[ViewVC] Diff of: cvsroot/UserCode/cbrown/Development/Plotting/Modules/Plotting

Comparing UserCode/cbrown/Development/Plotting/Modules/Plotting_Functions.C (file contents):
Revision 1.32 by buchmann, Fri Jun 29 15:01:28 2012 UTC vs.
Revision 1.65 by buchmann, Thu Sep 13 09:44:16 2012 UTC

#	Line 33 \| Line 33 \| void todo() {
33
34
35
36	<	void find_one_peak_combination(TCut specialcut, float &MCPeak,float &MCPeakError, float &DataPeak, float &DataPeakError, float &MCSigma, float &DataSigma, stringstream &result, bool doPUreweighting = true, string saveas="")
36	>	void find_one_peak_combination(TCut specialcut, bool SwitchOffNJetsCut, float &MCPeak,float &MCPeakError, float &DataPeak, float &DataPeakError, float &MCSigma, float &MCSigmaError, float &DataSigma, float& DataSigmaError, stringstream &result, bool doPUreweighting = true, string saveas="")
37		{
38		// Temporarily switch off PU reweighting, if asked
39		TCut weightbackup=cutWeight;
#	Line 42 \| Line 42 \| void find_one_peak_combination(TCut spec
42		int nbins=100;
43		if(PlottingSetup::DoBTag) nbins=25;
44
45	+	TCut nJetsCut(cutnJets);
46	+	if(SwitchOffNJetsCut) nJetsCut=specialcut;
47	+
48		TCanvas *tempcan = new TCanvas("tempcan","Temporary canvas for peak finding preparations");
49	<	TH1F *rawJZBeemmMC = allsamples.Draw("rawJZBeemmMC",jzbvariablemc,nbins,-50,50, "JZB [GeV]", "events", cutmass&&cutOSSF&&cutnJets&&specialcut,mc, luminosity);
50	<	TH1F *rawJZBeemmData = allsamples.Draw("rawJZBeemmData",jzbvariabledata,nbins, -50,50, "JZB [GeV]", "events", cutmass&&cutOSSF&&cutnJets&&specialcut,data, luminosity);
51	<	TH1F *rawJZBemMC = allsamples.Draw("rawJZBemMC",jzbvariablemc,nbins,-50,50, "JZB [GeV]", "events", cutmass&&cutOSOF&&cutnJets&&specialcut,mc, luminosity);
52	<	TH1F *rawJZBemData = allsamples.Draw("rawJZBemData",jzbvariabledata,nbins, -50,50, "JZB [GeV]", "events", cutmass&&cutOSOF&&cutnJets&&specialcut,data, luminosity);
49	>	TH1F *rawJZBeemmMC = allsamples.Draw("rawJZBeemmMC",jzbvariablemc,nbins,-50,50, "JZB [GeV]", "events", cutmass&&cutOSSF&&nJetsCut&&specialcut,mc, luminosity);
50	>	TH1F *rawJZBeemmData = allsamples.Draw("rawJZBeemmData",jzbvariabledata,nbins, -50,50, "JZB [GeV]", "events", cutmass&&cutOSSF&&nJetsCut&&specialcut,data, luminosity);
51	>	TH1F *rawJZBemMC = allsamples.Draw("rawJZBemMC",jzbvariablemc,nbins,-50,50, "JZB [GeV]", "events", cutmass&&cutOSOF&&nJetsCut&&specialcut,mc, luminosity);
52	>	TH1F *rawJZBemData = allsamples.Draw("rawJZBemData",jzbvariabledata,nbins, -50,50, "JZB [GeV]", "events", cutmass&&cutOSOF&&nJetsCut&&specialcut,data, luminosity);
53		TH1F *rawttbarjzbeemmMC;
54
55		if(method==doKM) {
56		//we only need this histo for the KM fitting...
57	<	rawttbarjzbeemmMC = allsamples.Draw("rawttbarjzbeemmMC",jzbvariablemc,nbins, -50,50, "JZB [GeV]", "events",cutmass&&cutOSSF&&cutnJets&&specialcut,mc,luminosity,allsamples.FindSample("TTJet"));
58	<	MCPeak=find_peak(rawJZBeemmMC, rawttbarjzbeemmMC, -40, 40, mc, MCPeakError,MCSigma,method,saveas);
59	<	DataPeak=find_peak(rawJZBeemmData, rawJZBeemmData, -40, 40, data, DataPeakError,DataSigma,method,saveas);
57	>	rawttbarjzbeemmMC = allsamples.Draw("rawttbarjzbeemmMC",jzbvariablemc,nbins, -50,50, "JZB [GeV]", "events",cutmass&&cutOSSF&&nJetsCut&&specialcut,mc,luminosity,allsamples.FindSample("TTJet"));
58	>	MCPeak=find_peak(rawJZBeemmMC, rawttbarjzbeemmMC, -40, 40, mc, MCPeakError,MCSigma,MCSigmaError,method,saveas);
59	>	DataPeak=find_peak(rawJZBeemmData, rawJZBeemmData, -40, 40, data, DataPeakError,DataSigma,DataSigmaError,method,saveas);
60		delete rawttbarjzbeemmMC;
61		}
62		else {
#	Line 62 \| Line 65 \| void find_one_peak_combination(TCut spec
65		reducedMC->Add(rawJZBemMC,-1);
66		reducedData->Add(rawJZBemData,-1);
67		//this is Kostas' way of doing it - we subtract em to get rid of some of the ttbar contribution (in reality, of flavor-symmetric contribution)
68	<	MCPeak=find_peak(reducedMC, rawttbarjzbeemmMC, -40, 40, mc, MCPeakError,MCSigma,method,saveas);
69	<	DataPeak=find_peak(reducedData, rawJZBeemmData, -40, 40, data, DataPeakError,DataSigma,method,saveas);
68	>	MCPeak=find_peak(reducedMC, rawttbarjzbeemmMC, -40, 40, mc, MCPeakError,MCSigma,MCSigmaError,method,saveas);
69	>	DataPeak=find_peak(reducedData, rawJZBeemmData, -40, 40, data, DataPeakError,DataSigma,DataSigmaError,method,saveas);
70		delete reducedMC;
71		delete reducedData;
72		}
#	Line 73 \| Line 76 \| void find_one_peak_combination(TCut spec
76
77		// MCPeak=find_peak(rawJZBeemmMC, rawttbarjzbeemmMC, -40, 40, mc, MCPeakError,MCSigma,method);
78		// DataPeak=find_peak(rawJZBeemmData, rawJZBeemmData, -40, 40, data, DataPeakError,DataSigma,method);
79	<	dout << " We have found the peak in Data at " << DataPeak << " +/- " << DataPeakError << " with sigma=" << DataSigma << " +/- ?? (not impl.)" << endl;
80	<	result << " We have found the peak in Data at " << DataPeak << " +/- " << DataPeakError << " with sigma=" << DataSigma << " +/- ?? (not impl.)" << endl;
81	<	dout << " We have found the peak in MC at " << MCPeak << " +/- " << MCPeakError << " with sigma=" << MCSigma << " +/- ?? (not impl.)" << endl;
82	<	result << " We have found the peak in MC at " << MCPeak << " +/- " << MCPeakError << " with sigma=" << MCSigma << " +/- ?? (not impl.)" << endl;
79	>	dout << " We have found the peak in Data at " << DataPeak << " +/- " << DataPeakError << " with sigma=" << DataSigma << " +/- " << DataSigmaError << endl;
80	>	result << " We have found the peak in Data at " << DataPeak << " +/- " << DataPeakError << " with sigma=" << DataSigma << " +/- " << DataSigmaError << endl;
81	>	dout << " We have found the peak in MC at " << MCPeak << " +/- " << MCPeakError << " with sigma=" << MCSigma << " +/- " << MCSigmaError << endl;
82	>	result << " We have found the peak in MC at " << MCPeak << " +/- " << MCPeakError << " with sigma=" << MCSigma << " +/- " << MCSigmaError << endl;
83		delete rawJZBeemmData;
84		delete rawJZBeemmMC;
85		delete rawJZBemData;
#	Line 84 \| Line 87 \| void find_one_peak_combination(TCut spec
87		delete tempcan;
88		}
89
90	<	void find_peaks(float &MCPeak,float &MCPeakError, float &DataPeak, float &DataPeakError, stringstream &result, bool doPUreweighting, stringstream &datajzb, stringstream &mcjzb)
90	>	void find_peaks(float &MCPeak,float &MCPeakError, float &DataPeak, float &DataPeakError, stringstream &result, bool doPUreweighting, stringstream &datajzb, stringstream &mcjzb, string sSpecialCut="", bool SwitchOffNJetsCut=false)
91		{
92	+	switch_overunderflow(false);
93	+
94	+	TCut SpecialCut("mll>=0");
95	+	if(sSpecialCut!="") SpecialCut=TCut(sSpecialCut.c_str());
96
97		bool DoInvidualeemmPeaks=false;
98
#	Line 98 \| Line 105 \| void find_peaks(float &MCPeak,float &MCP
105		float datammpeak,dataeepeak;
106		float datammpeakerr,dataeepeakerr;
107
108	<	float mcSigma, dataSigma;
108	>	float mcSigma,mcSigmaError, dataSigma, dataSigmaError;
109
110		dout << "Finding global peak : " << endl;
111	<	find_one_peak_combination(TCut(""),mcpeak,mcpeakerr, datapeak,datapeakerr,mcSigma, dataSigma,result,doPUreweighting,"");
111	>	find_one_peak_combination(SpecialCut,SwitchOffNJetsCut,mcpeak,mcpeakerr, datapeak,datapeakerr,mcSigma,mcSigmaError, dataSigma,dataSigmaError,result,doPUreweighting,"");
112
113		if(DoInvidualeemmPeaks) {
114		dout << "Finding peak for electrons : " << endl;
115	<	find_one_peak_combination(TCut("id1==0"),mceepeak,mceepeakerr, dataeepeak,dataeepeakerr,mcSigma, dataSigma,result,doPUreweighting,"_ele");
115	>	find_one_peak_combination(SpecialCut&&TCut("id1==0"),SwitchOffNJetsCut,mceepeak,mceepeakerr,dataeepeak,dataeepeakerr,mcSigma,mcSigmaError,dataSigma,dataSigmaError,result,doPUreweighting,"_ele");
116		dout << "Finding peak for muons : " << endl;
117	<	find_one_peak_combination(TCut("id1==1"),mcmmpeak,mcmmpeakerr, datammpeak,datammpeakerr,mcSigma, dataSigma,result,doPUreweighting,"_mu");
117	>	find_one_peak_combination(SpecialCut&&TCut("id1==1"),SwitchOffNJetsCut,mcmmpeak,mcmmpeakerr,datammpeak,datammpeakerr,mcSigma,mcSigmaError,dataSigma,dataSigmaError,result,doPUreweighting,"_mu");
118
119		datajzb << "(" << jzbvariabledata;
120		mcjzb << "(" << jzbvariablemc;
#	Line 133 \| Line 140 \| void find_peaks(float &MCPeak,float &MCP
140		else mcjzb << "+ (id1!=id2)*" << TMath::Abs(mcpeak) << " ";
141
142		mcjzb << ")";
143	+
144		} else {
145		datajzb << "(" << jzbvariabledata;
146	<	mcjzb << "(" << jzbvariablemc;
146	>	mcjzb << "(" << jzbvariablemc;
147
148		if(datapeak>0) datajzb << "- " << TMath::Abs(datapeak) << " ";
149		else datajzb << "+ " << TMath::Abs(datapeak) << " ";
#	Line 147 \| Line 155 \| void find_peaks(float &MCPeak,float &MCP
155
156		mcjzb << ")";
157		}
150	–
158
159	+	MCPeak=mcpeak;
160	+	MCPeakError=mcpeakerr;
161	+	DataPeak=datapeak;
162	+	DataPeakError=datapeakerr;
163	+
164		}
165
166	<	void make_special_obs_pred_mll_plot(string mcjzb, float jzbthreshold) {
166	>	void make_special_obs_pred_mll_plot(string datajzb, string mcjzb, float jzbthreshold, float binWidth = 5.0) {
167		float min=70.0;
168		float max=115.0;
169		if(!PlottingSetup::RestrictToMassPeak) {
170	<	min=10;
171	<	max=150;
170	>	min=20;
171	>	max=300;
172		}
173	<	int nbins=int((max-min)/5);
173	>	int nbins=int((max-min)/binWidth);
174
175		TCanvas *ckin = new TCanvas("ckin","Kinematic Plots (in the making)",600,600);
176
177		stringstream largerzeroS;
178	<	largerzeroS << "(" << mcjzb << ">" << jzbthreshold << ")";
179	<	TCut largerzero(largerzeroS.str().c_str());
178	>	largerzeroS << "(" << datajzb << ">" << jzbthreshold << ")";
179	>	TCut largerzeroD(largerzeroS.str().c_str());
180
181		stringstream smallerzeroS;
182	<	smallerzeroS << "(" << mcjzb << "<-" << jzbthreshold << ")";
183	<	TCut smallerzero(smallerzeroS.str().c_str());
184	<
185	<	TH1F *RcorrJZBeemm = allsamples.Draw("RcorrJZBeemm", "mll",nbins,min,max, "m_{ll} [GeV]", "events", cutmass&&cutOSSF&&cutnJets,data,luminosity);
186	<	THStack mcRcorrJZBeemm = allsamples.DrawStack("mcRcorrJZBeemm","mll",nbins,min,max, "m_{ll} [GeV}", "events", cutmass&&cutOSSF&&cutnJets,mc,luminosity);
187	<	TH1F *LcorrJZBeemm = allsamples.Draw("LcorrJZBeemm", "mll",nbins,min,max, "m_{ll} [GeV]", "events", cutmass&&cutOSSF&&cutnJets,data,luminosity);
188	<	TH1F *RcorrJZBem = allsamples.Draw("RcorrJZBem", "mll",nbins,min,max, "m_{ll} [GeV]", "events", cutmass&&cutOSOF&&cutnJets,data,luminosity);
189	<	TH1F *LcorrJZBem = allsamples.Draw("LcorrJZBem", "mll",nbins,min,max, "m_{ll} [GeV]", "events", cutmass&&cutOSOF&&cutnJets,data,luminosity);
182	>	smallerzeroS << "(" << datajzb << "<-" << jzbthreshold << ")";
183	>	TCut smallerzeroD(smallerzeroS.str().c_str());
184	>
185	>
186	>	stringstream largerzeroMS;
187	>	largerzeroMS << "(" << mcjzb << ">" << jzbthreshold << ")";
188	>	TCut largerzeroM(largerzeroMS.str().c_str());
189	>
190	>	TH1F *RcorrJZBeemm = allsamples.Draw("RcorrJZBeemm", "mll",nbins,min,max, "m_{ll} [GeV]", "events", cutmass&&cutOSSF&&cutnJets&&largerzeroD,data,luminosity);
191	>	THStack mcRcorrJZBeemm = allsamples.DrawStack("mcRcorrJZBeemm","mll",nbins,min,max, "m_{ll} [GeV}", "events", cutmass&&cutOSSF&&cutnJets&&largerzeroM,mc,luminosity);
192	>	TH1F *LcorrJZBeemm = allsamples.Draw("LcorrJZBeemm", "mll",nbins,min,max, "m_{ll} [GeV]", "events", cutmass&&cutOSSF&&cutnJets&&smallerzeroD,data,luminosity);
193	>	TH1F *RcorrJZBem = allsamples.Draw("RcorrJZBem", "mll",nbins,min,max, "m_{ll} [GeV]", "events", cutmass&&cutOSOF&&cutnJets&&largerzeroD,data,luminosity);
194	>	TH1F *LcorrJZBem = allsamples.Draw("LcorrJZBem", "mll",nbins,min,max, "m_{ll} [GeV]", "events", cutmass&&cutOSOF&&cutnJets&&smallerzeroD,data,luminosity);
195
196		TH1F *RcorrJZBSBem;
197		TH1F *LcorrJZBSBem;
#	Line 183 \| Line 200 \| void make_special_obs_pred_mll_plot(stri
200
201		// TH1F *RcorrJZBeemmNoS;
202
203	<	if(PlottingSetup::RestrictToMassPeak) {
204	<	RcorrJZBSBem = allsamples.Draw("RcorrJZBSBem", "mll",nbins,min,max, "JZB [GeV]", "events", sidebandcut&&cutOSOF&&cutnJets,data, luminosity);
205	<	LcorrJZBSBem = allsamples.Draw("LcorrJZBSBem", "mll",nbins,min,max, "JZB [GeV]", "events", sidebandcut&&cutOSOF&&cutnJets,data, luminosity);
206	<	RcorrJZBSBeemm = allsamples.Draw("RcorrJZBSBeemm","mll",nbins,min,max, "JZB [GeV]", "events", sidebandcut&&cutOSSF&&cutnJets,data, luminosity);
207	<	LcorrJZBSBeemm = allsamples.Draw("LcorrJZBSBeemm","mll",nbins,min,max, "JZB [GeV]", "events", sidebandcut&&cutOSSF&&cutnJets,data, luminosity);
208	<	}
209	<
210	<	TH1F Bpred = (TH1F)LcorrJZBeemm->Clone("Bpred");
211	<	if(PlottingSetup::RestrictToMassPeak) {
212	<	Bpred->Add(RcorrJZBem,1.0/3.);
213	<	Bpred->Add(LcorrJZBem,-1.0/3.);
214	<	Bpred->Add(RcorrJZBSBem,1.0/3.);
215	<	Bpred->Add(LcorrJZBSBem,-1.0/3.);
216	<	Bpred->Add(RcorrJZBSBeemm,1.0/3.);
217	<	Bpred->Add(LcorrJZBSBeemm,-1.0/3.);
218	<	} else {
219	<	Bpred->Add(RcorrJZBem,1.0);
220	<	Bpred->Add(LcorrJZBem,-1.0);
221	<	}
222	<
203	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
204	>	RcorrJZBSBem = allsamples.Draw("RcorrJZBSBem", "mll",nbins,min,max, "JZB [GeV]", "events", sidebandcut&&cutOSOF&&cutnJets&&largerzeroD,data, luminosity);
205	>	LcorrJZBSBem = allsamples.Draw("LcorrJZBSBem", "mll",nbins,min,max, "JZB [GeV]", "events", sidebandcut&&cutOSOF&&cutnJets&&smallerzeroD,data, luminosity);
206	>	RcorrJZBSBeemm = allsamples.Draw("RcorrJZBSBeemm","mll",nbins,min,max, "JZB [GeV]", "events", sidebandcut&&cutOSSF&&cutnJets&&largerzeroD,data, luminosity);
207	>	LcorrJZBSBeemm = allsamples.Draw("LcorrJZBSBeemm","mll",nbins,min,max, "JZB [GeV]", "events", sidebandcut&&cutOSSF&&cutnJets&&smallerzeroD,data, luminosity);
208	>	}
209	>
210	>	// Separate predictions
211	>	TH1F* SFN = (TH1F*)LcorrJZBeemm->Clone("SFN");
212	>	TH1F* OFP = (TH1F*)RcorrJZBem->Clone("OFP");
213	>	TH1F* OFN = (TH1F*)LcorrJZBem->Clone("OFN");
214	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
215	>	OFP->Scale(1.0/3.0);
216	>	OFP->Add(RcorrJZBSBem,1.0/3.);
217	>	OFP->Add(RcorrJZBSBeemm,1.0/3.);
218	>	OFN->Scale(1.0/3.0);
219	>	OFN->Add(LcorrJZBSBem,1.0/3.);
220	>	OFN->Add(LcorrJZBSBeemm,1.0/3.);
221	>	}
222	>
223	>	TH1F* Bpred = (TH1F*)SFN->Clone("Bpred");
224	>	Bpred->Add(OFP);
225	>	Bpred->Add(OFN,-1);
226		Bpred->SetLineColor(kRed);
227
228	+	RcorrJZBeemm->SetTitleOffset(1.3,"y");
229		RcorrJZBeemm->Draw();
230		mcRcorrJZBeemm.Draw("same");
231		Bpred->Draw("histo,same");
#	Line 219 \| Line 240 \| void make_special_obs_pred_mll_plot(stri
240		stringstream saveas;
241		saveas << "kin/Mll_After_Cut/Cut_At" << jzbthreshold;
242		CompleteSave(ckin,saveas.str());
243	<
243	>
244	>	// Draw all predictions overlayed
245	>	unsigned int w = gStyle->GetHistLineWidth()+1; // Make line a bit wider, since we dash it
246	>	SFN->SetLineColor(kGreen+2);
247	>	SFN->SetLineStyle(2);
248	>	SFN->SetLineWidth(w);
249	>	OFP->SetLineColor(kBlue+2);
250	>	OFP->SetLineStyle(2);
251	>	OFP->SetLineWidth(w);
252	>	OFN->SetLineColor(kMagenta+2);
253	>	OFN->SetLineStyle(3);
254	>	OFN->SetLineWidth(w);
255	>
256	>	RcorrJZBeemm->Draw();
257	>	SFN->Draw("histo,same");
258	>	OFP->Draw("histo,same");
259	>	OFN->Draw("histo,same");
260	>	Bpred->Draw("histo,same");
261	>	RcorrJZBeemm->Draw("same");
262	>
263	>	TLegend *leg2 = make_legend("",0.52,0.7);
264	>	leg2->AddEntry(RcorrJZBeemm,"observed (data)","lp");
265	>	leg2->AddEntry(Bpred,"predicted (data)","l");
266	>	leg2->AddEntry(SFN, " SF JZB<0","l");
267	>	leg2->AddEntry(OFN, " OF JZB<0","l");
268	>	leg2->AddEntry(OFP, " OF JZB>0","l");
269	>	leg2->Draw("same");
270	>
271	>	saveas.str("");
272	>	saveas << "kin/Mll_After_Cut/Cut_At" << jzbthreshold << "_nomc";
273	>	CompleteSave(ckin,saveas.str());
274	>
275		delete RcorrJZBeemm;
276		delete LcorrJZBeemm;
277		delete RcorrJZBem;
278		delete LcorrJZBem;
279	<	if(PlottingSetup::RestrictToMassPeak) {
279	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
280		delete RcorrJZBSBeemm;
281		delete LcorrJZBSBeemm;
282		delete RcorrJZBSBem;
#	Line 318 \| Line 370 \| *void draw_ratio_plot(TH1 hdata, THStack**
370		oneline->Draw("same");
371		}
372
373	+	float make_one_OFSF_plot(string variable, string addcut, string legendTitle, int nbins, float min, float max, float ymax, bool logscale,
374	+	string xlabel, string filename, float legendPosition=0.55) {
375	+
376	+	TCut ibasiccut=basiccut;
377	+	bool draw_separation_lines=false;
378	+
379	+	if(addcut != "") ibasiccut = ibasiccut && addcut.c_str();
380	+
381	+	TCut cutSF;
382	+	TCut cutOF;
383	+
384	+	cutOF = cutOSOF&&cutnJets&&ibasiccut;
385	+	cutSF = cutOSSF&&cutnJets&&ibasiccut;
386	+
387	+	TCanvas *ckin = new TCanvas("ckin","Kinematic Plots (in the making)",600,600);
388	+	TPad* rcan = new TPad("rcan","rcan",0,0,1,1);
389	+	rcan->SetLogy(logscale);
390	+	rcan->cd();
391	+
392	+	std::cout << "OF/SF comparison: variable = " << variable << ", cut = " << cutSF.GetTitle() << std::endl;
393	+	TH1F *datahistoSF = allsamples.Draw("datahistoSF",variable,nbins,min,max, xlabel, "events",cutSF,data,luminosity);
394	+	TH1F *datahistoOF = allsamples.Draw("datahistoOF",variable,nbins,min,max, xlabel, "events",cutOF,data,luminosity);
395	+	// string signal("LM3");
396	+	// TH1F* signalhisto = new TH1F("signalhisto",signal.c_str(),nbins,min,max);
397	+	// int idx = signalsamples.FindSample(signal)[0];
398	+	// (signalsamples.collection)[idx].events->Project("signalhisto",variable.c_str(),cutSF);
399	+	// signalhisto->Scale((signalsamples.collection)[idx].weight*luminosity);
400	+	// signalhisto->SetLineColor((signalsamples.collection)[idx].samplecolor);
401	+	// signalhisto->SetLineStyle(2);
402	+	datahistoSF->SetMarkerSize(DataMarkerSize);
403	+	datahistoOF->SetLineColor(kRed);
404	+
405	+	if ( !logscale ) {
406	+	datahistoSF->SetMinimum(0); // Defaults
407	+	} else {
408	+	datahistoSF->SetMinimum(0.5);
409	+	}
410	+	if (ymax<0) {
411	+	if ( logscale ) datahistoSF->SetMaximum(5.3*datahistoSF->GetMaximum());
412	+	else datahistoSF->SetMaximum(1.5*datahistoSF->GetMaximum());
413	+	} else {
414	+	datahistoSF->SetMaximum(ymax);
415	+	}
416	+
417	+	float ymaxSet = datahistoSF->GetMaximum();
418	+
419	+	datahistoSF->GetXaxis()->SetTitle(xlabel.c_str());
420	+	datahistoSF->GetYaxis()->SetTitle("Events");
421	+	datahistoSF->GetXaxis()->CenterTitle();
422	+	datahistoSF->GetYaxis()->CenterTitle();
423	+
424	+	TLegend *mleg = make_legend(legendTitle.c_str(),legendPosition,0.7,false,legendPosition+0.2);
425	+	mleg->AddEntry(datahistoSF, "Same-flavor", "PL");
426	+	if (datahistoOF->Integral()>0) {
427	+	mleg->AddEntry(datahistoOF, "Opposite-flavor", "L");
428	+	} else {
429	+	mleg->AddEntry((TObject*)0, "", "");
430	+	}
431	+	//mleg->AddEntry(signalhisto, "LM3", "L");
432	+
433	+	datahistoSF->Draw("E1");
434	+	if (datahistoOF->Integral()>0) datahistoOF->Draw("HIST,SAMES");
435	+	//signalhisto->Draw("HIST,SAMES");
436	+	mleg->Draw();
437	+	DrawPrelim();
438	+	if (datahistoOF->Integral()>0) {
439	+	save_with_ratio( datahistoSF, datahistoOF, rcan, "SFOF/" + filename, false, false, "SF/OF" );
440	+	} else {
441	+	CompleteSave(rcan, "SFOF/" + filename);
442	+	delete rcan;
443	+	}
444	+
445	+	datahistoSF->Delete();
446	+	datahistoOF->Delete();
447	+	//signalhisto->Delete();
448	+	delete mleg;
449	+	delete ckin;
450	+
451	+	return ymaxSet;
452	+
453	+	}
454	+
455	+	// Compare data to data
456	+	float make_data_comparison_plot(string variable, TCut cut, int nbins, float min, float max, float ymax, bool logscale,
457	+	string xlabel, string filename, float legendPosition=0.55) {
458	+
459	+	TCut ibasiccut=basiccut&&cut;
460	+
461	+	TCanvas *ckin = new TCanvas("ckin","Kinematic Plots (in the making)",600,600);
462	+	TPad* rcan = new TPad("rcan","rcan",0,0,1,1);
463	+	rcan->SetLogy(logscale);
464	+	rcan->cd();
465	+
466	+	std::cout << "Data comparison: variable = " << variable << ", cut = " << ibasiccut.GetTitle() << std::endl;
467	+
468	+	TH1F *data1 = allsamples.Draw("data1",variable,nbins,min,max, xlabel, "events",ibasiccut,data,luminosity);
469	+	TH1F *data2 = comparesamples.Draw("data2",variable,nbins,min,max, xlabel, "events",ibasiccut,data,luminosity);
470	+
471	+	data1->SetMarkerSize(DataMarkerSize);
472	+	data2->SetLineColor(kRed);
473	+
474	+	if ( !logscale ) {
475	+	data1->SetMinimum(0); // Defaults
476	+	} else {
477	+	data1->SetMinimum(0.5);
478	+	}
479	+	if (ymax<0) {
480	+	if ( logscale ) data1->SetMaximum(5.3*data1->GetMaximum());
481	+	else data1->SetMaximum(1.5*data1->GetMaximum());
482	+	} else {
483	+	data1->SetMaximum(ymax);
484	+	}
485	+
486	+	float ymaxSet = data1->GetMaximum();
487	+
488	+	data1->GetXaxis()->SetTitle(xlabel.c_str());
489	+	data1->GetYaxis()->SetTitle("Events");
490	+	data1->GetXaxis()->CenterTitle();
491	+	data1->GetYaxis()->CenterTitle();
492	+
493	+	TLegend *mleg = make_legend("",legendPosition,0.7,false,legendPosition+0.2);
494	+	mleg->AddEntry(data1, "New 3.8/fb", "PL");
495	+	mleg->AddEntry(data2, "Old 5.1/fb", "L");
496	+
497	+	data1->Draw("E1");
498	+	data2->Draw("HIST,SAMES");
499	+	mleg->Draw();
500	+	DrawPrelim();
501	+	save_with_ratio( data1, data2, rcan, "compareData/" + filename, false, false, "old/new" );
502	+
503	+	data1->Delete();
504	+	data2->Delete();
505	+	delete mleg;
506	+	delete ckin;
507	+
508	+	}
509	+
510	+	void make_OFSF_plots(string variable, string addcut, int nbins, float min, float max, bool logscale,
511	+	string xlabel, string filename, float legendPosition=0.55) {
512	+
513	+	string mllcuts[] = { "mll>15","mll>15&&mll<70", "mll>75&&mll<105", "mll>120" };
514	+	string mllcutname[] = { "m_{ll} > 15 GeV", "15 < m_{ll} < 70 GeV", "70 < m_{ll} < 110 GeV", "m_{ll} > 120 GeV" };
515	+	string plotname[] = {"_all","_low","_peak","_high"};
516	+	float ymax;
517	+
518	+	int start = 0;
519	+	if ( !PlottingSetup::openBox ) start = 3;
520	+
521	+	for ( int i=start; i<4; ++i ) {
522	+	if ( addcut != "" ) mllcuts[i] += "&&"+addcut;
523	+	if ( i==start ) {
524	+	ymax = make_one_OFSF_plot(variable, mllcuts[i], mllcutname[i], nbins, min, max, -1, logscale, xlabel,
525	+	filename+plotname[i], legendPosition );
526	+	} else {
527	+	make_one_OFSF_plot(variable, mllcuts[i], mllcutname[i], nbins, min, max, ymax, logscale, xlabel,
528	+	filename+plotname[i], legendPosition );
529	+	}
530	+	make_one_OFSF_plot(variable, "id1==1&&id1==id2&&"+mllcuts[i], mllcutname[i], nbins, min, max, ymax, logscale, xlabel,
531	+	filename+plotname[i]+"_mm", legendPosition );
532	+	make_one_OFSF_plot(variable, "id1==0&&id1==id2&&"+mllcuts[i], mllcutname[i], nbins, min, max, ymax, logscale, xlabel,
533	+	filename+plotname[i]+"_ee", legendPosition );
534	+	}
535	+
536	+	}
537	+
538	+
539		float lastrange_min=0;
540		float lastrange_max=0;
541
#	Line 347 \| Line 565 \| void make_kin_plot(string variable, stri
565		//Step 2: Refine the cut
566		TCut cut;
567		cut=cutmass&&cutOSSF&&cutnJets&&ibasiccut;
568	<	if(filename=="nJets") cut=cutmass&&cutOSSF&&ibasiccut;
569	<	if(filename=="nJets_osof") cut=cutmass&&cutOSOF&&ibasiccut;
568	>	if(filename=="nJets" \|\| filename=="nJets_inclusive") cut=cutmass&&cutOSSF&&ibasiccut;
569	>	if(filename=="nJets_osof" \|\| filename=="nJets_osof_inclusive") cut=cutmass&&cutOSOF&&ibasiccut;
570		if(filename=="nJets_nocuts_except_mll_ossf") cut=cutmass&&cutOSSF;
571		if(filename=="mll") {
572		cut=cutOSSF&&cutnJets&&ibasiccut;
573		draw_separation_lines=true;
574		}
575		if(filename=="mll_ee") cut=cutOSSF&&cutnJets&&ibasiccut&&"id1==0";
576	+	if(filename=="mll_mm") cut=cutOSSF&&cutnJets&&ibasiccut&&"id1==1";
577		if(filename=="mll_osof") {
578		cut=cutOSOF&&cutnJets&&ibasiccut;
579		draw_separation_lines=true;
580		}
581	<	if(filename=="mll_mm") cut=cutOSSF&&cutnJets&&ibasiccut&&"id1==1";
582	<	if(Contains(filename,"mll_aboveJZB100")) cut=cutOSSF&&cutnJets&&ibasiccut;
581	>	if(Contains(filename,"aboveJZB")) cut=cutOSSF&&cutnJets&&ibasiccut;
582	>	if(Contains(filename,"mll_ee_above")) cut=cut&&"id1==0";
583	>	if(Contains(filename,"mll_mm_above")) cut=cut&&"id1==1";
584		if(Contains(filename,"mll_osof_aboveJZB")) cut=cutOSOF&&cutnJets&&ibasiccut;
585	<	if(filename=="mll_inclusive"\|\|filename=="mll_inclusive_highrange") cut=cutOSSF;
586	<	if(filename=="mll_inclusive_osof") cut=cutOSOF;
587	<	if(filename=="mll_inclusive_ee") cut=cutOSSF&&"id1==0";
588	<	if(filename=="mll_inclusive_mm") cut=cutOSSF&&"id1==1";
585	>	if(filename=="mll_inclusive"\|\|filename=="mll_inclusive_highrange") cut=cutmass&&cutOSSF;
586	>	if(filename=="mll_inclusive_osof") cut=cutmass&&cutOSOF;
587	>	if(filename=="mll_inclusive_ee") cut=cutmass&&cutOSSF&&"id1==0";
588	>	if(filename=="mll_inclusive_mm") cut=cutmass&&cutOSSF&&"id1==1";
589		if(filename=="pfJetGoodEta_0") cut=cutOSSF&&cutmass&&ibasiccut&&cutnJets;
590		if(filename=="pfJetGoodPt_0") cut=cutOSSF&&cutmass&&ibasiccut&&cutnJets;
591	+	if(filename=="numVtx") cut=cutmass&&ibasiccut;
592
593		TCanvas *ckin = new TCanvas("ckin","Kinematic Plots (in the making)",600,600);
594		ckin->SetLogy(logscale);
595		TH1F *datahisto = allsamples.Draw("datahisto",variable,nbins,min,max, xlabel, "events",cut,data,luminosity);
596		datahisto->SetMarkerSize(DataMarkerSize);
597	<	THStack mcstack = allsamples.DrawStack("mcstack",variable,nbins,min,max, xlabel, "events",cut,mc,luminosity);
597	>	if ( !logscale ) datahisto->SetMinimum(0); // Defaults
598	>	else datahisto->SetMinimum(0.5);
599	>	// Custom max.
600	>	if(variable=="TMath::Abs(pfJetDphiMet[0])") datahisto->SetMaximum(1.5*datahisto->GetMaximum());
601		if(variable=="pfJetGoodPt[0]") datahisto->SetMaximum(10*datahisto->GetMaximum());
602		if(variable=="pt") datahisto->SetMaximum(10*datahisto->GetMaximum());
603		if(filename=="mll_inclusive"\|\|filename=="mll_inclusive_mm"\|\|filename=="mll_inclusive_ee") datahisto->SetMinimum(1);
604		if(filename=="mll_osof") datahisto->SetMaximum(10*datahisto->GetMaximum());
605		if(filename=="mll_osof") datahisto->SetMinimum(9);
606	<	datahisto->SetMaximum(5.3*datahisto->GetMaximum());
607	<	datahisto->Draw("e1");
608	<	ckin->Update();
606	>	if (logscale) datahisto->SetMaximum(5.3*datahisto->GetMaximum());
607	>	else datahisto->SetMaximum(1.3*datahisto->GetMaximum());
608	>
609	>	cout << "******** Cut used : " << (const char*) cut << endl;
610		if(loadlastminmax) {
611		datahisto->SetMinimum(lastrange_min);
612		datahisto->SetMaximum(lastrange_max);
#	Line 391 \| Line 616 \| void make_kin_plot(string variable, stri
616		}
617		}
618
619	+	// Draw signal by hand (for some reason I don't manage to use the sample class: it adds it to the stack!)
620	+	string signal("LM3");
621	+	TH1F* signalhisto = new TH1F("signalhisto",signal.c_str(),nbins,min,max);
622	+	int idx = signalsamples.FindSample(signal)[0];
623	+	(signalsamples.collection)[idx].events->Project("signalhisto",variable.c_str(),cut);
624	+	signalhisto->Scale((signalsamples.collection)[idx].weight*luminosity);
625	+	signalhisto->SetLineColor(kOrange);
626	+
627	+	THStack mcstack = allsamples.DrawStack("mcstack", variable,nbins,min,max,xlabel,"events",cut,mc,luminosity);
628	+	datahisto->Draw("e1");
629	+	ckin->Update();
630		mcstack.Draw("same");
631	+
632		datahisto->Draw("same,e1");
633		TLegend *kinleg = allsamples.allbglegend();
634		kinleg->Draw();
#	Line 434 \| Line 671 \| void make_kin_plot(string variable, stri
671		kinpad->SetLogy(logscale);
672		datahisto->Draw("e1");
673		mcstack.Draw("same");
674	+	signalhisto->Draw("same");
675		datahisto->Draw("same,e1");
676		datahisto->Draw("same,axis");
677		if(RestrictToMassPeak&&draw_separation_lines) {
#	Line 441 \| Line 679 \| void make_kin_plot(string variable, stri
679		upperboundary->Draw("same");
680		}
681
682	+	kinleg->AddEntry("signalhisto",signal.c_str(),"l");
683		kinleg->Draw();
684		write_cut->Draw();
685		DrawPrelim();
#	Line 458 \| Line 697 \| void make_kin_plot(string variable, stri
697		delete ckin;
698		}
699
700	<	void make_JES_plot() {
700	>	void make_JES_plot(TCut cut, string name) {
701
702		int nbins=10;
703		float min=-0.5;
704		float max = 9.5;
705		bool logscale=true;
706		string xlabel="nJets";
468	–	TCut cut=cutmass&&cutOSSF&&basiccut;
707
708		TCanvas *ckin = new TCanvas("ckin","Kinematic Plots (in the making)",600,600);
709		ckin->SetLogy(logscale);
710	<	TH1F *datahisto = allsamples.Draw("datahisto","pfJetGoodNum",nbins,min,max, xlabel, "events",cut,data,luminosity);
710	>	TH1F *datahisto = allsamples.Draw("datahisto","pfJetGoodNum40",nbins,min,max, xlabel, "events",cut,data,luminosity);
711		datahisto->SetMarkerSize(DataMarkerSize);
712	<	THStack mcstack = allsamples.DrawStack("mcstack","pfJetGoodNum",nbins,min,max, xlabel, "events",cut,mc,luminosity);
713	<	TH1F *JESup = allsamples.Draw("JESup","pfJetGoodNum315",nbins,min,max, xlabel, "events",cut,mc,luminosity);
714	<	TH1F *JESdn = allsamples.Draw("JESdn","pfJetGoodNum285",nbins,min,max, xlabel, "events",cut,mc,luminosity);
712	>	THStack mcstack = allsamples.DrawStack("mcstack","pfJetGoodNum40",nbins,min,max, xlabel, "events",cut,mc,luminosity);
713	>	TH1F *JESup = allsamples.Draw("JESup","pfJetGoodNum40p1sigma",nbins,min,max, xlabel, "events",cut,mc,luminosity);
714	>	TH1F *JESdn = allsamples.Draw("JESdn","pfJetGoodNum40n1sigma",nbins,min,max, xlabel, "events",cut,mc,luminosity);
715
716		datahisto->SetMinimum(1);
717		datahisto->SetMaximum(5.3*datahisto->GetMaximum()); // in line with kinematic plots style
#	Line 498 \| Line 736 \| void make_JES_plot() {
736		TLegend *kinleg = allsamples.allbglegend();
737		kinleg->AddEntry(JESunc,"JES uncertainty","f");
738		kinleg->Draw();
739	<	CompleteSave(ckin,"Systematics/JES");
739	>	CompleteSave(ckin,"Systematics/JES"+name);
740		datahisto->Delete();
741		delete ckin;
742
#	Line 506 \| Line 744 \| void make_JES_plot() {
744
745		void do_kinematic_plots(string mcjzb, string datajzb, bool doPF=false)
746		{
747	+	switch_overunderflow(true);
748		bool dolog=true;
749		bool nolog=false;
750	+
751	+	bool doOFSF = true;
752	+	bool doKin = true;
753	+	bool doDataComp = true;
754	+
755	+
756		if(doPF) write_warning(__FUNCTION__,"Please use caution when trying to produce PF plots; not all versions of the JZB trees have these variables!");
757		float mll_low=50;
758		float mll_hi=160;
759		if(!PlottingSetup::RestrictToMassPeak) {
760		mll_low=20;
761	<	mll_hi=210;
761	>	mll_hi=320;
762		}
763	<
764	<	make_kin_plot("met[4]","",40,0,200,dolog,"MET [GeV]","met",doPF,true);
765	<	make_kin_plot("mll","",(int)((mll_hi-mll_low)/5),mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll",doPF,true);
766	<	make_kin_plot("mll","",(int)((mll_hi-mll_low)/5),mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll_osof",doPF,true,true);
767	<	make_kin_plot("mll","",(int)((mll_hi-mll_low)/5),mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll_ee",doPF,true);
768	<	make_kin_plot("mll","",(int)((mll_hi-mll_low)/5),mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll_mm",doPF,true);
769	<	make_kin_plot("mll","",(int)((mll_hi-mll_low)),mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll_inclusive",doPF,true);
770	<	make_kin_plot("mll","",(int)((mll_hi-mll_low)),mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll_inclusive_ee",doPF,true);
771	<	make_kin_plot("mll","",(int)((mll_hi-mll_low)),mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll_inclusive_mm",doPF,true);
772	<	make_kin_plot("mll","",(int)((mll_hi-mll_low))/2,mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll_inclusive_osof",doPF,true);
773	<	make_kin_plot("mll","",(int)((350-mll_low)),mll_low,350,dolog,"m_{ll} [GeV]","mll_inclusive_highrange",doPF);
774	<	make_kin_plot("numVtx","",(int)(30.5-(-0.5)),-0.5,30.5,nolog,"N(Vtx)","numVtx",doPF);
775	<	// make_kin_plot("jetpt[0]","",40,0,200,dolog,"leading jet p_{T} [GeV]","pfJetGoodPt_0",doPF);
776	<	// make_kin_plot("jeteta[0]","",40,-5,5,nolog,"leading jet #eta","pfJetGoodEta_0",doPF);
777	<	make_kin_plot("pt","",50,0,400,dolog,"Z p_{T} [GeV]","Zpt",doPF);
778	<	make_kin_plot("pt1","",50,0,100,nolog,"p_{T} [GeV]","pt1",doPF);
779	<	make_kin_plot("pt2","",50,0,100,nolog,"p_{T} [GeV]","pt2",doPF);
780	<	make_kin_plot("eta1","",40,-5,5,nolog,"#eta_{l}","eta",doPF);
781	<	make_kin_plot("jzb[1]","",100,-150,150,dolog,"JZB [GeV]","jzb_ossf",doPF);
782	<	make_kin_plot("pfJetGoodNum40","",9,-0.5,8.5,dolog,"nJets","nJets",doPF);
783	<	make_kin_plot("pfJetGoodNum40","",9,-0.5,8.5,dolog,"nJets","nJets_osof",doPF);
784	<	make_kin_plot("pfJetGoodNum40","",9,-0.5,8.5,dolog,"nJets","nJets_nocuts_except_mll_ossf",doPF);
785	<	if(!doPF) make_special_mll_plot((int)((mll_hi-mll_low)/5),mll_low,mll_hi,dolog,"m_{ll} [GeV]");
786	<	stringstream jzbcut;
787	<	jzbcut << "((is_data&&("<<datajzb<<")>100)\|\|(!is_data&&("<<mcjzb<<")>100))";
788	<	make_kin_plot("mll",jzbcut.str(),(int)((mll_hi-mll_low)/5),mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll_aboveJZB100",doPF,true);
789	<	make_kin_plot("mll",jzbcut.str(),(int)((mll_hi-mll_low)/5),mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll_osof_aboveJZB100",doPF,true);
790	<	make_kin_plot("mll",jzbcut.str(),(int)((mll_hi-mll_low)/5),mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll_aboveJZB100",doPF,true);
791	<	make_kin_plot("mll",jzbcut.str(),(int)((mll_hi-mll_low)/5),mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll_osof_aboveJZB100",doPF,true);
792	<	stringstream jzbcut2;
793	<	jzbcut2 << "((is_data&&("<<datajzb<<")>150)\|\|(!is_data&&("<<mcjzb<<")>150))";
794	<	make_kin_plot("mll",jzbcut2.str(),(int)((mll_hi-mll_low)/5),mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll_aboveJZB150",doPF,true);
795	<	make_kin_plot("mll",jzbcut2.str(),(int)((mll_hi-mll_low)/5),mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll_osof_aboveJZB150",doPF,true);
796	<	stringstream jzbcut3;
797	<	jzbcut3 << "((is_data&&("<<datajzb<<")>50)\|\|(!is_data&&("<<mcjzb<<")>50))";
798	<	make_kin_plot("mll",jzbcut3.str(),(int)((mll_hi-mll_low)/5),mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll_aboveJZB50",doPF,true);
799	<	make_kin_plot("mll",jzbcut3.str(),(int)((mll_hi-mll_low)/5),mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll_osof_aboveJZB50",doPF,true,true);
800	<
801	<	make_special_obs_pred_mll_plot(mcjzb,0);
802	<	make_special_obs_pred_mll_plot(mcjzb,50);
803	<	make_special_obs_pred_mll_plot(mcjzb,100);
804	<	make_special_obs_pred_mll_plot(mcjzb,150);
805	<	make_special_obs_pred_mll_plot(mcjzb,200);
806	<	make_special_obs_pred_mll_plot(mcjzb,250);
763	>
764	>	if ( doOFSF ) {
765	>	make_OFSF_plots("mll", "met[4]>100", 60, 20., 320., false, "m_{ll}", "mll");
766	>
767	>	make_OFSF_plots("pfJetGoodNum40", "met[4]>100", 7, 3, 10, true, "#(jets)", "njets");
768	>	make_OFSF_plots("pfJetGoodNum40", "met[4]>100&&pfJetGoodNumBtag30==0", 7, 3, 10, true, "#(jets)", "njets_btagVeto");
769	>	make_OFSF_plots("pfJetGoodNum40", "met[4]>100&&pfJetGoodNumBtag30>0", 7, 3, 10, true, "#(jets)", "njets_AtLeastOneBJet30");
770	>
771	>	make_OFSF_plots("pfJetGoodNumBtag30", "met[4]>100", 5, 0, 5, true, "#(b-jets)", "nbjets");
772	>	make_OFSF_plots("pfJetGoodPtBtag[0]", "met[4]>100&&pfJetGoodNumBtag30>0", 20, 0, 400, true, "p_{T}(leading b-jet)", "ptb1");
773	>
774	>	make_OFSF_plots("iso1", "met[4]>100", 20, 0, 0.3, true, "lepton 1 isolation", "iso1");
775	>	make_OFSF_plots("iso2", "met[4]>100", 20, 0, 0.3, true, "lepton 2 isolation", "iso2");
776	>	// make_OFSF_plots("pt1", "met[4]>100", 30, 0., 300., true, "p_{T,1}", "pt1");
777	>	// make_OFSF_plots("pt2", "met[4]>100", 22, 0., 220., true, "p_{T,2}", "pt2");
778	>	make_OFSF_plots("eta1", "met[4]>100", 10, -2.5, 2.5, false, "#eta_{1}", "eta1", 0.15);
779	>	make_OFSF_plots("eta2", "met[4]>100", 10, -2.5, 2.5, false, "#eta_{2}", "eta2", 0.15);
780	>	// make_OFSF_plots("phi1", "met[4]>100", 10, -TMath::Pi(), TMath::Pi(), false, "#phi_{1}", "phi1", 0.2);
781	>	// make_OFSF_plots("phi2", "met[4]>100", 10, -TMath::Pi(), TMath::Pi(), false, "#phi_{2}", "phi2", 0.2);
782	>	// make_OFSF_plots("pfJetGoodPt[0]/pfJetGoodPt[1]", "met[4]>100", 20, 1, 10, true, "pt_{j}^{1}/pt_{j}^{2}", "jpt1pt2", 0.2);
783	>	make_OFSF_plots("TMath::Abs(pfJetDphiMet[0])", "met[4]>100", 16, 0, 3.2, false, "\|#Delta#phi(jet1,MET)\|", "dphij1met", 0.2);
784	>	make_OFSF_plots("TMath::Abs(dphi)", "met[4]>100", 16, 0, 3.2, false, "\|#Delta#phi(l1,l2)\|", "dphi", 0.2);
785	>	// make_OFSF_plots("TMath::Abs(dphiMet1)", "met[4]>100", 16, 0, 3.2, false, "\|#Delta#phi(l1,MET)\|", "dphiMet1", 0.2);
786	>	// make_OFSF_plots("TMath::Abs(dphiMet2)", "met[4]>100", 16, 0, 3.2, false, "\|#Delta#phi(l2,MET)\|", "dphiMet2", 0.2);
787	>	make_OFSF_plots("TMath::Min(TMath::Abs(dphiMet1), TMath::Abs(dphiMet2))", "met[4]>100", 16, 0, 3.2, false, "Min(\|#Delta#phi(l,MET)\|)", "dphilc");
788	>	make_OFSF_plots("TMath::Min(TMath::Abs(pfJetDphiMet[0]), TMath::Min(TMath::Abs(pfJetDphiMet[1]), TMath::Abs(pfJetDphiMet[2])))", "met[4]>100", 16, 0, 3.2, false, "Min(\|#Delta#phi(jet,MET)\|)", "dphijc");
789	>	make_OFSF_plots("TMath::Min((TMath::Pi()-TMath::Abs(dphiMet1)), (TMath::Pi() - TMath::Abs(dphiMet2)))", "met[4]>100", 16, 0, 3.2, false, "Min(#pi - \|#Delta#phi(l,MET)\|)", "dphilco");
790	>	make_OFSF_plots("TMath::Min((TMath::Pi()-TMath::Abs(pfJetDphiMet[0])), TMath::Min( (TMath::Pi()-TMath::Abs(pfJetDphiMet[1])), (TMath::Pi() - TMath::Abs(pfJetDphiMet[2]))))", "met[4]>100", 16, 0, 3.2, false, "Min(#pi - \|#Delta#phi(jet,MET)\|)", "dphijco");
791	>	}
792	>
793	>	if ( doDataComp && !PlottingSetup::openBox ) {
794	>	TCut mllCut("");
795	>	float massmin = 15.;
796	>	float massmax = 315;
797	>	int massnbins = 60;
798	>	if ( !PlottingSetup::openBox ) {
799	>	mllCut = "mll>120";
800	>	massmin = 120;
801	>	massmax = 360;
802	>	massnbins = 14;
803	>	}
804	>
805	>	TCut cutSignal = cutmass&&cutnJets&&"met[4]>100";
806	>	make_data_comparison_plot("mll", cutOSSF,60, 15., 315.,-1., true, "m_{ll}", "mll_SF_inclusive");
807	>	make_data_comparison_plot("mll", cutOSOF,60, 15., 315.,-1., true, "m_{ll}", "mll_OF_inclusive");
808	>
809	>	make_data_comparison_plot("mll", cutOSSF&&cutSignal&&mllCut, massnbins, 15., 315.,-1., false, "m_{ll}", "mll_SF_sig");
810	>	make_data_comparison_plot("mll", cutOSSF&&cutSignal&&mllCut&&"pfJetGoodNumBtag30==0", massnbins, 15., 315.,-1., false, "m_{ll}", "mll_SF_sig_btagVeto");
811	>	make_data_comparison_plot("mll", cutOSSF&&cutSignal&&mllCut&&"pfJetGoodNumBtag30>0", massnbins, 15., 315.,-1., false, "m_{ll}", "mll_SF_sig_AtLeastOneBJet");
812	>
813	>	make_data_comparison_plot("mll", mllCut&&cutOSOF&&cutSignal, massnbins, 15., 315.,-1., false, "m_{ll}", "mll_OF_sig");
814	>	make_data_comparison_plot("mll", cutmass&&cutOSSF&&"met[4]>100&&met[4]<150&&pfJetGoodNum40==2", massnbins, 15., 315.,-1., false, "m_{ll}", "mll_SF_CR");
815	>	make_data_comparison_plot("mll", cutmass&&cutOSOF&&"met[4]>100&&met[4]<150&&pfJetGoodNum40==2", massnbins, 15., 315.,-1., false, "m_{ll}", "mll_OF_CR");
816	>
817	>	make_data_comparison_plot("pfJetGoodNum40", cutOSSF&&cutSignal&&mllCut, 8, 0., 8.,-1., false, "#(jets)", "njets_SF_sig");
818	>	make_data_comparison_plot("pfJetGoodNum40", cutOSOF&&cutSignal&&mllCut, 8, 0., 8.,-1., false, "#(jets)", "njets_OF_sig");
819	>	make_data_comparison_plot("pfJetGoodNumBtag30", cutOSSF&&cutSignal&&mllCut, 8, 0., 8.,-1., false, "#(b-jets)", "nbjets_SF_sig");
820	>	make_data_comparison_plot("pfJetGoodNumBtag30", cutOSOF&&cutSignal&&mllCut, 8, 0., 8.,-1., false, "#(b-jets)", "nbjets_OF_sig");
821	>	}
822	>
823	>
824	>	if ( doKin ) {
825	>	string mllCut("");
826	>	if ( !PlottingSetup::openBox ) mllCut = "&&mll>120";
827	>
828	>	// Plots in signal region
829	>	make_kin_plot("met[4]","",70,0,350,dolog,"MET [GeV]","met",doPF,true);
830	>	make_kin_plot("mll","mll>20&&met[4]>100"+mllCut,(int)((mll_hi-mll_low)/5),mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll",doPF,true);
831	>	make_kin_plot("mll","mll>20&&met[4]>100",(int)((mll_hi-mll_low)/5),mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll_osof",doPF,true,true);
832	>	make_kin_plot("mll","mll>20&&met[4]>100"+mllCut,(int)((mll_hi-mll_low)/5),mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll_ee",doPF,true);
833	>	make_kin_plot("mll","mll>20&&met[4]>100"+mllCut,(int)((mll_hi-mll_low)/5),mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll_mm",doPF,true);
834	>
835	>	make_kin_plot("pfJetGoodNum40","met[4]>100"+mllCut,9,-0.5,8.5,dolog,"nJets","nJets",doPF);
836	>	make_kin_plot("pfJetGoodNum40","met[4]>100",9,-0.5,8.5,dolog,"nJets","nJets_osof",doPF);
837	>
838	>	// Further inclusive invariant mass plots
839	>	make_kin_plot("mll","",(int)((mll_hi-mll_low))/5,mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll_inclusive",doPF,true);
840	>	make_kin_plot("mll","",(int)((mll_hi-mll_low))/5,mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll_inclusive_ee",doPF,true);
841	>	make_kin_plot("mll","",(int)((mll_hi-mll_low))/5,mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll_inclusive_mm",doPF,true);
842	>	make_kin_plot("mll","",(int)((mll_hi-mll_low))/5,mll_low,mll_hi,dolog,"m_{ll} [GeV]","mll_inclusive_osof",doPF,true);
843	>
844	>	//make_kin_plot("mll","",(int)((350-mll_low))/5,mll_low,350,dolog,"m_{ll} [GeV]","mll_inclusive_highrange",doPF);
845	>	//if(!doPF) make_special_mll_plot((int)((mll_hi-mll_low)/5),mll_low,mll_hi,dolog,"m_{ll} [GeV]");
846	>
847	>	//make_kin_plot("pfJetGoodPt[0]/pfJetGoodPt[1]","",45,1,10,dolog,"pt_{j}^{1}/pt_{j}^{2}","j1j2ratio",doPF,true);
848	>	//make_kin_plot("TMath::Abs(pfJetDphiMet[0])","",32,0,3.2,nolog,"\|#Delta#phi(jet1,MET)\|","dphiJ1MET",doPF,true);
849	>
850	>	// Number of jets
851	>	make_kin_plot("pfJetGoodNum40","",9,-0.5,8.5,dolog,"nJets","nJets_inclusive",doPF);
852	>	make_kin_plot("pfJetGoodNum40","",9,-0.5,8.5,dolog,"nJets","nJets_osof_inclusive",doPF);
853	>	//make_kin_plot("pfJetGoodNum40","",9,-0.5,8.5,dolog,"nJets","nJets_nocuts_except_mll_ossf",doPF);
854	>
855	>	// Others
856	>	make_kin_plot("numVtx","",(int)(30.5-(-0.5)),-0.5,30.5,nolog,"N(Vtx)","numVtx",doPF);
857	>	// make_kin_plot("jetpt[0]","",40,0,200,dolog,"leading jet p_{T} [GeV]","pfJetGoodPt_0",doPF);
858	>	// make_kin_plot("jeteta[0]","",40,-5,5,nolog,"leading jet #eta","pfJetGoodEta_0",doPF);
859	>	make_kin_plot("pt","",50,0,500,dolog,"Z p_{T} [GeV]","Zpt",doPF);
860	>	make_kin_plot("pt1","",50,0,200,nolog,"p_{T} [GeV]","pt1",doPF);
861	>	make_kin_plot("pt2","",50,0,200,nolog,"p_{T} [GeV]","pt2",doPF);
862	>	make_kin_plot("eta1","",40,-3,3,nolog,"#eta_{l}","eta",doPF);
863	>	make_kin_plot("jzb[1]","",100,-150,200,dolog,"JZB [GeV]","jzb_ossf",doPF);
864	>	// stringstream jzbcut;
865	>	// jzbcut << "((is_data&&("<<datajzb<<")>100)\|\|(!is_data&&("<<mcjzb<<")>100))";
866	>	// make_kin_plot("mll",jzbcut.str(),(int)((mll_hi-mll_low)/5),mll_low,mll_hi,nolog,"m_{ll} [GeV]","mll_aboveJZB100",doPF,true);
867	>	// make_kin_plot("mll",jzbcut.str(),(int)((mll_hi-mll_low)/5),mll_low,mll_hi,nolog,"m_{ll} [GeV]","mll_osof_aboveJZB100",doPF,true);
868	>	// make_kin_plot("mll",jzbcut.str(),(int)((mll_hi-mll_low)/5),mll_low,mll_hi,nolog,"m_{ll} [GeV]","mll_ee_aboveJZB100",doPF,true);
869	>	// make_kin_plot("mll",jzbcut.str(),(int)((mll_hi-mll_low)/5),mll_low,mll_hi,nolog,"m_{ll} [GeV]","mll_mm_aboveJZB100",doPF,true);
870	>	// stringstream jzbcut2;
871	>	// jzbcut2 << "((is_data&&("<<datajzb<<")>150)\|\|(!is_data&&("<<mcjzb<<")>150))";
872	>	// make_kin_plot("mll",jzbcut2.str(),(int)((mll_hi-mll_low)/5),mll_low,mll_hi,nolog,"m_{ll} [GeV]","mll_aboveJZB150",doPF,true);
873	>	// make_kin_plot("mll",jzbcut2.str(),(int)((mll_hi-mll_low)/5),mll_low,mll_hi,nolog,"m_{ll} [GeV]","mll_osof_aboveJZB150",doPF,true);
874	>	// make_kin_plot("mll",jzbcut2.str(),(int)((mll_hi-mll_low)/5),mll_low,mll_hi,nolog,"m_{ll} [GeV]","mll_ee_aboveJZB150",doPF,true);
875	>	// make_kin_plot("mll",jzbcut2.str(),(int)((mll_hi-mll_low)/5),mll_low,mll_hi,nolog,"m_{ll} [GeV]","mll_mm_aboveJZB150",doPF,true);
876	>	// stringstream jzbcut3;
877	>	// jzbcut3 << "((is_data&&("<<datajzb<<")>50)\|\|(!is_data&&("<<mcjzb<<")>50))";
878	>	// make_kin_plot("mll",jzbcut3.str(),(int)((mll_hi-mll_low)/5),mll_low,mll_hi,nolog,"m_{ll} [GeV]","mll_aboveJZB50",doPF,true);
879	>	// make_kin_plot("mll",jzbcut3.str(),(int)((mll_hi-mll_low)/5),mll_low,mll_hi,nolog,"m_{ll} [GeV]","mll_osof_aboveJZB50",doPF,true,true);
880	>	// make_kin_plot("mll",jzbcut3.str(),(int)((mll_hi-mll_low)/5),mll_low,mll_hi,nolog,"m_{ll} [GeV]","mll_ee_aboveJZB50",doPF,true);
881	>	// make_kin_plot("mll",jzbcut3.str(),(int)((mll_hi-mll_low)/5),mll_low,mll_hi,nolog,"m_{ll} [GeV]","mll_mm_aboveJZB50",doPF,true);
882	>
883	>	// make_kin_plot("mll","met[4]>100",(int)((mll_hi-mll_low)/5),mll_low,mll_hi,nolog,"m_{ll} [GeV] (MET>100GeV)","mll_met100_ll",doPF,true);
884	>	//make_kin_plot("mll","met[4]>150&&id1==0",(int)((mll_hi-mll_low)/5),mll_low,mll_hi,nolog,"m_{ee} [GeV] (MET>150GeV)","mll_met150_ee",doPF,true);
885	>	//make_kin_plot("mll","met[4]>150&&id1==1",(int)((mll_hi-mll_low)/5),mll_low,mll_hi,nolog,"m_{#mu#mu} [GeV] (MET>150GeV)","mll_met150_mm",doPF,true);
886	>	}
887	>
888	>	// make_special_obs_pred_mll_plot(datajzb,mcjzb,0);
889	>	// make_special_obs_pred_mll_plot(datajzb,mcjzb,50);
890	>	// make_special_obs_pred_mll_plot(datajzb,mcjzb,80);
891	>	// make_special_obs_pred_mll_plot(datajzb,mcjzb,100);
892	>	// make_special_obs_pred_mll_plot(datajzb,mcjzb,150);
893	>	// make_special_obs_pred_mll_plot(datajzb,mcjzb,200);
894	>	// make_special_obs_pred_mll_plot(datajzb,mcjzb,250);
895	>
896	>	// make_JES_plot(cutmass&&cutOSSF&&basiccut,"_ossf");
897	>	// make_JES_plot(cutmass&&cutOSOF&&basiccut,"_osof");
898	>
899	>	switch_overunderflow(false);
900		}
901
902		void make_comp_plot( string var, string xlabel, string filename, float jzbcut, string mcjzb, string datajzb,
903		int nbins, float xmin, float xmax, bool log,
904		float ymin=0, float ymax=0, bool leftJustified=false ) {
905	<	flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak ---- WATCH OUT: the argument in the function changed!
905	>	flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak ---- WATCH OUT: the argument in the function changed!
906
907		TCut weightbackup=cutWeight;//backing up the correct weight (restoring below!)
908		if(weightbackup==TCut("1.0")\|\|weightbackup==TCut("1")) write_warning(__FUNCTION__,"WATCH OUT THE WEIGHT HAS POSSIBLY NOT BEEN RESET!!!! PLEASE CHANGE LINE "+any2string(__LINE__));
909	<	if(var=="numVtx") cutWeight=TCut("1.0");
909	>	//if(var=="numVtx") cutWeight=TCut("1.0");
910		TCut jzbData[]= { TCut(TString(datajzb+">"+any2string(jzbcut))),TCut(TString(datajzb+"<-"+any2string(jzbcut))) };
911		TCut jzbMC[] = { TCut(TString(mcjzb+">"+any2string(jzbcut))),TCut(TString(mcjzb+"<-"+any2string(jzbcut))) };
912
913		flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak ---- below: the next ~20 lines changed!
914		int nRegions=4;
915	<	if(!PlottingSetup::RestrictToMassPeak) {
915	>	if(!PlottingSetup::RestrictToMassPeak\|\|!PlottingSetup::UseSidebandsForcJZB) {
916		nRegions=2;
917		}
918
#	Line 592 \| Line 930 \| void make_comp_plot( string var, string
930		TCanvas *ccomp = new TCanvas("ccomp","Comparison plot",600,400);
931		ccomp->SetLogy(log);
932		TH1F *datahisto = allsamples.Draw("datahisto", var,nbins,xmin,xmax,xlabel,"events",kRegions[iregion]&&jzbData[ijzb],data,luminosity);
933	<	TH1F *lm4histo = signalsamples.Draw("lm4histo", var,nbins,xmin,xmax,xlabel,"events",kRegions[iregion]&&jzbData[ijzb],data,luminosity,signalsamples.FindSample("LM4"));
933	>	TH1F *lm3histo = signalsamples.Draw("lm3histo", var,nbins,xmin,xmax,xlabel,"events",kRegions[iregion]&&jzbMC[ijzb],data,luminosity,signalsamples.FindSample("LM3"));
934		THStack mcstack = allsamples.DrawStack("mcstack",var,nbins,xmin,xmax,xlabel,"events",kRegions[iregion]&&jzbMC[ijzb], mc, luminosity);
935		datahisto->SetMarkerSize(DataMarkerSize);
936		if (ymax>ymin) datahisto->SetMaximum(ymax);
937	<	lm4histo->SetLineStyle(2);
937	>	lm3histo->SetLineStyle(2);
938		datahisto->Draw("e1");
939		mcstack.Draw("same");
940		datahisto->Draw("same,e1");
941	<	// lm4histo->Draw("hist,same");
941	>	lm3histo->Draw("hist,same");
942		TLegend *kinleg = allsamples.allbglegend((sRegions[iregion]+(ijzb?"neg":"pos")).c_str());
943		if ( leftJustified ) {
944		Float_t w = kinleg->GetX2()-kinleg->GetX1();
945		kinleg->SetX1(0.2);
946		kinleg->SetX2(0.2+w);
947		}
948	<	// kinleg->AddEntry(lm4histo,"LM4","l");
948	>	kinleg->AddEntry(lm3histo,"LM3","l");
949		kinleg->Draw();
950		TText* write_variable = write_text(0.99,0.01,var);
951		write_variable->SetTextAlign(31);
#	Line 616 \| Line 954 \| void make_comp_plot( string var, string
954		CompleteSave(ccomp,"compare/JZBcut_at_"+any2string(jzbcut)+"/"+filename+"/"+filename+sRegions[iregion]+(ijzb?"neg":"pos"));
955		delete datahisto;
956		delete ccomp;
957	<	delete lm4histo;
957	>	delete lm3histo;
958		}
959		cutWeight=weightbackup;
960		}
#	Line 626 \| Line 964 \| void region_comparison_plots(string mcjz
964		dout << "Creating comparison plots for signal and control regions" << endl;
965		// Compare a few quantities in the signal region and all 7 control regions
966
967	<	switch_overunderflow(true); // switching overflow/underflow bins on
967	>	// switch_overunderflow(true); // switching overflow/underflow bins on
968
969	<
969	>	switch_overunderflow(true);
970		flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak ---- the arguments changed
971		for(int ijzb=0;ijzb<(int)jzb_cuts.size();ijzb++) {
972		float jzbcut=jzb_cuts[ijzb]; // Comparison plots are done for this JZB cut
973		float mll_low=50;float mll_high=170;
974		if(!PlottingSetup::RestrictToMassPeak) {
975	<	mll_high=200;
976	<	mll_low=50;
975	>	mll_high=300;
976	>	mll_low=20;
977		}
978	<	make_comp_plot("mll","m_{ll} [GeV]","mll",jzbcut,mcjzb,datajzb,30,mll_low,mll_high,false,0,16.);
978	>	make_comp_plot("pfJetGoodPt[0]/pfJetGoodPt[1]","pt_{j}^{1}/pt_{j}^{2}","j1j2ratio",jzbcut,mcjzb,datajzb,100,0,10,true);
979	>	make_comp_plot("TMath::Abs(pfJetDphiMet[0])","\|#Delta#phi(jet1,MET)\|","dphiJ1MET",jzbcut,mcjzb,datajzb,32,0,3.2,false,0,0,true);
980	>
981	>	make_comp_plot("mll","m_{ll} [GeV]","mll",jzbcut,mcjzb,datajzb,56,mll_low,mll_high,false,0,16.);
982		make_comp_plot("met[4]","pfMET [GeV]","pfmet",jzbcut,mcjzb,datajzb,18,0,360,false,0,16.);
983	<	make_comp_plot("pfJetGoodNum","#(jets)","njets",jzbcut,mcjzb,datajzb,10,0,10, false,0,35.);
983	>	make_comp_plot("pfJetGoodNum40","#(jets)","njets",jzbcut,mcjzb,datajzb,10,0,10, false,0,35.);
984	>	make_comp_plot("pfJetGoodNumBtag","#(b-jets)","nBjets",jzbcut,mcjzb,datajzb,10,0,10, false,0,35.);
985		make_comp_plot("pt","Z p_{T} [GeV]","Zpt",jzbcut,mcjzb,datajzb,26,0,525,false,0.,21.);
986	<	make_comp_plot("numVtx","#(prim. vertices)","nvtx",jzbcut,mcjzb,datajzb,20,0.,20.,false,0,16.);
986	>	make_comp_plot("numVtx","#(prim. vertices)","nvtx",jzbcut,mcjzb,datajzb,40,0.,40.,false,0,16.);
987		make_comp_plot("TMath::Abs(dphi)","#Delta#phi(leptons)","dphilep",jzbcut,mcjzb,datajzb,10,0.,3.1415,false,0,16.,true);
988		make_comp_plot("TMath::Abs(dphi_sumJetVSZ[1])","#Delta#phi(Z,jets)","dphiZjets",jzbcut,mcjzb,datajzb,10,0.,3.1415,false,0,16.,true);
989	+	make_comp_plot("eta1","#eta_1","eta1",jzbcut,mcjzb,datajzb,10,0.,2.5,false,0,16.);
990	+	make_comp_plot("eta2","#eta_2","eta2",jzbcut,mcjzb,datajzb,10,0.,2.5,false,0,16.);
991		}
992
993		switch_overunderflow(false); // switching overflow/underflow bins off
#	Line 842 \| Line 1186 \| *vector<TF1> do_extended_fit_to_plot(TH1**
1186		// the line above is not necessary anymore as we're now looking at a prediction without Z+Jets, and not multiplied with (1.0/3)
1187		TF1 *ttbarlogpar = do_logpar_fit_to_plot(Tprediction);
1188		flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
1189	<	if(PlottingSetup::RestrictToMassPeak) ttbarlogpar->SetParameter(0,1.0/3*ttbarlogpar->GetParameter(0));//correcting for the fact that we didn't multiply with (1.0/3);
1189	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) ttbarlogpar->SetParameter(0,1.0/3*ttbarlogpar->GetParameter(0));//correcting for the fact that we didn't multiply with (1.0/3);
1190
1191
1192		TF1 *ttbarlogparP = new TF1("ttbarlogparP",LogParabolaP,0,(prediction->GetXaxis()->GetBinLowEdge(prediction->GetNbinsX())+prediction->GetXaxis()->GetBinWidth(prediction->GetNbinsX())),8);
#	Line 939 \| Line 1283 \| if you want to start from scratch (witho
1283
1284		void do_prediction_plot(string jzb, TCanvas *globalcanvas, float high, int use_data, bool overlay_signal = false,string subdir="" )
1285		{
1286	<	switch_overunderflow(true);
1286	>
1287		bool is_data=false;
1288		bool use_signal=false;
1289		if(use_data==1) is_data=true;
1290		if(use_data==2) use_signal=true;
1291	<	int nbins=50;//100;
1292	<	if(is_data) nbins=50;
1291	>	int nbins=int(high/10);//100;
1292	>	if(is_data) nbins=int(high/10);
1293		float low=0;
1294	<	float hi=500;
1294	>	float hi=high;
1295	>
1296	>	stringstream cutpositiveS;
1297	>	cutpositiveS << "(" << jzb << ">0)";
1298	>	TCut cutpositive(cutpositiveS.str().c_str());
1299	>	stringstream cutnegativeS;
1300	>	cutnegativeS << "(" << jzb << "<0)";
1301	>	TCut cutnegative(cutnegativeS.str().c_str());
1302	>
1303
1304		TH1F *blankback = new TH1F("blankback","blankback",int(high/10),0,high);
1305	<	TH1F *RcorrJZBeemm = allsamples.Draw("RcorrJZBeemm",jzb.c_str(),nbins,low,hi, "JZB [GeV]", "events", cutmass&&cutOSSF&&cutnJets,is_data, luminosity,use_signal);
1306	<	TH1F *LcorrJZBeemm = allsamples.Draw("LcorrJZBeemm",("-"+jzb).c_str(),nbins,low,hi, "JZB [GeV]", "events", cutmass&&cutOSSF&&cutnJets,is_data, luminosity,use_signal);
1307	<	TH1F *RcorrJZBem = allsamples.Draw("RcorrJZBem",jzb.c_str(),nbins,low,hi, "JZB [GeV]", "events", cutmass&&cutOSOF&&cutnJets,is_data, luminosity,use_signal);
1308	<	TH1F *LcorrJZBem = allsamples.Draw("LcorrJZBem",("-"+jzb).c_str(),nbins,low,hi, "JZB [GeV]", "events", cutmass&&cutOSOF&&cutnJets,is_data, luminosity,use_signal);
1305	>	TH1F *RcorrJZBeemm = allsamples.Draw("RcorrJZBeemm",jzb.c_str(),nbins,low,hi, "JZB [GeV]", "events", cutpositive&&cutmass&&cutOSSF&&cutnJets,is_data, luminosity,use_signal);
1306	>	TH1F *LcorrJZBeemm = allsamples.Draw("LcorrJZBeemm",("-"+jzb).c_str(),nbins,low,hi, "JZB [GeV]", "events", cutnegative&&cutmass&&cutOSSF&&cutnJets,is_data, luminosity,use_signal);
1307	>	TH1F *RcorrJZBem = allsamples.Draw("RcorrJZBem",jzb.c_str(),nbins,low,hi, "JZB [GeV]", "events", cutpositive&&cutmass&&cutOSOF&&cutnJets,is_data, luminosity,use_signal);
1308	>	TH1F *LcorrJZBem = allsamples.Draw("LcorrJZBem",("-"+jzb).c_str(),nbins,low,hi, "JZB [GeV]", "events", cutnegative&&cutmass&&cutOSOF&&cutnJets,is_data, luminosity,use_signal);
1309
1310		blankback->GetXaxis()->SetTitle(RcorrJZBeemm->GetXaxis()->GetTitle());
1311		blankback->GetYaxis()->SetTitle(RcorrJZBeemm->GetYaxis()->GetTitle());
#	Line 968 \| Line 1320 \| void do_prediction_plot(string jzb, TCan
1320
1321		TH1F *RcorrJZBeemmNoS;
1322
1323	<	//these are for the ratio
1324	<
1325	<	TH1F *JRcorrJZBeemm = allsamples.Draw("JRcorrJZBeemm",jzb.c_str(),PlottingSetup::global_ratio_binning, "JZB [GeV]", "events", cutmass&&cutOSSF&&cutnJets,is_data, luminosity,use_signal);
1326	<	TH1F *JLcorrJZBeemm = allsamples.Draw("JLcorrJZBeemm",("-"+jzb).c_str(),PlottingSetup::global_ratio_binning, "JZB [GeV]", "events", cutmass&&cutOSSF&&cutnJets,is_data, luminosity,use_signal);
1327	<	TH1F *JRcorrJZBem = allsamples.Draw("JRcorrJZBem",jzb.c_str(),PlottingSetup::global_ratio_binning, "JZB [GeV]", "events", cutmass&&cutOSOF&&cutnJets,is_data, luminosity,use_signal);
976	<	TH1F *JLcorrJZBem = allsamples.Draw("JLcorrJZBem",("-"+jzb).c_str(),PlottingSetup::global_ratio_binning, "JZB [GeV]", "events", cutmass&&cutOSOF&&cutnJets,is_data, luminosity,use_signal);
1323	>	//these are for the ratio
1324	>	TH1F *JRcorrJZBeemm = allsamples.Draw("JRcorrJZBeemm",jzb.c_str(),PlottingSetup::global_ratio_binning, "JZB [GeV]", "events", cutpositive&&cutmass&&cutOSSF&&cutnJets,is_data, luminosity,use_signal);
1325	>	TH1F *JLcorrJZBeemm = allsamples.Draw("JLcorrJZBeemm",("-"+jzb).c_str(),PlottingSetup::global_ratio_binning, "JZB [GeV]", "events", cutnegative&&cutmass&&cutOSSF&&cutnJets,is_data, luminosity,use_signal);
1326	>	TH1F *JRcorrJZBem = allsamples.Draw("JRcorrJZBem",jzb.c_str(),PlottingSetup::global_ratio_binning, "JZB [GeV]", "events", cutpositive&&cutmass&&cutOSOF&&cutnJets,is_data, luminosity,use_signal);
1327	>	TH1F *JLcorrJZBem = allsamples.Draw("JLcorrJZBem",("-"+jzb).c_str(),PlottingSetup::global_ratio_binning, "JZB [GeV]", "events", cutnegative&&cutmass&&cutOSOF&&cutnJets,is_data, luminosity,use_signal);
1328
1329		TH1F *JRcorrJZBSBem;
1330		TH1F *JLcorrJZBSBem;
1331		TH1F *JRcorrJZBSBeemm;
1332		TH1F *JLcorrJZBSBeemm;
1333
1334	<	if(use_data==2 \|\| overlay_signal) RcorrJZBeemmNoS = allsamples.Draw("RcorrJZBeemmNoS",jzb.c_str(),nbins,low,hi, "JZB [GeV]", "events", cutmass&&cutOSSF&&cutnJets,is_data, luminosity,false);
1334	>	if(use_data==2 \|\| overlay_signal) RcorrJZBeemmNoS = allsamples.Draw("RcorrJZBeemmNoS",jzb.c_str(),nbins,low,hi, "JZB [GeV]", "events", cutpositive&&cutmass&&cutOSSF&&cutnJets,is_data, luminosity,false);
1335
1336
1337	<	if(PlottingSetup::RestrictToMassPeak) {
1338	<	RcorrJZBSBem = allsamples.Draw("RcorrJZBSBem",jzb.c_str(),nbins,low,hi, "JZB [GeV]", "events", sidebandcut&&cutOSOF&&cutnJets,is_data, luminosity,use_signal);
1339	<	LcorrJZBSBem = allsamples.Draw("LcorrJZBSBem",("-"+jzb).c_str(),nbins,low,hi, "JZB [GeV]", "events", sidebandcut&&cutOSOF&&cutnJets,is_data, luminosity,use_signal);
1340	<	RcorrJZBSBeemm = allsamples.Draw("RcorrJZBSBeemm",jzb.c_str(),nbins,low,hi, "JZB [GeV]", "events", sidebandcut&&cutOSSF&&cutnJets,is_data, luminosity,use_signal);
1341	<	LcorrJZBSBeemm = allsamples.Draw("LcorrJZBSBeemm",("-"+jzb).c_str(),nbins,low,hi, "JZB [GeV]", "events", sidebandcut&&cutOSSF&&cutnJets,is_data, luminosity,use_signal);
1337	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
1338	>	RcorrJZBSBem = allsamples.Draw("RcorrJZBSBem",jzb.c_str(),nbins,low,hi, "JZB [GeV]", "events", cutpositive&&sidebandcut&&cutOSOF&&cutnJets,is_data, luminosity,use_signal);
1339	>	LcorrJZBSBem = allsamples.Draw("LcorrJZBSBem",("-"+jzb).c_str(),nbins,low,hi, "JZB [GeV]", "events", cutnegative&&sidebandcut&&cutOSOF&&cutnJets,is_data, luminosity,use_signal);
1340	>	RcorrJZBSBeemm = allsamples.Draw("RcorrJZBSBeemm",jzb.c_str(),nbins,low,hi, "JZB [GeV]", "events", cutpositive&&sidebandcut&&cutOSSF&&cutnJets,is_data, luminosity,use_signal);
1341	>	LcorrJZBSBeemm = allsamples.Draw("LcorrJZBSBeemm",("-"+jzb).c_str(),nbins,low,hi, "JZB [GeV]", "events", cutnegative&&sidebandcut&&cutOSSF&&cutnJets,is_data, luminosity,use_signal);
1342
1343		//these are for the ratio
1344	<	JRcorrJZBSBem = allsamples.Draw("JRcorrJZBSBem",jzb.c_str(),PlottingSetup::global_ratio_binning, "JZB [GeV]", "events", sidebandcut&&cutOSOF&&cutnJets,is_data, luminosity,use_signal);
1345	<	JLcorrJZBSBem = allsamples.Draw("JLcorrJZBSBem",("-"+jzb).c_str(),PlottingSetup::global_ratio_binning, "JZB [GeV]", "events", sidebandcut&&cutOSOF&&cutnJets,is_data, luminosity,use_signal);
1346	<	JRcorrJZBSBeemm = allsamples.Draw("JRcorrJZBSBeemm",jzb.c_str(),PlottingSetup::global_ratio_binning, "JZB [GeV]", "events", sidebandcut&&cutOSSF&&cutnJets,is_data, luminosity,use_signal);
1347	<	JLcorrJZBSBeemm = allsamples.Draw("JLcorrJZBSBeemm",("-"+jzb).c_str(),PlottingSetup::global_ratio_binning, "JZB [GeV]", "events", sidebandcut&&cutOSSF&&cutnJets,is_data, luminosity,use_signal);
1344	>	JRcorrJZBSBem = allsamples.Draw("JRcorrJZBSBem",jzb.c_str(),PlottingSetup::global_ratio_binning, "JZB [GeV]", "events", cutpositive&&sidebandcut&&cutOSOF&&cutnJets,is_data, luminosity,use_signal);
1345	>	JLcorrJZBSBem = allsamples.Draw("JLcorrJZBSBem",("-"+jzb).c_str(),PlottingSetup::global_ratio_binning, "JZB [GeV]", "events", cutnegative&&sidebandcut&&cutOSOF&&cutnJets,is_data, luminosity,use_signal);
1346	>	JRcorrJZBSBeemm = allsamples.Draw("JRcorrJZBSBeemm",jzb.c_str(),PlottingSetup::global_ratio_binning, "JZB [GeV]", "events", cutpositive&&sidebandcut&&cutOSSF&&cutnJets,is_data, luminosity,use_signal);
1347	>	JLcorrJZBSBeemm = allsamples.Draw("JLcorrJZBSBeemm",("-"+jzb).c_str(),PlottingSetup::global_ratio_binning, "JZB [GeV]", "events", cutnegative&&sidebandcut&&cutOSSF&&cutnJets,is_data, luminosity,use_signal);
1348		}
1349
1350		TH1F *lm4RcorrJZBeemm;
1351	<	if(overlay_signal \|\| use_data == 2 \|\| use_data == 1) lm4RcorrJZBeemm = allsamples.Draw("lm4RcorrJZBSBeemm",jzb.c_str(),nbins,low,hi, "JZB [GeV]", "events", cutmass&&cutOSSF&&cutnJets,is_data, luminosity,allsamples.FindSample("LM"));
1351	>	if(overlay_signal \|\| use_data == 2 \|\| use_data == 1) lm4RcorrJZBeemm = allsamples.Draw("lm4RcorrJZBSBeemm",jzb.c_str(),nbins,low,hi, "JZB [GeV]", "events", cutpositive&&cutmass&&cutOSSF&&cutnJets,is_data, luminosity,allsamples.FindSample("LM"));
1352
1353		flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak ---- prediction changed.
1354
#	Line 1010 \| Line 1361 \| void do_prediction_plot(string jzb, TCan
1361		TH1F *BpredSys = new TH1F("Bpredsys","Bpredsys",PlottingSetup::global_ratio_binning.size()-1,&PlottingSetup::global_ratio_binning[0]);
1362		ClearHisto(BpredSys);
1363
1364	<	if(PlottingSetup::RestrictToMassPeak) {
1364	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
1365		Bpred->Add(RcorrJZBem,1.0/3.);
1366		Bpred->Add(LcorrJZBem,-1.0/3.);
1367		Bpred->Add(RcorrJZBSBem,1.0/3.);
#	Line 1061 \| Line 1412 \| void do_prediction_plot(string jzb, TCan
1412		SQRT(BpredSys);
1413		BpredSys->Divide(JBpred);
1414
1064	–
1415		flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak ---- prediction changed
1416		TH1F Tpred = (TH1F)RcorrJZBem->Clone("Bpred");
1417		Tpred->Add(LcorrJZBem,-1.0);
1418	<	if(PlottingSetup::RestrictToMassPeak) {
1418	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
1419		Tpred->Add(RcorrJZBSBem,1.0);
1420		Tpred->Add(LcorrJZBSBem,-1.0);
1421		Tpred->Add(RcorrJZBSBeemm,1.0);
#	Line 1119 \| Line 1469 \| void do_prediction_plot(string jzb, TCan
1469		legBpred->AddEntry(Bpred,"predicted","l");
1470		// legBpred->AddEntry(analytical_function[1],"predicted fit","l");
1471		// legBpred->AddEntry(analytical_function[2],"stat. uncert.","l");
1472	<	legBpred->AddEntry(lm4RcorrJZBeemm,"LM4","l");
1472	>	legBpred->AddEntry(lm4RcorrJZBeemm,(allsamples.collection[allsamples.FindSample("LM")[0]].samplename).c_str(),"l");
1473		legBpred->Draw();
1474		DrawPrelim();
1475
#	Line 1129 \| Line 1479 \| void do_prediction_plot(string jzb, TCan
1479		Bpred->SetLineWidth(2);
1480		predcomppad->cd();
1481		predcomppad->SetLogy(1);
1132	–
1482		TH1F jzbnegative = (TH1F)LcorrJZBeemm->Clone("jzbnegative");
1483		TH1F sidebandsemu = (TH1F)Bpred->Clone("sidebandsemu");
1484		sidebandsemu->Add(jzbnegative,-1);
#	Line 1158 \| Line 1507 \| void do_prediction_plot(string jzb, TCan
1507		speciallegBpred->AddEntry(RcorrJZBeemm,"Data","pl");
1508		speciallegBpred->AddEntry(Bpred,"Total background","l");
1509		speciallegBpred->AddEntry(jzbnegative,"JZB<0 (data)","f");
1510	<	if(PlottingSetup::RestrictToMassPeak) speciallegBpred->AddEntry(sidebandsemu,"Sidebands/e#mu (data)","f");
1510	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) speciallegBpred->AddEntry(sidebandsemu,"Sidebands/e#mu (data)","f");
1511		else speciallegBpred->AddEntry(sidebandsemu,"e#mu (data)","f");
1512		// speciallegBpred->AddEntry(lm4RcorrJZBeemmC,"LM4","l");
1513		speciallegBpred->AddEntry(lm4RcorrJZBeemm,"LM4","l");
#	Line 1179 \| Line 1528 \| void do_prediction_plot(string jzb, TCan
1528		CompleteSave(specialcanv,subdir+"Bpred_Data_____PredictionCompositioninMC");
1529		Bpred->SetLineWidth((int)CurrentBpredLineWidth);
1530
1531	+
1532	+	//for(int i=1;i<=Bpred->GetNbinsX();i++) cout << Bpred->GetBinLowEdge(i) << ";" << Bpred->GetBinLowEdge(i)+Bpred->GetBinWidth(i) << ";;" << RcorrJZBeemm->GetBinContent(i) << ";" << LcorrJZBeemm->GetBinContent(i) << ";" << RcorrJZBem->GetBinContent(i) << ";" << LcorrJZBem->GetBinContent(i) << endl;
1533	+
1534		delete speciallegBpred;
1535		delete Zjetspred;
1536		delete TTbarpred;
#	Line 1243 \| Line 1595 \| void do_prediction_plot(string jzb, TCan
1595		string ytitle("ratio");
1596		if ( use_data==1 ) ytitle = "data/pred";
1597		//save_with_ratio(JRcorrJZBeemm,JBpred,kinpad,Bpredsaveas,true,use_data!=1,ytitle);
1598	<	save_with_ratio(JRcorrJZBeemm,JBpred,kinpad,subdir+Bpredsaveas,true,true,ytitle,BpredSys);//not extending the y range anymore up to 4
1598	>	save_with_ratio(JRcorrJZBeemm,JBpred,kinpad,subdir+Bpredsaveas,true,false,ytitle,BpredSys);//not extending the y range anymore up to 4
1599	>
1600
1601
1602		flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
1603		// The part below is meaningless for the offpeak analysis (it's a comparison of the different estimates but there is but one estimate!)
1604	<	if(PlottingSetup::RestrictToMassPeak) {
1604	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
1605		TH1F Bpredem = (TH1F)LcorrJZBeemm->Clone("Bpredem");
1606		Bpredem->Add(RcorrJZBem);
1607		Bpredem->Add(LcorrJZBem,-1);
#	Line 1327 \| Line 1680 \| void do_prediction_plot(string jzb, TCan
1680		delete blankback;
1681
1682		delete BpredSys;
1683	<	if(PlottingSetup::RestrictToMassPeak) {
1683	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
1684		delete RcorrJZBSBem;
1685		delete LcorrJZBSBem;
1686		delete RcorrJZBSBeemm;
#	Line 1339 \| Line 1692 \| void do_prediction_plot(string jzb, TCan
1692		delete JLcorrJZBSBeemm;
1693		}
1694		if(overlay_signal \|\| use_data==2) delete lm4RcorrJZBeemm;
1342	–	switch_overunderflow(false);
1695		}
1696
1697		void do_prediction_plots(string mcjzb, string datajzb, float DataSigma, float MCSigma, bool overlay_signal ) {
1698	+	switch_overunderflow(true);
1699		TCanvas *globalcanvas = new TCanvas("globalcanvas","Prediction Canvas");
1700		do_prediction_plot(datajzb,globalcanvas,jzbHigh ,data,overlay_signal);
1701		if ( !PlottingSetup::Approved ) {
#	Line 1351 \| Line 1704 \| void do_prediction_plots(string mcjzb, s
1704		} else {
1705		write_info(__FUNCTION__,"You set approved to true, therefore not producing prediction/observation plots for MC with and without signal.");
1706		}
1707	<	}
1708	<
1356	<	void do_ratio_plot(int is_data,vector<float> binning, string jzb, TCanvas *can, float high=-9999) {
1357	<	bool do_data=0;
1358	<	bool dosignal=0;
1359	<	if(is_data==1) do_data=1;
1360	<	if(is_data==2) dosignal=1;
1361	<	TH1F *RcorrJZBeemm = allsamples.Draw("RcorrJZBeemm",jzb.c_str(),binning, "JZB [GeV]", "events", cutmass&&cutOSSF&&cutnJets,do_data, luminosity,dosignal);
1362	<	TH1F *LcorrJZBeemm = allsamples.Draw("LcorrJZBeemm",("-"+jzb).c_str(),binning, "JZB [GeV]", "events", cutmass&&cutOSSF&&cutnJets,do_data, luminosity,dosignal);
1363	<	TH1F *RcorrJZBem = allsamples.Draw("RcorrJZBem",jzb.c_str(),binning, "JZB [GeV]", "events", cutmass&&cutOSOF&&cutnJets,do_data, luminosity,dosignal);
1364	<	TH1F *LcorrJZBem = allsamples.Draw("LcorrJZBem",("-"+jzb).c_str(),binning, "JZB [GeV]", "events", cutmass&&cutOSOF&&cutnJets,do_data, luminosity,dosignal);
1365	<
1366	<	TH1F *RcorrJZBSBem;
1367	<	TH1F *LcorrJZBSBem;
1368	<	TH1F *RcorrJZBSBeemm;
1369	<	TH1F *LcorrJZBSbeemm;
1370	<
1371	<	if(PlottingSetup::RestrictToMassPeak) {
1372	<	RcorrJZBSBem = allsamples.Draw("RcorrJZBSbem",jzb.c_str(),binning, "JZB [GeV]", "events", sidebandcut&&cutOSOF&&cutnJets,do_data, luminosity,dosignal);
1373	<	LcorrJZBSBem = allsamples.Draw("LcorrJZBSbem",("-"+jzb).c_str(),binning, "JZB [GeV]", "events", sidebandcut&&cutOSOF&&cutnJets,do_data, luminosity,dosignal);
1374	<	RcorrJZBSBeemm = allsamples.Draw("RcorrJZBSbeemm",jzb.c_str(),binning, "JZB [GeV]", "events", sidebandcut&&cutOSSF&&cutnJets,do_data, luminosity,dosignal);
1375	<	LcorrJZBSbeemm = allsamples.Draw("LcorrJZBSbeemm",("-"+jzb).c_str(),binning, "JZB [GeV]", "events", sidebandcut&&cutOSSF&&cutnJets,do_data, luminosity,dosignal);
1376	<	}
1377	<
1378	<
1379	<
1380	<
1381	<	flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
1382	<	TH1F Bpred = (TH1F)LcorrJZBeemm->Clone("Bpred");
1383	<	if(PlottingSetup::RestrictToMassPeak) {
1384	<	Bpred->Add(RcorrJZBem,1.0/3);
1385	<	Bpred->Add(LcorrJZBem,-1.0/3);
1386	<	Bpred->Add(RcorrJZBSBem,1.0/3);
1387	<	Bpred->Add(LcorrJZBSBem,-1.0/3);
1388	<	Bpred->Add(RcorrJZBSBeemm,1.0/3);
1389	<	Bpred->Add(LcorrJZBSbeemm,-1.0/3);
1390	<	} else {
1391	<	Bpred->Add(RcorrJZBem,1.0);
1392	<	Bpred->Add(LcorrJZBem,-1.0);
1393	<	}
1394	<
1395	<	can->cd();
1396	<	can->SetLogy(0);
1397	<	Bpred->SetLineColor(kRed);
1398	<	Bpred->SetStats(0);
1399	<	if(high>0) Bpred->GetXaxis()->SetRangeUser(0,high);
1400	<	TH1F JZBratioforfitting=(TH1F)RcorrJZBeemm->Clone("JZBratioforfitting");
1401	<	JZBratioforfitting->Divide(Bpred);
1402	<	TGraphAsymmErrors *JZBratio = histRatio(RcorrJZBeemm,Bpred,is_data,binning,false);
1403	<
1404	<
1405	<	JZBratio->SetTitle("");
1406	<	JZBratio->GetYaxis()->SetRangeUser(0.0,9.0);
1407	<	// if(is_data==1) JZBratio->GetXaxis()->SetRangeUser(0,jzbHigh );
1408	<
1409	<	TF1 *pol0 = new TF1("pol0","[0]",0,1000);
1410	<	TF1 *pol0d = new TF1("pol0","[0]",0,1000);
1411	<	// straightline_fit->SetParameter(0,1);
1412	<	JZBratioforfitting->Fit(pol0,"Q0R","",0,30);
1413	<	pol0d->SetParameter(0,pol0->GetParameter(0));
1414	<
1415	<	JZBratio->GetYaxis()->SetTitle("Observed/Predicted");
1416	<	JZBratio->GetXaxis()->SetTitle("JZB [GeV]");
1417	<	if ( high>0 ) JZBratio->GetXaxis()->SetRangeUser(0.0,high);
1418	<	JZBratio->GetYaxis()->SetNdivisions(519);
1419	<	JZBratio->GetYaxis()->SetRangeUser(0.0,4.0);
1420	<	JZBratio->GetYaxis()->CenterTitle();
1421	<	JZBratio->GetXaxis()->CenterTitle();
1422	<	JZBratio->SetMarkerSize(DataMarkerSize);
1423	<	JZBratio->Draw("AP");
1424	<	/////----------------------------
1425	<	TPaveText *writeresult = new TPaveText(0.15,0.78,0.49,0.91,"blNDC");
1426	<	writeresult->SetFillStyle(4000);
1427	<	writeresult->SetFillColor(kWhite);
1428	<	writeresult->SetTextFont(42);
1429	<	writeresult->SetTextSize(0.03);
1430	<	writeresult->SetTextAlign(12);
1431	<	ostringstream jzb_agreement_data_text;
1432	<	jzb_agreement_data_text<< setprecision(2) << "mean =" << pol0->GetParameter(0) << " #pm " << setprecision(1) << pol0->GetParError(0);
1433	<	if(is_data==1) fitresultconstdata=pol0->GetParameter(0);// data
1434	<	if(is_data==0) fitresultconstmc=pol0->GetParameter(0); // monte carlo, no signal
1435	<	/* if(is_data) writeresult->AddText("Data closure test");
1436	<	else writeresult->AddText("MC closure test");
1437	<	*/
1438	<	writeresult->AddText(jzb_agreement_data_text.str().c_str());
1439	<	// writeresult->Draw("same");
1440	<	// pol0d->Draw("same");
1441	<	TF1 *topline = new TF1("","1.5",0,1000);
1442	<	TF1 *bottomline = new TF1("","0.5",0,1000);
1443	<	topline->SetLineColor(kBlue);
1444	<	topline->SetLineStyle(2);
1445	<	bottomline->SetLineColor(kBlue);
1446	<	bottomline->SetLineStyle(2);
1447	<	// topline->Draw("same");
1448	<	// bottomline->Draw("same");
1449	<	TF1 *oneline = new TF1("","1.0",0,1000);
1450	<	oneline->SetLineColor(kBlue);
1451	<	oneline->SetLineStyle(1);
1452	<	oneline->Draw("same");
1453	<	TLegend *phony_leg = make_legend("ratio",0.6,0.55,false);//this line is just to have the default CMS Preliminary (...) on the canvas as well.
1454	<	if(is_data==1) DrawPrelim();
1455	<	else DrawMCPrelim();
1456	<	TLegend *leg = new TLegend(0.55,0.75,0.89,0.89);
1457	<	leg->SetTextFont(42);
1458	<	leg->SetTextSize(0.04);
1459	<	// if(is_data==1) leg->SetHeader("Ratio (data)");
1460	<	// else leg->SetHeader("Ratio (MC)");
1461	<
1462	<	TString MCtitle("MC ");
1463	<	if (is_data==1) MCtitle = "";
1464	<
1465	<	leg->SetFillStyle(4000);
1466	<	leg->SetFillColor(kWhite);
1467	<	leg->SetTextFont(42);
1468	<	// leg->AddEntry(topline,"+20\% sys envelope","l");
1469	<	leg->AddEntry(JZBratio,MCtitle+"obs / "+MCtitle+"pred","p");
1470	<	leg->AddEntry(oneline,"ratio = 1","l");
1471	<	// leg->AddEntry(pol0d,"fit in [0,30] GeV","l");
1472	<	// leg->AddEntry(bottomline,"#pm50% envelope","l");
1473	<
1474	<
1475	<	//leg->Draw("same"); // no longer drawing legend
1476	<
1477	<	if(is_data==1) CompleteSave(can, "jzb_ratio_data");
1478	<	if(is_data==0) CompleteSave(can, "jzb_ratio_mc");
1479	<	if(is_data==2) CompleteSave(can, "jzb_ratio_mc_BandS");//special case, MC with signal!
1480	<
1481	<	delete RcorrJZBeemm;
1482	<	delete LcorrJZBeemm;
1483	<	delete RcorrJZBem;
1484	<	delete LcorrJZBem;
1485	<
1486	<	delete RcorrJZBSBem;
1487	<	delete LcorrJZBSBem;
1488	<	delete RcorrJZBSBeemm;
1489	<	delete LcorrJZBSbeemm;
1490	<	}
1491	<
1492	<	void do_ratio_plots(string mcjzb,string datajzb,vector<float> ratio_binning) {
1493	<	TCanvas *globalc = new TCanvas("globalc","Ratio Plot Canvas");
1494	<	globalc->SetLogy(0);
1495	<
1496	<	do_ratio_plot(mc,ratio_binning,mcjzb,globalc, jzbHigh );
1497	<	do_ratio_plot(data,ratio_binning,datajzb,globalc, jzbHigh );
1498	<	do_ratio_plot(mcwithsignal,ratio_binning,mcjzb,globalc, jzbHigh );
1707	>	delete globalcanvas;
1708	>	switch_overunderflow(false);
1709		}
1710
1711		string give_jzb_expression(float peak, int type) {
#	Line 1687 \| Line 1897 \| void draw_pure_jzb_histo(TCut cut,string
1897		datahisto->Draw("same,e1");
1898
1899		TLegend *leg;
1900	<	if(is_OF(cut) && is_ZP(cut)) leg = allsamples.allbglegend("OFZP",datahisto);
1901	<	else if(!is_OF(cut) && is_ZP(cut)) leg = allsamples.allbglegend("SFZP",datahisto);
1902	<	else if( is_OF(cut) && !is_ZP(cut)) leg = allsamples.allbglegend("OFSB",datahisto);
1903	<	else if(!is_OF(cut) && !is_ZP(cut)) leg = allsamples.allbglegend("SFSB",datahisto);
1904	<	else {
1905	<	std::cerr << "Unable to decode cut: " << cut.GetTitle() << std::endl;
1906	<	exit(-1);
1907	<	}
1900	>	if (!PlottingSetup::RestrictToMassPeak\|\|!PlottingSetup::UseSidebandsForcJZB) {
1901	>	if(is_OF(cut)) leg = allsamples.allbglegend("Opposite flavor",datahisto);
1902	>	else leg = allsamples.allbglegend("Same flavor",datahisto);
1903	>	} else {
1904	>	if(is_OF(cut) && is_ZP(cut)) leg = allsamples.allbglegend("OFZP",datahisto);
1905	>	else if(!is_OF(cut) && is_ZP(cut)) leg = allsamples.allbglegend("SFZP",datahisto);
1906	>	else if( is_OF(cut) && !is_ZP(cut)) leg = allsamples.allbglegend("OFSB",datahisto);
1907	>	else if(!is_OF(cut) && !is_ZP(cut)) leg = allsamples.allbglegend("SFSB",datahisto);
1908	>	else {
1909	>	std::cerr << "Unable to decode cut: " << cut.GetTitle() << std::endl;
1910	>	exit(-1);
1911	>	}
1912	>	}
1913		leg->Draw();
1914		string write_cut = decipher_cut(cut,"");
1915		TText *writeline1 = write_cut_on_canvas(write_cut.c_str());
#	Line 1745 \| Line 1960 \| void produce_stretched_jzb_plots(string
1960		draw_pure_jzb_histo(cutOSSF&&cutnJets&&cutmass&&"id1==1",datajzb,mcjzb,"Dibosons/mm/jzb_OS_SFZP",dican,binning);
1961		draw_pure_jzb_histo(cutOSOF&&cutnJets&&cutmass&&"id1==0",datajzb,mcjzb,"Dibosons/ee/jzb_OS_OFZP",dican,binning);
1962		draw_pure_jzb_histo(cutOSOF&&cutnJets&&cutmass&&"id1==1",datajzb,mcjzb,"Dibosons/mm/jzb_OS_OFZP",dican,binning);
1963	<	if(PlottingSetup::RestrictToMassPeak) draw_pure_jzb_histo(cutOSSF&&cutnJets&&sidebandcut,datajzb,mcjzb,"Dibosons/jzb_OS_SFSB",dican,binning);
1964	<	if(PlottingSetup::RestrictToMassPeak) draw_pure_jzb_histo(cutOSOF&&cutnJets&&sidebandcut,datajzb,mcjzb,"Dibosons/jzb_OS_OFSB",dican,binning);
1963	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) draw_pure_jzb_histo(cutOSSF&&cutnJets&&sidebandcut,datajzb,mcjzb,"Dibosons/jzb_OS_SFSB",dican,binning);
1964	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) draw_pure_jzb_histo(cutOSOF&&cutnJets&&sidebandcut,datajzb,mcjzb,"Dibosons/jzb_OS_OFSB",dican,binning);
1965
1966		draw_pure_jzb_histo(cutOSSF&&cutnJets&&cutmass,datajzb,mcjzb,"Dibosons/jzb_OS_SFZP_coarse",dican,coarse_binning);
1967		draw_pure_jzb_histo(cutOSOF&&cutnJets&&cutmass,datajzb,mcjzb,"Dibosons/jzb_OS_OFZP_coarse",dican,coarse_binning);
1968	<	if(PlottingSetup::RestrictToMassPeak) draw_pure_jzb_histo(cutOSSF&&cutnJets&&sidebandcut,datajzb,mcjzb,"Dibosons/jzb_OS_SFSB_coarse",dican,coarse_binning);
1969	<	if(PlottingSetup::RestrictToMassPeak) draw_pure_jzb_histo(cutOSOF&&cutnJets&&sidebandcut,datajzb,mcjzb,"Dibosons/jzb_OS_OFSB_coarse",dican,coarse_binning);
1968	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) draw_pure_jzb_histo(cutOSSF&&cutnJets&&sidebandcut,datajzb,mcjzb,"Dibosons/jzb_OS_SFSB_coarse",dican,coarse_binning);
1969	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) draw_pure_jzb_histo(cutOSOF&&cutnJets&&sidebandcut,datajzb,mcjzb,"Dibosons/jzb_OS_OFSB_coarse",dican,coarse_binning);
1970
1971		delete dican;
1972		}
1973
1974
1975		void diboson_plots(string mcjzb, string datajzb,vector<float> ratio_binning) {
1976	+	switch_overunderflow(true);
1977		vector<int> SamplesToBeModified = allsamples.FindSampleBySampleName("WW/WZ/ZZ");
1978
1979		if(SamplesToBeModified.size()==0 \|\| SamplesToBeModified[0]==-1) {
#	Line 1797 \| Line 2013 \| void diboson_plots(string mcjzb, string
2013		dout << " Reset xs for sample " << (allsamples.collection)[SamplesToBeModified[i]].samplename << " from " << Upxs << " to " << (allsamples.collection)[SamplesToBeModified[i]].xs << " (by a factor of " << stretchfactor << ") and reset the correct name (from " << Upname << ")" << endl;
2014
2015		}
2016	+	// switch_overunderflow(false);
2017	+	}
2018	+
2019	+
2020	+	void draw_normalized_data_vs_data_histo(TCut cut1, TCut cut2, string variable, string legentry1, string legentry2, string savename, TCanvas *can,vector<float> binning) {
2021	+	TPad *jzbpad = new TPad("jzbpad","jzbpad",0,0,1,1);
2022	+	jzbpad->cd();
2023	+	jzbpad->SetLogy(1);
2024	+	string xlabel="JZB [GeV]";
2025	+
2026	+	TH1F *datahisto1 = allsamples.Draw("datahisto1",variable,binning, xlabel, "events",cut1,data,luminosity);
2027	+	datahisto1->SetLineColor(kRed);
2028	+	datahisto1->SetMarkerColor(kRed);
2029	+	TH1F *datahisto2 = allsamples.Draw("datahisto2",variable,binning, xlabel, "events",cut2,data,luminosity);
2030	+	datahisto2->SetLineColor(kBlue);
2031	+	datahisto2->SetMarkerColor(kBlue);
2032	+
2033	+	datahisto2->SetMarkerSize(DataMarkerSize);
2034	+	datahisto1->DrawNormalized("e1");
2035	+	datahisto2->DrawNormalized("histo,same");
2036	+	datahisto1->DrawNormalized("same,e1");
2037	+
2038	+	TLegend *leg = make_legend();
2039	+	leg->AddEntry(datahisto1,legentry1.c_str());
2040	+	leg->AddEntry(datahisto2,legentry2.c_str());
2041	+	leg->Draw();
2042
2043	+	save_with_ratio(datahisto1,datahisto2,jzbpad->cd(),("jzb/"+savename));
2044	+
2045	+	datahisto1->Delete();
2046	+	datahisto2->Delete();
2047		}
2048	+
2049	+
2050		void jzb_plots(string mcjzb, string datajzb,vector<float> ratio_binning) {
2051	+	switch_overunderflow(true);
2052		TCanvas *can = new TCanvas("can","JZB Plots Canvas");
2053		float max=jzbHigh ;
2054		float min=-120;
#	Line 1820 \| Line 2069 \| void jzb_plots(string mcjzb, string data
2069		draw_pure_jzb_histo(cutOSOF&&cutnJets&&cutmass&&"id1==0",datajzb,mcjzb,"ee/jzb_OS_OFZP",can,binning);
2070		draw_pure_jzb_histo(cutOSOF&&cutnJets&&cutmass&&"id1==1",datajzb,mcjzb,"mm/jzb_OS_OFZP",can,binning);
2071		flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
2072	<	if(PlottingSetup::RestrictToMassPeak) draw_pure_jzb_histo(cutOSSF&&cutnJets&&sidebandcut,datajzb,mcjzb,"jzb_OS_SFSB",can,binning);
2073	<	if(PlottingSetup::RestrictToMassPeak) draw_pure_jzb_histo(cutOSOF&&cutnJets&&sidebandcut,datajzb,mcjzb,"jzb_OS_OFSB",can,binning);
2072	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) draw_pure_jzb_histo(cutOSSF&&cutnJets&&sidebandcut,datajzb,mcjzb,"jzb_OS_SFSB",can,binning);
2073	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) draw_pure_jzb_histo(cutOSOF&&cutnJets&&sidebandcut,datajzb,mcjzb,"jzb_OS_OFSB",can,binning);
2074	>	draw_normalized_data_vs_data_histo(cutOSOF&&cutnJets&&cutmass&&"id1==0",cutOSOF&&cutnJets&&cutmass&&"id1==1",datajzb,"ee","mm","jzb_ee_vs_mm",can,binning);
2075	>	draw_normalized_data_vs_data_histo(cutOSOF&&cutnJets&&cutmass&&"id1==0",cutOSOF&&cutnJets&&cutmass&&"id1==1",datajzb,"ee","mm","jzb_ee_vs_mm_coarse",can,coarse_binning);
2076	>	draw_normalized_data_vs_data_histo(cutOSOF&&cutnJets&&cutmass&&"id1==0",cutOSOF&&cutnJets&&cutmass&&"id1==1",datajzb,"ee","mm","jzb_ee_vs_mm_coarsest",can,coarsest_binning);
2077	>
2078		}
2079
2080		draw_pure_jzb_histo(cutOSSF&&cutnJets&&cutmass,datajzb,mcjzb,"jzb_OS_SFZP_coarse",can,coarse_binning);
2081		if ( !PlottingSetup::Approved ) {
2082		draw_pure_jzb_histo(cutOSOF&&cutnJets&&cutmass,datajzb,mcjzb,"jzb_OS_OFZP_coarse",can,coarse_binning);
2083		flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
2084	<	if(PlottingSetup::RestrictToMassPeak) draw_pure_jzb_histo(cutOSSF&&cutnJets&&sidebandcut,datajzb,mcjzb,"jzb_OS_SFSB_coarse",can,coarse_binning);
2085	<	if(PlottingSetup::RestrictToMassPeak) draw_pure_jzb_histo(cutOSOF&&cutnJets&&sidebandcut,datajzb,mcjzb,"jzb_OS_OFSB_coarse",can,coarse_binning);
2084	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) draw_pure_jzb_histo(cutOSSF&&cutnJets&&sidebandcut,datajzb,mcjzb,"jzb_OS_SFSB_coarse",can,coarse_binning);
2085	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) draw_pure_jzb_histo(cutOSOF&&cutnJets&&sidebandcut,datajzb,mcjzb,"jzb_OS_OFSB_coarse",can,coarse_binning);
2086		}
2087		delete can;
2088	+	switch_overunderflow(false);
2089		}
2090
2091
#	Line 1881 \| Line 2135 \| void compute_MC_yields(string mcjzb,vect
2135		TCanvas *yica = new TCanvas("yica","yield canvas");
2136
2137		int nRegions=4;
2138	<	if(!PlottingSetup::RestrictToMassPeak) nRegions=2;
2138	>	if(!PlottingSetup::RestrictToMassPeak\|\|!PlottingSetup::UseSidebandsForcJZB) nRegions=2;
2139		string tsRegions[] = {"SFZP","OFZP","SFSB","OFSB"};
2140		string posneg[] = {"pos","neg"};
2141		TCut tkRegions[] = {cutOSSF&&cutnJets&&cutmass,cutOSOF&&cutnJets&&cutmass,cutOSSF&&cutnJets&&sidebandcut,cutOSOF&&cutnJets&&sidebandcut};
#	Line 2172 \| Line 2426 \| float find_one_correction_factor(string
2426		TCanvas *cancorr = new TCanvas("cancorr","Canvas for Response Correction");
2427		cancorr->SetLogz();
2428		cancorr->SetRightMargin(0.13);
2429	<	TCut zptforresponsepresentation("pt<600"&&cutmass&&cutOSSF&&"((sumJetPt[1]/pt)<5.0)"&&SpecialCut&&passtrig);
2429	>	TCut zptforresponsepresentation(Restrmasscut&&SpecialCut&&passtrig);
2430	>
2431		if(PlottingSetup::DoBTag) zptforresponsepresentation=zptforresponsepresentation&&PlottingSetup::bTagRequirement;
2432		TH2F *niceresponseplotd = new TH2F("niceresponseplotd","",100,0,600,100,0,5);
2433	+	niceresponseplotd->Sumw2();
2434	+	TH2F* emuResponse = (TH2F*)niceresponseplotd->Clone("emuResponse");
2435		vector<int> SampleIndices=allsamples.FindSample(FindKeyword);
2436	<	for(int iSample=0;iSample<SampleIndices.size();iSample++) {
2436	>	for(int iSample=0;iSample<(int)SampleIndices.size();iSample++) {
2437		if((allsamples.collection)[SampleIndices[iSample]].is_data && !dodata) continue;
2438		if((allsamples.collection)[SampleIndices[iSample]].is_data ==false && dodata) continue;
2439
2440		dout << " Response correction : Using sample " << (allsamples.collection)[SampleIndices[iSample]].filename << " for " << FindKeyword << endl;
2441	<	(allsamples.collection)[SampleIndices[iSample]].events->Draw("sumJetPt[1]/pt:pt>>+niceresponseplotd",zptforresponsepresentation*cutWeight);
2441	>	(allsamples.collection)[SampleIndices[iSample]].events->Draw("sumJetPt[1]/pt:pt>>+niceresponseplotd",(zptforresponsepresentation&&cutOSSF)*cutWeight);
2442	>	(allsamples.collection)[SampleIndices[iSample]].events->Draw("sumJetPt[1]/pt:pt>>+emuResponse",(zptforresponsepresentation&&cutOSOF)*cutWeight);
2443		}
2444	<
2444	>	niceresponseplotd->Add(emuResponse,-1);
2445	>
2446		niceresponseplotd->SetStats(0);
2447		niceresponseplotd->GetXaxis()->SetTitle("Z p_{T} [GeV]");
2448		niceresponseplotd->GetYaxis()->SetTitle("Response");
#	Line 2191 \| Line 2450 \| float find_one_correction_factor(string
2450		niceresponseplotd->GetYaxis()->CenterTitle();
2451		niceresponseplotd->Draw("COLZ");
2452		TProfile * profd = (TProfile*)niceresponseplotd->ProfileX();
2453	+	profd->Rebin(2);
2454		profd->SetMarkerSize(DataMarkerSize);
2455		profd->Fit("pol0","","same,e1",100,400);
2456		DrawPrelim();
#	Line 2210 \| Line 2470 \| float find_one_correction_factor(string
2470		CompleteSave(cancorr,"ResponseCorrection/Response_Correction_Illustration_New_"+SaveAs);
2471		delete cancorr;
2472		delete niceresponseplotd;
2473	+	delete profd;
2474		return correction;
2475		}
2476
#	Line 2322 \| Line 2583 \| void save_template(string mcjzb, string
2583		configfile<<"\n\n";
2584		configfile<<"luminosity="<<luminosity<<";\n";
2585		configfile<<"RestrictToMassPeak="<<RestrictToMassPeak<<";//defines the type of analysis we're running\n";
2586	+	configfile<<"UseSidebandsForcJZB="<<UseSidebandsForcJZB<<";//tells us whether to use the sidebands or not\n";
2587
2588		configfile<<"\n\ncout << \"Configuration successfully loaded!\" << endl; \n \n } \n \n";
2589
#	Line 2364 \| Line 2626 \| void ttbar_sidebands_comparison(string m
2626		//in the case of the on peak analysis, we compare the 3 control regions to the real value
2627		//in the case of the OFF peak analysis, we compare our control region to the real value
2628		TCut weightbackup=cutWeight;
2629	<	cutWeight="1.0";
2629	>	switch_overunderflow(true);
2630	>
2631	>	bool doPURW=false;
2632	>
2633	>
2634	>	if(!doPURW) {
2635	>	dout << "Not doing PU reweighting for ttbar closure test" << endl;
2636	>	cutWeight="1.0";
2637	>	// Do it without PU re-weighting
2638	>	float MCPeakNoPU=0,MCPeakErrorNoPU=0,DataPeakNoPU=0,DataPeakErrorNoPU=0,MCSigma=0,DataSigma=0;
2639	>	stringstream resultsNoPU;
2640	>	stringstream noPUdatajzb;
2641	>	stringstream noPUmcjzb;
2642	>
2643	>	stringstream mcjzbnoPU;
2644	>	find_peaks(MCPeakNoPU,MCPeakErrorNoPU, DataPeakNoPU, DataPeakErrorNoPU,resultsNoPU,true,noPUdatajzb,noPUmcjzb);
2645	>	mcjzb = noPUmcjzb.str();
2646	>	}
2647	>
2648	>
2649		float simulatedlumi = luminosity; //in pb please - adjust to your likings
2650
2651	<	TH1F *TZem = systsamples.Draw("TZem",mcjzb,binning,"JZB [GeV]","events",cutmass&&cutOSOF&&cutnJets,mc,simulatedlumi,systsamples.FindSample("TTJets"));
2651	>	TH1F *TZem = systsamples.Draw("TZem", mcjzb,binning,"JZB [GeV]","events",cutmass&&cutOSOF&&cutnJets,mc,simulatedlumi,systsamples.FindSample("TTJets"));
2652		TH1F *nTZem = systsamples.Draw("nTZem","-"+mcjzb,binning,"JZB [GeV]","events",cutmass&&cutOSOF&&cutnJets,mc,simulatedlumi,systsamples.FindSample("TTJets"));
2653		TH1F *TSem;
2654		TH1F *nTSem;
2655	<	TH1F *TZeemm = systsamples.Draw("TZeemm",mcjzb,binning,"JZB [GeV]","events",cutmass&&cutOSSF&&cutnJets,mc,simulatedlumi,systsamples.FindSample("TTJets"));
2655	>	TH1F *TZeemm = systsamples.Draw("TZeemm", mcjzb,binning,"JZB [GeV]","events",cutmass&&cutOSSF&&cutnJets,mc,simulatedlumi,systsamples.FindSample("TTJets"));
2656		TH1F *nTZeemm = systsamples.Draw("nTZeemm","-"+mcjzb,binning,"JZB [GeV]","events",cutmass&&cutOSSF&&cutnJets,mc,simulatedlumi,systsamples.FindSample("TTJets"));
2657		TH1F *TSeemm;
2658		TH1F *nTSeemm;
2659
2660	<	if(PlottingSetup::RestrictToMassPeak) {
2661	<	TSem = systsamples.Draw("TSem",mcjzb,binning,"JZB [GeV]","events",sidebandcut&&cutOSOF&&cutnJets,mc,simulatedlumi,systsamples.FindSample("TTJets"));
2662	<	nTSem = systsamples.Draw("nTSem","-"+mcjzb,binning,"JZB [GeV]","events",sidebandcut&&cutOSOF&&cutnJets,mc,simulatedlumi,systsamples.FindSample("TTJets"));
2663	<	TSeemm = systsamples.Draw("TSeemm",mcjzb,binning,"JZB [GeV]","events",sidebandcut&&cutOSSF&&cutnJets,mc,simulatedlumi,systsamples.FindSample("TTJets"));
2660	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
2661	>	TSem = systsamples.Draw("TSem", mcjzb,binning,"JZB [GeV]","events",sidebandcut&&cutOSOF&&cutnJets,mc,simulatedlumi,systsamples.FindSample("TTJets"));
2662	>	nTSem = systsamples.Draw("nTSem", "-"+mcjzb,binning,"JZB [GeV]","events",sidebandcut&&cutOSOF&&cutnJets,mc,simulatedlumi,systsamples.FindSample("TTJets"));
2663	>	TSeemm = systsamples.Draw("TSeemm", mcjzb,binning,"JZB [GeV]","events",sidebandcut&&cutOSSF&&cutnJets,mc,simulatedlumi,systsamples.FindSample("TTJets"));
2664		nTSeemm = systsamples.Draw("nTSeemm","-"+mcjzb,binning,"JZB [GeV]","events",sidebandcut&&cutOSSF&&cutnJets,mc,simulatedlumi,systsamples.FindSample("TTJets"));
2665		}
2666
2667		TCanvas *tcan = new TCanvas("tcan","tcan");
2387	–
2668		tcan->SetLogy(1);
2669
2670		TZeemm->SetLineColor(kBlack);
#	Line 2393 \| Line 2673 \| void ttbar_sidebands_comparison(string m
2673		TZem->SetMarkerColor(kRed);
2674
2675
2676	<	if(PlottingSetup::RestrictToMassPeak) {
2676	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
2677		TSem->SetLineColor(TColor::GetColor("#00A616"));
2678		TSeemm->SetLineColor(kMagenta+2);
2679		TSem->SetMarkerColor(TColor::GetColor("#00A616"));
#	Line 2407 \| Line 2687 \| void ttbar_sidebands_comparison(string m
2687		TZeemm->GetXaxis()->SetRangeUser(-100,binning[binning.size()-1]);
2688		histos.push_back(TZem);
2689		histos.push_back(TZeemm);
2690	<	if(PlottingSetup::RestrictToMassPeak) {
2690	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
2691		TSeemm->GetXaxis()->SetRangeUser(-100,binning[binning.size()-1]);
2692		TSem->GetXaxis()->SetRangeUser(-100,binning[binning.size()-1]);
2693		histos.push_back(TSem);
2694		histos.push_back(TSeemm);
2695		}
2696	<	draw_all_ttbar_histos(tcan,histos,"histo",0.04);
2696	>	draw_all_ttbar_histos(tcan,histos,"histo",1);
2697
2698		TLegend *leg = make_legend("MC t#bar{t}",0.6,0.65,false);
2699		leg->AddEntry(TZeemm,"SFZP","l");
2700		leg->AddEntry(TZem,"OFZP","l");
2701	<	if(PlottingSetup::RestrictToMassPeak) {
2701	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
2702		leg->AddEntry(TSeemm,"SFSB","l");
2703		leg->AddEntry(TSem,"OFSB","l");
2704		}
#	Line 2429 \| Line 2709 \| void ttbar_sidebands_comparison(string m
2709		TH1F TZeemmcopy = (TH1F)TZeemm->Clone("TZeemmcopy");
2710		TH1F *TSeemmcopy;
2711		TH1F *TSemcopy;
2712	<	if(PlottingSetup::RestrictToMassPeak) {
2712	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
2713		TSeemmcopy = (TH1F*)TSeemm->Clone("TSeemmcopy");
2714		TSemcopy = (TH1F*)TSem->Clone("TSemcopy");
2715		}
2716
2717		TZem->Divide(TZeemm);
2718		TZem->SetMarkerStyle(21);
2719	<	if(PlottingSetup::RestrictToMassPeak) {
2719	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
2720		TSem->Divide(TZeemm);
2721		TSeemm->Divide(TZeemm);
2722		TSem->SetMarkerStyle(24);
2723		TSeemm->SetMarkerStyle(32);
2724	<	}
2724	>	}
2725
2726		tcan->SetLogy(0);
2727		TZem->GetYaxis()->SetRangeUser(0,2.5);
2728		TZem->GetYaxis()->SetTitle("ratio");
2729		TZem->Draw();
2730	<	if(PlottingSetup::RestrictToMassPeak) {
2730	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
2731		TSem->Draw("same");
2732		TSeemm->Draw("same");
2733		}
2734
2735	<	float linepos=0.25;
2736	<	if(PlottingSetup::RestrictToMassPeak) linepos=0.25;
2737	<	if(!PlottingSetup::RestrictToMassPeak) linepos=0.1; //sys uncertainty for iJZB
2735	>	float linepos=emuncertONPEAK;
2736	>	if(!PlottingSetup::RestrictToMassPeak) linepos=emuncertOFFPEAK;
2737	>
2738		TLine *top = new TLine(binning[0],1.0+linepos,binning[binning.size()-1],1.0+linepos);
2739		TLine *center = new TLine(binning[0],1.0,binning[binning.size()-1],1.0);
2740		TLine *bottom = new TLine(binning[0],1.0-linepos,binning[binning.size()-1],1.0-linepos);
#	Line 2477 \| Line 2757 \| void ttbar_sidebands_comparison(string m
2757
2758		TLegend *leg2 = make_legend("MC t#bar{t}",0.55,0.75,false);
2759		leg2->AddEntry(TZem,"OFZP / SFZP","ple");
2760	<	if(PlottingSetup::RestrictToMassPeak) {
2760	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
2761		leg2->AddEntry(TSeemm,"SFSB / SFZP","ple");
2762		leg2->AddEntry(TSem,"OFSB / SFZP","ple");
2763		}
#	Line 2490 \| Line 2770 \| void ttbar_sidebands_comparison(string m
2770		DrawMCPrelim(simulatedlumi);
2771		CompleteSave(tcan,"Systematics/"+prestring+"/ttbar_shape_comparison_ratio");
2772
2773	+	if (0) { // Turn this off: we don't need this
2774
2775	<	///-------------- second part: only look at the quantity we actually care about!
2776	<	TH1F leftsfzp = (TH1F)nTZeemm->Clone("leftsfzp");
2777	<	TH1F rightsfzp = (TH1F)TZeemmcopy->Clone("rightsfzp");
2778	<	rightsfzp->Add(leftsfzp,-1);
2779	<	TH1F leftofzp = (TH1F)nTZem->Clone("leftofzp");
2780	<	TH1F rightofzp = (TH1F)TZemcopy->Clone("rightofzp");
2781	<	rightofzp->Add(leftofzp,-1);
2782	<	TH1F *leftofsb;
2783	<	TH1F *rightofsb;
2784	<	TH1F *leftsfsb;
2785	<	TH1F *rightsfsb;
2786	<	if(PlottingSetup::RestrictToMassPeak) {
2787	<	leftofsb = (TH1F*)nTSem->Clone("leftofsb");
2788	<	rightofsb = (TH1F*)TSemcopy->Clone("rightofsb");
2789	<	rightofsb->Add(leftofsb,-1);
2790	<	leftsfsb = (TH1F*)nTSeemm->Clone("leftsfsb");
2791	<	rightsfsb = (TH1F*)TSeemmcopy->Clone("rightsfsb");
2792	<	rightsfsb->Add(leftsfsb,-1);
2793	<	}
2775	>	///-------------- second part: only look at the quantity we actually care about!
2776	>	TH1F leftsfzp = (TH1F)nTZeemm->Clone("leftsfzp");
2777	>	TH1F rightsfzp = (TH1F)TZeemmcopy->Clone("rightsfzp");
2778	>	rightsfzp->Add(leftsfzp,-1);
2779	>	TH1F leftofzp = (TH1F)nTZem->Clone("leftofzp");
2780	>	TH1F rightofzp = (TH1F)TZemcopy->Clone("rightofzp");
2781	>	rightofzp->Add(leftofzp,-1);
2782	>	TH1F *leftofsb;
2783	>	TH1F *rightofsb;
2784	>	TH1F *leftsfsb;
2785	>	TH1F *rightsfsb;
2786	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
2787	>	leftofsb = (TH1F*)nTSem->Clone("leftofsb");
2788	>	rightofsb = (TH1F*)TSemcopy->Clone("rightofsb");
2789	>	rightofsb->Add(leftofsb,-1);
2790	>	leftsfsb = (TH1F*)nTSeemm->Clone("leftsfsb");
2791	>	rightsfsb = (TH1F*)TSeemmcopy->Clone("rightsfsb");
2792	>	rightsfsb->Add(leftsfsb,-1);
2793	>	}
2794
2795	<	tcan->SetLogy(1);
2796	<	rightsfzp->GetXaxis()->SetRangeUser(0,binning[binning.size()-1]);
2797	<	rightsfzp->GetYaxis()->SetTitle("#deltaJZB / 25 GeV");
2798	<	rightsfzp->Draw("histo");
2799	<	rightofzp->Draw("histo,same");
2800	<	if(PlottingSetup::RestrictToMassPeak) {
2801	<	rightofsb->Draw("histo,same");
2802	<	rightsfsb->Draw("histo,same");
2803	<	}
2804	<	DrawMCPrelim(simulatedlumi);
2795	>	tcan->SetLogy(1);
2796	>	rightsfzp->GetXaxis()->SetRangeUser(0,binning[binning.size()-1]);
2797	>	rightsfzp->GetYaxis()->SetTitle("#deltaJZB / 25 GeV");
2798	>	rightsfzp->Draw("histo");
2799	>	rightofzp->Draw("histo,same");
2800	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
2801	>	rightofsb->Draw("histo,same");
2802	>	rightsfsb->Draw("histo,same");
2803	>	}
2804	>	DrawMCPrelim(simulatedlumi);
2805
2806	<	TLegend *legA = make_legend("MC t#bar{t}",0.6,0.65,false);
2807	<	legA->AddEntry(rightsfzp,"SFZP","l");
2808	<	legA->AddEntry(rightofzp,"OFZP","l");
2809	<	if(PlottingSetup::RestrictToMassPeak) {
2810	<	legA->AddEntry(rightofsb,"SFSB","l");
2811	<	legA->AddEntry(rightsfsb,"OFSB","l");
2812	<	}
2813	<	legA->Draw();
2806	>	TLegend *legA = make_legend("MC t#bar{t}",0.6,0.65,false);
2807	>	legA->AddEntry(rightsfzp,"SFZP","l");
2808	>	legA->AddEntry(rightofzp,"OFZP","l");
2809	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
2810	>	legA->AddEntry(rightofsb,"SFSB","l");
2811	>	legA->AddEntry(rightsfsb,"OFSB","l");
2812	>	}
2813	>	legA->Draw();
2814
2815	<	CompleteSave(tcan,"Systematics/"+prestring+"/ttbar_deltajzb_comparison");
2815	>	CompleteSave(tcan,"Systematics/"+prestring+"/ttbar_deltajzb_comparison");
2816
2817	<	tcan->SetLogy(0);
2818	<	rightofzp->Divide(rightsfzp);
2819	<	rightofzp->GetXaxis()->SetRangeUser(0.0,binning[binning.size()-1]);
2820	<	rightofzp->GetYaxis()->SetRangeUser(0.0,2.5);
2821	<	rightofzp->GetYaxis()->SetTitle("#deltaJZB ratio");
2822	<	rightofzp->Draw();
2823	<	if(PlottingSetup::RestrictToMassPeak) {
2824	<	rightofsb->Divide(rightsfzp);
2825	<	rightsfsb->Divide(rightsfzp);
2826	<	rightofsb->Draw("same");
2827	<	rightsfsb->Draw("same");
2828	<	}
2829	<
2830	<	TLine *top2 = new TLine(0.0,1.0+linepos,binning[binning.size()-1],1.0+linepos);
2831	<	TLine *center2 = new TLine(0.0,1.0,binning[binning.size()-1],1.0);
2832	<	TLine *bottom2 = new TLine(0.0,1.0-linepos,binning[binning.size()-1],1.0-linepos);
2833	<
2834	<	top2->SetLineColor(kBlue);top2->SetLineStyle(2);
2835	<	bottom2->SetLineColor(kBlue);bottom2->SetLineStyle(2);
2836	<	center2->SetLineColor(kBlue);
2837	<
2838	<	top2->Draw("same");
2839	<	center2->Draw("same");
2840	<	bottom2->Draw("same");
2841	<
2842	<	rightofzp->SetMarkerStyle(21);
2843	<	if(PlottingSetup::RestrictToMassPeak) {
2844	<	rightofsb->SetMarkerStyle(24);
2845	<	rightsfsb->SetMarkerStyle(32);
2846	<	}
2847	<
2848	<	TLegend *leg3 = make_legend("MC t#bar{t}",0.55,0.75,false);
2849	<	leg3->AddEntry(rightofzp,"OFZP / SFZP","ple");
2850	<	if(PlottingSetup::RestrictToMassPeak) {
2851	<	leg3->AddEntry(rightsfsb,"SFSB / SFZP","ple");
2852	<	leg3->AddEntry(rightofsb,"OFSB / SFZP","ple");
2853	<	}
2854	<	leg3->AddEntry(bottom,"syst. envelope","l");
2855	<	leg3->SetX1(0.25);leg3->SetX2(0.6);
2856	<	leg3->SetY1(0.65);
2817	>	tcan->SetLogy(0);
2818	>	rightofzp->Divide(rightsfzp);
2819	>	rightofzp->GetXaxis()->SetRangeUser(0.0,binning[binning.size()-1]);
2820	>	rightofzp->GetYaxis()->SetRangeUser(0.0,2.5);
2821	>	rightofzp->GetYaxis()->SetTitle("#deltaJZB ratio");
2822	>	rightofzp->Draw();
2823	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
2824	>	rightofsb->Divide(rightsfzp);
2825	>	rightsfsb->Divide(rightsfzp);
2826	>	rightofsb->Draw("same");
2827	>	rightsfsb->Draw("same");
2828	>	}
2829	>
2830	>	TLine *top2 = new TLine(0.0,1.0+linepos,binning[binning.size()-1],1.0+linepos);
2831	>	TLine *center2 = new TLine(0.0,1.0,binning[binning.size()-1],1.0);
2832	>	TLine *bottom2 = new TLine(0.0,1.0-linepos,binning[binning.size()-1],1.0-linepos);
2833	>
2834	>	top2->SetLineColor(kBlue);top2->SetLineStyle(2);
2835	>	bottom2->SetLineColor(kBlue);bottom2->SetLineStyle(2);
2836	>	center2->SetLineColor(kBlue);
2837	>
2838	>	top2->Draw("same");
2839	>	center2->Draw("same");
2840	>	bottom2->Draw("same");
2841	>
2842	>	rightofzp->SetMarkerStyle(21);
2843	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
2844	>	rightofsb->SetMarkerStyle(24);
2845	>	rightsfsb->SetMarkerStyle(32);
2846	>	}
2847	>
2848	>	TLegend *leg3 = make_legend("MC t#bar{t}",0.55,0.75,false);
2849	>	leg3->AddEntry(rightofzp,"OFZP / SFZP","ple");
2850	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
2851	>	leg3->AddEntry(rightsfsb,"SFSB / SFZP","ple");
2852	>	leg3->AddEntry(rightofsb,"OFSB / SFZP","ple");
2853	>	}
2854	>	leg3->AddEntry(bottom,"syst. envelope","l");
2855	>	leg3->SetX1(0.25);leg3->SetX2(0.6);
2856	>	leg3->SetY1(0.65);
2857
2858	<	leg3->Draw("same");
2858	>	leg3->Draw("same");
2859
2860	<	DrawMCPrelim(simulatedlumi);
2861	<	CompleteSave(tcan,"Systematics/"+prestring+"/ttbar_deltajzb_comparison_ratio");
2860	>	DrawMCPrelim(simulatedlumi);
2861	>	CompleteSave(tcan,"Systematics/"+prestring+"/ttbar_deltajzb_comparison_ratio");
2862	>
2863	>	}
2864
2865		delete TZem;
2866		delete nTZem;
2867		delete TZeemm;
2868		delete nTZeemm;
2869	<	if(PlottingSetup::RestrictToMassPeak) {
2869	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
2870		delete TSem;
2871		delete nTSem;
2872		delete TSeemm;
#	Line 2592 \| Line 2875 \| void ttbar_sidebands_comparison(string m
2875
2876		delete tcan;
2877		cutWeight=weightbackup;
2878	+	switch_overunderflow(false);
2879		}
2880
2881		void ttbar_sidebands_comparison(string mcjzb, vector<float> jzb_binning) {
2882		vector<float> nicer_binning;
2883
2884	<	nicer_binning.push_back(-400);
2884	>	/* nicer_binning.push_back(-400);
2885		nicer_binning.push_back(-250);
2886		nicer_binning.push_back(-200);
2887		nicer_binning.push_back(-150);
#	Line 2612 \| Line 2896 \| void ttbar_sidebands_comparison(string m
2896		nicer_binning.push_back(150);
2897		nicer_binning.push_back(200);
2898		nicer_binning.push_back(250);
2899	<	nicer_binning.push_back(400);
2900	<	/*
2899	>	nicer_binning.push_back(400);*/
2900	>
2901		nicer_binning.push_back(-100);
2902		nicer_binning.push_back(-50);
2903		nicer_binning.push_back(-25);
#	Line 2624 \| Line 2908 \| void ttbar_sidebands_comparison(string m
2908		nicer_binning.push_back(100);
2909		nicer_binning.push_back(125);
2910		nicer_binning.push_back(150);
2911	<	nicer_binning.push_back(175);
2911	>	//nicer_binning.push_back(175);
2912		nicer_binning.push_back(200);
2913	<	nicer_binning.push_back(230);
2914	<	nicer_binning.push_back(280);
2913	>	nicer_binning.push_back(250);
2914	>	nicer_binning.push_back(300);
2915		nicer_binning.push_back(400);
2916	<	*/
2916	>
2917		ttbar_sidebands_comparison(mcjzb,nicer_binning, "ttbar/");
2918		}
2919
2920
2921	<	void zjets_prediction_comparison(string mcjzbWithPU) {
2921	>	void zjets_prediction_comparison(string mcjzbWithPUa) {
2922		TCanvas *zcan = new TCanvas("zcan","zcan");
2923	<	zcan->SetLogy(1);
2923	>	// zcan->SetLogy(1);
2924		TCut weightbackup=cutWeight;
2925	+
2926	+	bool UsePURW=false;
2927	+
2928	+
2929	+	string mcjzb;
2930	+	if(UsePURW) {
2931	+	mcjzb=mcjzbWithPUa;
2932	+	} else {
2933	+	// Do it without PU re-weighting
2934	+	float MCPeakNoPU=0,MCPeakErrorNoPU=0,DataPeakNoPU=0,DataPeakErrorNoPU=0,MCSigma=0,DataSigma=0;
2935	+	stringstream resultsNoPU;
2936	+	stringstream noPUdatajzb;
2937	+	stringstream noPUmcjzb;
2938	+
2939	+	find_peaks(MCPeakNoPU,MCPeakErrorNoPU, DataPeakNoPU, DataPeakErrorNoPU,resultsNoPU,false,noPUdatajzb,noPUmcjzb);
2940	+	dout << "The peak corrected JZB expression for MC without pileup is : " << noPUmcjzb.str() << endl;
2941	+
2942	+	mcjzb = noPUmcjzb.str();
2943	+
2944	+	cutWeight="1.0";
2945	+	}
2946
2642	–	/*
2643	–	// Do it without PU re-weighting
2644	–	float MCPeakNoPU=0,MCPeakErrorNoPU=0,DataPeakNoPU=0,DataPeakErrorNoPU=0,MCSigma=0,DataSigma=0;
2645	–	stringstream resultsNoPU;
2646	–
2647	–	stringstream mcjzbnoPU;
2648	–	find_peaks(MCPeakNoPU,MCPeakErrorNoPU, DataPeakNoPU, DataPeakErrorNoPU,MCSigma,DataSigma,resultsNoPU,true);
2649	–	if(MCPeakNoPU>0) mcjzbnoPU<<"("<<jzbvariablemc<<"-"<<TMath::Abs(MCPeakNoPU)<<")";
2650	–	else mcjzbnoPU<<"("<<jzbvariablemc<<"+"<<TMath::Abs(MCPeakNoPU)<<")";
2651	–
2652	–	string mcjzb = mcjzbnoPU.str();
2653	–	dout << "The peak corrected JZB expression for MC without pileup is : " << mcjzb << endl;
2654	–	*/
2655	–	cutWeight="1.0";
2656	–
2657	–	string mcjzb = mcjzbWithPU; // this is with PURW, if you want without it you have to uncomment the part above (and comment out this line)
2947
2948		vector<float> binning;
2949		binning.push_back(0);
2950	+	binning.push_back(10);
2951		binning.push_back(20);
2952		binning.push_back(40);
2953		binning.push_back(60);
2954	<	binning.push_back(80);
2954	>	// binning.push_back(50);
2955	>	// binning.push_back(60);
2956	>	// binning.push_back(70);
2957	>	// binning.push_back(80);
2958	>	// binning.push_back(90);
2959		binning.push_back(100);
2960	<	// float sbg_min=0.;
2667	<	// float sbg_max=100.;
2668	<	// int sbg_nbins=5;
2960	>
2961		float simulatedlumi = luminosity;//in pb please - adjust to your likings
2962
2963		TCut kPos((mcjzb+">0").c_str());
2964		TCut kNeg((mcjzb+"<0").c_str());
2965		string var( "abs("+mcjzb+")" );
2966	+
2967	+	TCut notTau("abs(genMID1)!=15");
2968	+	TCut ONLYTau("mll>20");
2969	+
2970
2971	<	TCut kcut(cutmass&&cutOSSF&&cutnJets);
2972	<	TH1F *hJZBpos = systsamples.Draw("hJZBpos",var,binning, "JZB [GeV]", "events",kcut&&kPos,mc,simulatedlumi,systsamples.FindSample("/DY"));
2973	<	TH1F *hJZBneg = systsamples.Draw("hJZBneg",var,binning, "JZB [GeV]", "events",kcut&&kNeg,mc,simulatedlumi,systsamples.FindSample("/DY"));
2971	>	TH1F *hJZBpos = systsamples.Draw("hJZBpos",var,binning, "JZB [GeV]", "events",cutmass&&cutOSSF&&cutnJets&&notTau&&kPos,mc,simulatedlumi,systsamples.FindSample("/DY"));
2972	>	TH1F *hJZBneg = systsamples.Draw("hJZBneg",var,binning, "JZB [GeV]", "events",cutmass&&cutOSSF&&cutnJets&&notTau&&kNeg,mc,simulatedlumi,systsamples.FindSample("/DY"));
2973	>
2974		hJZBpos->SetLineColor(kBlack);
2975		hJZBneg->SetLineColor(kRed);
2976
#	Line 2683 \| Line 2979 \| void zjets_prediction_comparison(string
2979		hJZBneg->Draw("same,hist");
2980		hJZBpos->Draw("same,e1"); // So it's on top...
2981
2982	<	TLegend *leg = make_legend("MC Z+jets",0.55,0.75,false);
2982	>	TLegend *leg = make_legend("MC Z+jets #rightarrow ee,#mu#mu",0.55,0.75,false);
2983		leg->AddEntry(hJZBpos,"Observed","pe");
2984		leg->AddEntry(hJZBneg,"Predicted","l");
2985		leg->Draw("same");
2986		DrawMCPrelim(simulatedlumi);
2987	<	CompleteSave(zcan,"Systematics/zjets_prediction");
2987	>	CompleteSave(zcan,"Systematics/ZJets/zjets_eemm_prediction");
2988
2989		TH1F* hratio = (TH1F*)hJZBpos->Clone("hratio");
2990		hratio->Divide(hJZBneg);
2991
2992		for(int i=1;i<=hJZBpos->GetNbinsX();i++) {
2993	<	cout << "Positive: " << hJZBpos->GetBinContent(i) << " vs Negative : " << hJZBneg->GetBinContent(i) << endl;
2993	>	cout << "Positive: " << hJZBpos->GetBinContent(i) << " vs Negative : " << hJZBneg->GetBinContent(i) << " (ratio : " << hJZBpos->GetBinContent(i) / hJZBneg->GetBinContent(i) << endl;
2994		}
2995
2996		zcan->SetLogy(0);
2997	<	hratio->GetYaxis()->SetRangeUser(0,2.5);
2997	>	hratio->GetYaxis()->SetRangeUser(0,2.0);
2998		hratio->GetYaxis()->SetTitle("Observed/Predicted");
2999		hratio->Draw("e1");
3000
#	Line 2715 \| Line 3011 \| void zjets_prediction_comparison(string
3011		center->Draw("same");
3012		bottom->Draw("same");
3013
3014	<	TLegend *leg2 = make_legend("MC Z+jets",0.25,0.75,false);
3014	>	TLegend *leg2 = make_legend("MC Z+jets #rightarrow ee,#mu#mu",0.25,0.75,false);
3015		leg2->AddEntry(hratio,"obs / pred","pe");
3016		leg2->AddEntry(bottom,"syst. envelope","l");
3017		leg2->Draw("same");
3018		DrawMCPrelim(simulatedlumi);
3019	<	CompleteSave(zcan,"Systematics/zjets_prediction_ratio");
3019	>	CompleteSave(zcan,"Systematics/ZJets/zjets_eemm_prediction_ratio");
3020	>
3021	>	TCut reducedNJets(cutnJets);
3022	>
3023	>	TH1F *TAUhJZBpos = systsamples.Draw("TAUhJZBpos",var,binning, "JZB [GeV]", "events",cutmass&&cutOSSF&&reducedNJets&&ONLYTau&&kPos,mc,simulatedlumi,systsamples.FindSample("/DY"));
3024	>	TH1F *LcorrJZBeemm = systsamples.Draw("LcorrJZBeemm",var,binning, "JZB [GeV]", "events",cutmass&&cutOSSF&&reducedNJets&&ONLYTau&&kNeg,mc,simulatedlumi,systsamples.FindSample("/DY"));
3025	>	TH1F *RcorrJZBem = systsamples.Draw("RcorrJZBem",var,binning, "JZB [GeV]", "events",cutmass&&cutOSOF&&reducedNJets&&ONLYTau&&kPos,mc,simulatedlumi,systsamples.FindSample("/DY"));
3026	>	TH1F *LcorrJZBem = systsamples.Draw("LcorrJZBem",var,binning, "JZB [GeV]", "events",cutmass&&cutOSOF&&reducedNJets&&ONLYTau&&kNeg,mc,simulatedlumi,systsamples.FindSample("/DY"));
3027	>
3028	>	TH1F *RcorrJZBSBem;
3029	>	TH1F *LcorrJZBSBem;
3030	>	TH1F *RcorrJZBSBeemm;
3031	>	TH1F *LcorrJZBSBeemm;
3032	>
3033	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
3034	>	RcorrJZBSBem = systsamples.Draw("RcorrJZBSBem",var,binning, "JZB [GeV]", "events",sidebandcut&&cutOSOF&&reducedNJets&&ONLYTau&&kPos,mc,simulatedlumi,systsamples.FindSample("/DY"));
3035	>	LcorrJZBSBem = systsamples.Draw("LcorrJZBSBem",var,binning, "JZB [GeV]", "events",sidebandcut&&cutOSOF&&reducedNJets&&ONLYTau&&kNeg,mc,simulatedlumi,systsamples.FindSample("/DY"));
3036	>	RcorrJZBSBeemm = systsamples.Draw("RcorrJZBSBeemm",var,binning, "JZB [GeV]", "events",sidebandcut&&cutOSSF&&reducedNJets&&ONLYTau&&kPos,mc,simulatedlumi,systsamples.FindSample("/DY"));
3037	>	LcorrJZBSBeemm = systsamples.Draw("LcorrJZBSBeemm",var,binning, "JZB [GeV]", "events",sidebandcut&&cutOSSF&&reducedNJets&&ONLYTau&&kNeg,mc,simulatedlumi,systsamples.FindSample("/DY"));
3038	>	}
3039	>
3040	>	TH1F Bpred = (TH1F)LcorrJZBeemm->Clone("Bpred");
3041	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
3042	>	Bpred->Add(RcorrJZBem,1.0/3.);
3043	>	Bpred->Add(LcorrJZBem,-1.0/3.);
3044	>	Bpred->Add(RcorrJZBSBem,1.0/3.);
3045	>	Bpred->Add(LcorrJZBSBem,-1.0/3.);
3046	>	Bpred->Add(RcorrJZBSBeemm,1.0/3.);
3047	>	Bpred->Add(LcorrJZBSBeemm,-1.0/3.);
3048	>	} else {
3049	>	Bpred->Add(RcorrJZBem,1.0);
3050	>	Bpred->Add(LcorrJZBem,-1.0);
3051	>	}
3052	>
3053	>	Bpred->SetLineColor(kRed);
3054	>
3055	>	TAUhJZBpos->SetLineColor(kBlack);
3056	>	Bpred->SetLineColor(kRed);
3057	>
3058	>	TAUhJZBpos->SetMinimum(1.0);
3059	>	TAUhJZBpos->Draw("e1");
3060	>	Bpred->Draw("same,hist");
3061	>	TAUhJZBpos->Draw("same,e1");
3062	>
3063	>	TLegend *TAUleg = make_legend("MC Z+jets #rightarrow ee,#mu#mu,#tau#tau",0.55,0.75,false);
3064	>	TAUleg->AddEntry(TAUhJZBpos,"Observed","pe");
3065	>	TAUleg->AddEntry(Bpred,"Predicted","l");
3066	>	TAUleg->Draw("same");
3067	>	DrawMCPrelim(simulatedlumi);
3068	>	CompleteSave(zcan,"Systematics/ZJets/zjets_eemumutautau_prediction");
3069	>
3070	>	TH1F* TAUhratio = (TH1F*)TAUhJZBpos->Clone("TAUhratio");
3071	>	TAUhratio->Divide(Bpred);
3072	>
3073	>	for(int i=1;i<=TAUhJZBpos->GetNbinsX();i++) {
3074	>	cout << "ee/mm/tautau observed: " << TAUhJZBpos->GetBinContent(i) << " vs predicted : " << Bpred->GetBinContent(i) << " (ratio : " << TAUhJZBpos->GetBinContent(i) / Bpred->GetBinContent(i) << endl;
3075	>	}
3076	>
3077	>	zcan->SetLogy(0);
3078	>	TAUhratio->GetYaxis()->SetRangeUser(0,2.5);
3079	>	TAUhratio->GetYaxis()->SetTitle("Observed/Predicted");
3080	>	TAUhratio->Draw("e1");
3081	>
3082	>	top->Draw("same");
3083	>	center->Draw("same");
3084	>	bottom->Draw("same");
3085	>
3086	>	TLegend *TAUleg2 = make_legend("MC Z+jets #rightarrow #tau#tau",0.25,0.75,false);
3087	>	TAUleg2->AddEntry(TAUhratio,"obs / pred","pe");
3088	>	TAUleg2->AddEntry(bottom,"syst. envelope","l");
3089	>	TAUleg2->Draw("same");
3090	>	DrawMCPrelim(simulatedlumi);
3091	>	CompleteSave(zcan,"Systematics/ZJets/zjets_eemumutautau_prediction_ratio");
3092	>
3093	>	delete Bpred;
3094	>	delete TAUhJZBpos;
3095	>	delete LcorrJZBeemm;
3096	>	delete RcorrJZBem;
3097	>	delete LcorrJZBem;
3098	>
3099	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
3100	>	delete RcorrJZBSBem;
3101	>	delete LcorrJZBSBem;
3102	>	delete RcorrJZBSBeemm;
3103	>	delete LcorrJZBSBeemm;
3104	>	}
3105	>
3106
3107		delete zcan;
3108		cutWeight=weightbackup;
#	Line 2779 \| Line 3161 \| void make_table(samplecollection &coll,
3161		TH1F *RcorrJZBSBeemm;
3162		TH1F *LcorrJZBSBeemm;
3163
3164	<	if(PlottingSetup::RestrictToMassPeak) {
3164	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
3165		RcorrJZBSBem = coll.Draw("RcorrJZBSBem",jzbexpr.c_str(),nbins,low,14000, "JZB [GeV]", "events", sidebandcut&&cutOSOF&&cutnJets,is_data, luminosity, mysample);
3166		LcorrJZBSBem = coll.Draw("LcorrJZBSBem",("-("+jzbexpr+")").c_str(),nbins,low,14000, "JZB [GeV]", "events", sidebandcut&&cutOSOF&&cutnJets,is_data, luminosity, mysample);
3167		RcorrJZBSBeemm = coll.Draw("RcorrJZBSBeemm",jzbexpr.c_str(),nbins,low,14000, "JZB [GeV]", "events", sidebandcut&&cutOSSF&&cutnJets,is_data, luminosity, mysample);
#	Line 2787 \| Line 3169 \| void make_table(samplecollection &coll,
3169		}
3170
3171		TH1F Bpred = (TH1F)LcorrJZBeemm->Clone("Bpred");
3172	<	if(PlottingSetup::RestrictToMassPeak) {
3172	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
3173		Bpred->Add(RcorrJZBem,1.0/3.);
3174		Bpred->Add(LcorrJZBem,-1.0/3.);
3175		Bpred->Add(RcorrJZBSBem,1.0/3.);
#	Line 2998 \| Line 3380 \| void qcd_plots(string datajzb, string mc
3380		TH1F *JRcorrJZBSBeemm;
3381		TH1F *JLcorrJZBSBeemm;
3382
3383	<	if(PlottingSetup::RestrictToMassPeak) {
3383	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
3384		RcorrJZBSBem = qcdsamples.Draw("RcorrJZBSBem",jzb.c_str(),nbins,low,hi, "JZB [GeV]", "events", sidebandcut&&cutOSOF&&cutnJets,is_data, luminosity,use_signal);
3385		LcorrJZBSBem = qcdsamples.Draw("LcorrJZBSBem",("-"+jzb).c_str(),nbins,low,hi, "JZB [GeV]", "events", sidebandcut&&cutOSOF&&cutnJets,is_data, luminosity,use_signal);
3386		RcorrJZBSBeemm = qcdsamples.Draw("RcorrJZBSBeemm",jzb.c_str(),nbins,low,hi, "JZB [GeV]", "events", sidebandcut&&cutOSSF&&cutnJets,is_data, luminosity,use_signal);
#	Line 3019 \| Line 3401 \| void qcd_plots(string datajzb, string mc
3401
3402		TH1F Bpred = (TH1F)LcorrJZBeemm->Clone("Bpred");
3403		TH1F JBpred = (TH1F)JLcorrJZBeemm->Clone("Bpred");
3404	<	if(PlottingSetup::RestrictToMassPeak) {
3404	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
3405		Bpred->Add(RcorrJZBem,1.0/3.);
3406		Bpred->Add(LcorrJZBem,-1.0/3.);
3407		Bpred->Add(RcorrJZBSBem,1.0/3.);
#	Line 3089 \| Line 3471 \| void qcd_plots(string datajzb, string mc
3471		dout << "______________________________________________" << endl;
3472		dout << "How QCD shows up in the different regions: " << endl;
3473		dout << "OSSF: " << endl;
3474	<	if(PlottingSetup::RestrictToMassPeak) {
3474	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
3475		dout << " Z window: \t" << RcorrJZBeemm->Integral() << " (JZB>0) , " << LcorrJZBeemm->Integral() << " (JZB<0) --> total: " << RcorrJZBeemm->Integral() + LcorrJZBeemm->Integral() << endl;
3476		dout << " sideband: \t" << RcorrJZBSBeemm->Integral() << " (JZB>0) , " << LcorrJZBSBeemm->Integral() << " (JZB<0) --> total: " << RcorrJZBSBeemm->Integral() + LcorrJZBSBeemm->Integral() << endl;
3477		} else {
3478		dout << " " << RcorrJZBeemm->Integral() << " (JZB>0) , " << LcorrJZBeemm->Integral() << " (JZB<0) --> total: " << RcorrJZBeemm->Integral() + LcorrJZBeemm->Integral() << endl;
3479		}
3480		dout << "OSOF: " << endl;
3481	<	if(PlottingSetup::RestrictToMassPeak) {
3481	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
3482		dout << " Z window: \t" << RcorrJZBem->Integral() << " (JZB>0) , " << LcorrJZBem->Integral() << " (JZB<0) --> total: " << RcorrJZBem->Integral() + LcorrJZBem->Integral() << endl;
3483		dout << " sideband: \t" << RcorrJZBSBem->Integral() << " (JZB>0) , " << LcorrJZBSBem->Integral() << " (JZB<0) --> total: " << RcorrJZBSBem->Integral() + LcorrJZBSBem->Integral() << endl;
3484		} else {
3485		dout << " Z window: \t" << RcorrJZBem->Integral() << " (JZB>0) , " << LcorrJZBem->Integral() << " (JZB<0) --> total: " << RcorrJZBem->Integral() + LcorrJZBem->Integral() << endl;
3486		}
3487		dout << "Therefore: " << endl;
3488	<	if(PlottingSetup::RestrictToMassPeak) {
3488	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
3489		dout << " Prediction increases by : " << LcorrJZBeemm->Integral() << " + (1.0/3)*(" << RcorrJZBSBeemm->Integral() <<"-"<< LcorrJZBSBeemm->Integral() << ") (SFSB) ";
3490		dout << " + (1.0/3)*(" << RcorrJZBem->Integral() <<"-"<< LcorrJZBem->Integral() << ") (OFZP) ";
3491		dout << " + (1.0/3)*(" << RcorrJZBSBem->Integral() <<"-"<< LcorrJZBSBem->Integral() << ") (OFSB) ";
#	Line 3119 \| Line 3501 \| void qcd_plots(string datajzb, string mc
3501		for(int i=0;i<(int)bins.size();i++) {
3502		dout << " JZB > " << bins[i] << " : " << endl;
3503		dout << " Observation increases by : " << RcorrJZBeemm->Integral(RcorrJZBeemm->FindBin(bins[i]),RcorrJZBeemm->GetNbinsX()) << endl;
3504	<	if(PlottingSetup::RestrictToMassPeak) {
3504	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB) {
3505		dout << " Prediction increases by : " << LcorrJZBeemm->Integral(RcorrJZBeemm->FindBin(bins[i]),RcorrJZBeemm->GetNbinsX()) + (1.0/3)*(RcorrJZBSBeemm->Integral(RcorrJZBeemm->FindBin(bins[i]),RcorrJZBeemm->GetNbinsX()) - LcorrJZBSBeemm->Integral(RcorrJZBeemm->FindBin(bins[i]),RcorrJZBeemm->GetNbinsX()) + RcorrJZBem->Integral(RcorrJZBeemm->FindBin(bins[i]),RcorrJZBeemm->GetNbinsX()) - LcorrJZBem->Integral(RcorrJZBeemm->FindBin(bins[i]),RcorrJZBeemm->GetNbinsX()) + RcorrJZBSBem->Integral(RcorrJZBeemm->FindBin(bins[i]),RcorrJZBeemm->GetNbinsX()) - LcorrJZBSBem->Integral(RcorrJZBeemm->FindBin(bins[i]),RcorrJZBeemm->GetNbinsX())) << endl;
3506		} else {
3507		dout << " Prediction increases by : " << LcorrJZBeemm->Integral(RcorrJZBeemm->FindBin(bins[i]),RcorrJZBeemm->GetNbinsX()) + RcorrJZBem->Integral(RcorrJZBeemm->FindBin(bins[i]),RcorrJZBeemm->GetNbinsX()) - LcorrJZBem->Integral(RcorrJZBeemm->FindBin(bins[i]),RcorrJZBeemm->GetNbinsX()) << endl;
#	Line 3133 \| Line 3515 \| void qcd_plots(string datajzb, string mc
3515		if(LcorrJZBem) delete LcorrJZBem;
3516		if(RcorrJZBeemm) delete RcorrJZBeemm;
3517		if(LcorrJZBeemm) delete LcorrJZBeemm;
3518	<	if(PlottingSetup::RestrictToMassPeak&&RcorrJZBSBem) delete RcorrJZBSBem;
3519	<	if(PlottingSetup::RestrictToMassPeak&&LcorrJZBSBem) delete LcorrJZBSBem;
3520	<	if(PlottingSetup::RestrictToMassPeak&&RcorrJZBSBeemm) delete RcorrJZBSBeemm;
3521	<	if(PlottingSetup::RestrictToMassPeak&&LcorrJZBSBeemm) delete LcorrJZBSBeemm;
3518	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB&&RcorrJZBSBem) delete RcorrJZBSBem;
3519	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB&&LcorrJZBSBem) delete LcorrJZBSBem;
3520	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB&&RcorrJZBSBeemm) delete RcorrJZBSBeemm;
3521	>	if(PlottingSetup::RestrictToMassPeak&&PlottingSetup::UseSidebandsForcJZB&&LcorrJZBSBeemm) delete LcorrJZBSBeemm;
3522		}
3523
3524		void check_ptsanity() {
#	Line 3233 \| Line 3615 \| void do_mlls_plot(string mcjzb) {
3615		}
3616		}
3617
3618	<	void met_vs_jzb_plots() {
3618	>	void met_vs_jzb_plots(string datajzb, string mcjzb) {
3619
3620		TCanvas *canmetjzb = new TCanvas("canmet","MET vs JZB canvas");
3621		canmetjzb->SetRightMargin(0.16);
#	Line 3242 \| Line 3624 \| void met_vs_jzb_plots() {
3624		findme.push_back("DY");
3625		findme.push_back("TTJets");
3626		findme.push_back("LM");
3627	<
3627	>	/*
3628		for(int ifind=0;ifind<(int)findme.size();ifind++) {
3629		vector<int> selsamples = allsamples.FindSample(findme[ifind]);
3630		TH2F *metvsjzb = new TH2F("metvsjzb","metvsjzb",200,0,100,400,-100,100);
3631		for(int isel=0;isel<(int)selsamples.size();isel++) {
3632	<	cout << "Producing MET:JZB plot ... working on sample: " << allsamples.collection[selsamples[isel]].filename << endl;
3633	<	allsamples.collection[selsamples[isel]].events->Draw("jzb[1]:met[4]>>+metvsjzb",cutmass&&cutOSSF);
3632	>	dout << "Producing MET:JZB plot ... working on sample: " << allsamples.collection[selsamples[isel]].filename << endl;
3633	>	allsamples.collection[selsamples[isel]].events->Draw("jzb[1]:met[4]>>+metvsjzb",cutmass&&cutOSSF&&cutnJets);
3634		}
3635		metvsjzb->Scale(allsamples.collection[selsamples[0]].weight);
3636		metvsjzb->SetStats(0);
#	Line 3262 \| Line 3644 \| void met_vs_jzb_plots() {
3644		title->Draw();
3645		CompleteSave(canmetjzb,(string)"METvsJZBplots/"+findme[ifind]);
3646		}
3647	+	*/
3648	+
3649	+	dout << "About to produce MET plot for DY split up by JZB" << endl;
3650	+
3651	+	int nbins=14;
3652	+	float low=0;
3653	+	float high=140;
3654	+
3655	+	stringstream sLEFT;
3656	+	sLEFT << "((" << mcjzb << ")<0)";
3657	+	TCut LEFT(sLEFT.str().c_str());
3658	+	stringstream sRIGHT;
3659	+	sRIGHT << "((" << mcjzb << ")>0)";
3660	+	TCut RIGHT(sRIGHT.str().c_str());
3661	+
3662	+	TH1F *metleft = allsamples.Draw("metleft","met[4]",nbins,low,high, "MET [GeV]", "events", cutmass&&cutOSSF&&cutnJets&&LEFT,mc, luminosity, allsamples.FindSample("DYJets"));
3663	+	TH1F *metleftO = allsamples.Draw("metleftO","met[4]",nbins,low,high, "MET [GeV]", "events", cutmass&&cutOSOF&&cutnJets&&LEFT,mc, luminosity, allsamples.FindSample("DYJets"));
3664	+	TH1F *metright = allsamples.Draw("metright","met[4]",nbins,low,high, "MET [GeV]", "events", cutmass&&cutOSSF&&cutnJets&&RIGHT,mc, luminosity, allsamples.FindSample("DYJets"));
3665	+	TH1F *metrightO = allsamples.Draw("metrightO","met[4]",nbins,low,high, "MET [GeV]", "events", cutmass&&cutOSOF&&cutnJets&&RIGHT,mc, luminosity, allsamples.FindSample("DYJets"));
3666	+
3667	+
3668	+	TH1F Bpred = (TH1F)metleft->Clone("Bpred");
3669	+	Bpred->Add(metleftO,-1);
3670	+	Bpred->Add(metrightO);
3671	+	TH1F obs = (TH1F)metright->Clone("obs");
3672	+
3673	+	metleft->Add(metleftO,-1);
3674	+	metright->Add(metrightO,-1);
3675	+
3676	+	metleft->SetLineColor(kRed);
3677	+	metright->SetLineColor(kBlack);
3678	+	TPad *metpad = new TPad("metpad","metpad",0,0,1,1);
3679	+	metpad->cd();
3680	+	metpad->SetLogy(1);
3681	+	metleft->Draw("histo");
3682	+	metright->Draw("same");
3683	+	TLegend *lg = make_legend();
3684	+	lg->SetX1(0.5);
3685	+	lg->SetY1(0.7);
3686	+	lg->AddEntry(metright,"JZB>0 (OSOF corrected)","P");
3687	+	lg->AddEntry(metleft,"JZB<0 (OSOF corrected)","L");
3688	+	lg->SetHeader("DY");
3689	+
3690	+	lg->Draw();
3691	+	save_with_ratio(metright,metleft,metpad->cd(),"METvsJZBplots/ComparingLeftToRightinMETspectrum");
3692	+
3693	+	TPad *metpad3 = new TPad("metpad3","metpad3",0,0,1,1);
3694	+	metpad3->cd();
3695	+	metpad3->SetLogy(1);
3696	+	Bpred->SetLineColor(kRed);
3697	+	Bpred->Draw("histo");
3698	+	obs->SetLineColor(kBlack);
3699	+	obs->Draw("same");
3700	+	TLegend *lg2 = make_legend();
3701	+	lg2->SetX1(0.5);
3702	+	lg2->SetY1(0.7);
3703	+	lg2->AddEntry(obs,"observed","P");
3704	+	lg2->AddEntry(Bpred,"predicted","L");
3705	+	lg2->SetHeader("DY");
3706	+
3707	+	lg2->Draw();
3708	+
3709	+	save_with_ratio(obs,Bpred,metpad3->cd(),"METvsJZBplots/ComparingPredObsinMET");
3710	+
3711	+	TPad *metpad2 = new TPad("metpad2","metpad2",0,0,1,1);
3712	+	metpad2->cd();
3713	+	metpad2->SetLogy(1);
3714	+
3715	+	TH1F *metlefta = allsamples.Draw("metlefta","met[2]",nbins,low,high, "MET [GeV]", "events", cutmass&&cutOSSF&&cutnJets&&LEFT,mc, luminosity, allsamples.FindSample("DYJets"));
3716	+	TH1F *metleftOa = allsamples.Draw("metleftOa","met[2]",nbins,low,high, "MET [GeV]", "events", cutmass&&cutOSOF&&cutnJets&&LEFT,mc, luminosity, allsamples.FindSample("DYJets"));
3717	+	TH1F *metrighta = allsamples.Draw("metrighta","met[2]",nbins,low,high, "MET [GeV]", "events", cutmass&&cutOSSF&&cutnJets&&RIGHT,mc, luminosity, allsamples.FindSample("DYJets"));
3718	+	TH1F *metrightOa = allsamples.Draw("metrightOa","met[2]",nbins,low,high, "MET [GeV]", "events", cutmass&&cutOSOF&&cutnJets&&RIGHT,mc, luminosity, allsamples.FindSample("DYJets"));
3719	+
3720	+	metlefta->Add(metleftOa,-1);
3721	+	metrighta->Add(metrightOa,-1);
3722	+
3723	+	metlefta->SetLineColor(kRed);
3724	+	metpad2->cd();
3725	+	metlefta->Draw("histo");
3726	+	metrighta->Draw("same");
3727	+	lg->Draw();
3728	+	save_with_ratio(metrighta,metlefta,metpad2->cd(),"METvsJZBplots/ComparingLeftToRightinMET_type1_spectrum");
3729	+
3730	+	delete Bpred;
3731	+	delete obs;
3732	+
3733	+	float newhigh=300;
3734	+	int newNBins=30;
3735	+
3736	+	TPad *metpad4 = new TPad("metpad4","metpad4",0,0,1,1);
3737	+	TH1F *Ametleft = allsamples.Draw("Ametleft","met[4]",newNBins,low,newhigh, "MET [GeV]", "events", cutmass&&cutOSSF&&cutnJets&&LEFT,mc, luminosity);
3738	+	TH1F *AmetleftO = allsamples.Draw("AmetleftO","met[4]",newNBins,low,newhigh, "MET [GeV]", "events", cutmass&&cutOSOF&&cutnJets&&LEFT,mc, luminosity);
3739	+	TH1F *Ametright = allsamples.Draw("Ametright","met[4]",newNBins,low,newhigh, "MET [GeV]", "events", cutmass&&cutOSSF&&cutnJets&&RIGHT,mc, luminosity);
3740	+	TH1F *AmetrightO = allsamples.Draw("AmetrightO","met[4]",newNBins,low,newhigh, "MET [GeV]", "events", cutmass&&cutOSOF&&cutnJets&&RIGHT,mc, luminosity);
3741	+
3742	+	TH1F aBpred = (TH1F)Ametleft->Clone("aBpred");
3743	+	aBpred->Add(AmetleftO,-1);
3744	+	aBpred->Add(AmetrightO);
3745	+	aBpred->SetLineColor(kRed);
3746	+
3747	+	TH1F aobs = (TH1F)Ametright->Clone("aobs");
3748	+	metpad4->cd();
3749	+	metpad4->SetLogy(1);
3750	+	aobs->Draw();
3751	+	aBpred->Draw("histo,same");
3752	+	aobs->Draw("same");
3753	+	lg->SetHeader("All MC");
3754	+	lg->Draw();
3755	+	save_with_ratio(aobs,aBpred,metpad4->cd(),"METvsJZBplots/ComparingPredObsinMET_ALLSAMPLES");
3756	+
3757	+
3758	+	delete lg;
3759	+	delete canmetjzb;
3760	+	delete metleft;
3761	+	delete metleftO;
3762	+	delete metright;
3763	+	delete metrightO;
3764		}
3765
3766
#	Line 3269 \| Line 3768 \| void test() {
3768
3769		TCanvas *testcanv = new TCanvas("testcanv","testcanv");
3770		testcanv->cd();
3771	<	switch_overunderflow(true);
3771	>	// switch_overunderflow(true);
3772		TH1F *ptdistr = allsamples.Draw("ptdistr","pt1",100,30,200, "p_{T} [GeV]", "events", cutOSSF,data,luminosity);
3773		switch_overunderflow(false);
3774		ptdistr->Draw();

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Comparing UserCode/cbrown/Development/Plotting/Modules/Plotting_Functions.C (file contents): Revision 1.32 by buchmann, Fri Jun 29 15:01:28 2012 UTC vs. Revision 1.65 by buchmann, Thu Sep 13 09:44:16 2012 UTC

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Comparing UserCode/cbrown/Development/Plotting/Modules/Plotting_Functions.C (file contents):
Revision 1.32 by buchmann, Fri Jun 29 15:01:28 2012 UTC vs.
Revision 1.65 by buchmann, Thu Sep 13 09:44:16 2012 UTC