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Comparing UserCode/auterman/SusyScan/PlotScript/plot50tb.cc (file contents):
Revision 1.2 by auterman, Wed Feb 9 09:32:31 2011 UTC vs.
Revision 1.6 by auterman, Wed Mar 2 13:31:33 2011 UTC

#	Line 4 | Line 4
4		#include "PlotTools.h"
5		#include "TheLimits.h"
6		#include "GlobalFunctions.h"
7	+	#include "StyleSettings.h"
8
9		#include "TRint.h"
10		#include "TROOT.h"
#	Line 37 | Line 38 | int plot(int argc, char** argv)
38		return 1;
39		}
40
41	+	/*
42		//Style stuff
43		gStyle->SetHistFillColor(0);
44		gStyle->SetPalette(1);
#	Line 68 | Line 70 | int plot(int argc, char** argv)
70		gStyle->SetLabelSize(0.03,"X");
71		gStyle->SetLabelSize(0.03,"Y");
72		gStyle->SetLabelSize(0.03,"Z");
73	+	*/
74	+	util::StyleSettings::paper();
75	+	gStyle->SetPadBottomMargin(0.18);
76
77		//gROOT->SetStyle("MyStyle");
78		TCanvas * c1 = new TCanvas("c1","c1",600,600);
79	<	c1->SetFillStyle   ( 4000 );
80	<	c1->SetLeftMargin  ( 0.15 );
81	<	c1->SetRightMargin ( 0.15 );
82	<	c1->SetBottomMargin( 0.10 );
79	>	//c1->SetFillStyle   ( 4000 );
80	>	//c1->SetLeftMargin  ( 0.15 );
81	>	//c1->SetRightMargin ( 0.15 );
82	>	//c1->SetBottomMargin( 0.10 );
83		c1->cd();
84
85		//Get limits and generator masses ---------------------------------------------------
86		TheLimits * genpoints = new TheLimits();
87		//genpoints->Fill(argc, argv);
88	<	genpoints->Fill("limits_MHT_tb50/filelist.txt");
88	>	genpoints->Fill("limits_MHT_tb50-20110301/filelist.txt");
89
90		TheLimits * genpointsHT = new TheLimits();
91	<	genpointsHT->Fill("limits_HT_tb50/filelist.txt");
91	>	genpointsHT->Fill("limits_HT_tb50-20110301/filelist.txt");
92
93
94		//Replace read limits with specific numbers
95		//genpoints->OverwriteLimits("ABCD_MHT");
96
97	<	genpoints->FillGeneratorMasses("tb50_mu1_a0_massscan.dat");
97	>	genpoints->FillGeneratorMasses("GenScan_tb50.dat");
98		genpoints->match();
99	<	genpointsHT->FillGeneratorMasses("tb50_mu1_a0_massscan.dat");
99	>	genpointsHT->FillGeneratorMasses("GenScan_tb50.dat");
100		genpointsHT->match();
101
102		//the plotting ----------------------------------------------------------------------
#	Line 201 | Line 206 | int plot(int argc, char** argv)
206		TH2F*texcl = new TH2F("texcl",";m_{0} [GeV]; m_{1/2} [GeV]; 95% CL Expected Exclusion",
207		40,200,600,26,140,400);
208		TH2F*texpexcl=(TH2F*)texcl->Clone();
209	<	plotTools->Area(texpexcl, Mzero, Mhalf, MCMCExpExclusion);
205	<	TH2F*tobsexcl=(TH2F*)texcl->Clone();
206	<	plotTools->Area(tobsexcl, Mzero, Mhalf, MCMCObsExclusion);
209	>	plotToolsHT->Area(texpexcl, Mzero, Mhalf, NLOExpExclCLp1sigma);
210		std::vector<TGraph*> contours = plotTools->GetContours(texpexcl,3);
208	–	//std::vector<TGraph*> contours = plotTools->GetContours(tobsexcl,3);
209	–	//hPLexpexcl
210	–	//hexcl->Draw("colz");
211	–	//hexpexcl->Draw("colz");
212	–	//hobsexcl->Draw("colz");
211		texpexcl->Draw("colz");
212		int col=kBlue-10;
213		for (std::vector<TGraph*>::iterator cont=contours.begin(); cont!=contours.end(); ++cont){
#	Line 229 | Line 227 | int plot(int argc, char** argv)
227
228		// Exclusion in M0 - M1/2
229		TH2F*hexcl = new TH2F("hexcl",";m_{0} [GeV]; m_{1/2} [GeV]; 95% CL Expected Exclusion",
230	<	40,200,600,26,140,400);
231	<	TGraph * gexpexcl         = plotTools     ->GetContour(hexcl,Mzero,Mhalf,ExpExclCL,       3,0, 2,2);
232	<	TGraph * gobsexcl         = plotTools     ->GetContour(hexcl,Mzero,Mhalf,ObsExclCL,       3,0, 2,1);
233	<	TGraph * gMCMCexpexcl     = plotToolsHT   ->GetContour(hexcl,Mzero,Mhalf,MCMCExpExclusion,3,0, 3,2);
234	<	TGraph * gMCMCobsexcl     = plotToolsHT   ->GetContour(hexcl,Mzero,Mhalf,MCMCObsExclusion,3,0, 3,1);
235	<	TGraph * gCLsExpExclHT    = plotToolsHT   ->GetContour(hexcl,Mzero,Mhalf,ExpExclCL,       3,0, 1,2);
236	<	TGraph * gCLsObsExclHT    = plotToolsHT   ->GetContour(hexcl,Mzero,Mhalf,ObsExclCL,       3,0, 1,1);
237	<	TGraph * gCLsExpExclHTm1  = plotToolsHT   ->GetContour(hexcl,Mzero,Mhalf,ExpExclCLm1sigma,3,0, 5,2);
238	<	TGraph * gCLsExpExclHTp1  = plotToolsHT   ->GetContour(hexcl,Mzero,Mhalf,ExpExclCLp1sigma,3,0, 5,2);
239	<	TGraph * gCLsExp1Sigma    = MakeBand(gCLsExpExclHTp1, gCLsExpExclHTm1);
240	<	hexcl->Draw("colz");
241	<	if (gCLsExp1Sigma)    gCLsExp1Sigma->Draw("lf");
242	<	if (gexpexcl)         gexpexcl->Draw("l");
243	<	if (gCLsExpExclHT)    gCLsExpExclHT->Draw("l");
244	<	if (gMCMCexpexcl)     gMCMCexpexcl->Draw("l");
245	<	if (gCLsObsExclHT)    gCLsObsExclHT->Draw("l");
246	<	//if (gobsexcl)       gobsexcl->Draw("l");
247	<	//if (gPLobsexcl)     gPLobsexcl->Draw("l");
248	<	//if (gFCobsexcl)     gFCobsexcl->Draw("l");
249	<	//if (gMCMCobsexcl)   gMCMCobsexcl->Draw("l");
250	<	//if (gFCexpexcl)     gFCexpexcl->Draw("l");
251	<	//if (gPLexpexcl)     gPLexpexcl->Draw("l");
252	<	//if (gFCexpexcl)     gFCexpexcl->Draw("l");
230	>	40,200,600,26,140,450);
231	>	TH2F*hs = new TH2F("hs","",40,200,600,26,140,400);
232	>	TGraph * gexpexcl         = plotTools  ->GetContour(hs,Mzero,Mhalf,NLOExpExclCL,       3,0, 2,2);
233	>	TGraph * gexpexcl_LO      = plotTools  ->GetContour(hs,Mzero,Mhalf,ExpExclCL,          3,0, 2,4);
234	>	TGraph * gobsexcl         = plotTools  ->GetContour(hs,Mzero,Mhalf,NLOObsExclCL,       3,0, 2,1);
235	>	TGraph * gMCMCexpexcl     = plotToolsHT->GetContour(hs,Mzero,Mhalf,MCMCExpExclusion,   3,0, 3,2);
236	>	TGraph * gMCMCobsexcl     = plotToolsHT->GetContour(hs,Mzero,Mhalf,MCMCObsExclusion,   3,0, 3,1);
237	>	TGraph * gFCexpexclHT     = plotToolsHT->GetContour(hs,Mzero,Mhalf,NLOFCExpExclusion,  3,0, 3,2);
238	>	TGraph * gFCexpexclHT_LO  = plotToolsHT->GetContour(hs,Mzero,Mhalf,FCExpExclusion,     3,0, 3,4);
239	>	TGraph * gFCexpexclMHT    = plotTools->GetContour(hs,Mzero,Mhalf,NLOFCExpExclusion,    3,0, 3,2);
240	>	TGraph * gFCexpexclMHT_LO = plotTools->GetContour(hs,Mzero,Mhalf,FCExpExclusion,       3,0, 3,4);
241	>	TGraph * gFCobsexclHT     = plotToolsHT->GetContour(hs,Mzero,Mhalf,NLOFCObsExclusion,  3,0, 3,1);
242	>	TGraph * gFCobsexclMHT    = plotToolsHT->GetContour(hs,Mzero,Mhalf,NLOFCObsExclusion,  3,0, 3,1);
243	>	TGraph * gCLsExpExclHT    = plotToolsHT->GetContour(hs,Mzero,Mhalf,NLOExpExclCL,       3,0, 1,2);
244	>	TGraph * gCLsObsExclHT    = plotToolsHT->GetContour(hs,Mzero,Mhalf,NLOObsExclCL,       3,0, 1,1);
245	>	TGraph * gCLsExpExclHT_LO = plotToolsHT->GetContour(hs,Mzero,Mhalf,ExpExclCL,          3,0, 1,4);
246	>	TGraph * gCLsObsExclHT_LO = plotToolsHT->GetContour(hs,Mzero,Mhalf,ObsExclCL,          3,0, 1,1);
247	>	TGraph * gCLsExpExclHTm1  = plotToolsHT->GetContour(hs,Mzero,Mhalf,NLOExpExclCLm1sigma,3,0, 5,2);
248	>	TGraph * gCLsExpExclHTp1  = plotToolsHT->GetContour(hs,Mzero,Mhalf,NLOExpExclCLp1sigma,3,0, 5,2);
249	>	TGraph * gCLsExpExclMHTm1 = plotTools  ->GetContour(hs,Mzero,Mhalf,NLOExpExclCLm1sigma,  3,0, 5,2);
250	>	TGraph * gCLsExpExclMHTp1 = plotTools  ->GetContour(hs,Mzero,Mhalf,NLOExpExclCLp1sigma,  3,0, 5,2);
251	>	TGraph * gCheck1 = (TGraph*)gobsexcl->Clone();
252	>	TGraph * gCheck2 = (TGraph*)gexpexcl->Clone();
253	>	Smooth( gCLsObsExclHT, 33); gCLsObsExclHT->SetLineWidth( 3 );
254	>	Smooth( gCLsExpExclHT, 33 ); gCLsExpExclHT->SetLineWidth( 3 );
255	>	Smooth( gCLsObsExclHT_LO, 33); gCLsObsExclHT_LO->SetLineWidth( 3 );
256	>	Smooth( gCLsExpExclHT_LO, 33 ); gCLsExpExclHT_LO->SetLineWidth( 3 );
257	>	Smooth( gexpexcl, 33 );
258	>	Smooth( gobsexcl, 33 );
259	>	Smooth( gobsexcl, 33 );
260	>	Smooth( gexpexcl_LO, 33 );
261	>	Smooth( gFCexpexclHT, 33 );
262	>	Smooth( gFCexpexclHT_LO, 33 );gFCexpexclHT_LO->SetLineWidth( 3 );
263	>	Smooth( gFCexpexclMHT, 33 );
264	>	Smooth( gFCexpexclMHT_LO, 33 );
265	>	Smooth( gFCobsexclHT, 33 );gFCobsexclHT->SetLineWidth( 3 );
266	>	Smooth( gFCobsexclMHT, 33 );
267	>	Smooth( gCLsExpExclHTm1, 33 );
268	>	Smooth( gCLsExpExclHTp1, 33 );
269	>	Smooth( gCLsExpExclMHTm1, 33 );
270	>	Smooth( gCLsExpExclMHTp1, 33 );
271	>	TGraph * CLsObsNLO = plotToolsHT->ChooseBest(gCLsObsExclHT,gobsexcl, gCLsObsExclHT,gobsexcl);
272	>	TGraph * CLsExpNLO = plotToolsHT->ChooseBest(gCLsExpExclHT,gexpexcl, gCLsExpExclHT,gexpexcl);
273	>	TGraph * CLsExpLO  = plotToolsHT->ChooseBest(gCLsExpExclHT_LO,gexpexcl_LO, gCLsExpExclHT_LO,gexpexcl_LO);
274	>	TGraph * FCExpLO   = plotToolsHT->ChooseBest(gFCexpexclHT_LO,gFCexpexclMHT_LO,gFCexpexclHT_LO,gFCexpexclMHT_LO);
275	>	TGraph * FCObsNLO  = plotToolsHT->ChooseBest(gFCobsexclHT,gFCobsexclMHT,gFCobsexclHT,gFCobsexclMHT);
276	>	TGraph * gCLsExpExclp1 = plotToolsHT->ChooseBest(gCLsExpExclHTp1,gCLsExpExclMHTp1, gCLsExpExclHTp1,gCLsExpExclMHTp1);
277	>	TGraph * gCLsExpExclm1 = plotToolsHT->ChooseBest(gCLsExpExclHTm1,gCLsExpExclMHTm1, gCLsExpExclHTm1,gCLsExpExclMHTm1);
278	>	TGraph * gCLsExp1Sigma    = MakeBand(gCLsExpExclp1, gCLsExpExclm1);
279	>	hexcl->GetYaxis()->SetTitleOffset(1.3);
280	>	hexcl->Draw("colz");
281	>	//gCLsExpExclHTp1->Draw("l");
282	>	//gCLsExpExclMHTp1->Draw("l");
283	>	//gCLsExpExclHTm1->Draw("l");
284	>	//gCLsExpExclMHTm1->Draw("l");
285	>	gCLsExp1Sigma->Draw("f");
286		//set old exclusion Limits
287	<	TGraph* LEP_ch = set_lep_ch();
288	<	TGraph* LEP_sl = set_lep_sl();//slepton curve
289	<	TGraph* TEV_sg_cdf = set_tev_sg_cdf();//squark gluino cdf
290	<	TGraph* TEV_sg_d0 = set_tev_sg_d0();//squark gluino d0
291	<	TGraph* TEV_tlp_cdf = set_tev_tlp_cdf();//trilepton cdf
292	<	TGraph* TEV_tlp_d0 = set_tev_tlp_d0();//trilepton d0
293	<	TGraph* stau = set_tev_stau();//stau
294	<	TGraph* TEV_sn_d0_1 = set_sneutrino_d0_1();
295	<	TGraph* TEV_sn_d0_2 = set_sneutrino_d0_2();
287	>	TGraph* LEP_ch = set_lep_ch(50);
288	>	TGraph* LEP_sl = set_lep_sl(50);//slepton curve
289	>	TGraph* TEV_sg_cdf = set_tev_sg_cdf(50);//squark gluino cdf
290	>	TGraph* TEV_sg_d0 = set_tev_sg_d0(50);//squark gluino d0
291	>	//TGraph* TEV_tlp_cdf = set_tev_tlp_cdf(10);//trilepton cdf
292	>	//TGraph* TEV_tlp_d0 = set_tev_tlp_d0(10);//trilepton d0
293	>	TGraph* stau = set_tev_stau(50);//stau
294	>	TGraph* TEV_sn_d0_1 = set_sneutrino_d0_1(50);
295	>	TGraph* TEV_sn_d0_2 = set_sneutrino_d0_2(50);
296		TGraphErrors* First  = getObserved_NLO_tanBeta50();
297		TGraphErrors* Second = getExpected_NLO_tanBeta50();//getLO_jetMultis();
298		TGraphErrors* Third  = getLO_tanBeta50();
#	Line 271 | Line 302 | int plot(int argc, char** argv)
302		First->GetYaxis()->SetTitle("m_{1/2} (GeV)");
303		TSpline3 *sFirst = new TSpline3("sFirst",First);
304		sFirst->SetLineColor(kBlue);
305	<	sFirst->SetLineWidth(3);
305	>	//sFirst->SetLineWidth(3);
306		TSpline3 *sSecond = new TSpline3("sSecond",Second);
307		sSecond->SetLineColor(kBlue);
308		sSecond->SetLineStyle(2);
309	<	sSecond->SetLineWidth(3);
309	>	//sSecond->SetLineWidth(3);
310		TSpline3 *sThird = new TSpline3("sThird",Third);
311	<	sThird->SetLineColor(kGreen+2);
311	>	sThird->SetLineColor(kBlue);
312		sThird->SetLineStyle(4);
313	<	sThird->SetLineWidth(3);
313	>	//sThird->SetLineWidth(3);
314		TEV_sn_d0_1->Draw("fsame");
315		TEV_sn_d0_2->Draw("fsame");
316		TEV_sg_d0->Draw("fsame");
#	Line 292 | Line 323 | int plot(int argc, char** argv)
323		sThird->Draw("same");
324		TLatex b; b.SetTextSize(0.02); b.SetTextColor(1);
325		//b.DrawLatex( 10,420,"#tilde{#tau} LSP");
326	<	//b.DrawLatex(  6,150,"LEP2");
326	>	b.DrawLatex(230,145,"LEP2");
327		//b.DrawLatex( 22,138,"#tilde{l}^{#pm}");
328		//b.DrawLatex(360,110,"LEP2 #tilde{#chi}^{#pm}");
329		//b.DrawLatex(100,140,"CDF");
330	<	b.DrawLatex(230,145,"D0 #tilde{g}, #tilde{q}");
330	>	//b.DrawLatex(230,145,"D0 #tilde{g}, #tilde{q}");
331		//b.DrawLatex( 80,180,"D0 #tilde{#nu}");
332	<	TLegend * leg = new TLegend(0.45,0.7,0.85,0.89);
333	<	leg->SetBorderSize(0);leg->SetFillColor(0);
332	>	CLsObsNLO->Draw("l");
333	>	CLsExpNLO->Draw("l");
334	>	CLsExpLO->Draw("l");
335	>	FCExpLO->Draw("l");
336	>	//FCObsNLO->Draw("l");
337	>
338	>	//gl500->Draw("c"); gl600->Draw("c"); gl700->Draw("c"); gl800->Draw("c"); gl900->Draw("c"); gl1000->Draw("c");
339	>	//sq500->Draw("c"); sq600->Draw("c"); sq700->Draw("c"); sq800->Draw("c"); sq900->Draw("c"); sq1000->Draw("c");
340	>	//TLegend * leg = new TLegend(0.45,0.65,0.84,0.89);
341	>	//leg->SetBorderSize(0);leg->SetFillColor(0);
342	>	TLegend * leg = new TLegend(0.6,0.66,0.96,0.90);
343	>	leg->SetBorderSize(0);leg->SetFillColor(0);leg->SetFillStyle(4000);leg->SetTextFont(42);
344	>	TGraph * expLeg = (TGraph*)CLsExpNLO->Clone();expLeg->SetFillStyle(gCLsExp1Sigma->GetFillStyle());expLeg->SetFillColor(gCLsExp1Sigma->GetFillColor());
345	>	leg->SetHeader("CMS preliminary, 95%CL");
346	>	leg->AddEntry(expLeg,   "Expected (CLs, NLO)","l");
347	>	leg->AddEntry(CLsObsNLO,"Observed (CLs, NLO)","l");
348	>	leg->AddEntry(CLsExpLO, "Expected (CLs, LO)","l");
349	>	leg->AddEntry(FCExpLO,  "Expected (FC, LO)","l");
350		//if (gobsexcl) leg->AddEntry(gobsexcl,"Observed (MHT, CLs, TLimit)","l");
351	<	if (gexpexcl) leg->AddEntry(gexpexcl,"LO Expected (MHT, CLs, TLimit)","l");
352	<	if (gCLsObsExclHT) leg->AddEntry(gCLsObsExclHT,"LO Observed (HT, CLs, TLimit)","l");
353	<	if (gCLsExpExclHT) leg->AddEntry(gCLsExpExclHT,"LO Expected (HT, CLs, TLimit)","l");
351	>	//if (gCLsExpExclHT) leg->AddEntry(expLeg       ,"NLO Expected (HT, CLs)","l");
352	>	//if (gCLsObsExclHT) leg->AddEntry(gCLsObsExclHT,"NLO Observed (HT, CLs)","l");
353	>	//if (gCLsObsExclHT_LO) leg->AddEntry(gCLsObsExclHT_LO,"LO Observed (HT, CLs)","l");
354	>	//if (gCLsExpExclHT_LO) leg->AddEntry(gCLsExpExclHT_LO,"LO Expected (HT, CLs)","l");
355		//if (gPLobsexcl) leg->AddEntry(gPLobsexcl,"Observed (PL, RooStat)","l");
356		//if (gPLexpexcl) leg->AddEntry(gPLexpexcl,"Expected (PL, RooStat)","l");
357	<	//if (gFCobsexcl) leg->AddEntry(gFCobsexcl,"Observed (FC, RooStat)","l");
358	<	//if (gFCexpexcl) leg->AddEntry(gFCexpexcl,"Expected (FC, RooStat)","l");
357	>	//if (gFCobsexcl) leg->AddEntry(gFCobsexcl,"NLO Observed (HT, FC, RooStat)","l");
358	>	//if (gFCexpexcl) leg->AddEntry(gFCexpexcl,"NLO Expected (HT, FC, RooStat)","l");
359		//if (gMCMCobsexcl) leg->AddEntry(gMCMCobsexcl,"Observed (MHT, MCMC, RooStat)","l");
360	<	if (gMCMCexpexcl) leg->AddEntry(gMCMCexpexcl,"LO Expected (HT, MCMC, RooStat)","l");
361	<	if (sFirst)  leg->AddEntry(sFirst, "NLO RA1 Observed");
362	<	if (sSecond) leg->AddEntry(sSecond,"NLO RA1 Expected");
363	<	if (sThird) leg->AddEntry(sThird,"LO RA1 Observed");
360	>	//if (gMCMCexpexcl) leg->AddEntry(gMCMCexpexcl,"LO Expected (HT, MCMC, RooStat)","l");
361	>	//if (gexpexcl) leg->AddEntry(gexpexcl,"NLO Expected (MHT, CLs)","l");
362	>	//if (gobsexcl) leg->AddEntry(gobsexcl,"NLO Observed (MHT, CLs)","l");
363	>	if (sSecond) leg->AddEntry(sSecond,"#alpha_{T} Expected (FC, NLO)");
364	>	if (sFirst)  leg->AddEntry(sFirst, "#alpha_{T} Observed (FC, NLO)");
365	>	if (sThird)  leg->AddEntry(sThird, "#alpha_{T} Expected (FC, LO)");
366		leg->Draw();
367		gPad->RedrawAxis();
368		c1->SaveAs("results_tb50/Exclusion_m0_m12_tb50.pdf");
#	Line 339 | Line 389 | int plot(int argc, char** argv)
389		if (gobsexcl)    gobsexcl->Draw("l");
390		c1->SaveAs("results_tb50/SignalContamination_MHT_m0_m12_tb50.pdf");
391
392	+	// Signal JEC Uncertainty  MHT
393	+	c1->SetLogz(0);
394	+	TH2F*hsig_jec_mht = new TH2F("sigjecmht",";m_{0} [GeV]; m_{1/2} [GeV]; Signal JEC uncertainty",
395	+	40,200,600,26,140,400);
396	+	plotTools->Area(hsig_jec_mht, Mzero, Mhalf, SignalUncertJEC);
397	+	hsig_jec_mht->SetMinimum(0.0);
398	+	hsig_jec_mht->SetMaximum(0.25);
399	+	hsig_jec_mht->SetContour(10);
400	+	hsig_jec_mht->Draw("colz");
401	+	if (gobsexcl)    gobsexcl->Draw("l");
402	+	c1->SaveAs("results_tb50/SigJEC_MHT_m0_m12_tb50.pdf");
403	+
404	+	// Signal JEC Uncertainty  HT
405	+	c1->SetLogz(0);
406	+	TH2F*hsig_jec_ht = new TH2F("sigjecht",";m_{0} [GeV]; m_{1/2} [GeV]; Signal JEC uncertainty",
407	+	40,200,600,26,140,400);
408	+	plotTools->Area(hsig_jec_ht, Mzero, Mhalf, SignalUncertJEC);
409	+	hsig_jec_ht->SetMinimum(0.0);
410	+	hsig_jec_ht->SetMaximum(0.25);
411	+	hsig_jec_ht->SetContour(10);
412	+	hsig_jec_ht->Draw("colz");
413	+	if (gCLsObsExclHT)    gCLsObsExclHT->Draw("l");
414	+	c1->SaveAs("results_tb50/SigJEC_HT_m0_m12_tb50.pdf");
415	+
416	+
417	+	// Signal MuIso Uncertainty  MHT
418	+	c1->SetLogz(0);
419	+	TH2F*hsig_MuIso_mht = new TH2F("sigMuIsomht",";m_{0} [GeV]; m_{1/2} [GeV]; Signal #mu_{iso} uncertainty",
420	+	40,200,600,26,140,400);
421	+	plotTools->Area(hsig_MuIso_mht, Mzero, Mhalf, SignalUncertMuIso);
422	+	hsig_MuIso_mht->SetMinimum(0.0);
423	+	hsig_MuIso_mht->SetMaximum(0.05);
424	+	hsig_MuIso_mht->SetContour(5);
425	+	hsig_MuIso_mht->Draw("colz");
426	+	if (gobsexcl)    gobsexcl->Draw("l");
427	+	c1->SaveAs("results_tb50/SigMuIso_MHT_m0_m12_tb50.pdf");
428	+
429	+	// Signal MuIso Uncertainty  HT
430	+	c1->SetLogz(0);
431	+	TH2F*hsig_MuIso_ht = new TH2F("sigMuIsoht",";m_{0} [GeV]; m_{1/2} [GeV]; Signal #mu_{iso} uncertainty",
432	+	40,200,600,26,140,400);
433	+	plotTools->Area(hsig_MuIso_ht, Mzero, Mhalf, SignalUncertMuIso);
434	+	hsig_MuIso_ht->SetMinimum(0.0);
435	+	hsig_MuIso_ht->SetMaximum(0.05);
436	+	hsig_MuIso_ht->SetContour(5);
437	+	hsig_MuIso_ht->Draw("colz");
438	+	if (gCLsObsExclHT)    gCLsObsExclHT->Draw("l");
439	+	c1->SaveAs("results_tb50/SigMuIso_HT_m0_m12_tb50.pdf");
440	+
441	+
442	+	// Signal kFactor Uncertainty  MHT
443	+	c1->SetLogz(0);
444	+	TH2F*hsig_kFactor_mht = new TH2F("sigkFactormht",";m_{0} [GeV]; m_{1/2} [GeV]; Signal #mu_{iso} uncertainty",
445	+	40,200,600,26,140,400);
446	+	plotTools->Area(hsig_kFactor_mht, Mzero, Mhalf, SignalUncertKfactor);
447	+	hsig_kFactor_mht->SetMinimum(0.1);
448	+	hsig_kFactor_mht->SetMaximum(0.2);
449	+	hsig_kFactor_mht->SetContour(10);
450	+	hsig_kFactor_mht->Draw("colz");
451	+	if (gobsexcl)    gobsexcl->Draw("l");
452	+	c1->SaveAs("results_tb50/SigkFactor_MHT_m0_m12_tb50.pdf");
453	+
454	+	// Signal kFactor Uncertainty  HT
455	+	c1->SetLogz(0);
456	+	TH2F*hsig_kFactor_ht = new TH2F("sigkFactorht",";m_{0} [GeV]; m_{1/2} [GeV]; Signal #mu_{iso} uncertainty",
457	+	40,200,600,26,140,400);
458	+	plotTools->Area(hsig_kFactor_ht, Mzero, Mhalf, SignalUncertKfactor);
459	+	hsig_kFactor_ht->SetMinimum(0.1);
460	+	hsig_kFactor_ht->SetMaximum(0.2);
461	+	hsig_kFactor_ht->SetContour(10);
462	+	hsig_kFactor_ht->Draw("colz");
463	+	if (gCLsObsExclHT)    gCLsObsExclHT->Draw("l");
464	+	c1->SaveAs("results_tb50/SigkFactor_HT_m0_m12_tb50.pdf");
465	+
466
343	–	/*
467		//-----------------------------------------------------------------------------------
468		c1->SetLogz(1);
469
#	Line 349 | Line 472 | int plot(int argc, char** argv)
472
473		// cross-section in squark - gluino mass
474		TH2F*hxsec_qg = new TH2F("xsec_qg",";m_{#tilde{q}} [GeV]; m_{#tilde{g}} [GeV]; cross section [pb]",
475	<	60,200,1400,50,200,1200);
475	>	40,200,900,30,200,900);
476		plotTools->Area(hxsec_qg, MSquarkL, MGluino, Xsection);
477		hxsec_qg->SetMinimum(0.01);
478		hxsec_qg->Draw("colz");
#	Line 359 | Line 482 | int plot(int argc, char** argv)
482
483		// Observed Limit in squark - gluino mass
484		TH2F*hobslimit_qg = new TH2F("obslimit_qg",";m_{#tilde{q}} [GeV]; m_{#tilde{g}} [GeV]; 95% CL Observed Limit [pb]",
485	<	60,200,1400,50,200,1200);
485	>	40,200,900,30,200,900);
486		plotTools->Area(hobslimit_qg, MSquarkL, MGluino, ObsXsecLimit);
487		hobslimit_qg->SetMinimum(0.01);
488		hobslimit_qg->Draw("colz");
#	Line 367 | Line 490 | int plot(int argc, char** argv)
490
491		// Expected Limit in squark - gluino mass
492		TH2F*hexplimit_qg = new TH2F("explimit_qg",";m_{#tilde{q}} [GeV]; m_{#tilde{g}} [GeV]; 95% CL Expected Limit [pb]",
493	<	60,200,1400,50,200,1200);
493	>	40,200,900,30,200,900);
494		plotTools->Area(hexplimit_qg, MSquarkL, MGluino, ExpXsecLimit);
495		hexplimit_qg->SetMinimum(0.01);
496		hexplimit_qg->Draw("colz");
#	Line 375 | Line 498 | int plot(int argc, char** argv)
498
499		// Signal Acceptance in squark - gluino mass
500		TH2F*hsigacc_qg = new TH2F("sigacc_qg",";m_{#tilde{q}} [GeV]; m_{#tilde{g}} [GeV]; Signal Acceptance",
501	<	60,200,1400,50,200,1200);
501	>	40,200,900,30,200,900);
502		plotTools->Area(hsigacc_qg, MSquarkL, MGluino, SignalAcceptance);
503		hsigacc_qg->SetMinimum(0.01);
504		hsigacc_qg->SetMaximum(1.0);
#	Line 385 | Line 508 | int plot(int argc, char** argv)
508		// Exp. Limit on Number of Signal Events in squark - gluino mass
509		c1->SetLogz(0);
510		TH2F*hexplimitnsig_qg = new TH2F("explimitnsig_qg",";m_{#tilde{q}} [GeV]; m_{#tilde{g}} [GeV]; 95% CL exp. limit signal events [# ]",
511	<	60,200,1400,50,200,1200);
511	>	40,200,900,30,200,900);
512		plotTools->Area(hexplimitnsig_qg, MSquarkL, MGluino, ExpNSignLimit);
513		hexplimitnsig_qg->SetMinimum(0.0);
514		hexplimitnsig_qg->SetMaximum(20);
#	Line 394 | Line 517 | int plot(int argc, char** argv)
517
518		// Obs. Limit on Number of Signal Events in squark - gluino mass
519		TH2F*hobslimitnsig_qg = new TH2F("obslimitnsig_qg",";m_{#tilde{q}} [GeV]; m_{#tilde{g}} [GeV]; 95% CL obs. limit signal events [# ]",
520	<	60,200,1400,50,200,1200);
520	>	40,200,900,30,200,900);
521		plotTools->Area(hobslimitnsig_qg, MSquarkL, MGluino, ObsNSignLimit);
522		hobslimitnsig_qg->SetMinimum(0.0);
523		hobslimitnsig_qg->SetMaximum(20);
#	Line 404 | Line 527 | int plot(int argc, char** argv)
527		c1->SetLogz(0);
528		// Expected Exclusion in squark - gluino mass
529		TH2F*hexpexcl_qg = new TH2F("expexcl_qg",";m_{#tilde{q}} [GeV]; m_{#tilde{g}} [GeV]; 95% CL Expected Exclusion",
530	<	60,200,1400,50,200,1200);
530	>	40,200,900,30,200,900);
531		plotTools->Area(hexpexcl_qg, MSquarkL, MGluino, ExpExclCL);
532		hexpexcl_qg->Draw("colz");
533		c1->SaveAs("results_tb50/ExpExclusion_mSql_mGl_tb50.pdf");
534
535		// Observed Exclusion in squark - gluino mass
536		TH2F*hobsexcl_qg = new TH2F("obsexcl_qg",";m_{#tilde{q}} [GeV]; m_{#tilde{g}} [GeV]; 95% CL Observed Exclusion",
537	<	60,200,1400,50,200,1200);
537	>	40,200,900,30,200,900);
538		plotTools->Area(hobsexcl_qg, MSquarkL, MGluino, ObsExclCL);
539		//std::vector<TGraph *> vobsexcl_qg = plotTools->GetContours(hobsexcl_qg);
540		hobsexcl_qg->Draw("colz");
#	Line 423 | Line 546 | int plot(int argc, char** argv)
546
547		// TestContours in M0 - M1/2
548		TH2F*texcl_qg = new TH2F("texcl_qg",";m_{#tilde{q}} [GeV]; m_{#tilde{g}} [GeV]; 95% CL Observed Exclusion",
549	<	60,200,1400,50,200,1200);
549	>	40,200,900,30,200,900);
550		TH2F*tPLobsexcl_qg=(TH2F*)texcl_qg->Clone();
551		plotTools->Area(tPLobsexcl_qg, MSquarkL, MGluino, PLObsExclusion);
552		TH2F*tPLexpexcl_qg=(TH2F*)texcl_qg->Clone();
#	Line 454 | Line 577 | int plot(int argc, char** argv)
577
578		// Observed Exclusion in squark - gluino mass
579		TH2F*hPLobsexcl_qg = new TH2F("plobsexcl_qg",";m_{#tilde{q}} [GeV]; m_{#tilde{g}} [GeV]; 95% CL Observed Exclusion",
580	<	60,200,1400,50,200,1200);
580	>	40,200,900,30,200,900);
581		plotTools->Area(hPLobsexcl_qg, MSquarkL, MGluino, PLObsExclusion);
582		//hPLobsexcl_qg->Draw("colz");
583		//c1->SaveAs("results_tb50/PL_ObsExclusion_mSql_mGl_tb50.pdf");
584
585
586
464	–
465	–
587		// Exclusion in squark - gluino mass ----------------------------------------
588		TH2F*hexcl_qg = new TH2F("hexcl_qg",";m_{#tilde{q}} [GeV]; m_{#tilde{g}} [GeV]; 95% CL Observed Exclusion",
589	<	60,200,1400,50,200,1200);
590	<	TGraph * gexpexcl_qg = plotTools->GetContour(hexpexcl_qg,3,0);
591	<	if (gexpexcl_qg) gexpexcl_qg->SetLineStyle(2);
592	<	TGraph * gobsexcl_qg = plotTools->GetContour(hobsexcl_qg,3,0);
593	<	TH2F*hPLexpexcl_qg=(TH2F*)hexcl_qg->Clone();
594	<	plotTools->Area(hPLexpexcl_qg, MSquarkL, MGluino, PLExpExclusion);
595	<	TGraph * gPLexpexcl_qg = plotTools->GetContour(hPLexpexcl_qg,3,0);
596	<	if (gPLexpexcl_qg)   {gPLexpexcl_qg->SetLineStyle(2);gPLexpexcl_qg->SetLineColor(2);}
597	<	TGraph * gPLobsexcl_qg = plotTools->GetContour(hPLobsexcl_qg,3,0);
598	<	if (gPLobsexcl_qg) gPLobsexcl_qg->SetLineColor(2);
599	<	TH2F*hCLsExpHT_qg=(TH2F*)hexcl_qg->Clone();
600	<	TH2F*hCLsObsHT_qg=(TH2F*)hexcl_qg->Clone();
480	<	plotToolsHT->Area(hCLsExpHT_qg, MSquarkL, MGluino, ExpExclCL);
481	<	plotToolsHT->Area(hCLsObsHT_qg, MSquarkL, MGluino, ObsExclCL);
482	<	TGraph * gCLsExpExclHT_qg = plotTools->GetContour(hCLsExpHT_qg,3,0);
483	<	TGraph * gCLsObsExclHT_qg = plotTools->GetContour(hCLsObsHT_qg,3,0);
484	<	if (gCLsObsExclHT_qg) gCLsObsExclHT_qg->SetLineColor(2);
485	<	if (gCLsExpExclHT_qg) {gCLsExpExclHT_qg->SetLineStyle(2);gCLsExpExclHT_qg->SetLineColor(2);}
589	>	40,200,900,30,200,900);
590	>	TGraph * gexpexcl_qg         = plotTools->GetContour(hexcl_qg,MSquarkL,MGluino,  NLOExpExclCL,       3,0, 2,2);
591	>	TGraph * gexpexcl_qg_LO      = plotTools->GetContour(hexcl_qg,MSquarkL,MGluino,  ExpExclCL,       3,0, 2,4);
592	>	TGraph * gobsexcl_qg         = plotTools->GetContour(hexcl_qg,MSquarkL,MGluino,  NLOObsExclCL,       3,0, 2,1);
593	>	TGraph * gMCMCexpexcl_qg     = plotToolsHT->GetContour(hexcl_qg,MSquarkL,MGluino,MCMCExpExclusion,3,0, 3,2);
594	>	TGraph * gMCMCobsexcl_qg     = plotToolsHT->GetContour(hexcl_qg,MSquarkL,MGluino,MCMCObsExclusion,3,0, 3,1);
595	>	TGraph * gCLsExpExclHT_qg    = plotToolsHT->GetContour(hexcl_qg,MSquarkL,MGluino,NLOExpExclCL,       3,0, 1,2);
596	>	TGraph * gCLsExpExclHT_qg_LO = plotToolsHT->GetContour(hexcl_qg,MSquarkL,MGluino,ExpExclCL,       3,0, 1,4);
597	>	TGraph * gCLsObsExclHT_qg    = plotToolsHT->GetContour(hexcl_qg,MSquarkL,MGluino,NLOObsExclCL,       3,0, 1,1);
598	>	TGraph * gCLsExpExclHTm1_qg  = plotToolsHT->GetContour(hexcl_qg,MSquarkL,MGluino,NLOExpExclCLm1sigma,3,0, 5,2);
599	>	TGraph * gCLsExpExclHTp1_qg  = plotToolsHT->GetContour(hexcl_qg,MSquarkL,MGluino,NLOExpExclCLp1sigma,3,0, 5,2);
600	>	TGraph * gCLsExp1Sigma_qg    = MakeBand(gCLsExpExclHTp1_qg, gCLsExpExclHTm1_qg);
601		hexcl_qg->Draw("");
602	<	if (gobsexcl_qg) gobsexcl_qg->Draw("l");
602	>	//
603	>	if (gCLsExp1Sigma_qg) gCLsExp1Sigma_qg->Draw("lf");
604	>	if (gobsexcl_qg)      gobsexcl_qg->Draw("l");
605		if (gCLsObsExclHT_qg) gCLsObsExclHT_qg->Draw("l");
606	<	if (gexpexcl_qg) gexpexcl_qg->Draw("l");
607	<	//if (gPLobsexcl_qg) gPLobsexcl_qg->Draw("l");
491	<	//if (gPLexpexcl_qg) gPLexpexcl_qg->Draw("l");
606	>	if (gexpexcl_qg)      gexpexcl_qg->Draw("l");
607	>	if (gexpexcl_qg_LO)   gexpexcl_qg_LO->Draw("l");
608		if (gCLsExpExclHT_qg) gCLsExpExclHT_qg->Draw("l");
609	+	if (gCLsExpExclHT_qg_LO) gCLsExpExclHT_qg_LO->Draw("l");
610	+	//
611		TLegend * leg_qg = new TLegend(0.45,0.78,0.85,0.89);
612	<	leg_qg->SetBorderSize(0);leg_qg->SetFillColor(0);
613	<	if (gobsexcl_qg) leg_qg->AddEntry(gobsexcl_qg,"Observed (MHT, CLs, TLimit)","l");
614	<	if (gexpexcl_qg) leg_qg->AddEntry(gexpexcl_qg,"Expected (MHT, CLs, TLimit)","l");
615	<	if (gCLsObsExclHT_qg) leg_qg->AddEntry(gCLsObsExclHT_qg,"Observed (HT, CLs, TLimit)","l");
616	<	if (gCLsExpExclHT_qg) leg_qg->AddEntry(gCLsExpExclHT_qg,"Expected (HT, CLs, TLimit)","l");
612	>	leg_qg->SetBorderSize(0);leg_qg->SetFillColor(0);leg->SetTextFont(42);
613	>	TGraph * expLeg_qg = (TGraph*)gCLsExpExclHT_qg->Clone();expLeg_qg->SetFillStyle(gCLsExp1Sigma_qg->GetFillStyle());expLeg_qg->SetFillColor(gCLsExp1Sigma_qg->GetFillColor());
614	>	if (gobsexcl_qg) leg_qg->AddEntry(gobsexcl_qg,"NLO Observed (MHT, CLs)","l");
615	>	if (gexpexcl_qg) leg_qg->AddEntry(gexpexcl_qg,"NLO Expected (MHT, CLs)","l");
616	>	if (gexpexcl_qg_LO) leg_qg->AddEntry(gexpexcl_qg_LO,"LO Expected (MHT, CLs)","l");
617	>	if (gCLsObsExclHT_qg) leg_qg->AddEntry(gCLsObsExclHT_qg,"NLO Observed (HT, CLs)","l");
618	>	if (gCLsExpExclHT_qg) leg_qg->AddEntry(expLeg_qg,"NLO Expected (HT, CLs)","lf");
619	>	if (gCLsExpExclHT_qg_LO) leg_qg->AddEntry(gCLsExpExclHT_qg_LO,"LO Expected (HT, CLs)","l");
620		//if (gPLobsexcl_qg) leg_qg->AddEntry(gPLobsexcl_qg,"Observed (PL, RooStat)","l");
621		//if (gPLexpexcl_qg) leg_qg->AddEntry(gPLexpexcl_qg,"Expected (PL, RooStat)","l");
622		leg_qg->Draw();
623		c1->SaveAs("results_tb50/Exclusion_mSql_mGl_tb50.pdf");
624	+	//c1->SaveAs("plot_tb10.pdf");
625	+
626	+
627
628		//c1->SaveAs("plot_tb50.pdf");
505	–	*/
629		c1->SetLogy(1);
630		c1->SetLogx(1);
631		TH2F*hUncertScan = new TH2F("hUncertScan",";relative signal uncertainty; number of signal events",

Diff Legend

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