///////////////////////////////////////////////////////////////////////// // // 'VALIDATION AND MC STUDIES' RooFit tutorial macro #801 // // A Toy Monte Carlo study that perform cycles of // event generation and fittting // // ///////////////////////////////////////////////////////////////////////// #ifndef __CINT__ #include "RooGlobalFunc.h" #endif #include "RooRealVar.h" #include "RooDataSet.h" #include "RooGaussian.h" #include "RooConstVar.h" #include "RooChebychev.h" #include "RooAddPdf.h" #include "RooMCStudy.h" #include "RooPlot.h" #include "TCanvas.h" #include "TAxis.h" #include "TH2.h" #include "RooFitResult.h" #include "TStyle.h" #include "TDirectory.h" using namespace RooFit ; void rf801_mcstudy() { // C r e a t e m o d e l // ----------------------- // Declare observable x RooRealVar x("x","x",0,10) ; x.setBins(40) ; // Create two Gaussian PDFs g1(x,mean1,sigma) anf g2(x,mean2,sigma) and their paramaters RooRealVar mean("mean","mean of gaussians",5,0,10) ; RooRealVar sigma1("sigma1","width of gaussians",0.5) ; RooRealVar sigma2("sigma2","width of gaussians",1) ; RooGaussian sig1("sig1","Signal component 1",x,mean,sigma1) ; RooGaussian sig2("sig2","Signal component 2",x,mean,sigma2) ; // Build Chebychev polynomial p.d.f. RooRealVar a0("a0","a0",0.5,0.,1.) ; RooRealVar a1("a1","a1",-0.2,-1,1.) ; RooChebychev bkg("bkg","Background",x,RooArgSet(a0,a1)) ; // Sum the signal components into a composite signal p.d.f. RooRealVar sig1frac("sig1frac","fraction of component 1 in signal",0.8,0.,1.) ; RooAddPdf sig("sig","Signal",RooArgList(sig1,sig2),sig1frac) ; // Sum the composite signal and background RooRealVar nbkg("nbkg","number of background events,",150,0,1000) ; RooRealVar nsig("nsig","number of signal events",150,0,1000) ; RooAddPdf model("model","g1+g2+a",RooArgList(bkg,sig),RooArgList(nbkg,nsig)) ; // C r e a t e m a n a g e r // --------------------------- // Instantiate RooMCStudy manager on model with x as observable and given choice of fit options // // The Silence() option kills all messages below the PROGRESS level, leaving only a single message // per sample executed, and any error message that occur during fitting // // The Extended() option has two effects: // 1) The extended ML term is included in the likelihood and // 2) A poisson fluctuation is introduced on the number of generated events // // The FitOptions() given here are passed to the fitting stage of each toy experiment. // If Save() is specified, the fit result of each experiment is saved by the manager // // A Binned() option is added in this example to bin the data between generation and fitting // to speed up the study at the expemse of some precision RooMCStudy* mcstudy = new RooMCStudy(model,x,Binned(kTRUE),Extended(), FitOptions(Save(kTRUE),PrintEvalErrors(0))) ; // G e n e r a t e a n d f i t e v e n t s // --------------------------------------------- // Generate and fit 1000 samples of Poisson(nExpected) events mcstudy->generateAndFit(10) ; return; // E x p l o r e r e s u l t s o f s t u d y // ------------------------------------------------ // Make plots of the distributions of mean, the error on mean and the pull of mean RooPlot* frame1 = mcstudy->plotParam(mean,Bins(40)) ; RooPlot* frame2 = mcstudy->plotError(mean,Bins(40)) ; RooPlot* frame3 = mcstudy->plotPull(mean,Bins(40),FitGauss(kTRUE)) ; // Plot distribution of minimized likelihood RooPlot* frame4 = mcstudy->plotNLL(Bins(40)) ; // Make some histograms from the parameter dataset TH1* hh_cor_a0_s1f = mcstudy->fitParDataSet().createHistogram("hh",a1,YVar(sig1frac)) ; TH1* hh_cor_a0_a1 = mcstudy->fitParDataSet().createHistogram("hh",a0,YVar(a1)) ; // Access some of the saved fit results from individual toys TH2* corrHist000 = mcstudy->fitResult(0)->correlationHist("c000") ; TH2* corrHist127 = mcstudy->fitResult(127)->correlationHist("c127") ; TH2* corrHist953 = mcstudy->fitResult(953)->correlationHist("c953") ; // Draw all plots on a canvas gStyle->SetPalette(1) ; gStyle->SetOptStat(0) ; TCanvas* c = new TCanvas("rf801_mcstudy","rf801_mcstudy",900,900) ; c->Divide(3,3) ; c->cd(1) ; gPad->SetLeftMargin(0.15) ; frame1->GetYaxis()->SetTitleOffset(1.4) ; frame1->Draw() ; c->cd(2) ; gPad->SetLeftMargin(0.15) ; frame2->GetYaxis()->SetTitleOffset(1.4) ; frame2->Draw() ; c->cd(3) ; gPad->SetLeftMargin(0.15) ; frame3->GetYaxis()->SetTitleOffset(1.4) ; frame3->Draw() ; c->cd(4) ; gPad->SetLeftMargin(0.15) ; frame4->GetYaxis()->SetTitleOffset(1.4) ; frame4->Draw() ; c->cd(5) ; gPad->SetLeftMargin(0.15) ; hh_cor_a0_s1f->GetYaxis()->SetTitleOffset(1.4) ; hh_cor_a0_s1f->Draw("box") ; c->cd(6) ; gPad->SetLeftMargin(0.15) ; hh_cor_a0_a1->GetYaxis()->SetTitleOffset(1.4) ; hh_cor_a0_a1->Draw("box") ; c->cd(7) ; gPad->SetLeftMargin(0.15) ; corrHist000->GetYaxis()->SetTitleOffset(1.4) ; corrHist000->Draw("colz") ; c->cd(8) ; gPad->SetLeftMargin(0.15) ; corrHist127->GetYaxis()->SetTitleOffset(1.4) ; corrHist127->Draw("colz") ; c->cd(9) ; gPad->SetLeftMargin(0.15) ; corrHist953->GetYaxis()->SetTitleOffset(1.4) ; corrHist953->Draw("colz") ; // Make RooMCStudy object available on command line after // macro finishes gDirectory->Add(mcstudy) ; }