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rf703_effpdfprod.C: 'SPECIAL PDFS' RooFit tutorial macro #703
////////////////////////////////////////////////////////////////////////// // // 'SPECIAL PDFS' RooFit tutorial macro #703 // // Using a product of an (acceptance) efficiency and a p.d.f as p.d.f. // // // // 07/2008 - Wouter Verkerke // ///////////////////////////////////////////////////////////////////////// #ifndef __CINT__ #include "RooGlobalFunc.h" #endif #include "RooRealVar.h" #include "RooDataSet.h" #include "RooGaussian.h" #include "RooConstVar.h" #include "RooExponential.h" #include "RooEffProd.h" #include "RooFormulaVar.h" #include "TCanvas.h" #include "TAxis.h" #include "RooPlot.h" using namespace RooFit ; void rf703_effpdfprod() { // D e f i n e o b s e r v a b l e s a n d d e c a y p d f // --------------------------------------------------------------- // Declare observables RooRealVar t("t","t",0,5) ; // Make pdf RooRealVar tau("tau","tau",-1.54,-4,-0.1) ; RooExponential model("model","model",t,tau) ; // D e f i n e e f f i c i e n c y f u n c t i o n // --------------------------------------------------- // Use error function to simulate turn-on slope RooFormulaVar eff("eff","0.5*(TMath::Erf((t-1)/0.5)+1)",t) ; // D e f i n e d e c a y p d f w i t h e f f i c i e n c y // --------------------------------------------------------------- // Multiply pdf(t) with efficiency in t RooEffProd modelEff("modelEff","model with efficiency",model,eff) ; // P l o t e f f i c i e n c y , p d f // ---------------------------------------- RooPlot* frame1 = t.frame(Title("Efficiency")) ; eff.plotOn(frame1,LineColor(kRed)) ; RooPlot* frame2 = t.frame(Title("Pdf with and without efficiency")) ; model.plotOn(frame2,LineStyle(kDashed)) ; modelEff.plotOn(frame2) ; // G e n e r a t e t o y d a t a , f i t m o d e l E f f t o d a t a // ------------------------------------------------------------------------------ // Generate events. If the input pdf has an internal generator, the internal generator // is used and an accept/reject sampling on the efficiency is applied. RooDataSet* data = modelEff.generate(t,10000) ; // Fit pdf. The normalization integral is calculated numerically. modelEff.fitTo(*data) ; // Plot generated data and overlay fitted pdf RooPlot* frame3 = t.frame(Title("Fitted pdf with efficiency")) ; data->plotOn(frame3) ; modelEff.plotOn(frame3) ; TCanvas* c = new TCanvas("rf703_effpdfprod","rf703_effpdfprod",1200,400) ; c->Divide(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(1.6) ; frame2->Draw() ; c->cd(3) ; gPad->SetLeftMargin(0.15) ; frame3->GetYaxis()->SetTitleOffset(1.6) ; frame3->Draw() ; }
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