from ROOT import *
gROOT.ProcessLine(".x mystyle.C")
fileName = "nuNtupleStudy.root"
fileName = "nuNutple_debug691.root" #"nuNtupleStudy.root"
f2 = TFile(fileName)
t2 = f2.Get("t")
folder = "69x"
#fileNameGeo = "../../data/%s/ship.10.0.Genie-TGeant4.root"%folder
fileNameGeo = 'geofile_full.10.0.Genie-TGeant4.root'
from lookAtGeo import *
myNodes_name = ["volLayer_%s"%i for i in xrange(0,12)]
myNodes_name += ["lidT1lisci_1","lidT1I_1","lidT1O_1"]
myNodes_name += ["volScintLayer_%s"%i for i in xrange(0,11)]
myNodes_name += ["lidT6lisci_1","lidT6I_1","lidT6O_1"]
myNodes_name += ["volDriftLayer%s_1"%i for i in xrange(1,6)]
myGeoEl = findPositionGeoElement(fileNameGeo, myNodes_name)
lastPassiveEl = [myGeoEl["volLayer_0"]['z']-myGeoEl["volLayer_0"]['dimZ'],myGeoEl["volLayer_0"]['z']+myGeoEl["volLayer_0"]['dimZ']]
geo = loadGeometry(fileNameGeo)
ship_geo = geo['ShipGeo']
entranceWindows = [ [myGeoEl["lidT1O_1"]['z']-myGeoEl["lidT1O_1"]['dimZ'],myGeoEl["lidT1O_1"]['z']+myGeoEl["lidT1O_1"]['dimZ']],
[myGeoEl["lidT1I_1"]['z']-myGeoEl["lidT1I_1"]['dimZ'],myGeoEl["lidT1I_1"]['z']+myGeoEl["lidT1I_1"]['dimZ']]
]
volume = [myGeoEl["lidT1O_1"]['z']-myGeoEl["lidT6O_1"]['dimZ'],myGeoEl["lidT6O_1"]['z']-myGeoEl["lidT6O_1"]['dimZ']]#[myGeoEl["lidT1lisci_1"]['z']+myGeoEl["lidT1lisci_1"]['dimZ'],4100]
scintTankW = [myGeoEl["lidT1lisci_1"]['z']-myGeoEl["lidT1lisci_1"]['dimZ'],myGeoEl["lidT1lisci_1"]['z']+myGeoEl["lidT1lisci_1"]['dimZ']]
scintTankV = [myGeoEl["lidT1lisci_1"]['z']-myGeoEl["lidT1lisci_1"]['dimZ'],myGeoEl["lidT1lisci_1"]['z']+myGeoEl["lidT1lisci_1"]['dimZ']]
OPERA = [myGeoEl["volLayer_11"]['z']-myGeoEl["volLayer_11"]['dimZ'],myGeoEl["volLayer_0"]['z']+myGeoEl["volLayer_0"]['dimZ']]
print "Geometry Parameters:"
print "last passive (interactionElement == 0): ",lastPassiveEl
print "entrance windows (interactionElement == 1): ", entranceWindows
print "volume (interactionElement ==2): ", volume
print "scintTankW: ", scintTankW
print "scintTankV: ", scintTankV
print "OPERA system: ", OPERA
basicCut = "isPrimary==1"
#t2.Draw("startZ_nu", "%s &&startZ_nu>-3000 && startZ_nu<-2704"%basicCut)
print fileNameGeo
print [myGeoEl["volLayer_11"]['z']-myGeoEl["volLayer_11"]['dimZ'],myGeoEl["volLayer_11"]['z']+myGeoEl["volLayer_11"]['dimZ']]
print [myGeoEl["volLayer_0"]['z']-myGeoEl["volLayer_0"]['dimZ'],myGeoEl["volLayer_0"]['z']+myGeoEl["volLayer_0"]['dimZ']]
#t2.Scan("startZ_nu", "nChargedPart_fromNu==0 && %s && startZ_nu>-2705.4 && startZ_nu<-2625.2"%basicCut)
print "PASSIVE:"
for idL in xrange(0,12):
print idL, [myGeoEl["volLayer_%s"%idL]['z']-myGeoEl["volLayer_%s"%idL]['dimZ'],myGeoEl["volLayer_%s"%idL]['z']+myGeoEl["volLayer_%s"%idL]['dimZ']]
print
print "ACTIVE:"
for idL in xrange(0,11):
print idL, [myGeoEl["volScintLayer_%s"%idL]['z']-myGeoEl["volScintLayer_%s"%idL]['dimZ'],myGeoEl["volScintLayer_%s"%idL]['z']+myGeoEl["volScintLayer_%s"%idL]['dimZ']]
import os
if not os.path.exists("plots"):
os.system("mkdir plots")
def makePlot(var, cut, c_name, c_list, logScale=False):
c_list.append(TCanvas(c_name, c_name))
c_list[-1].SetLogy(logScale)
t2.Draw(var,cut)
c_list[-1].Print("plots/%s.eps"%c_list[-1].GetName())
#return c_list
def advanceStudy():
## where are the problematic cases
t2.Draw("interactionElement", "isPrimary==1 && nChargedPart_fromNu==0")
t2.Draw("interactionElement", "isPrimary==1 && nChargedPart_fromNu==1")
def typologyStudy():
c_typo = []
############## Type Charged
c_typo.append(TCanvas("allCharged_logScale","allCharged_logScale"))
c_typo[-1].SetLogy(kTRUE)
t2.Draw("idStrChargedPart_fromNu","isPrimary==1")
c_typo[-1].Print("plots/%s.eps"%c_typo[-1].GetName())
c_typo.append(TCanvas("operaCharged_logScale","operaCharged_logScale"))
c_typo[-1].SetLogy(kTRUE)
t2.Draw("idStrChargedPart_fromNu","isPrimary==1 && %s"%(OPERACut))
c_typo[-1].Print("plots/%s.eps"%c_typo[-1].GetName())
c_typo.append(TCanvas("firstWCharged_logScale","firstWCharged_logScale"))
c_typo[-1].SetLogy(kTRUE)
t2.Draw("idStrChargedPart_fromNu","isPrimary==1 && %s"%(window1Cut))
c_typo[-1].Print("plots/%s.eps"%c_typo[-1].GetName())
c_typo.append(TCanvas("secondWCharged_logScale","secondWCharged_logScale"))
c_typo[-1].SetLogy(kTRUE)
t2.Draw("idStrChargedPart_fromNu","isPrimary==1 && %s"%(window2Cut))
c_typo[-1].Print("plots/%s.eps"%c_typo[-1].GetName())
c_typo.append(TCanvas("volumeCharged_logScale","volumeCharged_logScale"))
c_typo[-1].SetLogy(kTRUE)
t2.Draw("idStrChargedPart_fromNu","isPrimary==1 && %s"%(volumeCut))
c_typo[-1].Print("plots/%s.eps"%c_typo[-1].GetName())
###############
############### Type Neutral
c_typo.append(TCanvas("allNeutr_logScale","allNeutr_logScale"))
c_typo[-1].SetLogy(kTRUE)
t2.Draw("idStrNeutrPart_fromNu","isPrimary==1")
c_typo[-1].Print("plots/%s.eps"%c_typo[-1].GetName())
c_typo.append(TCanvas("operaNeutr_logScale","operaNeutr_logScale"))
c_typo[-1].SetLogy(kTRUE)
t2.Draw("idStrNeutrPart_fromNu","isPrimary==1 && %s"%(OPERACut))
c_typo[-1].Print("plots/%s.eps"%c_typo[-1].GetName())
c_typo.append(TCanvas("firstWNeutr_logScale","firstWNeutr_logScale"))
c_typo[-1].SetLogy(kTRUE)
t2.Draw("idStrNeutrPart_fromNu","isPrimary==1 && %s"%(window1Cut))
c_typo[-1].Print("plots/%s.eps"%c_typo[-1].GetName())
c_typo.append(TCanvas("secondWNeutr_logScale","secondWNeutr_logScale"))
c_typo[-1].SetLogy(kTRUE)
t2.Draw("idStrNeutrPart_fromNu","isPrimary==1 && %s"%(window2Cut))
c_typo[-1].Print("plots/%s.eps"%c_typo[-1].GetName())
c_typo.append(TCanvas("volumeNeutr_logScale","volumeNeutr_logScale"))
c_typo[-1].SetLogy(kTRUE)
t2.Draw("idStrNeutrPart_fromNu","isPrimary==1 && %s"%(volumeCut))
c_typo[-1].Print("plots/%s.eps"%c_typo[-1].GetName())
###############
############### N charged
c_typo.append(TCanvas("nCharged_logScale","nCharged_logScale"))
c_typo[-1].SetLogy(kTRUE)
t2.Draw("nChargedPart_fromNu","isPrimary==1")
c_typo[-1].Print("plots/%s.eps"%c_typo[-1].GetName())
c_typo.append(TCanvas("noperaCharged_logScale","noperaCharged_logScale"))
c_typo[-1].SetLogy(kTRUE)
t2.Draw("nChargedPart_fromNu","isPrimary==1 && %s"%(OPERACut))
c_typo[-1].Print("plots/%s.eps"%c_typo[-1].GetName())
c_typo.append(TCanvas("nfirstWCharged_logScale","nfirstWCharged_logScale"))
c_typo[-1].SetLogy(kTRUE)
t2.Draw("nChargedPart_fromNu","isPrimary==1 && %s"%(window1Cut))
c_typo[-1].Print("plots/%s.eps"%c_typo[-1].GetName())
c_typo.append(TCanvas("nsecondWCharged_logScale","nsecondWCharged_logScale"))
c_typo[-1].SetLogy(kTRUE)
t2.Draw("nChargedPart_fromNu","isPrimary==1 && %s"%(window2Cut))
c_typo[-1].Print("plots/%s.eps"%c_typo[-1].GetName())
c_typo.append(TCanvas("nvolumeCharged_logScale","nvolumeCharged_logScale"))
c_typo[-1].SetLogy(kTRUE)
t2.Draw("nChargedPart_fromNu","isPrimary==1 && %s"%(volumeCut))
c_typo[-1].Print("plots/%s.eps"%c_typo[-1].GetName())
#################
################ N neutral
c_typo.append(TCanvas("nNeutr_logScale","nNeutr_logScale"))
c_typo[-1].SetLogy(kTRUE)
t2.Draw("nNeutrPart_fromNu","isPrimary==1",)
c_typo[-1].Print("plots/%s.eps"%c_typo[-1].GetName())
c_typo.append(TCanvas("noperaNeutr_logScale","noperaNeutr_logScale"))
c_typo[-1].SetLogy(kTRUE)
t2.Draw("nNeutrPart_fromNu","isPrimary==1 && %s"%(OPERACut))
c_typo[-1].Print("%s.eps"%c_typo[-1].GetName())
c_typo.append(TCanvas("nfirstWNeutr","nfirstWNeutr"))
c_typo[-1].SetLogy(kFALSE)
t2.Draw("nNeutrPart_fromNu","isPrimary==1 && %s"%(window1Cut))
c_typo[-1].Print("%s.eps"%c_typo[-1].GetName())
c_typo.append(TCanvas("nsecondWNeutr_logScale","nsecondWNeutr_logScale"))
c_typo[-1].SetLogy(kTRUE)
t2.Draw("nNeutrPart_fromNu","isPrimary==1 && %s"%(window2Cut))
c_typo[-1].Print("%s.eps"%c_typo[-1].GetName())
c_typo.append(TCanvas("nvolumeNeutr_logScale","nvolumeNeutr_logScale"))
c_typo[-1].SetLogy(kTRUE)
t2.Draw("nNeutrPart_fromNu","isPrimary==1 && %s"%(volumeCut))
c_typo[-1].Print("%s.eps"%c_typo[-1].GetName())
return c_typo
def sanityChecksGeo():
# check neutrino interacted only in the opera system-z
assert(t2.GetEntries("isPrimary==1 && (startZ_nu<%s ||(startZ_nu>%s && startZ_nu<%s))"%(OPERA[0],OPERA[1],entranceWindows[0][0]))==0)
assert(t2.GetEntries("isPrimary==1 && interactionElement==-1")==0)
assert(t2.GetEntries("isPrimary==1 && interactionElement==999")==0)
# check the quantity:
nTot = float(t2.GetEntries("isPrimary==1"))
nOpera = float(t2.GetEntries("isPrimary==1 && (interactionElement==0 || interactionElement==3)"))
nWin = float(t2.GetEntries("isPrimary==1 && interactionElement==1"))
nWall = float(t2.GetEntries("isPrimary==1 && (interactionElement==2 || interactionElement==4)"))
print "TOTAL: %s"%nTot
print "nu-interacting in the OPERA system: %s (%.2f of tot)"%(nOpera,nOpera/nTot)
print "nu-interacting in the two entrance windows: %s (%.2f of tot)"%(nWin,nWin/nTot)
print "nu-interacting in the surronding walls: %s (%.2f of tot)"%(nWall,nWall/nTot)
assert(nOpera+nWin+nWall==nTot)
OPERACut = "(interactionElement==0 || interactionElement==3)"
volumeCut = "(interactionElement==2 || interactionElement==4)"
windowCut = "(interactionElement==1)"
window1Cut = "(interactionElement==1 && startZ_nu<=%s && startZ_nu>=%s)"%(entranceWindows[0][1],entranceWindows[0][0])
window2Cut = "(interactionElement==1 && startZ_nu<=%s && startZ_nu>=%s)"%(entranceWindows[1][1],entranceWindows[1][0])
def plotGeometry():
cGeo = []
## Check interaction place:
## Opera+Entrance Windows
cGeo.append(TCanvas("intPlace_operaEntrW","interactionPlace_operaEntrW"))
t2.Draw("startZ_nu", "%s &&startZ_nu>-3000 && startZ_nu<-2478"%basicCut)
cGeo[-1].Print("%s.eps"%cGeo[-1].GetName())
cGeo.append(TCanvas("intPlace_volume","interactionPlace_volume"))
t2.Draw("startZ_nu", "%s &&startZ_nu>-2478"%basicCut)
cGeo[-1].Print("%s.eps"%cGeo[-1].GetName())
cGeo.append(TCanvas("xyOPERA","xyOPERA"))
t2.Draw("startY_nu:startX_nu", "isPrimary==1 && %s"%OPERACut)
cGeo[-1].Print("%s.eps"%cGeo[-1].GetName())
cGeo.append(TCanvas("xyWindows","xyWindows"))
t2.Draw("startY_nu:startX_nu", "isPrimary==1 && %s"%windowCut)
cGeo[-1].Print("%s.eps"%cGeo[-1].GetName())
cGeo.append(TCanvas("xyVolume_first","xyVolume_first"))
t2.Draw("startY_nu:startX_nu", "isPrimary==1 && %s && startZ_nu<-1978"%volumeCut)
cGeo[-1].Print("%s.eps"%cGeo[-1].GetName())
cGeo.append(TCanvas("xyVolume_second","xyVolume_second"))
t2.Draw("startY_nu:startX_nu", "isPrimary==1 && %s && startZ_nu>-1978"%volumeCut)
cGeo[-1].Print("%s.eps"%cGeo[-1].GetName())
def studyOpera():
nNoKidFired_RPCeW = t2.GetEntries("isPrimary==1 && RPC==0 && scintWany==0 && %s"%OPERACut)
nNoKidFired_RPC = t2.GetEntries("isPrimary==1 && RPC==0 && %s"%OPERACut)
nNobodyFired_RPC = t2.GetEntries("isPrimary==1 && RPCany==0 && %s"%OPERACut)
nNobodyFired_RPCeW = t2.GetEntries("isPrimary==1 && RPCany==0 && scintWany==0 && %s"%OPERACut)
nNobodyFired_RPCeWstraw = t2.GetEntries("isPrimary==1 && RPCany==0 && scintWany==0 && TrackSyst==1 && %s"%OPERACut)
nNobodyFired_RPCstraw = t2.GetEntries("isPrimary==1 && RPCany==0 && TrackSyst==1 && %s"%OPERACut)
print "n of cases with no signal in:"
print "RPC + windows (from nu kids): ", nNoKidFired_RPCeW
print "RPC (from nu kids): ", nNoKidFired_RPC
print "RPC + windows (from anything): ", nNobodyFired_RPCeW
print "RPC (from anything): ", nNobodyFired_RPC
print "with also signal in the straw tubes: "
print "RPC + windows (from anything): ",nNobodyFired_RPCeWstraw
print "RPC (from anything): ",nNobodyFired_RPCstraw
cOpera = []
cOpera.append(TCanvas("yNoRPC",'yNoRPC'))
t2.Draw("startY_nu", "isPrimary==1 && RPC==0 && %s"%OPERACut)
cOpera[-1].Print("%s.eps"%cOpera[-1].GetName())
cOpera.append(TCanvas("yYesRPC",'yYesRPC'))
t2.Draw("startY_nu", "isPrimary==1 && RPC==1 && %s"%OPERACut)
cOpera[-1].Print("%s.eps"%cOpera[-1].GetName())
cOpera.append(TCanvas("nChargedPartGoodYnoRPC",'nChargedPartGoodYnoRPC'))
t2.Draw("nChargedPart_fromNu","startY_nu< 400 && startY_nu>-400 &&isPrimary==1 && RPC==0 && %s "%OPERACut)
cOpera[-1].Print("%s.eps"%cOpera[-1].GetName())
cOpera.append(TCanvas("nChargedPartGoodYnoRPCany",'nChargedPartGoodYnoRPCany'))
t2.Draw("nChargedPart_fromNu","startY_nu< 400 && startY_nu>-400 &&isPrimary==1 && RPCany==0 && %s "%OPERACut)
cOpera[-1].Print("%s.eps"%cOpera[-1].GetName())
return cOpera
def studyWindows():
nNoKidFired_ew = t2.GetEntries("isPrimary==1 && scintW==0 && %s"%windowCut)
nNobodyFired_ew = t2.GetEntries("isPrimary==1 && scintWany==0 && %s"%windowCut)
nNobodyFired_eWstraw = t2.GetEntries("isPrimary==1 && scintWany==0 && TrackSyst==1 && %s"%windowCut)
print "n of cases with no signal in:"
print "windows (from nu kids): ", nNoKidFired_ew
print "windows (from anything): ", nNobodyFired_ew
print "with also signal in the straw tubes: "
print "windows (from anything): ",nNobodyFired_eWstraw
print
print "First Window"
nNoKidFired_ew1 = t2.GetEntries("isPrimary==1 && scintW==0 && %s"%window1Cut)
nNobodyFired_ew1 = t2.GetEntries("isPrimary==1 && scintWany==0 && %s"%window1Cut)
nNobodyFired_eW1straw = t2.GetEntries("isPrimary==1 && scintWany==0 && TrackSyst==1 && %s"%window1Cut)
print "n of cases with no signal in:"
print "windows (from nu kids): ", nNoKidFired_ew1
print "windows (from anything): ", nNobodyFired_ew1
print "with also signal in the straw tubes: "
print "windows (from anything): ",nNobodyFired_eW1straw
print
print "Second Window"
nNoKidFired_ew2 = t2.GetEntries("isPrimary==1 && scintW==0 && %s"%window2Cut)
nNobodyFired_ew2 = t2.GetEntries("isPrimary==1 && scintWany==0 && %s"%window2Cut)
nNobodyFired_eW2straw = t2.GetEntries("isPrimary==1 && scintWany==0 && TrackSyst==1 && %s"%window2Cut)
print "n of cases with no signal in:"
print "windows (from nu kids): ", nNoKidFired_ew2
print "windows (from anything): ", nNobodyFired_ew2
print "with also signal in the straw tubes: "
print "windows (from anything): ",nNobodyFired_eW2straw
'''cOpera = []
cOpera.append(TCanvas("yNoRPC",'yNoRPC'))
t2.Draw("startY_nu", "isPrimary==1 && RPC==0 && %s"%OPERACut)
cOpera[-1].Print("%s.eps"%cOpera[-1].GetName())
cOpera.append(TCanvas("yYesRPC",'yYesRPC'))
t2.Draw("startY_nu", "isPrimary==1 && RPC==1 && %s"%OPERACut)
cOpera[-1].Print("%s.eps"%cOpera[-1].GetName())
cOpera.append(TCanvas("nChargedPartGoodYnoRPC",'nChargedPartGoodYnoRPC'))
t2.Draw("nChargedPart_fromNu","startY_nu< 400 && startY_nu>-400 &&isPrimary==1 && RPC==0 && %s "%OPERACut)
cOpera[-1].Print("%s.eps"%cOpera[-1].GetName())
cOpera.append(TCanvas("nChargedPartGoodYnoRPCany",'nChargedPartGoodYnoRPCany'))
t2.Draw("nChargedPart_fromNu","startY_nu< 400 && startY_nu>-400 &&isPrimary==1 && RPCany==0 && %s "%OPERACut)
cOpera[-1].Print("%s.eps"%cOpera[-1].GetName())
return cOpera
'''
"""
print
sanityChecksGeo()
print "Sanity checks geometry DONE!"
rGeo = plotGeometry()
rTypo = typologyStudy()
assert(False)
t2.Draw("startY_nu:startX_nu","isPrimary==1 && %s && startZ_nu>(%s+500+100)"%(volumeCut, entranceWindows[1][1]))
t2.Draw("rpcPoint_z","isPrimary==1 && RPCany==1 && !(%s)"%(OPERACut))
#t2.Scan("nNeutrPart_fromNu","isPrimary && nChargedPart_fromNu==0 && event==744")
#t2.Scan("idStrNeutrPart_fromNu","isPrimary && nChargedPart_fromNu==0 && event==744")
#t2.Scan("idStrPart_fromNu","isPrimary && nChargedPart_fromNu==0 && event==744")
#t2.Draw("idStrPart_fromNu","isPrimary && nChargedPart_fromNu==0 && event==744")
#rGeo = plotGeometry()
#rOpera = studyOpera()
studyWindows()
assert(False)
## To be applied to all plots
basicCut = "isPrimary==1 && nNu==1"
firstWindowCut = "startZ_nu>%s && startZ_nu<%s && interactionElement==1"%(entranceWindows[0][0],entranceWindows[0][1])
secondWindowCut = "startZ_nu>%s && startZ_nu<%s"%(entranceWindows[1][0],entranceWindows[1][1])
OPERACut = "interactionElement==0 || interactionElement==3 || interactionElement==999"
c = []
c.append(TCanvas('z_noChargedPart','interElem_noChargedPart'))
t2.Draw("startZ_nu", "%s && nChargedPart_fromNu==0"%basicCut)
c[-1].Print("%s.eps"%c[-1].GetName())
assert(False)
c.append(TCanvas('secondWnCharged','secondWnCharged'))
t2.Draw("nChargedPart_fromNu", "%s && %s"%(basicCut,secondWindowCut))
c[-1].Print("%s.eps"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.eps"%c[-1].GetName())
c.append(TCanvas('secondWnNeutr','secondWnNeutr'))
t2.Draw("nNeutrPart_fromNu", "%s && %s"%(basicCut,secondWindowCut))
c[-1].Print("%s.eps"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.eps"%c[-1].GetName())
c.append(TCanvas('secondWCharged_oneCP','secondWCharged_oneCP'))
t2.Draw("idStrChargedPart_fromNu", "%s && %s && nChargedPart_fromNu==1"%(basicCut,secondWindowCut))
c[-1].Print("%s.eps"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.eps"%c[-1].GetName())
c.append(TCanvas('secondWNeutr_oneCP','secondWNeutr_oneCP'))
t2.Draw("idStrNeutrPart_fromNu", "%s && %s && nChargedPart_fromNu==1"%(basicCut,secondWindowCut))
c[-1].Print("%s.eps"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.eps"%c[-1].GetName())
assert(False)
c.append(TCanvas('allCharged','allCharged'))
t2.Draw("idStrChargedPart_fromNu", "%s"%basicCut)
c[-1].Print("%s.eps"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.eps"%c[-1].GetName())
c.append(TCanvas('allNeutr','allNeutr'))
t2.Draw("idStrNeutrPart_fromNu", "%s"%basicCut)
c[-1].Print("%s.eps"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.eps"%c[-1].GetName())
c.append(TCanvas('nCharged','nCharged'))
t2.Draw("nChargedPart_fromNu", "%s"%basicCut)
c[-1].Print("%s.eps"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.eps"%c[-1].GetName())
c.append(TCanvas('nNeutr','nNeutr'))
t2.Draw("nNeutrPart_fromNu", "%s"%basicCut)
c[-1].Print("%s.eps"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.eps"%c[-1].GetName())
c.append(TCanvas('Neutr_fromNu_noCharged','Neutr_fromNu_noCharged'))
t2.Draw("idStrNeutrPart_fromNu", "%s && nChargedPart_fromNu==0"%basicCut)
c[-1].Print("%s.eps"%c[-1].GetName())
c.append(TCanvas('interElem_noChargedPart','interElem_noChargedPart'))
t2.Draw("interactionElement", "%s && nChargedPart_fromNu==0"%basicCut)
c[-1].Print("%s.eps"%c[-1].GetName())
c.append(TCanvas('firstWCharged','firstWCharged'))
t2.Draw("idStrChargedPart_fromNu", "%s && %s"%(basicCut,firstWindowCut))
c[-1].Print("%s.eps"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.eps"%c[-1].GetName())
c.append(TCanvas('firstWNeutr','firstWNeutr'))
t2.Draw("idStrNeutrPart_fromNu", "%s && %s"%(basicCut,firstWindowCut))
c[-1].Print("%s.eps"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.eps"%c[-1].GetName())
c.append(TCanvas('secondWCharged','secondWCharged'))
t2.Draw("idStrChargedPart_fromNu", "%s && %s"%(basicCut,secondWindowCut))
c[-1].Print("%s.eps"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.eps"%c[-1].GetName())
c.append(TCanvas('secondWNeutr','secondWNeutr'))
t2.Draw("idStrNeutrPart_fromNu", "%s && %s"%(basicCut,secondWindowCut))
c[-1].Print("%s.eps"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.eps"%c[-1].GetName())
## Is the opera-mu-system enought to veto the nu-background before the vacuum tank, assuming an eff. of 90% on each station?
c.append(TCanvas("effMuSystem","effMuSystem"))
t2.Draw("RPC_eff","%s"%basicCut)
c[-1].Print("%s.eps"%c[-1].GetName())
######## WITH KS #########
c.append(TCanvas('withKsCharged','withKsCharged'))
t2.Draw("idStrChargedPart_withKs", "%s"%basicCut)
c[-1].Print("%s.eps"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.eps"%c[-1].GetName())
c.append(TCanvas('withKsNeutr','withKsNeutr'))
t2.Draw("idStrNeutrPart_withKs", "%s"%basicCut)
c[-1].Print("%s.eps"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.eps"%c[-1].GetName())
c.append(TCanvas('nChargedwithKs','nChargedwithKs'))
t2.Draw("nChargedPart_withKs", "%s"%basicCut)
c[-1].Print("%s.eps"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.eps"%c[-1].GetName())
c.append(TCanvas('nNeutrwithKs','nNeutrwithKs'))
t2.Draw("nNeutrPart_withKs", "%s"%basicCut)
c[-1].Print("%s.eps"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.pdf"%c[-1].GetName())
c.append(TCanvas('Neutr_withKs_noCharged','Neutr_withKs_noCharged'))
t2.Draw("idStrNeutrPart_withKs", "%s && nChargedPart_withKs==0"%basicCut)
c[-1].Print("%s.pdf"%c[-1].GetName())
######## WITH KL #########
c.append(TCanvas('withKLCharged','withKLCharged'))
t2.Draw("idStrChargedPart_withKL", "%s"%basicCut)
c[-1].Print("%s.pdf"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.pdf"%c[-1].GetName())
c.append(TCanvas('withKLNeutr','withKLNeutr'))
t2.Draw("idStrNeutrPart_withKL", "%s"%basicCut)
c[-1].Print("%s.pdf"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.pdf"%c[-1].GetName())
c.append(TCanvas('nChargedwithKL','nChargedwithKL'))
t2.Draw("nChargedPart_withKL", "%s"%basicCut)
c[-1].Print("%s.pdf"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.pdf"%c[-1].GetName())
c.append(TCanvas('nNeutrwithKL','nNeutrwithKL'))
t2.Draw("nNeutrPart_withKL", "%s"%basicCut)
c[-1].Print("%s.pdf"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.pdf"%c[-1].GetName())
c.append(TCanvas('Neutr_withKL_noCharged','Neutr_withKL_noCharged'))
t2.Draw("idStrNeutrPart_withKL", "%s && nChargedPart_withKL==0"%basicCut)
c[-1].Print("%s.pdf"%c[-1].GetName())
######## WITH N #########
c.append(TCanvas('withNCharged','withNCharged'))
t2.Draw("idStrChargedPart_withN", "%s"%basicCut)
c[-1].Print("%s.pdf"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.pdf"%c[-1].GetName())
c.append(TCanvas('withNNeutr','withNNeutr'))
t2.Draw("idStrNeutrPart_withKL", "%s"%basicCut)
c[-1].Print("%s.pdf"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.pdf"%c[-1].GetName())
c.append(TCanvas('nChargedwithN','nChargedwithN'))
t2.Draw("nChargedPart_withN", "%s"%basicCut)
c[-1].Print("%s.pdf"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.pdf"%c[-1].GetName())
c.append(TCanvas('nNeutrwithN','nNeutrwithN'))
t2.Draw("nNeutrPart_withN", "%s"%basicCut)
c[-1].Print("%s.pdf"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("%s_logScale.pdf"%c[-1].GetName())
c.append(TCanvas('Neutr_withN_noCharged','Neutr_withN_noCharged'))
t2.Draw("idStrNeutrPart_withN", "%s && nChargedPart_withN==0"%basicCut)
c[-1].Print("%s.pdf"%c[-1].GetName())
assert(False)
ptype = ['', 'Neutr', 'Charged']
stype = ['fromNu','withKs','withKL','withN']
def extendToAllTypes(plotVars, strBase, mytype):
plotVars += [strBase %i for i in mytype ]
## Is the opera-mu-system enought to veto the nu-background before the vacuum tank, assuming an eff. of 90% on each station?
c_muSystEff = TCanvas("c_effMuSyst","c_effMuSyst")
t2.Draw("RPC_eff","%s"%basicCut)
## How much background is produced by the vacuum tank windows?
## From first window:
#firstWindowCut = "startZ_nu>-2501.8 && startZ_nu<-2498.8"
#t2.Draw("idStrPart_fromNu", "isPrimary==1 && nNu==1 && nChargedPart_fromNu==1")
#t2.Draw("idStrChargedPart_fromNu", "isPrimary==1 && nNu==1 && startZ_nu>-2501.8 && startZ_nu<-2478 && nChargedPart_fromNu==1")
#t2.Draw("idStrNeutrPart_fromNu", "isPrimary==1 && nNu==1 && startZ_nu>-2501.8 && startZ_nu<-2478 && nChargedPart_fromNu==1")
## From second window:
secondWindowCut = "startZ_nu>-2478.8 && startZ_nu<-2478"
#t2.Draw("idStrPart_fromNu", "%s && %s "%(basicCut, secondWindowCut))
#t2.Draw("idStrNeutrPart_fromNu", "isPrimary==1 && nNu==1 && startZ_nu>-2501.8 && startZ_nu<-2478 && nChargedPart_fromNu==1")
c.append(TCanvas('allCharged','allCharged'))
t2.Draw("idStrPart_fromNu", "%s"%basicCut)
c[-1].Print("plot/%s.pdf"%c[-1].GetName())
c[-1].SetLogy(kTRUE)
c[-1].Print("plot/%s_logScale.pdf"%c[-1].GetName())
#c.append(TCanvas('allNeutr','allCharged')
#t2.Draw("idStrPart_fromNu", "isPrimary==1 && nNu==1 && nChargedPart_fromNu==1")
#c[-1].Print("plot/%s.pdf"%c[-1].GetName())
#c[-1].SetLogY(kTRUE)
#c[-1].Print("plot/%s_logScale.pdf"%c[-1].GetName())
assert(False)
## The leaves name are of type idStrChargedPart_fromNu for example.
## The part that can vary are "Charged" and "fromNu". The possibilities
## are listed in ptype and stype. Then the string are automatically
## generated
plotVars_part0 = []
plotVars_part1 = []
strBase0 = "Part_%s"
extendToAllTypes(plotVars_part1,strBase0,stype)
strBase = "idStr%s"
#for strBase in strsBase:
extendToAllTypes(plotVars_part0,strBase,ptype)
plotVar = [p0+p1 for (p0,p1) in zip(plotVars_part0, plotVars_part1)]
print plotVar
c = []
for pv in plotVar:
print pv
c.append(TCanvas("c_%s"%pv,"c_%s"%pv))
t.Draw(pv,"%s"%(basicCut))
"""
Ubuntu