def plot(self):
d = self.tubeWidget.getParameters()
transmission = d["transmission"]
anode = d["anode"]
anodedensity = d["anodedensity"]
anodethickness = d["anodethickness"]
voltage = d["voltage"]
wele = d["window"]
wdensity = d["windowdensity"]
wthickness = d["windowthickness"]
fele = d["filter1"]
fdensity = d["filter1density"]
fthickness = d["filter1thickness"]
filterlist = [[fele, fdensity, fthickness]]
alphae = d["alphae"]
alphax = d["alphax"]
delta = d["deltaplotting"]
e = numpy.arange(1, voltage, delta)
if __name__ == "__main__":
continuumR = XRayTubeEbel.continuumEbel(
[anode, anodedensity, anodethickness],
voltage,
e, [wele, wdensity, wthickness],
alphae=alphae,
alphax=alphax,
transmission=0,
targetthickness=anodethickness,
filterlist=filterlist)
continuumT = XRayTubeEbel.continuumEbel(
[anode, anodedensity, anodethickness],
voltage,
e, [wele, wdensity, wthickness],
alphae=alphae,
alphax=alphax,
transmission=1,
targetthickness=anodethickness,
filterlist=filterlist)
self.graph.addCurve(e, continuumR, "continuumR")
self.graph.addCurve(e, continuumT, "continuumT")
else:
continuum = XRayTubeEbel.continuumEbel(
[anode, anodedensity, anodethickness],
voltage,
e, [wele, wdensity, wthickness],
alphae=alphae,
alphax=alphax,
transmission=transmission,
targetthickness=anodethickness,
filterlist=filterlist)
self.graph.addCurve(e, continuum, "continuum")
self.graph.setActiveCurve("continuum")
self.graph.resetZoom()
def _export(self):
d = self.tubeWidget.getParameters()
transmission = d["transmission"]
anode = d["anode"]
anodedensity = d["anodedensity"]
anodethickness = d["anodethickness"]
voltage = d["voltage"]
wele = d["window"]
wdensity = d["windowdensity"]
wthickness = d["windowthickness"]
fele = d["filter1"]
fdensity = d["filter1density"]
fthickness = d["filter1thickness"]
filterlist =[[fele, fdensity, fthickness]]
alphae = d["alphae"]
alphax = d["alphax"]
delta = d["deltaplotting"]
e = numpy.arange(1, voltage, delta)
d["event"] = "TubeUpdated"
d["energyplot"] = e
d["continuum"] = XRayTubeEbel.continuumEbel([anode, anodedensity, anodethickness],
voltage, e,
[wele, wdensity, wthickness],
alphae=alphae, alphax=alphax,
transmission=transmission,
targetthickness=anodethickness,
filterlist=filterlist)
fllines = XRayTubeEbel.characteristicEbel([anode, anodedensity, anodethickness],
voltage,
[wele, wdensity, wthickness],
alphae=alphae, alphax=alphax,
transmission=transmission,
targetthickness=anodethickness,
filterlist=filterlist)
d["characteristic"] = fllines
energy, energyweight, energyscatter = XRayTubeEbel.generateLists(
[anode, anodedensity, anodethickness],
voltage,
window=[wele, wdensity, wthickness],
alphae=alphae, alphax=alphax,
transmission=transmission,
targetthickness=anodethickness,
filterlist=filterlist)
d["energylist"] = energy
d["weightlist"] = energyweight
d["scatterlist"] = energyscatter
d["flaglist"] = numpy.ones(len(energy))
self.sigQXTubeSignal.emit(d)
def _export(self):
d = self.tubeWidget.getParameters()
transmission = d["transmission"]
anode = d["anode"]
anodedensity = d["anodedensity"]
anodethickness = d["anodethickness"]
voltage = d["voltage"]
wele = d["window"]
wdensity = d["windowdensity"]
wthickness = d["windowthickness"]
fele = d["filter1"]
fdensity = d["filter1density"]
fthickness = d["filter1thickness"]
filterlist =[[fele, fdensity, fthickness]]
alphae = d["alphae"]
alphax = d["alphax"]
delta = d["deltaplotting"]
e = numpy.arange(1, voltage, delta)
d["event"] = "TubeUpdated"
d["energyplot"] = e
d["continuum"] = XRayTubeEbel.continuumEbel([anode, anodedensity, anodethickness],
voltage, e,
[wele, wdensity, wthickness],
alphae=alphae, alphax=alphax,
transmission=transmission,
targetthickness=anodethickness,
filterlist=filterlist)
fllines = XRayTubeEbel.characteristicEbel([anode, anodedensity, anodethickness],
voltage,
[wele, wdensity, wthickness],
alphae=alphae, alphax=alphax,
transmission=transmission,
targetthickness=anodethickness,
filterlist=filterlist)
d["characteristic"] = fllines
energy, energyweight, energyscatter = XRayTubeEbel.generateLists(
[anode, anodedensity, anodethickness],
voltage,
window=[wele, wdensity, wthickness],
alphae=alphae, alphax=alphax,
transmission=transmission,
targetthickness=anodethickness,
filterlist=filterlist)
d["energylist"] = energy
d["weightlist"] = energyweight
d["scatterlist"] = energyscatter
d["flaglist"] = numpy.ones(len(energy), dtype=numpy.int32)
self.sigQXTubeSignal.emit(d)
def plot(self):
d = self.tubeWidget.getParameters()
transmission = d["transmission"]
anode = d["anode"]
anodedensity = d["anodedensity"]
anodethickness = d["anodethickness"]
voltage = d["voltage"]
wele = d["window"]
wdensity = d["windowdensity"]
wthickness = d["windowthickness"]
fele = d["filter1"]
fdensity = d["filter1density"]
fthickness = d["filter1thickness"]
filterlist =[[fele, fdensity, fthickness]]
alphae = d["alphae"]
alphax = d["alphax"]
delta = d["deltaplotting"]
e = numpy.arange(1, voltage, delta)
if __name__ == "__main__":
continuumR = XRayTubeEbel.continuumEbel([anode, anodedensity, anodethickness],
voltage, e,
[wele, wdensity, wthickness],
alphae=alphae, alphax=alphax,
transmission=0,
targetthickness=anodethickness,
filterlist=filterlist)
continuumT = XRayTubeEbel.continuumEbel([anode, anodedensity, anodethickness],
voltage, e,
[wele, wdensity, wthickness],
alphae=alphae, alphax=alphax,
transmission=1,
targetthickness=anodethickness,
filterlist=filterlist)
self.graph.addCurve(e, continuumR, "continuumR", replot=False)
self.graph.addCurve(e, continuumT, "continuumT", replot=False)
else:
continuum = XRayTubeEbel.continuumEbel([anode, anodedensity, anodethickness],
voltage, e,
[wele, wdensity, wthickness],
alphae=alphae, alphax=alphax,
transmission=transmission,
targetthickness=anodethickness,
filterlist=filterlist)
self.graph.addCurve(e, continuum, "continuum", replot=False)
self.graph.resetZoom()
self.graph.replot()
