
bounds=[0, None],
suffix='m',
siPrefix=True,
dec=True,
step=1.0,
minStep=0.1)
self.addWidget(self.LSpinBox, row=currRow, col=1)
currRow += 1
genButton = QtGui.QPushButton('Generate field')
self.addWidget(genButton, row=currRow, colspan=2)
genButton.clicked.connect(self.generate)
self.setHidden(True)
def __init__(self):
pg.LayoutWidget.__init__(self)
currRow = 0
img = renderTeX('$C(\\vec{r})\\propto \\mathrm{exp}(-r^2/a^2)' +
'$\n$' +
'\\Phi(\\vec{k}) \\propto \\mathrm{exp}(-a^2 k^2/4)$')
eqnLabel = QtGui.QLabel(alignment=QtCore.Qt.AlignHCenter)
eqnLabel.setPixmap(QtGui.QPixmap.fromImage(img))
self.addWidget(eqnLabel,row=currRow,col=0,colspan=2)
currRow += 1
self.addWidget(QtGui.QLabel('a:'), row=currRow, col=0)
self.aSpinBox = pg.SpinBox(value=1.,bounds=[0,None],suffix='m',
siPrefix=True, dec=True, step=0.5, minStep=0.1)
self.addWidget(self.aSpinBox, row=currRow, col=1)
currRow += 1
self.covRB = QtGui.QRadioButton('Covariance')
self.specRB = QtGui.QRadioButton('Spectrum')
csButtonGroup = QtGui.QButtonGroup()
csButtonGroup.addButton(self.covRB)
csButtonGroup.addButton(self.specRB)
csButtonGroup.setExclusive(True)
self.csButtonGroup = csButtonGroup
self.addWidget(self.covRB, row=currRow, col=0)
self.addWidget(self.specRB, row=currRow, col=1)
currRow += 1
genButton = QtGui.QPushButton('Generate field')
genButton.clicked.connect(self.generate)
self.addWidget(genButton, row=currRow, colspan=2)
def __init__(self):
pg.LayoutWidget.__init__(self)
# Title row
currRow = 0
for i,txt in enumerate(['x','y','z']):
self.addWidget(QtGui.QLabel(txt,
alignment=QtCore.Qt.AlignHCenter | QtCore.Qt.AlignBottom),
row=currRow, col=i+1)
currRow += 1
# Resolution row
self.addWidget(QtGui.QLabel('N:',
alignment=QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter),
row=currRow, col=0)
global NspinBoxes
NspinBoxes = [QtGui.QSpinBox(value=64, minimum=1,maximum=1024)
for _ in range(3)]
for i,sb in enumerate(NspinBoxes):
self.addWidget(sb,row=currRow,col=i+1)
currRow += 1
# Physical size row
self.addWidget(QtGui.QLabel('L:',
alignment=QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter),
row=currRow, col=0)
global LspinBoxes
LspinBoxes = [pg.SpinBox(value=16.,bounds=[0,None],suffix='m',
siPrefix=True, dec=True, step=0.5, minStep=0.1)
for _ in range(3) ]
for i,sb in enumerate(LspinBoxes):
self.addWidget(sb,row=currRow,col=i+1)
currRow += 1
