def testShow(self):
from PyMca5.PyMcaGui.plotting import MaskImageWidget
widget = MaskImageWidget.MaskImageWidget()
widget.show()
self.qapp.processEvents()
from PyMca5.PyMcaGui.plotting import PyMcaPrintPreview
PyMcaPrintPreview.resetSingletonPrintPreview()
def testShow(self):
from PyMca5.PyMcaGui.pymca import ScanWindow
widget = ScanWindow.ScanWindow()
widget.show()
self.qapp.processEvents()
from PyMca5.PyMcaGui.plotting import PyMcaPrintPreview
PyMcaPrintPreview.resetSingletonPrintPreview()
def testShow(self):
from PyMca5.PyMcaGui.physics.xrf import McaAdvancedFit
widget = McaAdvancedFit.McaAdvancedFit()
widget.show()
self.qapp.processEvents()
from PyMca5.PyMcaGui.plotting import PyMcaPrintPreview
PyMcaPrintPreview.resetSingletonPrintPreview()
def testShow(self):
from PyMca5.PyMcaGui.plotting import RGBCorrelatorGraph
widget = RGBCorrelatorGraph.RGBCorrelatorGraph()
widget.show()
self.qapp.processEvents()
from PyMca5.PyMcaGui.plotting import PyMcaPrintPreview
PyMcaPrintPreview.resetSingletonPrintPreview()
def testShow(self):
from PyMca5.PyMcaGui.pymca import RGBCorrelatorWidget
widget = RGBCorrelatorWidget.RGBCorrelatorWidget()
widget.show()
self.qapp.processEvents()
from PyMca5.PyMcaGui.plotting import PyMcaPrintPreview
PyMcaPrintPreview.resetSingletonPrintPreview()
def testShow(self):
from PyMca5.PyMcaGui.plotting import MaskImageWidget
widget = MaskImageWidget.MaskImageWidget()
widget.show()
self.qapp.processEvents()
from PyMca5.PyMcaGui.plotting import PyMcaPrintPreview
PyMcaPrintPreview.resetSingletonPrintPreview()
def testShow(self):
from PyMca5.PyMcaGui.pymca import PyMcaMain
widget = PyMcaMain.PyMcaMain()
widget.show()
self.qapp.processEvents()
from PyMca5.PyMcaGui.plotting import PyMcaPrintPreview
PyMcaPrintPreview.resetSingletonPrintPreview()
def testShow(self):
from PyMca5.PyMcaGui.physics.xrf import McaAdvancedFit
widget = McaAdvancedFit.McaAdvancedFit()
widget.show()
self.qapp.processEvents()
from PyMca5.PyMcaGui.plotting import PyMcaPrintPreview
PyMcaPrintPreview.resetSingletonPrintPreview()
def testShow(self):
from PyMca5.PyMcaGui.physics.xrf import McaCalWidget
widget = McaCalWidget.McaCalWidget(y=[1, 2, 3, 4])
widget.show()
self.qapp.processEvents()
from PyMca5.PyMcaGui.plotting import PyMcaPrintPreview
PyMcaPrintPreview.resetSingletonPrintPreview()
def testShow(self):
from PyMca5.PyMcaGui.physics.xas import XASNormalizationWindow
spectrum = [1, 1, 1, 1, 1, 1, 2, 3, 4, 5, 5, 5, 5, 5, 5, 5]
widget = XASNormalizationWindow.XASNormalizationWindow(None, spectrum)
widget.show()
self.qapp.processEvents()
from PyMca5.PyMcaGui.plotting import PyMcaPrintPreview
PyMcaPrintPreview.resetSingletonPrintPreview()
def _workOnBackend(self, backend):
from PyMca5.PyMcaGui.physics.xrf import McaAdvancedFit
from PyMca5.PyMcaGraph.Plot import Plot
Plot.defaultBackend = backend
widget = McaAdvancedFit.McaAdvancedFit()
widget.show()
self.qapp.processEvents()
# read the data
from PyMca5 import PyMcaDataDir
dataDir = PyMcaDataDir.PYMCA_DATA_DIR
from PyMca5.PyMcaIO import specfilewrapper as specfile
from PyMca5.PyMcaPhysics.xrf import ClassMcaTheory
from PyMca5.PyMcaPhysics.xrf import ConcentrationsTool
from PyMca5.PyMcaIO import ConfigDict
dataFile = os.path.join(dataDir, "Steel.spe")
self.assertTrue(os.path.isfile(dataFile),
"File %s is not an actual file" % dataFile)
sf = specfile.Specfile(dataFile)
self.assertTrue(len(sf) == 1, "File %s cannot be read" % dataFile)
self.assertTrue(sf[0].nbmca() == 1, "Spe file should contain MCA data")
y = counts = sf[0].mca(1)
x = channels = numpy.arange(y.size).astype(numpy.float)
sf = None
widget.setData(x, y)
self.qapp.processEvents()
# read the fit configuration
configFile = os.path.join(dataDir, "Steel.cfg")
self.assertTrue(os.path.isfile(configFile),
"File %s is not an actual file" % configFile)
configuration = ConfigDict.ConfigDict()
configuration.read(configFile)
widget.configure(configuration)
self.qapp.processEvents()
time.sleep(1)
# switch log axis
# widget.graphWindow.yLogButton clicked
isLogy0 = widget.graphWindow.isYAxisLogarithmic()
self.mouseClick(widget.graphWindow.yLogButton, qt.Qt.LeftButton)
self.qapp.processEvents()
isLogy1 = widget.graphWindow.isYAxisLogarithmic()
self.assertTrue(isLogy0 != isLogy1, "Y scale not toggled!")
time.sleep(1)
# reset zoom
widget.graphWindow.resetZoom()
# swith energy axis:
# widget.graphWindow._energyIconSignal
# widget.graphWindow.energyButton clicked
label0 = widget.graphWindow.getGraphXLabel()
self.mouseClick(widget.graphWindow.energyButton, qt.Qt.LeftButton)
self.qapp.processEvents()
label1 = widget.graphWindow.getGraphXLabel()
self.assertTrue(label0 != label1, "Energy scale not toggled!")
self.assertTrue(label0.lower() in ["channel", "energy"],
"Unexpected plot X label <%s>" % label0)
self.assertTrue(label1.lower() in ["channel", "energy"],
"Unexpected plot X label <%s>" % label0)
# reset zoom
widget.graphWindow.resetZoom()
# fit:
# callback widget.fit
# widget.graphWindow.fitButton clicked
# widget.graphWindow._fitIconSignal
self.assertTrue(not widget._fitdone(),
"Bad fit widget state. Fit should not be finished")
self.mouseClick(widget.graphWindow.fitButton, qt.Qt.LeftButton)
self.qapp.processEvents()
self.assertTrue(widget._fitdone(),
"Bad fit widget state. Fit should be finished")
# toggle matrix spectrum
curveList0 = widget.graphWindow.getAllCurves(just_legend=True)
self.mouseClick(widget.matrixSpectrumButton, qt.Qt.LeftButton)
self.qapp.processEvents()
curveList1 = widget.graphWindow.getAllCurves(just_legend=True)
self.assertTrue(
abs(len(curveList0) - len(curveList1)) == 1,
"Matrix spectrum not working!!")
# toggle peaks
curveList0 = widget.graphWindow.getAllCurves(just_legend=True)
for curve in ["Data", "Fit", "Continuum", "Pile-up"]:
self.assertTrue(curve in curveList0,
"Curve <%s> expected but not found" % curve)
self.mouseClick(widget.peaksSpectrumButton, qt.Qt.LeftButton)
self.qapp.processEvents()
curveList1 = widget.graphWindow.getAllCurves(just_legend=True)
self.assertTrue(
len(curveList0) != len(curveList1), "Peaks spectrum not working!!")
time.sleep(1)
from PyMca5.PyMcaGui.plotting import PyMcaPrintPreview
PyMcaPrintPreview.resetSingletonPrintPreview()
def tearDown(self):
shutil.rmtree(self.path)
from PyMca5.PyMcaGui.plotting import PyMcaPrintPreview
PyMcaPrintPreview.resetSingletonPrintPreview()
super(testPyMcaBatch, self).tearDown()
def _workOnBackend(self, backend):
from PyMca5.PyMcaGui.physics.xrf import McaAdvancedFit
from PyMca5.PyMcaGraph.Plot import Plot
Plot.defaultBackend = backend
widget = McaAdvancedFit.McaAdvancedFit()
widget.show()
self.qapp.processEvents()
# read the data
from PyMca5 import PyMcaDataDir
dataDir = PyMcaDataDir.PYMCA_DATA_DIR
from PyMca5.PyMcaIO import specfilewrapper as specfile
from PyMca5.PyMcaPhysics.xrf import ClassMcaTheory
from PyMca5.PyMcaPhysics.xrf import ConcentrationsTool
from PyMca5.PyMcaIO import ConfigDict
dataFile = os.path.join(dataDir, "Steel.spe")
self.assertTrue(os.path.isfile(dataFile),
"File %s is not an actual file" % dataFile)
sf = specfile.Specfile(dataFile)
self.assertTrue(len(sf) == 1, "File %s cannot be read" % dataFile)
self.assertTrue(sf[0].nbmca() == 1,
"Spe file should contain MCA data")
y = counts = sf[0].mca(1)
x = channels = numpy.arange(y.size).astype(numpy.float)
sf = None
widget.setData(x, y)
self.qapp.processEvents()
# read the fit configuration
configFile = os.path.join(dataDir, "Steel.cfg")
self.assertTrue(os.path.isfile(configFile),
"File %s is not an actual file" % configFile)
configuration = ConfigDict.ConfigDict()
configuration.read(configFile)
widget.configure(configuration)
self.qapp.processEvents()
time.sleep(1)
# switch log axis
# widget.graphWindow.yLogButton clicked
isLogy0 = widget.graphWindow.isYAxisLogarithmic()
self.mouseClick(widget.graphWindow.yLogButton, qt.Qt.LeftButton)
self.qapp.processEvents()
isLogy1 = widget.graphWindow.isYAxisLogarithmic()
self.assertTrue(isLogy0 != isLogy1,
"Y scale not toggled!")
time.sleep(1)
# reset zoom
widget.graphWindow.resetZoom()
# swith energy axis:
# widget.graphWindow._energyIconSignal
# widget.graphWindow.energyButton clicked
label0 = widget.graphWindow.getGraphXLabel()
self.mouseClick(widget.graphWindow.energyButton, qt.Qt.LeftButton)
self.qapp.processEvents()
label1 = widget.graphWindow.getGraphXLabel()
self.assertTrue(label0 != label1,
"Energy scale not toggled!")
self.assertTrue(label0.lower() in ["channel", "energy"],
"Unexpected plot X label <%s>" % label0)
self.assertTrue(label1.lower() in ["channel", "energy"],
"Unexpected plot X label <%s>" % label0)
# reset zoom
widget.graphWindow.resetZoom()
# fit:
# callback widget.fit
# widget.graphWindow.fitButton clicked
# widget.graphWindow._fitIconSignal
self.assertTrue(not widget._fitdone(),
"Bad fit widget state. Fit should not be finished")
self.mouseClick(widget.graphWindow.fitButton, qt.Qt.LeftButton)
self.qapp.processEvents()
self.assertTrue(widget._fitdone(),
"Bad fit widget state. Fit should be finished")
# toggle matrix spectrum
curveList0 = widget.graphWindow.getAllCurves(just_legend=True)
self.mouseClick(widget.matrixSpectrumButton, qt.Qt.LeftButton)
self.qapp.processEvents()
curveList1 = widget.graphWindow.getAllCurves(just_legend=True)
self.assertTrue(abs(len(curveList0) - len(curveList1)) == 1,
"Matrix spectrum not working!!")
# toggle peaks
curveList0 = widget.graphWindow.getAllCurves(just_legend=True)
for curve in ["Data", "Fit", "Continuum", "Pile-up"]:
self.assertTrue(curve in curveList0,
"Curve <%s> expected but not found" % curve)
self.mouseClick(widget.peaksSpectrumButton, qt.Qt.LeftButton)
self.qapp.processEvents()
curveList1 = widget.graphWindow.getAllCurves(just_legend=True)
self.assertTrue(len(curveList0) != len(curveList1),
"Peaks spectrum not working!!")
time.sleep(1)
from PyMca5.PyMcaGui.plotting import PyMcaPrintPreview
PyMcaPrintPreview.resetSingletonPrintPreview()