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rf104_classfactory.C: 'BASIC FUNCTIONALITY' RooFit tutorial macro #104
////////////////////////////////////////////////////////////////////////// // // 'BASIC FUNCTIONALITY' RooFit tutorial macro #104 // // The class factory for functions and p.d.f.s // // // NOTE: This demo uses code that is generated by the macro, // therefore it cannot be compiled in one step by ACliC. // To run this macro compiled with ACliC do // // root>.x rf104_classfactory.C // run interpreted to generate code // root>.L MyPdfV3.cxx+ // Compile and load created classs // root>.x rf104_classfactory.C+ // run compiled code // // // 07/2008 - Wouter Verkerke // ///////////////////////////////////////////////////////////////////////// #ifndef __CINT__ #include "RooGlobalFunc.h" #endif #include "RooRealVar.h" #include "RooDataSet.h" #include "RooGaussian.h" #include "TCanvas.h" #include "TAxis.h" #include "RooPlot.h" #include "RooClassFactory.h" #include "TROOT.h" #ifndef __CINT__ #include "MyPdfV3.h" #endif using namespace RooFit ; void rf104_classfactory() { // W r i t e c l a s s s k e l e t o n c o d e // -------------------------------------------------- // Write skeleton p.d.f class with variable x,a,b // To use this class, // - Edit the file MyPdfV1.cxx and implement the evaluate() method in terms of x,a and b // - Compile and link class with '.x MyPdfV1.cxx+' // RooClassFactory::makePdf("MyPdfV1","x,A,B") ; // W i t h a d d e d i n i t i a l v a l u e e x p r e s s i o n // --------------------------------------------------------------------- // Write skeleton p.d.f class with variable x,a,b and given formula expression // To use this class, // - Compile and link class with '.x MyPdfV2.cxx+' // RooClassFactory::makePdf("MyPdfV2","x,A,B","","A*fabs(x)+pow(x-B,2)") ; // W i t h a d d e d a n a l y t i c a l i n t e g r a l e x p r e s s i o n // --------------------------------------------------------------------------------- // Write skeleton p.d.f class with variable x,a,b, given formula expression _and_ // given expression for analytical integral over x // To use this class, // - Compile and link class with '.x MyPdfV3.cxx+' // RooClassFactory::makePdf("MyPdfV3","x,A,B","","A*fabs(x)+pow(x-B,2)",kTRUE,kFALSE, "x:(A/2)*(pow(x.max(rangeName),2)+pow(x.min(rangeName),2))+(1./3)*(pow(x.max(rangeName)-B,3)-pow(x.min(rangeName)-B,3))") ; // U s e i n s t a n c e o f c r e a t e d c l a s s // --------------------------------------------------------- // Compile MyPdfV3 class (only when running in CINT) #ifdef __CINT__ gROOT->ProcessLineSync(".x MyPdfV3.cxx+") ; #endif // Creat instance of MyPdfV3 class RooRealVar a("a","a",1) ; RooRealVar b("b","b",2,-10,10) ; RooRealVar y("y","y",-10,10); MyPdfV3 pdf("pdf","pdf",y,a,b) ; // Generate toy data from pdf and plot data and p.d.f on frame RooPlot* frame1 = y.frame(Title("Compiled class MyPdfV3")) ; RooDataSet* data = pdf.generate(y,1000) ; pdf.fitTo(*data) ; data->plotOn(frame1) ; pdf.plotOn(frame1) ; /////////////////////////////////////////////////////////////////////// // C o m p i l e d v e r s i o n o f e x a m p l e r f 1 0 3 // /////////////////////////////////////////////////////////////////////// // Declare observable x RooRealVar x("x","x",-20,20) ; // The RooClassFactory::makePdfInstance() function performs code writing, compiling, linking // and object instantiation in one go and can serve as a straight replacement of RooGenericPdf RooRealVar alpha("alpha","alpha",5,0.1,10) ; RooAbsPdf* genpdf = RooClassFactory::makePdfInstance("GenPdf","(1+0.1*fabs(x)+sin(sqrt(fabs(x*alpha+0.1))))",RooArgSet(x,alpha)) ; // Generate a toy dataset from the interpreted p.d.f RooDataSet* data2 = genpdf->generate(x,50000) ; // Fit the interpreted p.d.f to the generated data genpdf->fitTo(*data2) ; // Make a plot of the data and the p.d.f overlaid RooPlot* frame2 = x.frame(Title("Compiled version of pdf of rf103")) ; data2->plotOn(frame2) ; genpdf->plotOn(frame2) ; // Draw all frames on a canvas TCanvas* c = new TCanvas("rf104_classfactory","rf104_classfactory",800,400) ; c->Divide(2) ; 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() ; }
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