//--------------------------------------------------------------------------------------------------
void runShowerCorrections(const char *fileset = "0000",
const char *skim = "noskim",
// const char *dataset = "s12-zllm50-v7n",
// const char *dataset = "r10b-pho-d22",
const char *dataset = "r12a-pho-j22-v1",
// const char *book = "local/filefi/031",
// const char *book = "t2mit/filefi/030",
const char *book = "t2mit/filefi/029",
const char *catalogDir = "/home/cmsprod/catalog",
const char *outputName = "hgg",
int nEvents = 10000)
{
//------------------------------------------------------------------------------------------------
// some parameters get passed through the environment
//------------------------------------------------------------------------------------------------
char json[1024], overlap[1024];
float overlapCut = -1;
if (gSystem->Getenv("MIT_PROD_JSON"))
sprintf(json, "%s",gSystem->Getenv("MIT_PROD_JSON"));
else {
printf(" JSON file was not properly defined. EXIT!\n");
return;
}
//TString jsonFile = TString("/home/cmsprod/json/") + TString(json);
TString jsonFile = TString("/home/fabstoec/cms/json/") + TString(json);
Bool_t isData = ( (jsonFile.CompareTo("/home/fabstoec/cms/json/~") != 0) );
if (gSystem->Getenv("MIT_PROD_OVERLAP")) {
sprintf(overlap,"%s",gSystem->Getenv("MIT_PROD_OVERLAP"));
if (EOF == sscanf(overlap,"%f",&overlapCut)) {
printf(" Overlap was not properly defined. EXIT!\n");
return;
}
}
else {
printf(" OVERLAP file was not properly defined. EXIT!\n");
return;
}
//------------------------------------------------------------------------------------------------
// some global setups
//------------------------------------------------------------------------------------------------
using namespace mithep;
gDebugMask = Debug::kGeneral;
gDebugLevel = 3;
//------------------------------------------------------------------------------------------------
// set up information
//------------------------------------------------------------------------------------------------
RunLumiSelectionMod *runLumiSel = new RunLumiSelectionMod;
runLumiSel->SetAcceptMC(kTRUE); // Monte Carlo events are always accepted
// only select on run- and lumisection numbers when valid json file present
if ((jsonFile.CompareTo("/home/fabstoec/cms/json/~") != 0) &&
(jsonFile.CompareTo("/home/fabstoec/cms/json/-") != 0) ) {
runLumiSel->AddJSONFile(jsonFile.Data());
}
if ((jsonFile.CompareTo("/home/cmsprod/json/-") == 0) ) {
printf("\n WARNING -- Looking at data without JSON file: always accept.\n\n");
runLumiSel->SetAbortIfNotAccepted(kFALSE); // accept all events if there is no valid JSON file
}
printf("\n Run lumi worked. \n\n");
//------------------------------------------------------------------------------------------------
// HLT information
//------------------------------------------------------------------------------------------------
HLTMod *hltModE = new HLTMod("HLTModE");
/// HLT paths for tag and probe in 2012
hltModE->AddTrigger("HLT_Ele17_CaloIdVT_CaloIsoVT_TrkIdT_TrkIsoVT_Ele8_Mass50_v*");
hltModE->AddTrigger("HLT_Ele20_CaloIdVT_CaloIsoVT_TrkIdT_TrkIsoVT_SC4_Mass50_v*");
hltModE->AddTrigger("HLT_Ele32_CaloIdT_CaloIsoT_TrkIdT_TrkIsoT_SC17_Mass50_v*");
hltModE->SetTrigObjsName("MyHltElecObjs");
hltModE->SetAbortIfNotAccepted(kFALSE);
//------------------------------------------------------------------------------------------------
// select events with a good primary vertex
//------------------------------------------------------------------------------------------------
GoodPVFilterMod *goodPVFilterMod = new GoodPVFilterMod;
goodPVFilterMod->SetMinVertexNTracks(0);
goodPVFilterMod->SetMinNDof (5);
goodPVFilterMod->SetMaxAbsZ (24.0);
goodPVFilterMod->SetMaxRho (2.0);
goodPVFilterMod->SetIsMC (!isData);
// our MIT Photons ID with iverted veto - we are looking at electrons
PhotonIDMod *photidpreselinvert = new PhotonIDMod("PhotonIDModPreselInvert");
photidpreselinvert->SetPtMin(15.);
photidpreselinvert->SetOutputName("GoodPhotonsPreselidInvert");
photidpreselinvert->SetIDType("MITPFSelectionNoEcal");
//photidpreselinvert->SetIDType("TrivialSelection");
photidpreselinvert->SetIdMVAType("2013FinalIdMVA");
photidpreselinvert->SetApplyElectronVeto(kFALSE);
photidpreselinvert->SetInvertElectronVeto(kTRUE);
photidpreselinvert->SetIsData(isData);
//photidpreselinvert->SetApplyFiduciality(kFALSE);
// some default VBTF Electron ID
ElectronIDMod *elecId = new ElectronIDMod;
elecId->SetIDType ("VBTFWorkingPoint80Id");
elecId->SetIsoType ("TrackJuraSliding");
elecId->SetApplyConversionFilterType1(kFALSE);
elecId->SetApplyConversionFilterType2(kTRUE);
elecId->SetChargeFilter (kFALSE);
elecId->SetApplyD0Cut (kTRUE);
elecId->SetNExpectedHitsInnerCut (0);
elecId->SetVertexName (goodPVFilterMod->GetOutputName());
elecId->SetPtMin (30.);
PhotonMCDataSFMod *phSFMod = new PhotonMCDataSFMod;
phSFMod-> SetIsData(isData);
phSFMod-> SetInputPhotonsName(photidpreselinvert->GetOutputName());
phSFMod-> SetPhotonsFromBranch(false);
phSFMod-> SetPVName(goodPVFilterMod->GetOutputName());
phSFMod-> SetPVFromBranch(false);
phSFMod-> SetElectronName(elecId->GetOutputName());
phSFMod-> SetEleFromBranch(false);
phSFMod-> AddTriggerLegs("hltEle32CaloIdLCaloIsoVLSC17PixelMatchFilter"/*,"hltEle32CaloIdLCaloIsoVLSC17HEDoubleFilter"*/);
phSFMod-> AddTriggerLegs("hltEle17CaloIdVTCaloIsoVTTrkIdTTrkIsoVTEle8TrackIsoFilter");
phSFMod-> AddTriggerLegs("hltEle20CaloIdVTCaloIsoVTTrkIdTTrkIsoVTSC4TrackIsoFilter");
phSFMod-> AddTriggerLegs("hltEle32CaloIdTCaloIsoTTrkIdTTrkIsoTSC17TrackIsoFilter");
phSFMod-> SetTrigObjsName(hltModE->GetOutputName());
phSFMod-> SetTupleName("MITtuple");
//------------------------------------------------------------------------------------------------
// making analysis chain
//------------------------------------------------------------------------------------------------
// this is how it always starts
runLumiSel ->Add(hltModE);
hltModE ->Add(goodPVFilterMod);
goodPVFilterMod ->Add(elecId);
// ... the MIT flow ...
elecId ->Add(photidpreselinvert);
photidpreselinvert->Add(phSFMod);
//------------------------------------------------------------------------------------------------
// setup analysis
//------------------------------------------------------------------------------------------------
Analysis *ana = new Analysis;
ana->SetUseHLT(kTRUE);
ana->SetKeepHierarchy(kTRUE);
ana->SetSuperModule(runLumiSel);
ana->SetPrintScale(100);
if (nEvents >= 0)
ana->SetProcessNEvents(nEvents);
//------------------------------------------------------------------------------------------------
// organize input
//------------------------------------------------------------------------------------------------
// Catalog *c = new Catalog(catalogDir);
// TString skimdataset = TString(dataset)+TString("/") +TString(skim);
// Dataset *d = NULL;
// if (TString(skim).CompareTo("noskim") == 0)
// d = c->FindDataset(book,dataset,fileset);
// else
// d = c->FindDataset(book,skimdataset.Data(),fileset);
// ana->AddDataset(d);
Catalog *c = new Catalog(catalogDir);
TString skimdataset = TString(dataset)+TString("/") +TString(skim);
Dataset *d = NULL;
TString bookstr = book;
Bool_t caching = kTRUE;
//if (TString(dataset).Contains("s11-h")) bookstr.ReplaceAll("local","t2mit");
if (TString(skim).CompareTo("noskim") == 0)
d = c->FindDataset(bookstr,dataset,fileset,caching);
else
d = c->FindDataset(bookstr,skimdataset.Data(),fileset,caching);
ana->AddDataset(d);
//------------------------------------------------------------------------------------------------
// organize output
//------------------------------------------------------------------------------------------------
TString rootFile = TString(outputName);
rootFile += TString("_") + TString(dataset) + TString("_") + TString(skim);
if (TString(fileset) != TString(""))
rootFile += TString("_") + TString(fileset);
rootFile += TString(".root");
ana->SetOutputName(rootFile.Data());
// ana->SetCacheSize(64*1024*1024);
ana->SetCacheSize(0);
//------------------------------------------------------------------------------------------------
// Say what we are doing
//------------------------------------------------------------------------------------------------
printf("\n==== PARAMETER SUMMARY FOR THIS JOB ====\n");
printf("\n JSON file: %s\n and overlap cut: %f (%s)\n",jsonFile.Data(),overlapCut,overlap);
printf("\n Rely on Catalog: %s\n",catalogDir);
printf(" -> Book: %s Dataset: %s Skim: %s Fileset: %s <-\n",book,dataset,skim,fileset);
printf("\n Root output: %s\n\n",rootFile.Data());
printf("\n========================================\n");
//------------------------------------------------------------------------------------------------
// run the analysis after successful initialisation
//------------------------------------------------------------------------------------------------
ana->Run(!gROOT->IsBatch());
return;
}
//--------------------------------------------------------------------------------------------------
void runBavantiBoostedV_Synch
(const char *fileset = "0000",
const char *skim = "noskim",
//const char *dataset = "s12-ttj-sl-v1-v7c",
const char *dataset = "GJets_HT-400ToInf_8TeV-madgraph+Summer12_DR53X-PU_S10_START53_V7A-v1+AODSIM",
const char *book = "t2mit/filefi/032",
const char *catalogDir = "/home/cmsprod/catalog",
const char *outputName = "boostedv",
int nEvents = 10)
{
//------------------------------------------------------------------------------------------------
// some parameters get passed through the environment
//------------------------------------------------------------------------------------------------
TString cataDir = getCatalogDir(catalogDir);
TString mitData = Utils::GetEnv("MIT_DATA");
TString json = Utils::GetEnv("MIT_PROD_JSON");
TString jsonFile = getJsonFile("/home/cmsprod/cms/json");
Bool_t isData = (json.CompareTo("~") != 0);
// only for synchrionization purposes
isData = kFALSE;
printf("\n Initialization worked. Data?: %d\n\n",isData);
//------------------------------------------------------------------------------------------------
// some global setups
//------------------------------------------------------------------------------------------------
// debugging config
using namespace mithep;
gDebugMask = (Debug::EDebugMask) (Debug::kGeneral | Debug::kTreeIO);
gDebugLevel = 3;
// Caching and how
Int_t local = 1, cacher = 1;
// local = 0 - as is,
// 1 - /mt/hadoop (MIT:SmartCache - preload one-by-one)
// 2 - /mnt/hadoop (MIT:SmartCache - preload complete fileset)
// 3 - ./ (xrdcp - preload one-by-one)
// cacher = 0 - no file by file caching
// 1 - file by file caching on
//------------------------------------------------------------------------------------------------
// set up information for master module
//------------------------------------------------------------------------------------------------
RunLumiSelectionMod *runLumiSel = new RunLumiSelectionMod;
runLumiSel->SetAcceptMC(kTRUE); // Monte Carlo events are always accepted
// only select on run- and lumisection numbers when valid json file present
if (json.CompareTo("~") != 0 && json.CompareTo("-") != 0) {
printf(" runBoostedV() - adding jsonFile: %s\n",jsonFile.Data());
runLumiSel->AddJSONFile(jsonFile.Data());
}
if (json.CompareTo("-") == 0) {
printf("\n WARNING -- Looking at data without JSON file: always accept.\n\n");
runLumiSel->SetAbortIfNotAccepted(kFALSE); // accept all events if there is no valid JSON file
}
printf("\n Run lumi worked. \n\n");
//------------------------------------------------------------------------------------------------
// setup analysis
//------------------------------------------------------------------------------------------------
Analysis *ana = new Analysis;
ana->SetUseCacher(cacher);
ana->SetUseHLT(kTRUE);
ana->SetKeepHierarchy(kTRUE);
ana->SetSuperModule(runLumiSel);
ana->SetPrintScale(100);
if (nEvents >= 0)
ana->SetProcessNEvents(nEvents);
//------------------------------------------------------------------------------------------------
// organize input
//------------------------------------------------------------------------------------------------
Catalog *c = new Catalog(cataDir.Data());
TString skimdataset = TString(dataset)+TString("/") +TString(skim);
Dataset *d = NULL;
TString bookstr = book;
if (TString(skim).CompareTo("noskim") == 0)
d = c->FindDataset(bookstr,dataset,fileset,local);
else
d = c->FindDataset(bookstr,skimdataset.Data(),fileset,local);
ana->AddDataset(d);
//------------------------------------------------------------------------------------------------
// organize output
//------------------------------------------------------------------------------------------------
TString rootFile = TString(outputName);
rootFile += TString("_") + TString(dataset) + TString("_") + TString(skim);
if (TString(fileset) != TString(""))
rootFile += TString("_") + TString(fileset);
TString ntupleFile = rootFile + TString("_ntuple");
rootFile += TString(".root");
ana->SetOutputName(rootFile.Data());
ana->SetCacheSize(0);
//------------------------------------------------------------------------------------------------
// HLT information
//------------------------------------------------------------------------------------------------
HLTMod *hltModP = new HLTMod("HLTModP");
hltModP->SetBitsName("HLTBits");
hltModP->SetTrigObjsName("HltObjsMonoJet");
hltModP->SetAbortIfNotAccepted(isData);
hltModP->SetPrintTable(kFALSE);
// monojet triggers
const int nMjtTrigs = 12;
TString monoJetTriggers[nMjtTrigs] = { "HLT_MonoCentralPFJet80_PFMETnoMu105_NHEF0p95_v4",
"HLT_MonoCentralPFJet80_PFMETnoMu105_NHEF0p95_v3",
"HLT_MonoCentralPFJet80_PFMETnoMu105_NHEF0p95_v1",
"HLT_MonoCentralPFJet80_PFMETnoMu95_NHEF0p95_v5",
"HLT_MonoCentralPFJet80_PFMETnoMu95_NHEF0p95_v4",
"HLT_MonoCentralPFJet80_PFMETnoMu95_NHEF0p95_v3",
"HLT_MonoCentralPFJet80_PFMETnoMu95_NHEF0p95_v2",
"HLT_MET120_HBHENoiseCleaned_v6",
"HLT_MET120_HBHENoiseCleaned_v5",
"HLT_MET120_HBHENoiseCleaned_v4",
"HLT_MET120_HBHENoiseCleaned_v3",
"HLT_MET120_HBHENoiseCleaned_v2"};
for (int i=0; i<nMjtTrigs; i++)
hltModP->AddTrigger(TString("!+"+monoJetTriggers[i]),0,999999);
// top semileptonic triggers
const int nTopTrigs = 14;
TString topTriggers[nTopTrigs] = { "HLT_IsoMu15_v2",
"HLT_IsoMu24_v2",
"HLT_IsoMu17_v6",
"HLT_IsoMu17_v8",
"HLT_IsoMu17_v9",
"HLT_IsoMu17_eta2p1_v1",
"HLT_IsoMu24_v8",
"HLT_IsoMu24_eta2p1_v3",
"HLT_IsoMu24_eta2p1_v6",
"HLT_IsoMu24_eta2p1_v7",
"HLT_IsoMu24_eta2p1_v12",
"HLT_IsoMu24_eta2p1_v13",
"HLT_IsoMu24_eta2p1_v14",
"HLT_IsoMu24_eta2p1_v15"};
for (int i=0; i<nTopTrigs; i++)
hltModP->AddTrigger(TString("!+"+topTriggers[i]),0,999999);
// photon triggers
const int nPhotonTrigs = 6;
TString photonTriggers[nPhotonTrigs] = { "HLT_Photon135_v4",
"HLT_Photon135_v5",
"HLT_Photon135_v6",
"HLT_Photon135_v7",
"HLT_Photon150_v3",
"HLT_Photon150_v4"};
for (int i=0; i<nPhotonTrigs; i++)
hltModP->AddTrigger(TString("!+"+photonTriggers[i]),0,999999);
// VBF triggers
const int nVbfTrigs = 7;
TString vbfTriggers[nVbfTrigs] = { "HLT_DiPFJet40_PFMETnoMu65_MJJ800VBF_AllJets_v9",
"HLT_DiPFJet40_PFMETnoMu65_MJJ800VBF_AllJets_v8",
"HLT_DiPFJet40_PFMETnoMu65_MJJ800VBF_AllJets_v6",
"HLT_DiPFJet40_PFMETnoMu65_MJJ800VBF_AllJets_v5",
"HLT_DiPFJet40_PFMETnoMu65_MJJ800VBF_AllJets_v4",
"HLT_DiPFJet40_PFMETnoMu65_MJJ800VBF_AllJets_v3",
"HLT_DiPFJet40_PFMETnoMu65_MJJ800VBF_AllJets_v2" };
for (int i=0; i<nVbfTrigs; i++)
hltModP->AddTrigger((TString("!+")+vbfTriggers[i]).Data(),0,999999);
//------------------------------------------------------------------------------------------------
// split pfcandidates to PFPU and PFnoPU
//------------------------------------------------------------------------------------------------
SeparatePileUpMod* sepPuMod = new SeparatePileUpMod;
//sepPuMod->SetUseAllVerteces(kFALSE);
//sepPuMod->SetVertexName("OutVtxCiC");
sepPuMod->SetPFNoPileUpName("pfnopileupcands");
sepPuMod->SetPFPileUpName("pfpileupcands");
sepPuMod->SetCheckClosestZVertex(kFALSE);
//------------------------------------------------------------------------------------------------
// select events with a good primary vertex
//------------------------------------------------------------------------------------------------
GoodPVFilterMod *goodPVFilterMod = new GoodPVFilterMod;
goodPVFilterMod->SetMinVertexNTracks(0);
goodPVFilterMod->SetMinNDof(4.0);
goodPVFilterMod->SetMaxAbsZ(24.0);
goodPVFilterMod->SetMaxRho(2.0);
goodPVFilterMod->SetIsMC(!isData);
goodPVFilterMod->SetVertexesName("PrimaryVertexes");
//------------------------------------------------------------------------------------------------
// object id and cleaning sequence
//------------------------------------------------------------------------------------------------
//-----------------------------------
// Lepton Selection
//-----------------------------------
ElectronIDMod* eleIdMod = new ElectronIDMod;
eleIdMod->SetPtMin(10.);
eleIdMod->SetEtaMax(2.5);
eleIdMod->SetApplyEcalFiducial(kTRUE);
eleIdMod->SetIDType("VBTFWorkingPoint95Id");
eleIdMod->SetIsoType("PFIso");
eleIdMod->SetApplyConversionFilterType1(kTRUE);
eleIdMod->SetApplyConversionFilterType2(kFALSE);
eleIdMod->SetChargeFilter(kFALSE);
eleIdMod->SetApplyD0Cut(kTRUE);
eleIdMod->SetApplyDZCut(kTRUE);
eleIdMod->SetWhichVertex(0);
eleIdMod->SetNExpectedHitsInnerCut(0);
eleIdMod->SetGoodElectronsName("GoodElectronsBS");
eleIdMod->SetRhoType(RhoUtilities::CMS_RHO_RHOKT6PFJETS);
MuonIDMod *muonIdIsoMod = new MuonIDMod;
muonIdIsoMod->SetOutputName("HWWMuons");
muonIdIsoMod->SetIntRadius(0.0);
muonIdIsoMod->SetClassType("GlobalTracker");
muonIdIsoMod->SetIDType("WWMuIdV4");
muonIdIsoMod->SetIsoType("IsoRingsV0_BDTG_Iso");
muonIdIsoMod->SetApplyD0Cut(kTRUE);
muonIdIsoMod->SetD0Cut(0.02);
muonIdIsoMod->SetApplyDZCut(kTRUE);
muonIdIsoMod->SetDZCut(0.1);
muonIdIsoMod->SetWhichVertex(0);
muonIdIsoMod->SetRhoType(RhoUtilities::CMS_RHO_RHOKT6PFJETS);
muonIdIsoMod->SetPtMin(10.);
muonIdIsoMod->SetEtaCut(2.4);
MuonIDMod *muonIdLooseMod = new MuonIDMod;
muonIdLooseMod->SetOutputName("POGMuons");
muonIdLooseMod->SetClassType("GlobalTracker");
muonIdLooseMod->SetIDType("NoId");
muonIdLooseMod->SetIsoType("NoIso");
muonIdLooseMod->SetApplyD0Cut(true);
muonIdLooseMod->SetD0Cut(0.2);
muonIdLooseMod->SetApplyDZCut(true);
muonIdLooseMod->SetDZCut(0.5);
muonIdLooseMod->SetPtMin(10.);
muonIdLooseMod->SetEtaCut(2.4);
ElectronCleaningMod *electronCleaning = new ElectronCleaningMod;
electronCleaning->SetCleanMuonsName(muonIdLooseMod->GetOutputName());
electronCleaning->SetGoodElectronsName(eleIdMod->GetOutputName());
electronCleaning->SetCleanElectronsName("CleanElectrons");
MergeLeptonsMod *merger = new MergeLeptonsMod;
merger->SetMuonsName(muonIdLooseMod->GetOutputName());
merger->SetElectronsName(electronCleaning->GetOutputName());
merger->SetMergedName("MergedLeptons");
//-----------------------------------
// Photon Egamma Medium ID
//-----------------------------------
PhotonIDMod *photonIdMod = new PhotonIDMod;
photonIdMod->SetPtMin(10.0);
photonIdMod->SetOutputName("GoodPhotons");
photonIdMod->SetIDType("EgammaMedium");
photonIdMod->SetIsoType("NoIso");
photonIdMod->SetApplyElectronVeto(kTRUE);
photonIdMod->SetApplyPixelSeed(kFALSE);
photonIdMod->SetApplyConversionId(kFALSE);
photonIdMod->SetApplyFiduciality(kTRUE);
photonIdMod->SetIsData(isData);
photonIdMod->SetPhotonsFromBranch(kTRUE);
PhotonCleaningMod *photonCleaningMod = new PhotonCleaningMod;
photonCleaningMod->SetCleanElectronsName(electronCleaning->GetOutputName());
photonCleaningMod->SetGoodPhotonsName(photonIdMod->GetOutputName());
photonCleaningMod->SetCleanPhotonsName("CleanPhotons");
PFTauIDMod *pftauIdMod = new PFTauIDMod;
pftauIdMod->SetPFTausName("HPSTaus");
pftauIdMod->SetIsLooseId(kTRUE);
pftauIdMod->SetIsHPSSel(kTRUE); // to get >= 5_3_14 samples running
pftauIdMod->SetPtMin(15); // to loosen the WP
PFTauCleaningMod *pftauCleaningMod = new PFTauCleaningMod;
pftauCleaningMod->SetGoodPFTausName(pftauIdMod->GetGoodPFTausName());
pftauCleaningMod->SetCleanMuonsName(muonIdLooseMod->GetOutputName());
pftauCleaningMod->SetCleanElectronsName(electronCleaning->GetOutputName());
PublisherMod<PFJet,Jet> *pubJet = new PublisherMod<PFJet,Jet>("JetPub");
pubJet->SetInputName("AKt4PFJets");
pubJet->SetOutputName("PubAKt4PFJets");
FastJetMod *pubFastJet = new FastJetMod;
pubFastJet->SetPfCandidatesName("pfnopileupcands");
pubFastJet->SetPfCandidatesFromBranch(kFALSE);
pubFastJet->SetConeSize(0.8);
JetCorrectionMod *jetCorr = new JetCorrectionMod;
if (isData){
jetCorr->AddCorrectionFromFile((mitData+TString("/Summer13_V1_DATA_L1FastJet_AK5PF.txt")).Data());
jetCorr->AddCorrectionFromFile((mitData+TString("/Summer13_V1_DATA_L2Relative_AK5PF.txt")).Data());
jetCorr->AddCorrectionFromFile((mitData+TString("/Summer13_V1_DATA_L3Absolute_AK5PF.txt")).Data());
jetCorr->AddCorrectionFromFile((mitData+TString("/Summer13_V1_DATA_L2L3Residual_AK5PF.txt")).Data());
}
else {
jetCorr->AddCorrectionFromFile((mitData+TString("/Summer13_V1_MC_L1FastJet_AK5PF.txt")).Data());
jetCorr->AddCorrectionFromFile((mitData+TString("/Summer13_V1_MC_L2Relative_AK5PF.txt")).Data());
jetCorr->AddCorrectionFromFile((mitData+TString("/Summer13_V1_MC_L3Absolute_AK5PF.txt")).Data());
}
jetCorr->SetInputName(pubJet->GetOutputName());
jetCorr->SetCorrectedName("CorrectedJets");
JetCorrectionMod *fatJetCorr = new JetCorrectionMod;
if (isData){
fatJetCorr->AddCorrectionFromFile((mitData+TString("/FT53_V21A_AN6_L1FastJet_AK7PFchs.txt")).Data());
fatJetCorr->AddCorrectionFromFile((mitData+TString("/FT53_V21A_AN6_L2Relative_AK7PFchs.txt")).Data());
fatJetCorr->AddCorrectionFromFile((mitData+TString("/FT53_V21A_AN6_L3Absolute_AK7PFchs.txt")).Data());
fatJetCorr->AddCorrectionFromFile((mitData+TString("/FT53_V21A_AN6_L2L3Residual_AK7PFchs.txt")).Data());
}
else {
fatJetCorr->AddCorrectionFromFile((mitData+TString("/FT53_V21A_AN6_L1FastJet_AK7PFchs.txt")).Data());
fatJetCorr->AddCorrectionFromFile((mitData+TString("/FT53_V21A_AN6_L2Relative_AK7PFchs.txt")).Data());
fatJetCorr->AddCorrectionFromFile((mitData+TString("/FT53_V21A_AN6_L3Absolute_AK7PFchs.txt")).Data());
}
fatJetCorr->SetInputName(pubFastJet->GetOutputJetsName());
fatJetCorr->SetCorrectedName("CorrectedFatJets");
JetIDMod *jetId = new JetIDMod;
jetId->SetInputName(jetCorr->GetOutputName());
jetId->SetPtCut(30.0);
jetId->SetEtaMaxCut(2.5);
jetId->SetJetEEMFractionMinCut(0.00);
jetId->SetOutputName("GoodJets");
jetId->SetApplyBetaCut(kFALSE);
jetId->SetApplyMVACut(kTRUE);
JetIDMod *fatJetId = new JetIDMod;
fatJetId->SetInputName(fatJetCorr->GetOutputName());
fatJetId->SetPtCut(30.0);
fatJetId->SetEtaMaxCut(2.5);
fatJetId->SetJetEEMFractionMinCut(0.00);
fatJetId->SetOutputName("GoodFatJets");
fatJetId->SetApplyBetaCut(kFALSE);
fatJetId->SetApplyMVACut(kFALSE);
fatJetId->SetApplyMVACHS(kFALSE);
JetCleaningMod *jetCleaning = new JetCleaningMod;
jetCleaning->SetCleanElectronsName(electronCleaning->GetOutputName());
jetCleaning->SetCleanMuonsName(muonIdIsoMod->GetOutputName());
jetCleaning->SetCleanPhotonsName(photonCleaningMod->GetOutputName());
jetCleaning->SetApplyPhotonRemoval(kTRUE);
jetCleaning->SetApplyTauRemoval(kFALSE);
jetCleaning->SetGoodJetsName(jetId->GetOutputName());
jetCleaning->SetCleanJetsName("CleanJets");
JetCleaningMod *fatJetCleaning = new JetCleaningMod;
fatJetCleaning->SetCleanElectronsName(electronCleaning->GetOutputName());
fatJetCleaning->SetCleanMuonsName(muonIdIsoMod->GetOutputName());
fatJetCleaning->SetCleanPhotonsName(photonCleaningMod->GetOutputName());
fatJetCleaning->SetMinDeltaRToElectron(0.5);
fatJetCleaning->SetMinDeltaRToMuon(0.5);
fatJetCleaning->SetMinDeltaRToPhoton(0.5);
fatJetCleaning->SetApplyPhotonRemoval(kTRUE);
fatJetCleaning->SetApplyTauRemoval(kFALSE);
fatJetCleaning->SetGoodJetsName(fatJetId->GetOutputName());
fatJetCleaning->SetCleanJetsName("CleanFatJets");
//------------------------------------------------------------------------------------------------
// select events with a monojet topology
//------------------------------------------------------------------------------------------------
BoostedVAnalysisMod *jetplusmet = new BoostedVAnalysisMod("MonoJetSelector");
jetplusmet->SetFatJetsName(fatJetCleaning->GetOutputName()); //identified fat jets
jetplusmet->SetFatJetsFromBranch(kFALSE);
jetplusmet->SetJetsName(jetCleaning->GetOutputName()); //identified jets
jetplusmet->SetJetsFromBranch(kFALSE);
jetplusmet->SetElectronsName(electronCleaning->GetOutputName());
jetplusmet->SetElectronsFromBranch(kFALSE);
jetplusmet->SetMuonsName(muonIdLooseMod->GetOutputName());
jetplusmet->SetMuonsFromBranch(kFALSE);
jetplusmet->SetPhotonsName(photonCleaningMod->GetOutputName());
jetplusmet->SetPhotonsFromBranch(kFALSE);
jetplusmet->ApplyResolvedPresel(kTRUE);
jetplusmet->ApplyTopPresel(kFALSE);
jetplusmet->ApplyWlepPresel(kTRUE);
jetplusmet->ApplyZeePresel(kTRUE);
jetplusmet->ApplyZmmPresel(kTRUE);
jetplusmet->ApplyMetPresel(kTRUE);
jetplusmet->ApplyVbfPresel(kFALSE);
jetplusmet->ApplyGjetPresel(kTRUE);
jetplusmet->SetMinFatJetPt(200);
jetplusmet->SetMinTagJetPt(110);
jetplusmet->SetMinMet(150);
jetplusmet->SetMinPhotonPt(160);
jetplusmet->SkipEvents(kFALSE);
//------------------------------------------------------------------------------------------------
// prepare the extended MVA met
//------------------------------------------------------------------------------------------------
FillerXlMet *extendedMetFiller = new FillerXlMet();
extendedMetFiller->SetIsData(isData);
extendedMetFiller->SetJetsFromBranch(kFALSE);
extendedMetFiller->SetJetsName(pubJet->GetOutputName());
extendedMetFiller->SetMuonsFromBranch(kTRUE);
//extendedMetFiller->SetMuonsName(muonIdLooseMod->GetOutputName());
extendedMetFiller->SetElectronsFromBranch(kTRUE);
//extendedMetFiller->SetElectronsName(electronCleaning->GetOutputName());
extendedMetFiller->SetTausFromBranch(kTRUE);
extendedMetFiller->SetTausName("HPSTaus");
extendedMetFiller->SetPhotonsFromBranch(kTRUE);
//extendedMetFiller->SetPhotonsName(photonCleaningMod->GetOutputName());
extendedMetFiller->SetPVFromBranch(kFALSE);
extendedMetFiller->SetPVName(goodPVFilterMod->GetOutputName());
extendedMetFiller->SetXlMetName("PFMetMVA");
//------------------------------------------------------------------------------------------------
// prepare the extended jets with QG/color pull information
//------------------------------------------------------------------------------------------------
FillerXlJets *boostedJetsFiller = new FillerXlJets;
boostedJetsFiller->SetJetsName(jetCleaning->GetOutputName());
boostedJetsFiller->SetJetsFromBranch(kFALSE);
//------------------------------------------------------------------------------------------------
// prepare the extended jets with substructure information
//------------------------------------------------------------------------------------------------
FillerXlFatJets *boostedFatJetsFiller = new FillerXlFatJets;
boostedFatJetsFiller->FillTopSubJets(kFALSE);
boostedFatJetsFiller->SetJetsName(fatJetCleaning->GetOutputName());
boostedFatJetsFiller->SetJetsFromBranch(kFALSE);
boostedFatJetsFiller->SetConeSize(0.8);
//------------------------------------------------------------------------------------------------
// prepare the reduced isolated particles
//------------------------------------------------------------------------------------------------
FillerXsIsoParticles *boostedXsIsoParticlesFiller = new FillerXsIsoParticles;
boostedXsIsoParticlesFiller->FillXsMuons(kTRUE);
boostedXsIsoParticlesFiller->FillXsElectrons(kTRUE);
boostedXsIsoParticlesFiller->FillXsTaus(kTRUE);
boostedXsIsoParticlesFiller->FillXsPhotons(kTRUE);
boostedXsIsoParticlesFiller->SetMuonsName(muonIdLooseMod->GetOutputName());
boostedXsIsoParticlesFiller->SetMuonsFromBranch(kFALSE);
boostedXsIsoParticlesFiller->SetIsoMuonsName(muonIdIsoMod->GetOutputName());
boostedXsIsoParticlesFiller->SetIsoMuonsFromBranch(kFALSE);
boostedXsIsoParticlesFiller->SetElectronsName(eleIdMod->GetOutputName());
boostedXsIsoParticlesFiller->SetElectronsFromBranch(kFALSE);
boostedXsIsoParticlesFiller->SetTausName(pftauCleaningMod->GetOutputName());
boostedXsIsoParticlesFiller->SetTausFromBranch(kFALSE);
boostedXsIsoParticlesFiller->SetPhotonsName(photonCleaningMod->GetOutputName());
boostedXsIsoParticlesFiller->SetPhotonsFromBranch(kFALSE);
//------------------------------------------------------------------------------------------------
// keep the skimmed collections for further usage
//------------------------------------------------------------------------------------------------
//SkimMod<PFCandidate> *skmPFCandidates = new SkimMod<PFCandidate>;
//skmPFCandidates->SetBranchName(Names::gkPFCandidatesBrn);
//skmPFCandidates->SetPublishArray(kTRUE);
SkimJetsMod *skmJets = new SkimJetsMod;
skmJets->SetBranchName(jetCleaning->GetOutputName());
skmJets->SetColFromBranch(kFALSE);
skmJets->SetColMarkFilter(kFALSE);
skmJets->SetPublishArray(kTRUE);
SkimMod<TriggerObject> *skmTrigger = new SkimMod<TriggerObject>;
skmTrigger->SetBranchName(hltModP->GetOutputName());
skmTrigger->SetColFromBranch(kFALSE);
skmTrigger->SetColMarkFilter(kFALSE);
skmTrigger->SetPublishArray(kTRUE);
//------------------------------------------------------------------------------------------------
// save all this in an output ntuple
//------------------------------------------------------------------------------------------------
OutputMod *outMod = new OutputMod;
outMod->SetUseBrDep(kFALSE);
outMod->SetKeepTamBr(kFALSE);
outMod->SetFileName(ntupleFile);
outMod->SetMaxFileSize(4096);
outMod->Drop("*");
outMod->Keep(Names::gkMCEvtInfoBrn);
outMod->Keep(Names::gkMCPartBrn);
outMod->Keep(Names::gkPVBeamSpotBrn);
outMod->Keep(Names::gkPileupInfoBrn);
outMod->Keep(Names::gkPileupEnergyDensityBrn);
outMod->Keep("PFMet");
outMod->AddNewBranch("XlEvtSelData");
//outMod->AddNewBranch(TString("Skm") + Names::gkPFCandidatesBrn);
outMod->AddNewBranch(TString("Skm") + hltModP->GetOutputName());
outMod->AddNewBranch("PFMetMVA");
outMod->AddNewBranch("XlJets");
outMod->AddNewBranch("XlFatJets");
outMod->AddNewBranch("XlSubJets");
outMod->AddNewBranch("XsMuons");
outMod->AddNewBranch("XsElectrons");
outMod->AddNewBranch("XsTaus");
outMod->AddNewBranch("XsPhotons");
//------------------------------------------------------------------------------------------------
// making analysis chain
//------------------------------------------------------------------------------------------------
runLumiSel ->Add(goodPVFilterMod);
goodPVFilterMod ->Add(hltModP);
hltModP ->Add(sepPuMod);
sepPuMod ->Add(muonIdIsoMod);
muonIdIsoMod ->Add(muonIdLooseMod);
muonIdLooseMod ->Add(eleIdMod);
eleIdMod ->Add(electronCleaning);
electronCleaning ->Add(merger);
merger ->Add(photonIdMod);
photonIdMod ->Add(photonCleaningMod);
photonCleaningMod ->Add(pftauIdMod);
pftauIdMod ->Add(pftauCleaningMod);
pftauCleaningMod ->Add(pubJet);
pubJet ->Add(jetCorr);
jetCorr ->Add(jetId);
jetId ->Add(jetCleaning);
jetCleaning ->Add(pubFastJet);
pubFastJet ->Add(fatJetCorr);
fatJetCorr ->Add(fatJetId);
fatJetId ->Add(fatJetCleaning);
fatJetCleaning ->Add(jetplusmet);
jetplusmet ->Add(extendedMetFiller);
extendedMetFiller ->Add(boostedJetsFiller);
boostedJetsFiller ->Add(boostedFatJetsFiller);
boostedFatJetsFiller ->Add(boostedXsIsoParticlesFiller);
boostedXsIsoParticlesFiller->Add(skmJets);
skmJets ->Add(skmTrigger);
skmTrigger ->Add(outMod);
//------------------------------------------------------------------------------------------------
// Say what we are doing
//------------------------------------------------------------------------------------------------
printf("\n==== PARAMETER SUMMARY FOR THIS JOB ====\n");
printf("\n JSON file: %s\n",jsonFile.Data());
printf("\n Rely on Catalog: %s\n",cataDir.Data());
printf(" -> Book: %s Dataset: %s Skim: %s Fileset: %s <-\n",book,dataset,skim,fileset);
printf("\n Root output: %s\n",rootFile.Data());
printf("\n Ntuple output: %s\n\n",(ntupleFile + TString(".root")).Data());
printf("\n========================================\n");
//------------------------------------------------------------------------------------------------
// run the analysis after successful initialisation
//------------------------------------------------------------------------------------------------
ana->Run(!gROOT->IsBatch());
return;
}
//--------------------------------------------------------------------------------------------------
void runFlatMonoJet(const char *fileset = "0000",
const char *skim = "noskim",
const char *dataset = "s12-zjets-ptz70-100-v7c",
const char *book = "t2mit/filefi/032",
const char *catalogDir = "/home/cmsprod/catalog",
const char *outputName = "MonoJet_August13",
int nEvents = 100)
{
//------------------------------------------------------------------------------------------------
// some parameters get passed through the environment
//------------------------------------------------------------------------------------------------
TString cataDir = getCatalogDir(catalogDir);
TString mitData = mithep::Utils::GetEnv("MIT_DATA");
TString json = mithep::Utils::GetEnv("MIT_PROD_JSON");
TString jsonFile = getJsonFile("/home/cmsprod/cms/json");
Bool_t isData = (json.CompareTo("~") != 0);
printf("\n Initialization worked. Data?: %d\n\n",isData);
std::cout<<"*********** Is data?? **********"<<isData<<std::endl;
//------------------------------------------------------------------------------------------------
// some global setups
//------------------------------------------------------------------------------------------------
using namespace mithep;
gDebugMask = (Debug::EDebugMask) (Debug::kGeneral | Debug::kTreeIO);
gDebugLevel = 3;
// Caching and how
Int_t local = 1, cacher = 1;
// local = 0 - as is,
// 1 - /mnt/hadoop (MIT:SmartCache - preload one-by-one)
// 2 - /mnt/hadoop (MIT:SmartCache - preload complete fileset)
// 3 - ./ (xrdcp - preload one-by-one)
// cacher = 0 - no file by file caching
// 1 - file by file caching on
//------------------------------------------------------------------------------------------------
// set up information
//------------------------------------------------------------------------------------------------
RunLumiSelectionMod *runLumiSel = new RunLumiSelectionMod;
runLumiSel->SetAcceptMC(!isData);
runLumiSel->SetAbortIfNotAccepted(kFALSE); // accept all events if there is no valid JSON file
// only select on run- and lumisection numbers when valid json file present
if (json.CompareTo("~") != 0 && json.CompareTo("-") != 0) {
printf(" runBoostedV() - adding jsonFile: %s\n",jsonFile.Data());
runLumiSel->AddJSONFile(jsonFile.Data());
}
if (json.CompareTo("-") == 0) {
printf("\n WARNING -- Looking at data without JSON file: always accept.\n\n");
runLumiSel->SetAbortIfNotAccepted(kFALSE); // accept all events if there is no valid JSON file
}
printf("\n Run lumi worked. \n\n");
// Generator info
GeneratorMod *generatorMod = new GeneratorMod;
generatorMod->SetPrintDebug(kFALSE);
generatorMod->SetPtLeptonMin(0.0);
generatorMod->SetEtaLeptonMax(2.7);
generatorMod->SetPtPhotonMin(0.0);
generatorMod->SetEtaPhotonMax(2.7);
generatorMod->SetPtRadPhotonMin(0.0);
generatorMod->SetEtaRadPhotonMax(2.7);
generatorMod->SetIsData(isData);
generatorMod->SetFillHist(!isData);
generatorMod->SetApplyISRFilter(kFALSE);
generatorMod->SetApplyVVFilter(kFALSE);
generatorMod->SetApplyVGFilter(kFALSE);
generatorMod->SetFilterBTEvents(kFALSE);
//-----------------------------------------------------------------------------------------------------------
// HLT information : trigger not applied (neither for data nor for MC, store info to apply selection offline
//-----------------------------------------------------------------------------------------------------------
HLTMod *hltModP = new HLTMod("HLTModP");
// monojet triggers
const int nMjtTrigs = 12;
TString monoJetTriggers[nMjtTrigs] = { "HLT_MonoCentralPFJet80_PFMETnoMu105_NHEF0p95_v4",
"HLT_MonoCentralPFJet80_PFMETnoMu105_NHEF0p95_v3",
"HLT_MonoCentralPFJet80_PFMETnoMu105_NHEF0p95_v1",
"HLT_MonoCentralPFJet80_PFMETnoMu95_NHEF0p95_v5",
"HLT_MonoCentralPFJet80_PFMETnoMu95_NHEF0p95_v4",
"HLT_MonoCentralPFJet80_PFMETnoMu95_NHEF0p95_v3",
"HLT_MonoCentralPFJet80_PFMETnoMu95_NHEF0p95_v2",
"HLT_MET120_HBHENoiseCleaned_v6",
"HLT_MET120_HBHENoiseCleaned_v5",
"HLT_MET120_HBHENoiseCleaned_v4",
"HLT_MET120_HBHENoiseCleaned_v3",
"HLT_MET120_HBHENoiseCleaned_v2" };
for (int i=0; i<nMjtTrigs; i++)
hltModP->AddTrigger(TString("!+"+monoJetTriggers[i]),0,999999);
// VBF triggers
const int nVbfTrigs = 7;
TString vbfTriggers[nVbfTrigs] = { "HLT_DiPFJet40_PFMETnoMu65_MJJ800VBF_AllJets_v9",
"HLT_DiPFJet40_PFMETnoMu65_MJJ800VBF_AllJets_v8",
"HLT_DiPFJet40_PFMETnoMu65_MJJ800VBF_AllJets_v6",
"HLT_DiPFJet40_PFMETnoMu65_MJJ800VBF_AllJets_v5",
"HLT_DiPFJet40_PFMETnoMu65_MJJ800VBF_AllJets_v4",
"HLT_DiPFJet40_PFMETnoMu65_MJJ800VBF_AllJets_v3",
"HLT_DiPFJet40_PFMETnoMu65_MJJ800VBF_AllJets_v2" };
for (int i=0; i<nVbfTrigs; i++)
hltModP->AddTrigger((TString("!+")+vbfTriggers[i]).Data(),0,999999);
hltModP->SetBitsName("HLTBits");
hltModP->SetTrigObjsName("MyHltPhotObjs");
hltModP->SetAbortIfNotAccepted(isData);
hltModP->SetPrintTable(kFALSE);
//------------------------------------------------------------------------------------------------
// split pfcandidates to PFPU and PFnoPU
//------------------------------------------------------------------------------------------------
SeparatePileUpMod* SepPUMod = new SeparatePileUpMod;
// SepPUMod->SetUseAllVerteces(kFALSE);
// SepPUMod->SetVertexName("OutVtxCiC");
SepPUMod->SetPFNoPileUpName("pfnopileupcands");
SepPUMod->SetPFPileUpName("pfpileupcands");
SepPUMod->SetCheckClosestZVertex(kFALSE);
//------------------------------------------------------------------------------------------------
// select events with a good primary vertex
//------------------------------------------------------------------------------------------------
GoodPVFilterMod *goodPVFilterMod = new GoodPVFilterMod;
goodPVFilterMod->SetMinVertexNTracks(0);
goodPVFilterMod->SetMinNDof (4.0);
goodPVFilterMod->SetMaxAbsZ (24.0);
goodPVFilterMod->SetMaxRho (2.0);
goodPVFilterMod->SetIsMC(!isData);
goodPVFilterMod->SetVertexesName("PrimaryVertexes");
//------------------------------------------------------------------------------------------------
// object id and cleaning sequence
//------------------------------------------------------------------------------------------------
//-----------------------------------
// Lepton Selection
//-----------------------------------
ElectronIDMod* eleIdMod = new ElectronIDMod;
eleIdMod->SetPtMin(10.);
eleIdMod->SetEtaMax(2.5);
eleIdMod->SetApplyEcalFiducial(kTRUE);
eleIdMod->SetIDType("CustomLoose");
eleIdMod->SetIsoType("PFIso_HggLeptonTag2012HCP");
eleIdMod->SetPFNoPileUpName("pfnopileupcands");
eleIdMod->SetApplyConversionFilterType1(kTRUE);
eleIdMod->SetApplyConversionFilterType2(kFALSE);
eleIdMod->SetChargeFilter(kFALSE);
eleIdMod->SetApplyD0Cut(kTRUE);
eleIdMod->SetApplyDZCut(kTRUE);
eleIdMod->SetWhichVertex(0);
eleIdMod->SetNExpectedHitsInnerCut(0);
eleIdMod->SetGoodElectronsName("GoodElectronsBS");
eleIdMod->SetRhoType(RhoUtilities::CMS_RHO_RHOKT6PFJETS);
MuonIDMod *muonIdWW = new MuonIDMod;
muonIdWW->SetOutputName("HWWMuons");
muonIdWW->SetIntRadius(0.0);
muonIdWW->SetClassType("GlobalTracker");
muonIdWW->SetIDType("WWMuIdV4");
muonIdWW->SetIsoType("IsoRingsV0_BDTG_Iso");
muonIdWW->SetApplyD0Cut(kTRUE);
muonIdWW->SetApplyDZCut(kTRUE);
muonIdWW->SetWhichVertex(0);
muonIdWW->SetRhoType(RhoUtilities::CMS_RHO_RHOKT6PFJETS);
muonIdWW->SetPtMin(10.);
muonIdWW->SetEtaCut(2.4);
MuonIDMod *muonIdPOG = new MuonIDMod;
muonIdPOG->SetOutputName("POGMuons");
muonIdPOG->SetClassType("GlobalTracker");
muonIdPOG->SetIDType("NoId");
muonIdPOG->SetApplyD0Cut(true);
muonIdPOG->SetD0Cut(0.2);
muonIdPOG->SetApplyDZCut(true);
muonIdPOG->SetDZCut(0.5);
//muonIdPOG->SetIsoType("PFIsoBetaPUCorrected");
//muonIdPOG->SetPFNoPileUpName("pfnopileupcands");
//muonIdPOG->SetPFPileUpName("pfpileupcands");
muonIdPOG->SetIsoType("NoIso");
muonIdPOG->SetPtMin(10.);
muonIdPOG->SetEtaCut(2.4);
MuonIDMod* muonIdIso = new MuonIDMod;
muonIdIso->SetOutputName("IsolatedPOGMuons");
muonIdIso->SetClassType("GlobalorTracker");
muonIdIso->SetIDType("NoId");
muonIdIso->SetApplyD0Cut(true);
muonIdIso->SetD0Cut(0.2);
muonIdIso->SetApplyDZCut(true);
muonIdIso->SetDZCut(0.5);
muonIdIso->SetIsoType("PFIsoBetaPUCorrected"); //h
muonIdIso->SetPFNoPileUpName("pfnopileupcands");
muonIdIso->SetPFPileUpName("pfpileupcands");
muonIdIso->SetPtMin(10.);
muonIdIso->SetEtaCut(2.4);
MuonIDMod *muonId = muonIdPOG;
//MuonIDMod *muonId = muonIdIso;
ElectronCleaningMod *electronCleaning = new ElectronCleaningMod;
electronCleaning->SetCleanMuonsName(muonId->GetOutputName());
electronCleaning->SetGoodElectronsName(eleIdMod->GetOutputName());
electronCleaning->SetCleanElectronsName("CleanElectrons");
MergeLeptonsMod *merger = new MergeLeptonsMod;
merger->SetMuonsName(muonId->GetOutputName());
merger->SetElectronsName(electronCleaning->GetOutputName());
merger->SetMergedName("MergedLeptons");
//-----------------------------------
// Photon Regression + ID
//-----------------------------------
PhotonMvaMod *photreg = new PhotonMvaMod;
photreg->SetRegressionVersion(3);
photreg->SetRegressionWeights(std::string(
(gSystem->Getenv("MIT_DATA") + TString("/gbrv3ph_52x.root")).Data()
));
photreg->SetOutputName("GoodPhotonsRegr");
photreg->SetApplyShowerRescaling(kTRUE);
photreg->SetMinNumPhotons(0);
photreg->SetIsData(isData);
PhotonIDMod *photonIDMod = new PhotonIDMod;
photonIDMod->SetPtMin(15.0);
photonIDMod->SetOutputName("GoodPhotons");
photonIDMod->SetIDType("MITMVAId");
photonIDMod->SetBdtCutBarrel(0.02);
photonIDMod->SetBdtCutEndcap(0.1);
photonIDMod->SetIdMVAType("2013FinalIdMVA_8TeV");
photonIDMod->SetApplyElectronVeto(kTRUE);
photonIDMod->SetApplyFiduciality(kTRUE);
photonIDMod->SetIsData(isData);
photonIDMod->SetPhotonsFromBranch(kFALSE);
photonIDMod->SetInputName(photreg->GetOutputName());
PFTauIDMod *pftauIDMod = new PFTauIDMod;
pftauIDMod->SetPFTausName("HPSTaus");
pftauIDMod->SetIsLooseId(kFALSE);
pftauIDMod->SetIsHPSSel(kTRUE); // to get >= 5_3_14 samples running
PhotonCleaningMod *photonCleaningMod = new PhotonCleaningMod;
photonCleaningMod->SetCleanElectronsName(electronCleaning->GetOutputName());
photonCleaningMod->SetGoodPhotonsName(photonIDMod->GetOutputName());
photonCleaningMod->SetCleanPhotonsName("CleanPhotons");
PFTauCleaningMod *pftauCleaningMod = new PFTauCleaningMod;
pftauCleaningMod->SetGoodPFTausName(pftauIDMod->GetGoodPFTausName());
pftauCleaningMod->SetCleanMuonsName(muonId->GetOutputName());
PublisherMod<PFJet,Jet> *pubJet = new PublisherMod<PFJet,Jet>("JetPub");
pubJet->SetInputName("AKt5PFJets");
pubJet->SetOutputName("PubAKt5PFJets");
JetCorrectionMod *jetCorr = new JetCorrectionMod;
if(isData){
jetCorr->AddCorrectionFromFile(std::string((gSystem->Getenv("CMSSW_BASE") + TString("/src/MitPhysics/data/Summer13_V1_DATA_L1FastJet_AK5PF.txt")).Data()));
jetCorr->AddCorrectionFromFile(std::string((gSystem->Getenv("CMSSW_BASE") + TString("/src/MitPhysics/data/Summer13_V1_DATA_L2Relative_AK5PF.txt")).Data()));
jetCorr->AddCorrectionFromFile(std::string((gSystem->Getenv("CMSSW_BASE") + TString("/src/MitPhysics/data/Summer13_V1_DATA_L3Absolute_AK5PF.txt")).Data()));
jetCorr->AddCorrectionFromFile(std::string((gSystem->Getenv("CMSSW_BASE") + TString("/src/MitPhysics/data/Summer13_V1_DATA_L2L3Residual_AK5PF.txt")).Data()));
}
else {
jetCorr->AddCorrectionFromFile(std::string((gSystem->Getenv("CMSSW_BASE") + TString("/src/MitPhysics/data/Summer13_V1_MC_L1FastJet_AK5PF.txt")).Data()));
jetCorr->AddCorrectionFromFile(std::string((gSystem->Getenv("CMSSW_BASE") + TString("/src/MitPhysics/data/Summer13_V1_MC_L2Relative_AK5PF.txt")).Data()));
jetCorr->AddCorrectionFromFile(std::string((gSystem->Getenv("CMSSW_BASE") + TString("/src/MitPhysics/data/Summer13_V1_MC_L3Absolute_AK5PF.txt")).Data()));
}
jetCorr->SetInputName(pubJet->GetOutputName());
jetCorr->SetCorrectedName("CorrectedJets");
JetIDMod *jetID = new JetIDMod;
jetID->SetInputName(jetCorr->GetOutputName());
jetID->SetPtCut(30.0);
jetID->SetEtaMaxCut(4.7);
jetID->SetJetEEMFractionMinCut(0.00);
jetID->SetOutputName("GoodJets");
jetID->SetApplyBetaCut(kFALSE);
jetID->SetApplyMVACut(kTRUE);
JetCleaningMod *jetCleaning = new JetCleaningMod;
jetCleaning->SetCleanElectronsName(electronCleaning->GetOutputName());
jetCleaning->SetCleanMuonsName(muonIdIso->GetOutputName()); // clean up isolated muons (instead of the loose ones)
jetCleaning->SetCleanPhotonsName(photonCleaningMod->GetOutputName());
jetCleaning->SetApplyPhotonRemoval(kTRUE);
jetCleaning->SetGoodJetsName(jetID->GetOutputName());
jetCleaning->SetCleanJetsName("CleanJets");
MetCorrectionMod *metCorrT0T1Shift = new MetCorrectionMod;
metCorrT0T1Shift->SetInputName("PFMet");
metCorrT0T1Shift->SetJetsName(pubJet->GetOutputName());
metCorrT0T1Shift->SetCorrectedJetsName(jetCorr->GetOutputName());
metCorrT0T1Shift->SetCorrectedName("PFMetT0T1Shift");
metCorrT0T1Shift->ApplyType0(kTRUE);
metCorrT0T1Shift->ApplyType1(kTRUE);
metCorrT0T1Shift->ApplyShift(kTRUE);
metCorrT0T1Shift->IsData(isData);
metCorrT0T1Shift->SetPrint(kFALSE);
MonoJetTreeWriter *jetplusmettree = new MonoJetTreeWriter("MonoJetTreeWriter");
jetplusmettree->SetTriggerObjectsName(hltModP->GetOutputName());
jetplusmettree->SetMetName(metCorrT0T1Shift->GetOutputName()); //corrected met
jetplusmettree->SetMetFromBranch(kFALSE);
jetplusmettree->SetPhotonsFromBranch(kFALSE);
jetplusmettree->SetPhotonsName(photonCleaningMod->GetOutputName());
jetplusmettree->SetElectronsFromBranch(kFALSE);
jetplusmettree->SetElectronsName(electronCleaning->GetOutputName());
jetplusmettree->SetMuonsFromBranch(kFALSE);
jetplusmettree->SetMuonsName(muonId->GetOutputName());
jetplusmettree->SetTausFromBranch(kFALSE);
jetplusmettree->SetTausName(pftauCleaningMod->GetOutputName());
jetplusmettree->SetJetsFromBranch(kFALSE);
jetplusmettree->SetJetsName(jetCleaning->GetOutputName());
jetplusmettree->SetRawJetsName(pubJet->GetOutputName());
jetplusmettree->SetPVFromBranch(kFALSE);
jetplusmettree->SetPVName(goodPVFilterMod->GetOutputName());
jetplusmettree->SetLeptonsName(merger->GetOutputName());
jetplusmettree->SetIsData(isData);
jetplusmettree->SetProcessID(0);
jetplusmettree->SetFillNtupleType(0);
//------------------------------------------------------------------------------------------------
// making analysis chain
//------------------------------------------------------------------------------------------------
// this is how it always starts
runLumiSel->Add(generatorMod);
generatorMod->Add(goodPVFilterMod);
goodPVFilterMod->Add(hltModP);
// photon regression
hltModP->Add(photreg);
// simple object id modules
photreg ->Add(SepPUMod);
SepPUMod ->Add(muonId);
muonId ->Add(eleIdMod);
eleIdMod ->Add(electronCleaning);
electronCleaning ->Add(merger);
merger ->Add(photonIDMod);
photonIDMod ->Add(photonCleaningMod);
photonCleaningMod->Add(pftauIDMod);
pftauIDMod ->Add(pftauCleaningMod);
pftauCleaningMod ->Add(pubJet);
pubJet ->Add(jetCorr);
jetCorr ->Add(metCorrT0T1Shift);
metCorrT0T1Shift ->Add(jetID);
jetID ->Add(muonIdIso);
muonIdIso ->Add(jetCleaning);
jetCleaning ->Add(jetplusmettree);
//------------------------------------------------------------------------------------------------
// setup analysis
//------------------------------------------------------------------------------------------------
Analysis *ana = new Analysis;
ana->SetUseCacher(cacher);
ana->SetUseHLT(kTRUE);
ana->SetKeepHierarchy(kTRUE);
ana->SetSuperModule(runLumiSel);
ana->SetPrintScale(100);
if (nEvents >= 0)
ana->SetProcessNEvents(nEvents);
//------------------------------------------------------------------------------------------------
// organize input
//------------------------------------------------------------------------------------------------
TString skimdataset = TString(dataset)+TString("/") +TString(skim);
TString bookstr = book;
Catalog *c = new Catalog(cataDir.Data());
Dataset *d = NULL;
if (TString(skim).CompareTo("noskim") == 0)
d = c->FindDataset(bookstr,dataset,fileset,local);
else
d = c->FindDataset(bookstr,skimdataset.Data(),fileset,local);
ana->AddDataset(d);
//ana->AddFile("/mnt/hadoop/cms/store/user/paus/filefi/032/r12a-met-j22-v1/C4AC0AB8-BA82-E211-B238-003048678FF4.root");
//------------------------------------------------------------------------------------------------
// organize output
//------------------------------------------------------------------------------------------------
TString rootFile = TString(outputName);
rootFile += TString("_") + TString(dataset) + TString("_") + TString(skim);
if (TString(fileset) != TString(""))
rootFile += TString("_") + TString(fileset);
rootFile += TString(".root");
ana->SetOutputName(rootFile.Data());
ana->SetCacheSize(0);
//------------------------------------------------------------------------------------------------
// Say what we are doing
//------------------------------------------------------------------------------------------------
printf("\n==== PARAMETER SUMMARY FOR THIS JOB ====\n");
printf("\n JSON file: %s\n",jsonFile.Data());
printf("\n Rely on Catalog: %s\n",cataDir.Data());
printf(" -> Book: %s Dataset: %s Skim: %s Fileset: %s <-\n",book,dataset,skim,fileset);
printf("\n Root output: %s\n\n",rootFile.Data());
printf("\n========================================\n");
//------------------------------------------------------------------------------------------------
// run the analysis after successful initialisation
//------------------------------------------------------------------------------------------------
ana->Run(kFALSE);
return;
}
