doc/v620/tprofile2polyRealistic_8C.html

#include <iostream>

#include <fstream>

#include <TProfile2Poly.h>

#include <TProfile2D.h>

#include <TCanvas.h>

#include <TRandom.h>


using namespace std;


void tprofile2polyRealistic(Int_t numEvents=100000)

{

   int NUM_LS = 8;

   TCanvas *c1 = new TCanvas("c1", "moving charge", 900, 400);

   TCanvas *c2 = new TCanvas("c2", "Merge Individual moving charge plots", 800, 400);


   c1->Divide(NUM_LS, 3);

   c2->Divide(3,1);


   // -------------------- Construct Reference plot bins ------------------------

   auto new_avg = new TProfile2Poly();


   auto tot_avg_ls = new TProfile2Poly[NUM_LS];

   auto det_avg_ls = new TProfile2Poly[NUM_LS];

   auto det_err_ls = new TProfile2Poly[NUM_LS];

   auto tot_merge = new TProfile2Poly();

   auto det_avg_merge = new TProfile2Poly();

   auto det_err_merge = new TProfile2Poly();


   float minx = -15;

   float maxx = 15;

   float miny = -15;

   float maxy = 15;

   float binsz = 0.5;


   for (float i = minx; i < maxx; i += binsz) {

      for (float j = miny; j < maxy; j += binsz) {

        tot_merge->AddBin(i, j, i + binsz, j + binsz);

        for (int l=0; l<NUM_LS; ++l) {

          tot_avg_ls[l].AddBin(i, j, i + binsz, j + binsz);

        }

      }

   }


   // -------------------- Construct detector bins ------------------------

   auto h2p = new TH2Poly();

   auto tp2p = new TProfile2Poly();

   ifstream infile;

   TString dir = gROOT->GetTutorialDir();

   dir.Append("/hist/data/tprofile2poly_tutorial.data");

   infile.open(dir.Data());


   if (!infile) // Verify that the file was open successfully

   {

      std::cerr << dir.Data() << std::endl; // Report error

      std::cerr << "Error code: " << strerror(errno) << std::endl; // Get some info as to why

      return;

   }

   std::cout << " WE ARE AFTER LOADING DATA " << std::endl;


   vector<pair<Double_t, Double_t>> allCoords;

   Double_t a, b;

   while (infile >> a >> b) {

      pair<Double_t, Double_t> coord(a, b);

      allCoords.push_back(coord);

   }


   if (allCoords.size() % 3 != 0) {

      cout << "[ERROR] Bad file" << endl;

      return;

   }


   Double_t x[3], y[3];

   for (Int_t i = 0; i < allCoords.size(); i += 3) {

      x[0] = allCoords[i + 0].first;

      y[0] = allCoords[i + 0].second;

      x[1] = allCoords[i + 1].first;

      y[1] = allCoords[i + 1].second;

      x[2] = allCoords[i + 2].first;

      y[2] = allCoords[i + 2].second;


      det_avg_merge->AddBin(3, x, y);

      det_err_merge->AddBin(3, x, y);


      for (int l=0; l<NUM_LS; ++l) {

        det_avg_ls[l].AddBin(3, x, y);

      }

   }


   std::cout << " WE ARE AFTER ADDING BINS " << std::endl;


   // -------------------- Simulate particles ------------------------

   TRandom ran;


   // moving error

   Double_t xoffset1 = 0;

   Double_t yoffset1 = 0;

   Double_t xoffset2 = 0;

   Double_t yoffset2 = 0;


   for (int i = 0; i <= NUM_LS-1; ++i) { // LumiSection

     std::cout << "[In Progress] LumiSection " << i << std::endl;

      for (int j = 0; j < numEvents; ++j) {   // Events

         Double_t r1 = ran.Gaus(0, 10);

         Double_t r2 = ran.Gaus(0, 8);

         Double_t rok = ran.Gaus(10, 1);

         Double_t rbad1 = ran.Gaus(8, 5);

         Double_t rbad2 = ran.Gaus(-8, 5);


         Double_t val = rok;


         xoffset1 += 0.00002;

         yoffset1 += 0.00002;


         xoffset2 += 0.00003;

         yoffset2 += 0.00004;


         if (r2 > 3. - yoffset1 && r2 < 8. - yoffset1 &&

             r1 > 1. + xoffset1 && r1 < 5. + xoffset1 ) {

           val -= rbad1;

         }


         if (r2 > -10 + yoffset2 && r2 < -8 + yoffset2 &&

             r1 > -6 + xoffset2 && r1 < 8 + xoffset2 ) {

           val -= rbad2;

         }


         tot_avg_ls[i].Fill(r1, r2, val);

         det_avg_ls[i].Fill(r1, r2, val);

      }


      std::string title;


      c1->cd(i+1);

      title = "Global View: Avg in LS  " + to_string(i);

      tot_avg_ls[i].SetTitle(title.c_str());

      tot_avg_ls[i].SetStats(false);

      tot_avg_ls[i].Draw("COLZ");

      c1->Update();


      c1->cd((i+1)+NUM_LS);

      title = "Detector View: Avg in LS  " + to_string(i);

      det_avg_ls[i].SetTitle(title.c_str());

      det_avg_ls[i].SetStats(false);

      det_avg_ls[i].Draw("COLZ");

      c1->Update();


      c1->cd((i+1)+(NUM_LS*2));

      title = "Detector View: Error in LS  " + to_string(i);

      det_avg_ls[i].SetTitle(title.c_str());

      det_avg_ls[i].SetStats(false);

      det_avg_ls[i].SetContentToError();

      det_avg_ls[i].Draw("COLZ");

      c1->Update();

   }


   std::vector<TProfile2Poly*> tot_avg_v;

   std::vector<TProfile2Poly*> det_avg_v;

   for (Int_t t=0; t<NUM_LS; t++){

     tot_avg_v.push_back(&tot_avg_ls[t]);

     det_avg_v.push_back(&det_avg_ls[t]);

   }


   std::cout << "[In Progress] Merging" << std::endl;


   std::string title;


   tot_merge->Merge(tot_avg_v);

   c2->cd(1);

   title = "Total average merge";

   tot_merge->SetTitle(title.c_str());

   tot_merge->Draw("COLZ");


   det_avg_merge->Merge(det_avg_v);

   c2->cd(2);

   title = "Detector average merge";

   det_avg_merge->SetTitle(title.c_str());

   det_avg_merge->SetContentToAverage(); // implicit

   det_avg_merge->Draw("COLZ");


   det_err_merge->Merge(det_avg_v);

   c2->cd(3);

   title = "Detector error merge";

   det_err_merge->SetTitle(title.c_str());

   det_err_merge->SetContentToError();

   det_err_merge->Draw("COLZ");

}

b
#define b(i)
Definition: RSha256.hxx:100

Int_t
int Int_t
Definition: RtypesCore.h:41

Double_t
double Double_t
Definition: RtypesCore.h:55

TCanvas.h

TProfile2D.h

TProfile2Poly.h

gROOT
#define gROOT
Definition: TROOT.h:415

TRandom.h

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

TH2Poly
2D Histogram with Polygonal Bins
Definition: TH2Poly.h:66

TProfile2Poly
2D Profile Histogram with Polygonal Bins.
Definition: TProfile2Poly.h:57

TRandom
This is the base class for the ROOT Random number generators.
Definition: TRandom.h:27

TRandom::Gaus
virtual Double_t Gaus(Double_t mean=0, Double_t sigma=1)
Samples a random number from the standard Normal (Gaussian) Distribution with the given mean and sigm...
Definition: TRandom.cxx:263

TString
Basic string class.
Definition: TString.h:131

TString::Data
const char * Data() const
Definition: TString.h:364

TString::Append
TString & Append(const char *cs)
Definition: TString.h:559

c1
return c1
Definition: legend1.C:41

y
Double_t y[n]
Definition: legend1.C:17

x
Double_t x[n]
Definition: legend1.C:17

c2
return c2
Definition: legend2.C:14

l
auto * l
Definition: textangle.C:4

a
auto * a
Definition: textangle.C:12