/// \file /// \ingroup tutorial_math /// \notebook /// Tutorial illustrating the use of the Student and F distributions /// /// \macro_image /// \macro_code /// /// \author Anna Kreshuk #include "TMath.h" #include "TF1.h" #include "TCanvas.h" #include #include "TLegend.h" #include "TLegendEntry.h" void mathStudent() { //drawing the set of student density functions //normal(0, 1) density drawn for comparison TCanvas *DistCanvas = new TCanvas("DistCanvas", "Distribution graphs", 10, 10, 800, 650); DistCanvas->SetFillColor(17); DistCanvas->Divide(2, 2); DistCanvas->cd(1); gPad->SetGrid(); gPad->SetFrameFillColor(19); TLegend *leg = new TLegend(0.6, 0.7, 0.89, 0.89); TF1* fgaus = new TF1("gaus", "TMath::Gaus(x, [0], [1], [2])", -5, 5); fgaus->SetTitle("Student density"); fgaus->SetLineStyle(2); fgaus->SetLineWidth(1); fgaus->SetParameters(0, 1, kTRUE); leg->AddEntry(fgaus->DrawCopy(), "Normal(0,1)", "l"); TF1* student = new TF1("student", "TMath::Student(x,[0])", -5, 5); //student->SetTitle("Student density"); student->SetLineWidth(1); student->SetParameter(0, 10); student->SetLineColor(4); leg->AddEntry(student->DrawCopy("lsame"), "10 degrees of freedom", "l"); student->SetParameter(0, 3); student->SetLineColor(2); leg->AddEntry(student->DrawCopy("lsame"), "3 degrees of freedom", "l"); student->SetParameter(0, 1); student->SetLineColor(1); leg->AddEntry(student->DrawCopy("lsame"), "1 degree of freedom", "l"); leg->Draw(); //drawing the set of student cumulative probability functions DistCanvas->cd(2); gPad->SetFrameFillColor(19); gPad->SetGrid(); TF1 *studentI = new TF1("studentI", "TMath::StudentI(x, [0])", -5, 5); studentI->SetTitle("Student cumulative dist."); studentI->SetLineWidth(1); TLegend *leg2 = new TLegend(0.6, 0.4, 0.89, 0.6); studentI->SetParameter(0, 10); studentI->SetLineColor(4); leg2->AddEntry(studentI->DrawCopy(), "10 degrees of freedom", "l"); studentI->SetParameter(0, 3); studentI->SetLineColor(2); leg2->AddEntry(studentI->DrawCopy("lsame"), "3 degrees of freedom", "l"); studentI->SetParameter(0, 1); studentI->SetLineColor(1); leg2->AddEntry(studentI->DrawCopy("lsame"), "1 degree of freedom", "l"); leg2->Draw(); //drawing the set of F-dist. densities TF1* fDist = new TF1("fDist", "TMath::FDist(x, [0], [1])", 0, 2); fDist->SetTitle("F-Dist. density"); fDist->SetLineWidth(1); TLegend* legF1 = new TLegend(0.7, 0.7, 0.89, 0.89); DistCanvas->cd(3); gPad->SetFrameFillColor(19); gPad->SetGrid(); fDist->SetParameters(1, 1); fDist->SetLineColor(1); legF1->AddEntry(fDist->DrawCopy(), "N=1 M=1", "l"); fDist->SetParameter(1, 10); fDist->SetLineColor(2); legF1->AddEntry(fDist->DrawCopy("lsame"), "N=1 M=10", "l"); fDist->SetParameters(10, 1); fDist->SetLineColor(8); legF1->AddEntry(fDist->DrawCopy("lsame"), "N=10 M=1", "l"); fDist->SetParameters(10, 10); fDist->SetLineColor(4); legF1->AddEntry(fDist->DrawCopy("lsame"), "N=10 M=10", "l"); legF1->Draw(); //drawing the set of F cumulative dist.functions TF1* fDistI = new TF1("fDist", "TMath::FDistI(x, [0], [1])", 0, 2); fDistI->SetTitle("Cumulative dist. function for F"); fDistI->SetLineWidth(1); TLegend* legF2 = new TLegend(0.7, 0.3, 0.89, 0.5); DistCanvas->cd(4); gPad->SetFrameFillColor(19); gPad->SetGrid(); fDistI->SetParameters(1, 1); fDistI->SetLineColor(1); legF2->AddEntry(fDistI->DrawCopy(), "N=1 M=1", "l"); fDistI->SetParameters(1, 10); fDistI->SetLineColor(2); legF2->AddEntry(fDistI->DrawCopy("lsame"), "N=1 M=10", "l"); fDistI->SetParameters(10, 1); fDistI->SetLineColor(8); legF2->AddEntry(fDistI->DrawCopy("lsame"), "N=10 M=1", "l"); fDistI->SetParameters(10, 10); fDistI->SetLineColor(4); legF2->AddEntry(fDistI->DrawCopy("lsame"), "N=10 M=10", "l"); legF2->Draw(); DistCanvas->cd(); }