def update(self):
ts = self.ts
vs = self.Vs
ys = self.Ts
self.curve.clear()
self.ts = ts
self.Vs = vs
self.Ts = ys
self.index -= 1
a = pg.intColor(self.index,
hues=9,
values=1,
maxValue=255,
minValue=150,
maxHue=360,
minHue=0,
sat=255,
alpha=255)
p = pg.colorStr(a)
self.curve = pg.PlotCurveItem(symbol='o', pen=p)
self.updatePlot()
self.plot.addItem(self.curve)
def setPen(self, pen):
"""
Set the pen used for drawing text, axes, ticks, and grid lines.
if pen == None, the default will be used (see :func:`setConfigOption
<pyqtgraph.setConfigOption>`)
"""
self._pen = pen
self.picture = None
if pen is None:
pen = pg.getConfigOption("foreground")
self.labelStyle["color"] = "#" + pg.colorStr(pg.mkPen(pen).color())[:6]
self.setLabel()
self.update()
def setPen(self, pen):
"""
Set the pen used for drawing text, axes, ticks, and grid lines.
if pen == None, the default will be used (see :func:`setConfigOption
<pyqtgraph.setConfigOption>`)
"""
self._pen = pen
self.picture = None
if pen is None:
pen = pg.getConfigOption('foreground')
self.labelStyle['color'] = '#' + pg.colorStr(pg.mkPen(pen).color())[:6]
self.setLabel()
self.update()
def _marshallingQPainter(opts, prop_name, qPainter):
if qPainter == 'pen':
painter = pyqtgraph.mkPen(opts[prop_name])
opts[prop_name + '_width'] = painter.width()
opts[prop_name + '_dash'] = painter.dashPattern()
opts[prop_name + '_cosmetic'] = painter.isCosmetic()
elif qPainter == 'brush':
painter = pyqtgraph.mkBrush(opts[prop_name])
else:
return
color = pyqtgraph.colorStr(painter.color())
opts[prop_name] = color
opts[prop_name + '_style'] = painter.style()
def _marshallingQPainter(opts, prop_name, qPainter):
if qPainter == "pen":
painter = pyqtgraph.mkPen(opts[prop_name])
opts[prop_name + "_width"] = painter.width()
opts[prop_name + "_dash"] = painter.dashPattern()
opts[prop_name + "_cosmetic"] = painter.isCosmetic()
elif qPainter == "brush":
painter = pyqtgraph.mkBrush(opts[prop_name])
else:
return
color = pyqtgraph.colorStr(painter.color())
opts[prop_name] = color
opts[prop_name + "_style"] = painter.style()
def createAxis(self, name='', color='k', logMode=False, verticalRange=None):
axis = pg.AxisItem("left")
labelStyle = {'color': '#'+pg.colorStr(pg.mkColor(color))[0:-2]}
axis.setLabel(name,**labelStyle)
viewbox = pg.ViewBox()
axis.linkToView(viewbox)
viewbox.setXLink(self.plot.vb)
# viewbox.setYLink(self.plot.vb)
axiszero = viewbox.menu.addAction('Set Axis to 0')
axiszero.triggered.connect(lambda: self.setAxisToZero(viewbox))
self.namedaxes[name] = [axis, viewbox]
if not verticalRange == None:
viewbox.setRange(yRange=verticalRange, disableAutoRange=True)
col = self.findFirstEmptyColumnInGraphicsLayout()
self.plotWidget.ci.addItem(axis, row = 0, col = col, rowspan=1, colspan=1)
self.plotWidget.ci.addItem(viewbox, row=0, col=50)
axis.setLogMode(logMode)
# self.newaxis.emit()
return axis, viewbox
def __init__(self, startPb, stopPb, dmmVisaCombo, thermometerCombo,
currentCombo, voltageSb, temperatureSb, yAxisCombo, plot, n,
errorDisplayTE, errorDisplayArray, zmqPublisher):
self.startPb = startPb
self.stopPb = stopPb
self.dmmVisaCombo = dmmVisaCombo
self.thermometerCombo = thermometerCombo
self.currentCombo = currentCombo
self.voltageSb = voltageSb
self.temperatureSb = temperatureSb
self.yAxisCombo = yAxisCombo
self.plot = plot
self.errorDisplayTE = errorDisplayTE
self.errorDisplayArray = errorDisplayArray
self.index = n
self.publisher = zmqPublisher
a = pg.intColor(self.index,
hues=9,
values=1,
maxValue=255,
minValue=150,
maxHue=360,
minHue=0,
sat=255,
alpha=255)
p = pg.colorStr(a)
self.curve = pg.PlotCurveItem(name='DC' + str(self.index + 1),
symbol='o',
pen=p)
self.plot.addItem(self.curve)
self.clearData()
self.msmThread = None
# self.restoreSettings()
self.startPb.clicked.connect(self.startPbClicked)
self.stopPb.clicked.connect(self.stopPbClicked)
self.yAxisCombo.currentIndexChanged.connect(self.updatePlot)
def toggleLegend(self):
'''
Toggle display of the legend. When on, display traces in
different colors.
'''
if self.legend == None:
self.legend = self.plotI.addLegend()
i = 0
for k, t in self.traces.items():
cl = pg.intColor(i, len(self.traces))
t.setPen(cl)
self.colors[k] = '#' + pg.colorStr(cl)[:-2]
self.legend.addItem(t, t.name())
i = i + 1
else:
for k, t in self.traces.items():
t.setPen('k')
self.colors[k] = "#000000"
self.vb.removeItem(self.legend)
del (self.legend)
self.legend = None
self.plotI.legend = None
self.update()
def __init__(self,optrode,parent=None):
#super(Raw_Data_Monitor, self).__init__()
QtGui.QWidget.__init__(self,parent=parent)
self.optrode = optrode
self.plots = []
self.raw_data_plot = XY_Line_Plots(parent=self)
self.raw_data_plot.setYRange(0,4096)
self.raw_data_plot.setLimits(yMin=0,yMax=4096,maxYRange=4096,minYRange=0)
self.plots.append(self.raw_data_plot)
n_items = len(self.optrode.buffer.lasers)*len(self.optrode.buffer.ai_channels)
initial_colors = iter([pg.colorStr(pg.intColor(i,values=n_items)) \
for i in range(n_items)])
chkbox_columns = []
for laser in self.optrode.buffer.lasers:
chkbox_columns.append(Plot_Checkboxes_Column(initial_colors,col_label = str(laser)))
for channel in self.optrode.buffer.ai_channels:
self.raw_data_plot.add_data(Teensy_Plot_Raw_Data(self.raw_data_plot,\
self.optrode.buffer,\
laser, channel,\
label = channel,\
name = '_'.join([laser,channel])))
chkbox_columns[-1].add_row(self.raw_data_plot.xydatas[-1])
chkbox_columns[-1].finalize_layout()
self.checkboxes = Plot_Checkboxes_2D(chkbox_columns)
self.transfer_stats_plots = Transfer_Status_Plots(self.optrode.buffer,\
{'byte_count': {'x':0,'y':0,'title':'byte count per block',\
'left': ('bytes')},\
'line_count': {'x':0, 'y':1, 'title':'sample count per block',\
'left': ('samples')},\
'dt': {'x':0, 'y':2, 'title':'acquisition time per block',\
'left': ('acq time','s')},\
'tx_rate': {'x':0, 'y':3, 'title':'data transfer rate',\
'left':('Mbits/s')},\
'smpl_rate': {'x':0,'y':4, 'title':'data sampling rate',\
'left':('kHz')}})
self.plots.append(self.transfer_stats_plots)
self.acq_control = Acquisition_Control(self.optrode,self.plots,parent=self)
self.raw_data_control = Save_Raw_Data_Control(self.optrode.raw_export.param_q,\
self.acq_control)
self.snapshot_control = Save_Snapshot_Control(self.raw_data_plot,\
self.acq_control)
right_side_layout = QtGui.QVBoxLayout()
right_side_layout.addWidget(self.acq_control)
right_side_layout.addWidget(self.checkboxes)
right_side_layout.addWidget(self.raw_data_control)
right_side_layout.addWidget(self.snapshot_control)
raw_data_layout = QtGui.QHBoxLayout()
raw_data_layout.addWidget(self.raw_data_plot,1)
raw_data_layout.addLayout(right_side_layout)
layout = QtGui.QVBoxLayout()
layout.addLayout(raw_data_layout,2)
layout.addWidget(self.transfer_stats_plots,1)
self.setLayout(layout)
self.t_optrode_data = QtCore.QTimer()
self.t_optrode_data.timeout.connect(self.update_optrode_data)
self.t_optrode_data.start(50) # ms
self.t_optrode_stats = QtCore.QTimer()
self.t_optrode_stats.timeout.connect(self.update_optrode_stats)
self.t_optrode_stats.start(500) # ms
self.t_optrode_tx_plots = QtCore.QTimer()
self.t_optrode_tx_plots.timeout.connect(self.update_optrode_tx_plots)
self.t_optrode_tx_plots.start(500) #ms
self.t_optrode_data_plots = QtCore.QTimer()
self.t_optrode_data_plots.timeout.connect(self.update_optrode_data_plots)
self.t_optrode_data_plots.start(200) #ms
def __init__(self, directory='.', **kwargs):
super(astraPlotWidget, self).__init__(**kwargs)
self.beam = raf.beam()
self.twiss = rtf.twiss()
self.directory = directory
''' twissPlotWidget '''
self.twissPlotView = GraphicsView(useOpenGL=True)
self.twissPlotWidget = GraphicsLayout()
self.twissPlotView.setCentralItem(self.twissPlotWidget)
self.latticePlotData = imageio.imread('lattice_plot.png')
self.latticePlots = {}
self.twissPlots = {}
i = -1
for entry in self.twissplotLayout:
if entry == 'next_row':
self.twissPlotWidget.nextRow()
else:
i += 1
p = self.twissPlotWidget.addPlot(title=entry['name'])
p.showGrid(x=True, y=True)
vb = p.vb
vb.setYRange(*entry['range'])
latticePlot = ImageItem(self.latticePlotData)
latticePlot.setOpts(axisOrder='row-major')
vb.addItem(latticePlot)
latticePlot.setZValue(-1) # make sure this image is on top
# latticePlot.setOpacity(0.5)
self.twissPlots[entry['name']] = p.plot(
pen=mkPen('b', width=3))
self.latticePlots[p.vb] = latticePlot
p.vb.sigRangeChanged.connect(self.scaleLattice)
''' beamPlotWidget '''
self.beamPlotWidget = QWidget()
self.beamPlotLayout = QVBoxLayout()
self.item = ImageItem()
self.beamPlotWidget.setLayout(self.beamPlotLayout)
self.beamPlotView = ImageView(imageItem=self.item)
self.rainbow = rainbow()
self.item.setLookupTable(self.rainbow)
self.item.setLevels([0, 1])
# self.beamPlotWidgetGraphicsLayout = GraphicsLayout()
# p = self.beamPlotWidgetGraphicsLayout.addPlot(title='beam')
# p.showGrid(x=True, y=True)
# self.beamPlot = p.plot(pen=None, symbol='+')
# self.beamPlotView.setCentralItem(self.beamPlotWidgetGraphicsLayout)
self.beamPlotXAxisCombo = QComboBox()
self.beamPlotXAxisCombo.addItems(
['x', 'y', 'zn', 'cpx', 'cpy', 'BetaGamma'])
self.beamPlotYAxisCombo = QComboBox()
self.beamPlotYAxisCombo.addItems(
['x', 'y', 'zn', 'cpx', 'cpy', 'BetaGamma'])
self.beamPlotNumberBins = QSpinBox()
self.beamPlotNumberBins.setRange(10, 500)
self.beamPlotNumberBins.setSingleStep(10)
self.histogramBins = 100
self.beamPlotNumberBins.setValue(self.histogramBins)
self.beamPlotAxisWidget = QWidget()
self.beamPlotAxisLayout = QHBoxLayout()
self.beamPlotAxisWidget.setLayout(self.beamPlotAxisLayout)
self.beamPlotAxisLayout.addWidget(self.beamPlotXAxisCombo)
self.beamPlotAxisLayout.addWidget(self.beamPlotYAxisCombo)
self.beamPlotAxisLayout.addWidget(self.beamPlotNumberBins)
self.beamPlotXAxisCombo.currentIndexChanged.connect(self.plotDataBeam)
self.beamPlotYAxisCombo.currentIndexChanged.connect(self.plotDataBeam)
self.beamPlotNumberBins.valueChanged.connect(self.plotDataBeam)
# self.beamPlotXAxisCombo.setCurrentIndex(2)
# self.beamPlotYAxisCombo.setCurrentIndex(5)
self.beamPlotLayout.addWidget(self.beamPlotAxisWidget)
self.beamPlotLayout.addWidget(self.beamPlotView)
''' slicePlotWidget '''
self.sliceParams = [
{
'name': 'slice_normalized_horizontal_emittance',
'units': 'm-rad',
'text': 'enx'
},
{
'name': 'slice_normalized_vertical_emittance',
'units': 'm-rad',
'text': 'eny'
},
{
'name': 'slice_peak_current',
'units': 'A',
'text': 'PeakI'
},
{
'name': 'slice_relative_momentum_spread',
'units': '%',
'text': 'sigma-p'
},
]
self.slicePlotWidget = QWidget()
self.slicePlotLayout = QVBoxLayout()
self.slicePlotWidget.setLayout(self.slicePlotLayout)
# self.slicePlotView = GraphicsView(useOpenGL=True)
self.slicePlotWidgetGraphicsLayout = GraphicsLayoutWidget()
# self.slicePlots = {}
self.slicePlotCheckbox = {}
self.curve = {}
self.sliceaxis = {}
self.slicePlotCheckboxWidget = QWidget()
self.slicePlotCheckboxLayout = QVBoxLayout()
self.slicePlotCheckboxWidget.setLayout(self.slicePlotCheckboxLayout)
self.slicePlot = self.slicePlotWidgetGraphicsLayout.addPlot(
title='Slice', row=0, col=50)
self.slicePlot.showAxis('left', False)
self.slicePlot.showGrid(x=True, y=True)
i = -1
colors = ['b', 'r', 'g', 'k']
for param in self.sliceParams:
i += 1
axis = AxisItem("left")
labelStyle = {'color': '#' + colorStr(mkColor(colors[i]))[0:-2]}
axis.setLabel(text=param['text'],
units=param['units'],
**labelStyle)
viewbox = ViewBox()
axis.linkToView(viewbox)
viewbox.setXLink(self.slicePlot.vb)
self.sliceaxis[param['name']] = [axis, viewbox]
self.curve[param['name']] = PlotDataItem(pen=colors[i], symbol='+')
viewbox.addItem(self.curve[param['name']])
col = self.findFirstEmptyColumnInGraphicsLayout()
self.slicePlotWidgetGraphicsLayout.ci.addItem(axis,
row=0,
col=col,
rowspan=1,
colspan=1)
self.slicePlotWidgetGraphicsLayout.ci.addItem(viewbox,
row=0,
col=50)
p.showGrid(x=True, y=True)
# self.slicePlots[param] = self.slicePlot.plot(pen=colors[i], symbol='+')
self.slicePlotCheckbox[param['name']] = QCheckBox(param['text'])
self.slicePlotCheckboxLayout.addWidget(
self.slicePlotCheckbox[param['name']])
self.slicePlotCheckbox[param['name']].stateChanged.connect(
self.plotDataSlice)
# self.slicePlotView.setCentralItem(self.slicePlotWidgetGraphicsLayout)
self.slicePlotSliceWidthWidget = QSpinBox()
self.slicePlotSliceWidthWidget.setMaximum(1000)
self.slicePlotSliceWidthWidget.setValue(100)
self.slicePlotSliceWidthWidget.setSingleStep(10)
self.slicePlotSliceWidthWidget.setSuffix("fs")
self.slicePlotSliceWidthWidget.setSpecialValueText('Automatic')
self.slicePlotAxisWidget = QWidget()
self.slicePlotAxisLayout = QHBoxLayout()
self.slicePlotAxisWidget.setLayout(self.slicePlotAxisLayout)
self.slicePlotAxisLayout.addWidget(self.slicePlotCheckboxWidget)
self.slicePlotAxisLayout.addWidget(self.slicePlotSliceWidthWidget)
# self.slicePlotXAxisCombo.currentIndexChanged.connect(self.plotDataSlice)
self.slicePlotSliceWidthWidget.valueChanged.connect(
self.changeSliceLength)
# self.beamPlotXAxisCombo.setCurrentIndex(2)
# self.beamPlotYAxisCombo.setCurrentIndex(5)
self.slicePlotLayout.addWidget(self.slicePlotAxisWidget)
self.slicePlotLayout.addWidget(self.slicePlotWidgetGraphicsLayout)
self.layout = QVBoxLayout()
self.setLayout(self.layout)
self.tabWidget = QTabWidget()
self.folderButton = QPushButton('Select Directory')
self.folderLineEdit = QLineEdit()
self.folderLineEdit.setReadOnly(True)
self.folderLineEdit.setText(self.directory)
self.reloadButton = QPushButton()
self.reloadButton.setIcon(qApp.style().standardIcon(
QStyle.SP_BrowserReload))
self.folderWidget = QGroupBox()
self.folderLayout = QHBoxLayout()
self.folderLayout.addWidget(self.folderButton)
self.folderLayout.addWidget(self.folderLineEdit)
self.folderLayout.addWidget(self.reloadButton)
self.folderWidget.setLayout(self.folderLayout)
self.folderWidget.setMaximumWidth(800)
self.reloadButton.clicked.connect(
lambda: self.changeDirectory(self.directory))
self.folderButton.clicked.connect(self.changeDirectory)
self.fileSelector = QComboBox()
self.fileSelector.currentIndexChanged.connect(self.updateScreenCombo)
self.screenSelector = QComboBox()
self.screenSelector.currentIndexChanged.connect(self.changeScreen)
self.beamWidget = QGroupBox()
self.beamLayout = QHBoxLayout()
self.beamLayout.addWidget(self.fileSelector)
self.beamLayout.addWidget(self.screenSelector)
self.beamWidget.setLayout(self.beamLayout)
self.beamWidget.setMaximumWidth(800)
self.beamWidget.setVisible(False)
self.folderBeamWidget = QWidget()
self.folderBeamLayout = QHBoxLayout()
self.folderBeamLayout.setAlignment(Qt.AlignLeft)
self.folderBeamWidget.setLayout(self.folderBeamLayout)
self.folderBeamLayout.addWidget(self.folderWidget)
self.folderBeamLayout.addWidget(self.beamWidget)
self.tabWidget.addTab(self.twissPlotView, 'Twiss Plots')
self.tabWidget.addTab(self.beamPlotWidget, 'Beam Plots')
self.tabWidget.addTab(self.slicePlotWidget, 'Slice Beam Plots')
self.tabWidget.currentChanged.connect(self.changeTab)
self.layout.addWidget(self.folderBeamWidget)
self.layout.addWidget(self.tabWidget)
self.plotType = 'Twiss'
self.changeDirectory(self.directory)
def __init__(self, directory='.', **kwargs):
super(astraPlotWidget, self).__init__(**kwargs)
self.beam = raf.beam()
self.twiss = rtf.twiss()
self.directory = directory
''' twissPlotWidget '''
self.twissPlotView = GraphicsView(useOpenGL=True)
self.twissPlotWidget = GraphicsLayout()
self.twissPlotView.setCentralItem(self.twissPlotWidget)
self.latticePlotData = imageio.imread(
os.path.dirname(os.path.abspath(__file__)) + '/lattice_plot.png')
self.latticePlots = {}
self.twissPlots = {}
i = -1
for entry in self.twissplotLayout:
if entry == 'next_row':
self.twissPlotWidget.nextRow()
else:
i += 1
p = self.twissPlotWidget.addPlot(title=entry['name'])
p.showGrid(x=True, y=True)
vb = p.vb
vb.setYRange(*entry['range'])
latticePlot = ImageItem(self.latticePlotData)
latticePlot.setOpts(axisOrder='row-major')
vb.addItem(latticePlot)
latticePlot.setZValue(-1) # make sure this image is on top
# latticePlot.setOpacity(0.5)
self.twissPlots[entry['name']] = p.plot(
pen=mkPen('b', width=3))
self.latticePlots[p.vb] = latticePlot
p.vb.sigRangeChanged.connect(self.scaleLattice)
''' beamPlotWidget '''
self.beamPlotWidget = QWidget()
self.beamPlotLayout = QVBoxLayout()
self.beamPlotWidget.setLayout(self.beamPlotLayout)
#
# self.beamPlotChoice =
#
self.beamPlotAxisWidget = QWidget()
self.beamPlotAxisWidget.setMaximumHeight(100)
Form = self.beamPlotAxisWidget
self.beamPlotXAxisDict = OrderedDict()
self.beamPlotXAxisDict['x'] = {'scale': 1e3, 'axis': 'x [mm]'}
self.beamPlotXAxisDict['y'] = {'scale': 1e3, 'axis': 'y [mm]'}
self.beamPlotXAxisDict['z'] = {
'scale': 1e6,
'axis': 'z [micron]',
'norm': True
}
self.beamPlotXAxisDict['t'] = {
'scale': 1e12,
'axis': 't [ps]',
'norm': True
}
self.beamPlotXAxisDict['cpx'] = {'scale': 1e3, 'axis': 'cpx [keV]'}
self.beamPlotXAxisDict['cpy'] = {'scale': 1e3, 'axis': 'cpy [keV]'}
self.beamPlotXAxisDict['BetaGamma'] = {
'scale': 0.511,
'axis': 'cp [MeV]'
}
# Form.setObjectName(("Form"))
# Form.resize(874, 212)
sizePolicy = QSizePolicy(QSizePolicy.Preferred, QSizePolicy.Preferred)
sizePolicy.setHorizontalStretch(0)
sizePolicy.setVerticalStretch(0)
sizePolicy.setHeightForWidth(Form.sizePolicy().hasHeightForWidth())
Form.setSizePolicy(sizePolicy)
self.horizontalLayout = QHBoxLayout(Form)
self.horizontalLayout.setObjectName("horizontalLayout")
self.beamPlotXAxisCombo = QComboBox(Form)
self.beamPlotXAxisCombo.addItems(list(self.beamPlotXAxisDict.keys()))
self.beamPlotXAxisCombo.setCurrentIndex(2)
self.horizontalLayout.addWidget(self.beamPlotXAxisCombo)
self.beamPlotYAxisCombo = QComboBox(Form)
self.beamPlotYAxisCombo.addItems(list(self.beamPlotXAxisDict.keys()))
self.beamPlotYAxisCombo.setCurrentIndex(6)
self.horizontalLayout.addWidget(self.beamPlotYAxisCombo)
self.groupBox = QGroupBox(Form)
self.groupBox.setObjectName("groupBox")
self.formLayout = QFormLayout(self.groupBox)
self.formLayout.setFieldGrowthPolicy(QFormLayout.AllNonFixedFieldsGrow)
self.formLayout.setObjectName("formLayout")
self.chooseSliceWidth = QRadioButton(self.groupBox)
self.chooseSliceWidth.setObjectName(("chooseSliceWidth"))
self.formLayout.setWidget(0, QFormLayout.LabelRole,
self.chooseSliceWidth)
self.sliceWidth = QDoubleSpinBox(self.groupBox)
self.sliceWidth.setDecimals(6)
self.sliceWidth.setObjectName("sliceWidth")
self.formLayout.setWidget(0, QFormLayout.FieldRole, self.sliceWidth)
self.chooseSliceNumber = QRadioButton(self.groupBox)
self.chooseSliceNumber.setChecked(True)
self.chooseSliceNumber.setObjectName("chooseSliceNumber")
self.formLayout.setWidget(1, QFormLayout.LabelRole,
self.chooseSliceNumber)
self.sliceNumber = QSpinBox(self.groupBox)
self.sliceNumber.setObjectName(("sliceNumber"))
self.formLayout.setWidget(1, QFormLayout.FieldRole, self.sliceNumber)
self.horizontalLayout.addWidget(self.groupBox)
self.chooseSliceWidth.setText(_translate("Form", "Slice Width", None))
self.chooseSliceNumber.setText(
_translate("Form", "Number of Slices", None))
self.sliceWidth.setRange(1e-6, 1)
self.sliceWidth.setSingleStep(0.00001)
self.histogramWidth = 0.0005
self.sliceWidth.setValue(self.histogramWidth)
# self.sliceNumber = QSpinBox()
self.sliceNumber.setRange(10, 10000)
self.sliceNumber.setSingleStep(10)
self.histogramBins = 100
self.sliceNumber.setValue(self.histogramBins)
# self.beamPlotXAxisCombo = QComboBox()
# self.beamPlotAxisLayout = QHBoxLayout()
# self.beamPlotAxisWidget.setLayout(self.beamPlotAxisLayout)
# self.beamPlotAxisLayout.addWidget(self.beamPlotXAxisCombo)
# self.beamPlotAxisLayout.addWidget(self.beamPlotYAxisCombo)
# self.beamPlotAxisLayout.addWidget(self.beamPlotNumberBins)
self.beamPlotXAxisCombo.currentIndexChanged.connect(self.plotDataBeam)
self.beamPlotYAxisCombo.currentIndexChanged.connect(self.plotDataBeam)
self.chooseSliceNumber.toggled.connect(self.plotDataBeam)
self.sliceNumber.valueChanged.connect(self.plotDataBeam)
self.sliceWidth.valueChanged.connect(self.plotDataBeam)
# self.beamPlotXAxisCombo.setCurrentIndex(2)
# self.beamPlotYAxisCombo.setCurrentIndex(5)
self.canvasWidget = QWidget()
l = QVBoxLayout(self.canvasWidget)
self.sc = MyStaticMplCanvas(self.canvasWidget,
width=1,
height=1,
dpi=150)
l.addWidget(self.sc)
self.beamPlotLayout.addWidget(self.beamPlotAxisWidget)
self.beamPlotLayout.addWidget(self.canvasWidget)
''' slicePlotWidget '''
self.sliceParams = [
{
'name': 'slice_normalized_horizontal_emittance',
'units': 'm-rad',
'text': 'enx'
},
{
'name': 'slice_normalized_vertical_emittance',
'units': 'm-rad',
'text': 'eny'
},
{
'name': 'slice_peak_current',
'units': 'A',
'text': 'PeakI'
},
{
'name': 'slice_relative_momentum_spread',
'units': '%',
'text': 'sigma-p'
},
{
'name': 'slice_beta_x',
'units': 'm',
'text': 'beta_x'
},
{
'name': 'slice_beta_y',
'units': 'm',
'text': 'beta_y'
},
]
self.slicePlotWidget = QWidget()
self.slicePlotLayout = QVBoxLayout()
self.slicePlotWidget.setLayout(self.slicePlotLayout)
# self.slicePlotView = GraphicsView(useOpenGL=True)
self.slicePlotWidgetGraphicsLayout = GraphicsLayoutWidget()
# self.slicePlots = {}
self.slicePlotCheckbox = {}
self.curve = {}
self.sliceaxis = {}
self.slicePlotCheckboxWidget = QWidget()
self.slicePlotCheckboxLayout = QVBoxLayout()
self.slicePlotCheckboxWidget.setLayout(self.slicePlotCheckboxLayout)
self.slicePlot = self.slicePlotWidgetGraphicsLayout.addPlot(
title='Slice', row=0, col=50)
self.slicePlot.showAxis('left', False)
self.slicePlot.showGrid(x=True, y=True)
i = -1
colors = ['b', 'r', 'g', 'k', 'y', 'm', 'c']
for param in self.sliceParams:
i += 1
axis = AxisItem("left")
labelStyle = {'color': '#' + colorStr(mkColor(colors[i]))[0:-2]}
axis.setLabel(text=param['text'],
units=param['units'],
**labelStyle)
viewbox = ViewBox()
axis.linkToView(viewbox)
viewbox.setXLink(self.slicePlot.vb)
self.sliceaxis[param['name']] = [axis, viewbox]
self.curve[param['name']] = PlotDataItem(pen=colors[i], symbol='+')
viewbox.addItem(self.curve[param['name']])
col = self.findFirstEmptyColumnInGraphicsLayout()
self.slicePlotWidgetGraphicsLayout.ci.addItem(axis,
row=0,
col=col,
rowspan=1,
colspan=1)
self.slicePlotWidgetGraphicsLayout.ci.addItem(viewbox,
row=0,
col=50)
p.showGrid(x=True, y=True)
# self.slicePlots[param] = self.slicePlot.plot(pen=colors[i], symbol='+')
self.slicePlotCheckbox[param['name']] = QCheckBox(param['text'])
self.slicePlotCheckboxLayout.addWidget(
self.slicePlotCheckbox[param['name']])
self.slicePlotCheckbox[param['name']].stateChanged.connect(
self.plotDataSlice)
# self.slicePlotView.setCentralItem(self.slicePlotWidgetGraphicsLayout)
self.slicePlotSliceWidthWidget = QSpinBox()
self.slicePlotSliceWidthWidget.setMaximum(500)
self.slicePlotSliceWidthWidget.setValue(100)
self.slicePlotSliceWidthWidget.setSingleStep(10)
self.slicePlotSliceWidthWidget.setSuffix(" slices")
self.slicePlotSliceWidthWidget.setSpecialValueText('Automatic')
self.slicePlotAxisWidget = QWidget()
self.slicePlotAxisLayout = QHBoxLayout()
self.slicePlotAxisWidget.setLayout(self.slicePlotAxisLayout)
self.slicePlotAxisLayout.addWidget(self.slicePlotCheckboxWidget)
self.slicePlotAxisLayout.addWidget(self.slicePlotSliceWidthWidget)
# self.slicePlotXAxisCombo.currentIndexChanged.connect(self.plotDataSlice)
self.slicePlotSliceWidthWidget.valueChanged.connect(
self.changeSliceLength)
# self.beamPlotXAxisCombo.setCurrentIndex(2)
# self.beamPlotYAxisCombo.setCurrentIndex(5)
self.slicePlotLayout.addWidget(self.slicePlotAxisWidget)
self.slicePlotLayout.addWidget(self.slicePlotWidgetGraphicsLayout)
self.layout = QVBoxLayout()
self.setLayout(self.layout)
self.tabWidget = QTabWidget()
self.folderButton = QPushButton('Select Directory')
self.folderLineEdit = QLineEdit()
self.folderLineEdit.setReadOnly(True)
self.folderLineEdit.setText(self.directory)
self.reloadButton = QPushButton()
self.reloadButton.setIcon(qApp.style().standardIcon(
QStyle.SP_BrowserReload))
self.folderWidget = QGroupBox()
self.folderLayout = QHBoxLayout()
self.folderLayout.addWidget(self.folderButton)
self.folderLayout.addWidget(self.folderLineEdit)
self.folderLayout.addWidget(self.reloadButton)
self.folderWidget.setLayout(self.folderLayout)
self.folderWidget.setMaximumWidth(800)
self.reloadButton.clicked.connect(
lambda: self.changeDirectory(self.directory))
self.folderButton.clicked.connect(self.changeDirectory)
self.fileSelector = QComboBox()
self.fileSelector.currentIndexChanged.connect(self.updateScreenCombo)
self.screenSelector = QComboBox()
self.screenSelector.currentIndexChanged.connect(self.changeScreen)
self.beamWidget = QGroupBox()
self.beamLayout = QHBoxLayout()
self.beamLayout.addWidget(self.fileSelector)
self.beamLayout.addWidget(self.screenSelector)
self.beamWidget.setLayout(self.beamLayout)
self.beamWidget.setMaximumWidth(800)
self.beamWidget.setVisible(False)
self.folderBeamWidget = QWidget()
self.folderBeamLayout = QHBoxLayout()
self.folderBeamLayout.setAlignment(Qt.AlignLeft)
self.folderBeamWidget.setLayout(self.folderBeamLayout)
self.folderBeamLayout.addWidget(self.folderWidget)
self.folderBeamLayout.addWidget(self.beamWidget)
self.tabWidget.addTab(self.twissPlotView, 'Twiss Plots')
self.tabWidget.addTab(self.beamPlotWidget, 'Beam Plots')
self.tabWidget.addTab(self.slicePlotWidget, 'Slice Beam Plots')
# self.log = lw.loggerWidget()
# self.log.addLogger(logger)
# sys.stdout = lw.redirectLogger(self.log, 'stdout')
# self.tabWidget.addTab(self.log,'Log')
self.tabWidget.currentChanged.connect(self.changeTab)
self.layout.addWidget(self.folderBeamWidget)
self.layout.addWidget(self.tabWidget)
self.plotType = 'Twiss'
self.changeDirectory(self.directory)
def __init__(self, **kwargs):
super(multiAxisPlotWidget, self).__init__(**kwargs)
''' These are for reading data files from ASTRA and Elegant '''
self.multiaxisPlotWidget = QWidget()
self.multiaxisPlotLayout = QVBoxLayout()
self.multiaxisPlotWidget.setLayout(self.multiaxisPlotLayout)
self.multiaxisPlotWidgetGraphicsLayout = pg.GraphicsLayoutWidget()
self.multiaxisPlotCheckbox = {}
self.viewboxes = {}
self.curves = {}
self.multiaxisaxis = {}
self.multiaxisPlotCheckboxWidget = QWidget()
self.multiaxisPlotCheckboxLayout = QGridLayout()
self.multiaxisPlotCheckboxWidget.setLayout(
self.multiaxisPlotCheckboxLayout)
self.multiaxisPlot = self.multiaxisPlotWidgetGraphicsLayout.addPlot(
title='Slice',
row=2,
col=len(self.plotParams) + 1,
rowspan=1,
colspan=1)
self.multiaxisPlot.showAxis('left', False)
self.multiaxisPlot.showGrid(x=True, y=True)
self.multiaxisPlot.vb.sigResized.connect(self.updateViews)
self.shadowCurves = []
i = 0
for param in self.plotParams:
axis = pg.AxisItem("left")
labelStyle = {
'color': '#' + pg.colorStr(pg.mkColor(self.colors[i]))[0:-2]
}
axis.setLabel(text=param['name'],
units=param['units'],
**labelStyle)
axis.setZValue(-10000)
viewbox = pg.ViewBox()
self.viewboxes[param['label']] = viewbox
axis.linkToView(viewbox)
viewbox.setXLink(self.multiaxisPlot.vb)
self.multiaxisaxis[param['label']] = [axis, viewbox]
self.multiaxisPlotWidgetGraphicsLayout.addItem(
axis,
row=2,
col=(len(self.plotParams) - i),
rowspan=1,
colspan=1)
self.multiaxisPlot.scene().addItem(viewbox)
viewbox.setLimits(yMin=0)
self.multiaxisPlotCheckbox[param['label']] = QCheckBox(
param['label'])
self.multiaxisPlotCheckbox[param['label']].setChecked(False)
self.multiaxisPlotCheckboxLayout.addWidget(
self.multiaxisPlotCheckbox[param['label']], i % 3, int(i / 3))
self.multiaxisPlotCheckbox[param['label']].stateChanged.connect(
self.updateMultiAxisPlot)
i += 1
self.multiaxisPlotAxisWidget = QWidget()
self.multiaxisPlotAxisLayout = QHBoxLayout()
self.multiaxisPlotAxisWidget.setLayout(self.multiaxisPlotAxisLayout)
self.multiaxisPlotAxisLayout.addWidget(
self.multiaxisPlotCheckboxWidget)
self.multiaxisPlotLayout.addWidget(self.multiaxisPlotAxisWidget)
self.multiaxisPlotLayout.addWidget(
self.multiaxisPlotWidgetGraphicsLayout)
self.layout = QVBoxLayout()
self.setLayout(self.layout)
self.layout.addWidget(self.multiaxisPlotWidget)
''' used for style cycling '''
self.plotColor = 0
def color_iter(n_items):
return iter([pg.colorStr(pg.intColor(i,values=n_items)) \
for i in range(n_items)])
