/// \file /// \ingroup tutorial_math /// \notebook /// Example showing the usage of the major special math functions (gamma, beta, erf) in ROOT /// To execute the macro type in: /// /// ~~~{.cpp} /// root[0]: .x GammaFun.C /// ~~~ /// /// It will create one canvas with the representation /// of the tgamma, lgamma, beta, erf and erfc functions /// /// \macro_image /// \macro_code /// /// \author Magdalena Slawinska #include "TMath.h" #include "TF1.h" #include "TF2.h" #include "TSystem.h" #include "TCanvas.h" #include "TStyle.h" #include "TPaveLabel.h" #include "TAxis.h" #include "TH1.h" void GammaFun() { gStyle->SetOptStat(0); TF1 *f1a = new TF1("Gamma(x)","ROOT::Math::tgamma(x)",-2,5); TF1 *f2a = new TF1("f2a","ROOT::Math::lgamma(x)",0,10); TF2 *f3a = new TF2("Beta(x)","ROOT::Math::beta(x, y)",0,0.1, 0, 0.1); TF1 *f4a = new TF1("erf(x)","ROOT::Math::erf(x)",0,5); TF1 *f4b = new TF1("erfc(x)","ROOT::Math::erfc(x)",0,5); TCanvas *c1 = new TCanvas("c1", "Gamma and related functions",800,700); c1->Divide(2,2); c1->cd(1); gPad->SetGrid(); //setting the title in a label style TPaveLabel *p1 = new TPaveLabel(.1,.90 , (.1+.50),(.90+.10) ,"ROOT::Math::tgamma(x)", "NDC"); p1->SetFillColor(0); p1->SetTextFont(22); p1->SetTextColor(kBlack); //setting graph // draw axis first (use TH1 to draw the frame) TH1F * h = new TH1F("htmp","",500,-2,5); h->SetMinimum(-20); h->SetMaximum(20); h->GetXaxis()->SetTitleSize(0.06); h->GetXaxis()->SetTitleOffset(.7); h->GetXaxis()->SetTitle("x"); h->Draw(); // draw the functions 3 times in the separate ranges to avoid singularities f1a->SetLineWidth(2); f1a->SetLineColor(kBlue); f1a->SetRange(-2,-1); f1a->DrawCopy("same"); f1a->SetRange(-1,0); f1a->DrawCopy("same"); f1a->SetRange(0,5); f1a->DrawCopy("same"); p1->Draw(); c1->cd(2); gPad->SetGrid(); TPaveLabel *p2 = new TPaveLabel(.1,.90 , (.1+.50),(.90+.10) ,"ROOT::Math::lgamma(x)", "NDC"); p2->SetFillColor(0); p2->SetTextFont(22); p2->SetTextColor(kBlack); f2a->SetLineColor(kBlue); f2a->SetLineWidth(2); f2a->GetXaxis()->SetTitle("x"); f2a->GetXaxis()->SetTitleSize(0.06); f2a->GetXaxis()->SetTitleOffset(.7); f2a->SetTitle(""); f2a->Draw(); p2->Draw(); c1->cd(3); gPad->SetGrid(); TPaveLabel *p3 = new TPaveLabel(.1,.90 , (.1+.50),(.90+.10) ,"ROOT::Math::beta(x, y)", "NDC"); p3->SetFillColor(0); p3->SetTextFont(22); p3->SetTextColor(kBlack); f3a->SetLineWidth(2); f3a->GetXaxis()->SetTitle("x"); f3a->GetXaxis()->SetTitleOffset(1.2); f3a->GetXaxis()->SetTitleSize(0.06); f3a->GetYaxis()->SetTitle("y"); f3a->GetYaxis()->SetTitleSize(0.06); f3a->GetYaxis()->SetTitleOffset(1.5); f3a->SetTitle(""); f3a->Draw("surf1");//option for a 3-dim plot p3->Draw(); c1->cd(4); gPad->SetGrid(); TPaveLabel *p4 = new TPaveLabel(.1,.90 , (.1+.50),(.90+.10) ,"erf(x) and erfc(x)", "NDC"); p4->SetFillColor(0); p4->SetTextFont(22); p4->SetTextColor(kBlack); f4a->SetTitle("erf(x) and erfc(x)"); f4a->SetLineWidth(2); f4b->SetLineWidth(2); f4a->SetLineColor(kBlue); f4b->SetLineColor(kRed); f4a->GetXaxis()->SetTitleSize(.06); f4a->GetXaxis()->SetTitleOffset(.7); f4a->GetXaxis()->SetTitle("x"); f4a->Draw(); f4b->Draw("same");//option for a multiple graph plot f4a->SetTitle(""); p4->Draw(); }