#include "RooRealVar.h" #include "RooDataSet.h" #include "RooGaussian.h" #include "RooChebychev.h" #include "RooAddPdf.h" #include "RooWorkspace.h" #include "RooPlot.h" #include "TCanvas.h" #include "TAxis.h" using namespace RooFit; void rf512_wsfactory_oper() { RooWorkspace *w = new RooWorkspace("w"); // You can define typedefs for even shorter construction semantics w->factory("$Typedef(Gaussian,Gaus)"); w->factory("$Typedef(Chebychev,Cheby)"); // O p e r a t o r p . d . f . e x a m p l e s // ------------------------------------------------ // PDF addition is done with SUM (coef1*pdf1,pdf2) w->factory("SUM::summodel( f[0,1]*Gaussian::gx(x[-10,10],m[0],1.0), Chebychev::ch(x,{0.1,0.2,-0.3}) )"); // Extended PDF addition is done with SUM (yield1*pdf1,yield2*pdf2) w->factory("SUM::extsummodel( Nsig[0,1000]*gx, Nbkg[0,1000]*ch )"); // PDF multiplication is done with PROD ( pdf1, pdf2 ) w->factory("PROD::gxz( gx, Gaussian::gz(z[-10,10],0,1) )"); // Conditional pdf multiplication is done with PROD ( pdf1|obs, pdf2 ) w->factory("Gaussian::gy( y[-10,10], x, 1.0 )"); w->factory("PROD::gxycond( gy|x, gx )"); // Convolution (numeric/ fft) is done with NCONV/FCONV (obs,pdf1,pdf2) w->factory("FCONV::lxg( x, Gaussian::g(x,mg[0],1), Landau::lc(x,0,1) )"); // Simultaneous pdfs are constructed with SIMUL( index, state1=pdf1, state2=pdf2,...) w->factory("SIMUL::smodel( c[A=0,B=1], A=Gaussian::gs(x,m,s[1.0, 0.01, 10.0]), B=Landau::ls(x,0,1) )"); // O p e r a t o r f u n c t i o n e x a m p l e s // --------------------------------------------------- // Function multiplication is done with prod (func1, func2,...) w->factory("prod::uv(u[10],v[10])"); // Function addition is done with sum(func1,func2) w->factory("sum::uv2(u,v)"); // Lagrangian morphing function for the example shown in rf711_lagrangianmorph std::string infilename = std::string(gROOT->GetTutorialDir()) + "/roofit/roofit/input_histos_rf_lagrangianmorph.root"; w->factory(("lagrangianmorph::morph($fileName('"+infilename+"'),$observableName('pTV'),$couplings({cHq3[0,1],SM[1]}),$NewPhysics(cHq3=1,SM=0),$folders({'SM_NPsq0','cHq3_NPsq1','cHq3_NPsq2'}))").c_str()); // Taylor expansion is done with taylorexpand(func,{var1,var2,...},val,order) w->factory("taylorexpand::te(expr::poly('x^4+5*x^3+2*x^2+x+1',x),{x},0.0,2)"); // I n t e r p r e t e d a n d c o m p i l e d e x p r e s s i o n b a s e d p . d . f . s . // --------------------------------------------------------------------------------------------------- // Create a RooGenericPdf interpreted pdf You can use single quotes to pass the expression string argument w->factory("EXPR::G('x*x+1',x)"); // Create a custom compiled pdf similar to the above interpreted pdf // The code required to make this pdf is automatically embedded in the workspace w->factory("CEXPR::GC('x*x+a',{x,a[1]})"); // Compiled and interpreted functions (rather than pdfs) can be made with the lower case // 'expr' and 'cexpr' types // Print workspace contents w->Print(); // Make workspace visible on command line gDirectory->Add(w); }