def create_plot(self,mode='ResolutionSingle'):
self.plots ={}
self.normPlots={}
ROOT.gStyle.SetOptStat('e')
c1 = TCanvas()
c1.SetObjectStat(False)
title = ''
if self.config and self.config.has_option('PlotResolutionSingle','Title'):
title = self.config.get('PlotResolutionSingle','Title')
hs = ROOT.THStack("hs",title);
hs_norm = ROOT.THStack("hs_norm",title);
for runno in self.runnos:
if self.config:
name = self.config.get('MainResolutionSingle','histoName')
else:
name = 'hDiaTranspAnaPulseHeightOf2HighestIn10Strips'
section = 'Main'+mode
plot = utilities.get_plot(config,section,runno,self.rundes[runno],name)
if plot == 0:
print 'cannot find plot for %s'%runno
continue
plot.SetName(str(plot.GetName)+'%s'%runno)
newPlot = plot
newPlot.SetObjectStat(False)
if self.config and self.config.has_option('PlotResolutionSingle','XTitle'):
newPlot.GetXaxis().SetTitle(self.config.get('PlotResolutionSingle','XTitle'))
if self.config and self.config.has_option('PlotResolutionSingle','YTitle'):
newPlot.GetYaxis().SetTitle(self.config.get('PlotResolutionSingle','YTitle'))
if self.config and self.config.has_option('PlotResolutionSingle','LegendTitle'):
irr = self.get_irradiation(runno)
newPlot.SetTitle(self.config.get('PlotResolutionSingle','LegendTitle') + '#Phi = %.2e p/cm^{2}'%irr )
for key in newPlot.GetListOfFunctions():
print key
if 'stats' in key.GetName() :
stats = newPlot.GetFunction(key.GetName())
stats.Delete()
self.plots[runno] = newPlot
c1.cd()
index = self.runnos.index(runno)
color = utilities.get_color(index)
newPlot.SetLineColor(color)
self.plots[runno] = newPlot
norm = newPlot.GetBinContent(newPlot.GetMaximumBin())
newPlot.Scale(1./norm)
normPlot = newPlot.DrawNormalized("")
print normPlot
normPlot = normPlot.Clone()
normPlot.SetObjectStat(False)
self.normPlots[runno]= normPlot
hs.Add(newPlot)
hs_norm.Add(normPlot)
stacks = [hs,hs_norm]
for stack in stacks:
c1.Clear()
c1.Update()
c1.SetObjectStat(False)
c1.Clear()
stack.SetObjectStat(False)
stack.Draw('nostack')
print stack,type(stack)
if stack:
axis = stack.GetXaxis()
if axis:
if self.config and self.config.has_option('PlotResolutionSingle','XTitle'):
axis.SetTitle(self.config.get('PlotResolutionSingle','XTitle'))
if self.config and self.config.has_option('PlotResolutionSingle','XMin'):
if self.config.has_option('PlotResolutionSingle','XMax'):
minX = self.config.getfloat('PlotResolutionSingle','XMin')
maxX = self.config.getfloat('PlotResolutionSingle','XMax')
axis.SetRangeUser(minX,maxX)
if self.config and self.config.has_option('PlotResolutionSingle','YTitle'):
axis = stack.GetYaxis()
if axis:
axis.SetTitle(self.config.get('PlotResolutionSingle','YTitle'))
stack.Draw('nostack')
c1.Update()
leg = c1.BuildLegend()
leg.SetFillColor(ROOT.kWhite)
c1.Update()
self.canvas = c1
fileName = 'PW205B_resolution_%d'%stacks.index(stack)
c1.SaveAs('%s_%s.png'%(fileName,self.mode))
c1.SaveAs('%s_%s.pdf'%(fileName,self.mode))
c1.SaveAs('%s_%s.root'%(fileName,self.mode))
def create_plot(self,mode='LandauSingle'):
self.plots ={}
self.normPlots={}
c1 = TCanvas()
title = ''
if self.config and self.config.has_option('PlotLandauSingle','Title'):
title = self.config.get('PlotLandauSingle','Title')
hs = ROOT.THStack("hs",title);
hs_norm = ROOT.THStack("hs_norm",title);
for runno in self.runnos:
if self.config:
try:
name = self.config.get('MainLandauSingle','histoName')
except Exception as e:
print self.config.options('MainLandauSingle')
raise e
else:
name = 'hDiaTranspAnaPulseHeightOf2HighestIn10Strips'
section = 'Main'+mode
plot = utilities.get_plot(config,section,runno,self.rundes[runno],name)
if plot == 0:
print 'cannot find plot for %s'%runno
continue
plot.SetName(str(plot.GetName)+'%s'%runno)
newPlot = utilities.convert_x_to_electrons(plot,self.get_conversion(runno))
if self.config and self.config.has_option('PlotLandauSingle','XTitle'):
newPlot.GetXaxis().SetTitle(self.config.get('PlotLandauSingle','XTitle'))
if self.config and self.config.has_option('PlotLandauSingle','YTitle'):
newPlot.GetYaxis().SetTitle(self.config.get('PlotLandauSingle','YTitle'))
if self.config and self.config.has_option('PlotLandauSingle','LegendTitle'):
irr = self.get_irradiation(runno)
newPlot.SetTitle(self.config.get('PlotLandauSingle','LegendTitle') + '#Phi = %.2e p/cm^{2}'%irr )
self.plots[runno] = newPlot
c1.cd()
index = self.runnos.index(runno)
color = utilities.get_color(index)
newPlot.SetLineColor(color)
self.plots[runno] = newPlot
norm = newPlot.GetBinContent(newPlot.GetMaximumBin())
newPlot.Scale(1./norm)
normPlot = newPlot.DrawNormalized("")
print normPlot
normPlot = normPlot.Clone()
self.normPlots[runno]= normPlot
hs.Add(newPlot)
hs_norm.Add(normPlot)
stacks = [hs,hs_norm]
for stack in stacks:
c1.Clear()
stack.Draw('nostack')
if self.config and self.config.has_option('PlotLandauSingle','XTitle'):
stack.GetXaxis().SetTitle(self.config.get('PlotLandauSingle','XTitle'))
if self.config and self.config.has_option('PlotLandauSingle','YTitle'):
stack.GetYaxis().SetTitle(self.config.get('PlotLandauSingle','YTitle'))
stack.Draw('nostack')
c1.Update()
leg = c1.BuildLegend()
leg.SetFillColor(ROOT.kWhite)
c1.Update()
self.canvas = c1
dia_name = self.config.get('Main','diamond')
outputdir = './output/'
fileName = outputdir+'%s_irradiation_%d'%(dia_name,stacks.index(stack))
c1.SaveAs('%s.png'%(fileName))
c1.SaveAs('%s.pdf'%(fileName))
c1.SaveAs('%s.root'%(fileName))
