doc/v620/htest_8C.html

void htw() {

   // Create a Tree with a few branches of type histogram

   // 25000 entries are filled in the Tree

   // For each entry, the copy of 3 histograms is written

   // The data base will contain 75000 histograms.

   gBenchmark->Start("hsimple");

   TFile f("ht.root","recreate");

   auto T     = new TTree("T","test");

   auto hpx   = new TH1F("hpx","This is the px distribution",100,-4,4);

   auto hpxpy = new TH2F("hpxpy","py vs px",40,-4,4,40,-4,4);

   auto hprof  = new TProfile("hprof","Profile of pz versus px",100,-4,4,0,20);

   T->Branch("hpx","TH1F",&hpx,32000,0);

   T->Branch("hpxpy","TH2F",&hpxpy,32000,0);

   T->Branch("hprof","TProfile",&hprof,32000,0);

   Float_t px, py, pz;

   for (Int_t i = 0; i < 25000; i++) {

      if (i%1000 == 0) printf("at entry: %d\n",i);

      gRandom->Rannor(px,py);

      pz = px*px + py*py;

      hpx->Fill(px);

      hpxpy->Fill(px,py);

      hprof->Fill(px,pz);

      T->Fill();

   }

   T->Print();

   f.Write();

   gBenchmark->Show("hsimple");

}


void htr1() {

   // Connect Tree generated by htw and show histograms for entry 12345

   auto f = new TFile("ht.root");

   auto T = (TTree*)f->Get("T");

   TH1F *hpx = nullptr;

   TH2F *hpxpy = nullptr;

   TProfile *hprof = nullptr;

   T->SetBranchAddress("hpx",&hpx);

   T->SetBranchAddress("hpxpy",&hpxpy);

   T->SetBranchAddress("hprof",&hprof);

   T->GetEntry(12345);

   auto c1 = new TCanvas("c1","test",10,10,600,1000);

   c1->Divide(1,3);

   c1->cd(1);

   hpx->Draw();

   c1->cd(2);

   hpxpy->Draw();

   c1->cd(3);

   hprof->Draw();

   c1->Print("htr1.png");

}


void htr2() {

   // Connect Tree generated by htw and show histograms for entry 12345

   // a variant of htr1

   auto f = new TFile("ht.root");

   auto T = (TTree*)f->Get("T");

   auto c1 = new TCanvas("c1","test",10,10,600,1000);

   c1->Divide(1,3);

   c1->cd(1);

   T->Draw("hpx.Draw()","","goff",1,12345);

   c1->cd(2);

   T->Draw("hpxpy.Draw()","","goff",1,12345);

   c1->cd(3);

   T->Draw("hprof.Draw()","","goff",1,12345);

   c1->Print("htr2.png");

}


void htr3() {

   // Connect Tree generated by htw

   // read all histograms and plot the RMS of hpx versus the Mean of hprof

   // for each of the 25000 entries

   auto f = new TFile("ht.root");

   auto T = (TTree*)f->Get("T");

   auto c1 = new TCanvas("c1","test",10,10,600,400);

   T->Draw("hpx.GetRMS():hprof.GetMean()");

   c1->Print("htr3.png");

}


void htest() {

   htw();

   htr1();

   htr2();

   htr3();

}

f
#define f(i)
Definition: RSha256.hxx:104

Int_t
int Int_t
Definition: RtypesCore.h:41

Float_t
float Float_t
Definition: RtypesCore.h:53

gBenchmark
R__EXTERN TBenchmark * gBenchmark
Definition: TBenchmark.h:59

gRandom
R__EXTERN TRandom * gRandom
Definition: TRandom.h:62

TBenchmark::Start
virtual void Start(const char *name)
Starts Benchmark with the specified name.
Definition: TBenchmark.cxx:174

TBenchmark::Show
virtual void Show(const char *name)
Stops Benchmark name and Prints results.
Definition: TBenchmark.cxx:157

TCanvas
The Canvas class.
Definition: TCanvas.h:31

TFile
A ROOT file is a suite of consecutive data records (TKey instances) with a well defined format.
Definition: TFile.h:48

TH1F
1-D histogram with a float per channel (see TH1 documentation)}
Definition: TH1.h:571

TH1::Draw
virtual void Draw(Option_t *option="")
Draw this histogram with options.
Definition: TH1.cxx:2998

TH2F
2-D histogram with a float per channel (see TH1 documentation)}
Definition: TH2.h:251

TProfile
Profile Histogram.
Definition: TProfile.h:32

TRandom::Rannor
virtual void Rannor(Float_t &a, Float_t &b)
Return 2 numbers distributed following a gaussian with mean=0 and sigma=1.
Definition: TRandom.cxx:489

TTree
A TTree represents a columnar dataset.
Definition: TTree.h:72

c1
return c1
Definition: legend1.C:41

ROOT::Math::Chebyshev::T
double T(double x)
Definition: ChebyshevPol.h:34