#!/usr/bin/python import os, sys sys.path.append( os.path.abspath( "/user/kuensken/ChrisAnelliCode/CMSSW_6_2_0_SLHC11/src/HoMuonTrigger/python" )) from plotEnergy import plotEnergy from plotDeltaEtaDeltaPhi import plotDeltaEtaDeltaPhi from plotEtaPhi import plotEtaPhi from plotL1Rate import plotL1Rates from plotPhi import plotPhi from plotEfficiency import plotEfficiency from plotMultiplicity import plotMultiplicity toProcess = ['PionGun'] for s in toProcess: print 'Doing energy...' plotEnergy(s) print 'Doing Delta Eta Delta Phi...' plotDeltaEtaDeltaPhi(s) print 'Doing Eta Phi...' plotEtaPhi(s) print 'Doing Multiplicity...' plotMultiplicity(s)
print 'File crabSiPMCalibPlots' filename = 'L1MuonHistogram.root' if(len(sys.argv) > 1 ): filename = sys.argv[1] toProcess = [ '.' # ,'crab2023MinBias' ] for s in toProcess: print 'Doing energy...' plotEnergy(s) print 'Doing Delta Eta Delta Phi...' plotDeltaEtaDeltaPhi(s) print 'Doing Eta Phi...' plotEtaPhi(s) print 'Doing L1Rates...' plotL1Rates(s) # print 'Doing Phi...' # plotPhi(s) print 'Doing Efficiency...' plotEfficiency(s) print 'Doing Multiplicity...' plotMultiplicity(s) print 'All done.'
from plotEtaPhi import plotEtaPhi from plotL1Rate import plotL1Rates from plotPhi import plotPhi from plotEfficiency import plotEfficiency, plotCombinedEfficiency from plotMultiplicity import plotMultiplicity from plotPtCorrelation import plotPtCorrelation from ROOT import TH2D, TH2F filename = 'L1MuonHistogram.root' if (len(sys.argv) > 1): filename = sys.argv[1] print 'Doing energy...' res = plotEnergy('.') res2 = plotEnergyNormalized('.') print 'Doing Delta Eta Delta Phi...' plotDeltaEtaDeltaPhi('.') # print 'Doing Eta Phi...' # plotEtaPhi(s) print 'Doing L1Rates...' plotL1Rates('.') # print 'Doing Phi...' # plotPhi(s) print 'Doing Efficiency...' plotEfficiency('.') print 'Doing Multiplicity...' plotMultiplicity('.')
# visit.SetViewAxisArray(ViewAxisArrayAtts) visit.Launch(vdir=localVisItDir) # if runRemotely: # p2=SetupPhase2() # # data2=visit.OpenDatabase(remoteTimeSeriesAstraDB,0,'Vs') # data2=visit.OpenDatabase(remoteTimeSeriesEleSigmaDB,0,'Vs') # # else: # data=visit.OpenDatabase(localPowerAllDB,0,'Vs') plotEnergyLinear.plotEnergyLinear(localPowerAllDB) visit.AddWindow() plotEnergy.plotEnergy(localPowerAllDB) visit.AddWindow() plotPowNorm.plotPowNorm(localPowerAllDB) visit.AddWindow() binPhase.binPhase(eDB) visit.AddWindow() bunching() visit.AddWindow() current() visit.SetWindowLayout(6) #TimeSeriesS1() #PhaseSpaceXY(2)
from plotEtaPhi import plotEtaPhi from plotL1Rate import plotL1Rates from plotPhi import plotPhi from plotEfficiency import plotEfficiency,plotCombinedEfficiency from plotMultiplicity import plotMultiplicity from plotPtCorrelation import plotPtCorrelation from ROOT import TH2D,TH2F filename = 'L1MuonHistogram.root' if(len(sys.argv) > 1 ): filename = sys.argv[1] print 'Doing energy...' res = plotEnergy('.') res2 = plotEnergyNormalized('.') print 'Doing Delta Eta Delta Phi...' plotDeltaEtaDeltaPhi('.') # print 'Doing Eta Phi...' # plotEtaPhi(s) print 'Doing L1Rates...' plotL1Rates('.') # print 'Doing Phi...' # plotPhi(s) print 'Doing Efficiency...' plotEfficiency('.') print 'Doing Multiplicity...' plotMultiplicity('.')