// Template plot producer for WZ validation plots, called by Sub_SynchroPlots_WZ25.sh
//string today = "150910";
void template_yieldsWZ_25ns(std::string var){
gStyle->SetOptStat(0);
md.refresh();
//general parameters ********************* general parameters
string dir="WZsynchro"; //_Jun16_WZCR_RA7comp";
string fileName="template_WZ25";
string fileList="template_WZ25";
bool mcOnly = false;
//observables **********************
md.dp.setObservables(var);
md.anConf.configureNames( dir, fileName, fileList );
md.anConf.configureData(false, 0, mcOnly);
//Binning & title ************************* Binning & title
string yTitle="number of events";
int binning=40;
int addBinBkg=1; //BinB = binning*AddBin
double rangeY[2]={0, 0};
double rangeX[2]={0., 500.};
int xDiv[3]={8,6,0};
int yDiv[3]={6,6,0}; //Nlabel / sous-Div /ssdiv
bool logYScale=false;
if (var.find("miniRelIso") != std::string::npos &&
(var.find("ttbar") != std::string::npos ||
var.find("ZMuMu") != std::string::npos ||
var.find("ZEE") != std::string::npos)
) {
logYScale = true;
}
bool overFlowBin=true;
bool underFlowBin=false;
bool showDMCRatio=false;
bool showGrid=false;
float markerSize=0.8;
float lineWidth=2;
bool summedSignal=false;
bool stacking=true;
bool cmsPrel=true;
float xt=0.68;
float yt=0.48;
float st=0.039;
string addText="";
string autoBinFile="WZ50binning";
md.dp.loadAutoBinning(autoBinFile);
//Systematic uncertainties ********************************
bool addSystematics=false;
bool mcStatSyst=false;
string systSources="";
bool uncDet=false;
//Lumis( or XSections ) pb-1 & KFactors ************************************
string Norm="DNorm";
float lumi=20.4; //pb-1 19470
float energy=13; //TeV
bool useXS=true;
map<string,float> LumisXS;
map<string,float> KFactors;
md.anConf.loadXSDB("XSectionsSpring15.db");
//md.anConf.loadKFDB("kFactorsSpring15.db");
md.anConf.configureLumi( LumisXS, KFactors, lumi, useXS );
//===============================================================
md.anConf.addSample( "TBar_tWch" , "Single top" , kGray+2);
md.anConf.addSample( "T_tWch" , "Single top" , kGray+2);
md.anConf.addSample( "TToLeptons_tch" , "Single top" , kGray+2);
md.anConf.addSample( "TToLeptons_sch" , "Single top" , kGray+2);
md.anConf.addSample( "WJetsToLNu" , "W+jets" , kCyan+2);
md.anConf.addSample( "WWTo2L2Nu" , "WW" , kSpring+10);
md.anConf.addSample( "WZp8" , "WZ" , kGreen+3);
md.anConf.addSample( "ZZp8" , "ZZ" , kViolet-4);
md.anConf.addSample( "TTJets_LO" , "t#bar{t}" , kRed );
md.anConf.addSample( "DYJetsToLL_M10to50" , "DY" , kCyan );
md.anConf.addSample( "DYJetsToLL_M50" , "DY" , kCyan );
/*
md.anConf.addSample( "TBar_tWch" , "TBar_tWch" , kGray+2);
md.anConf.addSample( "T_tWch" , "T_tWch" , kGray+2);
md.anConf.addSample( "TToLeptons_tch" , "TToLeptons_tch" , kGray+2);
md.anConf.addSample( "TToLeptons_sch" , "TToLeptons_sch" , kGray+2);
md.anConf.addSample( "WJetsToLNu" , "WJetsToLNu" , kCyan+2);
md.anConf.addSample( "WWTo2L2Nu" , "WWTo2L2Nu" , kSpring+10);
md.anConf.addSample( "WZp8" , "WZp8" , kGreen+3);
md.anConf.addSample( "ZZp8" , "ZZp8" , kViolet-4);
md.anConf.addSample( "TTJets_LO" , "TTJets_LO" , kRed );
md.anConf.addSample( "DYJetsToLL_M10to50" , "DYJetsToLL_M10to50" , kCyan );
md.anConf.addSample( "DYJetsToLL_M50" , "DYJetsToLL_M50" , kCyan );
*/
// the order MATTERS!!!
md.anConf.addSample( "DoubleEG_Run2015C_v1" , "data", kBlack);
md.anConf.addSample( "DoubleMuon_Run2015C_v1" , "data", kBlack);
md.anConf.addSample( "MuonEG_Run2015C_v1" , "data", kBlack);
md.anConf.addSample( "SingleElectron_Run2015C_v1" , "data", kBlack);
md.anConf.addSample( "SingleMuon_Run2015C_v1" , "data", kBlack);
// //===============================================================
//*********************************************************************²
//Execution macro ******************************************************
//Configuration ================
//plotting ================
md.dp.setLumiAndEnergy( lumi, energy );
md.dp.setNormalization( Norm );
md.dp.configureDisplay(yTitle, rangeY, rangeX, logYScale, xDiv,
yDiv, binning, addBinBkg, overFlowBin,
underFlowBin, showDMCRatio, showGrid,
stacking, addSystematics, mcStatSyst,
markerSize, lineWidth,summedSignal,
mcOnly,cmsPrel, uncDet);
md.prepareDisplay();
md.doPlot();
md.getStatistics("global");
md.savePlot(dir);
//gROOT->ProcessLine(".q");
}
void susy3l_data_25ns() {
md.refresh();
//general parameters ********************* general parameters
string dir="SUSY3L";
string fileName="susy3l_data_25ns"; //was treeName in LUNE susy_cut_lowpt
string fileList="susy3l_data_25ns"; //CH: since AnaConfig needs a fileName to open, we need to put the data files into a different variable
string hName="";
bool mcOnly = false;
//if(md.isInitStatus()) {
md.anConf.configureNames( dir, fileName, fileList );//, hName );
md.anConf.configureData(false, 0, mcOnly);
//}
string obs = "njets" ; //njets, nbjets, met, ht, lep, zpeak, zpt, mt, mt2, pt1, pt2, pt3, mll, muonsip, muoniso, muondz, muondxy, muonptrel, muonptratio, elsip, eliso, eldz, eldxy, elptrel, elptratio, 3rdlepflavor
string sigs = "none";
bool data = true;
//Binning & title ************************* Binning & titre
string yTitle="number of events";
//int binning=1;
int addBinBkg=1; //BinB = binning*AddBin
double rangeY[2]={0,0};
bool logYScale=true;
//double rangeX[2]={0,7};
int xDiv[3]={8,6,0};
int yDiv[3]={6,6,0}; //Nlabel / sous-Div /ssdiv
bool logYScale=true;
bool overFlowBin=true;
bool underFlowBin=false;
bool showDMCRatio=true;
bool showGrid=false;
float markerSize=0.8;
float lineWidth=2;
bool summedSignal=false;
bool stacking=true;
bool cmsPrel=true;
float xt=0.68;
float yt=0.48;
float st=0.039;
string addText="";
if(obs == "njets"){
md.dp.setObservables("NJets");
int binning=1;
double rangeX[2]={0,7};
//bool logYScale=true;
}
if(obs == "nbjets"){
md.dp.setObservables("NBJets");
int binning=1;
double rangeX[2]={0,5};
//bool logYScale=true;
}
if(obs == "met"){
md.dp.setObservables("MET");
int binning=50;
double rangeX[2]={0,500};
//bool logYScale=true;
}
if(obs == "ht"){
md.dp.setObservables("HT");
int binning=60;
double rangeX[2]={0,1000};
//bool logYScale=true;
}
if(obs == "njets_wzcr"){
md.dp.setObservables("NJetsWZCR");
int binning=1;
double rangeX[2]={0,7};
//bool logYScale=true;
}
if(obs == "nbjets_wzcr"){
md.dp.setObservables("NBJetsWZCR");
int binning=1;
double rangeX[2]={0,5};
//bool logYScale=true;
}
if(obs == "met_wzcr"){
md.dp.setObservables("METWZCR");
int binning=50;
double rangeX[2]={0,500};
//bool logYScale=true;
}
if(obs == "wzcr_ht"){
md.dp.setObservables("HTWZCR");
int binning=0;
double rangeX[2]={0,1000};
//bool logYScale=true;
}
if(obs == "lep"){
//md.dp.setObservables("mu_multiplicity");
//md.dp.setObservables("el_multiplicity");
//md.dp.setObservables("tau_multiplicity");
md.dp.setObservables("lep_multiplicity");
int binning=1;
double rangeX[2]={0,6};
//bool logYScale=true;
}
if(obs == "zpeak"){
md.dp.setObservables("Zmass");
int binning=2;
double rangeX[2]={60,120};
bool logYScale=false;
}
if(obs == "zpt"){
md.dp.setObservables("Zpt");
int binning=10;
double rangeX[2]={0,200};
}
if(obs == "mt2"){
md.dp.setObservables("MT2");
int binning=25;
double rangeX[2]={0,200};
//bool logYScale=true;
}
if(obs == "mt"){
md.dp.setObservables("MT");
int binning=25;
double rangeX[2]={0,200};
//bool logYScale=true;
}
if(obs == "3rdlepflavor"){
md.dp.setObservables("3rd_lepton_flavor");
int binning=1;
double rangeX[2]={-20,20};
//bool logYScale=true;
}
if(obs == "pt1"){
md.dp.setObservables("pt_1st_lepton");
int binning=10;
double rangeX[2]={0,200};
//bool logYScale=true;
}
if(obs == "pt2"){
md.dp.setObservables("pt_2nd_lepton");
int binning=10;
double rangeX[2]={0,150};
//bool logYScale=true;
}
if(obs == "pt3"){
md.dp.setObservables("pt_3rd_lepton");
int binning=10;
double rangeX[2]={0,100};
//bool logYScale=true;
}
if(obs == "mll"){
md.dp.setObservables("lowMll");
int binning=10;
double rangeX[2]={0,400};
//bool logYScale=true;
}
if(obs == "muonsip"){
md.dp.setObservables("muon_SIP3d");
int binning=0;
double rangeX[2]={0,5};
//bool logYScale=true;
}
if(obs == "muoniso"){
md.dp.setObservables("muon_miniRelIso");
int binning=0;
double rangeX[2]={0,0.4};
//bool logYScale=true;
}
if(obs == "muondz"){
md.dp.setObservables("muon_dz");
int binning=0;
double rangeX[2]={0,600};
//bool logYScale=true;
}
if(obs == "muondxy"){
md.dp.setObservables("muon_dxy");
int binning=0;
double rangeX[2]={0,100};
//bool logYScale=true;
}
if(obs == "muonptrel"){
md.dp.setObservables("muon_JetPtRel");
int binning=0;
double rangeX[2]={0,100};
//bool logYScale=true;
}
if(obs == "muonptratio"){
md.dp.setObservables("muon_JetPtRatio");
int binning=0;
double rangeX[2]={0,1.3};
//bool logYScale=true;
}
if(obs == "elsip"){
md.dp.setObservables("el_SIP3d");
int binning=0;
double rangeX[2]={0,5};
//bool logYScale=true;
}
if(obs == "eliso"){
md.dp.setObservables("el_miniRelIso");
int binning=0;
double rangeX[2]={0,0.4};
//bool logYScale=true;
}
if(obs == "eldz"){
md.dp.setObservables("el_dz");
int binning=0;
double rangeX[2]={0,600};
//bool logYScale=true;
}
if(obs == "eldxy"){
md.dp.setObservables("el_dxy");
int binning=0;
double rangeX[2]={0,100};
//bool logYScale=true;
}
if(obs == "elptrel"){
md.dp.setObservables("el_JetPtRel");
int binning=0;
double rangeX[2]={0,40};
//bool logYScale=true;
}
if(obs == "elptratio"){
md.dp.setObservables("el_JetPtRatio");
int binning=0;
double rangeX[2]={0,1.3};
//bool logYScale=true;
}
//string autoBinFile="susybinninghigh";
//md.dp.loadAutoBinning(autoBinFile);
//Systematic uncertainties ********************************
bool addSystematics=true;
bool mcStatSyst=true;
string systSources="";
bool uncDet=false;
string Norm="";
//Lumis( or XSections ) pb-1 & KFactors ************************************
float lumi=133.14; //pb-1 19470
float energy=13; //TeV
bool useXS=false;
md.anConf.loadXSDB("XSectionsSpring15.db");
map<string,float> LumisXS;
md.anConf.loadKFDB("kFactorsSpring15.db");
//via XSect
map<string,float> KFactors;
// if( md.isInitStatus() )
md.anConf.configureLumi( LumisXS, KFactors, lumi, useXS );
//===============================================================
// SDYJetsM50_HT600toInf_PU_S14_POSTLS170_skimamples ************************** samples
//if( md.isInitStatus() ) {
md.anConf.addSample( "TTWToLNu" , "t#bar{t}W" , kYellow );
md.anConf.addSample( "TTZToLLNuNu" , "t#bar{t}Z" , kBlue );
md.anConf.addSample( "WZTo3LNu" , "WZ" , kGreen );
md.anConf.addSample( "ZZTo4L" , "ZZ" , kGreen+3 );
md.anConf.addSample( "GGHZZ4L" , "rare SM" , kCyan );
md.anConf.addSample( "TTHnobb" , "rare SM" , kCyan );
//t production
//md.anConf.addSample( "TBarToLeptons_sch" , "non-prompt e/#mu" , kRed );
md.anConf.addSample( "TbarToLeptons_tch" , "single t" , kRed+3 );
md.anConf.addSample( "TBar_tWch" , "single t" , kRed+3 );
md.anConf.addSample( "T_tWch" , "single t" , kRed+3 );
md.anConf.addSample( "TTJets" , "TT" , kRed+2 );
md.anConf.addSample( "TToLeptons_sch_amcatnlo" , "TT" , kRed+2 );
md.anConf.addSample( "TToLeptons_tch" , "TT" , kRed+2 );
md.anConf.addSample( "TTGJets" , "TT" , kRed+2 );
//W+Jets
md.anConf.addSample( "WJetsToLNu" , "WJets" , kRed-6 );
//md.anConf.addSample( "WJetsToLNu_HT200to400" , "non-prompt e/#mu" , kRed );
//md.anConf.addSample( "WJetsToLNu_HT400to600" , "non-prompt e/#mu" , kRed );
//md.anConf.addSample( "WJetsToLNu_HT600toInf" , "non-prompt e/#mu" , kRed );
//Drell-Yan
//md.anConf.addSample( "DYJetsToLL_LO_M50_50ns" , "non-prompt e/#mu" , kRed );
md.anConf.addSample( "DYJetsToLL_M10to50" , "DY" , kRed );
md.anConf.addSample( "DYJetsToLL_M50" , "DY" , kRed );
//md.anConf.addSample( "DYJetsToLL_M50_HT200to400" , "non-prompt e/#mu" , kRed );
//md.anConf.addSample( "DYJetsToLL_M50_HT400to600" , "non-prompt e/#mu" , kRed );
//md.anConf.addSample( "DYJetsToLL_M50_HT600toInf" , "non-prompt e/#mu" , kRed );
//signal
if(sigs=="t"){
md.anConf.addSample( "T1tttt_mGo1200_mChi800" , "T1t412 sig" , kBlue-3 );
md.anConf.addSample( "T1tttt_mGo1500_mChi100" , "T1t415 sig" , kBlue-7 );
md.anConf.addSample( "T5ttttDeg_mGo1000_mStop300_mCh285_mChi280" , "T5t410 sig" , kOrange+10 );
}
if(sigs=="q"){
md.anConf.addSample( "T5qqqqWZDeg_mGo1000_mCh315_mChi300_dilep" , "T5q4WZ315 sig" , kGreen+2 );
md.anConf.addSample( "T5qqqqWZDeg_mGo1000_mCh325_mChi300_dilep" , "T5q4WZ325 sig" , kMagenta );
md.anConf.addSample( "T5qqqqWZ_mGo1200_mCh1000_mChi800_dilep" , "T5q4WZ12 sig" , kRed-6 );
md.anConf.addSample( "T5qqqqWZ_mGo1500_mCh800_mChi100_dilep" , "T5q4WZ15 sig" , kRed+3 );
md.anConf.addSample( "T5qqqqZZDeg_mGo1000_mCh315_mChi300_dilep" , "T5q4ZZ315 sig" , kGreen+3 );
md.anConf.addSample( "T5qqqqZZDeg_mGo1000_mCh325_mChi300_dilep" , "T5q4ZZ325 sig" , kMagenta+2 );
md.anConf.addSample( "T5qqqqZZ_mGo1200_mCh1000_mChi800_dilep" , "T5q4ZZ12 sig" , kRed-9 );
md.anConf.addSample( "T5qqqqZZ_mGo1500_mCh800_mChi100_dilep" , "T5q4ZZ15 sig" , kRed+1 );
}
//data
if(data){
md.anConf.addSample( "DoubleEG_Run2015D_v3_runs_256630_257599" , "data" , kBlack );
md.anConf.addSample( "DoubleMuon_Run2015D_v3_runs_256630_257599" , "data" , kBlack );
md.anConf.addSample( "MuonEG_Run2015D_v3_runs_256630_257599" , "data" , kBlack );
md.anConf.addSample( "SingleElectron_Run2015D_v3_runs_256630_257599" , "data" , kBlack );
md.anConf.addSample( "SingleMuon_Run2015D_v3_runs_256630_257599" , "data" , kBlack );
//md.anConf.addSample( "DoubleEG_Run2015D_v3_run_256926" , "data" , kBlack );
//md.anConf.addSample( "DoubleMuon_Run2015D_v3_run_256926" , "data" , kBlack );
//md.anConf.addSample( "MuonEG_Run2015D_v3_run_256926" , "data" , kBlack );
//md.anConf.addSample( "SingleElectron_Run2015D_v3_run_256926" , "data" , kBlack );
//md.anConf.addSample( "SingleMuon_Run2015D_v3_run_256926" , "data" , kBlack );
}
// md.anConf.addSample( "T5ttttDeg_mGo1000_mStop300_mCh285_mChi280_skim" , "T5tttt (1000) * 20 sig" , kOrange-3 );
//md.anConf.addSample( "T5ttttDeg_mGo1300_mStop300_mCh285_mChi280_skim" , "T5tttt (1300) #cdot 20 sig" , kOrange+6 );
// }
//===============================================================
//*********************************************************************²
//Execution macro ******************************************************
//Configuration ================
//if( md.isInitStatus() ) {
//md.anConf.configureLumi( LumisXS, KFactors, lumi, useXS );
// }
//plotting ================
md.dp.setLumiAndEnergy( lumi, energy );
md.dp.setNormalization( Norm );
md.dp.configureDisplay(yTitle, rangeY, rangeX, logYScale, xDiv,
yDiv, binning, addBinBkg, overFlowBin,
underFlowBin, showDMCRatio, showGrid,
stacking, addSystematics, mcStatSyst,
markerSize, lineWidth,summedSignal,
mcOnly,cmsPrel, uncDet);
md.prepareDisplay();
md.doPlot();
//md.doStatisticsPlot();
md.savePlot("SUSY3L");
// md.dp.addText(xt,yt,st,addText);
}
void susy3l_manual() {
md.refresh();
//general parameters ********************* general parameters
string dir="SUSY3L";
string fileName="template3L_skimmed"; //was treeName in LUNE susy_cut_lowpt
string fileList="template3L_skimmed"; //CH: since AnaConfig needs a fileName to open, we need to put the data files into a different variable
string hName="";
bool mcOnly = false;
//if(md.isInitStatus()) {
md.anConf.configureNames( dir, fileName, fileList );//, hName );
md.anConf.configureData(false, 0, mcOnly);
//}
string obs ="zpeak"; //njets, nbjets, met, ht, lep, zpeak, mt2, pt, mll
string sigs = "none";
//observables **********************
//string obs[6]={"","","","","",""};
//md.dp.setObservables("Zmass");
//md.dp.setObservables("deltaR_elmu");
//md.dp.setObservables("BR_NJets");
//md.dp.setObservables("BR_NBJets");
//md.dp.setObservables("BR_HT");
//md.dp.setObservables("BR_MET");
//md.dp.setObservables("SR_NJets");
//md.dp.setObservables("SR_NBJets");
//md.dp.setObservables("SR_HT");
//md.dp.setObservables("SR_MET");
//Binning & title ************************* Binning & titre
string yTitle="number of events";
//int binning=1;
int addBinBkg=1; //BinB = binning*AddBin
double rangeY[2]={0,0};
//double rangeX[2]={0,7};
int xDiv[3]={8,6,0};
int yDiv[3]={6,6,0}; //Nlabel / sous-Div /ssdiv
bool logYScale=false;
bool overFlowBin=true;
bool underFlowBin=false;
bool showDMCRatio=true;
bool showGrid=false;
float markerSize=0.8;
float lineWidth=2;
bool summedSignal=false;
bool stacking=true;
bool cmsPrel=true;
float xt=0.68;
float yt=0.48;
float st=0.039;
string addText="";
if(obs == "njets"){
md.dp.setObservables("BR_NJets");
int binning=1;
double rangeX[2]={0,7};
}
if(obs == "nbjets"){
md.dp.setObservables("BR_NBJets");
int binning=1;
double rangeX[2]={0,5};
}
if(obs == "met"){
md.dp.setObservables("BR_MET");
int binning=50;
double rangeX[2]={0,500};
}
if(obs == "ht"){
md.dp.setObservables("BR_HT");
int binning=50;
double rangeX[2]={0,800};
}
if(obs == "lep"){
md.dp.setObservables("mu_multiplicity");
md.dp.setObservables("el_multiplicity");
md.dp.setObservables("tau_multiplicity");
md.dp.setObservables("lep_multiplicity");
int binning=1;
double rangeX[2]={0,7};
//bool logYScale=true;
}
if(obs == "zpeak"){
md.dp.setObservables("Zmass");
int binning=3;
double rangeX[2]={0,200};
}
if(obs == "mt2"){
md.dp.setObservables("MT2");
int binning=10;
double rangeX[2]={0,400};
bool logYScale=true;
}
if(obs == "pt"){
md.dp.setObservables("pt_1st_lepton");
md.dp.setObservables("pt_2nd_lepton");
md.dp.setObservables("pt_3rd_lepton");
int binning=4;
double rangeX[2]={0,200};
bool logYScale=false;
}
if(obs == "mll"){
md.dp.setObservables("lowMll");
int binning=2;
double rangeX[2]={0,400};
bool logYScale=true;
}
//string autoBinFile="susybinninghigh";
//md.dp.loadAutoBinning(autoBinFile);
//Systematic uncertainties ********************************
bool addSystematics=true;
bool mcStatSyst=true;
string systSources="";
bool uncDet=false;
string Norm="";
//Lumis( or XSections ) pb-1 & KFactors ************************************
float lumi=42; //pb-1 19470
float energy=13; //TeV
bool useXS=false;
map<string,float> LumisXS;
//cross sections
//Drell-Yan
//LumisXS[ "DYJetsToLL_M-50_13TeV-madgraph-pythia8" ] = 2829164 / (6024 );
LumisXS[ "DYJetsToLL_M50_HT100to200" ] = 4054159 / ( 194.3 * 1.27 );
LumisXS[ "DYJetsToLL_M50_HT200to400" ] = 4666496 / ( 52.24 * 1.27 );
LumisXS[ "DYJetsToLL_M50_HT400to600" ] = 4931372 / ( 6.546 * 1.27 );
LumisXS[ "DYJetsToLL_M50_HT600toInf" ] = 4493574 / ( 2.179 * 1.27 );
//Higgs->ZZ
LumisXS[ "GGHZZ4L" ] = 204684 / (0.01212192 ); // cross-section: 43.92*2.76E-04
LumisXS[ "TTH" ] = 199700 / (0.5085 );
//signal
LumisXS[ "SMS_T1tttt_2J_mGl1200_mLSP800" ] = 100322 / (0.0856418 * 20 );
LumisXS[ "SMS_T1tttt_2J_mGl1500_mLSP100" ] = 105679 / (0.0141903 * 20 );
LumisXS[ "T5ttttDeg_mGo1000_mStop300_mCh285_mChi280"] = 52499 / (0.3254 * 20 );
LumisXS[ "T5qqqqWZDeg_mGo1000_mCh315_mChi300_dilep" ] = 19688 / (0.012135670848 * 20 );
LumisXS[ "T5qqqqWZDeg_mGo1000_mCh325_mChi300_dilep" ] = 19228 / (0.011385976896 * 20 );
LumisXS[ "T5qqqqWZ_mGo1200_mCh1000_mChi800_dilep" ] = 24510 / (0.002830290206 * 20 );
LumisXS[ "T5qqqqWZ_mGo1500_mCh800_mChi100_dilep" ] = 23300 / (0.000468961034 * 20 );
LumisXS[ "T5qqqqZZDeg_mGo1000_mCh315_mChi300_dilep" ] = 40268 / (0.004081667072 * 20 );
LumisXS[ "T5qqqqZZDeg_mGo1000_mCh325_mChi300_dilep" ] = 39202 / (0.003795325632 * 20 );
LumisXS[ "T5qqqqZZ_mGo1200_mCh1000_mChi800_dilep" ] = 47130 / (0.000891017287 * 20 );
LumisXS[ "T5qqqqZZ_mGo1500_mCh800_mChi100_dilep" ] = 45307 / (0.000147635881 * 20 );
//top
LumisXS[ "TBarToLeptons_sch" ] = 250000 / (1.34784 ); // 4.16*0.108*3
LumisXS[ "TBarToLeptons_tch" ] = 1999800 / (26.23428 ); // 80.97*0.108*3
LumisXS[ "TBar_tWch" ] = 971800 / (35.6 );
LumisXS[ "TTJets" ] =25446993 / (809.1 );
LumisXS[ "TToLeptons_sch" ] = 500000 / (2.3328 ); // 7.20*0.108*3
LumisXS[ "TToLeptons_tch" ] = 3991000 / (44.0802 ); // 136.05*0.108*3
LumisXS[ "T_tWch" ] = 986100 / (35.6 ); // 35.6
//TTV
LumisXS[ "TTWJets" ] = 246521 / (0.6647 );
LumisXS[ "TTZJets" ] = 249275 / (0.8565 );
//LumisXS[ "WJetsToLNu_13TeV-madgraph-pythia8-tauola" ] = 10017462 / (20508.9 );
LumisXS[ "WJetsToLNu_HT100to200" ] = 5262265 / (1817.0 * 1.23 );
LumisXS[ "WJetsToLNu_HT200to400" ] = 4936077 / ( 471.6 * 1.23 );
LumisXS[ "WJetsToLNu_HT400to600" ] = 4640594 / ( 55.61 * 1.23 );
LumisXS[ "WJetsToLNu_HT600toInf" ] = 237484 / ( 18.81 * 1.23 );
//Diboson
LumisXS[ "WZJetsTo3LNu" ] = 237484 / (2.29 );
LumisXS[ "ZZTo4L" ] = 1958600 / (0.3231 ); // cross-section 31.8*(3*0.0336)*(3*0.0336)
//via XSect
map<string,float> KFactors;
// if( md.isInitStatus() )
md.anConf.configureLumi( LumisXS, KFactors, lumi, useXS );
//===============================================================
// SDYJetsM50_HT600toInf_PU_S14_POSTLS170_skimamples ************************** samples
//if( md.isInitStatus() ) {
md.anConf.addSample( "WZJetsTo3LNu" , "WZ+ZZ" , kGreen );
md.anConf.addSample( "ZZTo4L" , "WZ+ZZ" , kGreen );
md.anConf.addSample( "TTZJets" , "t#bar{t}Z" , kBlue );
md.anConf.addSample( "TTWJets" , "t#bar{t}W" , kYellow );
md.anConf.addSample( "GGHZZ4L" , "rare SM" , kCyan );
md.anConf.addSample( "TTH" , "rare SM" , kCyan );
//Drell-Yan
md.anConf.addSample( "DYJetsToLL_M50_HT100to200" , "non-prompt e/#mu" , kRed );
md.anConf.addSample( "DYJetsToLL_M50_HT200to400" , "non-prompt e/#mu" , kRed );
md.anConf.addSample( "DYJetsToLL_M50_HT400to600" , "non-prompt e/#mu" , kRed );
md.anConf.addSample( "DYJetsToLL_M50_HT600toInf" , "non-prompt e/#mu" , kRed );
//t production
md.anConf.addSample( "TBarToLeptons_sch" , "non-prompt e/#mu" , kRed );
md.anConf.addSample( "TBarToLeptons_tch" , "non-prompt e/#mu" , kRed );
md.anConf.addSample( "TBar_tWch" , "non-prompt e/#mu" , kRed );
md.anConf.addSample( "TTJets" , "non-prompt e/#mu" , kRed );
md.anConf.addSample( "TToLeptons_sch" , "non-prompt e/#mu" , kRed );
md.anConf.addSample( "TToLeptons_tch" , "non-prompt e/#mu" , kRed );
md.anConf.addSample( "T_tWch" , "non-prompt e/#mu" , kRed );
//W+Jets
md.anConf.addSample( "WJetsToLNu_HT100to200" , "non-prompt e/#mu" , kRed );
md.anConf.addSample( "WJetsToLNu_HT200to400" , "non-prompt e/#mu" , kRed );
md.anConf.addSample( "WJetsToLNu_HT400to600" , "non-prompt e/#mu" , kRed );
md.anConf.addSample( "WJetsToLNu_HT600toInf" , "non-prompt e/#mu" , kRed );
//signal
if(sigs=="t"){
md.anConf.addSample( "SMS_T1tttt_2J_mGl1200_mLSP800" , "T1t412 sig" , kBlue-3 );
md.anConf.addSample( "SMS_T1tttt_2J_mGl1500_mLSP100" , "T1t415 sig" , kBlue-7 );
md.anConf.addSample( "T5ttttDeg_mGo1000_mStop300_mCh285_mChi280" , "T5t410 sig" , kOrange+10 );
}
if(sigs=="q"){
md.anConf.addSample( "T5qqqqWZDeg_mGo1000_mCh315_mChi300_dilep" , "T5q4WZ315 sig" , kGreen+2 );
md.anConf.addSample( "T5qqqqWZDeg_mGo1000_mCh325_mChi300_dilep" , "T5q4WZ325 sig" , kMagenta );
md.anConf.addSample( "T5qqqqWZ_mGo1200_mCh1000_mChi800_dilep" , "T5q4WZ12 sig" , kRed-6 );
md.anConf.addSample( "T5qqqqWZ_mGo1500_mCh800_mChi100_dilep" , "T5q4WZ15 sig" , kRed+3 );
md.anConf.addSample( "T5qqqqZZDeg_mGo1000_mCh315_mChi300_dilep" , "T5q4ZZ315 sig" , kGreen+3 );
md.anConf.addSample( "T5qqqqZZDeg_mGo1000_mCh325_mChi300_dilep" , "T5q4ZZ325 sig" , kMagenta+2 );
md.anConf.addSample( "T5qqqqZZ_mGo1200_mCh1000_mChi800_dilep" , "T5q4ZZ12 sig" , kRed-9 );
md.anConf.addSample( "T5qqqqZZ_mGo1500_mCh800_mChi100_dilep" , "T5q4ZZ15 sig" , kRed+1 );
}
// md.anConf.addSample( "T5ttttDeg_mGo1000_mStop300_mCh285_mChi280_skim" , "T5tttt (1000) * 20 sig" , kOrange-3 );
//md.anConf.addSample( "T5ttttDeg_mGo1300_mStop300_mCh285_mChi280_skim" , "T5tttt (1300) #cdot 20 sig" , kOrange+6 );
// }
//===============================================================
//*********************************************************************²
//Execution macro ******************************************************
//Configuration ================
//if( md.isInitStatus() ) {
//md.anConf.configureLumi( LumisXS, KFactors, lumi, useXS );
// }
//plotting ================
md.dp.setLumiAndEnergy( lumi, energy );
md.dp.setNormalization( Norm );
md.dp.configureDisplay(yTitle, rangeY, rangeX, logYScale, xDiv,
yDiv, binning, addBinBkg, overFlowBin,
underFlowBin, showDMCRatio, showGrid,
stacking, addSystematics, mcStatSyst,
markerSize, lineWidth,summedSignal,
mcOnly,cmsPrel, uncDet);
md.prepareDisplay();
md.doPlot();
//md.doStatisticsPlot();
md.savePlot("SUSY3L");
// md.dp.addText(xt,yt,st,addText);
}
void template_usingDB() {
gStyle->SetOptStat(0);
//general parameters ********************* general parameters
string dir="WZsynchro";
//string fileName="testAll_BR0"; // not needed for statistics
//string fileList="testAll_BR0"; // put command line that gives all files as in a "ls" command
//string fileName="fakeEstim_test"; // not needed for statistics
//string fileList="fakeEstim_test"; // put command line that gives all files as in a "ls" command
//string fileName="q"; // not needed for statistics
//string fileList="q"; // put command line that gives all files as in a "ls" command
//string fileName="testWZandTT_JonSel"; // not needed for statistics
//string fileList="testWZandTT_JonSel"; // put command line that gives all files as in a "ls" command
//string fileName="testWZandTT_3lWZ"; // not needed for statistics
//string fileList="testWZandTT_3lWZ"; // put command line that gives all files as in a "ls" command
//string fileName="testWZandTT"; // not needed for statistics
//string fileList="testWZandTT"; // put command line that gives all files as in a "ls" command
//string fileName="FE_LEPPTall_LEPFLAVall_LHE1001"; // not needed for statistics
//string fileList="FE_LEPPTall_LEPFLAVall_LHE1001"; // put command line that gives all files as in a "ls" command
//string fileName="FE_LEPPTall_LEPFLAVall_LHE1001_WZstep0"; // not needed for statistics
//string fileList="FE_LEPPTall_LEPFLAVall_LHE1001_WZstep0"; // put command line that gives all files as in a "ls" command
//string fileName="WZ3L_WZSTEP3_LEPFLAVall_LHE1001"; // not needed for statistics
//string fileList="WZ3L_WZSTEP3_LEPFLAVall_LHE1001"; // put command line that gives all files as in a "ls" command
string fileName="WZ3L_WZSTEP5_LEPFLAVall_LHE1001"; // not needed for statistics
string fileList="WZ3L_WZSTEP5_LEPFLAVall_LHE1001"; // put command line that gives all files as in a "ls" command
bool mcOnly = false;
//if(md.isInitStatus()) {
md.anConf.configureNames( dir, fileName, fileList);
md.anConf.configureData(false, 0, mcOnly);
//}
//observables **********************
//string obs[6]={"","","","","",""};
md.dp.setObservables("METWZCR");
//md.dp.setObservables("MTminBR0H");
md.dp.setObservables("HTWZCR");
md.dp.setObservables("NBJetsWZCR");
md.dp.setObservables("NJetsWZCR");
//Binning & title ************************* Binning & titre
string yTitle="number of events";
int binning=40;
int addBinBkg=1; //BinB = binning*AddBin
double rangeY[2]={0,0};
double rangeX[2]={0.,500.};
int xDiv[3]={8,6,0};
int yDiv[3]={6,6,0}; //Nlabel / sous-Div /ssdiv
bool logYScale=false;
bool overFlowBin=true;
bool underFlowBin=false;
bool showDMCRatio=true;
bool showGrid=false;
float markerSize=0.8;
float lineWidth=2;
bool summedSignal=false;
bool stacking=true;
bool cmsPrel=true;
float xt=0.68;
float yt=0.48;
float st=0.039;
string addText="";
string autoBinFile="susybinning";
md.dp.loadAutoBinning(autoBinFile);
//Systematic uncertainties ********************************
bool addSystematics=true;
bool mcStatSyst=true;
string systSources="";
bool uncDet=false;
string Norm="";
//Lumis( or XSections ) pb-1 & KFactors ************************************
float lumi=10000; //pb-1 19470
float energy=13; //TeV
bool useXS=false;
md.anConf.loadXSDB("XSectionsSpring15.db");
map<string,float> LumisXS;
map<string,float> KFactors;
md.anConf.configureLumi( LumisXS, KFactors, lumi, useXS );
// SDYJetsM50_HT600toInf_PU_S14_POSTLS170_skimamples ************************** samples
//if( md.isInitStatus() ) {
// md.anConf.addSample( "WZJetsTo3LNu" , "WZ", kOrange-4);
// //md.anConf.addSample( "TTJets" , "t#bar{t}", kBlue+1);
// md.anConf.addSample( "SMS_T1tttt_2J_mGl1200_mLSP800", "T1tttt (1.2/0.8) sig * 20", kViolet-3);
//
// md.anConf.addSample( "WJetsToLNu_HT100to200" , "W+Jets", kAzure-2);
// md.anConf.addSample( "WJetsToLNu_HT200to400" , "W+Jets", kAzure-2);
// md.anConf.addSample( "WJetsToLNu_HT400to600" , "W+Jets", kAzure-2);
// md.anConf.addSample( "WJetsToLNu_HT600toInf" , "W+Jets", kAzure-2);
//
// //md.anConf.addSample( "DYJetsToLL_M50" , "Z+Jets", kAzure+6);
// md.anConf.addSample( "DYJetsToLL_M50_HT100to200" , "Z+Jets", kAzure+6);
// md.anConf.addSample( "DYJetsToLL_M50_HT200to400" , "Z+Jets", kAzure+6);
// md.anConf.addSample( "DYJetsToLL_M50_HT400to600" , "Z+Jets", kAzure+6);
// md.anConf.addSample( "DYJetsToLL_M50_HT600toInf" , "Z+Jets", kAzure+6);
//
// md.anConf.addSample( "TTJets" , "t#bar{t}", kBlue+1);
//
// md.anConf.addSample("TToLeptons_sch" , "Single top", kBlue+3);
// md.anConf.addSample("TToLeptons_tch" , "Single top", kBlue+3);
// md.anConf.addSample("T_tWch" , "Single top", kBlue+3);
// md.anConf.addSample("TBarToLeptons_sch" , "Single top", kBlue+3);
// md.anConf.addSample("TBarToLeptons_tch" , "Single top", kBlue+3);
// md.anConf.addSample("TBar_tWch" , "Single top", kBlue+3);
//
// md.anConf.addSample( "TTWJets" , "rare", kOrange-2);
// md.anConf.addSample( "TTZJets" , "rare", kOrange-2);
// //md.anConf.addSample( "WZJetsTo3LNu" , "rare", kOrange-2);
// md.anConf.addSample( "ZZTo4L" , "rare", kOrange-2);
// md.anConf.addSample( "TTH" , "rare", kOrange-2);
// /*
// md.anConf.addSample( "SMS_T1tttt_2J_mGl1200_mLSP800", "T1tttt (1.2/0.8) sig * 20", kViolet-3);
// //md.anConf.addSample( "SMS_T1tttt_2J_mGl1500_mLSP100", "T1tttt (1.5/0.1) sig * 20", kViolet-3);
// //md.anConf.addSample( "T1ttbbWW_mGo1300_mCh300_mChi290" , "T1ttbbWW (1.3/0.3) sig * 20", kBlue);
// md.anConf.addSample( "T1ttbbWW_mGo1000_mCh725_mChi720" , "T1ttbbWW (1.0/0.7) sig * 20", kBlue);
// md.anConf.addSample( "T5ttttDeg_mGo1000_mStop300_mChi280" , "T5tttt deg. (1.0/0.3, 4bd) sig * 20", kGreen+2);
// //md.anConf.addSample( "T5ttttDeg_mGo1000_mStop300_mCh285_mChi280" , "T5tttt deg. (1.0/0.3, Chi) sig * 20", kGreen+2);
// //md.anConf.addSample( "T6ttWW_mSbot650_mCh150_mChi50" , "T6ttWW (650/150/50) sig * 20", kRed+1);
// md.anConf.addSample( "T6ttWW_mSbot600_mCh425_mChi50" , "T6ttWW (600/425/50) sig * 20", kRed+1);
// md.anConf.addSample( "T5qqqqWW_mGo1200_mCh1000_mChi800_dilep" , "T5qqqqWW (1.2/0.8) sig * 20", kOrange+6);
// */
//
//
// md.anConf.addSample( "TTWJets_aMCatNLO" , "TTWaMCatNLO", kBlue+3);
// md.anConf.addSample( "TTZJets_aMCatNLO" , "TTZaMCatNLO", kBlue+3);
//
// md.anConf.addSample( "TTWJets" , "TTWmadgraph", kGreen-2);
// md.anConf.addSample( "TTZJets" , "TTZmadgraph", kGreen-2);
//
//Santis version for WZ
/*
md.anConf.addSample( "DYJetsToLL_M50_HT100to200" , "fakes", kAzure+6);
md.anConf.addSample( "DYJetsToLL_M50_HT200to400" , "fakes", kAzure+6);
md.anConf.addSample( "DYJetsToLL_M50_HT400to600" , "fakes", kAzure+6);
md.anConf.addSample( "DYJetsToLL_M50_HT600toInf" , "fakes", kAzure+6);
md.anConf.addSample( "TTJets" , "fakes", kBlue+1);
//md.anConf.addSample( "TToLeptons_sch" , "fakes", kBlue+1);
//md.anConf.addSample( "TToLeptons_tch" , "fakes", kBlue+1);
//md.anConf.addSample( "T_tWch" , "fakes", kBlue+1);
//md.anConf.addSample( "TBarToLeptons_sch" , "fakes", kBlue+1);
//md.anConf.addSample( "TBarToLeptons_tch" , "fakes", kBlue+1);
//md.anConf.addSample( "TBar_tWch" , "fakes", kBlue+1);
md.anConf.addSample( "TTWJets" , "t#bar{t}V", kBlue+3 );
md.anConf.addSample( "TTZJets" , "t#bar{t}V", kBlue+3 );
md.anConf.addSample( "TTH" , "t#bar{t}V", kBlue+3 );
// md.anConf.addSample( "ZZTo4L" , "ZZ" , kRed+2 );
md.anConf.addSample( "WZJetsTo3LNu" , "WZ" , kOrange-2);
*/
//md.anConf.addSample( "TTJets" , "TTJets", kRed+2);
//my 'a la Santi' processes for WZ study using available Spring 15 samples
//md.anConf.addSample( "DYJetsToLL_M10to50" , "fakes", kAzure+6);
// md.anConf.addSample( "DYJetsToLL_M50" , "fakes", kAzure+6);
// md.anConf.addSample( "TTJets" , "fakes", kBlue+1);
// //md.anConf.addSample( "TToLeptons_sch" , "fakes", kBlue+1);
// //md.anConf.addSample( "TToLeptons_tch" , "fakes", kBlue+1);
// //md.anConf.addSample( "T_tWch" , "fakes", kBlue+1);
// //md.anConf.addSample( "TBar_tWch" , "fakes", kBlue+1);
//
//md.anConf.addSample( "WJetsToLNu_HT100to200" , "W+Jets", kAzure-2);
//md.anConf.addSample( "WJetsToLNu_HT200to400" , "W+Jets", kAzure-2);
//md.anConf.addSample( "WJetsToLNu_HT400to600" , "W+Jets", kAzure-2);
//md.anConf.addSample( "WJetsToLNu_HT600toInf" , "W+Jets", kAzure-2);
/*
md.anConf.addSample( "WJetsToLNu" , "W+Jets", kAzure-2);
md.anConf.addSample( "DYJetsToLL_M50" , "Z+Jets", kAzure+6);
md.anConf.addSample( "TTJets" , "TTJets", kRed+2);
*/
md.anConf.addSample( "WZp8" , "WZ" , kOrange-2);
//
// md.anConf.addSample( "TTJets" , "TTJets", kRed+2);
// }
//===============================================================
//*********************************************************************²
//Execution macro ******************************************************
//Configuration ================
//if( md.isInitStatus() ) {
//md.anConf.configureLumi( LumisXS, KFactors, lumi, useXS );
// }
//plotting ================
md.dp.setLumiAndEnergy( lumi, energy );
md.dp.setNormalization( Norm );
md.dp.configureDisplay(yTitle, rangeY, rangeX, logYScale, xDiv,
yDiv, binning, addBinBkg, overFlowBin,
underFlowBin, showDMCRatio, showGrid,
stacking, addSystematics, mcStatSyst,
markerSize, lineWidth,summedSignal,
mcOnly,cmsPrel, uncDet);
md.prepareDisplay();
md.doPlot();
//md.makeDataCard(fileList, "global", "SR b-jet multiplicity");
//md.getStatistics("global");
//md.getStatistics("global_WZCR");
//md.getStatistics("global_BR00H");
md.getStatistics("global_WZCR");
md.savePlot("phys14exerc");
// md.dp.addText(xt,yt,st,addText);
//gROOT->ProcessLine(".q");
}
// template plot producer for WZ validation plots, called by Sub_SynchroPlots850_WZ25.sh
//string today = "150910";
void template_plotsWZv2_25ns(std::string var,std::string fileName){
gStyle->SetOptStat(0);
md.refresh();
//general parameters ********************* general parameters
string dir="WZsynchro";
//string fileName="template_WZ25";
//string fileList="template_WZ25";
string fileList=fileName;
bool mcOnly = false;
//observables **********************
md.dp.setObservables(var);
md.anConf.configureNames( dir, fileName, fileList );
md.anConf.configureData(false, 0, mcOnly);
//Binning & title ************************* Binning & title
string yTitle="number of events";
int binning=40;
int addBinBkg=1; //BinB = binning*AddBin
double rangeY[2]={0 , 0};
double rangeX[2]={0., 500.};
int xDiv[3]={8,6,0};
int yDiv[3]={6,6,0}; //Nlabel / sous-Div /ssdiv
bool logYScale=false;
if (var.find("miniRelIso") != std::string::npos &&
(var.find("ttbar") != std::string::npos ||
var.find("ZMuMu") != std::string::npos ||
var.find("ZEE") != std::string::npos)
) {
logYScale = true;
}
/*if (var.find("M3l") != std::string::npos){
logYScale = true;
rangeY[0]={0.1};
rangeY[1]={100000.};
}*/
bool overFlowBin=true;
bool underFlowBin=false;
bool showDMCRatio=false;
bool showGrid=false;
float markerSize=0.8;
float lineWidth=2;
bool summedSignal=false;
bool stacking=true;
bool cmsPrel=true;
float xt=0.68;
float yt=0.48;
float st=0.039;
string addText="";
string autoBinFile="WZ50binning";
md.dp.loadAutoBinning(autoBinFile);
//Systematic uncertainties ********************************
bool addSystematics=false;
bool mcStatSyst=false;
string systSources="";
bool uncDet=false;
//Lumis( or XSections ) pb-1 & KFactors ************************************
string Norm="";
float lumi=832.31; //pb-1 19470 // runs
float energy=13; //TeV
bool useXS=true;
map<string,float> LumisXS;
map<string,float> KFactors;
md.anConf.loadXSDB("XSectionsSpring15.db");
//md.anConf.loadKFDB("kFactorsSpring15.db");
md.anConf.configureLumi( LumisXS, KFactors, lumi, useXS );
//===============================================================
//md.anConf.addSample( "WZTo3LNu" , "WZp8" , kGreen+3);
/*
md.anConf.addSample( "WZTo3LNu" , "WZ" , kGreen+3);
md.anConf.addSample( "DYJetsToLL_M10to50" , "DY" , kCyan );
md.anConf.addSample( "DYJetsToLL_M50" , "DY" , kCyan );
md.anConf.addSample( "TBar_tWch" , "Single top" , kGray+2);
md.anConf.addSample( "T_tWch" , "Single top" , kGray+2);
md.anConf.addSample( "TToLeptons_tch" , "Single top" , kGray+2);
md.anConf.addSample( "TbarToLeptons_tch" , "Single top" , kGray+2);
md.anConf.addSample( "TToLeptons_sch_amcatnlo" , "Single top" , kGray+2);
md.anConf.addSample( "WJetsToLNu" , "W+jets" , kCyan+2);
md.anConf.addSample( "WWTo2L2Nu" , "WW" , kSpring+10);
md.anConf.addSample( "ZZTo4L" , "ZZ" , kViolet-5);
md.anConf.addSample( "GGHZZ4L" , "ZZ" , kViolet-5);
md.anConf.addSample( "TTJets" , "t#bar{t}" , kRed );
md.anConf.addSample( "TTLLJets_m1to10" , "t#bar{t}" , kRed );
md.anConf.addSample( "TTWToLNu" , "t#bar{t}W" , kMagenta-10);
md.anConf.addSample( "TTZToLLNuNu" , "t#bar{t}Z" , kBlue );
md.anConf.addSample( "TTHnobb" , "t#bar{t}H" , kOrange+3 );
md.anConf.addSample( "TTGJets" , "t#bar{t}#gamma" , kOrange-1 );
*/
md.anConf.addSample( "Tree_WZ_0" , "WZ" , kGreen+3);
md.anConf.addSample("Tree_DYJetsToLL_M10to50_0", "DY" , kCyan );
md.anConf.addSample( "Tree_DYJetsToLL_M50_0" , "DY" , kCyan );
md.anConf.addSample( "Tree_DYJetsToLL_M50_1" , "DY" , kCyan );
md.anConf.addSample( "Tree_DYJetsToLL_M50_2" , "DY" , kCyan );
md.anConf.addSample( "Tree_TbarW_0" , "Single top" , kGray+2);
md.anConf.addSample( "Tree_TW_0" , "Single top" , kGray+2);
md.anConf.addSample( "Tree_WJetsToLNu_0" , "W+jets" , kCyan+2);
//md.anConf.addSample( "Tree_WWTo2L2Nu_0" , "WW" , kSpring+10);
md.anConf.addSample( "Tree_WW_0" , "WW" , kSpring+10);
md.anConf.addSample( "Tree_ZZ_0" , "ZZ" , kViolet-5);
md.anConf.addSample( "Tree_TTJets_0" , "t#bar{t}" , kRed );
md.anConf.addSample( "Tree_TTJets_1" , "t#bar{t}" , kRed );
md.anConf.addSample( "Tree_TTJets_2" , "t#bar{t}" , kRed );
md.anConf.addSample( "Tree_TTJets_3" , "t#bar{t}" , kRed );
md.anConf.addSample( "Tree_TTJets_4" , "t#bar{t}" , kRed );
md.anConf.addSample( "Tree_TTJets_5" , "t#bar{t}" , kRed );
md.anConf.addSample( "Tree_TTJets_6" , "t#bar{t}" , kRed );
//md.anConf.addSample( "Tree_TTLep_pow_0" , "t#bar{t}" , kRed );
//md.anConf.addSample( "Tree_TTLep_pow_1" , "t#bar{t}" , kRed );
md.anConf.addSample( "Tree_TTWToLNu_0" , "t#bar{t}W" , kMagenta-10);
md.anConf.addSample( "Tree_TTWToQQ_0" , "t#bar{t}W" , kMagenta-10);
md.anConf.addSample( "Tree_TTZToQQ_0" , "t#bar{t}Z" , kBlue );
// the order MATTERS!!!
md.anConf.addSample( "Tree_DoubleEG_Run2015D_05Oct_0" , "data", kBlack);
md.anConf.addSample( "Tree_DoubleEG_Run2015D_v4_0" , "data", kBlack);
md.anConf.addSample( "Tree_DoubleMuon_Run2015D_05Oct_0" , "data", kBlack);
md.anConf.addSample( "Tree_DoubleMuon_Run2015D_v4_0" , "data", kBlack);
md.anConf.addSample( "Tree_MuonEG_Run2015D_05Oct_0" , "data", kBlack);
md.anConf.addSample( "Tree_MuonEG_Run2015D_v4_0" , "data", kBlack);
// //===============================================================
//*********************************************************************²
//Execution macro ******************************************************
//Configuration ================
//plotting ================
md.dp.setLumiAndEnergy( lumi, energy );
md.dp.setNormalization( Norm );
md.dp.configureDisplay(yTitle, rangeY, rangeX, logYScale, xDiv,
yDiv, binning, addBinBkg, overFlowBin,
underFlowBin, showDMCRatio, showGrid,
stacking, addSystematics, mcStatSyst,
markerSize, lineWidth,summedSignal,
mcOnly,cmsPrel, uncDet);
md.prepareDisplay();
md.doPlot();
//md.getStatistics("global");
md.savePlot(dir);
//gROOT->ProcessLine(".q");
}
void susy3l_tt_closure() {
md.refresh();
//general parameters ********************* general parameters
string dir="SUSY3L";
string fileName="ttbar_closure_MuEl_qcd_Powheg_newPU"; //was treeName in LUNE susy_cut_lowpt
string fileList="ttbar_closure_MuEl_qcd_Powheg_newPU"; //CH: since AnaConfig needs a fileName to open, we need to put the data files into a different variable
string hName="";
bool mcOnly = false;
//if(md.isInitStatus()) {
md.anConf.configureNames( dir, fileName, fileList );//, hName );
md.anConf.configureData(false, 0, mcOnly);
//}
string sigs = "none";
bool data = false;
bool manual = false;
string region = "OffZBaseline";
if(!manual){string obs = "VARIABLE" ;} //njets, nbjets, met, ht, lep, zpeak, zpt, mt, pt1, pt2, pt3, mll
else{string obs = "njets";}
//Binning & title ************************* Binning & titre
string yTitle="number of events";
//int binning=1;
int addBinBkg=1; //BinB = binning*AddBin
double rangeY[2]={0,0};
bool logYScale=true;
//double rangeX[2]={0,7};
int xDiv[3]={8,6,0};
int yDiv[3]={6,6,0}; //Nlabel / sous-Div /ssdiv
bool logYScale=false;
bool overFlowBin=true;
bool underFlowBin=false;
bool showDMCRatio=true;
bool showGrid=false;
float markerSize=0.8;
float lineWidth=2;
bool summedSignal=false;
bool stacking=true;
bool cmsPrel=true;
float xt=0.68;
float yt=0.48;
float st=0.039;
string addText="";
if(obs == "njets"){
md.dp.setObservables("NJets" + region);
int binning=1;
double rangeX[2]={2,10};
//bool logYScale=true;
}
if(obs == "nbjets"){
md.dp.setObservables("NBJets" + region);
int binning=1;
double rangeX[2]={0,5};
//bool logYScale=true;
}
if(obs == "met"){
md.dp.setObservables("MET" + region);
int binning=50;
double rangeX[2]={0,500};
//bool logYScale=true;
}
if(obs == "ht"){
md.dp.setObservables("HT" + region);
int binning=60;
double rangeX[2]={0,1000};
//bool logYScale=true;
}
if(obs == "pt1"){
md.dp.setObservables("pt_1st_lepton" + region);
int binning=10;
double rangeX[2]={0,200};
//bool logYScale=true;
}
if(obs == "pt2"){
md.dp.setObservables("pt_2nd_lepton" + region);
int binning=10;
double rangeX[2]={0,150};
//bool logYScale=true;
}
if(obs == "pt3"){
md.dp.setObservables("pt_3rd_lepton" + region);
int binning=10;
double rangeX[2]={0,100};
//bool logYScale=true;
}
if(obs == "ftype"){
md.dp.setObservables("fake_type" + region);
int binning=1;
double rangeX[2]={0,5};
//bool logYScale=true;
}
if(obs == "flavor"){
md.dp.setObservables("flavor" + region);
int binning=1;
double rangeX[2]={0,4};
//bool logYScale=true;
}
if(obs == "srs"){
md.dp.setObservables("SRS" + region);
int binning=1;
double rangeX[2]={1,16};
//bool logYScale=true;
}
if(obs == "mu_multi"){
md.dp.setObservables("mu_multiplicity" + region);
int binning=1;
double rangeX[2]={0,6};
//bool logYScale=true;
}
if(obs == "el_multi"){
md.dp.setObservables("el_multiplicity" + region);
int binning=1;
double rangeX[2]={0,6};
//bool logYScale=true;
}
if(obs == "lep_multi"){
md.dp.setObservables("lep_multiplicity" + region);
int binning=1;
double rangeX[2]={0,6};
//bool logYScale=true;
}
//string autoBinFile="susybinninghigh";
//md.dp.loadAutoBinning(autoBinFile);
//Systematic uncertainties ********************************
bool addSystematics=true;
bool mcStatSyst=true;
string systSources="";
bool uncDet=false;
string Norm="";
//Lumis( or XSections ) pb-1 & KFactors ************************************
float lumi=3000; //pb-1 19470
float energy=13; //TeV
bool useXS=true;
md.anConf.loadXSDB("XSectionsSpring15.db");
map<string,float> LumisXS;
md.anConf.loadKFDB("kFactorsSpring15.db");
//via XSect
map<string,float> KFactors;
// if( md.isInitStatus() )
md.anConf.configureLumi( LumisXS, KFactors, lumi, useXS );
//===============================================================
// SDYJetsM50_HT600toInf_PU_S14_POSTLS170_skimamples ************************** samples
//if( md.isInitStatus() ) {
//TTV
// md.anConf.addSample( "TTWToLNu" , "ttW" , kYellow );
// md.anConf.addSample( "TTZToLLNuNu" , "ttZ" , kBlue );
//di-boson
// md.anConf.addSample( "WZTo3LNu" , "WZ" , kGreen );
// md.anConf.addSample( "ZZTo4L" , "ZZ" , kGreen+3 );
//VVV
// md.anConf.addSample( "WWZ" , "VVV" , kGreen+4 );
// md.anConf.addSample( "WZZ" , "VVV" , kGreen+4 );
// md.anConf.addSample( "ZZZ" , "VVV" , kGreen+4 );
//rare
// md.anConf.addSample( "GGHZZ4L" , "rare SM" , kCyan );
// md.anConf.addSample( "TTHnobb" , "rare SM" , kCyan );
// md.anConf.addSample( "VHToNonbb" , "rare SM" , kCyan );
// md.anConf.addSample( "WGToLNuG" , "rare SM" , kCyan );
// md.anConf.addSample( "WpWpJJ" , "rare SM" , kCyan );
// md.anConf.addSample( "WWDouble" , "rare SM" , kCyan );
// md.anConf.addSample( "WWTo2L2Nu" , "rare SM" , kCyan );
//md.anConf.addSample( "ZGTo2LG" , "rare SM" , kCyan );
//top production
// md.anConf.addSample( "TbarToLeptons_tch" , "single t" , kRed+3 );
// md.anConf.addSample( "TBar_tWch" , "single t" , kRed+3 );
// md.anConf.addSample( "T_tWch" , "single t" , kRed+3 );
// md.anConf.addSample( "TToLeptons_sch_amcatnlo" , "single t" , kRed+3 );
// md.anConf.addSample( "TToLeptons_tch" , "single t" , kRed+3 );
// md.anConf.addSample( "TGJets" , "single t" , kRed+3 );
//md.anConf.addSample( "tZqll" , "single t" , kRed+3 );
// md.anConf.addSample( "TTJets" , "TT" , kRed+2 );
// md.anConf.addSample( "TTGJets" , "TT" , kRed+2 );
// md.anConf.addSample( "TTLLJets_m1to10" , "TT" , kRed+2 );
// md.anConf.addSample( "TTTT" , "TT" , kRed+2 );
md.anConf.addSample( "TT_pow" , "TT" , kRed-6 );
md.anConf.addSample( "_Fake:TT_pow" , "predicted sig" , kBlack );
// md.anConf.addSample( "TTJets_DiLepton" , "TT" , kRed-6 );
// md.anConf.addSample( "Fake:TTJets_DiLepton" , "predicted sig" , kBlack );
//W+Jets
// md.anConf.addSample( "WJetsToLNu" , "WJets" , kRed-6 );
//Drell-Yan
// md.anConf.addSample( "DYJetsToLL_M10to50" , "DY" , kRed );
// md.anConf.addSample( "DYJetsToLL_M50" , "DY" , kRed );
//signal
//if(sigs=="t"){
//md.anConf.addSample( "T1tttt_mGo1200_mChi800" , "T1t412 sig" , kBlue-3 );
//md.anConf.addSample( "T1tttt_mGo1500_mChi100" , "T1t415 sig" , kBlue-7 );
//md.anConf.addSample( "T5ttttDeg_mGo1000_mStop300_mCh285_mChi280" , "T5t410 sig" , kOrange+10 );
//}
if(sigs=="q"){
md.anConf.addSample( "T5qqqqWZDeg_mGo1000_mCh315_mChi300_dilep" , "T5q4WZ315 sig" , kGreen+2 );
md.anConf.addSample( "T5qqqqWZDeg_mGo1000_mCh325_mChi300_dilep" , "T5q4WZ325 sig" , kMagenta );
md.anConf.addSample( "T5qqqqWZ_mGo1200_mCh1000_mChi800_dilep" , "T5q4WZ12 sig" , kRed-6 );
md.anConf.addSample( "T5qqqqWZ_mGo1500_mCh800_mChi100_dilep" , "T5q4WZ15 sig" , kRed+3 );
md.anConf.addSample( "T5qqqqZZDeg_mGo1000_mCh315_mChi300_dilep" , "T5q4ZZ315 sig" , kGreen+3 );
md.anConf.addSample( "T5qqqqZZDeg_mGo1000_mCh325_mChi300_dilep" , "T5q4ZZ325 sig" , kMagenta+2 );
md.anConf.addSample( "T5qqqqZZ_mGo1200_mCh1000_mChi800_dilep" , "T5q4ZZ12 sig" , kRed-9 );
md.anConf.addSample( "T5qqqqZZ_mGo1500_mCh800_mChi100_dilep" , "T5q4ZZ15 sig" , kRed+1 );
}
//data
if(data){
md.anConf.addSample( "DoubleEG_Run2015D_v3_runs_256630_257599" , "data" , kBlack );
md.anConf.addSample( "DoubleEG_Run2015D_v3_runs_257600_258158" , "data" , kBlack );
md.anConf.addSample( "DoubleEG_Run2015D_v4_runs_258159_258714_excl" , "data" , kBlack );
md.anConf.addSample( "DoubleEG_Run2015D_v4_runs_258211_258750" , "data" , kBlack );
md.anConf.addSample( "DoubleMuon_Run2015D_v3_runs_256630_257599" , "data" , kBlack );
md.anConf.addSample( "DoubleMuon_Run2015D_v3_runs_257600_258158" , "data" , kBlack );
md.anConf.addSample( "DoubleMuon_Run2015D_v4_runs_258159_258714_excl" , "data" , kBlack );
md.anConf.addSample( "DoubleMuon_Run2015D_v4_runs_258211_258750" , "data" , kBlack );
md.anConf.addSample( "MuonEG_Run2015D_v3_runs_256630_257599" , "data" , kBlack );
md.anConf.addSample( "MuonEG_Run2015D_v3_runs_257600_258158" , "data" , kBlack );
md.anConf.addSample( "MuonEG_Run2015D_v4_runs_258159_258714_excl" , "data" , kBlack );
md.anConf.addSample( "MuonEG_Run2015D_v4_runs_258211_258750" , "data" , kBlack );
md.anConf.addSample( "SingleElectron_Run2015D_v3_runs_256630_257599" , "data" , kBlack );
md.anConf.addSample( "SingleElectron_Run2015D_v3_runs_257600_258158" , "data" , kBlack );
md.anConf.addSample( "SingleElectron_Run2015D_v4_runs_258159_258714_excl" , "data" , kBlack );
md.anConf.addSample( "SingleElectron_Run2015D_v4_runs_258211_258750" , "data" , kBlack );
md.anConf.addSample( "SingleMuon_Run2015D_v3_runs_256630_257599" , "data" , kBlack );
md.anConf.addSample( "SingleMuon_Run2015D_v3_runs_257600_258158" , "data" , kBlack );
md.anConf.addSample( "SingleMuon_Run2015D_v4_runs_258159_258714_excl" , "data" , kBlack );
md.anConf.addSample( "SingleMuon_Run2015D_v4_runs_258211_258750" , "data" , kBlack );
}
// md.anConf.addSample( "T5ttttDeg_mGo1000_mStop300_mCh285_mChi280_skim" , "T5tttt (1000) * 20 sig" , kOrange-3 );
//md.anConf.addSample( "T5ttttDeg_mGo1300_mStop300_mCh285_mChi280_skim" , "T5tttt (1300) #cdot 20 sig" , kOrange+6 );
// }
//===============================================================
//*********************************************************************²
//Execution macro ******************************************************
//Configuration ================
//if( md.isInitStatus() ) {
//md.anConf.configureLumi( LumisXS, KFactors, lumi, useXS );
// }
//plotting ================
md.dp.setLumiAndEnergy( lumi, energy );
md.dp.setNormalization( Norm );
md.dp.configureDisplay(yTitle, rangeY, rangeX, logYScale, xDiv,
yDiv, binning, addBinBkg, overFlowBin,
underFlowBin, showDMCRatio, showGrid,
stacking, addSystematics, mcStatSyst,
markerSize, lineWidth,summedSignal,
mcOnly,cmsPrel, uncDet);
md.prepareDisplay();
md.doPlot();
//md.doStatisticsPlot();
md.savePlot("SUSY3L");
// md.dp.addText(xt,yt,st,addText);
if(!manual) gROOT->ProcessLine(".q");
}
