/// \file /// \ingroup tutorial_image /// \notebook /// This script is a slightly modified version of hsum.C. /// /// Uncomment the two `c1->Print(...);` lines in order to produce /// an animated gif file. The option "++" makes an infinite animation. /// The animated file `hsumanim.gif` can be visualized within a web browser /// /// \macro_image /// \macro_code /// /// \authors Rene Brun, Valeriy Onuchin void hsumanim() { auto c1 = new TCanvas("c1","The HSUM example",200,10,600,400); c1->SetGrid(); gBenchmark->Start("hsum"); // Create some histograms. auto total = new TH1F("total","This is the total distribution",100,-4,4); auto main = new TH1F("main","Main contributor",100,-4,4); auto s1 = new TH1F("s1","This is the first signal",100,-4,4); auto s2 = new TH1F("s2","This is the second signal",100,-4,4); total->Sumw2(); // this makes sure that the sum of squares of weights will be stored total->SetMarkerStyle(21); total->SetMarkerSize(0.7); main->SetFillColor(16); s1->SetFillColor(42); s2->SetFillColor(46); TSlider *slider = 0; gSystem->Unlink("hsumanim.gif"); // delete old file // Fill histograms randomly gRandom->SetSeed(); const Int_t kUPDATE = 500; Float_t xs1, xs2, xmain; Int_t gifcnt = 0; for ( Int_t i=0; i<10000; i++) { xmain = gRandom->Gaus(-1,1.5); xs1 = gRandom->Gaus(-0.5,0.5); xs2 = gRandom->Landau(1,0.15); main->Fill(xmain); s1->Fill(xs1,0.3); s2->Fill(xs2,0.2); total->Fill(xmain); total->Fill(xs1,0.3); total->Fill(xs2,0.2); if (i && (i%kUPDATE) == 0) { if (i == kUPDATE) { total->Draw("e1p"); main->Draw("same"); s1->Draw("same"); s2->Draw("same"); c1->Update(); slider = new TSlider("slider","test",4.2,0,4.6,total->GetMaximum(),38); slider->SetFillColor(46); } if (slider) slider->SetRange(0,Float_t(i)/10000.); c1->Modified(); c1->Update(); if (gROOT->IsBatch()) { // c1->Print("hsumanim.gif+"); printf("i = %d\n", i); } else { if (gSystem->ProcessEvents()) break; } } } slider->SetRange(0,1); total->Draw("sameaxis"); // to redraw axis hidden by the fill area c1->Modified(); // c1->Print("hsumanim.gif++") gBenchmark->Show("hsum"); }