ViewVC Help

View File | Revision Log | Show Annotations | Root Listing

root/cvsroot/UserCode/OSUT3Analysis/AnaTools/plugins/OSUAnalysis.cc

Comparing UserCode/OSUT3Analysis/AnaTools/plugins/OSUAnalysis.cc (file contents):
Revision 1.5 by lantonel, Wed Jan 30 10:52:40 2013 UTC vs.
Revision 1.123 by wulsin, Mon Aug 12 21:03:10 2013 UTC

#	Line 1 | Line 1
1		#include "OSUT3Analysis/AnaTools/plugins/OSUAnalysis.h"
2	–
2		OSUAnalysis::OSUAnalysis (const edm::ParameterSet &cfg) :
3		// Retrieve parameters from the configuration file.
4		jets_ (cfg.getParameter<edm::InputTag> ("jets")),
5		muons_ (cfg.getParameter<edm::InputTag> ("muons")),
6	+	secMuons_ (cfg.getParameter<edm::InputTag> ("secMuons")),
7		electrons_ (cfg.getParameter<edm::InputTag> ("electrons")),
8		events_ (cfg.getParameter<edm::InputTag> ("events")),
9		taus_ (cfg.getParameter<edm::InputTag> ("taus")),
#	Line 11 | Line 11 | OSUAnalysis::OSUAnalysis (const edm::Par
11		tracks_ (cfg.getParameter<edm::InputTag> ("tracks")),
12		genjets_ (cfg.getParameter<edm::InputTag> ("genjets")),
13		mcparticles_ (cfg.getParameter<edm::InputTag> ("mcparticles")),
14	+	stops_ (cfg.getParameter<edm::InputTag> ("stops")),
15		primaryvertexs_ (cfg.getParameter<edm::InputTag> ("primaryvertexs")),
16		bxlumis_ (cfg.getParameter<edm::InputTag> ("bxlumis")),
17		photons_ (cfg.getParameter<edm::InputTag> ("photons")),
18		superclusters_ (cfg.getParameter<edm::InputTag> ("superclusters")),
19		triggers_ (cfg.getParameter<edm::InputTag> ("triggers")),
20	+	trigobjs_ (cfg.getParameter<edm::InputTag> ("trigobjs")),
21	+	puFile_ (cfg.getParameter<string> ("puFile")),
22	+	deadEcalFile_ (cfg.getParameter<string> ("deadEcalFile")),
23	+	muonSFFile_ (cfg.getParameter<string> ("muonSFFile")),
24	+	dataPU_ (cfg.getParameter<string> ("dataPU")),
25	+	electronSFID_ (cfg.getParameter<string> ("electronSFID")),
26	+	muonSF_ (cfg.getParameter<string> ("muonSF")),
27	+	dataset_ (cfg.getParameter<string> ("dataset")),
28	+	datasetType_ (cfg.getParameter<string> ("datasetType")),
29	+	channels_  (cfg.getParameter<vector<edm::ParameterSet> >("channels")),
30	+	histogramSets_ (cfg.getParameter<vector<edm::ParameterSet> >("histogramSets")),
31	+	useEDMFormat_   (cfg.getParameter<bool>("useEDMFormat")),
32	+	treeBranchSets_   (cfg.getParameter<vector<edm::ParameterSet> >("treeBranchSets")),
33	+	plotAllObjectsInPassingEvents_ (cfg.getParameter<bool> ("plotAllObjectsInPassingEvents")),
34	+	doPileupReweighting_ (cfg.getParameter<bool> ("doPileupReweighting")),
35	+	applyLeptonSF_ (cfg.getParameter<bool> ("applyLeptonSF")),
36	+	applyBtagSF_ (cfg.getParameter<bool> ("applyBtagSF")),
37	+	minBtag_ (cfg.getParameter<int> ("minBtag")),
38	+	printEventInfo_      (cfg.getParameter<bool> ("printEventInfo")),
39	+	printAllTriggers_    (cfg.getParameter<bool> ("printAllTriggers")),
40	+	useTrackCaloRhoCorr_ (cfg.getParameter<bool> ("useTrackCaloRhoCorr")),
41	+	stopCTau_ (cfg.getParameter<vector<double> > ("stopCTau")),
42	+	GetPlotsAfterEachCut_ (cfg.getParameter<bool> ("GetPlotsAfterEachCut")),
43	+	verbose_ (cfg.getParameter<int> ("verbose"))
44	+	{
45	+
46	+	if (verbose_) printEventInfo_ = true;
47	+	if (verbose_) clog << "Beginning OSUAnalysis::OSUAnalysis constructor." << endl;
48	+
49	+	TH1::SetDefaultSumw2();
50	+
51	+	//create pile-up reweighting object, if necessary
52	+	if(datasetType_ != "data") {
53	+	if(doPileupReweighting_) puWeight_ = new PUWeight (puFile_, dataPU_, dataset_);
54	+	if (applyLeptonSF_){
55	+	muonSFWeight_ = new MuonSFWeight (muonSFFile_, muonSF_);
56	+	electronSFWeight_ = new ElectronSFWeight ("53X", electronSFID_);
57	+	}
58	+	if (applyBtagSF_){
59	+	bTagSFWeight_ = new BtagSFWeight;
60	+	}
61	+	}
62	+	if (datasetType_ == "signalMC" && regex_match (dataset_, regex ("stop.*to.*_.*mm.*")))
63	+	stopCTauWeight_ = new StopCTauWeight (stopCTau_.at(0), stopCTau_.at(1), stops_);
64
65
21	–	channels_  (cfg.getParameter<vector<edm::ParameterSet> >("channels"))
22	–
23	–	{
24	–	TH1::SetDefaultSumw2 ();
25	–
66		// Construct Cutflow Objects. These store the results of cut decisions and
67		// handle filling cut flow histograms.
68		masterCutFlow_ = new CutFlow (fs_);
69	<	std::vector<TFileDirectory> directories;
69	>
70	>	//always get vertex collection so we can assign the primary vertex in the event
71	>	objectsToGet.push_back("primaryvertexs");
72	>	objectsToPlot.push_back("primaryvertexs");
73	>	objectsToFlag.push_back("primaryvertexs");
74	>
75	>
76	>	//always get the MC particles to do GEN-matching
77	>	objectsToGet.push_back("mcparticles");
78	>
79	>	//always get the event collection to do pile-up reweighting
80	>	objectsToGet.push_back("events");
81	>
82	>
83	>	// Parse the tree variable definitions.
84	>	for (uint iBranchSet = 0; !useEDMFormat_ && iBranchSet<treeBranchSets_.size(); iBranchSet++) {
85	>	string tempInputCollection = treeBranchSets_.at(iBranchSet).getParameter<string> ("inputCollection");
86	>	if(tempInputCollection.find("pairs")!=string::npos) { clog << "Warning:  tree filling is not configured for pairs of objects, so will not work for collection: " << tempInputCollection << endl; }
87	>	objectsToGet.push_back(tempInputCollection);
88	>	objectsToFlag.push_back(tempInputCollection);
89	>
90	>	vector<string> branchList(treeBranchSets_.at(iBranchSet).getParameter<vector<string> >("branches"));
91	>
92	>	for (uint iBranch = 0; iBranch<branchList.size(); iBranch++) {
93	>	BranchSpecs br;
94	>	br.inputCollection = tempInputCollection;
95	>	br.inputVariable = branchList.at(iBranch);
96	>	TString newName = TString(br.inputCollection) + "_" + TString(br.inputVariable);
97	>	br.name = string(newName.Data());
98	>	treeBranches_.push_back(br);
99	>	if (verbose_>3) clog << "   Adding branch to BNTree: " << br.name << endl;
100	>	}
101	>
102	>	} // end   for (uint iBranchSet = 0; iBranchSet<treeBranchSets_.size(); iBranchSet++)
103	>
104	>
105	>	//parse the histogram definitions
106	>	for(uint currentHistogramSet = 0; currentHistogramSet != histogramSets_.size(); currentHistogramSet++){
107	>
108	>	string tempInputCollection = histogramSets_.at(currentHistogramSet).getParameter<string> ("inputCollection");
109	>	if(tempInputCollection == "muon-electron pairs") tempInputCollection = "electron-muon pairs";
110	>	if(tempInputCollection == "photon-muon pairs") tempInputCollection = "muon-photon pairs";
111	>	if(tempInputCollection == "photon-electron pairs") tempInputCollection = "electron-photon pairs";
112	>	if(tempInputCollection == "jet-electron pairs") tempInputCollection = "electron-jet pairs";
113	>	if(tempInputCollection == "jet-photon pairs") tempInputCollection = "photon-jet pairs";
114	>	if(tempInputCollection == "jet-muon pairs") tempInputCollection = "muon-jet pairs";
115	>	if(tempInputCollection == "event-muon pairs") tempInputCollection = "muon-event pairs";
116	>	if(tempInputCollection == "jet-met pairs")  tempInputCollection = "met-jet pairs";
117	>	if(tempInputCollection == "track-jet pairs")  tempInputCollection = "track-jet pairs";
118	>	if(tempInputCollection == "event-track pairs")   tempInputCollection = "track-event pairs";
119	>	if(tempInputCollection == "secondary muon-muon pairs")   tempInputCollection = "muon-secondary muon pairs";
120	>	if(tempInputCollection == "secondary jet-muon pairs")   tempInputCollection = "muon-secondary jet pairs";
121	>	if(tempInputCollection == "secondary photon-muon pairs")   tempInputCollection = "muon-secondary photon pairs";
122	>	if(tempInputCollection == "secondary jet-electron pairs")   tempInputCollection = "electron-secondary jet pairs";
123	>	if(tempInputCollection == "secondary jet-photon pairs")   tempInputCollection = "photon-secondary jet pairs";
124	>	if(tempInputCollection == "secondary jet-jet pairs")   tempInputCollection = "jet-secondary jet pairs";
125	>	if(tempInputCollection == "secondary electron-electron pairs")   tempInputCollection = "electron-secondary electron pairs";
126	>	if(tempInputCollection == "trigobj-electron pairs")   tempInputCollection = "electron-trigobj pairs";
127	>	if(tempInputCollection == "trigobj-muon pairs")   tempInputCollection = "muon-trigobj pairs";
128	>	if(tempInputCollection.find("pairs")==string::npos){ //just a single object
129	>	if(tempInputCollection.find("secondary")!=string::npos){//secondary object
130	>	if(tempInputCollection.find("secondary muons")!=string::npos){//treat secondary muons differently; allow for a different input collection
131	>	objectsToGet.push_back("secondary muons");
132	>	} else {
133	>	int spaceIndex = tempInputCollection.find(" ");
134	>	int secondWordLength = tempInputCollection.size() - spaceIndex;
135	>	objectsToGet.push_back(tempInputCollection.substr(spaceIndex+1,secondWordLength));
136	>	}
137	>	} else{
138	>	objectsToGet.push_back(tempInputCollection);
139	>	}
140	>	objectsToPlot.push_back(tempInputCollection);
141	>	objectsToFlag.push_back(tempInputCollection);
142	>	} else { //pair of objects, need to add the pair and the individual objects to the lists of things to Get/Plot/Cut
143	>	string obj1;
144	>	string obj2;
145	>	getTwoObjs(tempInputCollection, obj1, obj2);
146	>	string obj2ToGet = getObjToGet(obj2);
147	>	objectsToFlag.push_back(tempInputCollection);
148	>	objectsToFlag.push_back(obj1);
149	>	objectsToFlag.push_back(obj2);
150	>	objectsToPlot.push_back(tempInputCollection);
151	>	objectsToPlot.push_back(obj1);
152	>	objectsToPlot.push_back(obj2);
153	>	objectsToGet.push_back(tempInputCollection);
154	>	objectsToGet.push_back(obj1);
155	>	objectsToGet.push_back(obj2ToGet);
156	>	} // end else
157	>	if (find(objectsToPlot.begin(), objectsToPlot.end(), "events") != objectsToPlot.end())
158	>	objectsToGet.push_back("jets");
159	>
160	>
161	>	vector<edm::ParameterSet> histogramList_  (histogramSets_.at(currentHistogramSet).getParameter<vector<edm::ParameterSet> >("histograms"));
162	>
163	>	for(uint currentHistogram = 0; currentHistogram != histogramList_.size(); currentHistogram++){
164	>
165	>	vector<double> defaultValue;
166	>	defaultValue.push_back (-1.0);
167	>
168	>	histogram tempHistogram;
169	>	tempHistogram.inputCollection = tempInputCollection;
170	>	tempHistogram.name = histogramList_.at(currentHistogram).getParameter<string>("name");
171	>	tempHistogram.title = histogramList_.at(currentHistogram).getParameter<string>("title");
172	>	tempHistogram.bins = histogramList_.at(currentHistogram).getUntrackedParameter<vector<double> >("bins", defaultValue);
173	>	tempHistogram.variableBinsX = histogramList_.at(currentHistogram).getUntrackedParameter<vector<double> >("variableBinsX", defaultValue);
174	>	tempHistogram.variableBinsY = histogramList_.at(currentHistogram).getUntrackedParameter<vector<double> >("variableBinsY", defaultValue);
175	>	tempHistogram.inputVariables = histogramList_.at(currentHistogram).getParameter<vector<string> >("inputVariables");
176	>
177	>	bool histExists = false;
178	>	for (uint i=0; i<histograms.size(); i++) {
179	>	if (histograms.at(i).name == tempHistogram.name) { histExists = true; break; }
180	>	}
181	>	if (histExists) {
182	>	clog << "Warning:  histogram " << tempHistogram.name << " already exists; will not book an additional instance." << endl;
183	>	} else {
184	>	histograms.push_back(tempHistogram);
185	>	}
186	>
187	>	}
188	>	} //   for(uint currentHistogramSet = 0; currentHistogramSet != histogramSets_.size(); currentHistogramSet++)
189	>
190	>	//make unique vector of objects we need to plot (so we can book a histogram with the number of each object)
191	>	sort( objectsToPlot.begin(), objectsToPlot.end() );
192	>	objectsToPlot.erase( unique( objectsToPlot.begin(), objectsToPlot.end() ), objectsToPlot.end() );
193	>
194	>
195	>
196	>	//add histograms with the gen-matched id, mother id, and grandmother id
197	>	for(uint currentObjectIndex = 0; currentObjectIndex != objectsToPlot.size(); currentObjectIndex++){
198	>
199	>	string currentObject = objectsToPlot.at(currentObjectIndex);
200	>	if(currentObject != "muons" &&
201	>	currentObject != "secondary muons" &&
202	>	currentObject != "secondary electrons" &&
203	>	currentObject != "electrons" &&
204	>	currentObject != "taus" &&
205	>	currentObject != "tracks" &&
206	>	currentObject != "photons" &&
207	>	currentObject != "secondary photons"&&
208	>	currentObject != "superclusters")
209	>	continue;
210	>
211	>	histogram tempIdHisto;
212	>	histogram tempMomIdHisto;
213	>	histogram tempGmaIdHisto;
214	>	histogram tempIdVsMomIdHisto;
215	>	histogram tempIdVsGmaIdHisto;
216	>
217	>	tempIdHisto.inputCollection = currentObject;
218	>	tempMomIdHisto.inputCollection = currentObject;
219	>	tempGmaIdHisto.inputCollection = currentObject;
220	>	tempIdVsMomIdHisto.inputCollection = currentObject;
221	>	tempIdVsGmaIdHisto.inputCollection = currentObject;
222	>
223	>	if(currentObject == "secondary muons") currentObject = "secondaryMuons";
224	>	if(currentObject == "secondary photons") currentObject = "secondaryPhotons";
225	>	if(currentObject == "secondary electrons") currentObject = "secondaryElectrons";
226	>
227	>	currentObject = currentObject.substr(0, currentObject.size()-1);
228	>	tempIdHisto.name = currentObject+"GenMatchId";
229	>	tempMomIdHisto.name = currentObject+"GenMatchMotherId";
230	>	tempGmaIdHisto.name = currentObject+"GenMatchGrandmotherId";
231	>	tempIdVsMomIdHisto.name = currentObject+"GenMatchIdVsMotherId";
232	>	tempIdVsGmaIdHisto.name = currentObject+"GenMatchIdVsGrandmotherId";
233	>
234	>	currentObject.at(0) = toupper(currentObject.at(0));
235	>	tempIdHisto.title = currentObject+" Gen-matched Particle";
236	>	tempMomIdHisto.title = currentObject+" Gen-matched Particle's Mother";
237	>	tempGmaIdHisto.title = currentObject+" Gen-matched Particle's Grandmother";
238	>	tempIdVsMomIdHisto.title = currentObject+" Gen-matched Particle's Mother vs. Particle;Particle;Mother";
239	>	tempIdVsGmaIdHisto.title = currentObject+" Gen-matched Particle's Grandmother vs. Particle;Particle;Grandmother";
240	>
241	>
242	>	int maxNum = 25;
243	>	vector<double> binVector;
244	>	binVector.push_back(maxNum);
245	>	binVector.push_back(0);
246	>	binVector.push_back(maxNum);
247	>
248	>	tempIdHisto.bins = binVector;
249	>	tempIdHisto.inputVariables.push_back("genMatchedId");
250	>	tempMomIdHisto.bins = binVector;
251	>	tempMomIdHisto.inputVariables.push_back("genMatchedMotherId");
252	>	tempGmaIdHisto.bins = binVector;
253	>	tempGmaIdHisto.inputVariables.push_back("genMatchedGrandmotherId");
254	>	binVector.push_back(maxNum);
255	>	binVector.push_back(0);
256	>	binVector.push_back(maxNum);
257	>	tempIdVsMomIdHisto.bins = binVector;
258	>	tempIdVsMomIdHisto.inputVariables.push_back("genMatchedId");
259	>	tempIdVsMomIdHisto.inputVariables.push_back("genMatchedMotherIdReverse");
260	>	tempIdVsGmaIdHisto.bins = binVector;
261	>	tempIdVsGmaIdHisto.inputVariables.push_back("genMatchedId");
262	>	tempIdVsGmaIdHisto.inputVariables.push_back("genMatchedGrandmotherIdReverse");
263	>
264	>	histograms.push_back(tempIdHisto);
265	>	histograms.push_back(tempMomIdHisto);
266	>	histograms.push_back(tempGmaIdHisto);
267	>	histograms.push_back(tempIdVsMomIdHisto);
268	>	histograms.push_back(tempIdVsGmaIdHisto);
269	>	}
270
271
272		channel tempChannel;
273		//loop over all channels (event selections)
274		for(uint currentChannel = 0; currentChannel != channels_.size(); currentChannel++){
275	<
275	>
276		//get name of channel
277		string channelName  (channels_.at(currentChannel).getParameter<string>("name"));
278		tempChannel.name = channelName;
279		TString channelLabel = channelName;
280	+	if (verbose_) clog << "Processing channel:  " << channelName << endl;
281
282		//set triggers for this channel
283		vector<string> triggerNames;
284		triggerNames.clear();
285	+	vector<string> triggerToVetoNames;
286	+	triggerToVetoNames.clear();
287	+
288		tempChannel.triggers.clear();
289	+	tempChannel.triggersToVeto.clear();
290		if(channels_.at(currentChannel).exists("triggers")){
291		triggerNames   = channels_.at(currentChannel).getParameter<vector<string> >("triggers");
292		for(uint trigger = 0; trigger!= triggerNames.size(); trigger++)
293	<	tempChannel.triggers.push_back(triggerNames.at(trigger));
294	<	allNecessaryObjects.push_back("triggers");
293	>	tempChannel.triggers.push_back(triggerNames.at(trigger));
294	>	objectsToGet.push_back("triggers");
295	>	}
296	>	if(channels_.at(currentChannel).exists("triggersToVeto")){
297	>	triggerToVetoNames = channels_.at(currentChannel).getParameter<vector<string> >("triggersToVeto");
298	>	for(uint trigger = 0; trigger!= triggerToVetoNames.size(); trigger++)
299	>	tempChannel.triggersToVeto.push_back(triggerToVetoNames.at(trigger));
300	>	objectsToGet.push_back("triggers");
301		}
302
303
304	+
305		//create cutFlow for this channel
306		cutFlows_.push_back (new CutFlow (fs_, channelName));
307	<
308	<	//book a directory in the output file with the name of the channel
309	<	TFileDirectory subDir = fs_->mkdir( channelName );
58	<	directories.push_back(subDir);
59	<	std::map<std::string, TH1D*> histoMap;
60	<	oneDHists_.push_back(histoMap);
61	<
62	<
63	<	//muon histograms
64	<	allNecessaryObjects.push_back("muons");
65	<	oneDHists_.at(currentChannel)["muonPt"]  = directories.at(currentChannel).make<TH1D> ("muonPt",channelLabel+" channel: Muon Transverse Momentum; p_{T} [GeV]", 100, 0, 500);
66	<	oneDHists_.at(currentChannel)["muonEta"] = directories.at(currentChannel).make<TH1D> ("muonEta",channelLabel+" channel: Muon Eta; #eta", 100, -5, 5);
67	<	oneDHists_.at(currentChannel)["muonD0"] = directories.at(currentChannel).make<TH1D> ("muonD0",channelLabel+" channel: Muon d_{0}; d_{0} [cm] ", 1000, -1, 1);
68	<	oneDHists_.at(currentChannel)["muonAbsD0"] = directories.at(currentChannel).make<TH1D> ("muonAbsD0",channelLabel+" channel: Muon d_{0}; |d_{0}| [cm] ", 1000, 0, 1);
69	<	oneDHists_.at(currentChannel)["muonD0Sig"] = directories.at(currentChannel).make<TH1D> ("muonD0Sig",channelLabel+" channel: Muon d_{0} Significance; d_{0} / #sigma_{d_{0}} ", 1000, -10.0, 10.0);
70	<	oneDHists_.at(currentChannel)["muonAbsD0Sig"] = directories.at(currentChannel).make<TH1D> ("muonAbsD0Sig",channelLabel+" channel: Muon d_{0} Significance; |d_{0}| / #sigma_{d_{0}} ", 1000, 0, 10.0);
71	<	oneDHists_.at(currentChannel)["muonIso"] = directories.at(currentChannel).make<TH1D> ("muonIso",channelLabel+" channel: Muon Combined Relative Isolation; rel. iso. ", 1000, 0, 1);
72	<	oneDHists_.at(currentChannel)["numMuons"] = directories.at(currentChannel).make<TH1D> ("numMuons",channelLabel+" channel: Number of Selected Muons; # muons", 10, 0, 10);
73	<
74	<
75	<	//electron histograms
76	<	allNecessaryObjects.push_back("electrons");
77	<	oneDHists_.at(currentChannel)["electronPt"]  = directories.at(currentChannel).make<TH1D> ("electronPt",channelLabel+" channel: Electron Transverse Momentum; p_{T} [GeV]", 100, 0, 500);
78	<	oneDHists_.at(currentChannel)["electronEta"] = directories.at(currentChannel).make<TH1D> ("electronEta",channelLabel+" channel: Electron Eta; #eta", 50, -5, 5);
79	<	oneDHists_.at(currentChannel)["electronD0"] = directories.at(currentChannel).make<TH1D> ("electronD0",channelLabel+" channel: Electron d_{0}; d_{0} [cm] ", 1000, -1, 1);
80	<	oneDHists_.at(currentChannel)["electronAbsD0"] = directories.at(currentChannel).make<TH1D> ("electronAbsD0",channelLabel+" channel: Electron d_{0}; |d_{0}| [cm] ", 1000, 0, 1);
81	<	oneDHists_.at(currentChannel)["electronD0Sig"] = directories.at(currentChannel).make<TH1D> ("electronD0Sig",channelLabel+" channel: Electron d_{0} Significance; d_{0} / #sigma_{d_{0}} ", 1000, -10.0, 10.0);
82	<	oneDHists_.at(currentChannel)["electronAbsD0Sig"] = directories.at(currentChannel).make<TH1D> ("electronAbsD0Sig",channelLabel+" channel: Electron d_{0} Significance; |d_{0}| / #sigma_{d_{0}} ", 1000, 0, 10.0);
83	<	oneDHists_.at(currentChannel)["electronIso"] = directories.at(currentChannel).make<TH1D> ("electronIso",channelLabel+" channel: Electron Combined Relative Isolation; rel. iso. ", 1000, 0, 1);
84	<	oneDHists_.at(currentChannel)["electronFbrem"] = directories.at(currentChannel).make<TH1D> ("electronFbrem",channelLabel+" channel: Electron Brem. Energy Fraction; fbrem", 1000, 0, 2);
85	<	oneDHists_.at(currentChannel)["electronMVATrig"] = directories.at(currentChannel).make<TH1D> ("electronMVATrig",channelLabel+" channel: Electron ID MVA Output", 100, -1, 1);
86	<	oneDHists_.at(currentChannel)["electronMVANonTrig"] = directories.at(currentChannel).make<TH1D> ("electronMVANonTrig",channelLabel+" channel: Electron ID MVA Output", 100, -1, 1);
87	<	oneDHists_.at(currentChannel)["numElectrons"] = directories.at(currentChannel).make<TH1D> ("numElectrons",channelLabel+" channel: Number of Selected Electrons; # electrons", 10, 0, 10);
88	<
89	<
90	<
307	>	vector<TFileDirectory> directories; //vector of directories in the output file.
308	>	vector<TFileDirectory> treeDirectories; //vector of directories for trees in the output file.
309	>	vector<string> subSubDirNames;//subdirectories in each channel.
310		//get list of cuts for this channel
311		vector<edm::ParameterSet> cuts_  (channels_.at(currentChannel).getParameter<vector<edm::ParameterSet> >("cuts"));
312
94	–	vector<string> tempInputCollections;
95	–
313
314		//loop over and parse all cuts
315		for(uint currentCut = 0; currentCut != cuts_.size(); currentCut++){
99	–
316		cut tempCut;
317	<	//store input collection for cut
318	<	string inputCollection = cuts_.at(currentCut).getParameter<string> ("inputCollection");
319	<	tempCut.inputCollection = inputCollection;
320	<
321	<	tempInputCollections.push_back(inputCollection);
322	<	allNecessaryObjects.push_back(inputCollection);
317	>	//store input collection for cut
318	>	string tempInputCollection = cuts_.at(currentCut).getParameter<string> ("inputCollection");
319	>	if(tempInputCollection == "muon-electron pairs") tempInputCollection = "electron-muon pairs";
320	>	if(tempInputCollection == "photon-electron pairs") tempInputCollection = "electron-photon pairs";
321	>	if(tempInputCollection == "photon-muon pairs") tempInputCollection = "muon-photon pairs";
322	>	if(tempInputCollection == "jet-electron pairs") tempInputCollection = "electron-jet pairs";
323	>	if(tempInputCollection == "jet-muon pairs") tempInputCollection = "muon-jet pairs";
324	>	if(tempInputCollection == "event-muon pairs") tempInputCollection = "muon-event pairs";
325	>	if(tempInputCollection == "jet-met pairs")  tempInputCollection = "met-jet pairs";
326	>	if(tempInputCollection == "track-jet pairs")  tempInputCollection = "track-jet pairs";
327	>	if(tempInputCollection == "jet-photon pairs") tempInputCollection = "photon-jet pairs";
328	>	if(tempInputCollection == "event-track pairs")   tempInputCollection = "track-event pairs";
329	>	if(tempInputCollection == "secondary muon-muon pairs")   tempInputCollection = "muon-secondary muon pairs";
330	>	if(tempInputCollection == "secondary jet-jet pairs")   tempInputCollection = "jet-secondary jet pairs";
331	>	if(tempInputCollection == "secondary jet-muon pairs")   tempInputCollection = "muon-secondary jet pairs";
332	>	if(tempInputCollection == "secondary photon-muon pairs")   tempInputCollection = "muon-secondary photon pairs";
333	>	if(tempInputCollection == "secondary jet-photon pairs")   tempInputCollection = "photon-secondary jet pairs";
334	>	if(tempInputCollection == "secondary jet-electron pairs")   tempInputCollection = "electron-secondary jet pairs";
335	>	if(tempInputCollection == "secondary electron-electron pairs")   tempInputCollection = "electron-secondary electron pairs";
336	>	if(tempInputCollection == "trigobj-electron pairs")   tempInputCollection = "electron-trigobj pairs";
337	>	if(tempInputCollection == "trigobj-muon pairs")   tempInputCollection = "muon-trigobj pairs";
338	>	tempCut.inputCollection = tempInputCollection;
339	>	if(tempInputCollection.find("pairs")==string::npos){ //just a single object
340	>	if(tempInputCollection.find("secondary")!=string::npos){//secondary object
341	>	if(tempInputCollection.find("secondary muons")!=string::npos){//treat secondary muons differently; allow for a different input collection
342	>	objectsToGet.push_back("secondary muons");
343	>	} else {
344	>	int spaceIndex = tempInputCollection.find(" ");
345	>	int secondWordLength = tempInputCollection.size() - spaceIndex;
346	>	objectsToGet.push_back(tempInputCollection.substr(spaceIndex+1,secondWordLength));
347	>	}
348	>	}
349	>	else{
350	>	objectsToGet.push_back(tempInputCollection);
351	>	}
352	>	objectsToCut.push_back(tempInputCollection);
353	>	objectsToFlag.push_back(tempInputCollection);
354	>	}
355	>	else{//pair of objects, need to add them both to objectsToGet
356	>	string obj1;
357	>	string obj2;
358	>	getTwoObjs(tempInputCollection, obj1, obj2);
359	>	string obj2ToGet = getObjToGet(obj2);
360	>	objectsToCut.push_back(tempInputCollection);
361	>	objectsToCut.push_back(obj1);
362	>	objectsToCut.push_back(obj2);
363	>	objectsToFlag.push_back(tempInputCollection);
364	>	objectsToFlag.push_back(obj1);
365	>	objectsToFlag.push_back(obj2);
366	>	objectsToGet.push_back(tempInputCollection);
367	>	objectsToGet.push_back(obj1);
368	>	objectsToGet.push_back(obj2ToGet);
369	>
370	>	}
371	>
372	>
373
374		//split cut string into parts and store them
375		string cutString = cuts_.at(currentCut).getParameter<string> ("cutString");
376	<	std::vector<string> cutStringVector = splitString(cutString);
377	<	tempCut.variable = cutStringVector.at(0);// variable to cut on
378	<	tempCut.comparativeOperator = cutStringVector.at(1);// comparison to make
379	<	tempCut.cutValue = atof(cutStringVector.at(2).c_str());// threshold value to pass cut
376	>	vector<string> cutStringVector = splitString(cutString);
377	>	if(cutStringVector.size()!=3 && cutStringVector.size() % 4 !=3){
378	>	clog << "Error: Didn't find the expected number elements in the following cut string: '" << cutString << "'\n";
379	>	exit(0);
380	>	}
381	>	tempCut.numSubcuts = (cutStringVector.size()+1)/4;
382	>	for(int subcutIndex = 0; subcutIndex != tempCut.numSubcuts; subcutIndex++){//loop over all the pieces of the cut combined using &,|
383	>	int indexOffset = 4 * subcutIndex;
384	>	string currentVariableString = cutStringVector.at(indexOffset);
385	>	if(currentVariableString.find("(")==string::npos){
386	>	tempCut.functions.push_back("");//no function was specified
387	>	tempCut.variables.push_back(currentVariableString);// variable to cut on
388	>	}
389	>	else{
390	>	tempCut.functions.push_back(currentVariableString.substr(0,currentVariableString.find("(")));//function comes before the "("
391	>	string tempVariable = currentVariableString.substr(currentVariableString.find("(")+1);//get rest of string
392	>	tempCut.variables.push_back(tempVariable.substr(0,tempVariable.size()-1));//remove trailing ")"
393	>	}
394	>	tempCut.comparativeOperators.push_back(cutStringVector.at(indexOffset+1));// comparison to make
395	>	tempCut.cutValues.push_back(atof(cutStringVector.at(indexOffset+2).c_str()));// threshold value to pass cut
396	>	tempCut.cutStringValues.push_back(cutStringVector.at(indexOffset+2));// string value to pass cut
397	>	if(subcutIndex != 0) tempCut.logicalOperators.push_back(cutStringVector.at(indexOffset-1)); // logical comparison (and, or)
398	>	}
399
400		//get number of objects required to pass cut for event to pass
401		string numberRequiredString = cuts_.at(currentCut).getParameter<string> ("numberRequired");
402	<	std::vector<string> numberRequiredVector = splitString(numberRequiredString);
403	<
404	<	// determine number required if comparison contains "="
405	<	int numberRequiredInt = atoi(numberRequiredVector.at(1).c_str());
406	<	if(numberRequiredVector.at(0) == ">") numberRequiredInt++;
122	<	else if(numberRequiredVector.at(0) == "<") numberRequiredInt--;
402	>	vector<string> numberRequiredVector = splitString(numberRequiredString);
403	>	if(numberRequiredVector.size()!=2){
404	>	clog << "Error: Didn't find two elements in the following number requirement string: '" << numberRequiredString << "'\n";
405	>	exit(0);
406	>	}
407
408	+	int numberRequiredInt = atoi(numberRequiredVector.at(1).c_str());
409		tempCut.numberRequired = numberRequiredInt;// number of objects required to pass the cut
410		tempCut.eventComparativeOperator = numberRequiredVector.at(0);// comparison to make
411	<
412	<	if(cuts_.at(currentCut).exists("function")){
413	<	tempCut.function = cuts_.at(currentCut).getParameter<string> ("function");
129	<	}
130	<	else tempCut.function = "";
411	>
412	>	//Set up vectors to store the directories and subDirectories for each channel.
413	>	string subSubDirName;
414		string tempCutName;
415		if(cuts_.at(currentCut).exists("alias")){
416	<	tempCutName = cuts_.at(currentCut).getParameter<string> ("alias");
416	>	tempCutName = cuts_.at(currentCut).getParameter<string> ("alias");
417	>	subSubDirName = "After " + tempCutName + " Cut Applied";
418		}
419		else{
420	<	//construct string for cutflow table
421	<	bool plural = numberRequiredInt != 1;
422	<	string collectionString = plural ? inputCollection : inputCollection.substr(0, inputCollection.size()-1);
423	<	string cutName =  numberRequiredString + " " + collectionString + " with " + cutString;
424	<	tempCutName = cutName;
420	>	//construct string for cutflow table
421	>	bool plural = numberRequiredInt != 1;
422	>	string collectionString = plural ? tempInputCollection : tempInputCollection.substr(0, tempInputCollection.size()-1);
423	>	string cutName =  numberRequiredString + " " + collectionString + " with " + cutString;
424	>	tempCutName = cutName;
425	>	subSubDirName = "After " + numberRequiredString + " " + collectionString + " with " + cutString + " Cut Applied";
426		}
142	–	tempCut.name = tempCutName;
427
428	+	tempCut.isVeto = false;
429	+	if(cuts_.at(currentCut).exists("isVeto")){
430	+	bool isVeto = cuts_.at(currentCut).getParameter<bool> ("isVeto");
431	+	if (isVeto == true) tempCut.isVeto = true;
432	+	}
433	+	subSubDirNames.push_back(subSubDirName);
434	+	tempCut.name = tempCutName;
435	+	if (verbose_) clog << "Setting up cut, index: " << currentCut << ", input collection: " << tempInputCollection<< ", name: " << tempCut.name << endl;
436
437		tempChannel.cuts.push_back(tempCut);
438
439
440		}//end loop over cuts
441
442	<	//make unique vector of all objects that this channel cuts on (so we know to set flags for those)
443	<	sort( tempInputCollections.begin(), tempInputCollections.end() );
444	<	tempInputCollections.erase( unique( tempInputCollections.begin(), tempInputCollections.end() ), tempInputCollections.end() );
445	<	tempChannel.inputCollections = tempInputCollections;
442	>	vector<map<string, TH1D*>> oneDHistsTmp;
443	>	vector<map<string, TH2D*>> twoDHistsTmp;
444	>	//book a directory in the output file with the name of the channel
445	>	TFileDirectory subDir = fs_->mkdir( channelName );
446	>	//loop over the cuts to set up subdirectory for each cut if GetPlotsAfterEachCut_ is true.
447	>	if(GetPlotsAfterEachCut_){
448	>	for( uint currentDir=0; currentDir != subSubDirNames.size(); currentDir++){
449	>	TFileDirectory subSubDir = subDir.mkdir( subSubDirNames[currentDir] );
450	>	directories.push_back(subSubDir);
451	>	map<string, TH1D*> oneDhistoMap;
452	>	oneDHistsTmp.push_back(oneDhistoMap);
453	>	map<string, TH2D*> twoDhistoMap;
454	>	twoDHistsTmp.push_back(twoDhistoMap);
455	>	}
456	>	treeDirectories.push_back(subDir);
457	>	oneDHists_.push_back(oneDHistsTmp);
458	>	twoDHists_.push_back(twoDHistsTmp);
459	>	}
460	>	//only set up directories with names of the channels if GetPlotsAfterEachCut_ is false.
461	>	else{
462	>	map<string, TH1D*> oneDhistoMap;
463	>	oneDHistsTmp.push_back(oneDhistoMap);
464	>	map<string, TH2D*> twoDhistoMap;
465	>	twoDHistsTmp.push_back(twoDhistoMap);
466	>	oneDHists_.push_back(oneDHistsTmp);
467	>	twoDHists_.push_back(twoDHistsTmp);
468	>	directories.push_back(subDir);
469	>	treeDirectories.push_back(subDir);
470	>
471	>	}
472	>
473	>	for(uint currentDir = 0; !useEDMFormat_ && currentDir != treeDirectories.size(); currentDir++){
474	>	TTree* newTree = treeDirectories.at(currentDir).make<TTree> (TString("BNTree_"+channelLabel), TString("BNTree_"+channelLabel));
475	>	BNTrees_.push_back(newTree);
476	>	BNTrees_.back()->Branch("event_runInt",  &BNTreeBranchVals_runInt_,  "event_runInt/I");
477	>	BNTrees_.back()->Branch("event_lumiInt", &BNTreeBranchVals_lumiInt_, "event_lumiInt/I");
478	>	BNTrees_.back()->Branch("event_evtLong", &BNTreeBranchVals_evtLong_, "event_evtLong/L");
479	>	for (uint iBranch = 0; iBranch < treeBranches_.size(); iBranch++){
480	>	BranchSpecs currentVar = treeBranches_.at(iBranch);
481	>	vector<float> newVec;
482	>	BNTreeBranchVals_[currentVar.name] = newVec;
483	>	BNTrees_.back()->Branch(TString(currentVar.name), &BNTreeBranchVals_.at(currentVar.name));
484	>	} // end for (uint iBranch = 0; iBranch < treeBranches_.size(); iBranch++)
485	>	}
486	>
487	>	//book all histograms included in the configuration
488	>	for(uint currentDir = 0; currentDir != directories.size(); currentDir++){//loop over all the directories.
489	>
490	>	for(uint currentHistogramIndex = 0; currentHistogramIndex != histograms.size(); currentHistogramIndex++){
491	>
492	>	histogram currentHistogram = histograms.at(currentHistogramIndex);
493	>	int numBinsElements = currentHistogram.bins.size();
494	>	int numInputVariables = currentHistogram.inputVariables.size();
495	>	int numBinEdgesX = currentHistogram.variableBinsX.size();
496	>	int numBinEdgesY = currentHistogram.variableBinsY.size();
497	>
498	>	if(numBinsElements == 1){
499	>	if(numBinEdgesX > 1){
500	>	if(numBinEdgesY > 1)
501	>	numBinsElements = 6;
502	>	else
503	>	numBinsElements = 3;
504	>	}
505	>	}
506	>	if(numBinsElements != 3 && numBinsElements !=6){
507	>	clog << "Error: Didn't find correct number of bin specifications for histogram named '" << currentHistogram.name << "'\n";
508	>	exit(0);
509	>	}
510	>	else if((numBinsElements == 3 && numInputVariables !=1) || (numBinsElements == 6 && numInputVariables!=2)){
511	>	clog << "Error: Didn't find correct number of input variables for histogram named '" << currentHistogram.name << "'\n";
512	>	exit(0);
513	>	}
514	>	else if(numBinsElements == 3){
515	>	if (currentHistogram.bins.size () == 3)
516	>	oneDHists_.at(currentChannel).at(currentDir)[currentHistogram.name] = directories.at(currentDir).make<TH1D> (TString(currentHistogram.name),channelLabel+" channel: "+currentHistogram.title, currentHistogram.bins.at(0), currentHistogram.bins.at(1), currentHistogram.bins.at(2));
517	>	else
518	>	{
519	>	oneDHists_.at(currentChannel).at(currentDir)[currentHistogram.name] = directories.at(currentDir).make<TH1D> (TString(currentHistogram.name),channelLabel+" channel: "+currentHistogram.title, numBinEdgesX - 1, currentHistogram.variableBinsX.data ());
520	>	}
521	>	}
522	>	else if(numBinsElements == 6){
523	>	if (currentHistogram.bins.size () == 6)
524	>	twoDHists_.at(currentChannel).at(currentDir)[currentHistogram.name] = directories.at(currentDir).make<TH2D> (TString(currentHistogram.name),channelLabel+" channel: "+currentHistogram.title, currentHistogram.bins.at(0), currentHistogram.bins.at(1), currentHistogram.bins.at(2),currentHistogram.bins.at(3),currentHistogram.bins.at(4),currentHistogram.bins.at(5));
525	>	else
526	>	twoDHists_.at(currentChannel).at(currentDir)[currentHistogram.name] = directories.at(currentDir).make<TH2D> (TString(currentHistogram.name),channelLabel+" channel: "+currentHistogram.title, numBinEdgesX - 1, currentHistogram.variableBinsX.data (), numBinEdgesY - 1, currentHistogram.variableBinsY.data ());
527	>	}
528	>
529	>
530	>	if(currentHistogram.name.find("GenMatch")==string::npos) continue;
531	>
532	>	// bin      particle type
533	>	// ---      -------------
534	>	//  0        unmatched
535	>	//  1        u
536	>	//  2        d
537	>	//  3        s
538	>	//  4        c
539	>	//  5        b
540	>	//  6        t
541	>	//  7        e
542	>	//  8        mu
543	>	//  9        tau
544	>	// 10        nu
545	>	// 11        g
546	>	// 12        gamma
547	>	// 13        Z
548	>	// 14        W
549	>	// 15        light meson
550	>	// 16        K meson
551	>	// 17        D meson
552	>	// 18        B meson
553	>	// 19        light baryon
554	>	// 20        strange baryon
555	>	// 21        charm baryon
556	>	// 22        bottom baryon
557	>	// 23        QCD string
558	>	// 24        other
559	>
560	>	vector<TString> labelArray;
561	>	labelArray.push_back("unmatched");
562	>	labelArray.push_back("u");
563	>	labelArray.push_back("d");
564	>	labelArray.push_back("s");
565	>	labelArray.push_back("c");
566	>	labelArray.push_back("b");
567	>	labelArray.push_back("t");
568	>	labelArray.push_back("e");
569	>	labelArray.push_back("#mu");
570	>	labelArray.push_back("#tau");
571	>	labelArray.push_back("#nu");
572	>	labelArray.push_back("g");
573	>	labelArray.push_back("#gamma");
574	>	labelArray.push_back("Z");
575	>	labelArray.push_back("W");
576	>	labelArray.push_back("light meson");
577	>	labelArray.push_back("K meson");
578	>	labelArray.push_back("D meson");
579	>	labelArray.push_back("B meson");
580	>	labelArray.push_back("light baryon");
581	>	labelArray.push_back("strange baryon");
582	>	labelArray.push_back("charm baryon");
583	>	labelArray.push_back("bottom baryon");
584	>	labelArray.push_back("QCD string");
585	>	labelArray.push_back("other");
586	>
587	>	for(int bin = 0; bin !=currentHistogram.bins.at(0); bin++){
588	>	if(currentHistogram.name.find("GenMatchIdVsMotherId")==string::npos && currentHistogram.name.find("GenMatchIdVsGrandmotherId")==string::npos) {
589	>	oneDHists_.at(currentChannel).at(currentDir)[currentHistogram.name]->GetXaxis()->SetBinLabel(bin+1,labelArray.at(bin));
590	>	}
591	>	else {
592	>	twoDHists_.at(currentChannel).at(currentDir)[currentHistogram.name]->GetYaxis()->SetBinLabel(bin+1,labelArray.at(currentHistogram.bins.at(0)-bin-1));
593	>	twoDHists_.at(currentChannel).at(currentDir)[currentHistogram.name]->GetXaxis()->SetBinLabel(bin+1,labelArray.at(bin));
594	>	}
595	>	}
596	>	if(currentHistogram.name.find("GenMatchIdVsMotherId")!=string::npos || currentHistogram.name.find("GenMatchIdVsGrandmotherId")!=string::npos) {
597	>	twoDHists_.at(currentChannel).at(currentDir)[currentHistogram.name]->GetXaxis()->CenterTitle();
598	>	twoDHists_.at(currentChannel).at(currentDir)[currentHistogram.name]->GetYaxis()->CenterTitle();
599	>	}
600	>
601	>	}  // end      for(uint currentHistogramIndex = 0; currentHistogramIndex != histograms.size(); currentHistogramIndex++)
602	>
603
604	+	// Book a histogram for the number of each object type to be plotted.
605	+	// Name of objectToPlot here must match the name specified in OSUAnalysis::analyze().
606	+	for (uint currentObjectIndex = 0; currentObjectIndex != objectsToPlot.size(); currentObjectIndex++){
607	+	string currentObject = objectsToPlot.at(currentObjectIndex);
608	+	int maxNum = 10;
609	+	if(currentObject == "mcparticles") maxNum = 50;
610	+	else if(currentObject == "primaryvertexs") maxNum = 50;
611	+
612	+	if(currentObject == "muon-muon pairs")                currentObject = "dimuonPairs";
613	+	else if(currentObject == "electron-electron pairs")   currentObject = "dielectronPairs";
614	+	else if(currentObject == "electron-muon pairs")       currentObject = "electronMuonPairs";
615	+	else if(currentObject == "electron-photon pairs")     currentObject = "electronPhotonPairs";
616	+	else if(currentObject == "muon-photon pairs")         currentObject = "muonPhotonPairs";
617	+	else if(currentObject == "secondary jets")            currentObject = "secondaryJets";
618	+	else if(currentObject == "secondary photons")            currentObject = "secondaryPhotons";
619	+	else if(currentObject == "jet-jet pairs")             currentObject = "dijetPairs";
620	+	else if(currentObject == "jet-secondary jet pairs")   currentObject = "jetSecondaryJetPairs";
621	+	else if(currentObject == "electron-jet pairs")        currentObject = "electronJetPairs";
622	+	else if(currentObject == "muon-jet pairs")            currentObject = "muonJetPairs";
623	+	else if(currentObject == "muon-event pairs")            currentObject = "muonEventPairs";
624	+	else if(currentObject == "photon-jet pairs")            currentObject = "photonJetPairs";
625	+	else if(currentObject == "met-jet pairs")             currentObject = "metJetPairs";
626	+	else if(currentObject == "track-jet pairs")           currentObject = "trackJetPairs";
627	+	else if(currentObject == "muon-secondary jet pairs")  currentObject = "muonSecondaryJetPairs";
628	+	else if(currentObject == "muon-secondary photon pairs")  currentObject = "muonSecondaryPhotonPairs";
629	+	else if(currentObject == "photon-secondary jet pairs")  currentObject = "photonSecondaryJetPairs";
630	+	else if(currentObject == "electron-secondary jet pairs")  currentObject = "electronSecondaryJetPairs";
631	+	else if(currentObject == "track-event pairs")         currentObject = "trackEventPairs";
632	+	else if(currentObject == "electron-track pairs")      currentObject = "electronTrackPairs";
633	+	else if(currentObject == "muon-track pairs")          currentObject = "muonTrackPairs";
634	+	else if(currentObject == "secondary muon-track pairs") currentObject = "secondaryMuonTrackPairs";
635	+	else if(currentObject == "muon-tau pairs")            currentObject = "muonTauPairs";
636	+	else if(currentObject == "tau-tau pairs")             currentObject = "ditauPairs";
637	+	else if(currentObject == "tau-track pairs")           currentObject = "tauTrackPairs";
638	+	else if(currentObject == "muon-secondary muon pairs") currentObject = "muonSecondaryMuonPairs";
639	+	else if(currentObject == "secondary muons")           currentObject = "secondaryMuons";
640	+	else if(currentObject == "electron-secondary electron pairs") currentObject = "electronSecondaryElectronPairs";
641	+	else if(currentObject == "secondary electrons")       currentObject = "secondaryElectrons";
642	+	else if(currentObject == "electron-trigobj pairs")    currentObject = "electronTrigobjPairs";
643	+	else if(currentObject == "muon-trigobj pairs")        currentObject = "muonTrigobjPairs";
644	+	else if(currentObject == "electron-mcparticle pairs")   currentObject = "electronMCparticlePairs";
645	+
646	+
647	+	currentObject.at(0) = toupper(currentObject.at(0));
648	+	string histoName = "num" + currentObject;
649	+
650	+	if(histoName == "numPrimaryvertexs"){
651	+	string newHistoName = histoName + "BeforePileupCorrection";
652	+	oneDHists_.at(currentChannel).at(currentDir)[newHistoName] = directories.at(currentDir).make<TH1D> (TString(newHistoName),channelLabel+" channel: Number of Selected "+currentObject+" Before Pileup Correction; # "+currentObject, maxNum, 0, maxNum);
653	+	newHistoName = histoName + "AfterPileupCorrection";
654	+	oneDHists_.at(currentChannel).at(currentDir)[newHistoName] = directories.at(currentDir).make<TH1D> (TString(newHistoName),channelLabel+" channel: Number of Selected "+currentObject+ " After Pileup Correction; # "+currentObject, maxNum, 0, maxNum);
655	+	}
656	+	else
657	+	oneDHists_.at(currentChannel).at(currentDir)[histoName] = directories.at(currentDir).make<TH1D> (TString(histoName),channelLabel+" channel: Number of Selected "+currentObject+"; # "+currentObject, maxNum, 0, maxNum);
658	+	}
659	+
660	+	if (verbose_) {
661	+	clog << "List of 1D histograms booked for channel " << channelName << " and directory " << currentDir << ":" << endl;
662	+	for(map<string, TH1D*>::iterator
663	+	iter = oneDHists_.at(currentChannel).at(currentDir).begin();
664	+	iter  != oneDHists_.at(currentChannel).at(currentDir).end();
665	+	iter++) {
666	+	clog << " " << iter->first
667	+	<< ":  name=" << iter->second->GetName()
668	+	<< ", title=" << iter->second->GetTitle()
669	+	<< ", bins=(" << iter->second->GetNbinsX()
670	+	<< "," << iter->second->GetXaxis()->GetXmin()
671	+	<< "," << iter->second->GetXaxis()->GetXmax()
672	+	<< ")" << endl;
673	+	}
674	+	clog << "List of 2D histograms booked for channel " << channelName << " and directory " << currentDir << ":" << endl;
675	+	for(map<string, TH2D*>::iterator
676	+	iter = twoDHists_.at(currentChannel).at(currentDir).begin();
677	+	iter  != twoDHists_.at(currentChannel).at(currentDir).end();
678	+	iter++) {
679	+	clog << " " << iter->first
680	+	<< ":  name=" << iter->second->GetName()
681	+	<< ", title=" << iter->second->GetTitle()
682	+	<< ", binsX=(" << iter->second->GetNbinsX()
683	+	<< "," << iter->second->GetXaxis()->GetXmin()
684	+	<< "," << iter->second->GetXaxis()->GetXmax()
685	+	<< ")"
686	+	<< ", binsY=(" << iter->second->GetNbinsY()
687	+	<< "," << iter->second->GetYaxis()->GetXmin()
688	+	<< "," << iter->second->GetYaxis()->GetXmax()
689	+	<< ")"
690	+	<< endl;
691	+	}
692	+	}
693	+
694	+	}//end of loop over directories
695		channels.push_back(tempChannel);
696		tempChannel.cuts.clear();
157	–
697		}//end loop over channels
698
160	–	//make unique vector of objects we need to cut on (so we make sure to get them from the event)
161	–	sort( allNecessaryObjects.begin(), allNecessaryObjects.end() );
162	–	allNecessaryObjects.erase( unique( allNecessaryObjects.begin(), allNecessaryObjects.end() ), allNecessaryObjects.end() );
699
700	+	// Create the cutflow histogram and fill with 0 weight, in case no events are found in the input file.
701	+	for(uint currentChannelIndex = 0; currentChannelIndex != channels.size(); currentChannelIndex++){
702	+	channel currentChannel = channels.at(currentChannelIndex);
703	+	if(currentChannel.triggers.size() != 0 || currentChannel.triggersToVeto.size() != 0){  //triggers specified
704	+	cutFlows_.at(currentChannelIndex)->at("trigger") = true;
705	+	}
706	+	for(uint currentCutIndex = 0; currentCutIndex != currentChannel.cuts.size(); currentCutIndex++){
707	+	cut currentCut = currentChannel.cuts.at(currentCutIndex);
708	+	cutFlows_.at(currentChannelIndex)->at (currentCut.name) = true;
709	+	}
710	+	cutFlows_.at(currentChannelIndex)->fillCutFlow(0);  // fill cutflow with 0 weight, just to create the cutflow histograms
711	+	}
712	+
713	+	//make unique vector of objects we need to get from the event
714	+	sort( objectsToGet.begin(), objectsToGet.end() );
715	+	objectsToGet.erase( unique( objectsToGet.begin(), objectsToGet.end() ), objectsToGet.end() );
716	+	//make unique vector of objects we need to cut on
717	+	sort( objectsToCut.begin(), objectsToCut.end() );
718	+	objectsToCut.erase( unique( objectsToCut.begin(), objectsToCut.end() ), objectsToCut.end() );
719	+	//make unique vector of objects we need to set flags for
720	+	sort( objectsToFlag.begin(), objectsToFlag.end() );
721	+	objectsToFlag.erase( unique( objectsToFlag.begin(), objectsToFlag.end() ), objectsToFlag.end() );
722	+
723	+	// Move all paired objects to the end of the list, so that the flags for single objects are always set before those of paired objects.
724	+	for (uint i=0; i<objectsToFlag.size(); i++) {
725	+	if (objectsToFlag.at(i).find("pairs")!=string::npos) { // if it contains "pairs"
726	+	objectsToFlag.push_back(objectsToFlag.at(i));
727	+	objectsToFlag.erase(objectsToFlag.begin()+i);
728	+	}
729	+	}
730	+
731	+	if (verbose_) {
732	+	clog << "List of channels:" << endl;
733	+	for (uint i=0; i<channels.size(); i++) {
734	+	clog << " " << channels.at(i).name << endl;
735	+	}
736	+	clog << "List of objects to get:" << endl;
737	+	for (uint i=0; i<objectsToGet.size(); i++) {
738	+	clog << " " << objectsToGet.at(i) << endl;
739	+	}
740	+	clog << "List of objects to plot:" << endl;
741	+	for (uint i=0; i<objectsToPlot.size(); i++) {
742	+	clog << " " << objectsToPlot.at(i) << endl;
743	+	}
744	+	clog << "List of objects to cut:" << endl;
745	+	for (uint i=0; i<objectsToCut.size(); i++) {
746	+	clog << " " << objectsToCut.at(i) << endl;
747	+	}
748	+	clog << "List of objects to flag:" << endl;
749	+	for (uint i=0; i<objectsToFlag.size(); i++) {
750	+	clog << " " << objectsToFlag.at(i) << endl;
751	+	}
752	+	}
753	+
754	+	produces<map<string, bool> > ("channelDecisions");
755	+
756	+	if (printEventInfo_) {
757	+	findEventsLog = new ofstream();
758	+	findEventsLog->open("findEvents.txt");
759	+	clog << "Listing run:lumi:event in file findEvents.txt for events that pass full selection (of any channel)." << endl;
760	+	} else {
761	+	findEventsLog = 0;
762	+	}
763	+
764	+	isFirstEvent_ = true;
765	+
766	+	if (verbose_) clog << "Finished OSUAnalysis::OSUAnalysis constructor." << endl;
767	+
768	+
769	+	} // end constructor OSUAnalysis::OSUAnalysis()
770
165	–	}
771
772		OSUAnalysis::~OSUAnalysis ()
773		{
774	+
775	+	if (verbose_) clog << "Beginning OSUAnalysis::OSUAnalysis destructor." << endl;
776	+
777		// Destroying the CutFlow objects causes the cut flow numbers and time
778		// information to be printed to standard output.
779		for(uint currentChannel = 0; currentChannel != channels_.size(); currentChannel++){
780		delete cutFlows_.at(currentChannel);
781		}
782	+
783	+	if (printEventInfo_ && findEventsLog) findEventsLog->close();
784	+
785	+	clog << "=============================================" << endl;
786	+	clog << "Successfully completed OSUAnalysis." << endl;
787	+	clog << "=============================================" << endl;
788	+
789	+	if (verbose_) clog << "Finished OSUAnalysis::OSUAnalysis destructor." << endl;
790	+
791		}
792
793		void
794	<	OSUAnalysis::analyze (const edm::Event &event, const edm::EventSetup &setup)
794	>	OSUAnalysis::produce (edm::Event &event, const edm::EventSetup &setup)
795		{
796	+	// Retrieve necessary collections from the event.
797
798	+	if (verbose_) clog << "Beginning OSUAnalysis::produce." << endl;
799
800	<	// Retrieve necessary collections from the event.
182	<	edm::Handle<BNtriggerCollection> triggers;
183	<	if (std::find(allNecessaryObjects.begin(), allNecessaryObjects.end(), "triggers") != allNecessaryObjects.end())
800	>	if (find(objectsToGet.begin(), objectsToGet.end(), "triggers") != objectsToGet.end()) {
801		event.getByLabel (triggers_, triggers);
802	+	if (!triggers.product()) clog << "ERROR:  could not get triggers input collection" << endl;
803	+	}
804	+
805	+	if (find(objectsToGet.begin(), objectsToGet.end(), "trigobjs") != objectsToGet.end()) {
806	+	event.getByLabel (trigobjs_, trigobjs);
807	+	if (!trigobjs.product()) clog << "ERROR:  could not get trigobjs input collection" << endl;
808	+	}
809
810	<	edm::Handle<BNjetCollection> jets;
187	<	if (std::find(allNecessaryObjects.begin(), allNecessaryObjects.end(), "jets") != allNecessaryObjects.end())
810	>	if (find(objectsToGet.begin(), objectsToGet.end(), "jets") != objectsToGet.end()) {
811		event.getByLabel (jets_, jets);
812	+	if (!jets.product()) clog << "ERROR:  could not get jets input collection" << endl;
813	+	}
814
815	<	edm::Handle<BNmuonCollection> muons;
191	<	if (std::find(allNecessaryObjects.begin(), allNecessaryObjects.end(), "muons") != allNecessaryObjects.end())
815	>	if (find(objectsToGet.begin(), objectsToGet.end(), "muons") != objectsToGet.end()) {
816		event.getByLabel (muons_, muons);
817	+	if (!muons.product()) clog << "ERROR:  could not get muons input collection" << endl;
818	+	}
819
820	<	edm::Handle<BNelectronCollection> electrons;
821	<	if (std::find(allNecessaryObjects.begin(), allNecessaryObjects.end(), "electrons") != allNecessaryObjects.end())
820	>	if (find(objectsToGet.begin(), objectsToGet.end(), "secondary muons") != objectsToGet.end()) {
821	>	event.getByLabel (secMuons_, secMuons);
822	>	if (!secMuons.product()) clog << "ERROR:  could not get secMuons input collection" << endl;
823	>	}
824	>
825	>	if (find(objectsToGet.begin(), objectsToGet.end(), "electrons") != objectsToGet.end()) {
826		event.getByLabel (electrons_, electrons);
827	+	if (!electrons.product()) clog << "ERROR:  could not get electrons input collection" << endl;
828	+	}
829
830	<	edm::Handle<BNeventCollection> events;
199	<	if (std::find(allNecessaryObjects.begin(), allNecessaryObjects.end(), "events") != allNecessaryObjects.end())
830	>	if (find(objectsToGet.begin(), objectsToGet.end(), "events") != objectsToGet.end()) {
831		event.getByLabel (events_, events);
832	+	if (!events.product()) clog << "ERROR:  could not get events input collection" << endl;
833	+	}
834
835	<	edm::Handle<BNtauCollection> taus;
203	<	if (std::find(allNecessaryObjects.begin(), allNecessaryObjects.end(), "taus") != allNecessaryObjects.end())
835	>	if (find(objectsToGet.begin(), objectsToGet.end(), "taus") != objectsToGet.end()) {
836		event.getByLabel (taus_, taus);
837	+	if (!taus.product()) clog << "ERROR:  could not get taus input collection" << endl;
838	+	}
839
840	<	edm::Handle<BNmetCollection> mets;
207	<	if (std::find(allNecessaryObjects.begin(), allNecessaryObjects.end(), "mets") != allNecessaryObjects.end())
840	>	if (find(objectsToGet.begin(), objectsToGet.end(), "mets") != objectsToGet.end()) {
841		event.getByLabel (mets_, mets);
842	+	if (!mets.product()) clog << "ERROR:  could not get mets input collection" << endl;
843	+	}
844
845	<	edm::Handle<BNtrackCollection> tracks;
211	<	if (std::find(allNecessaryObjects.begin(), allNecessaryObjects.end(), "tracks") != allNecessaryObjects.end())
845	>	if (find(objectsToGet.begin(), objectsToGet.end(), "tracks") != objectsToGet.end()) {
846		event.getByLabel (tracks_, tracks);
847	+	if (!tracks.product()) clog << "ERROR:  could not get tracks input collection" << endl;
848	+	}
849
850	<	edm::Handle<BNgenjetCollection> genjets;
215	<	if (std::find(allNecessaryObjects.begin(), allNecessaryObjects.end(), "genjets") != allNecessaryObjects.end())
850	>	if (find(objectsToGet.begin(), objectsToGet.end(), "genjets") != objectsToGet.end()) {
851		event.getByLabel (genjets_, genjets);
852	+	if (!genjets.product()) clog << "ERROR:  could not get genjets input collection" << endl;
853	+	}
854
855	<	edm::Handle<BNmcparticleCollection> mcparticles;
219	<	if (std::find(allNecessaryObjects.begin(), allNecessaryObjects.end(), "mcparticles") != allNecessaryObjects.end())
855	>	if (find(objectsToGet.begin(), objectsToGet.end(), "mcparticles") != objectsToGet.end()) {
856		event.getByLabel (mcparticles_, mcparticles);
857	+	if (!mcparticles.product()) clog << "ERROR:  could not get mcparticles input collection" << endl;
858	+	}
859
860	<	edm::Handle<BNprimaryvertexCollection> primaryvertexs;
223	<	if (std::find(allNecessaryObjects.begin(), allNecessaryObjects.end(), "primaryvertexs") != allNecessaryObjects.end())
860	>	if (find(objectsToGet.begin(), objectsToGet.end(), "primaryvertexs") != objectsToGet.end()) {
861		event.getByLabel (primaryvertexs_, primaryvertexs);
862	+	if (!primaryvertexs.product()) clog << "ERROR:  could not get primaryvertexs input collection" << endl;
863	+	}
864
865	<	edm::Handle<BNbxlumiCollection> bxlumis;
227	<	if (std::find(allNecessaryObjects.begin(), allNecessaryObjects.end(), "bxlumis") != allNecessaryObjects.end())
865	>	if (find(objectsToGet.begin(), objectsToGet.end(), "bxlumis") != objectsToGet.end()) {
866		event.getByLabel (bxlumis_, bxlumis);
867	+	if (!bxlumis.product()) clog << "ERROR:  could not get bxlumis input collection" << endl;
868	+	}
869
870	<	edm::Handle<BNphotonCollection> photons;
231	<	if (std::find(allNecessaryObjects.begin(), allNecessaryObjects.end(), "photons") != allNecessaryObjects.end())
870	>	if (find(objectsToGet.begin(), objectsToGet.end(), "photons") != objectsToGet.end()) {
871		event.getByLabel (photons_, photons);
872	+	if (!photons.product()) clog << "ERROR:  could not get photons input collection" << endl;
873	+	}
874
875	<	edm::Handle<BNsuperclusterCollection> superclusters;
235	<	if (std::find(allNecessaryObjects.begin(), allNecessaryObjects.end(), "superclusters") != allNecessaryObjects.end())
875	>	if (find(objectsToGet.begin(), objectsToGet.end(), "superclusters") != objectsToGet.end()) {
876		event.getByLabel (superclusters_, superclusters);
877	+	if (!superclusters.product()) clog << "ERROR:  could not get superclusters input collection" << endl;
878	+	}
879
880	+	if (datasetType_ == "signalMC"){
881	+	if (find(objectsToGet.begin(), objectsToGet.end(), "stops") != objectsToGet.end()) {
882	+	event.getByLabel (stops_, stops);
883	+	if (!stops.product()) clog << "ERROR:  could not get stops input collection" << endl;
884	+	}
885	+	}
886	+
887	+	if (useTrackCaloRhoCorr_) {
888	+	// Used only for pile-up correction of by-hand calculation of isolation energy.
889	+	// This rho collection is not available in all BEANs.
890	+	// For description of rho values for different jet reconstruction algorithms, see
891	+	// https://twiki.cern.ch/twiki/bin/view/CMS/JetAlgorithms#Algorithms
892	+	event.getByLabel ("kt6CaloJets","rho", rhokt6CaloJetsHandle_);
893	+	if (!rhokt6CaloJetsHandle_.product()) clog << "ERROR:  could not get kt6CaloJets input collection" << endl;
894	+	}
895	+
896	+	double masterScaleFactor = 1.0;
897	+
898	+	//get pile-up event weight
899	+	if (doPileupReweighting_ && datasetType_ != "data") {
900	+	//for "data" datasets, the numTruePV is always set to -1
901	+	if (events->at(0).numTruePV < 0 && isFirstEvent_) clog << "WARNING[OSUAnalysis::analyze]: Event has numTruePV<0.  Turning off pile-up reweighting." << endl;
902	+	else masterScaleFactor *= puWeight_->at (events->at (0).numTruePV);
903	+	}
904	+
905	+	stopCTauScaleFactor_ = 1.0;
906	+	if (datasetType_ == "signalMC" && regex_match (dataset_, regex ("stop.*to.*_.*mm.*")))
907	+	stopCTauScaleFactor_ = stopCTauWeight_->at (event);
908	+	masterScaleFactor *= stopCTauScaleFactor_;
909
910		//loop over all channels
911
912	+	auto_ptr<map<string, bool> > channelDecisions (new map<string, bool>);
913		for(uint currentChannelIndex = 0; currentChannelIndex != channels.size(); currentChannelIndex++){
914		channel currentChannel = channels.at(currentChannelIndex);
915	<
916	<	flagMap individualFlags;
917	<	flagMap cumulativeFlags;
918	<	counterMap passingCounter;
915	>	if (verbose_>1) clog << " Processing channel " << currentChannel.name << endl;
916	>
917	>	flagMap individualFlags;
918	>	counterMap passingCounter;
919	>	cumulativeFlags.clear ();
920	>
921	>	for (map<string, vector<float>>::iterator iter = BNTreeBranchVals_.begin();
922	>	iter != BNTreeBranchVals_.end(); iter++) {
923	>	iter->second.clear();  // clear array
924	>	}
925
926		bool triggerDecision = true;
927	<	if(currentChannel.triggers.size() != 0){  //triggers specified
928	<	triggerDecision = evaluateTriggers(currentChannel.triggers,triggers.product());
927	>	if(currentChannel.triggers.size() != 0 || currentChannel.triggersToVeto.size() != 0){  //triggers specified
928	>	triggerDecision = evaluateTriggers(currentChannel.triggers, currentChannel.triggersToVeto, triggers.product());
929		cutFlows_.at(currentChannelIndex)->at ("trigger") = triggerDecision;
930		}
931
932		//loop over all cuts
933		for(uint currentCutIndex = 0; currentCutIndex != currentChannel.cuts.size(); currentCutIndex++){
934		cut currentCut = currentChannel.cuts.at(currentCutIndex);
935	+	if (verbose_>2) clog << "  Processing cut, index: " << currentCutIndex << ", input collection: " << currentCut.inputCollection << ", name: " << currentCut.name << endl;
936
937	<	for(uint currentObjectIndex = 0; currentObjectIndex != allNecessaryObjects.size(); currentObjectIndex++){
938	<
260	<	string currentObject = allNecessaryObjects.at(currentObjectIndex);
261	<	individualFlags[currentObject].push_back (vector<bool> ());
262	<	cumulativeFlags[currentObject].push_back (vector<bool> ());
263	<
264	<	if(currentObject == "jets") setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,jets.product(),"jets");
265	<	else if(currentObject == "muons") setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,muons.product(),"muons");
266	<	else if(currentObject == "electrons") setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,electrons.product(),"electrons");
267	<	else if(currentObject == "events") setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,events.product(),"events");
268	<	else if(currentObject == "taus") setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,taus.product(),"taus");
269	<	else if(currentObject == "mets") setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,mets.product(),"mets");
270	<	else if(currentObject == "tracks") setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,tracks.product(),"tracks");
271	<	else if(currentObject == "genjets") setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,genjets.product(),"genjets");
272	<	else if(currentObject == "mcparticles") setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,mcparticles.product(),"mcparticles");
273	<	else if(currentObject == "primaryvertexs") setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,primaryvertexs.product(),"primaryvertexs");
274	<	else if(currentObject == "bxlumis") setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,bxlumis.product(),"bxlumis");
275	<	else if(currentObject == "photons") setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,photons.product(),"photons");
276	<	else if(currentObject == "superclusters") setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,superclusters.product(),"superclusters");
937	>	for(uint currentObjectIndex = 0; currentObjectIndex != objectsToFlag.size(); currentObjectIndex++){
938	>	string currentObject = objectsToFlag.at(currentObjectIndex);
939
940	+	//initialize maps to get ready to set cuts
941	+	individualFlags[currentObject].push_back (vector<pair<bool,bool> > ());
942	+	cumulativeFlags[currentObject].push_back (vector<pair<bool,bool> > ());
943
944		}
945
946	+	//set flags for all relevant objects
947	+	for(int currentObjectIndex = -1; currentObjectIndex != int(objectsToFlag.size()); currentObjectIndex++){
948	+	string currentObject;
949	+	if (currentObjectIndex < 0) currentObject = currentCut.inputCollection;  // In the first loop, set the flags for the collection that the cut is acting on.  That way other paired collections can access the correct flag for the current cut.
950	+	else currentObject = objectsToFlag.at(currentObjectIndex);
951	+	if (currentObjectIndex >= 0 && currentObject == currentCut.inputCollection) continue;  // Flags have already been set for the inputCollection object, so should not be set again.
952	+
953	+	// single object collections
954	+	if     (currentObject == "jets")                setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,jets.product(),"jets");
955	+	else if(currentObject == "secondary jets")      setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,jets.product(),"secondary jets");
956	+	else if(currentObject == "secondary photons")   setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,photons.product(),"secondary photons");
957	+	else if(currentObject == "muons")               setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,muons.product(),"muons");
958	+	else if(currentObject == "secondary muons")     setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,secMuons.product(),"secondary muons");
959	+	else if(currentObject == "secondary electrons") setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,electrons.product(),"secondary electrons");
960	+	else if(currentObject == "electrons")           setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,electrons.product(),"electrons");
961	+	else if(currentObject == "events")              setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,events.product(),"events");
962	+	else if(currentObject == "taus")                setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,taus.product(),"taus");
963	+	else if(currentObject == "mets")                setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,mets.product(),"mets");
964	+	else if(currentObject == "tracks")              setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,tracks.product(),"tracks");
965	+	else if(currentObject == "genjets")             setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,genjets.product(),"genjets");
966	+	else if(currentObject == "mcparticles")         setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,mcparticles.product(),"mcparticles");
967	+	else if(currentObject == "primaryvertexs")      setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,primaryvertexs.product(),"primaryvertexs");
968	+	else if(currentObject == "bxlumis")             setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,bxlumis.product(),"bxlumis");
969	+	else if(currentObject == "photons")             setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,photons.product(),"photons");
970	+	else if(currentObject == "superclusters")       setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,superclusters.product(),"superclusters");
971	+	else if(currentObject == "trigobjs")            setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,trigobjs.product(),"trigobjs");
972	+
973	+
974	+	// paired object collections
975	+	else if(currentObject == "muon-muon pairs")                   setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,muons.product(),muons.product(), "muon-muon pairs");
976	+	else if(currentObject == "muon-secondary muon pairs")         setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,muons.product(),secMuons.product(), "muon-secondary muon pairs");
977	+
978	+	else if(currentObject == "muon-secondary photon pairs")       setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,muons.product(),photons.product(), "muon-secondary photon pairs");
979	+	else if(currentObject == "muon-secondary jet pairs")          setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,muons.product(),jets.product(), "muon-secondary jet pairs");
980	+	else if(currentObject == "photon-secondary jet pairs")        setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,photons.product(),jets.product(), "photon-secondary jet pairs");
981	+	else if(currentObject == "electron-secondary jet pairs")      setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,electrons.product(),jets.product(), "electron-secondary jet pairs");
982	+	else if(currentObject == "electron-secondary electron pairs") setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,electrons.product(),electrons.product(), "electron-secondary electron pairs");
983	+
984	+	else if(currentObject == "electron-electron pairs")           setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,electrons.product(),electrons.product(), "electron-electron pairs");
985	+	else if(currentObject == "electron-muon pairs")     setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,electrons.product(),muons.product(), "electron-muon pairs");
986	+	else if(currentObject == "jet-jet pairs")           setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,jets.product(),jets.product(), "jet-jet pairs");
987	+	else if(currentObject == "jet-secondary jet pairs") setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,jets.product(),jets.product(), "jet-secondary jet pairs");
988	+	else if(currentObject == "electron-jet pairs")      setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,electrons.product(),jets.product(), "electron-jet pairs");
989	+	else if(currentObject == "electron-photon pairs")   setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,electrons.product(),photons.product(), "electron-photon pairs");
990	+	else if(currentObject == "photon-jet pairs")        setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,photons.product(),jets.product(), "photon-jet pairs");
991	+	else if(currentObject == "muon-jet pairs")          setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,muons.product(),jets.product(), "muon-jet pairs");
992	+	else if(currentObject == "muon-event pairs")        setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,muons.product(),events.product(), "muon-event pairs");
993	+	else if(currentObject == "met-jet pairs")           setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,mets.product(),jets.product(), "met-jet pairs");
994	+	else if(currentObject == "track-jet pairs")         setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,tracks.product(),jets.product(), "track-jet pairs");
995	+	else if(currentObject == "muon-photon pairs")       setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,muons.product(),photons.product(), "muon-photon pairs");
996	+	else if(currentObject == "track-event pairs")       setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,tracks.product(),events.product(), "track-event pairs");
997	+	else if(currentObject == "electron-track pairs")    setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,electrons.product(),tracks.product(),"electron-track pairs");
998	+	else if(currentObject == "muon-track pairs")        setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,muons.product(),tracks.product(),"muon-track pairs");
999	+	else if(currentObject == "secondary muon-track pairs") setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,secMuons.product(),tracks.product(),"secondary muon-track pairs");
1000	+	else if(currentObject == "muon-tau pairs")          setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,muons.product(),taus.product(),"muon-tau pairs");
1001	+	else if(currentObject == "tau-tau pairs")           setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,taus.product(),taus.product(),"tau-tau pairs");
1002	+	else if(currentObject == "tau-track pairs")         setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,taus .product(),tracks.product(),"tau-track pairs");
1003	+	else if(currentObject == "electron-trigobj pairs")  setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,electrons.product(),trigobjs.product(),"electron-trigobj pairs");
1004	+	else if(currentObject == "muon-trigobj pairs")      setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,muons.product(),trigobjs.product(),"muon-trigobj pairs");
1005	+	else if(currentObject == "electron-mcparticle pairs") setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,electrons.product(),mcparticles.product(),"electron-mcparticle pairs");
1006
1007	+	if(currentObject == "stops" && datasetType_ == "signalMC") setObjectFlags(currentCut,currentCutIndex,individualFlags,cumulativeFlags,stops.product(),"stops");
1008	+	}
1009
1010		}//end loop over all cuts
284	–
1011
1012
1013
1014		//use cumulative flags to apply cuts at event level
1015	<
1015	>	vector<bool> eventPassedPreviousCuts;    //a vector to store cumulative cut descisions after each cut.
1016		bool eventPassedAllCuts = true;
1017	<
292	<	//apply trigger (true if none were specified)
293	<	eventPassedAllCuts = eventPassedAllCuts && triggerDecision;
294	<
1017	>	eventPassedAllCuts = eventPassedAllCuts && triggerDecision;    //apply trigger (true if none were specified)
1018
1019		for(uint currentCutIndex = 0; currentCutIndex != currentChannel.cuts.size(); currentCutIndex++){
1020
1021		//loop over all objects and count how many passed the cumulative selection up to this point
1022		cut currentCut = currentChannel.cuts.at(currentCutIndex);
1023		int numberPassing = 0;
1024	+	int numberPassingPrev = 0;  // number of objects that pass cuts up to the previous one
1025
1026	<	for (uint object = 0; object != cumulativeFlags[currentCut.inputCollection].at(currentCutIndex).size() ; object++)
1027	<	if(cumulativeFlags[currentCut.inputCollection].at(currentCutIndex).at(object)) numberPassing++;
1028	<
1026	>	for (uint object = 0; object != cumulativeFlags.at(currentCut.inputCollection).at(currentCutIndex).size() ; object++){
1027	>	if(cumulativeFlags.at(currentCut.inputCollection).at(currentCutIndex).at(object).first) numberPassing++;
1028	>	}
1029	>	bool cutDecision;
1030	>	if (!currentCut.isVeto) {
1031	>	cutDecision = evaluateComparison(numberPassing,currentCut.eventComparativeOperator,currentCut.numberRequired);
1032	>	} else {
1033	>	int prevCutIndex = currentCutIndex - 1;
1034	>	if (prevCutIndex<0) {
1035	>	numberPassingPrev = cumulativeFlags.at(currentCut.inputCollection).at(currentCutIndex).size();  // count all objects in collection if cut is the first
1036	>	} else {
1037	>	for (uint object = 0; object != cumulativeFlags.at(currentCut.inputCollection).at(prevCutIndex).size() ; object++){
1038	>	if (cumulativeFlags.at(currentCut.inputCollection).at(prevCutIndex).at(object).first) {
1039	>	numberPassingPrev++;
1040	>	if (verbose_>1) clog << " object passed previous cut" << endl;
1041	>	}
1042	>	}
1043	>	}
1044	>	int numberFailCut = numberPassingPrev - numberPassing;
1045	>	cutDecision = evaluateComparison(numberFailCut,currentCut.eventComparativeOperator,currentCut.numberRequired);
1046	>	}
1047
306	–	bool cutDecision = evaluateComparison(numberPassing,currentCut.eventComparativeOperator,currentCut.numberRequired);
1048		cutFlows_.at(currentChannelIndex)->at (currentCut.name) = cutDecision;
308	–
1049		eventPassedAllCuts = eventPassedAllCuts && cutDecision;
1050	+	eventPassedPreviousCuts.push_back(eventPassedAllCuts);
1051	+	if (verbose_>1) clog << " Event passed cuts up to cut index " << currentCutIndex << endl;
1052
1053		}
1054	+	//applying all appropriate scale factors
1055	+	double scaleFactor = masterScaleFactor;
1056	+	muonScaleFactor_ = electronScaleFactor_ = bTagScaleFactor_ = 1.0;
1057	+
1058	+	if(applyLeptonSF_ && datasetType_ != "data"){
1059	+	//only apply SFs if we've cut on this object
1060	+	if(find(objectsToCut.begin(),objectsToCut.end(),"muons") != objectsToCut.end ()){
1061	+	flagPair muonFlags;
1062	+	//get the last valid flags in the flag map
1063	+	for (int i = cumulativeFlags.at("muons").size() - 1; i >= 0; i--){
1064	+	if (cumulativeFlags.at("muons").at(i).size()){
1065	+	muonFlags = cumulativeFlags.at("muons").at(i);
1066	+	break;
1067	+	}
1068	+	}
1069	+	//apply the weight for each of those objects
1070	+	for (uint muonIndex = 0; muonIndex != muonFlags.size(); muonIndex++){
1071	+	if(!muonFlags.at(muonIndex).second) continue;
1072	+	muonScaleFactor_ *= muonSFWeight_->at (muons->at(muonIndex).eta);
1073	+	}
1074	+	}
1075	+	//only apply SFs if we've cut on this object
1076	+	if(find(objectsToCut.begin(),objectsToCut.end(),"electrons") != objectsToCut.end ()){
1077	+	flagPair electronFlags;
1078	+	//get the last valid flags in the flag map
1079	+	for (int i = cumulativeFlags.at("electrons").size() - 1; i >= 0; i--){
1080	+	if (cumulativeFlags.at("electrons").at(i).size()){
1081	+	electronFlags = cumulativeFlags.at("electrons").at(i);
1082	+	break;
1083	+	}
1084	+	}
1085	+	//apply the weight for each of those objects
1086	+	for (uint electronIndex = 0; electronIndex != electronFlags.size(); electronIndex++){
1087	+	if(!electronFlags.at(electronIndex).second) continue;
1088	+	electronScaleFactor_ *= electronSFWeight_->at (electrons->at(electronIndex).eta, electrons->at(electronIndex).pt);
1089	+	}
1090	+	}
1091	+	}
1092	+	if(applyBtagSF_ && datasetType_ != "data"){
1093	+	//only apply SFs if we've cut on this object
1094	+	if(find(objectsToCut.begin(),objectsToCut.end(),"jets") != objectsToCut.end ()){
1095	+	flagPair jetFlags;
1096	+	vector<double> jetSFs;
1097	+	//get the last valid flags in the flag map
1098	+	for (int i = cumulativeFlags.at("jets").size() - 1; i >= 0; i--){
1099	+	if (cumulativeFlags.at("jets").at(i).size()){
1100	+	jetFlags = cumulativeFlags.at("jets").at(i);
1101	+	break;
1102	+	}
1103	+	}
1104	+	//apply the weight for each of those objects
1105	+	for (uint jetIndex = 0; jetIndex != jetFlags.size(); jetIndex++){
1106	+	if(!jetFlags.at(jetIndex).second) continue;
1107	+	double jetSFTmp = bTagSFWeight_->sflookup(jets->at(jetIndex).btagCombinedSecVertex, jets->at(jetIndex).pt, jets->at(jetIndex).flavour, jets->at(jetIndex).eta);
1108	+	jetSFs.push_back(jetSFTmp);
1109	+	}
1110	+	bTagScaleFactor_ *= bTagSFWeight_->weight( jetSFs, minBtag_);
1111	+	}
1112	+	}
1113	+	scaleFactor *= muonScaleFactor_;
1114	+	scaleFactor *= electronScaleFactor_;
1115	+	scaleFactor *= bTagScaleFactor_;
1116	+	cutFlows_.at(currentChannelIndex)->fillCutFlow(scaleFactor);
1117	+	if (verbose_>1) clog << " Scale factors applied:  "
1118	+	<< " muonScaleFactor_ = " << muonScaleFactor_
1119	+	<< ", electronScaleFactor_ = " << electronScaleFactor_
1120	+	<< ", bTagScaleFactor_ = " << bTagScaleFactor_
1121	+	<< ", total scale factor = " << scaleFactor
1122	+	<< endl;
1123	+
1124	+
1125	+	if (printEventInfo_ && eventPassedAllCuts) {
1126	+	// Write information about event to screen, for testing purposes.
1127	+	clog << "Event passed all cuts in channel " <<  currentChannel.name
1128	+	<< ":  run:lumi:evt=  "  << events->at(0).run
1129	+	<< ":" << events->at(0).lumi
1130	+	<< ":" << events->at(0).evt
1131	+	<< endl;
1132	+	if (findEventsLog) {
1133	+	(*findEventsLog) << events->at(0).run
1134	+	<< ":" << events->at(0).lumi
1135	+	<< ":" << events->at(0).evt << endl;
1136	+	}
1137
1138	<	cutFlows_.at(currentChannelIndex)->fillCutFlow();
314	<
1138	>	}
1139
1140
1141	<	if(!eventPassedAllCuts)continue;
1141	>	//filling histograms
1142	>	for(uint currentCut = 0; currentCut != oneDHists_.at(currentChannelIndex).size(); currentCut++){//loop over all the cuts in each channel; if GetPlotsAfterEachCut_ is false, only the last cut will be used.
1143
1144	+	if (verbose_>2) clog << "  Filling histograms for currentcut = " << currentCut << endl;
1145
1146	+	uint currentDir;
1147	+	if (!GetPlotsAfterEachCut_) { currentDir =  currentChannel.cuts.size() - oneDHists_.at(currentChannelIndex).size(); } //if GetPlotsAfterEachCut_ is false, set currentDir point to the last cut.
1148	+	else{
1149	+	currentDir = currentCut;
1150	+	}
1151
321	–	vector<bool> electronFlags = cumulativeFlags["electrons"].back();
322	–	int electronCounter = 0;
1152
1153	<	for (uint electronIndex = 0; electronIndex != electronFlags.size(); electronIndex++){
325	<	if(!electronFlags.at(electronIndex)) continue;
1153	>	if(eventPassedPreviousCuts.at(currentDir)){
1154
1155	+	for (uint histogramIndex = 0; histogramIndex != histograms.size(); histogramIndex++){
1156	+	histogram currentHistogram = histograms.at(histogramIndex);
1157
1158	<	electronCounter++;
329	<	oneDHists_.at(currentChannelIndex)["electronPt"]->Fill (electrons->at(electronIndex).pt);
330	<	oneDHists_.at(currentChannelIndex)["electronEta"]->Fill (electrons->at(electronIndex).eta);
331	<	oneDHists_.at(currentChannelIndex)["electronD0"]->Fill (electrons->at(electronIndex).correctedD0Vertex);
332	<	oneDHists_.at(currentChannelIndex)["electronAbsD0"]->Fill (fabs(electrons->at(electronIndex).correctedD0Vertex));
333	<	oneDHists_.at(currentChannelIndex)["electronD0Sig"]->Fill (electrons->at(electronIndex).correctedD0Vertex / electrons->at(electronIndex).tkD0err);
334	<	oneDHists_.at(currentChannelIndex)["electronAbsD0Sig"]->Fill (fabs(electrons->at(electronIndex).correctedD0Vertex) / electrons->at(electronIndex).tkD0err);
335	<	oneDHists_.at(currentChannelIndex)["electronIso"]->Fill (((electrons->at(electronIndex).trackIso + electrons->at(electronIndex).caloIso) / electrons->at(electronIndex).pt));
336	<	oneDHists_.at(currentChannelIndex)["electronFbrem"]->Fill (electrons->at(electronIndex).fbrem);
337	<	oneDHists_.at(currentChannelIndex)["electronMVATrig"]->Fill (electrons->at(electronIndex).mvaTrigV0);
338	<	oneDHists_.at(currentChannelIndex)["electronMVANonTrig"]->Fill (electrons->at(electronIndex).mvaNonTrigV0);
1158	>	if (cumulativeFlags.count(currentHistogram.inputCollection) == 0) clog << "Error: no flags found for collection:  " << currentHistogram.inputCollection << ", will cause a seg fault" << endl;
1159
1160	<	}
341	<	oneDHists_.at(currentChannelIndex)["numElectrons"]->Fill (electronCounter);
1160	>	if (verbose_>1) clog << " Filling histogram " << currentHistogram.name << " for collection " << currentHistogram.inputCollection << endl;
1161
1162	<
1163	<	vector<bool> muonFlags = cumulativeFlags["muons"].back();
1164	<	int muonCounter = 0;
1162	>	if(currentHistogram.inputVariables.size() == 1){
1163	>	TH1D* histo;
1164	>	histo = oneDHists_.at(currentChannelIndex).at(currentCut).at(currentHistogram.name);
1165	>	if     (currentHistogram.inputCollection == "jets")            fill1DHistogram(histo,currentHistogram,jets.product(),cumulativeFlags.at("jets").at(currentDir),scaleFactor);
1166	>	else if(currentHistogram.inputCollection == "secondary jets")  fill1DHistogram(histo,currentHistogram,jets.product(),cumulativeFlags.at("secondary jets").at(currentDir),scaleFactor);
1167	>	else if(currentHistogram.inputCollection == "secondary photons")  fill1DHistogram(histo,currentHistogram,photons.product(),cumulativeFlags.at("secondary photons").at(currentDir),scaleFactor);
1168	>	else if(currentHistogram.inputCollection == "muons")           fill1DHistogram(histo,currentHistogram,muons.product(),cumulativeFlags.at("muons").at(currentDir),scaleFactor);
1169	>	else if(currentHistogram.inputCollection == "secondary muons") fill1DHistogram(histo,currentHistogram,secMuons.product(),cumulativeFlags.at("secondary muons").at(currentDir),scaleFactor);
1170	>	else if(currentHistogram.inputCollection == "secondary electrons") fill1DHistogram(histo,currentHistogram,electrons.product(),cumulativeFlags.at("secondary electrons").at(currentDir),scaleFactor);
1171	>	else if(currentHistogram.inputCollection == "muon-muon pairs") fill1DHistogram(histo,currentHistogram,muons.product(),muons.product(),
1172	>	cumulativeFlags.at("muon-muon pairs").at(currentDir),scaleFactor);
1173	>	else if(currentHistogram.inputCollection == "muon-secondary muon pairs") fill1DHistogram(histo,currentHistogram,muons.product(),secMuons.product(),
1174	>	cumulativeFlags.at("muon-secondary muon pairs").at(currentDir),scaleFactor);
1175	>	else if(currentHistogram.inputCollection == "muon-secondary photon pairs") fill1DHistogram(histo,currentHistogram,muons.product(),photons.product(),
1176	>	cumulativeFlags.at("muon-secondary photon pairs").at(currentDir),scaleFactor);
1177	>	else if(currentHistogram.inputCollection == "muon-secondary jet pairs") fill1DHistogram(histo,currentHistogram,muons.product(),jets.product(),
1178	>	cumulativeFlags.at("muon-secondary jet pairs").at(currentDir),scaleFactor);
1179	>	else if(currentHistogram.inputCollection == "photon-secondary jet pairs") fill1DHistogram(histo,currentHistogram,photons.product(),jets.product(),
1180	>	cumulativeFlags.at("photon-secondary jet pairs").at(currentDir),scaleFactor);
1181	>	else if(currentHistogram.inputCollection == "electron-secondary jet pairs") fill1DHistogram(histo,currentHistogram,electrons.product(),jets.product(),
1182	>	cumulativeFlags.at("electron-secondary jet pairs").at(currentDir),scaleFactor);
1183	>
1184	>	else if(currentHistogram.inputCollection == "electrons") fill1DHistogram(histo,currentHistogram,electrons.product(),cumulativeFlags.at("electrons").at(currentDir),scaleFactor);
1185	>	else if(currentHistogram.inputCollection == "electron-electron pairs") fill1DHistogram(histo,currentHistogram,electrons.product(),electrons.product(),
1186	>	cumulativeFlags.at("electron-electron pairs").at(currentDir),scaleFactor);
1187	>	else if(currentHistogram.inputCollection == "jet-jet pairs") fill1DHistogram(histo,currentHistogram,jets.product(),jets.product(),
1188	>	cumulativeFlags.at("jet-jet pairs").at(currentDir),scaleFactor);
1189	>	else if(currentHistogram.inputCollection == "jet-secondary jet pairs") fill1DHistogram(histo,currentHistogram,jets.product(),jets.product(),
1190	>	cumulativeFlags.at("jet-secondary jet pairs").at(currentDir),scaleFactor);
1191	>
1192	>	else if(currentHistogram.inputCollection == "electron-secondary electron pairs") fill1DHistogram(histo,currentHistogram,electrons.product(),electrons.product(),
1193	>	cumulativeFlags.at("electron-secondary electron pairs").at(currentDir),scaleFactor);
1194	>	else if(currentHistogram.inputCollection == "electron-muon pairs") fill1DHistogram(histo,currentHistogram, electrons.product(),muons.product(),
1195	>	cumulativeFlags.at("electron-muon pairs").at(currentDir),scaleFactor);
1196	>	else if(currentHistogram.inputCollection == "electron-jet pairs") fill1DHistogram(histo,currentHistogram, electrons.product(),jets.product(),
1197	>	cumulativeFlags.at("electron-jet pairs").at(currentDir),scaleFactor);
1198	>	else if(currentHistogram.inputCollection == "photon-jet pairs") fill1DHistogram(histo,currentHistogram, photons.product(),jets.product(),
1199	>	cumulativeFlags.at("photon-jet pairs").at(currentDir),scaleFactor);
1200	>	else if(currentHistogram.inputCollection == "muon-jet pairs") fill1DHistogram(histo,currentHistogram, muons.product(),jets.product(),
1201	>	cumulativeFlags.at("muon-jet pairs").at(currentDir),scaleFactor);
1202	>	else if(currentHistogram.inputCollection == "muon-event pairs") fill1DHistogram(histo,currentHistogram, muons.product(),events.product(),
1203	>	cumulativeFlags.at("muon-event pairs").at(currentDir),scaleFactor);
1204	>	else if(currentHistogram.inputCollection == "met-jet pairs")  fill1DHistogram(histo,currentHistogram, mets.product(),jets.product(),
1205	>	cumulativeFlags.at("met-jet pairs").at(currentDir),scaleFactor);
1206	>	else if(currentHistogram.inputCollection == "track-jet pairs")  fill1DHistogram(histo,currentHistogram,tracks.product(),jets.product(),
1207	>	cumulativeFlags.at("track-jet pairs").at(currentDir),scaleFactor);
1208	>	else if(currentHistogram.inputCollection == "muon-photon pairs") fill1DHistogram(histo,currentHistogram, muons.product(),photons.product(),
1209	>	cumulativeFlags.at("muon-photon pairs").at(currentDir),scaleFactor);
1210	>	else if(currentHistogram.inputCollection == "electron-photon pairs") fill1DHistogram(histo,currentHistogram, electrons.product(),photons.product(),
1211	>	cumulativeFlags.at("electron-photon pairs").at(currentDir),scaleFactor);
1212	>	else if(currentHistogram.inputCollection == "electron-track pairs") fill1DHistogram(histo,currentHistogram, electrons.product(),tracks.product(),
1213	>	cumulativeFlags.at("electron-track pairs").at(currentDir),scaleFactor);
1214	>	else if(currentHistogram.inputCollection == "muon-track pairs") fill1DHistogram(histo,currentHistogram, muons.product(),tracks.product(),
1215	>	cumulativeFlags.at("muon-track pairs").at(currentDir),scaleFactor);
1216	>	else if(currentHistogram.inputCollection == "secondary muon-track pairs") fill1DHistogram(histo,currentHistogram, secMuons.product(),tracks.product(),
1217	>	cumulativeFlags.at("secondary muon-track pairs").at(currentDir),scaleFactor);
1218	>	else if(currentHistogram.inputCollection == "muon-tau pairs") fill1DHistogram(histo,currentHistogram, muons.product(),taus.product(),
1219	>	cumulativeFlags.at("muon-tau pairs").at(currentDir),scaleFactor);
1220	>	else if(currentHistogram.inputCollection == "tau-tau pairs") fill1DHistogram(histo,currentHistogram, taus.product(),taus.product(),
1221	>	cumulativeFlags.at("tau-tau pairs").at(currentDir),scaleFactor);
1222	>	else if(currentHistogram.inputCollection == "tau-track pairs") fill1DHistogram(histo,currentHistogram, taus.product(),tracks.product(),
1223	>	cumulativeFlags.at("tau-track pairs").at(currentDir),scaleFactor);
1224	>	else if(currentHistogram.inputCollection == "electron-trigobj pairs") fill1DHistogram(histo,currentHistogram, electrons.product(),trigobjs.product(),
1225	>	cumulativeFlags.at("electron-trigobj pairs").at(currentDir),scaleFactor);
1226	>	else if(currentHistogram.inputCollection == "muon-trigobj pairs") fill1DHistogram(histo,currentHistogram, muons.product(),trigobjs.product(),
1227	>	cumulativeFlags.at("muon-trigobj pairs").at(currentDir),scaleFactor);
1228	>
1229	>	else if(currentHistogram.inputCollection == "events") fill1DHistogram(histo,currentHistogram,events.product(),cumulativeFlags.at("events").at(currentDir),scaleFactor);
1230	>	else if(currentHistogram.inputCollection == "taus") fill1DHistogram(histo,currentHistogram,taus.product(),cumulativeFlags.at("taus").at(currentDir),scaleFactor);
1231	>	else if(currentHistogram.inputCollection == "mets") fill1DHistogram(histo,currentHistogram,mets.product(),cumulativeFlags.at("mets").at(currentDir),scaleFactor);
1232	>	else if(currentHistogram.inputCollection == "tracks") fill1DHistogram(histo,currentHistogram,tracks.product(),cumulativeFlags.at("tracks").at(currentDir),scaleFactor);
1233	>	else if(currentHistogram.inputCollection == "genjets") fill1DHistogram(histo,currentHistogram,genjets.product(),cumulativeFlags.at("genjets").at(currentDir),scaleFactor);
1234	>	else if(currentHistogram.inputCollection == "mcparticles") fill1DHistogram(histo,currentHistogram,mcparticles.product(),cumulativeFlags.at("mcparticles").at(currentDir),scaleFactor);
1235	>	else if(currentHistogram.inputCollection == "primaryvertexs") fill1DHistogram(histo,currentHistogram,primaryvertexs.product(),cumulativeFlags.at("primaryvertexs").at(currentDir),scaleFactor);
1236	>	else if(currentHistogram.inputCollection == "bxlumis") fill1DHistogram(histo,currentHistogram,bxlumis.product(),cumulativeFlags.at("bxlumis").at(currentDir),scaleFactor);
1237	>	else if(currentHistogram.inputCollection == "photons") fill1DHistogram(histo,currentHistogram,photons.product(),cumulativeFlags.at("photons").at(currentDir),scaleFactor);
1238	>	else if(currentHistogram.inputCollection == "superclusters") fill1DHistogram(histo,currentHistogram,superclusters.product(),cumulativeFlags.at("superclusters").at(currentDir),scaleFactor);
1239	>	else if(currentHistogram.inputCollection == "trigobjs") fill1DHistogram(histo,currentHistogram,trigobjs.product(),cumulativeFlags.at("trigobjs").at(currentDir),scaleFactor);
1240	>	else if(currentHistogram.inputCollection == "stops" && datasetType_ == "signalMC") fill1DHistogram(histo,currentHistogram,stops.product(),cumulativeFlags.at("stops").at(currentDir),scaleFactor);
1241	>	}
1242	>	else if(currentHistogram.inputVariables.size() == 2){
1243	>	TH2D* histo;
1244	>	histo = twoDHists_.at(currentChannelIndex).at(currentCut).at(currentHistogram.name);
1245	>	if     (currentHistogram.inputCollection == "jets")            fill2DHistogram(histo,currentHistogram,jets.product(),cumulativeFlags.at("jets").at(currentDir),scaleFactor);
1246	>	else if(currentHistogram.inputCollection == "secondary jets")  fill2DHistogram(histo,currentHistogram,jets.product(),cumulativeFlags.at("secondary jets").at(currentDir),scaleFactor);
1247	>	else if(currentHistogram.inputCollection == "secondary photons")  fill2DHistogram(histo,currentHistogram,photons.product(),cumulativeFlags.at("secondary photons").at(currentDir),scaleFactor);
1248	>	else if(currentHistogram.inputCollection == "muons")           fill2DHistogram(histo,currentHistogram,muons.product(),cumulativeFlags.at("muons").at(currentDir),scaleFactor);
1249	>	else if(currentHistogram.inputCollection == "secondary muons") fill2DHistogram(histo,currentHistogram,secMuons.product(),cumulativeFlags.at("secondary muons").at(currentDir),scaleFactor);
1250	>	else if(currentHistogram.inputCollection == "muon-muon pairs") fill2DHistogram(histo,currentHistogram,muons.product(),muons.product(),
1251	>	cumulativeFlags.at("muon-muon pairs").at(currentDir),scaleFactor);
1252	>	else if(currentHistogram.inputCollection == "muon-secondary muon pairs") fill2DHistogram(histo,currentHistogram,muons.product(),secMuons.product(),
1253	>	cumulativeFlags.at("muon-secondary muon pairs").at(currentDir),scaleFactor);
1254	>	else if(currentHistogram.inputCollection == "muon-secondary photon pairs") fill2DHistogram(histo,currentHistogram,muons.product(),photons.product(),
1255	>	cumulativeFlags.at("muon-secondary photon pairs").at(currentDir),scaleFactor);
1256	>	else if(currentHistogram.inputCollection == "muon-secondary jet pairs") fill2DHistogram(histo,currentHistogram,muons.product(),jets.product(),
1257	>	cumulativeFlags.at("muon-secondary jet pairs").at(currentDir),scaleFactor);
1258	>	else if(currentHistogram.inputCollection == "electron-secondary jet pairs") fill2DHistogram(histo,currentHistogram,electrons.product(),jets.product(),
1259	>	cumulativeFlags.at("electron-secondary jet pairs").at(currentDir),scaleFactor);
1260	>	else if(currentHistogram.inputCollection == "photon-secondary jet pairs") fill2DHistogram(histo,currentHistogram,photons.product(),jets.product(),
1261	>	cumulativeFlags.at("photon-secondary jet pairs").at(currentDir),scaleFactor);
1262	>	else if(currentHistogram.inputCollection == "electrons") fill2DHistogram(histo,currentHistogram,electrons.product(),cumulativeFlags.at("electrons").at(currentDir),scaleFactor);
1263	>	else if(currentHistogram.inputCollection == "secondary electrons") fill2DHistogram(histo,currentHistogram,electrons.product(),cumulativeFlags.at("secondary electrons").at(currentDir),scaleFactor);
1264	>	else if(currentHistogram.inputCollection == "electron-electron pairs") fill2DHistogram(histo,currentHistogram,electrons.product(),electrons.product(),
1265	>	cumulativeFlags.at("electron-electron pairs").at(currentDir),scaleFactor);
1266	>	else if(currentHistogram.inputCollection == "jet-jet pairs") fill2DHistogram(histo,currentHistogram,jets.product(),jets.product(),
1267	>	cumulativeFlags.at("jet-jet pairs").at(currentDir),scaleFactor);
1268	>	else if(currentHistogram.inputCollection == "electron-secondary electron pairs") fill2DHistogram(histo,currentHistogram,electrons.product(),electrons.product(),
1269	>	cumulativeFlags.at("electron-secondary electron pairs").at(currentDir),scaleFactor);
1270	>	else if(currentHistogram.inputCollection == "electron-muon pairs") fill2DHistogram(histo,currentHistogram,electrons.product(),muons.product(),
1271	>	cumulativeFlags.at("electron-muon pairs").at(currentDir),scaleFactor);
1272	>	else if(currentHistogram.inputCollection == "electron-jet pairs") fill2DHistogram(histo,currentHistogram,electrons.product(),jets.product(),
1273	>	cumulativeFlags.at("electron-jet pairs").at(currentDir),scaleFactor);
1274	>	else if(currentHistogram.inputCollection == "electron-photon pairs") fill2DHistogram(histo,currentHistogram,electrons.product(),photons.product(),
1275	>	cumulativeFlags.at("electron-photon pairs").at(currentDir),scaleFactor);
1276	>	else if(currentHistogram.inputCollection == "muon-jet pairs") fill2DHistogram(histo,currentHistogram,muons.product(),jets.product(),
1277	>	cumulativeFlags.at("muon-jet pairs").at(currentDir),scaleFactor);
1278	>	else if(currentHistogram.inputCollection == "muon-event pairs") fill2DHistogram(histo,currentHistogram,muons.product(),events.product(),
1279	>	cumulativeFlags.at("muon-event pairs").at(currentDir),scaleFactor);
1280	>	else if(currentHistogram.inputCollection == "met-jet pairs") fill2DHistogram(histo,currentHistogram,mets.product(),jets.product(),
1281	>	cumulativeFlags.at("met-jet pairs").at(currentDir),scaleFactor);
1282	>	else if(currentHistogram.inputCollection == "track-jet pairs") fill2DHistogram(histo,currentHistogram,tracks.product(),jets.product(),
1283	>	cumulativeFlags.at("track-jet pairs").at(currentDir),scaleFactor);
1284	>	else if(currentHistogram.inputCollection == "photon-jet pairs") fill2DHistogram(histo,currentHistogram,photons.product(),jets.product(),
1285	>	cumulativeFlags.at("photon-jet pairs").at(currentDir),scaleFactor);
1286	>	else if(currentHistogram.inputCollection == "muon-photon pairs") fill2DHistogram(histo,currentHistogram,muons.product(),photons.product(),
1287	>	cumulativeFlags.at("muon-photon pairs").at(currentDir),scaleFactor);
1288	>	else if(currentHistogram.inputCollection == "electron-track pairs") fill2DHistogram(histo,currentHistogram,electrons.product(),tracks.product(),
1289	>	cumulativeFlags.at("electron-track pairs").at(currentDir),scaleFactor);
1290	>	else if(currentHistogram.inputCollection == "muon-track pairs") fill2DHistogram(histo,currentHistogram,muons.product(),tracks.product(),
1291	>	cumulativeFlags.at("muon-track pairs").at(currentDir),scaleFactor);
1292	>	else if(currentHistogram.inputCollection == "secondary muon-track pairs") fill2DHistogram(histo,currentHistogram,secMuons.product(),tracks.product(),
1293	>	cumulativeFlags.at("muon-track pairs").at(currentDir),scaleFactor);
1294	>	else if(currentHistogram.inputCollection == "muon-tau pairs") fill2DHistogram(histo,currentHistogram,muons.product(),taus.product(),
1295	>	cumulativeFlags.at("muon-tau pairs").at(currentDir),scaleFactor);
1296	>	else if(currentHistogram.inputCollection == "tau-tau pairs") fill2DHistogram(histo,currentHistogram,taus.product(),taus.product(),
1297	>	cumulativeFlags.at("tau-tau pairs").at(currentDir),scaleFactor);
1298	>	else if(currentHistogram.inputCollection == "tau-track pairs") fill2DHistogram(histo,currentHistogram,taus.product(),tracks.product(),
1299	>	cumulativeFlags.at("tau-track pairs").at(currentDir),scaleFactor);
1300	>	else if(currentHistogram.inputCollection == "electron-trigobj pairs") fill2DHistogram(histo,currentHistogram,electrons.product(),trigobjs.product(),
1301	>	cumulativeFlags.at("electron-trigobj pairs").at(currentDir),scaleFactor);
1302	>	else if(currentHistogram.inputCollection == "muon-trigobj pairs") fill2DHistogram(histo,currentHistogram,muons.product(),trigobjs.product(),
1303	>	cumulativeFlags.at("muon-trigobj pairs").at(currentDir),scaleFactor);
1304	>	else if(currentHistogram.inputCollection == "events") fill2DHistogram(histo,currentHistogram,events.product(),cumulativeFlags.at("events").at(currentDir),scaleFactor);
1305	>	else if(currentHistogram.inputCollection == "taus") fill2DHistogram(histo,currentHistogram,taus.product(),cumulativeFlags.at("taus").at(currentDir),scaleFactor);
1306	>	else if(currentHistogram.inputCollection == "mets") fill2DHistogram(histo,currentHistogram,mets.product(),cumulativeFlags.at("mets").at(currentDir),scaleFactor);
1307	>	else if(currentHistogram.inputCollection == "tracks") fill2DHistogram(histo,currentHistogram,tracks.product(),cumulativeFlags.at("tracks").at(currentDir),scaleFactor);
1308	>	else if(currentHistogram.inputCollection == "track-event pairs") fill2DHistogram(histo,currentHistogram,tracks.product(),events.product(),
1309	>	cumulativeFlags.at("track-event pairs").at(currentDir),scaleFactor);
1310	>	else if(currentHistogram.inputCollection == "genjets") fill2DHistogram(histo,currentHistogram,genjets.product(),cumulativeFlags.at("genjets").at(currentDir),scaleFactor);
1311	>	else if(currentHistogram.inputCollection == "mcparticles") fill2DHistogram(histo,currentHistogram,mcparticles.product(),cumulativeFlags.at("mcparticles").at(currentDir),scaleFactor);
1312	>	else if(currentHistogram.inputCollection == "primaryvertexs") fill2DHistogram(histo,currentHistogram,primaryvertexs.product(),cumulativeFlags.at("primaryvertexs").at(currentDir),scaleFactor);
1313	>	else if(currentHistogram.inputCollection == "bxlumis") fill2DHistogram(histo,currentHistogram,bxlumis.product(),cumulativeFlags.at("bxlumis").at(currentDir),scaleFactor);
1314	>	else if(currentHistogram.inputCollection == "photons") fill2DHistogram(histo,currentHistogram,photons.product(),cumulativeFlags.at("photons").at(currentDir),scaleFactor);
1315	>	else if(currentHistogram.inputCollection == "superclusters") fill2DHistogram(histo,currentHistogram,superclusters.product(),cumulativeFlags.at("superclusters").at(currentDir),scaleFactor);
1316	>	else if(currentHistogram.inputCollection == "trigobjs") fill2DHistogram(histo,currentHistogram,trigobjs.product(),cumulativeFlags.at("trigobjs").at(currentDir),scaleFactor);
1317	>	else if(currentHistogram.inputCollection == "stops" && datasetType_ == "signalMC") fill2DHistogram(histo,currentHistogram,stops.product(),cumulativeFlags.at("stops").at(currentDir),scaleFactor);
1318	>	}
1319
1320	+	}
1321
348	–	for (uint muonIndex = 0; muonIndex != muonFlags.size(); muonIndex++){
349	–	if(!muonFlags.at(muonIndex)) continue;
350	–	muonCounter++;
1322
1323	<	oneDHists_.at(currentChannelIndex)["muonPt"]->Fill (muons->at(muonIndex).pt);
1324	<	oneDHists_.at(currentChannelIndex)["muonEta"]->Fill (muons->at(muonIndex).eta);
1325	<	oneDHists_.at(currentChannelIndex)["muonD0"]->Fill (muons->at(muonIndex).correctedD0Vertex);
1326	<	oneDHists_.at(currentChannelIndex)["muonAbsD0"]->Fill (fabs(muons->at(muonIndex).correctedD0Vertex));
1327	<	oneDHists_.at(currentChannelIndex)["muonD0Sig"]->Fill (muons->at(muonIndex).correctedD0Vertex / muons->at(muonIndex).tkD0err);
1328	<	oneDHists_.at(currentChannelIndex)["muonAbsD0Sig"]->Fill (fabs(muons->at(muonIndex).correctedD0Vertex) / muons->at(muonIndex).tkD0err);
1329	<	oneDHists_.at(currentChannelIndex)["muonIso"]->Fill (((muons->at(muonIndex).trackIso + muons->at(muonIndex).caloIso) / muons->at(muonIndex).pt));
1323	>	//fills histograms with the sizes of collections
1324	>	for (uint currentObjectIndex = 0; currentObjectIndex != objectsToPlot.size(); currentObjectIndex++){
1325	>
1326	>	string currentObject = objectsToPlot.at(currentObjectIndex);
1327	>	string objectToPlot = "";
1328	>
1329	>	if (verbose_) clog << "Filling histogram of number of selected objects in collection: " << currentObject << endl;
1330	>
1331	>	// Name of objectToPlot here must match the name specified in OSUAnalysis::OSUAnalysis().
1332	>	if(currentObject == "muon-muon pairs")                         objectToPlot = "dimuonPairs";
1333	>	else if(currentObject == "electron-electron pairs")            objectToPlot = "dielectronPairs";
1334	>	else if(currentObject == "electron-muon pairs")                objectToPlot = "electronMuonPairs";
1335	>	else if(currentObject == "electron-photon pairs")              objectToPlot = "electronPhotonPairs";
1336	>	else if(currentObject == "electron-jet pairs")                 objectToPlot = "electronJetPairs";
1337	>	else if(currentObject == "muon-jet pairs")                     objectToPlot = "muonJetPairs";
1338	>	else if(currentObject == "muon-event pairs")                   objectToPlot = "muonEventPairs";
1339	>	else if(currentObject == "muon-photon pairs")                  objectToPlot = "muonPhotonPairs";
1340	>	else if(currentObject == "photon-jet pairs")                   objectToPlot = "photonJetPairs";
1341	>	else if(currentObject == "met-jet pairs")                      objectToPlot = "metJetPairs";
1342	>	else if(currentObject == "track-jet pairs")                    objectToPlot = "trackJetPairs";
1343	>	else if(currentObject == "jet-jet pairs")                      objectToPlot = "dijetPairs";
1344	>	else if(currentObject == "jet-secondary jet pairs")            objectToPlot = "jetSecondaryJetPairs";
1345	>	else if(currentObject == "secondary jets")                     objectToPlot = "secondaryJets";
1346	>	else if(currentObject == "secondary photons")                  objectToPlot = "secondaryPhotons";
1347	>	else if(currentObject == "electron-track pairs")               objectToPlot = "electronTrackPairs";
1348	>	else if(currentObject == "muon-track pairs")                   objectToPlot = "muonTrackPairs";
1349	>	else if(currentObject == "secondary muon-track pairs")         objectToPlot = "secondaryMuonTrackPairs";
1350	>	else if(currentObject == "muon-tau pairs")                     objectToPlot = "muonTauPairs";
1351	>	else if(currentObject == "tau-tau pairs")                      objectToPlot = "ditauPairs";
1352	>	else if(currentObject == "tau-track pairs")                    objectToPlot = "tauTrackPairs";
1353	>	else if(currentObject == "track-event pairs")                  objectToPlot = "trackEventPairs";
1354	>	else if(currentObject == "muon-secondary muon pairs")          objectToPlot = "muonSecondaryMuonPairs";
1355	>	else if(currentObject == "secondary muons")                    objectToPlot = "secondaryMuons";
1356	>	else if(currentObject == "muon-secondary jet pairs")           objectToPlot = "muonSecondaryJetPairs";
1357	>	else if(currentObject == "muon-secondary photon pairs")        objectToPlot = "muonSecondaryJetPairs";
1358	>	else if(currentObject == "electron-secondary jet pairs")       objectToPlot = "electronSecondaryJetPairs";
1359	>	else if(currentObject == "photon-secondary jet pairs")         objectToPlot = "photonSecondaryJetPairs";
1360	>	else if(currentObject == "electron-secondary electron pairs")  objectToPlot = "electronSecondaryElectronPairs";
1361	>	else if(currentObject == "secondary electrons")                objectToPlot = "secondaryElectrons";
1362	>	else if(currentObject == "electron-trigobj pairs")             objectToPlot = "electronTrigobjPairs";
1363	>	else if(currentObject == "muon-trigobj pairs")                 objectToPlot = "muonTrigobjPairs";
1364	>	else if(currentObject == "electron-mcparticle pairs")          objectToPlot = "electronMCparticlePairs";
1365	>	else objectToPlot = currentObject;
1366	>
1367	>	string tempCurrentObject = objectToPlot;
1368	>	tempCurrentObject.at(0) = toupper(tempCurrentObject.at(0));
1369	>	string histoName = "num" + tempCurrentObject;
1370	>
1371	>
1372	>	if(find(objectsToPlot.begin(), objectsToPlot.end(), currentObject) != objectsToPlot.end()) {
1373	>	flagPair lastCutFlags = cumulativeFlags.at(currentObject).at(currentDir);
1374	>	int numToPlot = 0;
1375	>	for (uint iObj = 0; iObj != lastCutFlags.size(); iObj++){  // loop over all the objects
1376	>	if(lastCutFlags.at(iObj).second) {
1377	>	numToPlot++;
1378	>	if (verbose_>3) clog << "   Found object " << iObj << " in collection " << currentObject << " to plot." << endl;
1379	>	}
1380	>	}
1381	>
1382	>	if(objectToPlot == "primaryvertexs"){
1383	>	oneDHists_.at(currentChannelIndex).at(currentCut).at(histoName+"BeforePileupCorrection")->Fill(primaryvertexs->size());
1384	>	oneDHists_.at(currentChannelIndex).at(currentCut).at(histoName+"AfterPileupCorrection")->Fill(primaryvertexs->size(),scaleFactor);
1385	>	}
1386	>	else {
1387	>	if (printEventInfo_) clog << "Number of selected " << objectToPlot << " to plot:  " << numToPlot << endl;
1388	>	oneDHists_.at(currentChannelIndex).at(currentCut).at(histoName)->Fill(numToPlot,scaleFactor);
1389	>	}
1390	>	}
1391	>
1392	>	} // end for (uint currentObjectIndex = 0; currentObjectIndex != objectsToPlot.size(); currentObjectIndex++)
1393	>
1394	>
1395	>	} // end if(eventPassedPreviousCuts.at(currentDir))
1396	>	} // end loop over cuts
1397	>
1398	>	if (!useEDMFormat_ && eventPassedAllCuts){
1399	>	// Assign BNTree variables
1400	>	for (uint iBranch = 0; iBranch != treeBranches_.size(); iBranch++) {
1401	>	BranchSpecs brSpecs = treeBranches_.at(iBranch);
1402	>	string coll = brSpecs.inputCollection;
1403	>	if (cumulativeFlags.count(coll) == 0) clog << "Error: no flags found for collection:  " << coll << ", will cause a seg fault" << endl;
1404	>
1405	>	if     (coll == "jets")                assignTreeBranch(brSpecs,jets.product(),          cumulativeFlags.at(coll).back());
1406	>	else if(coll == "secondary jets")      assignTreeBranch(brSpecs,jets.product(),          cumulativeFlags.at(coll).back());
1407	>	else if(coll == "secondary photons")   assignTreeBranch(brSpecs,photons.product(),       cumulativeFlags.at(coll).back());
1408	>	else if(coll == "muons")               assignTreeBranch(brSpecs,muons.product(),         cumulativeFlags.at(coll).back());
1409	>	else if(coll == "secondary muons")     assignTreeBranch(brSpecs,secMuons.product(),      cumulativeFlags.at(coll).back());
1410	>	else if(coll == "electrons")           assignTreeBranch(brSpecs,electrons.product(),     cumulativeFlags.at(coll).back());
1411	>	else if(coll == "secondary electrons") assignTreeBranch(brSpecs,electrons.product(),     cumulativeFlags.at(coll).back());
1412	>	else if(coll == "events")              assignTreeBranch(brSpecs,events.product(),        cumulativeFlags.at(coll).back());
1413	>	else if(coll == "taus")                assignTreeBranch(brSpecs,taus.product(),          cumulativeFlags.at(coll).back());
1414	>	else if(coll == "mets")                assignTreeBranch(brSpecs,mets.product(),          cumulativeFlags.at(coll).back());
1415	>	else if(coll == "tracks")              assignTreeBranch(brSpecs,tracks.product(),        cumulativeFlags.at(coll).back());
1416	>	else if(coll == "genjets")             assignTreeBranch(brSpecs,genjets.product(),       cumulativeFlags.at(coll).back());
1417	>	else if(coll == "mcparticles")         assignTreeBranch(brSpecs,mcparticles.product(),   cumulativeFlags.at(coll).back());
1418	>	else if(coll == "primaryvertexs")      assignTreeBranch(brSpecs,primaryvertexs.product(),cumulativeFlags.at(coll).back());
1419	>	else if(coll == "bxlumis")             assignTreeBranch(brSpecs,bxlumis.product(),       cumulativeFlags.at(coll).back());
1420	>	else if(coll == "photons")             assignTreeBranch(brSpecs,photons.product(),       cumulativeFlags.at(coll).back());
1421	>	else if(coll == "superclusters")       assignTreeBranch(brSpecs,superclusters.product(), cumulativeFlags.at(coll).back());
1422	>	else if(coll == "trigobjs")            assignTreeBranch(brSpecs,trigobjs.product(),      cumulativeFlags.at(coll).back());
1423	>	else if(coll == "stops"
1424	>	&& datasetType_ == "signalMC") assignTreeBranch(brSpecs,stops.product(),         cumulativeFlags.at(coll).back());
1425	>	} // end loop over branches
1426	>	// set the evtLong, runInt, and lumiInt variables separately, since they are not type float
1427	>	BNTreeBranchVals_evtLong_ = events->at(0).evt;
1428	>	BNTreeBranchVals_runInt_  = events->at(0).run;
1429	>	BNTreeBranchVals_lumiInt_ = events->at(0).lumi;
1430	>
1431	>	if (!BNTrees_.at(currentChannelIndex)) { clog << "ERROR:  Undefined BNTree.  Will likely seg fault." << endl; }
1432	>	BNTrees_.at(currentChannelIndex)->Fill();  // only fill if event has passed cuts
1433		}
360	–	oneDHists_.at(currentChannelIndex)["numMuons"]->Fill (muonCounter);
1434
1435	+	(*channelDecisions)[currentChannel.name] = eventPassedAllCuts;
1436
1437	+	} // end loop over channel
1438
1439	+	masterCutFlow_->fillCutFlow(masterScaleFactor);
1440
1441	+	event.put (channelDecisions, "channelDecisions");
1442
1443	<	} //end loop over channel
1443	>	isFirstEvent_ = false;
1444
1445	<	masterCutFlow_->fillCutFlow();
1445	>	if (verbose_) clog << "Finished OSUAnalysis::produce." << endl;
1446
1447	+	} // end void OSUAnalysis::produce (const edm::Event &event, const edm::EventSetup &setup)
1448
371	–	}
1449
1450
1451	<	bool
1451	>	bool
1452		OSUAnalysis::evaluateComparison (double testValue, string comparison, double cutValue){
1453
1454
#	Line 379 | Line 1456 | OSUAnalysis::evaluateComparison (double
1456		else if(comparison == ">=") return testValue >= cutValue;
1457		else if(comparison == "<")  return testValue <  cutValue;
1458		else if(comparison == "<=") return testValue <= cutValue;
1459	<	else {std::cout << "WARNING: invalid comparison operator '" << comparison << "'\n"; return false;}
1459	>	else if(comparison == "==") return testValue == cutValue;
1460	>	else if(comparison == "=") return testValue == cutValue;
1461	>	else if(comparison == "!=") return testValue != cutValue;
1462	>	else {clog << "WARNING: invalid comparison operator '" << comparison << "'\n"; return false;}
1463
1464		}
1465
1466		bool
1467	<	OSUAnalysis::evaluateTriggers (vector<string> triggersToTest, const BNtriggerCollection* triggerCollection){
1467	>	OSUAnalysis::evaluateComparison (string testValue, string comparison, string cutValue){
1468	>
1469
1470	+	if(comparison == ">")       return testValue >  cutValue;
1471	+	else if(comparison == ">=") return testValue >= cutValue;
1472	+	else if(comparison == "<")  return testValue <  cutValue;
1473	+	else if(comparison == "<=") return testValue <= cutValue;
1474	+	else if(comparison == "==") return testValue == cutValue;
1475	+	else if(comparison == "=")  return testValue == cutValue;
1476	+	else if(comparison == "!=") return testValue != cutValue;
1477	+	else {clog << "WARNING: invalid comparison operator '" << comparison << "'\n"; return false;}
1478	+
1479	+	}
1480	+
1481	+	bool
1482	+	OSUAnalysis::evaluateTriggers (vector<string> triggersToTest, vector<string> triggersToVeto, const BNtriggerCollection* triggerCollection){
1483	+
1484	+	//initialize to false until a chosen trigger is passed
1485		bool triggerDecision = false;
1486
1487	<	for (BNtriggerCollection::const_iterator trigger = triggerCollection->begin (); trigger != triggerCollection->end (); trigger++)
1488	<	{
1489	<	if(trigger->pass != 1) continue;
1490	<	for(uint triggerName = 0; triggerName != triggersToTest.size(); triggerName++)
1491	<	{
1492	<	if(trigger->name.find(triggersToTest.at(triggerName))!=std::string::npos){
1493	<	triggerDecision = true;
1494	<	}
1495	<	}
1487	>	if (printAllTriggers_) clog << "Printing list of all available triggers (which this event may or may not pass):" << endl;
1488	>	//loop over all triggers defined in the event
1489	>	for (BNtriggerCollection::const_iterator trigger = triggerCollection->begin (); trigger != triggerCollection->end (); trigger++){
1490	>
1491	>	if (printAllTriggers_) clog << "   " << trigger->name << endl;
1492	>
1493	>	//we're only interested in triggers that actually passed
1494	>	if(trigger->pass != 1) continue;
1495	>
1496	>	//if the event passes one of the veto triggers, exit and return false
1497	>	for(uint triggerName = 0; triggerName != triggersToVeto.size(); triggerName++){
1498	>	if(trigger->name.find(triggersToVeto.at(triggerName))!=string::npos) return false;
1499		}
1500	<	return triggerDecision;
1500	>	//if the event passes one of the chosen triggers, set triggerDecision to true
1501	>	for(uint triggerName = 0; triggerName != triggersToTest.size(); triggerName++){
1502	>	if(trigger->name.find(triggersToTest.at(triggerName))!=string::npos) triggerDecision = true;
1503	>	}
1504	>	}
1505
1506	+	printAllTriggers_ = false;  // only print triggers once, not every event
1507	+
1508	+	//if none of the veto triggers fired:
1509	+	//return the OR of all the chosen triggers
1510	+	if (triggersToTest.size() != 0) return triggerDecision;
1511	+	//or if no triggers were defined return true
1512	+	else return true;
1513		}
1514
1515	<	std::vector<std::string>
1515	>
1516	>	vector<string>
1517		OSUAnalysis::splitString (string inputString){
1518
1519	<	std::stringstream stringStream(inputString);
1520	<	std::istream_iterator<std::string> begin(stringStream);
1521	<	std::istream_iterator<std::string> end;
1522	<	std::vector<std::string> stringVector(begin, end);
1519	>	stringstream stringStream(inputString);
1520	>	istream_iterator<string> begin(stringStream);
1521	>	istream_iterator<string> end;
1522	>	vector<string> stringVector(begin, end);
1523		return stringVector;
1524
1525		}
1526
1527	+
1528	+	void OSUAnalysis::getTwoObjs(string tempInputCollection, string& obj1, string& obj2) {
1529	+	// Set two object strings from the tempInputCollection string,
1530	+	// For example, if tempInputCollection is "electron-muon pairs",
1531	+	// then obj1 = "electrons" and obj2 = "muons".
1532	+	// Note that the objects have an "s" appended.
1533	+
1534	+	int dashIndex = tempInputCollection.find("-");
1535	+	int spaceIndex = tempInputCollection.find_last_of(" ");
1536	+	int secondWordLength = spaceIndex - dashIndex;
1537	+	obj1 = tempInputCollection.substr(0,dashIndex) + "s";
1538	+	obj2 = tempInputCollection.substr(dashIndex+1,secondWordLength-1)+"s";
1539	+
1540	+	}
1541	+
1542	+
1543	+	string OSUAnalysis::getObjToGet(string obj) {
1544	+	// Return the string corresponding to the object to get for the given obj string.
1545	+	// Right now this only handles the case in which obj contains "secondary",
1546	+	// e.g, "secondary muons".
1547	+	// Note that "s" is NOT appended.
1548	+
1549	+	if (obj.find("secondary")==string::npos) return obj;  // "secondary" is not found
1550	+	int firstSpaceIndex = obj.find_first_of(" ");
1551	+	return obj.substr(firstSpaceIndex+1,obj.length()-1);
1552	+
1553	+	}
1554	+
1555	+
1556	+	//!jet valueLookup
1557		double
1558	<	OSUAnalysis::valueLookup (const BNjet* object, string variable, string function){
1558	>	OSUAnalysis::valueLookup (const BNjet* object, string variable, string function, string &stringValue){
1559
1560		double value = 0.0;
1561		if(variable == "energy") value = object->energy;
#	Line 532 | Line 1673 | OSUAnalysis::valueLookup (const BNjet* o
1673		else if(variable == "puJetId_loose_full") value = object->puJetId_loose_full;
1674		else if(variable == "puJetId_loose_simple") value = object->puJetId_loose_simple;
1675		else if(variable == "puJetId_loose_cutbased") value = object->puJetId_loose_cutbased;
535	–
536	–
537	–	else{std::cout << "WARNING: invalid variable '" << variable << "'\n"; value = -999;}
538	–
539	–	if(function == "abs") value = abs(value);
1676
1677	<	return value;
1678	<	}
1677	>	//user defined variable
1678	>	else if(variable == "disappTrkLeadingJetID") {
1679	>	value = object->pt > 110
1680	>	&& fabs(object->eta) < 2.4
1681	>	&& object->chargedHadronEnergyFraction > 0.2
1682	>	&& object->neutralHadronEnergyFraction < 0.7
1683	>	&& object->chargedEmEnergyFraction < 0.5
1684	>	&& object->neutralEmEnergyFraction < 0.7;
1685	>	}
1686
1687	+	else if(variable == "disappTrkSubLeadingJetID") {
1688	+	value = object->pt > 30
1689	+	&& fabs(object->eta) < 4.5
1690	+	&& object->neutralHadronEnergyFraction < 0.7
1691	+	&& object->chargedEmEnergyFraction < 0.5;
1692	+	}
1693
1694	+	else if(variable == "dPhiMet") {
1695	+	if (const BNmet *met = chosenMET ()) {
1696	+	value = deltaPhi (object->phi, met->phi);
1697	+	} else value = -999;
1698	+	}
1699	+
1700	+
1701	+	else{clog << "WARNING: invalid jet variable '" << variable << "'\n"; value = -999;}
1702
1703	+	value = applyFunction(function, value);
1704	+
1705	+	return value;
1706	+	} // end jet valueLookup
1707	+
1708	+
1709	+	//!muon valueLookup
1710		double
1711	<	OSUAnalysis::valueLookup (const BNmuon* object, string variable, string function){
1711	>	OSUAnalysis::valueLookup (const BNmuon* object, string variable, string function, string &stringValue){
1712
1713		double value = 0.0;
1714		if(variable == "energy") value = object->energy;
#	Line 560 | Line 1724 | OSUAnalysis::valueLookup (const BNmuon*
1724		else if(variable == "ecalIso") value = object->ecalIso;
1725		else if(variable == "hcalIso") value = object->hcalIso;
1726		else if(variable == "caloIso") value = object->caloIso;
1727	<	else if(variable == "trackIsoDR03") value = object->trackIsoDR03;
1727	>	else if(variable == "trackIsDR03") value = object->trackIsoDR03;
1728		else if(variable == "ecalIsoDR03") value = object->ecalIsoDR03;
1729		else if(variable == "hcalIsoDR03") value = object->hcalIsoDR03;
1730		else if(variable == "caloIsoDR03") value = object->caloIsoDR03;
#	Line 636 | Line 1800 | OSUAnalysis::valueLookup (const BNmuon*
1800		else if(variable == "neutralHadronIsoDR04") value = object->neutralHadronIsoDR04;
1801		else if(variable == "photonIsoDR04") value = object->photonIsoDR04;
1802		else if(variable == "puChargedHadronIsoDR04") value = object->puChargedHadronIsoDR04;
1803	+	else if(variable == "chargedHadronIsoDR04") value = object->chargedHadronIsoDR04;
1804	+	else if(variable == "neutralHadronIsoDR04") value = object->neutralHadronIsoDR04;
1805	+	else if(variable == "photonIsoDR04") value = object->photonIsoDR04;
1806	+	else if(variable == "puChargedHadronIsoDR04") value = object->puChargedHadronIsoDR04;
1807		else if(variable == "rhoPrime") value = object->rhoPrime;
1808		else if(variable == "AEffDr03") value = object->AEffDr03;
1809		else if(variable == "AEffDr04") value = object->AEffDr04;
#	Line 643 | Line 1811 | OSUAnalysis::valueLookup (const BNmuon*
1811		else if(variable == "pfIsoR03SumNeutralHadronEt") value = object->pfIsoR03SumNeutralHadronEt;
1812		else if(variable == "pfIsoR03SumPhotonEt") value = object->pfIsoR03SumPhotonEt;
1813		else if(variable == "pfIsoR03SumPUPt") value = object->pfIsoR03SumPUPt;
1814	+	else if(variable == "relpfIsoR04SumExceptChargedHad") value = (object->pfIsoR04SumNeutralHadronEt + object->pfIsoR04SumPhotonEt - 0.5*object->pfIsoR04SumPUPt)/ object->pt;
1815	+	else if(variable == "relpfIsoR04SumChargedHadronPt") value = object->pfIsoR04SumChargedHadronPt/object->pt;
1816	+	else if(variable == "relpfIsoR04SumNeutralHadronEt") value = object->pfIsoR04SumNeutralHadronEt/object->pt;
1817	+	else if(variable == "relpfIsoR04SumPhotonEt") value = object->pfIsoR04SumPhotonEt/object->pt;
1818	+	else if(variable == "relpfIsoR04SumPUPt") value = object->pfIsoR04SumPUPt/object->pt;
1819		else if(variable == "pfIsoR04SumChargedHadronPt") value = object->pfIsoR04SumChargedHadronPt;
1820		else if(variable == "pfIsoR04SumNeutralHadronEt") value = object->pfIsoR04SumNeutralHadronEt;
1821		else if(variable == "pfIsoR04SumPhotonEt") value = object->pfIsoR04SumPhotonEt;
#	Line 698 | Line 1871 | OSUAnalysis::valueLookup (const BNmuon*
1871		else if(variable == "numberOfMatchedStations") value = object->numberOfMatchedStations;
1872		else if(variable == "time_ndof") value = object->time_ndof;
1873
1874	<	else{std::cout << "WARNING: invalid variable '" << variable << "'\n"; value = -999;}
1875	<
1874	>	//user-defined variables
1875	>	else if(variable == "looseID") {
1876	>	value = object->pt > 10 &&
1877	>	(object->isGlobalMuon  > 0 ||
1878	>	object->isTrackerMuon > 0);
1879	>	}
1880	>
1881	>	else if(variable == "looseIDGlobalMuon") {
1882	>	value = object->pt > 10 &&
1883	>	object->isGlobalMuon  > 0;
1884	>	}
1885	>	else if(variable == "correctedD0VertexErr") value =  hypot (object->tkD0err, hypot (chosenVertex ()->xError, chosenVertex ()->yError));
1886	>	else if(variable == "correctedD0VertexSig") value =  object->correctedD0Vertex / hypot (object->tkD0err, hypot (chosenVertex ()->xError, chosenVertex ()->yError));
1887	>	else if(variable == "detIso") value = (object->trackIsoDR03) / object->pt;
1888	>	else if(variable == "relPFdBetaIso") value = (object->pfIsoR04SumChargedHadronPt + max(0.0, object->pfIsoR04SumNeutralHadronEt + object->pfIsoR04SumPhotonEt - 0.5*object->pfIsoR04SumPUPt)) / object->pt;
1889	>	else if(variable == "relPFdBetaIsoPseudo") value = (object->pfIsoR04SumChargedHadronPt + object->pfIsoR04SumNeutralHadronEt + object->pfIsoR04SumPhotonEt - 0.5*object->pfIsoR04SumPUPt) / object->pt;
1890	>	else if(variable == "relPFrhoIso") value = ( object->chargedHadronIso + max(0.0, object->neutralHadronIso + object->photonIso - object->AEffDr03*object->rhoPrime) ) / object->pt;
1891	>	else if(variable == "metMT") {
1892	>	if (const BNmet *met = chosenMET ())
1893	>	{
1894	>	double dPhi = deltaPhi (object->phi, met->phi);
1895	>	value = sqrt (2 * object->pt * met->pt * (1 - cos (dPhi)));
1896	>	}
1897	>	else
1898	>	value = -999;
1899	>	}
1900	>	else if(variable == "ptPlusMet") {
1901	>	// Calculate the magnitude of the vector sum of the muon pT and the Met.
1902	>	if (const BNmet *met = chosenMET ())
1903	>	{
1904	>	TVector2 p2Met;
1905	>	TVector2 p2Muon;
1906	>	p2Met. SetMagPhi(   met->pt,    met->phi);
1907	>	p2Muon.SetMagPhi(object->pt, object->phi);
1908	>	TVector2 p2MetElec = p2Met + p2Muon;
1909	>	value = p2MetElec.Mod();
1910	>	}
1911	>	else
1912	>	value = -999;
1913	>	}
1914	>
1915	>	else if(variable == "correctedD0VertexInEBPlus"){
1916	>	if(fabs(object->eta) < 0.8 && object->eta > 0) value = object->correctedD0Vertex;
1917	>	else value = -999;
1918	>	}
1919	>	else if(variable == "correctedD0VertexOutEBPlus"){
1920	>	if(fabs(object->eta) < 1.479 && fabs(object->eta) > 0.8 && object->eta > 0) value = object->correctedD0Vertex;
1921	>	else value = -999;
1922	>	}
1923	>	else if(variable == "correctedD0VertexEEPlus"){
1924	>	if(fabs(object->eta) > 1.479 && object->eta > 0) value = object->correctedD0Vertex;
1925	>	else value = -999;
1926	>	}
1927	>
1928	>	else if(variable == "correctedD0BeamspotInEBPlus"){
1929	>	if(fabs(object->eta) < 0.8 && object->eta > 0) value = object->correctedD0;
1930	>	else value = -999;
1931	>	}
1932	>	else if(variable == "correctedD0BeamspotOutEBPlus"){
1933	>	if(fabs(object->eta) < 1.479 && fabs(object->eta) > 0.8 && object->eta > 0) value = object->correctedD0;
1934	>	else value = -999;
1935	>	}
1936	>	else if(variable == "correctedD0BeamspotEEPlus"){
1937	>	if(fabs(object->eta) > 1.479 && object->eta > 0) value = object->correctedD0;
1938	>	else value = -999;
1939	>	}
1940	>
1941	>	else if(variable == "correctedD0VertexInEBMinus"){
1942	>	if(fabs(object->eta) < 0.8 && object->eta < 0) value = object->correctedD0Vertex;
1943	>	else value = -999;
1944	>	}
1945	>	else if(variable == "correctedD0VertexOutEBMinus"){
1946	>	if(fabs(object->eta) < 1.479 && fabs(object->eta) > 0.8 && object->eta < 0) value = object->correctedD0Vertex;
1947	>	else value = -999;
1948	>	}
1949	>	else if(variable == "correctedD0VertexEEMinus"){
1950	>	if(fabs(object->eta) > 1.479 && object->eta < 0) value = object->correctedD0Vertex;
1951	>	else value = -999;
1952	>	}
1953	>
1954	>	else if(variable == "correctedD0BeamspotInEBMinus"){
1955	>	if(fabs(object->eta) < 0.8 && object->eta < 0) value = object->correctedD0;
1956	>	else value = -999;
1957	>	}
1958	>	else if(variable == "correctedD0BeamspotOutEBMinus"){
1959	>	if(fabs(object->eta) < 1.479 && fabs(object->eta) > 0.8 && object->eta < 0) value = object->correctedD0;
1960	>	else value = -999;
1961	>	}
1962	>	else if(variable == "correctedD0BeamspotEEMinus"){
1963	>	if(fabs(object->eta) > 1.479 && object->eta < 0) value = object->correctedD0;
1964	>	else value = -999;
1965	>	}
1966	>
1967	>
1968	>	else if(variable == "correctedD0VertexInEBPositiveCharge"){
1969	>	if(fabs(object->eta) < 0.8 && object->charge > 0) value = object->correctedD0Vertex;
1970	>	else value = -999;
1971	>	}
1972	>	else if(variable == "correctedD0VertexOutEBPositiveCharge"){
1973	>	if(fabs(object->eta) < 1.479 && fabs(object->eta) > 0.8 && object->charge > 0) value = object->correctedD0Vertex;
1974	>	else value = -999;
1975	>	}
1976	>	else if(variable == "correctedD0VertexEEPositiveCharge"){
1977	>	if(fabs(object->eta) > 1.479 && object->charge > 0) value = object->correctedD0Vertex;
1978	>	else value = -999;
1979	>	}
1980	>
1981	>	else if(variable == "correctedD0BeamspotInEBPositiveCharge"){
1982	>	if(fabs(object->eta) < 0.8 && object->charge > 0) value = object->correctedD0;
1983	>	else value = -999;
1984	>	}
1985	>	else if(variable == "correctedD0BeamspotOutEBPositiveCharge"){
1986	>	if(fabs(object->eta) < 1.479 && fabs(object->eta) > 0.8 && object->charge > 0) value = object->correctedD0;
1987	>	else value = -999;
1988	>	}
1989	>	else if(variable == "correctedD0BeamspotEEPositiveCharge"){
1990	>	if(fabs(object->eta) > 1.479 && object->charge > 0) value = object->correctedD0;
1991	>	else value = -999;
1992	>	}
1993	>
1994	>	else if(variable == "correctedD0VertexInEBNegativeCharge"){
1995	>	if(fabs(object->eta) < 0.8 && object->charge < 0) value = object->correctedD0Vertex;
1996	>	else value = -999;
1997	>	}
1998	>	else if(variable == "correctedD0VertexOutEBNegativeCharge"){
1999	>	if(fabs(object->eta) < 1.479 && fabs(object->eta) > 0.8 && object->charge < 0) value = object->correctedD0Vertex;
2000	>	else value = -999;
2001	>	}
2002	>	else if(variable == "correctedD0VertexEENegativeCharge"){
2003	>	if(fabs(object->eta) > 1.479 && object->charge < 0) value = object->correctedD0Vertex;
2004	>	else value = -999;
2005	>	}
2006	>
2007	>	else if(variable == "correctedD0BeamspotInEBNegativeCharge"){
2008	>	if(fabs(object->eta) < 0.8 && object->charge < 0) value = object->correctedD0;
2009	>	else value = -999;
2010	>	}
2011	>	else if(variable == "correctedD0BeamspotOutEBNegativeCharge"){
2012	>	if(fabs(object->eta) < 1.479 && fabs(object->eta) > 0.8 && object->charge < 0) value = object->correctedD0;
2013	>	else value = -999;
2014	>	}
2015	>	else if(variable == "correctedD0BeamspotEENegativeCharge"){
2016	>	if(fabs(object->eta) > 1.479 && object->charge < 0) value = object->correctedD0;
2017	>	else value = -999;
2018	>	}
2019	>
2020	>
2021	>	else if(variable == "tightID") {
2022	>	value = object->isGlobalMuon > 0                \
2023	>	&& object->isPFMuon > 0                        \
2024	>	&& object->normalizedChi2 < 10                \
2025	>	&& object->numberOfValidMuonHits > 0        \
2026	>	&& object->numberOfMatchedStations > 1        \
2027	>	&& fabs(object->correctedD0Vertex) < 0.2        \
2028	>	&& fabs(object->correctedDZ) < 0.5        \
2029	>	&& object->numberOfValidPixelHits > 0                \
2030	>	&& object->numberOfLayersWithMeasurement > 5;
2031	>	}
2032	>	else if(variable == "tightIDdisplaced"){
2033	>	value = object->isGlobalMuon > 0                \
2034	>	&& object->isPFMuon > 0                        \
2035	>	&& object->normalizedChi2 < 10                \
2036	>	&& object->numberOfValidMuonHits > 0        \
2037	>	&& object->numberOfMatchedStations > 1        \
2038	>	&& object->numberOfValidPixelHits > 0        \
2039	>	&& object->numberOfLayersWithMeasurement > 5;
2040	>	}
2041	>
2042	>	else if(variable == "genDeltaRLowest") value = getGenDeltaRLowest(object);
2043	>
2044	>	else if(variable == "genMatchedPdgId"){
2045	>	int index = getGenMatchedParticleIndex(object);
2046	>	if(index == -1) value = 0;
2047	>	else value = mcparticles->at(index).id;
2048	>	}
2049	>
2050	>	else if(variable == "genMatchedId"){
2051	>	int index = getGenMatchedParticleIndex(object);
2052	>	if(index == -1) value = 0;
2053	>	else value = getPdgIdBinValue(mcparticles->at(index).id);
2054	>	}
2055	>	else if(variable == "genMatchedMotherId"){
2056	>	int index = getGenMatchedParticleIndex(object);
2057	>	if(index == -1) value = 0;
2058	>	else value = getPdgIdBinValue(mcparticles->at(index).motherId);
2059	>	}
2060	>	else if(variable == "genMatchedMotherIdReverse"){
2061	>	int index = getGenMatchedParticleIndex(object);
2062	>	if(index == -1) value = 24;
2063	>	else value = 24 - getPdgIdBinValue(mcparticles->at(index).motherId);
2064	>	}
2065	>	else if(variable == "genMatchedGrandmotherId"){
2066	>	int index = getGenMatchedParticleIndex(object);
2067	>	if(index == -1) value = 0;
2068	>	else if(fabs(mcparticles->at(index).motherId) == 15){
2069	>	int motherIndex = findTauMotherIndex(&mcparticles->at(index));
2070	>	if(motherIndex == -1) value = 0;
2071	>	else value = getPdgIdBinValue(mcparticles->at(motherIndex).motherId);
2072	>	}
2073	>	else value = getPdgIdBinValue(mcparticles->at(index).grandMotherId);
2074	>	}
2075	>	else if(variable == "genMatchedGrandmotherIdReverse"){
2076	>	int index = getGenMatchedParticleIndex(object);
2077	>	if(index == -1) value = 24;
2078	>	else if(fabs(mcparticles->at(index).motherId) == 15){
2079	>	int motherIndex = findTauMotherIndex(&mcparticles->at(index));
2080	>	if(motherIndex == -1) value = 24;
2081	>	else value = 24 - getPdgIdBinValue(mcparticles->at(motherIndex).motherId);
2082	>	}
2083	>	else value = 24 - getPdgIdBinValue(mcparticles->at(index).grandMotherId);
2084	>	}
2085	>	else if(variable == "pfMuonsFromVertex"){
2086	>	double d0Error, dzError;
2087	>
2088	>	d0Error = hypot (object->tkD0err, hypot (chosenVertex ()->xError, chosenVertex ()->yError));
2089	>	dzError = hypot (object->tkDZerr, chosenVertex ()->zError);
2090	>	value = fabs (object->correctedD0Vertex) > 0.2 || fabs (object->correctedDZ) > 0.5
2091	>	|| fabs (object->correctedD0Vertex / d0Error) > 99.0
2092	>	|| fabs (object->correctedDZ / dzError) > 99.0;
2093	>	value = (object->isStandAloneMuon && !object->isTrackerMuon && !object->isGlobalMuon) || !value;
2094	>	}
2095	>
2096	>
2097	>
2098	>	else{clog << "WARNING: invalid muon variable '" << variable << "'\n"; value = -999;}
2099	>
2100	>	value = applyFunction(function, value);
2101
2102		return value;
2103	<	}
2103	>	} // end muon valueLookup
2104
2105
2106	+	//!electron valueLookup
2107		double
2108	<	OSUAnalysis::valueLookup (const BNelectron* object, string variable, string function){
2108	>	OSUAnalysis::valueLookup (const BNelectron* object, string variable, string function, string &stringValue){
2109
2110		double value = 0.0;
2111		if(variable == "energy") value = object->energy;
#	Line 866 | Line 2265 | OSUAnalysis::valueLookup (const BNelectr
2265		else if(variable == "eidHyperTight4MC") value = object->eidHyperTight4MC;
2266		else if(variable == "passConvVeto") value = object->passConvVeto;
2267
2268	+	//user-defined variables
2269	+	else if(variable == "correctedD0VertexErr") value =  hypot (object->tkD0err, hypot (chosenVertex ()->xError, chosenVertex ()->yError));
2270	+	else if(variable == "correctedD0VertexSig") value =  object->correctedD0Vertex / hypot (object->tkD0err, hypot (chosenVertex ()->xError, chosenVertex ()->yError));
2271	+	else if(variable == "detIso") value = (object->trackIso) / object->pt;
2272	+	else if(variable == "relPFrhoIso") value = ( object->chargedHadronIsoDR03 + max(0.0, object->neutralHadronIsoDR03 + object->photonIsoDR03 - object->AEffDr03*object->rhoPrime) ) / object->pt;
2273	+	else if(variable == "relPFrhoIsoEB") value = object->isEB ? ( object->chargedHadronIsoDR03 + max(0.0, object->neutralHadronIsoDR03 + object->photonIsoDR03 - object->AEffDr03*object->rhoPrime) ) / object->pt : -999;
2274	+	else if(variable == "relPFrhoIsoEE") value = object->isEE ? ( object->chargedHadronIsoDR03 + max(0.0, object->neutralHadronIsoDR03 + object->photonIsoDR03 - object->AEffDr03*object->rhoPrime) ) / object->pt : -999;
2275	+	else if(variable == "metMT") {
2276	+	if (const BNmet *met = chosenMET ())
2277	+	{
2278	+	double dPhi = deltaPhi (object->phi, met->phi);
2279	+	value = sqrt (2 * object->pt * met->pt * (1 - cos (dPhi)));
2280	+	}
2281	+	else
2282	+	value = -999;
2283	+	}
2284	+
2285	+	else if(variable == "ptPlusMet") {
2286	+	// Calculate the magnitude of the vector sum of the electron pT and the Met.
2287	+	if (const BNmet *met = chosenMET ())
2288	+	{
2289	+	TVector2 p2Met;
2290	+	TVector2 p2Elec;
2291	+	p2Met. SetMagPhi(   met->pt,    met->phi);
2292	+	p2Elec.SetMagPhi(object->pt, object->phi);
2293	+	TVector2 p2MetElec = p2Met + p2Elec;
2294	+	value = p2MetElec.Mod();
2295	+	}
2296	+	else
2297	+	value = -999;
2298	+	}
2299	+
2300	+	else if(variable == "correctedD0VertexEEPositiveChargeLowPt"){
2301	+	if(fabs(object->eta) > 1.479 && object->charge > 0 && object->pt > 45) value = object->correctedD0Vertex;
2302	+	else value = -999;
2303	+	}
2304	+	else if(variable == "correctedD0VertexEEPositiveChargeHighPt"){
2305	+	if(fabs(object->eta) > 1.479 && object->charge > 0 && object->pt < 45) value = object->correctedD0Vertex;
2306	+	else value = -999;
2307	+	}
2308	+
2309	+	else if(variable == "correctedD0VertexInEBPlus"){
2310	+	if(fabs(object->eta) < 0.8 && object->eta > 0) value = object->correctedD0Vertex;
2311	+	else value = -999;
2312	+	}
2313	+	else if(variable == "correctedD0VertexOutEBPlus"){
2314	+	if(object->isEB && fabs(object->eta) > 0.8 && object->eta > 0) value = object->correctedD0Vertex;
2315	+	else value = -999;
2316	+	}
2317	+	else if(variable == "correctedD0VertexEEPlus"){
2318	+	if(object->isEE && object->eta > 0) value = object->correctedD0Vertex;
2319	+	else value = -999;
2320	+	}
2321	+
2322	+	else if(variable == "correctedD0BeamspotInEBPlus"){
2323	+	if(fabs(object->eta) < 0.8 && object->eta > 0) value = object->correctedD0;
2324	+	else value = -999;
2325	+	}
2326	+	else if(variable == "correctedD0BeamspotOutEBPlus"){
2327	+	if(object->isEB && fabs(object->eta) > 0.8 && object->eta > 0) value = object->correctedD0;
2328	+	else value = -999;
2329	+	}
2330	+	else if(variable == "correctedD0BeamspotEEPlus"){
2331	+	if(object->isEE && object->eta > 0) value = object->correctedD0;
2332	+	else value = -999;
2333	+	}
2334	+
2335	+	else if(variable == "correctedD0VertexInEBMinus"){
2336	+	if(fabs(object->eta) < 0.8 && object->eta < 0) value = object->correctedD0Vertex;
2337	+	else value = -999;
2338	+	}
2339	+	else if(variable == "correctedD0VertexOutEBMinus"){
2340	+	if(object->isEB && fabs(object->eta) > 0.8 && object->eta < 0) value = object->correctedD0Vertex;
2341	+	else value = -999;
2342	+	}
2343	+	else if(variable == "correctedD0VertexEEMinus"){
2344	+	if(object->isEE && object->eta < 0) value = object->correctedD0Vertex;
2345	+	else value = -999;
2346	+	}
2347	+
2348	+	else if(variable == "correctedD0BeamspotInEBMinus"){
2349	+	if(fabs(object->eta) < 0.8 && object->eta < 0) value = object->correctedD0;
2350	+	else value = -999;
2351	+	}
2352	+	else if(variable == "correctedD0BeamspotOutEBMinus"){
2353	+	if(object->isEB && fabs(object->eta) > 0.8 && object->eta < 0) value = object->correctedD0;
2354	+	else value = -999;
2355	+	}
2356	+	else if(variable == "correctedD0BeamspotEEMinus"){
2357	+	if(object->isEE && object->eta < 0) value = object->correctedD0;
2358	+	else value = -999;
2359	+	}
2360	+
2361	+	else if(variable == "looseID"){
2362	+	if (object->isEB)
2363	+	{
2364	+	value = fabs(object->delEtaIn) < 0.007 \
2365	+	&& fabs (object->delPhiIn) < 0.15 \
2366	+	&& object->scSigmaIEtaIEta < 0.01 \
2367	+	&& object->hadOverEm < 0.12 \
2368	+	&& fabs (object->correctedD0Vertex) < 0.02 \
2369	+	&& fabs (object->correctedDZ) < 0.2 \
2370	+	&& object->absInvEMinusInvPin < 0.05 \
2371	+	&& object->passConvVeto;
2372	+	}
2373	+	else
2374	+	{
2375	+	value = fabs(object->delEtaIn) < 0.009 \
2376	+	&& fabs (object->delPhiIn) < 0.10 \
2377	+	&& object->scSigmaIEtaIEta < 0.03 \
2378	+	&& object->hadOverEm < 0.10 \
2379	+	&& fabs (object->correctedD0Vertex) < 0.02 \
2380	+	&& fabs (object->correctedDZ) < 0.2 \
2381	+	&& object->absInvEMinusInvPin < 0.05 \
2382	+	&& object->passConvVeto;
2383	+	}
2384	+	}
2385	+
2386	+	else if(variable == "tightID"){
2387	+	if (object->isEB)
2388	+	{
2389	+	value = fabs(object->delEtaIn) < 0.004 \
2390	+	&& fabs (object->delPhiIn) < 0.03 \
2391	+	&& object->scSigmaIEtaIEta < 0.01 \
2392	+	&& object->hadOverEm < 0.12 \
2393	+	&& fabs (object->correctedD0Vertex) < 0.02 \
2394	+	&& fabs (object->correctedDZ) < 0.1 \
2395	+	&& object->absInvEMinusInvPin < 0.05 \
2396	+	&& object->passConvVeto;
2397	+	}
2398	+	else
2399	+	{
2400	+	value = fabs(object->delEtaIn) < 0.005 \
2401	+	&& fabs (object->delPhiIn) < 0.02 \
2402	+	&& object->scSigmaIEtaIEta < 0.03 \
2403	+	&& object->hadOverEm < 0.10 \
2404	+	&& fabs (object->correctedD0Vertex) < 0.02 \
2405	+	&& fabs (object->correctedDZ) < 0.1 \
2406	+	&& object->absInvEMinusInvPin < 0.05 \
2407	+	&& object->passConvVeto;
2408	+	}
2409	+	}
2410	+
2411	+	else if(variable == "looseID_MVA"){
2412	+	value = object->pt > 10
2413	+	&& object->mvaNonTrigV0 > 0;
2414	+	}
2415	+	else if(variable == "correctedD0VertexInEBPositiveCharge"){
2416	+	if(fabs(object->eta) < 0.8 && object->charge > 0) value = object->correctedD0Vertex;
2417	+	else value = -999;
2418	+	}
2419	+	else if(variable == "correctedD0VertexOutEBPositiveCharge"){
2420	+	if(object->isEB && fabs(object->eta) > 0.8 && object->charge > 0) value = object->correctedD0Vertex;
2421	+	else value = -999;
2422	+	}
2423	+	else if(variable == "correctedD0VertexEEPositiveCharge"){
2424	+	if(object->isEE && object->charge > 0) value = object->correctedD0Vertex;
2425	+	else value = -999;
2426	+	}
2427	+
2428	+	else if(variable == "correctedD0BeamspotInEBPositiveCharge"){
2429	+	if(fabs(object->eta) < 0.8 && object->charge > 0) value = object->correctedD0;
2430	+	else value = -999;
2431	+	}
2432	+	else if(variable == "correctedD0BeamspotOutEBPositiveCharge"){
2433	+	if(object->isEB && fabs(object->eta) > 0.8 && object->charge > 0) value = object->correctedD0;
2434	+	else value = -999;
2435	+	}
2436	+	else if(variable == "correctedD0BeamspotEEPositiveCharge"){
2437	+	if(object->isEE && object->charge > 0) value = object->correctedD0;
2438	+	else value = -999;
2439	+	}
2440	+
2441	+	else if(variable == "correctedD0VertexInEBNegativeCharge"){
2442	+	if(fabs(object->eta) < 0.8 && object->charge < 0) value = object->correctedD0Vertex;
2443	+	else value = -999;
2444	+	}
2445	+	else if(variable == "correctedD0VertexOutEBNegativeCharge"){
2446	+	if(object->isEB && fabs(object->eta) > 0.8 && object->charge < 0) value = object->correctedD0Vertex;
2447	+	else value = -999;
2448	+	}
2449	+	else if(variable == "correctedD0VertexEENegativeCharge"){
2450	+	if(object->isEE && object->charge < 0) value = object->correctedD0Vertex;
2451	+	else value = -999;
2452	+	}
2453	+
2454	+	else if(variable == "correctedD0BeamspotInEBNegativeCharge"){
2455	+	if(fabs(object->eta) < 0.8 && object->charge < 0) value = object->correctedD0;
2456	+	else value = -999;
2457	+	}
2458	+	else if(variable == "correctedD0BeamspotOutEBNegativeCharge"){
2459	+	if(object->isEB && fabs(object->eta) > 0.8 && object->charge < 0) value = object->correctedD0;
2460	+	else value = -999;
2461	+	}
2462	+	else if(variable == "correctedD0BeamspotEENegativeCharge"){
2463	+	if(object->isEE && object->charge < 0) value = object->correctedD0;
2464	+	else value = -999;
2465	+	}
2466	+
2467	+
2468	+	else if(variable == "tightIDdisplaced"){
2469	+	if (object->isEB)
2470	+	{
2471	+	value = fabs(object->delEtaIn) < 0.004 \
2472	+	&& fabs (object->delPhiIn) < 0.03 \
2473	+	&& object->scSigmaIEtaIEta < 0.01 \
2474	+	&& object->hadOverEm < 0.12 \
2475	+	&& object->absInvEMinusInvPin < 0.05;
2476	+	}
2477	+	else
2478	+	{
2479	+	value = fabs (object->delEtaIn) < 0.005 \
2480	+	&& fabs (object->delPhiIn) < 0.02 \
2481	+	&& object->scSigmaIEtaIEta < 0.03 \
2482	+	&& object->hadOverEm < 0.10 \
2483	+	&& object->absInvEMinusInvPin < 0.05;
2484	+	}
2485	+	}
2486
2487	<	else{std::cout << "WARNING: invalid variable '" << variable << "'\n"; value = -999;}
2488	<
2487	>
2488	>	else if(variable == "genDeltaRLowest") value = getGenDeltaRLowest(object);
2489	>
2490	>	else if(variable == "genMatchedPdgId"){
2491	>	int index = getGenMatchedParticleIndex(object);
2492	>	if(index == -1) value = 0;
2493	>	else value = mcparticles->at(index).id;
2494	>	}
2495	>
2496	>
2497	>	else if(variable == "genMatchedId"){
2498	>	int index = getGenMatchedParticleIndex(object);
2499	>	if(index == -1) value = 0;
2500	>	else value = getPdgIdBinValue(mcparticles->at(index).id);
2501	>	}
2502	>	else if(variable == "genMatchedMotherId"){
2503	>	int index = getGenMatchedParticleIndex(object);
2504	>	if(index == -1) value = 0;
2505	>	else value = getPdgIdBinValue(mcparticles->at(index).motherId);
2506	>	}
2507	>	else if(variable == "genMatchedMotherIdReverse"){
2508	>	int index = getGenMatchedParticleIndex(object);
2509	>	if(index == -1) value = 24;
2510	>	else value = 24 -getPdgIdBinValue(mcparticles->at(index).motherId);
2511	>	}
2512	>	else if(variable == "genMatchedGrandmotherId"){
2513	>	int index = getGenMatchedParticleIndex(object);
2514	>	if(index == -1) value = 0;
2515	>	else if(fabs(mcparticles->at(index).motherId) == 15){
2516	>	int motherIndex = findTauMotherIndex(&mcparticles->at(index));
2517	>	if(motherIndex == -1) value = 0;
2518	>	else value = getPdgIdBinValue(mcparticles->at(motherIndex).motherId);
2519	>	}
2520	>	else value = getPdgIdBinValue(mcparticles->at(index).grandMotherId);
2521	>	}
2522	>	else if(variable == "genMatchedGrandmotherIdReverse"){
2523	>	int index = getGenMatchedParticleIndex(object);
2524	>	if(index == -1) value = 24;
2525	>	else if(fabs(mcparticles->at(index).motherId) == 15){
2526	>	int motherIndex = findTauMotherIndex(&mcparticles->at(index));
2527	>	if(motherIndex == -1) value = 24;
2528	>	else value = 24 - getPdgIdBinValue(mcparticles->at(motherIndex).motherId);
2529	>	}
2530	>	else value = 24 - getPdgIdBinValue(mcparticles->at(index).grandMotherId);
2531	>	}
2532	>	else if(variable == "pfElectronsFromVertex"){
2533	>	double d0Error, dzError;
2534	>
2535	>	d0Error = hypot (object->tkD0err, hypot (chosenVertex ()->xError, chosenVertex ()->yError));
2536	>	dzError = hypot (object->tkDZerr, chosenVertex ()->zError);
2537	>	value = fabs (object->correctedD0Vertex) > 0.2 || fabs (object->correctedDZ) > 0.5
2538	>	|| fabs (object->correctedD0Vertex / d0Error) > 99.0
2539	>	|| fabs (object->correctedDZ / dzError) > 99.0;
2540	>	value = !value;
2541	>	}
2542	>
2543	>
2544	>
2545	>	else{clog << "WARNING: invalid electron variable '" << variable << "'\n"; value = -999;}
2546	>
2547	>	value = applyFunction(function, value);
2548
2549		return value;
2550	<	}
2550	>	} // end electron valueLookup
2551
2552
2553	+	//!event valueLookup
2554		double
2555	<	OSUAnalysis::valueLookup (const BNevent* object, string variable, string function){
2555	>	OSUAnalysis::valueLookup (const BNevent* object, string variable, string function, string &stringValue){
2556
2557		double value = 0.0;
2558
#	Line 943 | Line 2620 | OSUAnalysis::valueLookup (const BNevent*
2620		else if(variable == "id1") value = object->id1;
2621		else if(variable == "id2") value = object->id2;
2622		else if(variable == "evt") value = object->evt;
2623	+	else if(variable == "puScaleFactor"){
2624	+	if(doPileupReweighting_ && datasetType_ != "data")
2625	+	value = puWeight_->at (events->at (0).numTruePV);
2626	+	else
2627	+	value = 1.0;
2628	+	}
2629	+	else if(variable == "muonScaleFactor") value = muonScaleFactor_;
2630	+	else if(variable == "electronScaleFactor") value = electronScaleFactor_;
2631	+	else if(variable == "stopCTauScaleFactor") value = stopCTauScaleFactor_;
2632	+	else if(variable == "bTagScaleFactor") value = bTagScaleFactor_;
2633	+
2634	+	else if(variable == "unfilteredHt") value = getHt(jets.product());
2635	+	else if(variable == "ht") value = chosenHT ();
2636	+
2637	+	else if(variable == "leadMuPairInvMass"){
2638	+	pair<const BNmuon *, const BNmuon *> muPair = leadMuonPair ();
2639	+	TLorentzVector p0 (muPair.first->px, muPair.first->py, muPair.first->pz, muPair.first->energy),
2640	+	p1 (muPair.second->px, muPair.second->py, muPair.second->pz, muPair.second->energy);
2641	+	value = (p0 + p1).M ();
2642	+	}
2643	+	else if(variable == "leadMuPairPt"){
2644	+	pair<const BNmuon *, const BNmuon *> muPair = leadMuonPair ();
2645	+	TVector2 pt0 (muPair.first->px, muPair.first->py),
2646	+	pt1 (muPair.second->px, muPair.second->py);
2647	+	pt0 += pt1;
2648	+	value = pt0.Mod ();
2649	+	}
2650	+	else if(variable == "leadElPairInvMass"){
2651	+	pair<const BNelectron *, const BNelectron *> muPair = leadElectronPair ();
2652	+	TLorentzVector p0 (muPair.first->px, muPair.first->py, muPair.first->pz, muPair.first->energy),
2653	+	p1 (muPair.second->px, muPair.second->py, muPair.second->pz, muPair.second->energy);
2654	+	value = (p0 + p1).M ();
2655	+	}
2656	+	else if(variable == "leadElPairPt"){
2657	+	pair<const BNelectron *, const BNelectron *> muPair = leadElectronPair ();
2658	+	TVector2 pt0 (muPair.first->px, muPair.first->py),
2659	+	pt1 (muPair.second->px, muPair.second->py);
2660	+	pt0 += pt1;
2661	+	value = pt0.Mod ();
2662	+	}
2663	+	else{clog << "WARNING: invalid event variable '" << variable << "'\n"; value = -999;}
2664
2665	<	else{std::cout << "WARNING: invalid variable '" << variable << "'\n"; value = -999;}
948	<
2665	>	value = applyFunction(function, value);
2666
2667		return value;
2668	<	}
2668	>	} // end event valueLookup
2669
2670	+
2671	+	//!tau valueLookup
2672		double
2673	<	OSUAnalysis::valueLookup (const BNtau* object, string variable, string function){
2673	>	OSUAnalysis::valueLookup (const BNtau* object, string variable, string function, string &stringValue){
2674
2675		double value = 0.0;
2676
#	Line 995 | Line 2714 | OSUAnalysis::valueLookup (const BNtau* o
2714		else if(variable == "HPSdecayModeFinding") value = object->HPSdecayModeFinding;
2715		else if(variable == "leadingTrackValid") value = object->leadingTrackValid;
2716
2717	+	else if (variable == "looseHadronicID") {
2718	+	//criteria taken from http://cms.cern.ch/iCMS/jsp/db_notes/showNoteDetails.jsp?noteID=CMS%20AN-2011/019
2719	+	value = object->pt > 30
2720	+	&& fabs(object->eta) < 2.3
2721	+	&& object->HPSbyLooseCombinedIsolationDeltaBetaCorr > 0
2722	+	&& object->HPSdecayModeFinding > 0
2723	+	&& object->HPSagainstElectronLoose > 0
2724	+	&& object->HPSagainstMuonTight > 0;
2725	+	}
2726	+
2727	+	else if(variable == "genDeltaRLowest") value = getGenDeltaRLowest(object);
2728	+
2729	+	else if(variable == "genMatchedPdgId"){
2730	+	int index = getGenMatchedParticleIndex(object);
2731	+	if(index == -1) value = 0;
2732	+	else value = mcparticles->at(index).id;
2733	+	}
2734	+
2735	+	else if(variable == "genMatchedId"){
2736	+	int index = getGenMatchedParticleIndex(object);
2737	+	if(index == -1) value = 0;
2738	+	else value = getPdgIdBinValue(mcparticles->at(index).id);
2739	+	}
2740	+	else if(variable == "genMatchedMotherId"){
2741	+	int index = getGenMatchedParticleIndex(object);
2742	+	if(index == -1) value = 0;
2743	+	else value = getPdgIdBinValue(mcparticles->at(index).motherId);
2744	+	}
2745	+	else if(variable == "genMatchedMotherIdReverse"){
2746	+	int index = getGenMatchedParticleIndex(object);
2747	+	if(index == -1) value = 24;
2748	+	else value = 24 -getPdgIdBinValue(mcparticles->at(index).motherId);
2749	+	}
2750	+	else if(variable == "genMatchedGrandmotherId"){
2751	+	int index = getGenMatchedParticleIndex(object);
2752	+	if(index == -1) value = 0;
2753	+	else if(fabs(mcparticles->at(index).motherId) == 15){
2754	+	int motherIndex = findTauMotherIndex(&mcparticles->at(index));
2755	+	if(motherIndex == -1) value = 0;
2756	+	else value = getPdgIdBinValue(mcparticles->at(motherIndex).motherId);
2757	+	}
2758	+	else value = getPdgIdBinValue(mcparticles->at(index).grandMotherId);
2759	+	}
2760	+	else if(variable == "genMatchedGrandmotherIdReverse"){
2761	+	int index = getGenMatchedParticleIndex(object);
2762	+	if(index == -1) value = 24;
2763	+	else if(fabs(mcparticles->at(index).motherId) == 15){
2764	+	int motherIndex = findTauMotherIndex(&mcparticles->at(index));
2765	+	if(motherIndex == -1) value = 24;
2766	+	else value = 24 - getPdgIdBinValue(mcparticles->at(motherIndex).motherId);
2767	+	}
2768	+	else value = 24 - getPdgIdBinValue(mcparticles->at(index).grandMotherId);
2769	+	}
2770
2771	<	else{std::cout << "WARNING: invalid variable '" << variable << "'\n"; value = -999;}
2772	<
2771	>
2772	>	else{clog << "WARNING: invalid tau variable '" << variable << "'\n"; value = -999;}
2773	>
2774	>	value = applyFunction(function, value);
2775
2776		return value;
2777	<	}
2777	>	} // end tau valueLookup
2778	>
2779
2780	+	//!met valueLookup
2781		double
2782	<	OSUAnalysis::valueLookup (const BNmet* object, string variable, string function){
2782	>	OSUAnalysis::valueLookup (const BNmet* object, string variable, string function, string &stringValue){
2783
2784		double value = 0.0;
2785
#	Line 1067 | Line 2843 | OSUAnalysis::valueLookup (const BNmet* o
2843		else if(variable == "pfT1jet10pt") value = object->pfT1jet10pt;
2844		else if(variable == "pfT1jet10phi") value = object->pfT1jet10phi;
2845
2846	<	else{std::cout << "WARNING: invalid variable '" << variable << "'\n"; value = -999;}
2847	<
2846	>	else{clog << "WARNING: invalid met variable '" << variable << "'\n"; value = -999;}
2847	>
2848	>	value = applyFunction(function, value);
2849
2850		return value;
2851	<	}
2851	>	} // end met valueLookup
2852
2853	+
2854	+	//!track valueLookup
2855		double
2856	<	OSUAnalysis::valueLookup (const BNtrack* object, string variable, string function){
2856	>	OSUAnalysis::valueLookup (const BNtrack* object, string variable, string function, string &stringValue){
2857
2858		double value = 0.0;
2859	+	double pMag = sqrt(object->pt * object->pt +
2860	+	object->pz * object->pz);
2861
2862		if(variable == "pt") value = object->pt;
2863		else if(variable == "px") value = object->px;
#	Line 1096 | Line 2877 | OSUAnalysis::valueLookup (const BNtrack*
2877		else if(variable == "numValidHits") value = object->numValidHits;
2878		else if(variable == "isHighPurity") value = object->isHighPurity;
2879
2880	+	//additional BNs info for disappTrks
2881	+	else if(variable == "caloEMDeltaRp3")     value = object->caloEMDeltaRp3;
2882	+	else if(variable == "caloHadDeltaRp3")    value = object->caloHadDeltaRp3;
2883	+	else if(variable == "caloEMDeltaRp4")     value = object->caloEMDeltaRp4;
2884	+	else if(variable == "caloHadDeltaRp4")    value = object->caloHadDeltaRp4;
2885	+	else if(variable == "caloEMDeltaRp5")     value = object->caloEMDeltaRp5;
2886	+	else if(variable == "caloHadDeltaRp5")    value = object->caloHadDeltaRp5;
2887	+	else if(variable == "nHitsMissingOuter")  value = object->nHitsMissingOuter;
2888	+	else if(variable == "nHitsMissingInner")  value = object->nHitsMissingInner;
2889	+	else if(variable == "nHitsMissingMiddle") value = object->nHitsMissingMiddle;
2890	+	else if(variable == "depTrkRp3")          value = object->depTrkRp3;
2891	+	else if(variable == "trkRelIsoRp3")     { value = (object->depTrkRp3 - object->pt) / object->pt; if (value<0) value = 0; }
2892	+	else if(variable == "trkRelIsoRp5")     { value = (object->depTrkRp5 - object->pt) / object->pt; if (value<0) value = 0; }
2893	+	else if(variable == "depEcalRp3")         value = object->depEcalRp3;
2894	+	else if(variable == "depHcalRp3")         value = object->depHcalRp3;
2895	+	else if(variable == "depHoRp3")           value = object->depHoRp3;
2896	+	else if(variable == "nTracksRp3")         value = object->nTracksRp3;
2897	+	else if(variable == "trackerVetoPtRp3")   value = object->trackerVetoPtRp3;
2898	+	else if(variable == "emVetoEtRp3")        value = object->emVetoEtRp3;
2899	+	else if(variable == "hadVetoEtRp3")       value = object->hadVetoEtRp3;
2900	+	else if(variable == "hoVetoEtRp3")        value = object->hoVetoEtRp3;
2901	+	else if(variable == "depTrkRp5")          value = object->depTrkRp5;
2902	+	else if(variable == "depEcalRp5")         value = object->depEcalRp5;
2903	+	else if(variable == "depHcalRp5")         value = object->depHcalRp5;
2904	+	else if(variable == "depHoRp5")           value = object->depHoRp5;
2905	+	else if(variable == "nTracksRp5")         value = object->nTracksRp5;
2906	+	else if(variable == "trackerVetoPtRp5")   value = object->trackerVetoPtRp5;
2907	+	else if(variable == "emVetoEtRp5")        value = object->emVetoEtRp5;
2908	+	else if(variable == "hadVetoEtRp5")       value = object->hadVetoEtRp5;
2909	+	else if(variable == "hoVetoEtRp5")        value = object->hoVetoEtRp5;
2910	+
2911	+	//user defined variables
2912	+	else if(variable == "d0wrtBS") value = (object->vx-events->at(0).BSx)*object->py/object->pt - (object->vy-events->at(0).BSy)*object->px/object->pt;
2913	+	else if(variable == "dZwrtBS") value = object->dZ - events->at(0).BSz;
2914	+	else if(variable == "depTrkRp5MinusPt"){
2915	+	if ( (object->depTrkRp5 - object->pt) < 0 ) {
2916	+	//       clog << "Warning:  found track with depTrkRp5 < pt:  depTrkRp5=" << object->depTrkRp5
2917	+	//         << "; pt=" << object->pt
2918	+	//         << "; object->depTrkRp5 - object->pt = " << object->depTrkRp5 - object->pt
2919	+	//         << endl;
2920	+	value = 0;
2921	+	}
2922	+	else value =  (object->depTrkRp5 - object->pt);
2923	+	}
2924	+	else if(variable == "depTrkRp3MinusPt"){
2925	+	if ( (object->depTrkRp3 - object->pt) < 0 ) {
2926	+	value = 0;
2927	+	}
2928	+	else value =  (object->depTrkRp3 - object->pt);
2929	+	}
2930
2931	<	else{std::cout << "WARNING: invalid variable '" << variable << "'\n"; value = -999;}
2931	>	else if(variable == "dPhiMet") {
2932	>	if (const BNmet *met = chosenMET ()) {
2933	>	value = deltaPhi (object->phi, met->phi);
2934	>	} else value = -999;
2935	>	}
2936	>
2937
2938	+	else if(variable == "caloTotDeltaRp5")            value =  (object->caloHadDeltaRp5 + object->caloEMDeltaRp5);
2939	+	else if(variable == "caloTotDeltaRp5ByP")         value = ((object->caloHadDeltaRp5 + object->caloEMDeltaRp5)/pMag);
2940	+	else if(variable == "caloTotDeltaRp5RhoCorr")     value = getTrkCaloTotRhoCorr(object);
2941	+	else if(variable == "caloTotDeltaRp5ByPRhoCorr")  value = getTrkCaloTotRhoCorr(object) / pMag;
2942	+	else if(variable == "depTrkRp5RhoCorr")           value = getTrkDepTrkRp5RhoCorr(object);
2943	+	else if(variable == "depTrkRp3RhoCorr")           value = getTrkDepTrkRp3RhoCorr(object);
2944	+
2945	+	else if(variable == "depTrkRp5MinusPtRhoCorr")    {
2946	+	if ( (getTrkDepTrkRp5RhoCorr(object) - object->pt) < 0 ) value = 0;
2947	+	else {value = (getTrkDepTrkRp5RhoCorr(object) - object->pt );}
2948	+	}
2949	+
2950	+	else if(variable == "depTrkRp3MinusPtRhoCorr")
2951	+	{
2952	+	if ( (getTrkDepTrkRp3RhoCorr(object) - object->pt) < 0 ) value = 0;
2953	+	else {value = (getTrkDepTrkRp3RhoCorr(object) - object->pt );}
2954	+	}
2955	+
2956	+	else if(variable == "isIso")                      value = getTrkIsIso(object, tracks.product());
2957	+	else if(variable == "isMatchedDeadEcal")          value = getTrkIsMatchedDeadEcal(object);
2958	+	else if(variable == "ptErrorByPt")                value = (object->ptError/object->pt);
2959	+	else if(variable == "ptError")                    value = object->ptError;
2960	+	else if(variable == "ptRes")                      value = getTrkPtRes(object);
2961	+	else if (variable == "d0wrtPV"){
2962	+	double vx = object->vx - chosenVertex ()->x,
2963	+	vy = object->vy - chosenVertex ()->y,
2964	+	px = object->px,
2965	+	py = object->py,
2966	+	pt = object->pt;
2967	+	value = (-vx * py + vy * px) / pt;
2968	+	}
2969	+	else if (variable == "dZwrtPV"){
2970	+	double vx = object->vx - chosenVertex ()->x,
2971	+	vy = object->vy - chosenVertex ()->y,
2972	+	vz = object->vz - chosenVertex ()->z,
2973	+	px = object->px,
2974	+	py = object->py,
2975	+	pz = object->pz,
2976	+	pt = object->pt;
2977	+	value = vz - (vx * px + vy * py)/pt * (pz/pt);
2978	+	}
2979	+
2980	+	else if(variable == "deltaRMinSubLeadJet") {
2981	+	// calculate minimum deltaR between track and any other subleading jet
2982	+	double trkJetDeltaRMin = 99.;
2983	+	if (!jets.product()) clog << "ERROR:  cannot find deltaRMinSubLeadJet because jets collection is not initialized." << endl;
2984	+	for (uint ijet = 0; ijet<jets->size(); ijet++) {
2985	+	string empty = "";
2986	+	double isSubLeadingJet = valueLookup(&jets->at(ijet), "disappTrkSubLeadingJetID", "", empty);
2987	+	if (!isSubLeadingJet) continue;  // only consider jets that pass the subleading jet ID criteria
2988	+	double jetEta = valueLookup(&jets->at(ijet), "eta", "", empty);
2989	+	double jetPhi = valueLookup(&jets->at(ijet), "phi", "", empty);
2990	+	double trkJetDeltaR = deltaR(object->eta, object->phi, jetEta, jetPhi);
2991	+	if (trkJetDeltaR < trkJetDeltaRMin) trkJetDeltaRMin = trkJetDeltaR;
2992	+	}
2993	+	value = trkJetDeltaRMin;
2994	+	}
2995	+
2996	+	else if(variable == "deltaRMinElecLooseMvaId") {
2997	+	// calculate minimum deltaR between track and any other electron passing loose mva ID, i.e., mvaNonTrigV0 > 0
2998	+	double trkElecDeltaRMin = 99.;
2999	+	if (!electrons.product()) clog << "ERROR:  cannot find deltaRMinElecLooseMvaId because electrons collection is not initialized." << endl;
3000	+	for (uint ielec = 0; ielec<electrons->size(); ielec++) {
3001	+	string empty = "";
3002	+	double mvaNonTrigV0 = valueLookup(&electrons->at(ielec), "mvaNonTrigV0", "", empty);
3003	+	if (mvaNonTrigV0 < 0) continue;  // only consider electrons with mvaNonTrigV0 > 0
3004	+	double elecEta = valueLookup(&electrons->at(ielec), "eta", "", empty);
3005	+	double elecPhi = valueLookup(&electrons->at(ielec), "phi", "", empty);
3006	+	double trkElecDeltaR = deltaR(object->eta, object->phi, elecEta, elecPhi);
3007	+	if (trkElecDeltaR < trkElecDeltaRMin) trkElecDeltaRMin = trkElecDeltaR;
3008	+	}
3009	+	value = trkElecDeltaRMin;
3010	+	}
3011	+
3012	+	else if(variable == "deltaRMinMuonLooseId") {
3013	+	// calculate minimum deltaR between track and any other loose-Id muon
3014	+	double trkMuonDeltaRMin = 99.;
3015	+	if (!muons.product()) clog << "ERROR:  cannot find deltaRMinMuonLooseId because muons collection is not initialized." << endl;
3016	+	for (uint imuon = 0; imuon<muons->size(); imuon++) {
3017	+	string empty = "";
3018	+	double isLooseIdMuon = valueLookup(&muons->at(imuon), "looseID", "", empty);
3019	+	if (!isLooseIdMuon) continue;  // only consider muons that pass the looseID criteria
3020	+	double muonEta = valueLookup(&muons->at(imuon), "eta", "", empty);
3021	+	double muonPhi = valueLookup(&muons->at(imuon), "phi", "", empty);
3022	+	double trkMuonDeltaR = deltaR(object->eta, object->phi, muonEta, muonPhi);
3023	+	if (trkMuonDeltaR < trkMuonDeltaRMin) trkMuonDeltaRMin = trkMuonDeltaR;
3024	+	}
3025	+	value = trkMuonDeltaRMin;
3026	+	}
3027	+
3028	+	else if(variable == "isPassMuonLooseIDVeto") {
3029	+
3030	+	// calculate minimum deltaR between track and any other loose-Id
3031	+	double trkMuonDeltaRMin = 99.;
3032	+	if (!muons.product()) clog << "ERROR:  cannot find deltaRMinMuonLooseId because muons collection is not initialized." << endl;
3033	+	for (uint imuon = 0; imuon<muons->size(); imuon++) {
3034	+	string empty = "";
3035	+	double isLooseIdMuon = valueLookup(&muons->at(imuon), "looseID", "", empty);
3036	+	if (!isLooseIdMuon) continue;  // only consider muons that pass the looseID
3037	+	double muonEta = valueLookup(&muons->at(imuon), "eta", "", empty);
3038	+	double muonPhi = valueLookup(&muons->at(imuon), "phi", "", empty);
3039	+	double trkMuonDeltaR = deltaR(object->eta, object->phi, muonEta, muonPhi);
3040	+	if (trkMuonDeltaR < trkMuonDeltaRMin) trkMuonDeltaRMin = trkMuonDeltaR;
3041	+	}
3042	+	if (trkMuonDeltaRMin  < 0.15) value = 1;
3043	+	if (trkMuonDeltaRMin  > 0.15) value = 0;
3044	+	}
3045	+
3046	+
3047	+
3048	+	else if(variable == "deltaRMinSecMuonLooseIdGlobal") {
3049	+	// calculate minimum deltaR between track and any other loose-Id muon
3050	+	double trkMuonDeltaRMin = 99.;
3051	+	if (!secMuons.product()) clog << "ERROR:  cannot find deltaRMinSecMuonLooseIdGlobal because secMuons collection is not initialized." << endl;
3052	+	for (uint imuon = 0; imuon<secMuons->size(); imuon++) {
3053	+	string empty = "";
3054	+	double isLooseIdMuon = valueLookup(&secMuons->at(imuon), "looseIDGlobalMuon", "", empty);
3055	+	if (!isLooseIdMuon) continue;  // only consider muons that pass the looseIDGlobal criteria
3056	+	double muonEta = valueLookup(&secMuons->at(imuon), "eta", "", empty);
3057	+	double muonPhi = valueLookup(&secMuons->at(imuon), "phi", "", empty);
3058	+	double trkMuonDeltaR = deltaR(object->eta, object->phi, muonEta, muonPhi);
3059	+	if (trkMuonDeltaR < trkMuonDeltaRMin) trkMuonDeltaRMin = trkMuonDeltaR;
3060	+	}
3061	+	value = trkMuonDeltaRMin;
3062	+	}
3063	+
3064	+	else if(variable == "deltaRMinTauLooseHadronicId") {
3065	+	// calculate minimum deltaR between track and any other tau passing loose hadronic ID
3066	+	double trkTauDeltaRMin = 99.;
3067	+	if (!taus.product()) clog << "ERROR:  cannot find deltaRMinTauLooseHadronicId because taus collection is not initialized." << endl;
3068	+	for (uint itau = 0; itau<taus->size(); itau++) {
3069	+	string empty = "";
3070	+	double isIdTau = valueLookup(&taus->at(itau), "looseHadronicID", "", empty);
3071	+	if (!isIdTau) continue;  // only consider taus that pass the loose hadronic ID criteria
3072	+	double tauEta = valueLookup(&taus->at(itau), "eta", "", empty);
3073	+	double tauPhi = valueLookup(&taus->at(itau), "phi", "", empty);
3074	+	double trkTauDeltaR = deltaR(object->eta, object->phi, tauEta, tauPhi);
3075	+	if (trkTauDeltaR < trkTauDeltaRMin) trkTauDeltaRMin = trkTauDeltaR;
3076	+	}
3077	+	value = trkTauDeltaRMin;
3078	+	}
3079	+
3080	+	else if(variable == "genDeltaRLowest") value = getGenDeltaRLowest(object);
3081	+
3082	+	else if(variable == "genMatchedPdgId"){
3083	+	int index = getGenMatchedParticleIndex(object);
3084	+	if(index == -1) value = 0;
3085	+	else value = mcparticles->at(index).id;
3086	+	}
3087	+
3088	+
3089	+	else if(variable == "genMatchedId"){
3090	+	int index = getGenMatchedParticleIndex(object);
3091	+	if(index == -1) value = 0;
3092	+	else value = getPdgIdBinValue(mcparticles->at(index).id);
3093	+	}
3094	+	else if(variable == "genMatchedMotherId"){
3095	+	int index = getGenMatchedParticleIndex(object);
3096	+	if(index == -1) value = 0;
3097	+	else value = getPdgIdBinValue(mcparticles->at(index).motherId);
3098	+	}
3099	+	else if(variable == "genMatchedMotherIdReverse"){
3100	+	int index = getGenMatchedParticleIndex(object);
3101	+	if(index == -1) value = 24;
3102	+	else value = 24 -getPdgIdBinValue(mcparticles->at(index).motherId);
3103	+	}
3104	+	else if(variable == "genMatchedGrandmotherId"){
3105	+	int index = getGenMatchedParticleIndex(object);
3106	+	if(index == -1) value = 0;
3107	+	else if(fabs(mcparticles->at(index).motherId) == 15){
3108	+	int motherIndex = findTauMotherIndex(&mcparticles->at(index));
3109	+	if(motherIndex == -1) value = 0;
3110	+	else value = getPdgIdBinValue(mcparticles->at(motherIndex).motherId);
3111	+	}
3112	+	else value = getPdgIdBinValue(mcparticles->at(index).grandMotherId);
3113	+	}
3114	+	else if(variable == "genMatchedGrandmotherIdReverse"){
3115	+	int index = getGenMatchedParticleIndex(object);
3116	+	if(index == -1) value = 24;
3117	+	else if(fabs(mcparticles->at(index).motherId) == 15){
3118	+	int motherIndex = findTauMotherIndex(&mcparticles->at(index));
3119	+	if(motherIndex == -1) value = 24;
3120	+	else value = 24 - getPdgIdBinValue(mcparticles->at(motherIndex).motherId);
3121	+	}
3122	+	else value = 24 - getPdgIdBinValue(mcparticles->at(index).grandMotherId);
3123	+	}
3124	+
3125	+
3126	+
3127	+	else{clog << "WARNING: invalid track variable '" << variable << "'\n"; value = -999;}
3128	+
3129	+	value = applyFunction(function, value);
3130
3131		return value;
3132	<	}
3132	>	} // end track valueLookup
3133	>
3134
3135	+	//!genjet valueLookup
3136		double
3137	<	OSUAnalysis::valueLookup (const BNgenjet* object, string variable, string function){
3137	>	OSUAnalysis::valueLookup (const BNgenjet* object, string variable, string function, string &stringValue){
3138
3139		double value = 0.0;
3140
#	Line 1124 | Line 3154 | OSUAnalysis::valueLookup (const BNgenjet
3154		else if(variable == "charge") value = object->charge;
3155
3156
3157	<	else{std::cout << "WARNING: invalid variable '" << variable << "'\n"; value = -999;}
3158	<
3157	>	else{clog << "WARNING: invalid genjet variable '" << variable << "'\n"; value = -999;}
3158	>
3159	>	value = applyFunction(function, value);
3160
3161		return value;
3162		}
3163
3164	+	//!mcparticle valueLookup
3165		double
3166	<	OSUAnalysis::valueLookup (const BNmcparticle* object, string variable, string function){
3166	>	OSUAnalysis::valueLookup (const BNmcparticle* object, string variable, string function, string &stringValue){
3167
3168		double value = 0.0;
3169
#	Line 1220 | Line 3252 | OSUAnalysis::valueLookup (const BNmcpart
3252		else if(variable == "grandMother11Status") value = object->grandMother11Status;
3253		else if(variable == "grandMother11Charge") value = object->grandMother11Charge;
3254
3255	<	else{std::cout << "WARNING: invalid variable '" << variable << "'\n"; value = -999;}
3256	<
3255	>	//user-defined variables
3256	>	else if (variable == "d0"){
3257	>	double vx = object->vx - chosenVertex ()->x,
3258	>	vy = object->vy - chosenVertex ()->y,
3259	>	px = object->px,
3260	>	py = object->py,
3261	>	pt = object->pt;
3262	>	value = (-vx * py + vy * px) / pt;
3263	>	}
3264	>	else if (variable == "dz"){
3265	>	double vx = object->vx - chosenVertex ()->x,
3266	>	vy = object->vy - chosenVertex ()->y,
3267	>	vz = object->vz - chosenVertex ()->z,
3268	>	px = object->px,
3269	>	py = object->py,
3270	>	pz = object->pz,
3271	>	pt = object->pt;
3272	>	value = vz - (vx * px + vy * py)/pt * (pz/pt);
3273	>	}
3274	>	else if(variable == "v0"){
3275	>	value = sqrt(object->vx*object->vx + object->vy*object->vy);
3276	>	}
3277	>	else if(variable == "deltaV0"){
3278	>	value = sqrt((object->vx-chosenVertex ()->x)*(object->vx-chosenVertex ()->x) + (object->vy-chosenVertex ()->y)*(object->vy-chosenVertex ()->y));
3279	>	}
3280	>	else if (variable == "deltaVx"){
3281	>	value = object->vx - chosenVertex ()->x;
3282	>	}
3283	>	else if (variable == "deltaVy"){
3284	>	value = object->vy - chosenVertex ()->y;
3285	>	}
3286	>	else if (variable == "deltaVz"){
3287	>	value = object->vz - chosenVertex ()->z;
3288	>	}
3289	>
3290	>
3291	>	else{clog << "WARNING: invalid mcparticle variable '" << variable << "'\n"; value = -999;}
3292	>
3293	>	value = applyFunction(function, value);
3294
3295		return value;
3296	<	}
3296	>	} // end mcparticle valueLookup
3297
3298	+
3299	+	//!primaryvertex valueLookup
3300		double
3301	<	OSUAnalysis::valueLookup (const BNprimaryvertex* object, string variable, string function){
3301	>	OSUAnalysis::valueLookup (const BNprimaryvertex* object, string variable, string function, string &stringValue){
3302
3303		double value = 0.0;
3304
#	Line 1246 | Line 3317 | OSUAnalysis::valueLookup (const BNprimar
3317		else if(variable == "isGood") value = object->isGood;
3318
3319
3320	<	else{std::cout << "WARNING: invalid variable '" << variable << "'\n"; value = -999;}
3321	<
3320	>	else{clog << "WARNING: invalid primaryvertex variable '" << variable << "'\n"; value = -999;}
3321	>
3322	>	value = applyFunction(function, value);
3323
3324		return value;
3325		}
3326
3327	+	//!bxlumi valueLookup
3328		double
3329	<	OSUAnalysis::valueLookup (const BNbxlumi* object, string variable, string function){
3329	>	OSUAnalysis::valueLookup (const BNbxlumi* object, string variable, string function, string &stringValue){
3330
3331		double value = 0.0;
3332
#	Line 1262 | Line 3335 | OSUAnalysis::valueLookup (const BNbxlumi
3335		else if(variable == "bx_LUMI_now") value = object->bx_LUMI_now;
3336
3337
3338	<	else{std::cout << "WARNING: invalid variable '" << variable << "'\n"; value = -999;}
3339	<
3338	>	else{clog << "WARNING: invalid bxlumi variable '" << variable << "'\n"; value = -999;}
3339	>
3340	>	value = applyFunction(function, value);
3341
3342		return value;
3343		}
3344
3345	+	//!photon valueLookup
3346		double
3347	<	OSUAnalysis::valueLookup (const BNphoton* object, string variable, string function){
3347	>	OSUAnalysis::valueLookup (const BNphoton* object, string variable, string function, string &stringValue){
3348
3349		double value = 0.0;
3350
#	Line 1344 | Line 3419 | OSUAnalysis::valueLookup (const BNphoton
3419		else if(variable == "seedRecoFlag") value = object->seedRecoFlag;
3420
3421
3422	<	else{std::cout << "WARNING: invalid variable '" << variable << "'\n"; value = -999;}
3423	<
3422	>
3423	>
3424	>	else if(variable == "genDeltaRLowest") value = getGenDeltaRLowest(object);
3425	>
3426	>	else if(variable == "genMatchedPdgId"){
3427	>	int index = getGenMatchedParticleIndex(object);
3428	>	if(index == -1) value = 0;
3429	>	else value = mcparticles->at(index).id;
3430	>	}
3431	>
3432	>
3433	>
3434	>	else if(variable == "genMatchedId"){
3435	>	int index = getGenMatchedParticleIndex(object);
3436	>	if(index == -1) value = 0;
3437	>	else value = getPdgIdBinValue(mcparticles->at(index).id);
3438	>	}
3439	>	else if(variable == "genMatchedMotherId"){
3440	>	int index = getGenMatchedParticleIndex(object);
3441	>	if(index == -1) value = 0;
3442	>	else value = getPdgIdBinValue(mcparticles->at(index).motherId);
3443	>	}
3444	>	else if(variable == "genMatchedMotherIdReverse"){
3445	>	int index = getGenMatchedParticleIndex(object);
3446	>	if(index == -1) value = 24;
3447	>	else value = 24 -getPdgIdBinValue(mcparticles->at(index).motherId);
3448	>	}
3449	>	else if(variable == "genMatchedGrandmotherId"){
3450	>	int index = getGenMatchedParticleIndex(object);
3451	>	if(index == -1) value = 0;
3452	>	else if(fabs(mcparticles->at(index).motherId) == 15){
3453	>	int motherIndex = findTauMotherIndex(&mcparticles->at(index));
3454	>	if(motherIndex == -1) value = 0;
3455	>	else value = getPdgIdBinValue(mcparticles->at(motherIndex).motherId);
3456	>	}
3457	>	else value = getPdgIdBinValue(mcparticles->at(index).grandMotherId);
3458	>	}
3459	>	else if(variable == "genMatchedGrandmotherIdReverse"){
3460	>	int index = getGenMatchedParticleIndex(object);
3461	>	if(index == -1) value = 24;
3462	>	else if(fabs(mcparticles->at(index).motherId) == 15){
3463	>	int motherIndex = findTauMotherIndex(&mcparticles->at(index));
3464	>	if(motherIndex == -1) value = 24;
3465	>	else value = 24 - getPdgIdBinValue(mcparticles->at(motherIndex).motherId);
3466	>	}
3467	>	else value = 24 - getPdgIdBinValue(mcparticles->at(index).grandMotherId);
3468	>	}
3469	>
3470	>
3471	>	else{clog << "WARNING: invalid photon variable '" << variable << "'\n"; value = -999;}
3472	>
3473	>	value = applyFunction(function, value);
3474
3475		return value;
3476	<	}
3476	>	} // end photon valueLookup
3477	>
3478
3479	+	//!supercluster valueLookup
3480		double
3481	<	OSUAnalysis::valueLookup (const BNsupercluster* object, string variable, string function){
3481	>	OSUAnalysis::valueLookup (const BNsupercluster* object, string variable, string function, string &stringValue){
3482
3483		double value = 0.0;
3484
#	Line 1365 | Line 3492 | OSUAnalysis::valueLookup (const BNsuperc
3492		else if(variable == "theta") value = object->theta;
3493
3494
3495	<	else{std::cout << "WARNING: invalid variable '" << variable << "'\n"; value = -999;}
3495	>	else{clog << "WARNING: invalid supercluster variable '" << variable << "'\n"; value = -999;}
3496	>
3497	>	value = applyFunction(function, value);
3498	>
3499	>	return value;
3500	>	}
3501	>
3502	>	//!trigobj valueLookup
3503	>	double
3504	>	OSUAnalysis::valueLookup (const BNtrigobj* object, string variable, string function, string &stringValue){
3505	>
3506	>	double value = 0.0;
3507	>
3508	>	if(variable == "pt") value = object->pt;
3509	>	else if(variable == "eta") value = object->eta;
3510	>	else if(variable == "phi") value = object->phi;
3511	>	else if(variable == "px") value = object->px;
3512	>	else if(variable == "py") value = object->py;
3513	>	else if(variable == "pz") value = object->pz;
3514	>	else if(variable == "et") value = object->et;
3515	>	else if(variable == "energy") value = object->energy;
3516	>	else if(variable == "etTotal") value = object->etTotal;
3517	>	else if(variable == "id") value = object->id;
3518	>	else if(variable == "charge") value = object->charge;
3519	>	else if(variable == "isIsolated") value = object->isIsolated;
3520	>	else if(variable == "isMip") value = object->isMip;
3521	>	else if(variable == "isForward") value = object->isForward;
3522	>	else if(variable == "isRPC") value = object->isRPC;
3523	>	else if(variable == "bx") value = object->bx;
3524	>	else if(variable == "filter") {
3525	>	if ((stringValue = object->filter) == "")
3526	>	stringValue = "none";  // stringValue should only be empty if value is filled
3527	>	}
3528	>
3529	>	else{clog << "WARNING: invalid trigobj variable '" << variable << "'\n"; value = -999;}
3530	>
3531	>	value = applyFunction(function, value);
3532	>
3533	>	return value;
3534	>	}
3535	>
3536	>	//!muon-muon pair valueLookup
3537	>	double
3538	>	OSUAnalysis::valueLookup (const BNmuon* object1, const BNmuon* object2, string variable, string function, string &stringValue){
3539	>
3540	>	double value = 0.0;
3541	>
3542	>	if(variable == "deltaPhi") value = fabs(deltaPhi(object1->phi,object2->phi));
3543	>	else if(variable == "deltaEta") value = fabs(object1->eta - object2->eta);
3544	>	else if(variable == "deltaR") value = deltaR(object1->eta,object1->phi,object2->eta,object2->phi);
3545	>	else if(variable == "invMass"){
3546	>	TLorentzVector fourVector1(object1->px, object1->py, object1->pz, object1->energy);
3547	>	TLorentzVector fourVector2(object2->px, object2->py, object2->pz, object2->energy);
3548	>	value = (fourVector1 + fourVector2).M();
3549	>	}
3550	>	else if(variable == "pt"){
3551	>	TLorentzVector fourVector1(object1->px, object1->py, object1->pz, object1->energy);
3552	>	TLorentzVector fourVector2(object2->px, object2->py, object2->pz, object2->energy);
3553	>	value = (fourVector1 + fourVector2).Pt();
3554	>	}
3555	>	else if(variable == "threeDAngle")
3556	>	{
3557	>	TVector3 threeVector1(object1->px, object1->py, object1->pz);
3558	>	TVector3 threeVector2(object2->px, object2->py, object2->pz);
3559	>	value = (threeVector1.Angle(threeVector2));
3560	>	}
3561	>	else if(variable == "alpha")
3562	>	{
3563	>	static const double pi = 3.1415926535897932384626433832795028841971693993751058;
3564	>	TVector3 threeVector1(object1->px, object1->py, object1->pz);
3565	>	TVector3 threeVector2(object2->px, object2->py, object2->pz);
3566	>	value = (pi-threeVector1.Angle(threeVector2));
3567	>	}
3568	>	else if(variable == "deltaCorrectedD0Vertex") value = object1->correctedD0Vertex - object2->correctedD0Vertex;
3569	>	else if(variable == "deltaAbsCorrectedD0Vertex") value = fabs(object1->correctedD0Vertex) - fabs(object2->correctedD0Vertex);
3570	>	else if(variable == "d0Sign"){
3571	>	double d0Sign = (object1->correctedD0Vertex*object2->correctedD0Vertex)/fabs(object1->correctedD0Vertex*object2->correctedD0Vertex);
3572	>	if(d0Sign < 0) value = -0.5;
3573	>	else if (d0Sign > 0) value = 0.5;
3574	>	else value = -999;
3575	>	}
3576	>	else if(variable == "chargeProduct"){
3577	>	value = object1->charge*object2->charge;
3578	>	}
3579	>	else if(variable == "muon1CorrectedD0Vertex"){
3580	>	value = object1->correctedD0Vertex;
3581	>	}
3582	>	else if(variable == "muon2CorrectedD0Vertex"){
3583	>	value = object2->correctedD0Vertex;
3584	>	}
3585	>	else if(variable == "muon1timeAtIpInOut"){
3586	>	value = object1->timeAtIpInOut;
3587	>	}
3588	>	else if(variable == "muon2timeAtIpInOut"){
3589	>	value = object2->timeAtIpInOut;
3590	>	}
3591	>	else if(variable == "muon1correctedD0")
3592	>	{
3593	>	value = object1->correctedD0;
3594	>	}
3595	>	else if(variable == "muon2correctedD0")
3596	>	{
3597	>	value = object2->correctedD0;
3598	>	}
3599	>
3600	>	else{clog << "WARNING: invalid muon-muon pair variable '" << variable << "'\n"; value = -999;}
3601	>
3602	>	value = applyFunction(function, value);
3603	>
3604	>	return value;
3605	>	} // end muon-muon pair valueLookup
3606	>
3607	>
3608	>	//!muon-photon pair valueLookup
3609	>	double
3610	>	OSUAnalysis::valueLookup (const BNmuon* object1, const BNphoton* object2, string variable, string function, string &stringValue){
3611	>
3612	>	double value = 0.0;
3613	>
3614	>	if(variable == "deltaPhi") value = fabs(deltaPhi(object1->phi,object2->phi));
3615	>	else if(variable == "deltaEta") value = fabs(object1->eta - object2->eta);
3616	>	else if(variable == "photonEta") value = object2->eta;
3617	>	else if(variable == "photonPt") value = object2->pt;
3618	>	else if(variable == "muonEta") value = object1->eta;
3619	>	else if(variable == "photonPhi") value = object2->phi;
3620	>	else if(variable == "muonPhi") value = object1->phi;
3621	>	else if(variable == "deltaR") value = deltaR(object1->eta,object1->phi,object2->eta,object2->phi);
3622	>	else if(variable == "photonGenMotherId") value = object2->genMotherId;
3623	>	else if(variable == "muonRelPFdBetaIso") value = (object1->pfIsoR04SumChargedHadronPt + max(0.0, object1->pfIsoR04SumNeutralHadronEt + object1->pfIsoR04SumPhotonEt - 0.5*object1->pfIsoR04SumPUPt)) / object1->pt;
3624	>	else if(variable == "invMass"){
3625	>	TLorentzVector fourVector1(object1->px, object1->py, object1->pz, object1->energy);
3626	>	TLorentzVector fourVector2(object2->px, object2->py, object2->pz, object2->energy);
3627	>	value = (fourVector1 + fourVector2).M();
3628	>	}
3629	>	else if(variable == "pt"){
3630	>	TLorentzVector fourVector1(object1->px, object1->py, object1->pz, object1->energy);
3631	>	TLorentzVector fourVector2(object2->px, object2->py, object2->pz, object2->energy);
3632	>	value = (fourVector1 + fourVector2).Pt();
3633	>	}
3634	>	else if(variable == "threeDAngle")
3635	>	{
3636	>	TVector3 threeVector1(object1->px, object1->py, object1->pz);
3637	>	TVector3 threeVector2(object2->px, object2->py, object2->pz);
3638	>	value = (threeVector1.Angle(threeVector2));
3639	>	}
3640	>	else if(variable == "alpha")
3641	>	{
3642	>	static const double pi = 3.1415926535897932384626433832795028841971693993751058;
3643	>	TVector3 threeVector1(object1->px, object1->py, object1->pz);
3644	>	TVector3 threeVector2(object2->px, object2->py, object2->pz);
3645	>	value = (pi-threeVector1.Angle(threeVector2));
3646	>	}
3647	>	else{clog << "WARNING: invalid muon-photon pair variable '" << variable << "'\n"; value = -999;}
3648	>
3649	>	value = applyFunction(function, value);
3650	>
3651	>	return value;
3652	>	} // end muon-photon pair valueLookup
3653	>
3654	>
3655	>	//!electron-photon pair valueLookup
3656	>	double
3657	>	OSUAnalysis::valueLookup (const BNelectron* object1, const BNphoton* object2, string variable, string function, string &stringValue){
3658	>
3659	>	double value = 0.0;
3660	>
3661	>	if(variable == "deltaPhi") value = fabs(deltaPhi(object1->phi,object2->phi));
3662	>	else if(variable == "deltaEta") value = fabs(object1->eta - object2->eta);
3663	>	else if(variable == "photonEta") value = object2->eta;
3664	>	else if(variable == "photonPt") value = object2->pt;
3665	>	else if(variable == "electronEta") value = object1->eta;
3666	>	else if(variable == "photonPhi") value = object2->phi;
3667	>	else if(variable == "electronPhi") value = object1->phi;
3668	>	else if(variable == "deltaR") value = deltaR(object1->eta,object1->phi,object2->eta,object2->phi);
3669	>	else if(variable == "photonGenMotherId") value = object2->genMotherId;
3670	>	else if(variable == "electronRelPFrhoIso") value = ( object1->chargedHadronIsoDR03 + max(0.0, object1->neutralHadronIsoDR03 + object1->photonIsoDR03 - object1->AEffDr03*object1->rhoPrime) ) / object1->pt;
3671	>	else if(variable == "invMass"){
3672	>	TLorentzVector fourVector1(object1->px, object1->py, object1->pz, object1->energy);
3673	>	TLorentzVector fourVector2(object2->px, object2->py, object2->pz, object2->energy);
3674	>	value = (fourVector1 + fourVector2).M();
3675	>	}
3676	>	else if(variable == "pt"){
3677	>	TLorentzVector fourVector1(object1->px, object1->py, object1->pz, object1->energy);
3678	>	TLorentzVector fourVector2(object2->px, object2->py, object2->pz, object2->energy);
3679	>	value = (fourVector1 + fourVector2).Pt();
3680	>	}
3681	>	else if(variable == "threeDAngle")
3682	>	{
3683	>	TVector3 threeVector1(object1->px, object1->py, object1->pz);
3684	>	TVector3 threeVector2(object2->px, object2->py, object2->pz);
3685	>	value = (threeVector1.Angle(threeVector2));
3686	>	}
3687	>	else if(variable == "alpha")
3688	>	{
3689	>	static const double pi = 3.1415926535897932384626433832795028841971693993751058;
3690	>	TVector3 threeVector1(object1->px, object1->py, object1->pz);
3691	>	TVector3 threeVector2(object2->px, object2->py, object2->pz);
3692	>	value = (pi-threeVector1.Angle(threeVector2));
3693	>	}
3694	>	else{clog << "WARNING: invalid electron-photon pair variable '" << variable << "'\n"; value = -999;}
3695	>
3696	>	value = applyFunction(function, value);
3697	>
3698	>	return value;
3699	>	} // end electron-photon pair valueLookup
3700	>
3701	>
3702	>	//!electron-electron pair valueLookup
3703	>	double
3704	>	OSUAnalysis::valueLookup (const BNelectron* object1, const BNelectron* object2, string variable, string function, string &stringValue){
3705	>
3706	>	double value = 0.0;
3707	>
3708	>	if(variable == "deltaPhi") value = fabs(deltaPhi(object1->phi,object2->phi));
3709	>	else if(variable == "deltaEta") value = fabs(object1->eta - object2->eta);
3710	>	else if(variable == "deltaR") value = deltaR(object1->eta,object1->phi,object2->eta,object2->phi);
3711	>	else if(variable == "invMass"){
3712	>	TLorentzVector fourVector1(object1->px, object1->py, object1->pz, object1->energy);
3713	>	TLorentzVector fourVector2(object2->px, object2->py, object2->pz, object2->energy);
3714	>	value = (fourVector1 + fourVector2).M();
3715	>	}
3716	>	else if(variable == "pt"){
3717	>	TLorentzVector fourVector1(object1->px, object1->py, object1->pz, object1->energy);
3718	>	TLorentzVector fourVector2(object2->px, object2->py, object2->pz, object2->energy);
3719	>	value = (fourVector1 + fourVector2).Pt();
3720	>	}
3721	>	else if(variable == "threeDAngle")
3722	>	{
3723	>	TVector3 threeVector1(object1->px, object1->py, object1->pz);
3724	>	TVector3 threeVector2(object2->px, object2->py, object2->pz);
3725	>	value = (threeVector1.Angle(threeVector2));
3726	>	}
3727	>	else if(variable == "deltaCorrectedD0Vertex") value = object1->correctedD0Vertex - object2->correctedD0Vertex;
3728	>	else if(variable == "deltaAbsCorrectedD0Vertex") value = fabs(object1->correctedD0Vertex) - fabs(object2->correctedD0Vertex);
3729	>	else if(variable == "d0Sign"){
3730	>	double d0Sign = (object1->correctedD0Vertex*object2->correctedD0Vertex)/fabs(object1->correctedD0Vertex*object2->correctedD0Vertex);
3731	>	if(d0Sign < 0) value = -0.5;
3732	>	else if (d0Sign > 0) value = 0.5;
3733	>	else value = -999;
3734	>	}
3735	>	else if(variable == "chargeProduct"){
3736	>	value = object1->charge*object2->charge;
3737	>	}
3738	>	else if(variable == "electron1CorrectedD0Vertex"){
3739	>	value = object1->correctedD0Vertex;
3740	>	}
3741	>	else if(variable == "electron2CorrectedD0Vertex"){
3742	>	value = object2->correctedD0Vertex;
3743	>	}
3744	>	else if(variable == "electron1CorrectedD0"){
3745	>	value = object1->correctedD0;
3746	>	}
3747	>	else if(variable == "electron2CorrectedD0"){
3748	>	value = object2->correctedD0;
3749	>	}
3750	>
3751	>	else{clog << "WARNING: invalid electron-electron pair variable '" << variable << "'\n"; value = -999;}
3752	>
3753	>	value = applyFunction(function, value);
3754	>
3755	>	return value;
3756	>	} // end electron-electron pair valueLookup
3757	>
3758	>
3759	>	//!electron-muon pair valueLookup
3760	>	double
3761	>	OSUAnalysis::valueLookup (const BNelectron* object1, const BNmuon* object2, string variable, string function, string &stringValue){
3762	>
3763	>	double value = 0.0;
3764	>
3765	>	if(variable == "deltaPhi") value = fabs(deltaPhi(object1->phi,object2->phi));
3766	>	else if(variable == "deltaEta") value = fabs(object1->eta - object2->eta);
3767	>	else if(variable == "deltaR") value = deltaR(object1->eta,object1->phi,object2->eta,object2->phi);
3768	>	else if(variable == "invMass"){
3769	>	TLorentzVector fourVector1(object1->px, object1->py, object1->pz, object1->energy);
3770	>	TLorentzVector fourVector2(object2->px, object2->py, object2->pz, object2->energy);
3771	>	value = (fourVector1 + fourVector2).M();
3772	>	}
3773	>	else if(variable == "pt"){
3774	>	TLorentzVector fourVector1(object1->px, object1->py, object1->pz, object1->energy);
3775	>	TLorentzVector fourVector2(object2->px, object2->py, object2->pz, object2->energy);
3776	>	value = (fourVector1 + fourVector2).Pt();
3777	>	}
3778	>	else if(variable == "threeDAngle")
3779	>	{
3780	>	TVector3 threeVector1(object1->px, object1->py, object1->pz);
3781	>	TVector3 threeVector2(object2->px, object2->py, object2->pz);
3782	>	value = (threeVector1.Angle(threeVector2));
3783	>	}
3784	>	else if(variable == "deltaCorrectedD0Vertex") value = object1->correctedD0Vertex - object2->correctedD0Vertex;
3785	>	else if(variable == "deltaAbsCorrectedD0Vertex") value = fabs(object1->correctedD0Vertex) - fabs(object2->correctedD0Vertex);
3786	>	else if(variable == "d0Sign"){
3787	>	double d0Sign = (object1->correctedD0Vertex*object2->correctedD0Vertex)/fabs(object1->correctedD0Vertex*object2->correctedD0Vertex);
3788	>	if(d0Sign < 0) value = -0.5;
3789	>	else if (d0Sign > 0) value = 0.5;
3790	>	else value = -999;
3791	>	}
3792	>	else if(variable == "chargeProduct"){
3793	>	value = object1->charge*object2->charge;
3794	>	}
3795	>	else if(variable == "electronCorrectedD0Vertex"){
3796	>	value = object1->correctedD0Vertex;
3797	>	}
3798	>	else if(variable == "muonCorrectedD0Vertex"){
3799	>	value = object2->correctedD0Vertex;
3800	>	}
3801	>	else if(variable == "electronCorrectedD0"){
3802	>	value = object1->correctedD0;
3803	>	}
3804	>	else if(variable == "muonCorrectedD0"){
3805	>	value = object2->correctedD0;
3806	>	}
3807	>	else if(variable == "electronDetIso"){
3808	>	value = (object1->trackIso) / object1->pt;
3809	>	}
3810	>	else if(variable == "muonDetIso"){
3811	>	value = (object2->trackIsoDR03) / object2->pt;
3812	>	}
3813	>	else if(variable == "electronRelPFrhoIso"){
3814	>	value = ( object1->chargedHadronIsoDR03 + max(0.0, object1->neutralHadronIsoDR03 + object1->photonIsoDR03 - object1->AEffDr03*object1->rhoPrime) ) / object1->pt;
3815	>	}
3816	>	else if(variable == "muonRelPFdBetaIso"){
3817	>	value = (object2->pfIsoR04SumChargedHadronPt + max(0.0, object2->pfIsoR04SumNeutralHadronEt + object2->pfIsoR04SumPhotonEt - 0.5*object2->pfIsoR04SumPUPt)) / object2->pt;
3818	>	}
3819	>	else{clog << "WARNING: invalid electron-muon pair variable '" << variable << "'\n"; value = -999;}
3820	>	value = applyFunction(function, value);
3821	>
3822	>	return value;
3823	>	} // end electron-muon pair valueLookup
3824	>
3825	>
3826	>	//!electron-jet pair valueLookup
3827	>	double
3828	>	OSUAnalysis::valueLookup (const BNelectron* object1, const BNjet* object2, string variable, string function, string &stringValue){
3829	>
3830	>	double value = 0.0;
3831	>
3832	>	if(variable == "deltaPhi") value = fabs(deltaPhi(object1->phi,object2->phi));
3833	>	else if(variable == "deltaEta") value = fabs(object1->eta - object2->eta);
3834	>	else if(variable == "jetEta") value = object2->eta;
3835	>	else if(variable == "jetPhi") value = object2->phi;
3836	>	else if(variable == "electronEta") value = object1->eta;
3837	>	else if(variable == "electronPhi") value = object1->phi;
3838	>	else if(variable == "deltaR") value = deltaR(object1->eta,object1->phi,object2->eta,object2->phi);
3839	>	else if(variable == "invMass"){
3840	>	TLorentzVector fourVector1(object1->px, object1->py, object1->pz, object1->energy);
3841	>	TLorentzVector fourVector2(object2->px, object2->py, object2->pz, object2->energy);
3842	>	value = (fourVector1 + fourVector2).M();
3843	>	}
3844	>	else if(variable == "pt"){
3845	>	TLorentzVector fourVector1(object1->px, object1->py, object1->pz, object1->energy);
3846	>	TLorentzVector fourVector2(object2->px, object2->py, object2->pz, object2->energy);
3847	>	value = (fourVector1 + fourVector2).Pt();
3848	>	}
3849	>	else if(variable == "threeDAngle")
3850	>	{
3851	>	TVector3 threeVector1(object1->px, object1->py, object1->pz);
3852	>	TVector3 threeVector2(object2->px, object2->py, object2->pz);
3853	>	value = (threeVector1.Angle(threeVector2));
3854	>	}
3855	>	else if(variable == "chargeProduct"){
3856	>	value = object1->charge*object2->charge;
3857	>	}
3858	>
3859	>	else{clog << "WARNING: invalid electron-jet pair variable '" << variable << "'\n"; value = -999;}
3860	>	value = applyFunction(function, value);
3861	>
3862	>	return value;
3863	>	}
3864	>
3865	>	//!electron-mcparticle pair valueLookup
3866	>	double
3867	>	OSUAnalysis::valueLookup (const BNelectron* object1, const BNmcparticle* object2, string variable, string function, string &stringValue){
3868	>
3869	>	double value = 0.0;
3870	>
3871	>	if(variable == "deltaPhi") value = fabs(deltaPhi(object1->phi,object2->phi));
3872	>	else if(variable == "deltaEta") value = fabs(object1->eta - object2->eta);
3873	>	else if(variable == "deltaR") value = deltaR(object1->eta,object1->phi,object2->eta,object2->phi);
3874	>	else if(variable == "threeDAngle")
3875	>	{
3876	>	TVector3 threeVector1(object1->px, object1->py, object1->pz);
3877	>	TVector3 threeVector2(object2->px, object2->py, object2->pz);
3878	>	value = (threeVector1.Angle(threeVector2));
3879	>	}
3880	>	else if(variable == "chargeProduct"){
3881	>	value = object1->charge*object2->charge;
3882	>	}
3883	>
3884	>	else{clog << "WARNING: invalid electron-mcparticle variable '" << variable << "'\n"; value = -999;}
3885	>	value = applyFunction(function, value);
3886	>
3887	>	return value;
3888	>	}
3889	>
3890	>
3891	>	//!photon-jet pair valueLookup
3892	>	double
3893	>	OSUAnalysis::valueLookup (const BNphoton* object1, const BNjet* object2, string variable, string function, string &stringValue){
3894	>
3895	>	double value = 0.0;
3896	>
3897	>	if(variable == "deltaPhi") value = fabs(deltaPhi(object1->phi,object2->phi));
3898	>	else if(variable == "deltaEta") value = fabs(object1->eta - object2->eta);
3899	>	else if(variable == "jetEta") value = object2->eta;
3900	>	else if(variable == "jetPhi") value = object2->phi;
3901	>	else if(variable == "photonEta") value = object1->eta;
3902	>	else if(variable == "photonPhi") value = object1->phi;
3903	>	else if(variable == "photonGenMotherId") value = object1->genMotherId;
3904	>	else if(variable == "deltaR") value = deltaR(object1->eta,object1->phi,object2->eta,object2->phi);
3905	>	else if(variable == "invMass"){
3906	>	TLorentzVector fourVector1(object1->px, object1->py, object1->pz, object1->energy);
3907	>	TLorentzVector fourVector2(object2->px, object2->py, object2->pz, object2->energy);
3908	>	value = (fourVector1 + fourVector2).M();
3909	>	}
3910	>	else if(variable == "pt"){
3911	>	TLorentzVector fourVector1(object1->px, object1->py, object1->pz, object1->energy);
3912	>	TLorentzVector fourVector2(object2->px, object2->py, object2->pz, object2->energy);
3913	>	value = (fourVector1 + fourVector2).Pt();
3914	>	}
3915	>	else if(variable == "threeDAngle")
3916	>	{
3917	>	TVector3 threeVector1(object1->px, object1->py, object1->pz);
3918	>	TVector3 threeVector2(object2->px, object2->py, object2->pz);
3919	>	value = (threeVector1.Angle(threeVector2));
3920	>	}
3921	>	else{clog << "WARNING: invalid photon-jet pair variable '" << variable << "'\n"; value = -999;}
3922	>	value = applyFunction(function, value);
3923	>
3924	>	return value;
3925	>	}
3926	>
3927	>	// track-jet pair valueLookup
3928	>	double
3929	>	OSUAnalysis::valueLookup (const BNtrack* object1, const BNjet* object2, string variable, string function, string &stringValue){
3930	>
3931	>	double value = 0.0;
3932	>
3933	>	if(variable == "deltaPhi") value = fabs(deltaPhi(object1->phi,object2->phi));
3934	>	else if(variable == "deltaR") value = deltaR(object1->eta,object1->phi,object2->eta,object2->phi);
3935	>
3936	>	else{clog << "WARNING: invalid track-jet pair variable '" << variable << "'\n"; value = -999;}
3937	>	value = applyFunction(function, value);
3938	>
3939	>	return value;
3940	>
3941	>	}
3942	>
3943	>
3944	>
3945	>	// met-jet pair valueLookup
3946	>	double
3947	>	OSUAnalysis::valueLookup (const BNmet* object1, const BNjet* object2, string variable, string function, string &stringValue){
3948	>
3949	>	double value = 0.0;
3950	>
3951	>	if(variable == "deltaPhi") value = fabs(deltaPhi(object1->phi,object2->phi));
3952	>
3953	>	else{clog << "WARNING: invalid met-jet pair variable '" << variable << "'\n"; value = -999;}
3954	>	value = applyFunction(function, value);
3955	>
3956	>	return value;
3957	>
3958	>	}
3959	>
3960	>
3961	>
3962	>	//!muon-jet pair valueLookup
3963	>	double
3964	>	OSUAnalysis::valueLookup (const BNmuon* object1, const BNjet* object2, string variable, string function, string &stringValue){
3965	>
3966	>	double value = 0.0;
3967	>
3968	>	if(variable == "deltaPhi") value = fabs(deltaPhi(object1->phi,object2->phi));
3969	>	else if(variable == "jetEta") value = object2->eta;
3970	>	else if(variable == "relPFdBetaIso") value = (object1->pfIsoR04SumChargedHadronPt + max(0.0, object1->pfIsoR04SumNeutralHadronEt + object1->pfIsoR04SumPhotonEt - 0.5*object1->pfIsoR04SumPUPt)) / object1->pt;
3971	>	else if(variable == "jetPt") value = object2->pt;
3972	>	else if(variable == "jetPhi") value = object2->phi;
3973	>	else if(variable == "deltaPt") value = object1->pt - object2->pt;
3974	>	else if(variable == "muonEta") value = object1->eta;
3975	>	else if(variable == "muonPt") value = object1->pt;
3976	>	else if(variable == "muonPhi") value = object1->phi;
3977	>	else if(variable == "deltaEta") value = fabs(object1->eta - object2->eta);
3978	>	else if(variable == "deltaR") value = deltaR(object1->eta,object1->phi,object2->eta,object2->phi);
3979	>	else if(variable == "invMass"){
3980	>	TLorentzVector fourVector1(object1->px, object1->py, object1->pz, object1->energy);
3981	>	TLorentzVector fourVector2(object2->px, object2->py, object2->pz, object2->energy);
3982	>	value = (fourVector1 + fourVector2).M();
3983	>	}
3984	>	else if(variable == "pt"){
3985	>	TLorentzVector fourVector1(object1->px, object1->py, object1->pz, object1->energy);
3986	>	TLorentzVector fourVector2(object2->px, object2->py, object2->pz, object2->energy);
3987	>	value = (fourVector1 + fourVector2).Pt();
3988	>	}
3989	>	else if(variable == "threeDAngle")
3990	>	{
3991	>	TVector3 threeVector1(object1->px, object1->py, object1->pz);
3992	>	TVector3 threeVector2(object2->px, object2->py, object2->pz);
3993	>	value = (threeVector1.Angle(threeVector2));
3994	>	}
3995	>	else if(variable == "chargeProduct"){
3996	>	value = object1->charge*object2->charge;
3997	>	}
3998	>
3999	>	else{clog << "WARNING: invalid muon-jet pair variable '" << variable << "'\n"; value = -999;}
4000	>	value = applyFunction(function, value);
4001	>
4002	>	return value;
4003	>	} // end muon-jet pair valueLookup
4004	>
4005	>
4006	>	//!muon-event valueLookup
4007	>	double
4008	>	OSUAnalysis::valueLookup (const BNmuon* object1, const BNevent* object2, string variable, string function, string &stringValue){
4009	>
4010	>	double value = 0.0;
4011	>
4012	>	if(variable == "muonEta") value = object1->eta;
4013	>	else if(variable == "muonPt") value = object1->pt;
4014	>	else if(variable == "muonPhi") value = object1->phi;
4015	>	else if(variable == "Ht") value = getHt(jets.product());
4016	>	else if(variable == "pthat")   value = object2->pthat;
4017	>	else if(variable == "relPFdBetaIso") value = (object1->pfIsoR04SumChargedHadronPt + max(0.0, object1->pfIsoR04SumNeutralHadronEt + object1->pfIsoR04SumPhotonEt - 0.5*object1->pfIsoR04SumPUPt)) / object1->pt;
4018	>	else{clog << "WARNING: invalid muon-event pair variable '" << variable << "'\n"; value = -999;}
4019	>	value = applyFunction(function, value);
4020	>
4021	>	return value;
4022	>	}
4023	>	//!jet-jet pair valueLookup
4024	>	double
4025	>	OSUAnalysis::valueLookup (const BNjet* object1, const BNjet* object2, string variable, string function, string &stringValue){
4026	>
4027	>	double value = 0.0;
4028	>
4029	>	if(variable == "deltaPhi") value = fabs(deltaPhi(object1->phi,object2->phi));
4030	>	else if(variable == "deltaEta") value = fabs(object1->eta - object2->eta);
4031	>	else if(variable == "deltaPt") value = object1->pt - object2->pt;
4032	>	else if(variable == "deltaR") value = deltaR(object1->eta,object1->phi,object2->eta,object2->phi);
4033	>	else if(variable == "invMass"){
4034	>	TLorentzVector fourVector1(object1->px, object1->py, object1->pz, object1->energy);
4035	>	TLorentzVector fourVector2(object2->px, object2->py, object2->pz, object2->energy);
4036	>	value = (fourVector1 + fourVector2).M();
4037	>	}
4038	>	else if(variable == "pt"){
4039	>	TLorentzVector fourVector1(object1->px, object1->py, object1->pz, object1->energy);
4040	>	TLorentzVector fourVector2(object2->px, object2->py, object2->pz, object2->energy);
4041	>	value = (fourVector1 + fourVector2).Pt();
4042	>	}
4043	>	else if(variable == "threeDAngle")
4044	>	{
4045	>	TVector3 threeVector1(object1->px, object1->py, object1->pz);
4046	>	TVector3 threeVector2(object2->px, object2->py, object2->pz);
4047	>	value = (threeVector1.Angle(threeVector2));
4048	>	}
4049	>	else if(variable == "chargeProduct"){
4050	>	value = object1->charge*object2->charge;
4051	>	}
4052	>
4053	>	else{clog << "WARNING: invalid jet-jet pair variable '" << variable << "'\n"; value = -999;}
4054	>	value = applyFunction(function, value);
4055	>
4056	>	return value;
4057	>	}
4058	>
4059	>	//!electron-track pair valueLookup
4060	>	double
4061	>	OSUAnalysis::valueLookup (const BNelectron* object1, const BNtrack* object2, string variable, string function, string &stringValue){
4062	>	double electronMass = 0.000511;
4063	>	double value = 0.0;
4064	>	TLorentzVector fourVector1(0, 0, 0, 0);
4065	>	TLorentzVector fourVector2(0, 0, 0, 0);
4066	>	if(variable == "deltaPhi") value = fabs(deltaPhi(object1->phi,object2->phi));
4067	>	else if(variable == "deltaEta") value = fabs(object1->eta - object2->eta);
4068	>	else if(variable == "deltaR") value = deltaR(object1->eta,object1->phi,object2->eta,object2->phi);
4069	>	else if(variable == "deltaRLooseMvaId") {
4070	>	// only consider electrons that pass "loose MVA id", i.e., mvaNonTrigV0 > 0;
4071	>	// otherwise return very large value (99)
4072	>	if (object1->mvaNonTrigV0>0) value = deltaR(object1->eta,object1->phi,object2->eta,object2->phi);
4073	>	else                         value = 99.;
4074	>	}
4075	>	else if(variable == "invMass"){
4076	>	fourVector1.SetPtEtaPhiM(object1->pt, object1->eta, object1->phi, electronMass);
4077	>	fourVector2.SetPtEtaPhiM(object2->pt, object2->eta, object2->phi, electronMass );
4078	>
4079	>	value = (fourVector1 + fourVector2).M();
4080	>	}
4081	>	else if(variable == "chargeProduct"){
4082	>	value = object1->charge*object2->charge;
4083	>	}
4084	>	else{clog << "WARNING: invalid electron-track pair variable '" << variable << "'\n"; value = -999;}
4085	>	value = applyFunction(function, value);
4086	>	return value;
4087	>
4088	>	}
4089	>
4090	>
4091	>	//!muon-track pair valueLookup
4092	>	double
4093	>	OSUAnalysis::valueLookup (const BNmuon* object1, const BNtrack* object2, string variable, string function, string &stringValue){
4094	>	double value = 0.0;
4095	>	if(variable == "deltaPhi") value = fabs(deltaPhi(object1->phi,object2->phi));
4096	>	else if(variable == "deltaEta") value = fabs(object1->eta - object2->eta);
4097	>	else if(variable == "deltaR") value = deltaR(object1->eta,object1->phi,object2->eta,object2->phi);
4098	>	else if(variable == "deltaRLooseID") {
4099	>	// only consider muons that pass looseId criteria; otherwise return very large value (99.)
4100	>	string empty = "";
4101	>	double isLooseId = valueLookup(object1, "looseID", "", empty);
4102	>	if (isLooseId) value = deltaR(object1->eta,object1->phi,object2->eta,object2->phi);
4103	>	else           value = 99.;
4104	>	}
4105	>	else if(variable == "deltaRGlobalMuon") {
4106	>	// only consider muons that pass looseId criteria; otherwise return very large value (99.)
4107	>	if (object1->isGlobalMuon) value = deltaR(object1->eta,object1->phi,object2->eta,object2->phi);
4108	>	else                       value = 99.;
4109	>	}
4110	>	else if(variable == "invMass"){
4111	>	double pionMass = 0.140;
4112	>	double muonMass = 0.106;
4113	>	TLorentzVector fourVector1(0, 0, 0, 0);
4114	>	TLorentzVector fourVector2(0, 0, 0, 0);
4115	>	fourVector1.SetPtEtaPhiM(object1->pt, object1->eta, object1->phi, muonMass);
4116	>	fourVector2.SetPtEtaPhiM(object2->pt, object2->eta, object2->phi, pionMass );
4117	>	value = (fourVector1 + fourVector2).M();
4118	>	}
4119	>	else if(variable == "chargeProduct"){
4120	>	value = object1->charge*object2->charge;
4121	>	}
4122	>
4123	>	else{clog << "WARNING: invalid muon-track pair variable '" << variable << "'\n"; value = -999;}
4124	>	value = applyFunction(function, value);
4125	>	return value;
4126	>	}
4127	>
4128	>	//!tau-tau pair valueLookup
4129	>	double
4130	>	OSUAnalysis::valueLookup (const BNtau* object1, const BNtau* object2, string variable, string function, string &stringValue){
4131	>	double value = 0.0;
4132	>	if(variable == "deltaPhi") value = fabs(deltaPhi(object1->phi,object2->phi));
4133	>	else if(variable == "deltaEta") value = fabs(object1->eta - object2->eta);
4134	>	else if(variable == "deltaR") value = deltaR(object1->eta,object1->phi,object2->eta,object2->phi);
4135	>	else if(variable == "invMass"){
4136	>	TLorentzVector fourVector1(object1->px, object1->py, object1->pz, object1->energy);
4137	>	TLorentzVector fourVector2(object2->px, object2->py, object2->pz, object2->energy);
4138	>	value = (fourVector1 + fourVector2).M();
4139	>	}
4140	>
4141	>	else if(variable == "chargeProduct"){
4142	>	value = object1->charge*object2->charge;
4143	>	}
4144	>
4145	>	else{clog << "WARNING: invalid tau-tau pair variable '" << variable << "'\n"; value = -999;}
4146	>	value = applyFunction(function, value);
4147	>	return value;
4148	>	}
4149	>
4150	>	//!muon-tau pair valueLookup
4151	>	double
4152	>	OSUAnalysis::valueLookup (const BNmuon* object1, const BNtau* object2, string variable, string function, string &stringValue){
4153	>	double value = 0.0;
4154	>	if(variable == "deltaPhi") value = fabs(deltaPhi(object1->phi,object2->phi));
4155	>	else if(variable == "deltaEta") value = fabs(object1->eta - object2->eta);
4156	>	else if(variable == "deltaR") value = deltaR(object1->eta,object1->phi,object2->eta,object2->phi);
4157	>	else if(variable == "invMass"){
4158	>	TLorentzVector fourVector1(object1->px, object1->py, object1->pz, object1->energy);
4159	>	TLorentzVector fourVector2(object2->px, object2->py, object2->pz, object2->energy);
4160	>	value = (fourVector1 + fourVector2).M();
4161	>	}
4162	>
4163	>	else if(variable == "chargeProduct"){
4164	>	value = object1->charge*object2->charge;
4165	>	}
4166	>
4167	>	else{clog << "WARNING: invalid muon-tau pair variable '" << variable << "'\n"; value = -999;}
4168	>	value = applyFunction(function, value);
4169	>	return value;
4170	>	}
4171	>
4172	>	//!tau-track pair valueLookup
4173	>	double
4174	>	OSUAnalysis::valueLookup (const BNtau* object1, const BNtrack* object2, string variable, string function, string &stringValue){
4175	>	double value = 0.0;
4176	>	if(variable == "deltaPhi") value = fabs(deltaPhi(object1->phi,object2->phi));
4177	>	else if(variable == "deltaR") value = deltaR(object1->eta,object1->phi,object2->eta,object2->phi);
4178	>	else if(variable == "deltaRLooseHadronicID") {
4179	>	// only consider tau's that pass the loose hadronic ID criteria; otherwise return very large value (99)
4180	>	string empty = "";
4181	>	double isLooseHadronicID = valueLookup(object1, "looseHadronicID", "", empty);
4182	>
4183	>	if (isLooseHadronicID) value = deltaR(object1->eta,object1->phi,object2->eta,object2->phi);
4184	>	else                   value = 99.;
4185	>	}
4186	>	else if(variable == "deltaEta") value = fabs(object1->eta - object2->eta);
4187	>	else if(variable == "invMass"){
4188	>	double tauMass = 1.777;  // PDG 2010
4189	>	double pionMass = 0.140; // PDG 2010
4190	>	TLorentzVector fourVector1(0, 0, 0, 0);
4191	>	TLorentzVector fourVector2(0, 0, 0, 0);
4192	>	fourVector1.SetPtEtaPhiM(object1->pt, object1->eta, object1->phi, tauMass);
4193	>	fourVector2.SetPtEtaPhiM(object2->pt, object2->eta, object2->phi, pionMass );
4194	>	value = (fourVector1 + fourVector2).M();
4195	>	}
4196	>	else if(variable == "chargeProduct"){
4197	>	value = object1->charge*object2->charge;
4198	>	}
4199	>
4200	>	else{clog << "WARNING: invalid tau-track pair variable '" << variable << "'\n"; value = -999;}
4201	>	value = applyFunction(function, value);
4202	>	return value;
4203	>	}
4204	>
4205	>
4206	>	//!track-event pair valueLookup
4207	>	double
4208	>	OSUAnalysis::valueLookup (const BNtrack* object1, const BNevent* object2, string variable, string function, string &stringValue){
4209	>
4210	>	double value = 0.0;
4211	>	double pMag = sqrt(object1->pt * object1->pt +
4212	>	object1->pz * object1->pz);
4213	>
4214	>	if      (variable == "numPV")                      value = object2->numPV;
4215	>	else if (variable == "caloTotDeltaRp5")            value =  (object1->caloHadDeltaRp5 + object1->caloEMDeltaRp5);
4216	>	else if (variable == "caloTotDeltaRp5ByP")         value = ((object1->caloHadDeltaRp5 + object1->caloEMDeltaRp5)/pMag);
4217	>	else if (variable == "caloTotDeltaRp5_RhoCorr")    value = getTrkCaloTotRhoCorr(object1);
4218	>	else if (variable == "caloTotDeltaRp5ByP_RhoCorr") value = getTrkCaloTotRhoCorr(object1) / pMag;
4219	>
4220	>	else { clog << "WARNING: invalid track-event pair variable '" << variable << "'\n"; value = -999; }
4221	>
4222	>	value = applyFunction(function, value);
4223	>
4224	>	return value;
4225	>
4226	>	}
4227	>
4228	>	//!electron-trigobj pair valueLookup
4229	>	double
4230	>	OSUAnalysis::valueLookup (const BNelectron* object1, const BNtrigobj* object2, string variable, string function, string &stringValue){
4231	>
4232	>	double value = 0.0;
4233	>
4234	>	if (variable == "deltaR") value = deltaR(object1->eta,object1->phi,object2->eta,object2->phi);
4235	>	else if (variable == "match"){
4236	>	if (deltaR(object1->eta,object1->phi,object2->eta,object2->phi) < 0.2 && abs(object2->id) == 11)
4237	>	stringValue = object2->filter;
4238	>	else
4239	>	stringValue = "none";
4240	>	}
4241	>
4242	>	else { clog << "WARNING: invalid electron-trigobj variable '" << variable << "'\n"; value = -999; }
4243	>
4244	>	value = applyFunction(function, value);
4245	>
4246	>	return value;
4247	>
4248	>	}
4249	>
4250	>	//!muon-trigobj pair valueLookup
4251	>	double
4252	>	OSUAnalysis::valueLookup (const BNmuon* object1, const BNtrigobj* object2, string variable, string function, string &stringValue){
4253	>
4254	>	double value = 0.0;
4255	>
4256	>	if (variable == "deltaR") value = deltaR(object1->eta,object1->phi,object2->eta,object2->phi);
4257	>
4258	>	else { clog << "WARNING: invalid muon-trigobj variable '" << variable << "'\n"; value = -999; }
4259	>
4260	>	value = applyFunction(function, value);
4261	>
4262	>	return value;
4263	>
4264	>	}
4265	>
4266	>	//!stop valueLookup
4267	>	double
4268	>	OSUAnalysis::valueLookup (const BNstop* object, string variable, string function, string &stringValue){
4269	>
4270	>
4271	>	double value = 0.0;
4272	>
4273	>	if(variable == "ctau") value = object->ctau;
4274	>
4275	>	else if (variable == "d0"){
4276	>	double vx = object->vx - chosenVertex ()->x,
4277	>	vy = object->vy - chosenVertex ()->y,
4278	>	px = object->px,
4279	>	py = object->py,
4280	>	pt = object->pt;
4281	>	value = (-vx * py + vy * px) / pt;
4282	>	}
4283	>
4284	>	else if (variable == "dz"){
4285	>	double vx = object->vx - chosenVertex ()->x,
4286	>	vy = object->vy - chosenVertex ()->y,
4287	>	vz = object->vz - chosenVertex ()->z,
4288	>	px = object->px,
4289	>	py = object->py,
4290	>	pz = object->pz,
4291	>	pt = object->pt;
4292	>	value = vz - (vx * px + vy * py)/pt * (pz/pt);
4293	>	}
4294	>
4295	>	else if (variable == "minD0"){
4296	>	double minD0=999;
4297	>	for(BNprimaryvertexCollection::const_iterator vertex = primaryvertexs->begin (); vertex != primaryvertexs->end (); vertex++){
4298	>	double vx = object->vx - vertex->x,
4299	>	vy = object->vy - vertex->y,
4300	>	px = object->px,
4301	>	py = object->py,
4302	>	pt = object->pt;
4303	>	value = (-vx * py + vy * px) / pt;
4304	>	if(abs(value) < abs(minD0)) minD0 = value;
4305	>	}
4306	>	value = minD0;
4307	>	}
4308	>	else if (variable == "minDz"){
4309	>	double minDz=999;
4310	>	for(BNprimaryvertexCollection::const_iterator vertex = primaryvertexs->begin (); vertex != primaryvertexs->end (); vertex++){
4311	>	double vx = object->vx - vertex->x,
4312	>	vy = object->vy - vertex->y,
4313	>	vz = object->vz - vertex->z,
4314	>	px = object->px,
4315	>	py = object->py,
4316	>	pz = object->pz,
4317	>	pt = object->pt;
4318	>	value = vz - (vx * px + vy * py)/pt * (pz/pt);
4319	>	if(abs(value) < abs(minDz)) minDz = value;
4320	>	}
4321	>	value = minDz;
4322	>	}
4323	>	else if(variable == "distToVertex"){
4324	>	value = sqrt((object->vx-chosenVertex()->x)*(object->vx-chosenVertex()->x) + \
4325	>	(object->vy-chosenVertex()->y)*(object->vy-chosenVertex()->y) + \
4326	>	(object->vz-chosenVertex()->z)*(object->vz-chosenVertex()->z));
4327	>	}
4328	>	else if (variable == "minDistToVertex"){
4329	>	double minDistToVertex=999;
4330	>	for(BNprimaryvertexCollection::const_iterator vertex = primaryvertexs->begin (); vertex != primaryvertexs->end (); vertex++){
4331	>	value = sqrt((object->vx-vertex->x)*(object->vx-vertex->x) + \
4332	>	(object->vy-vertex->y)*(object->vy-vertex->y) + \
4333	>	(object->vz-vertex->z)*(object->vz-vertex->z));
4334	>
4335	>	if(abs(value) < abs(minDistToVertex)) minDistToVertex = value;
4336	>	}
4337	>	value = minDistToVertex;
4338	>	}
4339	>	else if (variable == "distToVertexDifference"){
4340	>	double minDistToVertex=999;
4341	>	for(BNprimaryvertexCollection::const_iterator vertex = primaryvertexs->begin (); vertex != primaryvertexs->end (); vertex++){
4342	>	value = sqrt((object->vx-vertex->x)*(object->vx-vertex->x) + \
4343	>	(object->vy-vertex->y)*(object->vy-vertex->y) + \
4344	>	(object->vz-vertex->z)*(object->vz-vertex->z));
4345	>
4346	>	if(abs(value) < abs(minDistToVertex)) minDistToVertex = value;
4347	>	}
4348	>	double distToChosenVertex = sqrt((object->vx-chosenVertex()->x)*(object->vx-chosenVertex()->x) + \
4349	>	(object->vy-chosenVertex()->y)*(object->vy-chosenVertex()->y) + \
4350	>	(object->vz-chosenVertex()->z)*(object->vz-chosenVertex()->z));
4351	>
4352	>	value = distToChosenVertex - minDistToVertex;
4353	>	}
4354	>
4355	>	else if (variable == "closestVertexRank"){
4356	>	double minDistToVertex=999;
4357	>	int vertex_rank = 0;
4358	>	for(BNprimaryvertexCollection::const_iterator vertex = primaryvertexs->begin (); vertex != primaryvertexs->end (); vertex++){
4359	>	vertex_rank++;
4360	>	int dist = sqrt((object->vx-vertex->x)*(object->vx-vertex->x) + \
4361	>	(object->vy-vertex->y)*(object->vy-vertex->y) + \
4362	>	(object->vz-vertex->z)*(object->vz-vertex->z));
4363	>
4364	>	if(abs(dist) < abs(minDistToVertex)){
4365	>	value = vertex_rank;
4366	>	minDistToVertex = dist;
4367	>	}
4368	>	}
4369	>	}
4370	>
4371	>	else if (variable == "decaysToTau"){
4372	>	value = abs (object->daughter0Id) == 15 || abs (object->daughter1Id) == 15;
4373	>	}
4374	>
4375	>
4376	>
4377	>
4378	>	else { clog << "WARNING: invalid stop variable '" << variable << "'\n"; value = -999; }
4379	>
4380	>	value = applyFunction(function, value);
4381	>
4382	>	return value;
4383	>
4384	>	} // end stop valueLookup
4385	>
4386	>
4387	>
4388	>
4389	>
4390	>	// Calculate the number of tracks in cone of DeltaR<0.5 around track1.
4391	>	// Return true iff no other tracks are found in this cone.
4392	>	int
4393	>	OSUAnalysis::getTrkIsIso (const BNtrack* track1, const BNtrackCollection* trackColl){
4394	>	for(BNtrackCollection::const_iterator track2 = trackColl->begin(); track2 !=trackColl->end(); track2++){
4395	>	if(track1->eta == track2->eta && track1->phi == track2->phi) continue; // Do not compare the track to itself.
4396	>	double deltaRtrk = deltaR(track1->eta, track1->phi, track2->eta, track2->phi);
4397	>	if(deltaRtrk < 0.5) return 0;
4398	>	}
4399	>	return 1;
4400	>
4401	>	}
4402	>
4403	>	//calculate the scalar sum of Jet Pt in the event.
4404	>	double
4405	>	OSUAnalysis::getHt (const BNjetCollection* jetColl){
4406	>	double Ht = 0;
4407	>	for(BNjetCollection::const_iterator jet = jetColl->begin(); jet !=jetColl->end(); jet++){
4408	>	Ht += abs(jet->pt);
4409	>	}
4410	>	return Ht;
4411	>	}
4412	>
4413	>	double
4414	>	OSUAnalysis::getTrkPtRes (const BNtrack* track1){
4415	>
4416	>	double ptTrue = getTrkPtTrue(track1, mcparticles.product());
4417	>	double PtRes = (track1->pt - ptTrue) / ptTrue;
4418	>
4419	>	return PtRes;
4420	>
4421	>	}
4422	>
4423	>
4424	>	double
4425	>	OSUAnalysis::getTrkPtTrue (const BNtrack* track1, const BNmcparticleCollection* genPartColl){
4426	>	double value = -99;
4427	>	double genDeltaRLowest = 999;
4428	>
4429	>	for (BNmcparticleCollection::const_iterator genPart = genPartColl->begin(); genPart !=genPartColl->end(); genPart++){
4430	>	double genDeltaRtemp = deltaR(genPart->eta, genPart->phi,track1->eta, track1->phi);
4431	>	if (genDeltaRtemp < genDeltaRLowest) {
4432	>	genDeltaRLowest = genDeltaRtemp;
4433	>	if (genDeltaRLowest < 0.05) {   // Only consider it truth-matched if DeltaR<0.15.
4434	>	double ptTrue = genPart->pt;
4435	>	value = ptTrue;
4436	>	}
4437	>	}
4438	>	}
4439	>
4440	>	return value;
4441	>
4442	>	}
4443	>
4444	>	double
4445	>	OSUAnalysis::getTrkCaloTotRhoCorr(const BNtrack* track) {
4446	>	// Return the pile-up (rho) corrected isolation energy, i.e., the total calorimeter energy around the candidate track.
4447	>	if (!useTrackCaloRhoCorr_) return -99;
4448	>	// if (!rhokt6CaloJetsHandle_) {
4449	>	//   clog << "ERROR [getTrkCaloTotRhoCorr]:  The collection rhokt6CaloJetsHandle is not available!" << endl;
4450	>	//   return -99;
4451	>	// }
4452	>	double radDeltaRCone = 0.5;
4453	>	double rhoCorr_kt6CaloJets = *rhokt6CaloJetsHandle_ * TMath::Pi() * pow(radDeltaRCone, 2);  // Define effective area as pi*r^2, where r is radius of DeltaR cone.
4454	>	double rawCaloTot = track->caloHadDeltaRp5 + track->caloEMDeltaRp5;
4455	>	double caloTotRhoCorrCalo = TMath::Max(0., rawCaloTot - rhoCorr_kt6CaloJets);
4456	>	return caloTotRhoCorrCalo;
4457	>
4458	>	}
4459	>
4460	>	double
4461	>	OSUAnalysis::getTrkDepTrkRp5RhoCorr(const BNtrack* track) {
4462	>	// Return the pile-up (rho) corrected isolation energy, i.e., the total calorimeter energy around the candidate track.
4463	>	if (!useTrackCaloRhoCorr_) return -99;
4464	>	// if (!rhokt6CaloJetsHandle_) {
4465	>	//   clog << "ERROR [getTrkCaloTotRhoCorr]:  The collection rhokt6CaloJetsHandle is not available!" << endl;
4466	>	//   return -99;
4467	>	// }
4468	>	double radDeltaRCone = 0.5;
4469	>	double rhoCorr_kt6CaloJets = *rhokt6CaloJetsHandle_ * TMath::Pi() * pow(radDeltaRCone, 2);  // Define effective area as pi*r^2, where r is radius of DeltaR cone.
4470	>	double rawDepTrkRp5 = track->depTrkRp5;
4471	>	double depTrkRp5RhoCorr = TMath::Max(0., rawDepTrkRp5 - rhoCorr_kt6CaloJets);
4472	>	return depTrkRp5RhoCorr;
4473	>
4474	>	}
4475	>
4476	>	double
4477	>	OSUAnalysis::getTrkDepTrkRp3RhoCorr(const BNtrack* track) {
4478	>	// Return the pile-up (rho) corrected isolation energy, i.e., the total calorimeter energy around the candidate track.
4479	>	if (!useTrackCaloRhoCorr_) return -99;
4480	>	// if (!rhokt6CaloJetsHandle_) {
4481	>	//   clog << "ERROR [getTrkCaloTotRhoCorr]:  The collection rhokt6CaloJetsHandle is not available!" << endl;
4482	>	//   return -99;
4483	>	// }
4484	>	double radDeltaRCone = 0.3;
4485	>	// Define effective area as pi*r^2, where r is radius of DeltaR cone
4486	>	double rhoCorr_kt6CaloJets = *rhokt6CaloJetsHandle_ * TMath::Pi() * pow(radDeltaRCone, 2);
4487	>	double rawDepTrkRp3 = track->depTrkRp3;
4488	>	double depTrkRp3RhoCorr = TMath::Max(0., rawDepTrkRp3 - rhoCorr_kt6CaloJets);
4489	>	return depTrkRp3RhoCorr;
4490
4491	+	}
4492	+
4493
4494	+
4495	+
4496	+	//creates a map of the dead Ecal channels in the barrel and endcap
4497	+	//to see how the map of dead Ecal channels is created look at function getChannelStatusMaps() here:
4498	+	//http://cmssw.cvs.cern.ch/cgi-bin/cmssw.cgi/UserCode/jbrinson/DisappTrk/OSUT3Analysis/AnaTools/src/OSUAnalysis.cc?revision=1.88&view=markup
4499	+	void
4500	+	OSUAnalysis::WriteDeadEcal (){
4501	+	double etaEcal, phiEcal;
4502	+	ifstream DeadEcalFile(deadEcalFile_);
4503	+	if(!DeadEcalFile) {
4504	+	clog << "Error: DeadEcalFile has not been found." << endl;
4505	+	return;
4506	+	}
4507	+	if(DeadEcalVec.size()!= 0){
4508	+	clog << "Error: DeadEcalVec has a nonzero size" << endl;
4509	+	return;
4510	+	}
4511	+	while(!DeadEcalFile.eof())
4512	+	{
4513	+	DeadEcalFile >> etaEcal >> phiEcal;
4514	+	DeadEcal newChan;
4515	+	newChan.etaEcal = etaEcal;
4516	+	newChan.phiEcal = phiEcal;
4517	+	DeadEcalVec.push_back(newChan);
4518	+	}
4519	+	if(DeadEcalVec.size() == 0) clog << "Warning: No dead Ecal channels have been found." << endl;
4520	+	}
4521	+
4522	+	//if a track is found within dR<0.05 of a dead Ecal channel value = 1, otherwise value = 0
4523	+	int
4524	+	OSUAnalysis::getTrkIsMatchedDeadEcal (const BNtrack* track1){
4525	+	double deltaRLowest = 999;
4526	+	int value = 0;
4527	+	if (DeadEcalVec.size() == 0) WriteDeadEcal();
4528	+	for(vector<DeadEcal>::const_iterator ecal = DeadEcalVec.begin(); ecal != DeadEcalVec.end(); ++ecal){
4529	+	double eta = ecal->etaEcal;
4530	+	double phi = ecal->phiEcal;
4531	+	double deltaRtemp = deltaR(eta, phi, track1->eta, track1->phi);
4532	+	if(deltaRtemp < deltaRLowest) deltaRLowest = deltaRtemp;
4533	+	}
4534	+	if (deltaRLowest<0.05) {value = 1;}
4535	+	else {value = 0;}
4536		return value;
4537		}
4538
4539	+	// Returns the smallest DeltaR between the object and any generated true particle in the event.
4540	+	template <class InputObject>
4541	+	double OSUAnalysis::getGenDeltaRLowest(InputObject object){
4542	+	double genDeltaRLowest = 999.;
4543	+	for(BNmcparticleCollection::const_iterator mcparticle = mcparticles->begin (); mcparticle != mcparticles->end (); mcparticle++){
4544	+	double deltaRtemp = deltaR(mcparticle->eta, mcparticle->phi, object->eta, object->phi);
4545	+	if (deltaRtemp < genDeltaRLowest) genDeltaRLowest = deltaRtemp;
4546	+	}
4547	+	return genDeltaRLowest;
4548	+	}
4549	+
4550	+	double
4551	+	OSUAnalysis::applyFunction(string function, double value){
4552	+
4553	+	if(function == "abs") value = fabs(value);
4554	+	else if(function == "fabs") value = fabs(value);
4555	+	else if(function == "log10") value = log10(value);
4556	+	else if(function == "log") value = log10(value);
4557	+
4558	+	else if(function == "") value = value;
4559	+	else{clog << "WARNING: invalid function '" << function << "'\n";}
4560	+
4561	+	return value;
4562
4563	<	template <class InputCollection>
4563	>	}
4564	>
4565	>
4566	>	template <class InputCollection>
4567		void OSUAnalysis::setObjectFlags(cut &currentCut, uint currentCutIndex, flagMap &individualFlags, flagMap &cumulativeFlags, InputCollection inputCollection, string inputType){
4568
4569	+	if (verbose_>2) clog << "  Beginning setObjectFlags for cut " << currentCutIndex << ": " << currentCut.name
4570	+	<< ", inputType=" << inputType
4571	+	<< endl;
4572	+	if (currentCut.inputCollection.find("pair")!=string::npos)  {
4573	+	string obj1, obj2;
4574	+	getTwoObjs(currentCut.inputCollection, obj1, obj2);
4575	+	if (verbose_>2) clog << "  Two object types:  " << obj1 << ", " << obj2 << endl;
4576	+	if (inputType==obj1 ||
4577	+	inputType==obj2) {
4578	+	// Do not add a cut to individualFlags or cumulativeFlags, if the cut is on a paired collection,
4579	+	// and the inputType is a member of the pair.
4580	+	// The cut will instead be applied when the setObjectFlags() is called for the paired collection.
4581	+	// For example, if currentCut.inputCollection==electron-muon pairs,
4582	+	// then the flags should not be set here when inputType==muons or inputType==electrons.
4583	+	return;
4584	+	}
4585	+	}
4586	+
4587	+	if (!inputCollection) clog << "ERROR:  invalid input collection for inputType=" << inputType << endl;
4588	+
4589	+	if (verbose_>3) clog << "   Collection size:  " << inputCollection->size() << endl;
4590
4591		for (uint object = 0; object != inputCollection->size(); object++){
1380	–
1381	–	bool decision = true;//object passes if this cut doesn't cut on that type of object
1382	–
1383	–	if(currentCut.inputCollection == inputType){
1384	–
1385	–	double value = valueLookup(&inputCollection->at(object), currentCut.variable, currentCut.function);
4592
4593	<	decision = evaluateComparison(value,currentCut.comparativeOperator,currentCut.cutValue);
4593	>	if (verbose_>4) clog << "    Setting flags for object " << object << endl;
4594	>
4595	>	bool cutDecision = true;//object passes if this cut doesn't cut on that type of object
4596	>	bool plotDecision = true;
4597	>
4598	>	if(currentCut.inputCollection == inputType){
4599	>
4600	>	vector<bool> subcutDecisions;
4601	>	for( int subcutIndex = 0; subcutIndex != currentCut.numSubcuts; subcutIndex++){
4602	>	string stringValue = "";
4603	>	double value = valueLookup(&inputCollection->at(object), currentCut.variables.at(subcutIndex), currentCut.functions.at(subcutIndex), stringValue);
4604	>	if (stringValue == "") subcutDecisions.push_back(evaluateComparison(value,currentCut.comparativeOperators.at(subcutIndex),currentCut.cutValues.at(subcutIndex)));
4605	>	else subcutDecisions.push_back(evaluateComparison(stringValue,currentCut.comparativeOperators.at(subcutIndex),currentCut.cutStringValues.at(subcutIndex)));
4606	>
4607	>	}
4608	>	if(currentCut.numSubcuts == 1) cutDecision = subcutDecisions.at(0);
4609	>	else{
4610	>	bool tempDecision = true;
4611	>	for( int subcutIndex = 0;subcutIndex != currentCut.numSubcuts-1; subcutIndex++){
4612	>	if(currentCut.logicalOperators.at(subcutIndex) == "&" || currentCut.logicalOperators.at(subcutIndex) == "&&")
4613	>	tempDecision = subcutDecisions.at(subcutIndex) && subcutDecisions.at(subcutIndex+1);
4614	>	else if(currentCut.logicalOperators.at(subcutIndex) == "|"|| currentCut.logicalOperators.at(subcutIndex) == "||")
4615	>	tempDecision = subcutDecisions.at(subcutIndex) || subcutDecisions.at(subcutIndex+1);
4616	>	}
4617	>	cutDecision = tempDecision;
4618	>	}
4619	>	//invert the cut if this cut is a veto
4620	>	if(currentCut.isVeto) cutDecision = !cutDecision;
4621	>	plotDecision = cutDecision;
4622		}
1389	–	individualFlags[inputType].at(currentCutIndex).push_back(decision);
1390	–
4623
4624	<	//set flags for objects that pass each cut AND all the previous cuts
4625	<	bool previousCumulativeFlag = true;
4624	>	individualFlags.at(inputType).at(currentCutIndex).push_back(make_pair(cutDecision,plotDecision));
4625	>
4626	>	//set flags for objects that pass this cut AND all the previous cuts
4627	>	bool previousCumulativeCutFlag = true;
4628		for(uint previousCutIndex = 0; previousCutIndex != currentCutIndex; previousCutIndex++){
4629	<	if(previousCumulativeFlag && individualFlags[inputType].at(previousCutIndex).at(object)) previousCumulativeFlag = true;
4630	<	else{ previousCumulativeFlag = false; break;}
4629	>	if(previousCumulativeCutFlag && individualFlags.at(inputType).at(previousCutIndex).at(object).first) previousCumulativeCutFlag = true;
4630	>	else{ previousCumulativeCutFlag = false; break;}
4631	>	}
4632	>	previousCumulativeCutFlag = previousCumulativeCutFlag && cutDecision;
4633	>	bool previousCumulativePlotFlag = true;
4634	>	for(uint previousCutIndex = 0; previousCutIndex != currentCutIndex; previousCutIndex++){
4635	>	if(previousCumulativePlotFlag && individualFlags.at(inputType).at(previousCutIndex).at(object).second) previousCumulativePlotFlag = true;
4636	>	else{ previousCumulativePlotFlag = false; break;}
4637	>	}
4638	>	previousCumulativePlotFlag = previousCumulativePlotFlag && plotDecision;
4639	>
4640	>	cumulativeFlags.at(inputType).at(currentCutIndex).push_back(make_pair(previousCumulativeCutFlag,previousCumulativePlotFlag));
4641	>
4642	>	}  //   for (uint object = 0; object != inputCollection->size(); object++){
4643	>
4644	>	} // end void OSUAnalysis::setObjectFlags
4645	>
4646	>
4647	>	template <class InputCollection1, class InputCollection2>
4648	>	void OSUAnalysis::setObjectFlags(cut &currentCut, uint currentCutIndex, flagMap &individualFlags, flagMap &cumulativeFlags,
4649	>	InputCollection1 inputCollection1, InputCollection2 inputCollection2, string inputType){
4650	>	// This function sets the flags for the paired object collection.
4651	>	// If the cut is applying on the given paired object collection, then the flags for the single object collections are also set.
4652	>	// If not, then the flags for the paired object collection are taken as the AND of the flags for each single object collection.
4653	>
4654	>	if (verbose_>2) clog << "  Beginning setObjectFlags for cut=" << currentCut.name
4655	>	<< ", inputType=" << inputType
4656	>	<< endl;
4657	>
4658	>	bool sameObjects = false;
4659	>	if(typeid(InputCollection1).name() == typeid(InputCollection2).name()) sameObjects = true;  // FIXME:  is sameObjects just the not of isTwoTypesOfObject?  If so, it's redundant.
4660	>
4661	>	// Get the strings for the two objects that make up the pair.
4662	>	string obj1Type, obj2Type;
4663	>	getTwoObjs(inputType, obj1Type, obj2Type);
4664	>	bool isTwoTypesOfObject = true;
4665	>	if (obj1Type==obj2Type) isTwoTypesOfObject = false;
4666	>
4667	>	// Initialize the flags for individual objects to all be false, if the cut is on the pair.
4668	>	// Set them to true later, if any paired object passes (in which case both of its constituents should pass).
4669	>	if (currentCut.inputCollection == inputType) {
4670	>	for (uint object1 = 0; object1 != inputCollection1->size(); object1++) {
4671	>	individualFlags.at(obj1Type).at(currentCutIndex).push_back(make_pair(false,false));
4672	>	cumulativeFlags.at(obj1Type).at(currentCutIndex).push_back(make_pair(false,false));
4673	>	}
4674	>	if (isTwoTypesOfObject) { // Only initialize the second object if it is different from the first.
4675	>	for (uint object2 = 0; object2 != inputCollection2->size(); object2++)  {
4676	>	individualFlags.at(obj2Type).at(currentCutIndex).push_back(make_pair(false,false));
4677	>	cumulativeFlags.at(obj2Type).at(currentCutIndex).push_back(make_pair(false,false));
4678	>	}
4679		}
1398	–	cumulativeFlags[inputType].at(currentCutIndex).push_back(previousCumulativeFlag && decision);
1399	–
4680		}
4681	<
4681	>
4682	>	int counter = 0;
4683	>
4684	>	for (uint object1 = 0; object1 != inputCollection1->size(); object1++){
4685	>	for (uint object2 = 0; object2 != inputCollection2->size(); object2++){
4686	>
4687	>	if(sameObjects && object1 >= object2) continue;//account for duplicate pairs if both collections are the same
4688	>
4689	>
4690	>	bool cutDecision  = true;//object passes if this cut doesn't cut on that type of object
4691	>	bool plotDecision = true;
4692	>
4693	>	// Determine whether each pair passes the cut, only if inputCollection is the same as the inputType.
4694	>	if(currentCut.inputCollection == inputType){
4695	>
4696	>	vector<bool> subcutDecisions;
4697	>	for( int subcutIndex = 0; subcutIndex != currentCut.numSubcuts; subcutIndex++){
4698	>	string stringValue = "";
4699	>	double value = valueLookup(&inputCollection1->at(object1), &inputCollection2->at(object2), currentCut.variables.at(subcutIndex), currentCut.functions.at(subcutIndex), stringValue);
4700	>	if (verbose_>1) clog << currentCut.variables.at(subcutIndex) << " = " << value
4701	>	<< endl;
4702	>	if (stringValue == "") subcutDecisions.push_back(evaluateComparison(value,currentCut.comparativeOperators.at(subcutIndex),currentCut.cutValues.at(subcutIndex)));
4703	>	else subcutDecisions.push_back(evaluateComparison(stringValue,currentCut.comparativeOperators.at(subcutIndex),currentCut.cutStringValues.at(subcutIndex)));
4704	>	}
4705	>
4706	>	if(currentCut.numSubcuts == 1) cutDecision = subcutDecisions.at(0);
4707	>	else{
4708	>	bool tempDecision = subcutDecisions.at(0);
4709	>	for( int subcutIndex = 1; subcutIndex < currentCut.numSubcuts; subcutIndex++){
4710	>	if(currentCut.logicalOperators.at(subcutIndex-1) == "&" || currentCut.logicalOperators.at(subcutIndex-1) == "&&")
4711	>	tempDecision = tempDecision && subcutDecisions.at(subcutIndex);
4712	>	else if(currentCut.logicalOperators.at(subcutIndex-1) == "|"|| currentCut.logicalOperators.at(subcutIndex-1) == "||")
4713	>	tempDecision = tempDecision || subcutDecisions.at(subcutIndex);
4714	>	}
4715	>	cutDecision = tempDecision;
4716	>	}
4717	>	//invert the cut if this cut is a veto
4718	>	if (currentCut.isVeto) cutDecision = !cutDecision;
4719	>	plotDecision = cutDecision;
4720	>
4721	>	if (verbose_>1) clog << " cutDecision = " << cutDecision
4722	>	<< "; for currentCut.inputCollection = " << currentCut.inputCollection
4723	>	<< "; object1 (" << obj1Type << ") = " << object1
4724	>	<< "; object2 (" << obj2Type << ") = " << object2
4725	>	<< endl;
4726	>
4727	>	if (cutDecision) {  // only set the flags for the individual objects if the pair object is being cut on
4728	>	individualFlags.at(obj1Type).at(currentCutIndex).at(object1).first = true;
4729	>	individualFlags.at(obj2Type).at(currentCutIndex).at(object2).first = true;
4730	>	}
4731	>	if (plotDecision) {  // only set the flags for the individual objects if the pair object is being cut on
4732	>	individualFlags.at(obj1Type).at(currentCutIndex).at(object1).second = true;
4733	>	individualFlags.at(obj2Type).at(currentCutIndex).at(object2).second = true;
4734	>	}
4735	>
4736	>
4737	>	} // if(currentCut.inputCollection == inputType){
4738	>
4739	>	// The individualFlags will be true if the inputCollection is not the same as the inputType.
4740	>	// They are also independent of the previous flags on the single objects.
4741	>	individualFlags.at(inputType).at(currentCutIndex).push_back(make_pair(cutDecision,plotDecision));
4742	>
4743	>
4744	>
4745	>	// ************************************
4746	>	// Determine cumulative flags
4747	>	// ************************************
4748	>	// determine whether this paired object passes this cut AND all previous cuts
4749	>	bool previousCumulativeCutFlag = true;
4750	>	for(uint previousCutIndex = 0; previousCutIndex != currentCutIndex; previousCutIndex++){
4751	>	if(previousCumulativeCutFlag && individualFlags.at(inputType).at(previousCutIndex).at(counter).first) previousCumulativeCutFlag = true;
4752	>	else{ previousCumulativeCutFlag = false; break;}
4753	>	}
4754	>	previousCumulativeCutFlag = previousCumulativeCutFlag && cutDecision;
4755	>
4756	>	bool previousCumulativePlotFlag = true;
4757	>	for(uint previousCutIndex = 0; previousCutIndex != currentCutIndex; previousCutIndex++){
4758	>	if(previousCumulativePlotFlag && individualFlags.at(inputType).at(previousCutIndex).at(counter).second) previousCumulativePlotFlag = true;
4759	>	else{ previousCumulativePlotFlag = false; break;}
4760	>	}
4761	>	previousCumulativePlotFlag = previousCumulativePlotFlag && plotDecision;
4762	>
4763	>	// Get the index for the flags of each of the single objects in the pair.  Usually this is the index of the previous cut, i.e., currentCutIndex-1.
4764	>	int cutIdxFlagsObj1 = max(int(currentCutIndex-1),0);
4765	>	int cutIdxFlagsObj2 = max(int(currentCutIndex-1),0);
4766	>	// If the inputCollection of the cut is not equal to the inputType but the inputCollection includes objects that are contained in inputType, then use the currentCutIndex for those collections.
4767	>	// For example, if the inputType is jet-jet pairs, and the inputCollection is track-jet pairs, then use currentCutIndex for cutIdxFlagsObj{1,2}, i.e., for both jets.
4768	>	// For example, if the inputType is jets, and the inputCollection is track-jet pairs, then use currentCutIndex for cutIdxFlagsObj2 (jets) and currentCutIndex-1 for cutIdxFlagsObj1 (tracks).
4769	>	if (currentCut.inputCollection != inputType) {
4770	>	if (currentCut.inputCollection.find(obj1Type)!=string::npos) cutIdxFlagsObj1 = currentCutIndex;
4771	>	if (currentCut.inputCollection.find(obj2Type)!=string::npos) cutIdxFlagsObj2 = currentCutIndex;
4772	>	}
4773	>	flagPair flags1 = cumulativeFlags.at(obj1Type).at(cutIdxFlagsObj1);  // flag for input collection 1
4774	>	flagPair flags2 = cumulativeFlags.at(obj2Type).at(cutIdxFlagsObj2);  // flag for input collection 2
4775	>
4776	>	// The cumulative flag is only true if the paired object cumulative flag is true, and if the single object cumulative flags are true.
4777	>	bool currentCumulativeCutFlag = true;
4778	>	bool currentCumulativePlotFlag = true;
4779	>	if(flags1.size() == 0 && flags2.size() == 0) currentCumulativeCutFlag = previousCumulativeCutFlag;
4780	>	else if(flags1.size() == 0) currentCumulativeCutFlag = previousCumulativeCutFlag && flags2.at(object2).first;
4781	>	else if(flags2.size() == 0) currentCumulativeCutFlag = previousCumulativeCutFlag && flags1.at(object1).first;
4782	>	else currentCumulativeCutFlag = previousCumulativeCutFlag && flags1.at(object1).first && flags2.at(object2).first;
4783	>
4784	>	if(flags1.size() == 0 && flags2.size() == 0) currentCumulativePlotFlag = previousCumulativePlotFlag;
4785	>	else if(flags1.size() == 0) currentCumulativePlotFlag = previousCumulativePlotFlag && flags2.at(object2).second;
4786	>	else if(flags2.size() == 0) currentCumulativePlotFlag = previousCumulativePlotFlag && flags1.at(object1).second;
4787	>	else currentCumulativePlotFlag = previousCumulativePlotFlag && flags1.at(object1).first && flags2.at(object2).second;
4788	>
4789	>	cumulativeFlags.at(inputType).at(currentCutIndex).push_back(make_pair(currentCumulativeCutFlag,currentCumulativePlotFlag));  // Set the flag for the paired object
4790	>
4791	>
4792	>	if (currentCumulativeCutFlag && currentCut.inputCollection == inputType) {  // Set the flags for the individual objects if the paired object is being cut on.
4793	>	cumulativeFlags.at(obj1Type).at(currentCutIndex).at(object1).first  = true && getPreviousCumulativeFlags(currentCutIndex, individualFlags, obj1Type, object1, "cut");
4794	>	cumulativeFlags.at(obj2Type).at(currentCutIndex).at(object2).first  = true && getPreviousCumulativeFlags(currentCutIndex, individualFlags, obj2Type, object2, "cut");
4795	>	cumulativeFlags.at(obj1Type).at(currentCutIndex).at(object1).second = true && getPreviousCumulativeFlags(currentCutIndex, individualFlags, obj1Type, object1, "plot");
4796	>	cumulativeFlags.at(obj2Type).at(currentCutIndex).at(object2).second = true && getPreviousCumulativeFlags(currentCutIndex, individualFlags, obj2Type, object2, "plot");
4797	>
4798	>	if (verbose_>1) clog << " previousCumulativeCutFlag for object1 = " << getPreviousCumulativeFlags(currentCutIndex, individualFlags, obj2Type, object1, "cut") << endl;
4799	>	if (verbose_>1) clog << " previousCumulativeCutFlag for object2 = " << getPreviousCumulativeFlags(currentCutIndex, individualFlags, obj2Type, object2, "cut") << endl;
4800	>
4801	>	}
4802	>
4803	>	counter++;
4804	>
4805	>	} // end   for (uint object2 = 0; object2 != inputCollection2->size(); object2++)
4806	>	}  // end   for (uint object1 = 0; object1 != inputCollection1->size(); object1++)
4807	>
4808	>	} // end void OSUAnalysis::setObjectFlags
4809	>
4810	>
4811	>	bool OSUAnalysis::getPreviousCumulativeFlags(uint currentCutIndex, flagMap &individualFlags, string obj1Type, uint object1, string flagType) {
4812	>	// Return true iff for the collection obj1Type, the element with index object1 has individal flags set to true for
4813	>	// all cuts up to currentCutIndex
4814	>	bool previousCumulativeFlag = true;
4815	>	for (uint previousCutIndex = 0; previousCutIndex < currentCutIndex; previousCutIndex++) {
4816	>	bool tempFlag = false;
4817	>	if(flagType == "cut") tempFlag = individualFlags.at(obj1Type).at(previousCutIndex).at(object1).first;
4818	>	else if(flagType == "plot") tempFlag = individualFlags.at(obj1Type).at(previousCutIndex).at(object1).second;
4819	>
4820	>	if (previousCumulativeFlag && tempFlag) previousCumulativeFlag = true;
4821	>	else {
4822	>	previousCumulativeFlag = false; break;
4823	>	}
4824	>	}
4825	>	return previousCumulativeFlag;
4826		}
4827
4828
4829
4830
4831	+	template <class InputCollection>
4832	+	void OSUAnalysis::assignTreeBranch(BranchSpecs parameters, InputCollection inputCollection, flagPair flags){
4833	+	// This function is similar to fill1DHistogram(), but instead of filling a histogram it assigns a value to a variable for the BNTree
4834	+
4835	+	if (BNTreeBranchVals_.count(parameters.name)==0) clog << "Error[assignTreeBranch]:  trying to assign value to " << parameters.name << " that does not have a branch set up.  Will likely seg fault." << endl;
4836	+	for (uint object = 0; object != inputCollection->size(); object++) {
4837	+
4838	+	if (!plotAllObjectsInPassingEvents_ && !flags.at(object).second) continue;
4839	+
4840	+	string inputVariable = parameters.inputVariable;
4841	+	string function = "";
4842	+	string stringValue = "";
4843	+	double value = valueLookup(&inputCollection->at(object), inputVariable, function, stringValue);
4844	+	BNTreeBranchVals_.at(parameters.name).push_back(value);
4845
4846	<	DEFINE_FWK_MODULE(OSUAnalysis);
4846	>	}
4847	>	}
4848	>
4849	>
4850	>	template <class InputCollection>
4851	>	void OSUAnalysis::fill1DHistogram(TH1* histo, histogram parameters, InputCollection inputCollection, flagPair flags, double scaleFactor){
4852
4853	+	if (verbose_>2) clog << "  Filling histogram for " << parameters.name << endl;
4854
4855	+	for (uint object = 0; object != inputCollection->size(); object++){
4856	+
4857	+	if(!plotAllObjectsInPassingEvents_ && !flags.at(object).second) continue;
4858	+
4859	+	string currentString = parameters.inputVariables.at(0);
4860	+	string inputVariable = "";
4861	+	string function = "";
4862	+	if(currentString.find("(")==string::npos){
4863	+	inputVariable = currentString;// variable to cut on
4864	+	}
4865	+	else{
4866	+	function = currentString.substr(0,currentString.find("("));//function comes before the "("
4867	+	inputVariable = currentString.substr(currentString.find("(")+1);//get rest of string
4868	+	inputVariable = inputVariable.substr(0,inputVariable.size()-1);//remove trailing ")"
4869	+	}
4870	+
4871	+	string stringValue = "";
4872	+	double value = valueLookup(&inputCollection->at(object), inputVariable, function, stringValue);
4873	+	histo->Fill(value,scaleFactor);
4874	+
4875	+	if (printEventInfo_) {
4876	+	// Write information about event to screen, for testing purposes.
4877	+	clog << "  Info for event:  value for histogram " << histo->GetName() << ":  " << value << " (object number " << object << ")" << endl;
4878	+	}
4879	+
4880	+	}
4881	+	}
4882	+
4883	+	template <class InputCollection1, class InputCollection2>
4884	+	void OSUAnalysis::fill1DHistogram(TH1* histo, histogram parameters, InputCollection1 inputCollection1, InputCollection2 inputCollection2,
4885	+	flagPair pairFlags, double scaleFactor){
4886	+
4887	+	bool sameObjects = false;
4888	+	if(typeid(InputCollection1).name() == typeid(InputCollection2).name()) sameObjects = true;
4889	+
4890	+	int pairCounter = -1;
4891	+	for (uint object1 = 0; object1 != inputCollection1->size(); object1++){
4892	+	for (uint object2 = 0; object2 != inputCollection2->size(); object2++){
4893	+
4894	+	if(sameObjects && object1 >= object2) continue;//account for duplicate pairs if both collections are the same
4895	+
4896	+	pairCounter++;
4897	+	if(!plotAllObjectsInPassingEvents_ && !pairFlags.at(pairCounter).second) continue;
4898	+
4899	+	string currentString = parameters.inputVariables.at(0);
4900	+	string inputVariable = "";
4901	+	string function = "";
4902	+	if(currentString.find("(")==string::npos){
4903	+	inputVariable = currentString;// variable to cut on
4904	+	}
4905	+	else{
4906	+	function = currentString.substr(0,currentString.find("("));//function comes before the "("
4907	+	inputVariable = currentString.substr(currentString.find("(")+1);//get rest of string
4908	+	inputVariable = inputVariable.substr(0,inputVariable.size()-1);//remove trailing ")"
4909	+	}
4910	+
4911	+	string stringValue = "";
4912	+	double value = valueLookup(&inputCollection1->at(object1), &inputCollection2->at(object2), inputVariable, function, stringValue);
4913	+	histo->Fill(value,scaleFactor);
4914	+
4915	+	if (printEventInfo_) {
4916	+	// Write information about event to screen, for testing purposes.
4917	+	clog << "  Info for event:  value for histogram " << histo->GetName() << ":  " << value
4918	+	<< " (object1 number " << object1 << "), "
4919	+	<< " (object2 number " << object2 << ")"
4920	+	<< endl;
4921	+	}
4922	+
4923	+	}
4924	+	}
4925	+
4926	+	}
4927	+
4928	+
4929	+	template <class InputCollection>
4930	+	void OSUAnalysis::fill2DHistogram(TH2* histo, histogram parameters, InputCollection inputCollection, flagPair flags, double scaleFactor){
4931	+
4932	+	for (uint object = 0; object != inputCollection->size(); object++){
4933	+
4934	+	if(!plotAllObjectsInPassingEvents_ && !flags.at(object).second) continue;
4935	+
4936	+	string stringValue = "";
4937	+	string currentString = parameters.inputVariables.at(0);
4938	+	string inputVariable = "";
4939	+	string function = "";
4940	+	if(currentString.find("(")==string::npos){
4941	+	inputVariable = currentString;// variable to cut on
4942	+	}
4943	+	else{
4944	+	function = currentString.substr(0,currentString.find("("));//function comes before the "("
4945	+	inputVariable = currentString.substr(currentString.find("(")+1);//get rest of string
4946	+	inputVariable = inputVariable.substr(0,inputVariable.size()-1);//remove trailing ")"
4947	+	}
4948	+	double valueX = valueLookup(&inputCollection->at(object), inputVariable, function, stringValue);
4949	+
4950	+	currentString = parameters.inputVariables.at(1);
4951	+	inputVariable = "";
4952	+	function = "";
4953	+	if(currentString.find("(")==string::npos){
4954	+	inputVariable = currentString;// variable to cut on
4955	+	}
4956	+	else{
4957	+	function = currentString.substr(0,currentString.find("("));//function comes before the "("
4958	+	inputVariable = currentString.substr(currentString.find("(")+1);//get rest of string
4959	+	inputVariable = inputVariable.substr(0,inputVariable.size()-1);//remove trailing ")"
4960	+	}
4961	+
4962	+	double valueY = valueLookup(&inputCollection->at(object), inputVariable, function, stringValue);
4963	+
4964	+	histo->Fill(valueX,valueY,scaleFactor);
4965	+
4966	+	}
4967	+
4968	+	}
4969	+
4970	+	template <class InputCollection1, class InputCollection2>
4971	+	void OSUAnalysis::fill2DHistogram(TH2* histo, histogram parameters, InputCollection1 inputCollection1, InputCollection2 inputCollection2,
4972	+	flagPair pairFlags, double scaleFactor){
4973	+
4974	+	bool sameObjects = false;
4975	+	if(typeid(InputCollection1).name() == typeid(InputCollection2).name()) sameObjects = true;
4976	+
4977	+	int pairCounter = -1;
4978	+	for (uint object1 = 0; object1 != inputCollection1->size(); object1++){
4979	+	for (uint object2 = 0; object2 != inputCollection2->size(); object2++){
4980	+
4981	+	if(sameObjects && object1 >= object2) continue;//account for duplicate pairs if both collections are the same
4982	+
4983	+	pairCounter++;
4984	+
4985	+	if(!plotAllObjectsInPassingEvents_ && !pairFlags.at(pairCounter).second) continue;
4986	+
4987	+	string stringValue = "";
4988	+	string currentString = parameters.inputVariables.at(0);
4989	+	string inputVariable = "";
4990	+	string function = "";
4991	+	if(currentString.find("(")==string::npos){
4992	+	inputVariable = currentString;// variable to cut on
4993	+	}
4994	+	else{
4995	+	function = currentString.substr(0,currentString.find("("));//function comes before the "("
4996	+	inputVariable = currentString.substr(currentString.find("(")+1);//get rest of string
4997	+	inputVariable = inputVariable.substr(0,inputVariable.size()-1);//remove trailing ")"
4998	+	}
4999	+	double valueX = valueLookup(&inputCollection1->at(object1), &inputCollection2->at(object2), inputVariable, function, stringValue);
5000	+
5001	+	currentString = parameters.inputVariables.at(1);
5002	+	inputVariable = "";
5003	+	function = "";
5004	+	if(currentString.find("(")==string::npos){
5005	+	inputVariable = currentString;// variable to cut on
5006	+	}
5007	+	else{
5008	+	function = currentString.substr(0,currentString.find("("));//function comes before the "("
5009	+	inputVariable = currentString.substr(currentString.find("(")+1);//get rest of string
5010	+	inputVariable = inputVariable.substr(0,inputVariable.size()-1);//remove trailing ")"
5011	+	}
5012	+	double valueY = valueLookup(&inputCollection1->at(object1), &inputCollection2->at(object2), inputVariable, function, stringValue);
5013	+
5014	+
5015	+	histo->Fill(valueX,valueY,scaleFactor);
5016	+
5017	+	}
5018	+	}
5019	+
5020	+	}
5021	+
5022	+
5023	+	template <class InputObject>
5024	+	int OSUAnalysis::getGenMatchedParticleIndex(InputObject object){
5025	+
5026	+	int bestMatchIndex = -1;
5027	+	double bestMatchDeltaR = 999;
5028	+
5029	+	for(BNmcparticleCollection::const_iterator mcparticle = mcparticles->begin (); mcparticle != mcparticles->end (); mcparticle++){
5030	+
5031	+	double currentDeltaR = deltaR(object->eta,object->phi,mcparticle->eta,mcparticle->phi);
5032	+	if(currentDeltaR > 0.05) continue;
5033	+	//     clog << setprecision(3) << setw(20)
5034	+	//          << "\tcurrentParticle:  eta = " << mcparticles->at(mcparticle - mcparticles->begin()).eta
5035	+	//          << setw(20)
5036	+	//          << "\tphi = " << mcparticles->at(mcparticle - mcparticles->begin()).phi
5037	+	//          << setw(20)
5038	+	//          << "\tdeltaR = " << currentDeltaR
5039	+	//          << setprecision(1)
5040	+	//          << setw(20)
5041	+	//          << "\tid = " << mcparticles->at(mcparticle - mcparticles->begin()).id
5042	+	//          << setw(20)
5043	+	//          << "\tmotherId = " << mcparticles->at(mcparticle - mcparticles->begin()).motherId
5044	+	//          << setw(20)
5045	+	//          << "\tstatus = " << mcparticles->at(mcparticle - mcparticles->begin()).status<< endl;
5046	+	if(currentDeltaR < bestMatchDeltaR && mcparticles->at(mcparticle - mcparticles->begin()).id != mcparticles->at(mcparticle - mcparticles->begin()).motherId){
5047	+	bestMatchIndex = mcparticle - mcparticles->begin();
5048	+	bestMatchDeltaR = currentDeltaR;
5049	+	}
5050	+
5051	+	}
5052	+	//   if(bestMatchDeltaR != 999)  clog << "bestMatch:  deltaR = " << bestMatchDeltaR << "   id = " << mcparticles->at(bestMatchIndex).id << "   motherId = " << mcparticles->at(bestMatchIndex).motherId << endl;
5053	+	//   else clog << "no match found..." << endl;
5054	+	return bestMatchIndex;
5055	+
5056	+	}
5057	+
5058	+
5059	+	int OSUAnalysis::findTauMotherIndex(const BNmcparticle* tau){
5060	+
5061	+	int bestMatchIndex = -1;
5062	+	double bestMatchDeltaR = 999;
5063	+
5064	+	for(BNmcparticleCollection::const_iterator mcparticle = mcparticles->begin (); mcparticle != mcparticles->end (); mcparticle++){
5065	+
5066	+	if(fabs(mcparticle->id) != 15 || mcparticle->status !=3) continue;
5067	+
5068	+	double currentDeltaR = deltaR(tau->eta,tau->phi,mcparticle->eta,mcparticle->phi);
5069	+	if(currentDeltaR > 0.05) continue;
5070	+
5071	+	if(currentDeltaR < bestMatchDeltaR && mcparticles->at(mcparticle - mcparticles->begin()).id != mcparticles->at(mcparticle - mcparticles->begin()).motherId){
5072	+	bestMatchIndex = mcparticle - mcparticles->begin();
5073	+	bestMatchDeltaR = currentDeltaR;
5074	+	}
5075	+
5076	+	}
5077	+
5078	+	return bestMatchIndex;
5079	+	}
5080	+
5081	+
5082	+	// bin      particle type
5083	+	// ---      -------------
5084	+	//  0        unmatched
5085	+	//  1        u
5086	+	//  2        d
5087	+	//  3        s
5088	+	//  4        c
5089	+	//  5        b
5090	+	//  6        t
5091	+	//  7        e
5092	+	//  8        mu
5093	+	//  9        tau
5094	+	// 10        nu
5095	+	// 11        g
5096	+	// 12        gamma
5097	+	// 13        Z
5098	+	// 14        W
5099	+	// 15        light meson
5100	+	// 16        K meson
5101	+	// 17        D meson
5102	+	// 18        B meson
5103	+	// 19        light baryon
5104	+	// 20        strange baryon
5105	+	// 21        charm baryon
5106	+	// 22        bottom baryon
5107	+	// 23        QCD string
5108	+	// 24        other
5109	+
5110	+	int OSUAnalysis::getPdgIdBinValue(int pdgId){
5111	+
5112	+	int binValue = -999;
5113	+	int absPdgId = fabs(pdgId);
5114	+	if(pdgId == -1) binValue = 0;
5115	+	else if(absPdgId <= 6 ) binValue = absPdgId;
5116	+	else if(absPdgId == 11 ) binValue = 7;
5117	+	else if(absPdgId == 13 ) binValue = 8;
5118	+	else if(absPdgId == 15 ) binValue = 9;
5119	+	else if(absPdgId == 12 || absPdgId == 14 || absPdgId == 16 ) binValue = 10;
5120	+	else if(absPdgId == 21 ) binValue = 11;
5121	+	else if(absPdgId == 22 ) binValue = 12;
5122	+	else if(absPdgId == 23 ) binValue = 13;
5123	+	else if(absPdgId == 24 ) binValue = 14;
5124	+	else if(absPdgId > 100 && absPdgId < 300 && absPdgId != 130  ) binValue = 15;
5125	+	else if( absPdgId == 130 || (absPdgId > 300 && absPdgId < 400)  ) binValue = 16;
5126	+	else if(absPdgId > 400 && absPdgId < 500  ) binValue = 17;
5127	+	else if(absPdgId > 500 && absPdgId < 600  ) binValue = 18;
5128	+	else if(absPdgId > 1000 && absPdgId < 3000  ) binValue = 19;
5129	+	else if(absPdgId > 3000 && absPdgId < 4000  ) binValue = 20;
5130	+	else if(absPdgId > 4000 && absPdgId < 5000  ) binValue = 21;
5131	+	else if(absPdgId > 5000 && absPdgId < 6000  ) binValue = 22;
5132	+	else if(absPdgId == 92  ) binValue = 23;
5133	+
5134	+	else binValue = 24;
5135	+
5136	+	return binValue;
5137	+
5138	+	}
5139	+
5140	+	const BNprimaryvertex *
5141	+	OSUAnalysis::chosenVertex ()
5142	+	{
5143	+	const BNprimaryvertex *chosenVertex = 0;
5144	+	if(cumulativeFlags.find ("primaryvertexs") != cumulativeFlags.end ()){
5145	+	flagPair vertexFlags;
5146	+	for (int i = cumulativeFlags.at("primaryvertexs").size() - 1; i >= 0; i--){
5147	+	if (cumulativeFlags.at("primaryvertexs").at(i).size()){
5148	+	vertexFlags = cumulativeFlags.at("primaryvertexs").at(i);
5149	+	break;
5150	+	}
5151	+	}
5152	+	for (uint vertexIndex = 0; vertexIndex != vertexFlags.size(); vertexIndex++){
5153	+	if(!vertexFlags.at(vertexIndex).first) continue;
5154	+	chosenVertex = & primaryvertexs->at(vertexIndex);
5155	+	break;
5156	+	}
5157	+	}
5158	+	else if (find (objectsToGet.begin (), objectsToGet.end (), "primaryvertexs") != objectsToGet.end ())
5159	+	chosenVertex = & primaryvertexs->at (0);
5160	+
5161	+	return chosenVertex;
5162	+	}
5163	+
5164	+	const BNmet *
5165	+	OSUAnalysis::chosenMET ()
5166	+	{
5167	+	const BNmet *chosenMET = 0;
5168	+	if(cumulativeFlags.find ("mets") != cumulativeFlags.end ()){
5169	+	flagPair metFlags;
5170	+	for (int i = cumulativeFlags.at("mets").size() - 1; i >= 0; i--){
5171	+	if (cumulativeFlags.at("mets").at(i).size()){
5172	+	metFlags = cumulativeFlags.at("mets").at(i);
5173	+	break;
5174	+	}
5175	+	}
5176	+	for (uint metIndex = 0; metIndex != metFlags.size(); metIndex++){
5177	+	if(!metFlags.at(metIndex).first) continue;
5178	+	chosenMET = & mets->at(metIndex);
5179	+	break;
5180	+	}
5181	+	}
5182	+	else if (find (objectsToGet.begin (), objectsToGet.end (), "mets") != objectsToGet.end ())
5183	+	chosenMET = & mets->at (0);
5184	+
5185	+	return chosenMET;
5186	+	}
5187	+
5188	+	const BNelectron *
5189	+	OSUAnalysis::chosenElectron ()
5190	+	{
5191	+	const BNelectron *chosenElectron = 0;
5192	+	if(cumulativeFlags.find ("electrons") != cumulativeFlags.end ()){
5193	+	flagPair electronFlags;
5194	+	for (int i = cumulativeFlags.at("electrons").size() - 1; i >= 0; i--){
5195	+	if (cumulativeFlags.at("electrons").at(i).size()){
5196	+	electronFlags = cumulativeFlags.at("electrons").at(i);
5197	+	break;
5198	+	}
5199	+	}
5200	+	for (uint electronIndex = 0; electronIndex != electronFlags.size(); electronIndex++){
5201	+	if(!electronFlags.at(electronIndex).first) continue;
5202	+	chosenElectron = & electrons->at(electronIndex);
5203	+	break;
5204	+	}
5205	+	}
5206	+	else if (find (objectsToGet.begin (), objectsToGet.end (), "electrons") != objectsToGet.end ())
5207	+	chosenElectron = & electrons->at (0);
5208	+
5209	+	return chosenElectron;
5210	+	}
5211	+
5212	+
5213	+	const BNmuon *
5214	+	OSUAnalysis::chosenMuon ()
5215	+	{
5216	+	const BNmuon *chosenMuon = 0;
5217	+	if(cumulativeFlags.find ("muons") != cumulativeFlags.end ()){
5218	+	flagPair muonFlags;
5219	+	for (int i = cumulativeFlags.at("muons").size() - 1; i >= 0; i--){
5220	+	if (cumulativeFlags.at("muons").at(i).size()){
5221	+	muonFlags = cumulativeFlags.at("muons").at(i);
5222	+	break;
5223	+	}
5224	+	}
5225	+	for (uint muonIndex = 0; muonIndex != muonFlags.size(); muonIndex++){
5226	+	if(!muonFlags.at(muonIndex).first) continue;
5227	+	chosenMuon = & muons->at(muonIndex);
5228	+	break;
5229	+	}
5230	+	}
5231	+	else if (find (objectsToGet.begin (), objectsToGet.end (), "muons") != objectsToGet.end ())
5232	+	chosenMuon = & muons->at (0);
5233	+
5234	+	return chosenMuon;
5235	+	}
5236	+
5237	+	double
5238	+	OSUAnalysis::chosenHT ()
5239	+	{
5240	+	double chosenHT = 0.0;
5241	+	if(cumulativeFlags.find ("jets") != cumulativeFlags.end ()){
5242	+	flagPair jetFlags;
5243	+	for (int i = cumulativeFlags.at("jets").size() - 1; i >= 0; i--){
5244	+	if (cumulativeFlags.at("jets").at(i).size()){
5245	+	jetFlags = cumulativeFlags.at("jets").at(i);
5246	+	break;
5247	+	}
5248	+	}
5249	+	for (uint jetIndex = 0; jetIndex != jetFlags.size(); jetIndex++){
5250	+	if(!jetFlags.at(jetIndex).first) continue;
5251	+	chosenHT += jets->at(jetIndex).pt;
5252	+	}
5253	+	}
5254	+
5255	+	return chosenHT;
5256	+	}
5257	+
5258	+	pair<const BNmuon *, const BNmuon *>
5259	+	OSUAnalysis::leadMuonPair ()
5260	+	{
5261	+	pair<const BNmuon *, const BNmuon *> leadMuonPair;
5262	+	leadMuonPair.first = leadMuonPair.second = 0;
5263	+
5264	+	if(cumulativeFlags.find ("muons") != cumulativeFlags.end ()){
5265	+	flagPair muonFlags;
5266	+	for (int i = cumulativeFlags.at("muons").size() - 1; i >= 0; i--){
5267	+	if (cumulativeFlags.at("muons").at(i).size()){
5268	+	muonFlags = cumulativeFlags.at("muons").at(i);
5269	+	break;
5270	+	}
5271	+	}
5272	+	for (uint muonIndex0 = 0; muonIndex0 != muonFlags.size(); muonIndex0++){
5273	+	if(!muonFlags.at(muonIndex0).first) continue;
5274	+	for (uint muonIndex1 = muonIndex0 + 1; muonIndex1 < muonFlags.size(); muonIndex1++){
5275	+	if(!muonFlags.at(muonIndex1).first) continue;
5276	+	const BNmuon *mu0 = & muons->at(muonIndex0);
5277	+	const BNmuon *mu1 = & muons->at(muonIndex1);
5278	+	if(leadMuonPair.first == 0 || leadMuonPair.second == 0){
5279	+	leadMuonPair.first = mu0;
5280	+	leadMuonPair.second = mu1;
5281	+	}
5282	+	else{
5283	+	TVector2 newPt0 (mu0->px, mu0->py),
5284	+	newPt1 (mu1->px, mu1->py),
5285	+	oldPt0 (leadMuonPair.first->px, leadMuonPair.first->py),
5286	+	oldPt1 (leadMuonPair.second->px, leadMuonPair.second->py);
5287	+	if(newPt0.Mod () + newPt1.Mod () > oldPt0.Mod() + oldPt1.Mod ())
5288	+	{
5289	+	leadMuonPair.first = mu0;
5290	+	leadMuonPair.second = mu1;
5291	+	}
5292	+	}
5293	+	}
5294	+	}
5295	+	}
5296	+
5297	+	return leadMuonPair;
5298	+	}
5299	+
5300	+	pair<const BNelectron *, const BNelectron *>
5301	+	OSUAnalysis::leadElectronPair ()
5302	+	{
5303	+	pair<const BNelectron *, const BNelectron *> leadElectronPair;
5304	+	leadElectronPair.first = leadElectronPair.second = 0;
5305	+	if(cumulativeFlags.find ("electrons") != cumulativeFlags.end ()){
5306	+	flagPair electronFlags;
5307	+	for (int i = cumulativeFlags.at("electrons").size() - 1; i >= 0; i--){
5308	+	if (cumulativeFlags.at("electrons").at(i).size()){
5309	+	electronFlags = cumulativeFlags.at("electrons").at(i);
5310	+	break;
5311	+	}
5312	+	}
5313	+	for (uint electronIndex0 = 0; electronIndex0 != electronFlags.size(); electronIndex0++){
5314	+	if(!electronFlags.at(electronIndex0).first) continue;
5315	+	for (uint electronIndex1 = electronIndex0 + 1; electronIndex1 < electronFlags.size(); electronIndex1++){
5316	+	if(!electronFlags.at(electronIndex1).first) continue;
5317	+	const BNelectron *el0 = & electrons->at(electronIndex0);
5318	+	const BNelectron *el1 = & electrons->at(electronIndex1);
5319	+	if(leadElectronPair.first == 0 || leadElectronPair.second == 0){
5320	+	leadElectronPair.first = el0;
5321	+	leadElectronPair.second = el1;
5322	+	}
5323	+	else{
5324	+	TVector2 newPt0 (el0->px, el0->py),
5325	+	newPt1 (el1->px, el1->py),
5326	+	oldPt0 (leadElectronPair.first->px, leadElectronPair.first->py),
5327	+	oldPt1 (leadElectronPair.second->px, leadElectronPair.second->py);
5328	+	if(newPt0.Mod () + newPt1.Mod () > oldPt0.Mod() + oldPt1.Mod ())
5329	+	{
5330	+	leadElectronPair.first = el0;
5331	+	leadElectronPair.second = el1;
5332	+	}
5333	+	}
5334	+	}
5335	+	}
5336	+	}
5337	+
5338	+	return leadElectronPair;
5339	+	}
5340	+
5341	+	DEFINE_FWK_MODULE(OSUAnalysis);

Diff Legend

–	Removed lines
+	Added lines
<	Changed lines
>	Changed lines