StudyEJ/rootScripts/MakeHistograms.py

import ROOT
import sys, re
sys.path.append( '/afs/naf.desy.de/user/n/nowaf/CMSSW_3_3_6/src/LeptonSel/LeptonSel/rootScripts' )
import definitions as Def

def main(argv):
    #import sys

    basepath = ''

    try:
        options, arguments = getopt.getopt(argv, "hp:", ["help","path="])

    except getopt.GetoptError:
        usage()
        sys.exit(2)

    for opt, arg in options:
        if opt in ("-h", "--help"):
            usage()
            sys.exit(2)
        elif opt in ("-p", "--path"):
            basepath = arg

    if basepath == '':
        print "Error! Need path to .root file to continue."
        sys.exit(2)

    return basepath

def usage():

    print "Script to plot all XC study plots for the di lepton analysis"
    print "Options and arguments:"
    print "-h, --help\t\t: print this help message and exit"
    print "-p, --path\t\t: relative path to the .root file"

    pass

if __name__ == "__main__":

    import getopt

    basepath = main(sys.argv[1:])

    Def.SetGlobalStyles( "emr" )

    saves = {}

    fin = Def.ReadInRootFile( basepath )
    #print type( fin )
    #print type( fin.Get( "StudyEJ" ) )

    ciso1 = ROOT.TCanvas( "c_iso_vs_sE", "iso vs sE",1,71,600,300 )
    ciso1.Divide( 2,1 )

    ciso1.cd( 1 )
    iso1 = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_1" )
    iso1.Draw( "COLZ" )
    saves["iso1"] = iso1

    ciso1.cd( 2 )
    iso1_rel = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_1_rel" )
    iso1_rel.Draw( "COLZ" )
    saves["iso1_rel"] = iso1_rel

    ciso2 = ROOT.TCanvas( "c_iso_vs_sE_2", "iso vs sE",1,71,600,300 )
    ciso2.Divide( 2,1 )

    ciso2.cd( 1 )
    iso2 = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_2" )
    iso2.Draw( "COLZ" )
    saves["iso2"] = iso2

    ciso2.cd( 2 )
    iso2_rel = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_2_rel" )
    iso2_rel.Draw( "COLZ" )
    saves["iso2_rel"] = iso2_rel

    ciso3 = ROOT.TCanvas( "c_iso_vs_sE_3", "iso vs sE",1,71,600,300 )
    ciso3.Divide( 2,1 )

    ciso3.cd( 1 )
    iso3 = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_3" )
    iso3.Draw( "COLZ" )
    saves["iso3"] = iso3

    ciso3.cd( 2 )
    iso3_rel = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_3_rel" )
    iso3_rel.Draw( "COLZ" )
    saves["iso3_rel"] = iso3_rel

    ciso1MET = ROOT.TCanvas( "c_iso_vs_sE_MET", "iso vs sE",1,71,900,900 )
    ciso1MET.Divide( 3,3 )

    ciso1MET.cd( 1 )
    iso1MET = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_1_sameMET" )
    iso1MET.SetTitle( "new MET == old MET" )
    iso1MET.Draw( "COLZ" )
    saves["iso1MET"] = iso1MET

    ciso1MET.cd( 2 )
    iso1MET_rel = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_1_rel_sameMET" )
    iso1MET_rel.SetTitle( "new MET == old MET" )
    iso1MET_rel.Draw( "COLZ" )
    saves["iso1MET_rel"] = iso1MET_rel

    ciso1MET.cd( 3 )
    iso1MET_erel = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_1_erel_sameMET" )
    iso1MET_erel.SetTitle( "new MET == old MET" )
    iso1MET_erel.Draw( "COLZ" )
    saves["iso1MET_erel"] = iso1MET_erel

    ciso1MET.cd( 4 )
    iso1METn = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_1_newMETg" )
    iso1METn.SetTitle( " new MET > old MET" )
    iso1METn.Draw( "COLZ" )
    saves["iso1METn"] = iso1METn

    ciso1MET.cd( 5 )
    iso1METn_rel = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_1_rel_newMETg" )
    iso1METn_rel.SetTitle( " new MET > old MET" )
    iso1METn_rel.Draw( "COLZ" )
    saves["iso1METn_rel"] = iso1METn_rel

    ciso1MET.cd( 6 )
    iso1METn_erel = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_1_erel_newMETg" )
    iso1METn_erel.SetTitle( " new MET > old MET" )
    iso1METn_erel.Draw( "COLZ" )
    saves["iso1METn_erel"] = iso1METn_erel

    ciso1MET.cd( 7 )
    iso1METo = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_1_oldMETg" )
    iso1METo.SetTitle( " new MET < old MET" )
    iso1METo.Draw( "COLZ" )
    saves["iso1METo"] = iso1METo

    ciso1MET.cd( 8 )
    iso1METo_rel = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_1_rel_oldMETg" )
    iso1METo_rel.SetTitle( " new MET < old MET" )
    iso1METo_rel.Draw( "COLZ" )
    saves["iso1METo_rel"] = iso1METo_rel

    ciso1MET.cd( 9 )
    iso1METo_erel = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_1_erel_oldMETg" )
    iso1METo_erel.SetTitle( " new MET < old MET" )
    iso1METo_erel.Draw( "COLZ" )
    saves["iso1METo_erel"] = iso1METo_erel

    cne = ROOT.TCanvas( "ne", "ne with jet in dr < x per event",1,71,600,600 )
    #cne.Divide( 2,1 )
    Def.DrawSmall( cne, [fin.Get( "StudyEJ/StudyEJ/ne_jetdr1" ), fin.Get( "StudyEJ/StudyEJ/ne_jetdr05") ], \
                   [ 8,1 ],\
                   [ "dr<1", "dr<0.5" ],\
                   "ne with jet near",\
                   "",\
                   "",\
                   False,\
                   0,
                   False,\
                   "ur",\
                   "ne", saves )

    cnemet1 = ROOT.TCanvas( "nemet", "ne with jet in dr < 1 per event",1,71,600,600 )
    #cne.Divide( 2,1 )
    Def.DrawSmall( cnemet1, [fin.Get( "StudyEJ/StudyEJ/ne_jetdr1_sameMET" ), fin.Get( "StudyEJ/StudyEJ/ne_jetdr1_newMETg"), fin.Get( "StudyEJ/StudyEJ/ne_jetdr1_oldMETg") ], \
                   [ 8,1,7 ],\
                   [ "MET ==", "newMET >", "newMET <" ],\
                   "ne with jet near",\
                   "",\
                   "",\
                   True,\
                   0,
                   False,\
                   "ur",\
                   "nemet", saves )

    cnemet05 = ROOT.TCanvas( "nemet05", "ne with jet in dr < 0.5 per event",1,71,600,600 )
    #cne.Divide( 2,1 )
    Def.DrawSmall( cnemet05, [fin.Get( "StudyEJ/StudyEJ/ne_jetdr05_sameMET" ), fin.Get( "StudyEJ/StudyEJ/ne_jetdr05_newMETg"), fin.Get( "StudyEJ/StudyEJ/ne_jetdr05_oldMETg") ], \
                   [ 8,1,7 ],\
                   [ "MET ==", "newMET >", "newMET <" ],\
                   "ne with jet near",\
                   "",\
                   "",\
                   True,\
                   0,
                   False,\
                   "ur",\
                   "nemet05", saves )

    cneiso1 = ROOT.TCanvas( "neiso", "n isoe with jet in dr < 1 per event",1,71,600,600 )
    #cne.Divide( 2,1 )
    Def.DrawSmall( cneiso1, [fin.Get( "StudyEJ/StudyEJ/ne_iso_jetdr1_sameMET" ), fin.Get( "StudyEJ/StudyEJ/ne_iso_jetdr1_newMETg"), fin.Get( "StudyEJ/StudyEJ/ne_iso_jetdr1_oldMETg") ], \
                   [ 8,1,7 ],\
                   [ "MET ==", "newMET >", "newMET <" ],\
                   "ne with jet near",\
                   "",\
                   "",\
                   True,\
                   0,
                   False,\
                   "ur",\
                   "neiso", saves )

    cneiso05 = ROOT.TCanvas( "neiso05", "n isoe with jet in dr < 0.5 per event",1,71,600,600 )
    #cne.Divide( 2,1 )
    Def.DrawSmall( cneiso05, [fin.Get( "StudyEJ/StudyEJ/ne_iso_jetdr05_sameMET" ), fin.Get( "StudyEJ/StudyEJ/ne_iso_jetdr05_newMETg"), fin.Get( "StudyEJ/StudyEJ/ne_iso_jetdr05_oldMETg") ], \
                   [ 8,1,7 ],\
                   [ "MET ==", "newMET >", "newMET <" ],\
                   "ne with jet near",\
                   "",\
                   "",\
                   True,\
                   0,
                   False,\
                   "ur",\
                   "neiso05", saves )

    ceta = ROOT.TCanvas( "eta", "eta",1,71,600,600 )
    ceta.Divide( 2,2 )

    ceta.cd( 1 )
    Def.DrawSmall( ceta, [fin.Get( "StudyEJ/StudyEJ/ccjets_eta_sameMET" ), fin.Get( "StudyEJ/StudyEJ/ccjets_eta_newMETg"), fin.Get( "StudyEJ/StudyEJ/ccjets_eta_oldMETg") ], \
                   [ 8,1,7 ],\
                   [ "MET ==", "newMET >", "newMET <" ],\
                   "#{eta}",\
                   "",\
                   "cc jets",\
                   True,\
                   0,
                   False,\
                   "ur",\
                   "jeta", saves )

    ceta.cd( 2 )
    Def.DrawSmall( ceta, [fin.Get( "StudyEJ/StudyEJ/el_eta_sameMET" ), fin.Get( "StudyEJ/StudyEJ/el_eta_newMETg"), fin.Get( "StudyEJ/StudyEJ/el_eta_oldMETg") ], \
                   [ 8,1,7 ],\
                   [ "MET ==", "newMET >", "newMET <" ],\
                   "#{eta}",\
                   "",\
                   "non cc elecs",\
                   True,\
                   0,
                   False,\
                   "ur",\
                   "eeta", saves )

    ceta.cd( 3 )
    Def.DrawSmall( ceta, [fin.Get( "StudyEJ/StudyEJ/jets_sE_eta_sameMET" ), fin.Get( "StudyEJ/StudyEJ/jets_sE_eta_newMETg"), fin.Get( "StudyEJ/StudyEJ/jets_sE_eta_oldMETg") ], \
                   [ 8,1,7 ],\
                   [ "MET ==", "newMET >", "newMET <" ],\
                   "#{eta}",\
                   "",\
                   "jets with sE",\
                   True,\
                   0,
                   False,\
                   "ur",\
                   "jsEeta", saves )

    ceta.cd( 4 )
    Def.DrawSmall( ceta, [fin.Get( "StudyEJ/StudyEJ/jets_sEiso_eta_sameMET" ), fin.Get( "StudyEJ/StudyEJ/jets_sEiso_eta_newMETg"), fin.Get( "StudyEJ/StudyEJ/jets_sEiso_eta_oldMETg") ], \
                   [ 8,1,7 ],\
                   [ "MET ==", "newMET >", "newMET <" ],\
                   "#eta",\
                   "",\
                   "jets with sE to iso e",\
                   True,\
                   0,
                   False,\
                   "ur",\
                   "jeta", saves )

    cdr = ROOT.TCanvas( "dr", "dr",1,71,600,600 )
    cdr.Divide( 2,2 )

    cdr.cd( 1 )
    Def.DrawSmall( cdr, [fin.Get( "StudyEJ/StudyEJ/dR_e_jet_sameMET" ), fin.Get( "StudyEJ/StudyEJ/dR_e_jet_newMETg"), fin.Get( "StudyEJ/StudyEJ/dR_e_jet_oldMETg") ], \
                   [ 8,1,7 ],\
                   [ "MET ==", "newMET >", "newMET <" ],\
                   "dR (e, jet)",\
                   "",\
                   "",\
                   True,\
                   0,
                   True,\
                   "ur",\
                   "jedr", saves )

    cdr.cd( 2 )
    Def.DrawSmall( cdr, [fin.Get( "StudyEJ/StudyEJ/dR_isoe_jet_sameMET" ), fin.Get( "StudyEJ/StudyEJ/dR_isoe_jet_newMETg"), fin.Get( "StudyEJ/StudyEJ/dR_isoe_jet_oldMETg") ], \
                   [ 8,1,7 ],\
                   [ "MET ==", "newMET >", "newMET <" ],\
                   "dR (iso e, jet)",\
                   "",\
                   "",\
                   True,\
                   0,
                   True,\
                   "ur",\
                   "jiedr", saves )

    cdr.cd( 3 )
    Def.DrawSmall( cdr, [fin.Get( "StudyEJ/StudyEJ/dR_e_ccjet_sameMET" ), fin.Get( "StudyEJ/StudyEJ/dR_e_ccjet_newMETg"), fin.Get( "StudyEJ/StudyEJ/dR_e_ccjet_oldMETg") ], \
                   [ 8,1,7 ],\
                   [ "MET ==", "newMET >", "newMET <" ],\
                   "dR (e, ccjet)",\
                   "",\
                   "",\
                   True,\
                   0,
                   True,\
                   "ur",\
                   "ccjedr", saves )

    cdr.cd( 4 )
    Def.DrawSmall( cdr, [fin.Get( "StudyEJ/StudyEJ/dR_isoe_ccjet_sameMET" ), fin.Get( "StudyEJ/StudyEJ/dR_isoe_ccjet_newMETg"), fin.Get( "StudyEJ/StudyEJ/dR_isoe_ccjet_oldMETg") ], \
                   [ 8,1,7 ],\
                   [ "MET ==", "newMET >", "newMET <" ],\
                   "dR (iso e, ccjet)",\
                   "",\
                   "",\
                   True,\
                   0,
                   True,\
                   "ur",\
                   "ccjiedr", saves )

    ccell = ROOT.TCanvas( "cell", "cell",1,71,600,600 )
    ccell.Divide( 2,2 )

    ccell.cd( 1 )
    Def.DrawSmall( ccell, [fin.Get( "StudyEJ/StudyEJ/sc_cellsPerTower_sameMET" ), fin.Get( "StudyEJ/StudyEJ/sc_cellsPerTower_newMETg"), fin.Get( "StudyEJ/StudyEJ/sc_cellsPerTower_oldMETg") ], \
                   [ 8,1,7 ],\
                   [ "MET ==", "newMET >", "newMET <" ],\
                   "n sc cells in tower",\
                   "",\
                   "",\
                   False,\
                   0,
                   False,\
                   "ur",\
                   "cell", saves )

    ccell.cd( 2 )
    Def.DrawSmall( ccell, [fin.Get( "StudyEJ/StudyEJ/sc_sharedCellsPerTower_sameMET" ), fin.Get( "StudyEJ/StudyEJ/sc_sharedCellsPerTower_newMETg"), fin.Get( "StudyEJ/StudyEJ/sc_sharedCellsPerTower_oldMETg") ], \
                   [ 8,1,7 ],\
                   [ "MET ==", "newMET >", "newMET <" ],\
                   "n sc cells in shared tower",\
                   "",\
                   "",\
                   False,\
                   0,
                   False,\
                   "ur",\
                   "cell", saves )

    ccell.cd( 3 )
    Def.DrawSmall( ccell, [fin.Get( "StudyEJ/StudyEJ/sc_cellsFraction_sameMET" ), fin.Get( "StudyEJ/StudyEJ/sc_cellsFraction_newMETg"), fin.Get( "StudyEJ/StudyEJ/sc_cellsFraction_oldMETg") ], \
                   [ 8,1,7 ],\
                   [ "MET ==", "newMET >", "newMET <" ],\
                   "fraction of cells shared",\
                   "",\
                   "",\
                   False,\
                   0,
                   False,\
                   "ur",\
                   "cellfrac", saves )

    avcenergyMET = ROOT.TCanvas( "c_newsE_vs_oldsE_MET", "new sE vs old sE",1,71,600,900 )
    avcenergyMET.Divide( 2,3 )

    avcenergyMET.cd( 1 )
    avenergyMET = fin.Get( "StudyEJ/StudyEJ/Enew_vs_Eold_sameMET" )
    avenergyMET.SetTitle( "new MET == old MET" )
    avenergyMET.SetXTitle( "new E" )
    avenergyMET.SetYTitle( "old E" )
    avenergyMET.Draw( "COLZ" )
    saves["avenergyMET"] = avenergyMET

    avcenergyMET.cd( 2 )
    avrelenergyMET = fin.Get( "StudyEJ/StudyEJ/Enew_vs_Eold_norm_sameMET" )
    avrelenergyMET.SetTitle( "new MET == old MET" )
    avrelenergyMET.SetXTitle( "new E / jet E" )
    avrelenergyMET.SetYTitle( "old E / jet E" )
    avrelenergyMET.Draw( "COLZ" )
    saves["avrelenergyMET"] = avrelenergyMET

    avcenergyMET.cd( 3 )
    avenergynewMET = fin.Get( "StudyEJ/StudyEJ/Enew_vs_Eold_newMETg" )
    avenergynewMET.SetTitle( "new MET > old MET" )
    avenergynewMET.SetXTitle( "new E" )
    avenergynewMET.SetYTitle( "old E" )
    avenergynewMET.Draw( "COLZ" )
    saves["avenergynewMET"] = avenergynewMET

    avcenergyMET.cd( 4 )
    avrelenergynewnormMET = fin.Get( "StudyEJ/StudyEJ/Enew_vs_Eold_norm_newMETg" )
    avrelenergynewnormMET.SetTitle( "new MET > old MET" )
    avrelenergynewnormMET.SetXTitle( "new E / jet E" )
    avrelenergynewnormMET.SetYTitle( "old E / jet E" )
    avrelenergynewnormMET.Draw( "COLZ" )
    saves["avrelenergynewMET"] = avrelenergynewnormMET
    
    avcenergyMET.cd( 5 )
    avenergyoldMET = fin.Get( "StudyEJ/StudyEJ/Enew_vs_Eold_oldMETg" )
    avenergyoldMET.SetTitle( "new MET < old MET" )
    avenergyoldMET.SetXTitle( "new E" )
    avenergyoldMET.SetYTitle( "old E" )
    avenergyoldMET.Draw( "COLZ" )
    saves["avenergyoldMET"] = avenergyoldMET

    avcenergyMET.cd( 6 )
    avrelenergyoldnormMET = fin.Get( "StudyEJ/StudyEJ/Enew_vs_Eold_norm_oldMETg" )
    avrelenergyoldnormMET.SetTitle( "new MET < old MET" )
    avrelenergyoldnormMET.SetXTitle( "new E / jet E" )
    avrelenergyoldnormMET.SetYTitle( "old E / jet E" )
    avrelenergyoldnormMET.Draw( "COLZ" )
    saves["avrelenergyoldnormMET"] = avrelenergyoldnormMET

    cenergyMET = ROOT.TCanvas( "c_avnewsE_vs_newsE_MET", "new sE vs new average sE",1,71,600,900 )
    cenergyMET.Divide( 2,3 )

    cenergyMET.cd( 1 )
    energyMET = fin.Get( "StudyEJ/StudyEJ/avEnew_vs_Enew_sameMET" )
    energyMET.SetTitle( "new MET == old MET" )
    energyMET.SetXTitle( "new E" )
    energyMET.SetYTitle( "new average E" )
    energyMET.Draw( "COLZ" )
    saves["energyMET"] = energyMET

    cenergyMET.cd( 2 )
    relenergyMET = fin.Get( "StudyEJ/StudyEJ/avEnew_vs_Enew_norm_sameMET" )
    relenergyMET.SetTitle( "new MET == old MET" )
    relenergyMET.SetXTitle( "new E / jet E" )
    relenergyMET.SetYTitle( "new average E / jet E" )
    relenergyMET.Draw( "COLZ" )
    saves["relenergyMET"] = relenergyMET

    cenergyMET.cd( 3 )
    energynewMET = fin.Get( "StudyEJ/StudyEJ/avEnew_vs_Enew_newMETg" )
    energynewMET.SetTitle( "new MET > old MET" )
    energynewMET.SetXTitle( "new E" )
    energynewMET.SetYTitle( "new average E" )
    energynewMET.Draw( "COLZ" )
    saves["energynewMET"] = energynewMET

    cenergyMET.cd( 4 )
    relenergynewnormMET = fin.Get( "StudyEJ/StudyEJ/avEnew_vs_Enew_norm_newMETg" )
    relenergynewnormMET.SetTitle( "new MET > old MET" )
    relenergynewnormMET.SetXTitle( "new E / jet E" )
    relenergynewnormMET.SetYTitle( "new average E / jet E" )
    relenergynewnormMET.Draw( "COLZ" )
    saves["relenergynewMET"] = relenergynewnormMET
    
    cenergyMET.cd( 5 )
    energyoldMET = fin.Get( "StudyEJ/StudyEJ/avEnew_vs_Enew_oldMETg" )
    energyoldMET.SetTitle( "new MET < old MET" )
    energyoldMET.SetXTitle( "new E" )
    energyoldMET.SetYTitle( "new average E" )
    energyoldMET.Draw( "COLZ" )
    saves["energyoldMET"] = energyoldMET

    cenergyMET.cd( 6 )
    relenergyoldnormMET = fin.Get( "StudyEJ/StudyEJ/avEnew_vs_Enew_norm_oldMETg" )
    relenergyoldnormMET.SetTitle( "new MET < old MET" )
    relenergyoldnormMET.SetXTitle( "new E / jet E" )
    relenergyoldnormMET.SetYTitle( "new average E / jet E" )
    relenergyoldnormMET.Draw( "COLZ" )
    saves["relenergyoldnormMET"] = relenergyoldnormMET

    tow = ROOT.TCanvas( "c_avnewsallTowers_vs_sharedTowers", "all towers vs shared towers",1,71,600,600 )
    tow.Divide( 2,2 )

    tow.cd( 1 )
    towsame = fin.Get( "StudyEJ/StudyEJ/allTower_vs_sharedTower_sameMET" )
    towsame.SetTitle( "new MET == old MET" )
    towsame.SetXTitle( "all Tower" )
    towsame.SetYTitle( "shared Tower" )
    towsame.Draw( "COLZ" )
    saves["towersame"] = towsame

    tow.cd( 2 )
    townew = fin.Get( "StudyEJ/StudyEJ/allTower_vs_sharedTower_newMETg" )
    townew.SetTitle( "new MET > old MET" )
    townew.SetXTitle( "all Tower" )
    townew.SetYTitle( "shared Tower" )
    townew.Draw( "COLZ" )
    saves["towernew"] = townew

    tow.cd( 3 )
    towold = fin.Get( "StudyEJ/StudyEJ/allTower_vs_sharedTower_oldMETg" )
    towold.SetTitle( "new MET < old MET" )
    towold.SetXTitle( "all Tower" )
    towold.SetYTitle( "shared Tower" )
    towold.Draw( "COLZ" )
    saves["towerold"] = towold

    
    Def.DontQuit()
Revision:	1.1
Committed:	Fri Apr 9 12:31:32 2010 UTC (15 years, 1 month ago) by nowak
Content type:	text/x-python
Branch:	MAIN
CVS Tags:	HEAD
Error occurred while calculating annotation data.
Log Message:	initial revision
#	Content
1	import ROOT
2	import sys, re
3	sys.path.append( '/afs/naf.desy.de/user/n/nowaf/CMSSW_3_3_6/src/LeptonSel/LeptonSel/rootScripts' )
4	import definitions as Def
5
6	def main(argv):
7	#import sys
8
9	basepath = ''
10
11	try:
12	options, arguments = getopt.getopt(argv, "hp:", ["help","path="])
13
14	except getopt.GetoptError:
15	usage()
16	sys.exit(2)
17
18	for opt, arg in options:
19	if opt in ("-h", "--help"):
20	usage()
21	sys.exit(2)
22	elif opt in ("-p", "--path"):
23	basepath = arg
24
25	if basepath == '':
26	print "Error! Need path to .root file to continue."
27	sys.exit(2)
28
29	return basepath
30
31	def usage():
32
33	print "Script to plot all XC study plots for the di lepton analysis"
34	print "Options and arguments:"
35	print "-h, --help\t\t: print this help message and exit"
36	print "-p, --path\t\t: relative path to the .root file"
37
38	pass
39
40	if __name__ == "__main__":
41
42	import getopt
43
44	basepath = main(sys.argv[1:])
45
46	Def.SetGlobalStyles( "emr" )
47
48	saves = {}
49
50	fin = Def.ReadInRootFile( basepath )
51	#print type( fin )
52	#print type( fin.Get( "StudyEJ" ) )
53
54	ciso1 = ROOT.TCanvas( "c_iso_vs_sE", "iso vs sE",1,71,600,300 )
55	ciso1.Divide( 2,1 )
56
57	ciso1.cd( 1 )
58	iso1 = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_1" )
59	iso1.Draw( "COLZ" )
60	saves["iso1"] = iso1
61
62	ciso1.cd( 2 )
63	iso1_rel = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_1_rel" )
64	iso1_rel.Draw( "COLZ" )
65	saves["iso1_rel"] = iso1_rel
66
67	ciso2 = ROOT.TCanvas( "c_iso_vs_sE_2", "iso vs sE",1,71,600,300 )
68	ciso2.Divide( 2,1 )
69
70	ciso2.cd( 1 )
71	iso2 = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_2" )
72	iso2.Draw( "COLZ" )
73	saves["iso2"] = iso2
74
75	ciso2.cd( 2 )
76	iso2_rel = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_2_rel" )
77	iso2_rel.Draw( "COLZ" )
78	saves["iso2_rel"] = iso2_rel
79
80	ciso3 = ROOT.TCanvas( "c_iso_vs_sE_3", "iso vs sE",1,71,600,300 )
81	ciso3.Divide( 2,1 )
82
83	ciso3.cd( 1 )
84	iso3 = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_3" )
85	iso3.Draw( "COLZ" )
86	saves["iso3"] = iso3
87
88	ciso3.cd( 2 )
89	iso3_rel = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_3_rel" )
90	iso3_rel.Draw( "COLZ" )
91	saves["iso3_rel"] = iso3_rel
92
93	ciso1MET = ROOT.TCanvas( "c_iso_vs_sE_MET", "iso vs sE",1,71,900,900 )
94	ciso1MET.Divide( 3,3 )
95
96	ciso1MET.cd( 1 )
97	iso1MET = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_1_sameMET" )
98	iso1MET.SetTitle( "new MET == old MET" )
99	iso1MET.Draw( "COLZ" )
100	saves["iso1MET"] = iso1MET
101
102	ciso1MET.cd( 2 )
103	iso1MET_rel = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_1_rel_sameMET" )
104	iso1MET_rel.SetTitle( "new MET == old MET" )
105	iso1MET_rel.Draw( "COLZ" )
106	saves["iso1MET_rel"] = iso1MET_rel
107
108	ciso1MET.cd( 3 )
109	iso1MET_erel = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_1_erel_sameMET" )
110	iso1MET_erel.SetTitle( "new MET == old MET" )
111	iso1MET_erel.Draw( "COLZ" )
112	saves["iso1MET_erel"] = iso1MET_erel
113
114	ciso1MET.cd( 4 )
115	iso1METn = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_1_newMETg" )
116	iso1METn.SetTitle( " new MET > old MET" )
117	iso1METn.Draw( "COLZ" )
118	saves["iso1METn"] = iso1METn
119
120	ciso1MET.cd( 5 )
121	iso1METn_rel = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_1_rel_newMETg" )
122	iso1METn_rel.SetTitle( " new MET > old MET" )
123	iso1METn_rel.Draw( "COLZ" )
124	saves["iso1METn_rel"] = iso1METn_rel
125
126	ciso1MET.cd( 6 )
127	iso1METn_erel = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_1_erel_newMETg" )
128	iso1METn_erel.SetTitle( " new MET > old MET" )
129	iso1METn_erel.Draw( "COLZ" )
130	saves["iso1METn_erel"] = iso1METn_erel
131
132	ciso1MET.cd( 7 )
133	iso1METo = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_1_oldMETg" )
134	iso1METo.SetTitle( " new MET < old MET" )
135	iso1METo.Draw( "COLZ" )
136	saves["iso1METo"] = iso1METo
137
138	ciso1MET.cd( 8 )
139	iso1METo_rel = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_1_rel_oldMETg" )
140	iso1METo_rel.SetTitle( " new MET < old MET" )
141	iso1METo_rel.Draw( "COLZ" )
142	saves["iso1METo_rel"] = iso1METo_rel
143
144	ciso1MET.cd( 9 )
145	iso1METo_erel = fin.Get( "StudyEJ/StudyEJ/iso_vs_sE_1_erel_oldMETg" )
146	iso1METo_erel.SetTitle( " new MET < old MET" )
147	iso1METo_erel.Draw( "COLZ" )
148	saves["iso1METo_erel"] = iso1METo_erel
149
150	cne = ROOT.TCanvas( "ne", "ne with jet in dr < x per event",1,71,600,600 )
151	#cne.Divide( 2,1 )
152	Def.DrawSmall( cne, [fin.Get( "StudyEJ/StudyEJ/ne_jetdr1" ), fin.Get( "StudyEJ/StudyEJ/ne_jetdr05") ], \
153	[ 8,1 ],\
154	[ "dr<1", "dr<0.5" ],\
155	"ne with jet near",\
156	"",\
157	"",\
158	False,\
159	0,
160	False,\
161	"ur",\
162	"ne", saves )
163
164	cnemet1 = ROOT.TCanvas( "nemet", "ne with jet in dr < 1 per event",1,71,600,600 )
165	#cne.Divide( 2,1 )
166	Def.DrawSmall( cnemet1, [fin.Get( "StudyEJ/StudyEJ/ne_jetdr1_sameMET" ), fin.Get( "StudyEJ/StudyEJ/ne_jetdr1_newMETg"), fin.Get( "StudyEJ/StudyEJ/ne_jetdr1_oldMETg") ], \
167	[ 8,1,7 ],\
168	[ "MET ==", "newMET >", "newMET <" ],\
169	"ne with jet near",\
170	"",\
171	"",\
172	True,\
173	0,
174	False,\
175	"ur",\
176	"nemet", saves )
177
178	cnemet05 = ROOT.TCanvas( "nemet05", "ne with jet in dr < 0.5 per event",1,71,600,600 )
179	#cne.Divide( 2,1 )
180	Def.DrawSmall( cnemet05, [fin.Get( "StudyEJ/StudyEJ/ne_jetdr05_sameMET" ), fin.Get( "StudyEJ/StudyEJ/ne_jetdr05_newMETg"), fin.Get( "StudyEJ/StudyEJ/ne_jetdr05_oldMETg") ], \
181	[ 8,1,7 ],\
182	[ "MET ==", "newMET >", "newMET <" ],\
183	"ne with jet near",\
184	"",\
185	"",\
186	True,\
187	0,
188	False,\
189	"ur",\
190	"nemet05", saves )
191
192	cneiso1 = ROOT.TCanvas( "neiso", "n isoe with jet in dr < 1 per event",1,71,600,600 )
193	#cne.Divide( 2,1 )
194	Def.DrawSmall( cneiso1, [fin.Get( "StudyEJ/StudyEJ/ne_iso_jetdr1_sameMET" ), fin.Get( "StudyEJ/StudyEJ/ne_iso_jetdr1_newMETg"), fin.Get( "StudyEJ/StudyEJ/ne_iso_jetdr1_oldMETg") ], \
195	[ 8,1,7 ],\
196	[ "MET ==", "newMET >", "newMET <" ],\
197	"ne with jet near",\
198	"",\
199	"",\
200	True,\
201	0,
202	False,\
203	"ur",\
204	"neiso", saves )
205
206	cneiso05 = ROOT.TCanvas( "neiso05", "n isoe with jet in dr < 0.5 per event",1,71,600,600 )
207	#cne.Divide( 2,1 )
208	Def.DrawSmall( cneiso05, [fin.Get( "StudyEJ/StudyEJ/ne_iso_jetdr05_sameMET" ), fin.Get( "StudyEJ/StudyEJ/ne_iso_jetdr05_newMETg"), fin.Get( "StudyEJ/StudyEJ/ne_iso_jetdr05_oldMETg") ], \
209	[ 8,1,7 ],\
210	[ "MET ==", "newMET >", "newMET <" ],\
211	"ne with jet near",\
212	"",\
213	"",\
214	True,\
215	0,
216	False,\
217	"ur",\
218	"neiso05", saves )
219
220	ceta = ROOT.TCanvas( "eta", "eta",1,71,600,600 )
221	ceta.Divide( 2,2 )
222
223	ceta.cd( 1 )
224	Def.DrawSmall( ceta, [fin.Get( "StudyEJ/StudyEJ/ccjets_eta_sameMET" ), fin.Get( "StudyEJ/StudyEJ/ccjets_eta_newMETg"), fin.Get( "StudyEJ/StudyEJ/ccjets_eta_oldMETg") ], \
225	[ 8,1,7 ],\
226	[ "MET ==", "newMET >", "newMET <" ],\
227	"#{eta}",\
228	"",\
229	"cc jets",\
230	True,\
231	0,
232	False,\
233	"ur",\
234	"jeta", saves )
235
236	ceta.cd( 2 )
237	Def.DrawSmall( ceta, [fin.Get( "StudyEJ/StudyEJ/el_eta_sameMET" ), fin.Get( "StudyEJ/StudyEJ/el_eta_newMETg"), fin.Get( "StudyEJ/StudyEJ/el_eta_oldMETg") ], \
238	[ 8,1,7 ],\
239	[ "MET ==", "newMET >", "newMET <" ],\
240	"#{eta}",\
241	"",\
242	"non cc elecs",\
243	True,\
244	0,
245	False,\
246	"ur",\
247	"eeta", saves )
248
249	ceta.cd( 3 )
250	Def.DrawSmall( ceta, [fin.Get( "StudyEJ/StudyEJ/jets_sE_eta_sameMET" ), fin.Get( "StudyEJ/StudyEJ/jets_sE_eta_newMETg"), fin.Get( "StudyEJ/StudyEJ/jets_sE_eta_oldMETg") ], \
251	[ 8,1,7 ],\
252	[ "MET ==", "newMET >", "newMET <" ],\
253	"#{eta}",\
254	"",\
255	"jets with sE",\
256	True,\
257	0,
258	False,\
259	"ur",\
260	"jsEeta", saves )
261
262	ceta.cd( 4 )
263	Def.DrawSmall( ceta, [fin.Get( "StudyEJ/StudyEJ/jets_sEiso_eta_sameMET" ), fin.Get( "StudyEJ/StudyEJ/jets_sEiso_eta_newMETg"), fin.Get( "StudyEJ/StudyEJ/jets_sEiso_eta_oldMETg") ], \
264	[ 8,1,7 ],\
265	[ "MET ==", "newMET >", "newMET <" ],\
266	"#eta",\
267	"",\
268	"jets with sE to iso e",\
269	True,\
270	0,
271	False,\
272	"ur",\
273	"jeta", saves )
274
275	cdr = ROOT.TCanvas( "dr", "dr",1,71,600,600 )
276	cdr.Divide( 2,2 )
277
278	cdr.cd( 1 )
279	Def.DrawSmall( cdr, [fin.Get( "StudyEJ/StudyEJ/dR_e_jet_sameMET" ), fin.Get( "StudyEJ/StudyEJ/dR_e_jet_newMETg"), fin.Get( "StudyEJ/StudyEJ/dR_e_jet_oldMETg") ], \
280	[ 8,1,7 ],\
281	[ "MET ==", "newMET >", "newMET <" ],\
282	"dR (e, jet)",\
283	"",\
284	"",\
285	True,\
286	0,
287	True,\
288	"ur",\
289	"jedr", saves )
290
291	cdr.cd( 2 )
292	Def.DrawSmall( cdr, [fin.Get( "StudyEJ/StudyEJ/dR_isoe_jet_sameMET" ), fin.Get( "StudyEJ/StudyEJ/dR_isoe_jet_newMETg"), fin.Get( "StudyEJ/StudyEJ/dR_isoe_jet_oldMETg") ], \
293	[ 8,1,7 ],\
294	[ "MET ==", "newMET >", "newMET <" ],\
295	"dR (iso e, jet)",\
296	"",\
297	"",\
298	True,\
299	0,
300	True,\
301	"ur",\
302	"jiedr", saves )
303
304	cdr.cd( 3 )
305	Def.DrawSmall( cdr, [fin.Get( "StudyEJ/StudyEJ/dR_e_ccjet_sameMET" ), fin.Get( "StudyEJ/StudyEJ/dR_e_ccjet_newMETg"), fin.Get( "StudyEJ/StudyEJ/dR_e_ccjet_oldMETg") ], \
306	[ 8,1,7 ],\
307	[ "MET ==", "newMET >", "newMET <" ],\
308	"dR (e, ccjet)",\
309	"",\
310	"",\
311	True,\
312	0,
313	True,\
314	"ur",\
315	"ccjedr", saves )
316
317	cdr.cd( 4 )
318	Def.DrawSmall( cdr, [fin.Get( "StudyEJ/StudyEJ/dR_isoe_ccjet_sameMET" ), fin.Get( "StudyEJ/StudyEJ/dR_isoe_ccjet_newMETg"), fin.Get( "StudyEJ/StudyEJ/dR_isoe_ccjet_oldMETg") ], \
319	[ 8,1,7 ],\
320	[ "MET ==", "newMET >", "newMET <" ],\
321	"dR (iso e, ccjet)",\
322	"",\
323	"",\
324	True,\
325	0,
326	True,\
327	"ur",\
328	"ccjiedr", saves )
329
330	ccell = ROOT.TCanvas( "cell", "cell",1,71,600,600 )
331	ccell.Divide( 2,2 )
332
333	ccell.cd( 1 )
334	Def.DrawSmall( ccell, [fin.Get( "StudyEJ/StudyEJ/sc_cellsPerTower_sameMET" ), fin.Get( "StudyEJ/StudyEJ/sc_cellsPerTower_newMETg"), fin.Get( "StudyEJ/StudyEJ/sc_cellsPerTower_oldMETg") ], \
335	[ 8,1,7 ],\
336	[ "MET ==", "newMET >", "newMET <" ],\
337	"n sc cells in tower",\
338	"",\
339	"",\
340	False,\
341	0,
342	False,\
343	"ur",\
344	"cell", saves )
345
346	ccell.cd( 2 )
347	Def.DrawSmall( ccell, [fin.Get( "StudyEJ/StudyEJ/sc_sharedCellsPerTower_sameMET" ), fin.Get( "StudyEJ/StudyEJ/sc_sharedCellsPerTower_newMETg"), fin.Get( "StudyEJ/StudyEJ/sc_sharedCellsPerTower_oldMETg") ], \
348	[ 8,1,7 ],\
349	[ "MET ==", "newMET >", "newMET <" ],\
350	"n sc cells in shared tower",\
351	"",\
352	"",\
353	False,\
354	0,
355	False,\
356	"ur",\
357	"cell", saves )
358
359	ccell.cd( 3 )
360	Def.DrawSmall( ccell, [fin.Get( "StudyEJ/StudyEJ/sc_cellsFraction_sameMET" ), fin.Get( "StudyEJ/StudyEJ/sc_cellsFraction_newMETg"), fin.Get( "StudyEJ/StudyEJ/sc_cellsFraction_oldMETg") ], \
361	[ 8,1,7 ],\
362	[ "MET ==", "newMET >", "newMET <" ],\
363	"fraction of cells shared",\
364	"",\
365	"",\
366	False,\
367	0,
368	False,\
369	"ur",\
370	"cellfrac", saves )
371
372	avcenergyMET = ROOT.TCanvas( "c_newsE_vs_oldsE_MET", "new sE vs old sE",1,71,600,900 )
373	avcenergyMET.Divide( 2,3 )
374
375	avcenergyMET.cd( 1 )
376	avenergyMET = fin.Get( "StudyEJ/StudyEJ/Enew_vs_Eold_sameMET" )
377	avenergyMET.SetTitle( "new MET == old MET" )
378	avenergyMET.SetXTitle( "new E" )
379	avenergyMET.SetYTitle( "old E" )
380	avenergyMET.Draw( "COLZ" )
381	saves["avenergyMET"] = avenergyMET
382
383	avcenergyMET.cd( 2 )
384	avrelenergyMET = fin.Get( "StudyEJ/StudyEJ/Enew_vs_Eold_norm_sameMET" )
385	avrelenergyMET.SetTitle( "new MET == old MET" )
386	avrelenergyMET.SetXTitle( "new E / jet E" )
387	avrelenergyMET.SetYTitle( "old E / jet E" )
388	avrelenergyMET.Draw( "COLZ" )
389	saves["avrelenergyMET"] = avrelenergyMET
390
391	avcenergyMET.cd( 3 )
392	avenergynewMET = fin.Get( "StudyEJ/StudyEJ/Enew_vs_Eold_newMETg" )
393	avenergynewMET.SetTitle( "new MET > old MET" )
394	avenergynewMET.SetXTitle( "new E" )
395	avenergynewMET.SetYTitle( "old E" )
396	avenergynewMET.Draw( "COLZ" )
397	saves["avenergynewMET"] = avenergynewMET
398
399	avcenergyMET.cd( 4 )
400	avrelenergynewnormMET = fin.Get( "StudyEJ/StudyEJ/Enew_vs_Eold_norm_newMETg" )
401	avrelenergynewnormMET.SetTitle( "new MET > old MET" )
402	avrelenergynewnormMET.SetXTitle( "new E / jet E" )
403	avrelenergynewnormMET.SetYTitle( "old E / jet E" )
404	avrelenergynewnormMET.Draw( "COLZ" )
405	saves["avrelenergynewMET"] = avrelenergynewnormMET
406
407	avcenergyMET.cd( 5 )
408	avenergyoldMET = fin.Get( "StudyEJ/StudyEJ/Enew_vs_Eold_oldMETg" )
409	avenergyoldMET.SetTitle( "new MET < old MET" )
410	avenergyoldMET.SetXTitle( "new E" )
411	avenergyoldMET.SetYTitle( "old E" )
412	avenergyoldMET.Draw( "COLZ" )
413	saves["avenergyoldMET"] = avenergyoldMET
414
415	avcenergyMET.cd( 6 )
416	avrelenergyoldnormMET = fin.Get( "StudyEJ/StudyEJ/Enew_vs_Eold_norm_oldMETg" )
417	avrelenergyoldnormMET.SetTitle( "new MET < old MET" )
418	avrelenergyoldnormMET.SetXTitle( "new E / jet E" )
419	avrelenergyoldnormMET.SetYTitle( "old E / jet E" )
420	avrelenergyoldnormMET.Draw( "COLZ" )
421	saves["avrelenergyoldnormMET"] = avrelenergyoldnormMET
422
423	cenergyMET = ROOT.TCanvas( "c_avnewsE_vs_newsE_MET", "new sE vs new average sE",1,71,600,900 )
424	cenergyMET.Divide( 2,3 )
425
426	cenergyMET.cd( 1 )
427	energyMET = fin.Get( "StudyEJ/StudyEJ/avEnew_vs_Enew_sameMET" )
428	energyMET.SetTitle( "new MET == old MET" )
429	energyMET.SetXTitle( "new E" )
430	energyMET.SetYTitle( "new average E" )
431	energyMET.Draw( "COLZ" )
432	saves["energyMET"] = energyMET
433
434	cenergyMET.cd( 2 )
435	relenergyMET = fin.Get( "StudyEJ/StudyEJ/avEnew_vs_Enew_norm_sameMET" )
436	relenergyMET.SetTitle( "new MET == old MET" )
437	relenergyMET.SetXTitle( "new E / jet E" )
438	relenergyMET.SetYTitle( "new average E / jet E" )
439	relenergyMET.Draw( "COLZ" )
440	saves["relenergyMET"] = relenergyMET
441
442	cenergyMET.cd( 3 )
443	energynewMET = fin.Get( "StudyEJ/StudyEJ/avEnew_vs_Enew_newMETg" )
444	energynewMET.SetTitle( "new MET > old MET" )
445	energynewMET.SetXTitle( "new E" )
446	energynewMET.SetYTitle( "new average E" )
447	energynewMET.Draw( "COLZ" )
448	saves["energynewMET"] = energynewMET
449
450	cenergyMET.cd( 4 )
451	relenergynewnormMET = fin.Get( "StudyEJ/StudyEJ/avEnew_vs_Enew_norm_newMETg" )
452	relenergynewnormMET.SetTitle( "new MET > old MET" )
453	relenergynewnormMET.SetXTitle( "new E / jet E" )
454	relenergynewnormMET.SetYTitle( "new average E / jet E" )
455	relenergynewnormMET.Draw( "COLZ" )
456	saves["relenergynewMET"] = relenergynewnormMET
457
458	cenergyMET.cd( 5 )
459	energyoldMET = fin.Get( "StudyEJ/StudyEJ/avEnew_vs_Enew_oldMETg" )
460	energyoldMET.SetTitle( "new MET < old MET" )
461	energyoldMET.SetXTitle( "new E" )
462	energyoldMET.SetYTitle( "new average E" )
463	energyoldMET.Draw( "COLZ" )
464	saves["energyoldMET"] = energyoldMET
465
466	cenergyMET.cd( 6 )
467	relenergyoldnormMET = fin.Get( "StudyEJ/StudyEJ/avEnew_vs_Enew_norm_oldMETg" )
468	relenergyoldnormMET.SetTitle( "new MET < old MET" )
469	relenergyoldnormMET.SetXTitle( "new E / jet E" )
470	relenergyoldnormMET.SetYTitle( "new average E / jet E" )
471	relenergyoldnormMET.Draw( "COLZ" )
472	saves["relenergyoldnormMET"] = relenergyoldnormMET
473
474	tow = ROOT.TCanvas( "c_avnewsallTowers_vs_sharedTowers", "all towers vs shared towers",1,71,600,600 )
475	tow.Divide( 2,2 )
476
477	tow.cd( 1 )
478	towsame = fin.Get( "StudyEJ/StudyEJ/allTower_vs_sharedTower_sameMET" )
479	towsame.SetTitle( "new MET == old MET" )
480	towsame.SetXTitle( "all Tower" )
481	towsame.SetYTitle( "shared Tower" )
482	towsame.Draw( "COLZ" )
483	saves["towersame"] = towsame
484
485	tow.cd( 2 )
486	townew = fin.Get( "StudyEJ/StudyEJ/allTower_vs_sharedTower_newMETg" )
487	townew.SetTitle( "new MET > old MET" )
488	townew.SetXTitle( "all Tower" )
489	townew.SetYTitle( "shared Tower" )
490	townew.Draw( "COLZ" )
491	saves["towernew"] = townew
492
493	tow.cd( 3 )
494	towold = fin.Get( "StudyEJ/StudyEJ/allTower_vs_sharedTower_oldMETg" )
495	towold.SetTitle( "new MET < old MET" )
496	towold.SetXTitle( "all Tower" )
497	towold.SetYTitle( "shared Tower" )
498	towold.Draw( "COLZ" )
499	saves["towerold"] = towold
500
501
502	Def.DontQuit()