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rf607_fitresult.C: 'LIKELIHOOD AND MINIMIZATION' RooFit tutorial macro #607
////////////////////////////////////////////////////////////////////////// // // 'LIKELIHOOD AND MINIMIZATION' RooFit tutorial macro #607 // // Demonstration of options of the RooFitResult class // // // // 07/2008 - Wouter Verkerke // ///////////////////////////////////////////////////////////////////////// #ifndef __CINT__ #include "RooGlobalFunc.h" #endif #include "RooRealVar.h" #include "RooDataSet.h" #include "RooGaussian.h" #include "RooConstVar.h" #include "RooAddPdf.h" #include "RooChebychev.h" #include "RooFitResult.h" #include "TCanvas.h" #include "TAxis.h" #include "RooPlot.h" #include "TFile.h" #include "TStyle.h" #include "TH2.h" #include "TMatrixDSym.h" using namespace RooFit ; void rf607_fitresult() { // C r e a t e p d f , d a t a // -------------------------------- // Declare observable x RooRealVar x("x","x",0,10) ; // Create two Gaussian PDFs g1(x,mean1,sigma) anf g2(x,mean2,sigma) and their paramaters RooRealVar mean("mean","mean of gaussians",5,-10,10) ; RooRealVar sigma1("sigma1","width of gaussians",0.5,0.1,10) ; RooRealVar sigma2("sigma2","width of gaussians",1,0.1,10) ; 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) ; 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 bkgfrac("bkgfrac","fraction of background",0.5,0.,1.) ; RooAddPdf model("model","g1+g2+a",RooArgList(bkg,sig),bkgfrac) ; // Generate 1000 events RooDataSet* data = model.generate(x,1000) ; // F i t p d f t o d a t a , s a v e f i t r e s u l t // ------------------------------------------------------------- // Perform fit and save result RooFitResult* r = model.fitTo(*data,Save()) ; // P r i n t f i t r e s u l t s // --------------------------------- // Summary printing: Basic info plus final values of floating fit parameters r->Print() ; // Verbose printing: Basic info, values of constant paramaters, initial and // final values of floating parameters, global correlations r->Print("v") ; // V i s u a l i z e c o r r e l a t i o n m a t r i x // ------------------------------------------------------- // Construct 2D color plot of correlation matrix gStyle->SetOptStat(0) ; gStyle->SetPalette(1) ; TH2* hcorr = r->correlationHist() ; // Visualize ellipse corresponding to single correlation matrix element RooPlot* frame = new RooPlot(sigma1,sig1frac,0.45,0.60,0.65,0.90) ; frame->SetTitle("Covariance between sigma1 and sig1frac") ; r->plotOn(frame,sigma1,sig1frac,"ME12ABHV") ; // A c c e s s f i t r e s u l t i n f o r m a t i o n // --------------------------------------------------------- // Access basic information cout << "EDM = " << r->edm() << endl ; cout << "-log(L) at minimum = " << r->minNll() << endl ; // Access list of final fit parameter values cout << "final value of floating parameters" << endl ; r->floatParsFinal().Print("s") ; // Access correlation matrix elements cout << "correlation between sig1frac and a0 is " << r->correlation(sig1frac,a0) << endl ; cout << "correlation between bkgfrac and mean is " << r->correlation("bkgfrac","mean") << endl ; // Extract covariance and correlation matrix as TMatrixDSym const TMatrixDSym& cor = r->correlationMatrix() ; const TMatrixDSym& cov = r->covarianceMatrix() ; // Print correlation, covariance matrix cout << "correlation matrix" << endl ; cor.Print() ; cout << "covariance matrix" << endl ; cov.Print() ; // P e r s i s t f i t r e s u l t i n r o o t f i l e // ------------------------------------------------------------- // Open new ROOT file save save result TFile f("rf607_fitresult.root","RECREATE") ; r->Write("rf607") ; f.Close() ; // In a clean ROOT session retrieve the persisted fit result as follows: // RooFitResult* r = gDirectory->Get("rf607") ; TCanvas* c = new TCanvas("rf607_fitresult","rf607_fitresult",800,400) ; c->Divide(2) ; c->cd(1) ; gPad->SetLeftMargin(0.15) ; hcorr->GetYaxis()->SetTitleOffset(1.4) ; hcorr->Draw("colz") ; c->cd(2) ; gPad->SetLeftMargin(0.15) ; frame->GetYaxis()->SetTitleOffset(1.6) ; frame->Draw() ; }
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