ROOT logo

From $ROOTSYS/tutorials/hist/hsumTimer.C

// demo of Timers
Int_t i;
Float_t ratio;
TSlider *slider;
TCanvas *c1;

void hsumTimer(Int_t nfill=100000)
{
//
// Simple example illustrating how to use the C++ interpreter
// to fill histograms in a loop and show the graphics results
// This program is a variant of the tutorial "hsum".
// It illustrates the use of Timers.
//Author: Rene Brun
   
  c1 = new TCanvas("c1","The HSUM example",200,10,600,400);
  c1->SetGrid();


// Create some histograms.
  total  = new TH1F("total","This is the total distribution",100,-4,4);
  main   = new TH1F("main","Main contributor",100,-4,4);
  s1     = new TH1F("s1","This is the first signal",100,-4,4);
  s2     = new TH1F("s2","This is the second signal",100,-4,4);
  total->Sumw2();   // store the sum of squares of weights
  total->SetMarkerStyle(21);
  total->SetMarkerSize(0.7);
  main->SetFillColor(16);
  s1->SetFillColor(42);
  s2->SetFillColor(46);
  total->SetMaximum(nfill/20.);
  total->Draw("e1p");
  main->Draw("same");
  s1->Draw("same");
  s2->Draw("same");
  c1->Update();slider = new TSlider("slider",
     "test",4.2,0,4.6,0.8*total->GetMaximum(),38);
  slider->SetFillColor(46);

// Create a TTimer (hsumUpdate called every 300 msec)
  TTimer timer("hsumUpdate()",300); 
  timer.TurnOn();

 // Fill histograms randomly
  Float_t xs1, xs2, xmain;
  gRandom->SetSeed();
  for (Int_t i=0; i<nfill; i++) {
     ratio = Float_t(i)/Float_t(nfill);
     if (gSystem->ProcessEvents()) break;
     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);
  }
  timer.TurnOff();
  hsumUpdate();
}

void hsumUpdate()
{
// called when Timer times out
   if (slider) slider->SetRange(0,ratio);
   c1->Modified();
   c1->Update();
}
 hsumTimer.C:1
 hsumTimer.C:2
 hsumTimer.C:3
 hsumTimer.C:4
 hsumTimer.C:5
 hsumTimer.C:6
 hsumTimer.C:7
 hsumTimer.C:8
 hsumTimer.C:9
 hsumTimer.C:10
 hsumTimer.C:11
 hsumTimer.C:12
 hsumTimer.C:13
 hsumTimer.C:14
 hsumTimer.C:15
 hsumTimer.C:16
 hsumTimer.C:17
 hsumTimer.C:18
 hsumTimer.C:19
 hsumTimer.C:20
 hsumTimer.C:21
 hsumTimer.C:22
 hsumTimer.C:23
 hsumTimer.C:24
 hsumTimer.C:25
 hsumTimer.C:26
 hsumTimer.C:27
 hsumTimer.C:28
 hsumTimer.C:29
 hsumTimer.C:30
 hsumTimer.C:31
 hsumTimer.C:32
 hsumTimer.C:33
 hsumTimer.C:34
 hsumTimer.C:35
 hsumTimer.C:36
 hsumTimer.C:37
 hsumTimer.C:38
 hsumTimer.C:39
 hsumTimer.C:40
 hsumTimer.C:41
 hsumTimer.C:42
 hsumTimer.C:43
 hsumTimer.C:44
 hsumTimer.C:45
 hsumTimer.C:46
 hsumTimer.C:47
 hsumTimer.C:48
 hsumTimer.C:49
 hsumTimer.C:50
 hsumTimer.C:51
 hsumTimer.C:52
 hsumTimer.C:53
 hsumTimer.C:54
 hsumTimer.C:55
 hsumTimer.C:56
 hsumTimer.C:57
 hsumTimer.C:58
 hsumTimer.C:59
 hsumTimer.C:60
 hsumTimer.C:61
 hsumTimer.C:62
 hsumTimer.C:63
 hsumTimer.C:64
 hsumTimer.C:65
 hsumTimer.C:66
 hsumTimer.C:67
 hsumTimer.C:68
 hsumTimer.C:69
 hsumTimer.C:70
 hsumTimer.C:71