void plot3(TString infile = "fp-d", TString pltmd = "cos") { // CHECK FOR RIGHT INPUT //////////////////////////////////////////////// string strpltmd = pltmd, filename = infile, strfile = infile; if( (strpltmd.compare("cos") != 0 ) && (strpltmd.compare("sin") != 0 ) && (strpltmd.compare("tan") != 0 ) && (strpltmd.compare("mmp") != 0 ) ) {error(4);}; // GLOBAL VARIABLES //////////////////////////////////////////////////// Int_t file, point, color, style; Float_t fits2b, fittph, tphold, fitsph, fitcph, fitx, fitxmin, fitxmax = -1.0; Float_t xVal, yVal; Float_t xMin = 100000, xMax = -1.0, yMin = 100000, yMax = -1.0; Float_t MZ, MW, Mmin = 100000; Float_t Cz1, Cz2, Cz3, Cw1, Cw2, Cw3, Cw4, C1, C2; Float_t phiMin, phiMax, cphmin, cphmax, sphmin, sphmax; // CUSTOMIZE PLOT /////////////////////////////////////////////////////// gROOT->Reset(); gROOT->SetStyle("Plain"); gStyle->SetTitleBorderSize(0); gStyle->SetPalette(1); TCanvas *MyC = new TCanvas("MyC","Plot of the GAPP fit results",200,10,700,500); Float_t mmlegxmin, mmlegxmax, mmlegymin, mmlegymax; Float_t s2blegxmin, s2blegymin, s2blegxmax, s2blegymax; Float_t lblxmin, lblxmax, lblymin, lblymax; string plottitle = "Model: " + infile + " | Plot: "; string xtitle, ytitle, NPleg, SMleg, display; NPleg = "#font[52]{M_{H}^{(NP)}, #bar{m}_{t}^{(NP)}}"; SMleg = "#font[52]{M_{H}^{(SM)}, #bar{m}_{t}^{(SM)}}"; if (strpltmd.compare("tan") == 0) { plottitle += "#font[42]{tan^{2}(#tilde{#phi}) over }#font[52]{#tilde{x}}#font[42]{.}"; xtitle = "#font[52]{#tilde{x}}"; ytitle = "#font[42]{tan^{2}(#tilde{#phi})}"; display = "C"; mmlegxmin = 0.15; mmlegxmax = 0.30; mmlegymin = 0.75; mmlegymax = 0.85; s2blegxmin = 0.15; s2blegxmax = 0.40; s2blegymin = 0.30; s2blegymax = 0.50; lblxmin = 0.88; lblxmax = 0.88; lblymin = 0.60; lblymax = 0.65; } else if (strpltmd.compare("cos") == 0) { plottitle += "#font[42]{cos(#tilde{#phi}) over }#font[52]{#tilde{x}}#font[42]{.}"; xtitle = "#font[52]{#tilde{x}}"; ytitle = "#font[42]{cos(#tilde{#phi})}"; display = "C"; mmlegxmin = 0.70; mmlegxmax = 0.85; mmlegymin = 0.75; mmlegymax = 0.85; s2blegxmin = 0.15; s2blegxmax = 0.40; s2blegymin = 0.30; s2blegymax = 0.50; lblxmin = 0.65; lblxmax = 0.80; lblymin = 0.60; lblymax = 0.65; } else if (strpltmd.compare("sin") == 0) { plottitle += "#font[42]{sin(#tilde{#phi}) over }#font[52]{#tilde{x}}#font[42]{.}"; xtitle = "#font[52]{#tilde{x}}"; ytitle = "#font[42]{sin(#tilde{#phi})}"; display = "C"; mmlegxmin = 0.15; mmlegxmax = 0.30; mmlegymin = 0.75; mmlegymax = 0.85; s2blegxmin = 0.60; s2blegxmax = 0.85; s2blegymin = 0.30; s2blegymax = 0.50; lblxmin = 0.65; lblxmax = 0.80; lblymin = 0.60; lblymax = 0.65; } else if (strpltmd.compare("mmp") == 0) { plottitle += "#font[42]{Masses of the new heavy gauge bosons.}"; xtitle = "#font[52]{M_{Z'}}#font[42]{ (TeV)}"; ytitle = "#font[52]{M_{W'}}#font[42]{ (TeV)}"; display = "C"; mmlegxmin = 0.15; mmlegxmax = 0.30; mmlegymin = 0.75; mmlegymax = 0.85; s2blegxmin = 0.60; s2blegxmax = 0.85; s2blegymin = 0.45; s2blegymax = 0.65; lblxmin = 0.35; lblxmax = 0.50; lblymin = 0.45; lblymax = 0.50; }; // PREPARE BOSON MASSES AND PHI BOUNDS ////////////////////////////////// string mdl(filename,0,2); if ( (mdl.compare("lr") == 0) || (mdl.compare("lp") == 0) || (mdl.compare("hp") == 0) || (mdl.compare("fp") == 0) ) { phiMin = 5.600; phiMax = 84.400; string Higgs(filename,3,1); if (Higgs.compare("d") == 0) { Cz1 = 11.95349795785275; Cz2 = 30.63269990028513; Cz3 = 42.58619785813789; Cw1 = 21.29309892906894; Cw2 = 9.339600971216193; Cw3 = 30.63269990028513; Cw4 = 42.58619785813789; } else if (Higgs.compare("t") == 0) { Cz1 = 5.976748978926375; Cz2 = 30.63269990028513; Cz3 = 85.17239571627579; Cw1 = 15.05649464522066; Cw2 = 3.302047590161717; Cw3 = 21.66058982554409; Cw4 = 60.22597858088265; } } else if ( (mdl.compare("uu") == 0) || (mdl.compare("nu") == 0) ) { phiMin = 10.179, phiMax = 79.821; C1 = 94.0397928463607; C2 = 77.1253849720165; } else {error(6);} cphmin = cos(TMath::Pi()*phiMin/180.0)*cos(TMath::Pi()*phiMin/180.0); cphmax = cos(TMath::Pi()*phiMax/180.0)*cos(TMath::Pi()*phiMax/180.0); sphmin = sin(TMath::Pi()*phiMin/180.0)*sin(TMath::Pi()*phiMin/180.0); sphmax = sin(TMath::Pi()*phiMax/180.0)*sin(TMath::Pi()*phiMax/180.0); // LOOP OVER ROOT FILES //////////////////////////////////////////////// for(file=0; file<=1; file++) { if(file==0) string epsfile = filename + "_" + strpltmd + ".eps"; if(file==1) string filename = filename + "_sm"; string rootname = filename + ".root"; TFile *rootfile = TFile::Open(rootname.c_str()); if(rootfile == NULL) error(1); TTree *tree = (TTree*)rootfile->Get(filename.c_str()); if(tree == NULL) error(2); TBranch *fits2bbranch = (TBranch*)tree->GetBranch("fits2b"); TBranch *fittphbranch = (TBranch*)tree->GetBranch("fittph"); TBranch *fitxbranch = (TBranch*)tree->GetBranch("fitx"); if( (fits2bbranch == NULL) || (fittphbranch == NULL) || (fitxbranch == NULL) ) error(3); tree->SetBranchAddress("fits2b",&fits2b); tree->SetBranchAddress("fittph",&fittph); tree->SetBranchAddress("fitx", &fitx); // GET ARRAYS /////////////////////////////////////////////////////////// Int_t Npoints = (Int_t)tree->GetEntries(); Int_t tphStep = 0; Float_t tphMax = -1.0; for(point=0; point<Npoints; point++) { tree->GetEntry(point); if( fittph > tphMax ) {tphStep++; tphMax = fittph;} }; const int tphSteps = tphStep; Float_t xArray[tphSteps], yArray[tphSteps], zArray[tphSteps]; tphStep = -1, tphold = -1.0, fitxmin = 100000; for(point=0; point<Npoints; point++) { tree->GetEntry(point); if(fittph > tphold) {tphStep++; fitxmin = 100000;} fitsph = fittph / (1.0 + fittph); fitcph = 1.0 - fitsph; if (strpltmd.compare("tan") == 0) { xVal = fitx; yVal = fittph; } else if (strpltmd.compare("cos") == 0) { xVal = fitx; yVal = sqrt(fitcph); } else if (strpltmd.compare("sin") == 0) { xVal = fitx; yVal = sqrt(fitsph); } else if (strpltmd.compare("mmp") == 0) { if (fitsph != 0.0) { if ( (mdl.compare("lr") == 0) || (mdl.compare("lp") == 0) || (mdl.compare("hp") == 0) || (mdl.compare("fp") == 0) ) { MMI(Cz1,Cz2,Cz3,Cw1,Cw2,Cw3,Cw4,fitx,fitsph,fitcph,fits2b,xVal,yVal); } else if ( (mdl.compare("uu") == 0) || (mdl.compare("nu") == 0) ) { MMII(C1,C2,fitx,fitsph,fitcph,xVal,yVal); } } } if( (strpltmd.compare("mmp") == 0) && (tphStep==1) ) { xArray[0] = xArray[1]; yArray[0] = yArray[1]; zArray[0] = zArray[1]; } if(fitx>fitxmax) fitxmax = fitx; if(fitx<fitxmin) { xArray[tphStep] = xVal; yArray[tphStep] = yVal; zArray[tphStep] = fits2b; fitxmin = fitx; } tphold = fittph; } if(file==0) TGraph *NPplot = new TGraph(tphSteps,xArray,yArray); if(file==1) TGraph *SMplot = new TGraph(tphSteps,xArray,yArray); TMarker *NPmrk[tphSteps], *SMmrk[tphSteps]; for(tphStep=0; tphStep<tphSteps; tphStep++){ marker(zArray[tphStep],color,style); if(file==0) { NPmrk[tphStep] = new TMarker(xArray[tphStep],yArray[tphStep],style); NPmrk[tphStep]->SetMarkerSize(0.8); NPmrk[tphStep]->SetMarkerColor(color);} if(file==1) { SMmrk[tphStep] = new TMarker(xArray[tphStep],yArray[tphStep],style); SMmrk[tphStep]->SetMarkerSize(0.8); SMmrk[tphStep]->SetMarkerColor(color);} if( (strpltmd.compare("mmp") != 0) || (tphStep !=0 )) { if (xArray[tphStep] < xMin) xMin = xArray[tphStep]; if (xArray[tphStep] > xMax) xMax = xArray[tphStep]; if (yArray[tphStep] < yMin) yMin = yArray[tphStep]; if (yArray[tphStep] > yMax) yMax = yArray[tphStep]; } if( ((strfile.compare("uu-d") == 0) || (strfile.compare("nu-d") == 0)) && (strpltmd.compare("sin") == 0) ) { fitx = xArray[tphStep]; fitsph = yArray[tphStep]*yArray[tphStep]; fitcph = 1.0 - fitsph; if( (sphmin < fitsph) && (fitsph<sphmax) ) { MMII(C1,C2,fitx,fitsph,fitcph,MZ,MW); if(MZ < Mmin) { Mmin = MZ; cout << MZ << "\t" << sqrt(fitsph) << endl;} } } } } // CREATE PLOTS ///////////////////////////////////////////////////////// NPplot->SetLineStyle(2); NPplot->SetMarkerStyle(20); NPplot->SetMarkerSize(0.4); SMplot->SetMarkerStyle(20); SMplot->SetMarkerSize(0.4); if(strpltmd.compare("cos") == 0) {yMin = 0.0; yMax = 1.0;} if(strpltmd.compare("sin") == 0) {yMin = 0.0; yMax = 1.0;} if(strpltmd.compare("mmp") == 0) {xMin = 0.0; xMax = 5.0; yMin = 0.0; yMax = 5;} TH1F* frame = MyC->DrawFrame(0.9*xMin,0.9*yMin,1.1*xMax,1.0*yMax); frame->SetTitle(plottitle.c_str()); TAxis *xaxis = frame->GetXaxis(); TAxis *yaxis = frame->GetYaxis(); xaxis->SetTitle(xtitle.c_str()); xaxis->CenterTitle(); xaxis->SetTitleOffset(1.); xaxis->SetDecimals(); xaxis->SetLabelSize(0.03); xaxis->SetLabelOffset(0.01); yaxis->SetTitle(ytitle.c_str()); yaxis->CenterTitle(); yaxis->SetTitleOffset(1.2); yaxis->SetDecimals(); yaxis->SetLabelSize(0.03); yaxis->SetLabelOffset(0.01); TLegend *mmleg = new TLegend(mmlegxmin,mmlegymin,mmlegxmax,mmlegymax); mmleg->AddEntry(NPplot,NPleg.c_str(),"l"); mmleg->AddEntry(SMplot,SMleg.c_str(),"l"); mmleg->SetTextSize(0.025); mmleg->SetFillStyle(0); if( (strfile.compare("uu-d") != 0) && (strfile.compare("nu-d") != 0) ) { for(tphStep=0; tphStep<tphSteps; tphStep++){NPmrk[tphStep]->Draw(); SMmrk[tphStep]->Draw();} } Float_t xdummy[1] = {0.0}, ydummy[1] = {0.0}; TGraph *circle = new TGraph(1,xdummy,ydummy); circle->SetMarkerStyle(24); circle->SetMarkerColor(kGreen+1); circle->SetMarkerSize(0.8); TGraph *square = new TGraph(1,xdummy,ydummy); square->SetMarkerStyle(25); square->SetMarkerColor(kCyan+1); square->SetMarkerSize(0.8); TGraph *triangle = new TGraph(1,xdummy,ydummy); triangle->SetMarkerStyle(26); triangle->SetMarkerColor(kBlue+1); triangle->SetMarkerSize(0.8); TGraph *diamond = new TGraph(1,xdummy,ydummy); diamond->SetMarkerStyle(27); diamond->SetMarkerColor(kMagenta+1); diamond->SetMarkerSize(0.8); TLegend *s2bleg = new TLegend(s2blegxmin,s2blegymin,s2blegxmax,s2blegymax); s2bleg->AddEntry(circle,"#font[42]{0.00 < sin^{2}(2#tilde{#beta}) #leq 0.25}","p"); s2bleg->AddEntry(square,"#font[42]{0.25 < sin^{2}(2#tilde{#beta}) #leq 0.50}","p"); s2bleg->AddEntry(triangle,"#font[42]{0.50 < sin^{2}(2#tilde{#beta}) #leq 0.75}","p"); s2bleg->AddEntry(diamond,"#font[42]{0.75 < sin^{2}(2#tilde{#beta}) #leq 1.00}","p"); s2bleg->SetTextSize(0.025); s2bleg->SetFillStyle(0); NPplot->Draw(display.c_str()); SMplot->Draw(display.c_str()); mmleg->Draw(); if( (strfile.compare("uu-d") != 0) && (strfile.compare("nu-d") != 0) ) s2bleg->Draw(); // BOUNDS ON PHI ////////////////////////////////////////////////////// Int_t i; const int iSteps = 100; fitxmin = 1.0, fitxmax *= 1.5; Float_t deltax = (fitxmax-fitxmin)/iSteps; Float_t phixmin0[iSteps], phixmax0[iSteps], phixmin1[iSteps], phixmax1[iSteps]; Float_t phiymin0[iSteps], phiymax0[iSteps], phiymin1[iSteps], phiymax1[iSteps]; if ( (strpltmd.compare("tan") == 0) || (strpltmd.compare("cos") == 0) || (strpltmd.compare("sin") == 0) ) { for(i=0; i<100; i++) { fitx = fitxmin + i*deltax; phixmin0[i] = fitx; if (strpltmd.compare("tan") == 0) { phiymin0[i] = sphmin / cphmin; phiymax0[i] = sphmax / cphmax; } if (strpltmd.compare("cos") == 0) { phiymin0[i] = sqrt(cphmin); phiymax0[i] = sqrt(cphmax); } if (strpltmd.compare("sin") == 0) { phiymin0[i] = sqrt(sphmin); phiymax0[i] = sqrt(sphmax); } } TGraph *phiMin0 = new TGraph(iSteps,phixmin0,phiymin0); TGraph *phiMax0 = new TGraph(iSteps,phixmin0,phiymax0); } else if (strpltmd.compare("mmp") == 0) { if ( (mdl.compare("lr") == 0) || (mdl.compare("lp") == 0) || (mdl.compare("hp") == 0) || (mdl.compare("fp") == 0) ) { for(i=0; i<100; i++) { fitx = fitxmin + i*deltax; MMI(Cz1,Cz2,Cz3,Cw1,Cw2,Cw3,Cw4,fitx,sphmin,cphmin,0.0,phixmin0[i],phiymin0[i]); MMI(Cz1,Cz2,Cz3,Cw1,Cw2,Cw3,Cw4,fitx,sphmin,cphmin,1.0,phixmin1[i],phiymin1[i]); MMI(Cz1,Cz2,Cz3,Cw1,Cw2,Cw3,Cw4,fitx,sphmax,cphmax,0.0,phixmax0[i],phiymax0[i]); MMI(Cz1,Cz2,Cz3,Cw1,Cw2,Cw3,Cw4,fitx,sphmax,cphmax,1.0,phixmax1[i],phiymax1[i]); } TGraph *phiMin0 = new TGraph(iSteps,phixmin0,phiymin0); TGraph *phiMin1 = new TGraph(iSteps,phixmin1,phiymin1); TGraph *phiMax0 = new TGraph(iSteps,phixmax0,phiymax0); TGraph *phiMax1 = new TGraph(iSteps,phixmax1,phiymax1); phiMin1->SetLineStyle(7); phiMin1->SetMarkerStyle(22); phiMin1->SetMarkerSize(1.0); phiMax1->SetLineStyle(7); phiMax1->SetMarkerStyle(22); phiMax1->SetMarkerSize(1.0); phiMin1->Draw("C"); phiMax1->Draw("C"); } else if ( (mdl.compare("uu") == 0) || (mdl.compare("nu") == 0) ) { for(i=0; i<100; i++) { fitx = fitxmin + i*deltax; MMII(C1,C2,fitx,sphmin,cphmin,phixmin0[i],phiymin0[i]); MMII(C1,C2,fitx,sphmax,cphmax,phixmax0[i],phiymax0[i]); } TGraph *phiMin0 = new TGraph(iSteps,phixmin0,phiymin0); TGraph *phiMax0 = new TGraph(iSteps,phixmax0,phiymax0); } } phiMin0->SetLineStyle(3); phiMin0->SetMarkerStyle(20); phiMin0->SetMarkerSize(0.4); phiMax0->SetLineStyle(3); phiMax0->SetMarkerStyle(20); phiMax0->SetMarkerSize(0.4); phiMin0->Draw("C"); phiMax0->Draw("C"); // LABEL ALLOWED REGION /////////////////////////////////////////////// TPaveText *allowed = new TPaveText(lblxmin,lblymin,lblxmax,lblymax,"NDC"); TText *text = allowed->AddText("#font[42]{allowed (95% CL)}"); allowed->SetTextSize(0.04); if (strpltmd.compare("tan") == 0) text->SetTextAngle(270); allowed->SetFillStyle(0); allowed->SetLineColor(0); allowed->SetBorderSize(1); allowed->Draw(); // SAVE GRAPHIC /////////////////////////////////////////////////////// MyC->Print(epsfile.c_str()); }
void plotFit(TString filename = "fp-d", TString pltmd = "tph") { // CHECK FOR RIGHT INPUT //////////////////////////////////////////////// string strpltmd = pltmd; if( strpltmd.compare("tph") != 0 && strpltmd.compare("s2b") != 0 && strpltmd.compare("mmp") != 0 ) {error(4);}; // OPEN THE ROOT FILE ////////////////////////////////////////////////// gROOT->Reset(); gROOT->SetStyle("Plain"); gStyle->SetTitleBorderSize(0); gStyle->SetPalette(1); TCanvas *MyC = new TCanvas("MyC","Plot of the GAPP fit",200,10,700,500); // Still to do: Automate the frame boundaries. string strfile = filename, rootname = strfile + ".root"; TFile *rootfile = TFile::Open(rootname.c_str()); if(rootfile == NULL) error(1); TTree *tree = (TTree*)rootfile->Get(strfile.c_str()); if(tree == NULL) error(2); TBranch *fits2bbranch = (TBranch*)tree->GetBranch("fits2b"); TBranch *fittphbranch = (TBranch*)tree->GetBranch("fittph"); TBranch *fitxbranch = (TBranch*)tree->GetBranch("fitx"); if( (fits2bbranch == NULL) || (fittphbranch == NULL) || (fitxbranch == NULL) ) error(3); Float_t fits2b, fittph, fitx; tree->SetBranchAddress("fits2b",&fits2b); tree->SetBranchAddress("fittph",&fittph); tree->SetBranchAddress("fitx", &fitx); // GET GRID ///////////////////////////////////////////////////////////// Int_t Npoints = (Int_t)tree->GetEntries(); Int_t point, zSteps = 0, ySteps = 0; Float_t fitxMin = 100000, fitxMax = -1.0, s2bMin = 100000, tphMin = 100000; Float_t s2bMax = -1.0, tphMax = -1.0; for(point=0; point<Npoints; point++) { tree->GetEntry(point); if( fits2b > s2bMax ) {zSteps++; s2bMax = fits2b;} if( fittph > tphMax ) {ySteps++; tphMax = fittph;} }; const int s2bSteps = zSteps, tphSteps = ySteps, mmpSteps = Npoints; Float_t s2bValues[s2bSteps], tphValues[tphSteps]; s2bMax = -1.0, tphMax = -1.0; int s2bStep = 0, tphStep = 0; for(point=0; point<Npoints; point++) { tree->GetEntry(point); if( fits2b > s2bMax ) {s2bValues[s2bStep] = fits2b; s2bStep++; s2bMax = fits2b;} if( fittph > tphMax ) {tphValues[tphStep] = fittph; tphStep++; tphMax = fittph;} }; // PREPARE PLOT ///////////////////////////////////////////////////////// string plottitle = "Model: " + strfile + " | Plot: "; if( strpltmd.compare("tph") == 0 ) { plottitle += "tan^{2}(#phi) over x for fixed sin^{2}(2#beta)"; } if( strpltmd.compare("s2b") == 0 ) { plottitle += "sin^{2}(2#beta) over x for fixed tan^{2}(#phi)"; } if( strpltmd.compare("mmp") == 0 ) { plottitle += "Masses of the new heavy gauge bosons"; } // PLOT DATA /////////////////////////////////////////////////////////// if (strpltmd.compare("tph") == 0) { tphMax = -1.0; // TGraph *tphplots[s2bSteps]; TGraph *tphplots[s2bSteps-30]; // for(s2bStep=0; s2bStep<s2bSteps; s2bStep++) { for(s2bStep=0; s2bStep<s2bSteps-30; s2bStep++) { Float_t tphArray[tphSteps], fitxArray[tphSteps]; tphStep = 0; for(point=0; point<Npoints; point++) { tree->GetEntry(point); if(fits2b == s2bValues[s2bStep]) { // tphArray[tphStep] = fittph; tphArray[tphStep] = sqrt(1.0/(1.0+fittph)); if (fittph < tphMin) tphMin = fittph; if (fittph > tphMax) tphMax = fittph; fitxArray[tphStep] = fitx; if (fitx < fitxMin) fitxMin = fitx; if (fitx > fitxMax) fitxMax = fitx; tphStep++; TMarker *m = new TMarker(fitxArray[tphStep],tphArray[tphStep],20); m->SetMarkerSize(2); m->SetMarkerColor(31+tphStep); m->Draw(); } } if (s2bStep == 0) { TH1F* frame = MyC->DrawFrame(0.0,0.0,1.1*fitxMax,1.1); // TH1F* frame = MyC->DrawFrame(0.7*fitxMin,0.7*tphMin,1.1*fitxMax,1.1*tphMax); TAxis *xaxis = frame->GetXaxis(); TAxis *yaxis = frame->GetYaxis(); xaxis->SetTitle("x = u^{2}/v^{2}"); xaxis->CenterTitle(); xaxis->SetTitleOffset(1.); xaxis->SetDecimals(); xaxis->SetLabelSize(0.03); xaxis->SetLabelOffset(0.01); yaxis->SetTitle("tan^{2}(#phi)"); yaxis->CenterTitle(); yaxis->SetTitleOffset(1.); yaxis->SetDecimals(); yaxis->SetLabelSize(0.03); yaxis->SetLabelOffset(0.01); frame->SetTitle(plottitle.c_str()); } tphplots[s2bStep] = new TGraph(tphSteps,fitxArray,tphArray); tphplots[s2bStep]->SetMarkerStyle(20); tphplots[s2bStep]->SetMarkerSize(0.4); tphplots[s2bStep]->Draw("CP"); } } else if (strpltmd.compare("s2b") == 0) { s2bMax = -1.0; TGraph *s2bplots[tphSteps-100]; for(tphStep=0; tphStep<tphSteps-100; tphStep++) { Float_t s2bArray[s2bSteps], fitxArray[s2bSteps]; s2bStep = 0; for(point=0; point<Npoints; point++) { tree->GetEntry(point); if(fittph == tphValues[tphStep+20]) { s2bArray[s2bStep] = fits2b; if (fits2b < s2bMin) s2bMin = fits2b; if (fits2b > s2bMax) s2bMax = fits2b; fitxArray[s2bStep] = fitx; if (fitx < fitxMin) fitxMin = fitx; if (fitx > fitxMax) fitxMax = fitx; s2bStep++; } } if (tphStep == 0) { TH1F* frame = MyC->DrawFrame(0.8*fitxMin,0.95*s2bMin,1.2*fitxMax,1.05*s2bMax); TAxis *xaxis = frame->GetXaxis(); TAxis *yaxis = frame->GetYaxis(); xaxis->SetTitle("x = u^{2}/v^{2}"); xaxis->CenterTitle(); xaxis->SetTitleOffset(1.); xaxis->SetDecimals(); xaxis->SetLabelSize(0.03); xaxis->SetLabelOffset(0.01); yaxis->SetTitle("sin^{2}(2#beta)"); yaxis->CenterTitle(); yaxis->SetTitleOffset(1.25); yaxis->SetDecimals(); yaxis->SetLabelSize(0.03); yaxis->SetLabelOffset(0.01); frame->SetTitle(plottitle.c_str()); } s2bplots[tphStep] = new TGraph(s2bSteps,fitxArray,s2bArray); s2bplots[tphStep]->SetMarkerStyle(20); s2bplots[tphStep]->SetMarkerSize(0.4); s2bplots[tphStep]->Draw("C"); } } else if (strpltmd.compare("mmp") == 0) { Float_t mzpArray[mmpSteps], mwpArray[mmpSteps]; Float_t mzpMin = 100000, mzpMax = -1.0, mwpMin = 100000, mwpMax = -1.0; Float_t fitsph, fitcph; Float_t Cz1, Cz2, Cz3, Cw1, Cw2, Cw3, Cw4, C1, C2; string mdl(strfile,0,2); if ( (mdl.compare("lr") == 0) || (mdl.compare("lp") == 0) || (mdl.compare("hp") == 0) || (mdl.compare("fp") == 0) ) { string Higgs(strfile,3,1); if (Higgs.compare("d") == 0) { Cz1 = 11.95349795785275; Cz2 = 30.63269990028513; Cz3 = 42.58619785813789; Cw1 = 21.29309892906894; Cw2 = 9.339600971216193; Cw3 = 30.63269990028513; Cw4 = 42.58619785813789; } else if (Higgs.compare("t") == 0) { Cz1 = 5.976748978926375; Cz2 = 30.63269990028513; Cz3 = 85.17239571627579; Cw1 = 15.05649464522066; Cw2 = 3.302047590161717; Cw3 = 21.66058982554409; Cw4 = 60.22597858088265; } else {error(6);} for(point=0; point<Npoints; point++) { tree->GetEntry(point); fitsph = fittph / (1.0 + fittph); fitcph = 1.0 - fitsph; if (fitsph != 0.0) { mzpArray[point] = (0.001/sqrt(fitsph*fitcph*fitx)) * (Cz1*fitcph*fitcph + Cz2*fits2b + Cz3*fitx); if (mzpArray[point] < mzpMin) mzpMin = mzpArray[point]; if (mzpArray[point] > mzpMax) mzpMax = mzpArray[point]; mwpArray[point] = (0.001/sqrt(fitsph*fitx)) * (Cw1 - Cw2*fitcph*fitcph + Cw3*fits2b + Cw4*fitx); if (mwpArray[point] < mwpMin) mwpMin = mwpArray[point]; if (mwpArray[point] > mwpMax) mwpMax = mwpArray[point]; } else { mzpArray[point] = 0.0; mwpArray[point] = 0.0; } } } else if ( (mdl.compare("uu") == 0) || (mdl.compare("nu") == 0) ) { C1 = 94.0397928463607 C2 = 77.1253849720165 for(point=0; point<Npoints; point++) { tree->GetEntry(point); fitsph = fittph / (1.0+fittph); fitcph = 1.0 - fitsph; if (fitsph != 0.0) { mzpArray[point] = (0.001/sqrt(fitsph*fitcph*fitx)) * (C1*fitsph*fitsph + C2*fitx); if (mzpArray[point] < mzpMin) mzpMin = mzpArray[point]; if (mzpArray[point] > mzpMax) mzpMax = mzpArray[point]; mwpArray[point] = (0.001/sqrt(fitsph*fitcph*fitx)) * (C1*fitsph*fitsph + C2*fitx); if (mwpArray[point] < mwpMin) mwpMin = mwpArray[point]; if (mwpArray[point] > mwpMax) mwpMax = mwpArray[point]; } else { mzpArray[point] = 0.0; mwpArray[point] = 0.0; } } }