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root/cvsroot/UserCode/MitHzz4l/Selection/src/applySelection.cc

Comparing UserCode/MitHzz4l/Selection/src/applySelection.cc (file contents):
Revision 1.3 by khahn, Wed Sep 14 21:43:21 2011 UTC vs.
Revision 1.62 by dkralph, Mon Dec 17 17:12:21 2012 UTC

#	Line 4 | Line 4
4		#include <vector>                   // STL vector class
5		#include <iostream>                 // standard I/O
6		#include <iomanip>                  // functions to format standard I/O
7	<	#include <fstream>                  // functions for file I/O
8	<	#include <string>                   // C++ string class
9	<	#include <sstream>                  // class for parsing strings
10	<	#include <assert.h>
11	<	#include <stdlib.h>
12	<	#include <getopt.h>
7	>	#include <bitset>
8	>	#include <map>
9		using namespace std;
10
11		//
12	<	// ROOT headers
12	>	// root headers
13		//
14	<	#include <TROOT.h>                  // access to gROOT, entry point to ROOT system
15	<	#include <TSystem.h>                // interface to OS
16	<	#include <TFile.h>                  // file handle class
17	<	#include <TNtuple.h>
18	<	#include <TTree.h>                  // class to access ntuples
19	<	#include <TChain.h>                 //
20	<	#include <TBranch.h>                // class to access branches in TTree
21	<	#include <TClonesArray.h>           // ROOT array class
22	<	#include <TCanvas.h>                // class for drawing
23	<	#include <TH1F.h>                   // 1D histograms
24	<	#include <TBenchmark.h>             // class to track macro running statistics
25	<	#include <TLorentzVector.h>         // 4-vector class
26	<	#include <TVector3.h>               // 3D vector class
14	>	#include <TFile.h>
15	>	#include <TRegexp.h>
16	>	#include <TTree.h>
17	>	#include <TChain.h>
18	>	#include <TBranch.h>
19	>	#include <TClonesArray.h>
20	>
21	>
22	>	//
23	>	// TMVA
24	>	//
25	>	#include "TMVA/Reader.h"
26	>	#include "TMVA/Tools.h"
27	>	#include "TMVA/Config.h"
28	>	#include "TMVA/MethodBDT.h"
29	>
30	>	#include "FactorizedJetCorrector.h"
31	>	#include "JetCorrectorParameters.h"
32
33		//
34		// ntuple format headers
35		//
36	<	#include "HiggsAnaDefs.hh"
37	<	#include "TEventInfo.hh"
38	<	#include "TElectron.hh"
39	<	#include "TMuon.hh"
40	<	#include "TJet.hh"
41	<	#include "RunLumiRangeMap.h"
36	>	#include "EventHeader.h"
37	>	#include "Electron.h"
38	>	#include "Muon.h"
39	>	#include "Vertex.h"
40	>	#include "PFMet.h"
41	>	#include "PFJetCol.h"
42	>	#include "PFCandidate.h"
43	>	#include "PFCandidateCol.h"
44	>	#include "PileupInfoCol.h"
45	>	#include "PileupEnergyDensity.h"
46	>	#include "MCParticle.h"
47	>	#include "TriggerMask.h"
48	>	#include "TriggerTable.h"
49	>	#include "TriggerObject.h"
50	>	#include "TriggerObjectRel.h"
51	>	#include "Names.h"
52	>	#include "BaseMod.h"
53	>	#include "TriggerObjectsTable.h"
54	>	#include "JetIDMVA.h"
55
56		//
57	<	// utility headers
57	>	// our headers
58		//
59		#include "ParseArgs.h"
60	+	#include "MuonSelection.h"
61	+	#include "ElectronSelection.h"
62	+	#include "ElectronMomentumCorrection.h"
63	+	#include "JetSelection.h"
64	+	#include "IsolationSelection.h"
65	+	#include "ReferenceSelection.h"
66	+	#include "MuonMomentumCorrection.h"
67	+
68	+	#include "TriggerUtils.h"
69	+	#include "PassHLT.h"
70	+	#include "Angles.h"
71	+	#include "KinematicsStruct.h"
72	+	#include "InfoStruct.h"
73	+	#include "GenInfoStruct.h"
74	+	#include "WeightStruct.h"
75	+	#include "AngleTuple.h"
76	+	#include "JetInfoStruct.h"
77	+	#include "FOTuple.h"
78	+
79	+	#include "RunLumiRangeMap.h"
80		#include "SampleWeight.h"
81	<	#include "Selection.h"
82	<	#include "HZZCiCElectronSelection.h"
83	<	#include "SampleWeight.h"
81	>	#include "EfficiencyWeightsInterface.h"
82	>	#include "SelectionFuncs.h"
83	>
84	>	#include "SimpleLepton.h"
85	>
86	>	#ifndef CMSSW_BASE
87	>	#define CMSSW_BASE "../"
88	>	#endif
89	>
90	>	using namespace mithep;
91	>
92	>	//
93	>	// globals
94	>	//----------------------------------------------------------------------------
95	>	TH1D *hpu_2011, *hpu_2012;
96	>	RunLumiRangeMap rlrm;
97	>	vector<SimpleLepton> failingLeptons ; // for fake estimation
98	>	vector<SimpleLepton> passingLeptons;      // for fake estimation
99	>	vector<unsigned> cutvec;
100	>	vector<vector<unsigned> > zcutvec;
101	>	vector<vector<unsigned> > zzcutvec;
102	>	map<unsigned,float>       evtrhoMap;
103	>	TrigInfo ti;
104	>	vector<string> cutstrs;
105	>	bool passes_HLT;
106	>	vector<bool>   PFnoPUflag;;
107	>	map<TString, map<TString,int>* > counts;
108	>	ElectronMomentumCorrection electron_momentum_correction;
109	>	MuCorr *muCorr;
110	>	void addDummyZ2Lepotons(EventData &ret4l);
111	>	void setNtupleVals(ControlFlags &ctrl, EventData &ret4l, InfoStruct &evtinfo, Angles &angles, KinematicsStruct &kine,
112	>	JetInfoStruct &ji, WeightStruct &weights, EventHeader *info, Array<PFJet> *jetArr, Array<PFMet> *metArr,
113	>	vector<SimpleLepton> &simpleLeptonJets, FactorizedJetCorrector *fJetCorrector, Array<PileupInfo> *puArr,
114	>	Array<PileupEnergyDensity> *puDArr, JetIDMVA *fJetIDMVA, Array<Vertex> *vtxArr, bitset<1024> &triggerBits,
115	>	TriggerTable *hltTable, Array<TriggerObject> *hltObjArr, TriggerObjectsTable *fTrigObjs, AngleTuple *nt);
116	>	//----------------------------------------------------------------------------
117	>	void initRunLumiRangeMap(ControlFlags &ctrl)
118	>	//----------------------------------------------------------------------------
119	>	{
120	>	if(ctrl.jsonFile==""){
121	>	cout << "WARNING: running with empty jsonFile, so setting noJSON to true" << endl;
122	>	ctrl.noJSON = true;
123	>	}
124	>	rlrm.AddJSONFile(string(ctrl.jsonFile));
125	>	}
126
127	<	//#define THEIR_EVENTS
127	>	//
128	>	// prototypes
129	>	//----------------------------------------------------------------------------
130
131	<	//=== MAIN =================================================================================================
131	>	//
132	>	// MAIN
133	>	//----------------------------------------------------------------------------
134		int main(int argc, char** argv)
135	+	//----------------------------------------------------------------------------
136		{
137	+	vector<TString> cuts;
138	+	cuts.push_back("start"); // NOTE: is incremented in ReferenceSelection, so if you turn on JSONS be careful
139	+	cuts.push_back("trigger");
140	+	cuts.push_back("sfOsHiPt");
141	+	cuts.push_back("4<mZ2<120");
142	+	cuts.push_back("pt>20,10");
143	+	cuts.push_back("mll>4");
144	+	cuts.push_back("m4l>70");
145	+	cuts.push_back("mZ2>12");
146	+	cuts.push_back("m4l>100");
147	+
148	+	for(unsigned icut=0; icut<cuts.size(); icut++)
149	+	counts[cuts[icut]] = new map<TString,int>;
150	+
151	+	map<TString,map<TString,int>* >::iterator cit;
152	+	for(cit=counts.begin(); cit!=counts.end(); cit++) {
153	+	map<TString,int> *cts = (*cit).second;
154	+	(*cts)["all"]  = int(0);
155	+	(*cts)["4e"]   = int(0);
156	+	(*cts)["4m"]   = int(0);
157	+	(*cts)["2e2m"] = int(0);
158	+	}
159
160	+	string cmsswpath(CMSSW_BASE);
161	+	cmsswpath.append("/src");
162	+	bitset<1024> triggerBits;
163		vector<vector<string> > inputFiles;
164		inputFiles.push_back(vector<string>());
165	+	map<string,unsigned> entrymap; // number of unskimmed entries in each file
166
167		//
168		// args
169		//--------------------------------------------------------------------------------------------------------------
170		ControlFlags ctrl;
171		parse_args( argc, argv, ctrl );
65	–	if( ctrl.inputfile.empty() ||
66	–	ctrl.inputfile.empty() ) {
67	–	cerr << "usage: applySelection.exe <flags> " << endl;
68	–	cerr << "\tmandoatory flags : " << endl;
69	–	cerr << "\t--inputfile |  file containing a list of ntuples to run over" << endl;
70	–	cerr << "\t--outputfile | file to store  selected evet" << endl;
71	–	return 1;
72	–	}
172		ctrl.dump();
173	+	cout << "\n\nNOTE: now setting era with arguments... double check this doesnt mess something else up\n\n" << endl;
174	+	assert(ctrl.doFSR);
175
176		//
177		// File I/O
178		//--------------------------------------------------------------------------------------------------------------
179		TChain * chain = new TChain("Events");
180	<	ifstream f(ctrl.inputfile.c_str());
180	>	TChain * hltchain = new TChain("HLT");
181	>	TChain * runchain = new TChain(Names::gkRunTreeName);
182	>
183		string fname;
184	<	while (f >> fname) {
185	<	if( !(strncmp( fname.c_str(), "#", 1 ) ) ) continue; // skip commented lines
186	<	cout << "adding inputfile : " << fname.c_str() << endl;
187	<	chain->AddFile(fname.c_str());
184	>	unsigned total_unskimmed=0;
185	>	if( !ctrl.inputfiles.empty() ) {
186	>	ifstream f(ctrl.inputfiles.c_str());
187	>	while (f >> fname) {
188	>	if( !(strncmp( fname.c_str(), "#", 1 ) ) ) continue; // skip commented lines
189	>	if(fname.find("/store/") != string::npos) fname = "root://eoscms//"+fname;
190	>	cout << "adding inputfile : " << fname.c_str() << endl;
191	>	entrymap[string(fname.c_str())] = unskimmedEntries(fname.c_str());
192	>	cerr << "unskimmed entries: " << entrymap[string(fname.c_str())] << endl;
193	>	total_unskimmed += entrymap[string(fname.c_str())];
194	>	chain->AddFile(fname.c_str());
195	>	hltchain->AddFile(fname.c_str());
196	>	runchain->AddFile(fname.c_str());
197	>	}
198	>	} else {
199	>	if(ctrl.inputfile.find("/store/") != string::npos) ctrl.inputfile = "root://eoscms//"+ctrl.inputfile;
200	>	cout << "adding inputfile : " << ctrl.inputfile.c_str() << endl;
201	>	unsigned unsk_ents = unskimmedEntries(ctrl.inputfile.c_str());
202	>	entrymap[string(ctrl.inputfile.c_str())] = unsk_ents;
203	>	cerr << "unskimmed entries: " << unsk_ents << endl;
204	>	total_unskimmed += unsk_ents;
205	>	chain->AddFile(ctrl.inputfile.c_str());
206	>	hltchain->AddFile(ctrl.inputfile.c_str());
207	>	runchain->AddFile(ctrl.inputfile.c_str());
208		}
209	+	// write the total number of unskimmed events that went into making this output file to a text file
210	+	writeEntries(ctrl,total_unskimmed);
211	+	ctrl.totalMC = total_unskimmed;
212
213	+	const char * ofname;
214	+	if( strcmp( ctrl.outputfile.c_str(), "") ) {
215	+	ofname = ctrl.outputfile.c_str();
216	+	} else {
217	+	ofname = "tmp.root";
218	+	}
219		// table of cross section values
220	<	SimpleTable xstab("./data/xs.dat");
220	>	string xspath = (cmsswpath+string("/MitPhysics/data/xs.dat"));
221	>	cout << "xspath: " << xspath.c_str() << endl;
222	>	SimpleTable xstab(xspath.c_str());
223	>	if(ctrl.mc) {
224	>	getWeight(xstab,entrymap,chain); // test *now* whether we've got the xs in here, so it fails before it creates the output
225	>	}
226
227		//
228		// Setup
229		//--------------------------------------------------------------------------------------------------------------
230	<	TH1F * h_evt = new TH1F("hevt", "hevt", 2, 0, 2 );
231	<	TH1F * h_evtfail = new TH1F("hevtfail", "hevtfail", 1024, 0, 1024 );
232	<	TNtuple * passtuple = new TNtuple( "passtuple", "passtuple", "run:evt:lumi:channel:mZ1:mZ2:m4l:pt4l:w" );
233	<	initCiCSelection();
234	<	initRunLumiRangeMap();
230	>	Angles angles;
231	>	KinematicsStruct kine;
232	>	InfoStruct evtinfo;
233	>	WeightStruct weights;
234	>	GenInfoStruct geninfo;
235	>	JetInfoStruct ji;
236	>	vector<SimpleLepton> simpleLeptonJets;
237	>
238	>	AngleTuple nt( (const char*)ofname, (const char*)"zznt");
239	>	nt.makeAngleBranch(angles);
240	>	nt.makeKinematicsBranch(kine);
241	>	nt.makeInfoBranch(evtinfo);
242	>	nt.makeJetInfoBranch(ji);
243	>	nt.makeJetAngleBranches("DataStruct/data/jetAngleVars.txt");
244	>
245	>	FOTuple *foTree=0;
246	>	if(ctrl.fakeScheme != "none") {
247	>	foTree = new FOTuple( nt.getFile(), (const char*)"FOtree");
248	>	foTree->makeInfoBranch(evtinfo);
249	>	foTree->makeFailedLeptonBranch(failingLeptons);
250	>	foTree->makePassedLeptonBranch(passingLeptons);
251	>	}
252
253	+	int genSampleType(0);
254	+	if(ctrl.mc) {
255	+	nt.makeWeightBranch(weights);
256	+	if(ctrl.fillGen) {
257	+	genSampleType = getGenSampleType(ofname);
258	+	if(genSampleType == -1) {
259	+	cout << "\ngenSampleType returned as -1, setting fillGen to false" << endl;
260	+	ctrl.fillGen = false;
261	+	} else
262	+	nt.makeGenInfoBranch(geninfo);
263	+	}
264	+	initEfficiencyWeights();
265	+	// initPUWeights();
266	+	} else {
267	+	if(!(ctrl.noJSON) )
268	+	initRunLumiRangeMap(ctrl);
269	+	}
270	+
271	+	initElectronIDMVAV1();
272	+	initTrigger();
273	+	initAnalysisTriggers(ti);
274	+	ti.dump();
275	+
276	+	if(ctrl.do_escale) {
277	+	string regPath("EGamma/EGammaAnalysisTools/data/eleEnergyRegWeights_V1.root");
278	+	// if(TString(getenv("HOSTNAME")).Contains(TRegexp("t3[bd][te][cs][hk]")))
279	+	regPath = cmsswpath + "/" + regPath;
280	+	electron_momentum_correction.initialize_regression(regPath);
281	+	if(ctrl.mc) {
282	+	if(ctrl.era == 2011) ctrl.smearing_scaling_dataset = "Fall11";
283	+	else                 ctrl.smearing_scaling_dataset = "Summer12_DR53X_HCP2012";
284	+	} else {
285	+	if(ctrl.era == 2011) ctrl.smearing_scaling_dataset = "Jan16ReReco";
286	+	else                 ctrl.smearing_scaling_dataset = "2012Jul13ReReco";
287	+	}
288	+	}
289	+	if(ctrl.correct_muon_momentum) {
290	+	muCorr = new MuCorr;
291	+	muCorr->corr2011 = new rochcor;
292	+	muCorr->corr2012 = new rochcor2012;
293	+	}
294	+
295	+	vector<TString> fJetCorrParsv;
296	+	vector<JetCorrectorParameters> correctionParameters;
297	+	FactorizedJetCorrector *fJetCorrector;
298	+	JetIDMVA *fJetIDMVA;
299	+	initJets(ctrl, cmsswpath, fJetCorrParsv, correctionParameters, fJetCorrector, fJetIDMVA);
300
301		//
302	<	// Loop
302	>	// Setup tree I/O
303		//--------------------------------------------------------------------------------------------------------------
103	–
104	–	//
105	–	// Access samples and fill histograms
304		TFile *inputFile=0;
305		TTree *eventTree=0;
306	<
307	<	// Data structures to store info from TTrees
308	<	mithep::TEventInfo *info    = new mithep::TEventInfo();
309	<	TClonesArray *electronArr   = new TClonesArray("mithep::TElectron");
310	<	TClonesArray *muonArr       = new TClonesArray("mithep::TMuon");
306	>	string currentFile("");
307	>
308	>	UInt_t fNMaxTriggers = TRIGGER_BIG_NUMBER;
309	>	EventHeader                   *info                    = new EventHeader();
310	>	Array<PFMet>                  *metArr                  = new Array<PFMet>();
311	>	Array<Electron>               *electronArr             = new Array<Electron>();
312	>	Array<Muon>                   *muonArr                 = new Array<Muon>();
313	>	Array<Vertex>                 *vtxArr                  = new Array<Vertex>();
314	>	Array<PFCandidate>            *pfArr                   = new Array<PFCandidate>();
315	>	Array<PFJet>                  *jetArr                  = new Array<PFJet>();
316	>	Array<PileupInfo>             *puArr                   = new Array<PileupInfo>();
317	>	Array<PileupEnergyDensity>    *puDArr                  = new Array<PileupEnergyDensity>();
318	>	Array<Track>                  *trkArr                  = new Array<Track>();
319	>	Array<MCParticle>             *mcArr                   = new Array<MCParticle>();
320	>	MCEventInfo                   *mcEvtInfo               = new MCEventInfo();
321	>	TriggerMask                   *trigMask                = new TriggerMask();
322	>	TriggerTable                  *hltTable                = new TriggerTable(fNMaxTriggers);
323	>	vector<string>                *hltTableStrings         = new vector<string>();
324	>	vector<string>                *hltLabelStrings         = new vector<string>();
325	>	Array<TriggerObject>          *hltObjArr               = new Array<TriggerObject>();
326	>	Array<TriggerObjectRel>       *hltRelsArr              = new Array<TriggerObjectRel>();
327	>	TriggerObjectsTable           *fTrigObjs               = new TriggerObjectsTable(hltTable,fNMaxTriggers);
328	>	RunInfo                       *runInfo                 = new RunInfo();
329
330	+	chain->SetBranchAddress(Names::gkEvtHeaderBrn,                &info);
331	+	chain->SetBranchAddress("PFMet",                              &metArr);
332	+	chain->SetBranchAddress(Names::gkElectronBrn,                 &electronArr);
333	+	chain->SetBranchAddress(Names::gkMuonBrn,                     &muonArr);
334	+	chain->SetBranchAddress(Names::gkPVBrn,                       &vtxArr);
335	+	chain->SetBranchAddress(Names::gkPFCandidatesBrn,             &pfArr);
336	+	chain->SetBranchAddress(Names::gkPFJetBrn,                    &jetArr);
337	+	if( ctrl.mc ) {
338	+	chain->SetBranchAddress(Names::gkPileupInfoBrn,             &puArr);
339	+	chain->SetBranchAddress(Names::gkMCPartBrn,                 &mcArr);
340	+	chain->SetBranchAddress(Names::gkMCEvtInfoBrn,              &mcEvtInfo);
341	+	}
342	+	chain->SetBranchAddress(Names::gkPileupEnergyDensityBrn,      &puDArr);
343	+	chain->SetBranchAddress(Names::gkTrackBrn,                    &trkArr);
344	+	chain->SetBranchAddress(Names::gkHltBitBrn,                   &trigMask);
345	+	chain->SetBranchAddress(Names::gkHltObjBrn,                   &hltObjArr);
346	+	chain->SetBranchAddress("HLTObjectsRelation",                 &hltRelsArr);
347	+	hltchain->SetBranchAddress(Names::gkHltTableBrn,              &hltTableStrings);
348	+	hltchain->SetBranchAddress(Names::gkHltLabelBrn,              &hltLabelStrings);
349
350	<	TBranch *infoBr;
116	<	TBranch *electronBr;
117	<	TBranch *muonBr;
350	>	runchain->SetBranchAddress(Names::gkRunInfoBrn, &runInfo);
351
352	<	//   chain->SetBranchStatus("*",0); //disable all branches
120	<	//   chain->SetBranchStatus("Info", 1);
121	<	//   chain->SetBranchStatus("Muon", 1);
122	<	//   chain->SetBranchStatus("Electron", 1);
352	>	Vertex              vtx;          // best primary vertex in the event
353
354	<	chain->SetBranchAddress("Info",       &info);
125	<	chain->SetBranchAddress("Electron", &electronArr);
126	<	chain->SetBranchAddress("Muon", &muonArr);
354	>	hltchain->GetEntry(0);
355
356	+	int imax = (ctrl.n_events_to_process < 0) ? chain->GetEntries() : ctrl.n_events_to_process;
357	+	cerr << "processing: " << imax << " ( / " << chain->GetEntries() << " )" << endl;
358
359	+	if(ctrl.mc && ctrl.debugOffMc) // necessary for batch mode -- we need debug output for, data but size is too large to store MC output
360	+	ctrl.debug = false;
361
362	<	cout << "nEntries: " << chain->GetEntries() << endl;
363	<	for(UInt_t ientry=0; ientry<chain->GetEntries(); ientry++) {
132	<
362	>	int lastHltEntry=-2;
363	>	for(UInt_t ientry=0; ientry<imax; ientry++) {
364		chain->GetEntry(ientry);
365	+	if(!(ientry%1000)) cerr << "entry: " << ientry << " ( / " << imax << " )" << endl;
366
367	<	// get event weight for this file
368	<	double xs=1,eventweight=1;
369	<	if(ctrl.mc) eventweight = xstab.Get(getname(chain).c_str()) / chain->GetEntries();
370	<
371	<	#ifdef THEIR_EVENTS
372	<	if( !( info->evtNum == 504867308  ||
373	<	info->evtNum == 368148849  ||
374	<	info->evtNum == 129514273  ||
375	<	info->evtNum == 286336207  ||
376	<	info->evtNum == 344708580  ||
377	<	info->evtNum == 30998576   ||
378	<	info->evtNum == 155679852  ||
379	<	info->evtNum == 394010457  ||
380	<	info->evtNum == 917379387  ||
381	<	info->evtNum == 78213037   ||
382	<	info->evtNum == 337493970  ||
383	<	info->evtNum == 1491724484 ||
384	<	info->evtNum == 480301165  ||
385	<	info->evtNum == 1038911933 ||
386	<	info->evtNum == 876658967  ||
387	<	info->evtNum == 966824024  ||
388	<	info->evtNum == 141954801  ||
389	<	info->evtNum == 160966858  ||
390	<	info->evtNum == 191231387  ||
391	<	info->evtNum == 66033190   ||
392	<	info->evtNum == 10347106   ||
393	<	info->evtNum == 107360878  ) ) continue;
394	<	#endif
395	<
396	<	unsigned evtfail = fails_HZZ4L_selection(ctrl, info, electronArr, muonArr, eventweight, passtuple );
397	<	h_evtfail->Fill( evtfail, eventweight );
398	<	cout << endl << endl;
399	<
400	<	} //end loop over data
401	<
402	<
403	<
404	<	delete info;
405	<	delete electronArr;
406	<	delete muonArr;
407	<
367	>	increment(counts,"start");
368	>	if( ctrl.debug ) {
369	>	cout << "-----------------------------------------------------------------" << endl;
370	>	cout << "-----------------------------------------------------------------" << endl;
371	>	cout << "Run: " << info->RunNum()
372	>	<< "\tEvt: " << info->EvtNum()
373	>	<< "\tLumi: " << info->LumiSec()
374	>	<< endl;
375	>	cerr << "Run: " << info->RunNum()
376	>	<< "\tEvt: " << info->EvtNum()
377	>	<< "\tLumi: " << info->LumiSec()
378	>	<< endl;
379	>	cout << "-----------------------------------------------------------------" << endl;
380	>	}
381	>
382	>	runchain->GetEvent(info->RunEntry());
383	>	hltchain->GetEntry(runInfo->HltEntry());
384	>	hltTable->Clear();
385	>	fillTriggerNames(hltTable, hltTableStrings );
386	>	// if(ctrl.debug && (lastHltEntry != runInfo->HltEntry())) hltTable->Print();
387	>	lastHltEntry = runInfo->HltEntry();
388	>	fillTriggerBits( hltTable, trigMask, triggerBits );
389	>	setHLTObjectRelations( hltObjArr, hltRelsArr, hltTableStrings, hltLabelStrings, fTrigObjs );
390	>	// printTriggerObjs( hltTable, fTrigObjs);
391	>
392	>	string fname = string(chain->GetFile()->GetEndpointUrl()->GetFile());
393	>	if(ctrl.debug) cout << "era is " << ctrl.era << endl;
394	>	if( ctrl.era == 0  ) {
395	>	setEra( fname, ctrl );
396	>	if(ctrl.debug) cout << "era is now " << ctrl.era << endl;
397	>	}
398	>
399	>	// pfNoPU
400	>	PFnoPUflag.clear();
401	>	int pfnopu_size = makePFnoPUArray( pfArr, PFnoPUflag, vtxArr );
402	>	assert(pfnopu_size == pfArr->GetEntries());
403	>
404	>	// trigger
405	>	if( string(chain->GetFile()->GetEndpointUrl()->GetFile()) != currentFile ) {
406	>	currentFile = string(chain->GetFile()->GetEndpointUrl()->GetFile());
407	>	}
408	>	if( ctrl.debug ) cout << "file is : " << currentFile  << endl;
409	>	passes_HLT = passHLT(ctrl, triggerBits, ti, info->RunNum(), hltTable, fTrigObjs); // NOTE: run value is not used if it's MC
410	>
411	>	// data/MC
412	>	if(ctrl.mc) {
413	>	if(ctrl.fillGen) fillGenInfo( mcArr, mcEvtInfo, geninfo, genSampleType, ctrl);
414	>	// NOTE: xs weight and npuw are reset in merge.cc
415	>	weights.w = getWeight(xstab,entrymap,chain)/ctrl.totalMC;
416	>	if(ctrl.debug) cout ;
417	>	weights.npu = getNPU(puArr, 0);
418	>	weights.npuw = getPUWeight(ctrl.era, fname, weights.npu);
419	>	} else {
420	>	// JSON
421	>	if(!(ctrl.noJSON) ) {
422	>	RunLumiRangeMap::RunLumiPairType rl(info->RunNum(), info->LumiSec());
423	>	if( !(rlrm.HasRunLumi(rl)) )  {
424	>	if( ctrl.debug ) cout << "fails JSON" << endl;
425	>	continue;
426	>	}
427	>	}
428	>	}
429	>
430	>	//
431	>	// lepton/kinematic selection ...
432	>	//
433	>	failingLeptons.clear();
434	>	passingLeptons.clear();
435	>	EventData ret4l = apply_HZZ4L_reference_selection(ctrl, info,
436	>	vtxArr,
437	>	pfArr,
438	>	puDArr,
439	>	electronArr,
440	>	&electronReferencePreSelection,
441	>	&electronReferenceIDMVASelectionV1, // not used anymore! (Blame the damn regression implementation, not me!)
442	>	&electronReferenceIsoSelection,
443	>	muonArr,
444	>	&muonReferencePreSelection,
445	>	&muonIDPFSelection,
446	>	&muonReferenceIsoSelection);
447	>
448	>	if( ctrl.debug ) cout << endl;
449	>
450	>	if(ctrl.fakeScheme == "none") { // fill angletuple if event passes full selection
451	>	if( ret4l.status.pass() ) {
452	>	setNtupleVals(ctrl, ret4l, evtinfo, angles, kine, ji, weights, info, jetArr, metArr, simpleLeptonJets, fJetCorrector, puArr, puDArr, fJetIDMVA, vtxArr, triggerBits, hltTable, hltObjArr, fTrigObjs, &nt);
453	>	nt.Fill();
454	>	} else {
455	>	if(ctrl.debug) cout << "failing with code : " << ret4l.status.selectionBits << endl;
456	>	}
457	>	} else { // fill FOtuple and angletuple if event has a good Z and one or two extra leptons
458	>	assert(ctrl.fakeScheme=="ZPlusF" || ctrl.fakeScheme=="ZPlusFF");
459	>	if(ret4l.status.selectionBits.test(PASS_GOODZ1) ) {
460	>	unsigned nleps = passingLeptons.size() + failingLeptons.size();
461	>	if( (nleps>=3 && ctrl.fakeScheme=="ZPlusF" ) || (nleps>=4 && ctrl.fakeScheme=="ZPlusFF" ) ) {
462	>	addDummyZ2Lepotons(ret4l);
463	>	setNtupleVals(ctrl, ret4l, evtinfo, angles, kine, ji, weights, info, jetArr, metArr, simpleLeptonJets, fJetCorrector, puArr, puDArr, fJetIDMVA, vtxArr, triggerBits, hltTable, hltObjArr, fTrigObjs, &nt);
464	>	nt.Fill();
465	>	foTree->Fill();
466	>	}
467	>	} else {
468	>	if(ctrl.debug) cout << "failing PASS_GOODZ1" << endl;
469	>	}
470	>	}
471	>	}
472
473	+	if(ctrl.fakeScheme != "none") {
474	+	foTree->getFile()->cd();
475	+	foTree->getTree()->Write();
476	+	}
477	+	nt.WriteClose();
478
479	<	//--------------------------------------------------------------------------------------------------------------
480	<	// Save Histograms;
481	<	//==============================================================================================================
482	<	const char * ofname;
483	<	if( strcmp( ctrl.outputfile.c_str(), "") ) {
484	<	ofname = ctrl.outputfile.c_str();
479	>	for(unsigned icut=0; icut<cuts.size(); icut++) {
480	>	map<TString,int> thisCount(*(counts[cuts[icut]]));
481	>	cerr << setw(20) << cuts[icut] << "\t" << setw(9) << thisCount["all"] << "  ("
482	>	<< setw(9) << thisCount["4e"] << setw(9) << thisCount["4m"] << setw(9) << thisCount["2e2m"] << ")" << endl;
483	>	}
484	>	}
485	>	//----------------------------------------------------------------------------------------
486	>	void addDummyZ2Lepotons(EventData &ret4l)
487	>	// for fake ntuples, we don't know which are the Z2 leptons yet, but need to fill something so we don't seg fault
488	>	{
489	>	SimpleLepton dum1,dum2;
490	>	dum1.vec.SetPtEtaPhiM(1,2,3,4);
491	>	dum2.vec.SetPtEtaPhiM(5,6,7,8);
492	>	ret4l.Z2leptons.push_back(dum1);
493	>	ret4l.Z2leptons.push_back(dum2);
494	>	}
495	>	//----------------------------------------------------------------------------------------
496	>	void setNtupleVals(ControlFlags &ctrl, EventData &ret4l, InfoStruct &evtinfo, Angles &angles, KinematicsStruct &kine,
497	>	JetInfoStruct &ji, WeightStruct &weights, EventHeader *info, Array<PFJet> *jetArr, Array<PFMet> *metArr,
498	>	vector<SimpleLepton> &simpleLeptonJets, FactorizedJetCorrector *fJetCorrector, Array<PileupInfo> *puArr,
499	>	Array<PileupEnergyDensity> *puDArr, JetIDMVA *fJetIDMVA, Array<Vertex> *vtxArr, bitset<1024> &triggerBits,
500	>	TriggerTable *hltTable, Array<TriggerObject> *hltObjArr, TriggerObjectsTable *fTrigObjs, AngleTuple *nt)
501	>	{
502	>	fillKinematics(ret4l,kine);
503	>	// fillMassErrors(ret4l,muonArr,electronArr,kine);
504	>	TLorentzVector pfmet; pfmet.SetPxPyPzE(metArr->At(0)->Mex(),metArr->At(0)->Mey(),0,0);
505	>	fillEventInfo( info, pfmet, evtinfo, ctrl.mc ? getNPU(puArr) : 0, vtxArr->GetEntries());
506	>	fillJets(ctrl, jetArr, simpleLeptonJets, fJetCorrector, puDArr, fJetIDMVA, vtxArr, ret4l);
507	>	fillJetInfo(simpleLeptonJets, ji, ctrl);
508	>	fillJetAngleBranches(ji, ret4l, nt, ctrl);
509	>	evtinfo.status = 0;
510	>	evtinfo.status = setHltBits(ti, triggerBits);
511	>
512	>	if(ctrl.fakeScheme == "none") {
513	>	fillAngles(ret4l,angles);
514	>
515	>	if( ctrl.mc) {
516	>	setEfficiencyWeights(ctrl, ctrl.era, ret4l, triggerBits, hltTable, hltObjArr, fTrigObjs, weights);
517	>	if(ctrl.debug)
518	>	cout << "w: " << weights.w << "\t" << "npuw: " << weights.npuw << "\t" << "won: " << weights.won << "\t" << "woff: " << weights.woff << endl;
519	>	}
520	>
521	>	if(ctrl.debug) {
522	>	stringstream ss;
523	>	ss << "PASS:: " << "\trun: " << evtinfo.run << "\tevt: " << evtinfo.evt << "\tlumi: " << evtinfo.lumi << "\tchannel: "
524	>	<< kine.channel << "\tm4l: " << kine.m4l << "\tmZ1: " << kine.mZ1 << "\tmZ2: " << kine.mZ2 << endl;
525	>	cerr << ss.str();
526	>	cout << ss.str();
527	>	}
528		} else {
529	<	ofname = "tmp.root";
529	>	// fillAngles(ret4l,angles); // at this point we don't know which four leptons will constitute the ZZ system, so doesn't make sense to fill the angles
530		}
531	<
188	<	TFile *file = new TFile(ofname, "RECREATE");
189	<	h_evt->Write();
190	<	h_evtfail->Write();
191	<	passtuple->Write();
192	<	file->Close();
193	<	delete file;
194	<
195	<	cerr << "done!" << endl;
196	<	}
197	<
198	<
199	<
531	>	}

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