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ntpl004_dimuon.C File Reference

Detailed Description

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Mini-Analysis on CMS OpenData with RDataFrame.

This tutorial illustrates that analyzing data with RDataFrame works the same for both TTree data and RNTuple data. The RNTuple data are converted from the Events tree in http://root.cern/files/NanoAOD_DoubleMuon_CMS2011OpenData.root Based on RDataFrame's df102_NanoAODDimuonAnalysis.C

// NOTE: The RNTuple classes are experimental at this point.
// Functionality, interface, and data format is still subject to changes.
// Do not use for real data!
#include <ROOT/RVec.hxx>
#include <TCanvas.h>
#include <TH1D.h>
#include <TLatex.h>
#include <TStyle.h>
#include <cassert>
#include <cmath>
#include <iostream>
#include <memory>
#include <string>
#include <vector>
#include <utility>
// Import classes from experimental namespace for the time being
constexpr char const* kNTupleFileName = "http://root.cern/files/tutorials/ntpl004_dimuon_v1rc2.root";
using namespace ROOT::VecOps;
void ntpl004_dimuon() {
// Use all available CPU cores
ROOT::RDataFrame df("Events", kNTupleFileName);
// The tutorial is identical to df102_NanoAODDimuonAnalysis except the use of RNTuple.
// For simplicity, select only events with exactly two muons and require opposite charge
auto df_2mu = df.Filter("nMuon == 2", "Events with exactly two muons");
auto df_os = df_2mu.Filter("Muon_charge[0] != Muon_charge[1]", "Muons with opposite charge");
// Compute invariant mass of the dimuon system
auto df_mass = df_os.Define("Dimuon_mass", InvariantMass<float>, {"Muon_pt", "Muon_eta", "Muon_phi", "Muon_mass"});
// Make histogram of dimuon mass spectrum
auto h = df_mass.Histo1D({"Dimuon_mass", "Dimuon_mass", 30000, 0.25, 300}, "Dimuon_mass");
// Request cut-flow report
auto report = df_mass.Report();
// Produce plot
auto c = new TCanvas("c", "", 800, 700);
c->SetLogx(); c->SetLogy();
h->SetTitle("");
h->GetXaxis()->SetTitle("m_{#mu#mu} (GeV)"); h->GetXaxis()->SetTitleSize(0.04);
h->GetYaxis()->SetTitle("N_{Events}"); h->GetYaxis()->SetTitleSize(0.04);
h->DrawCopy();
TLatex label; label.SetNDC(true);
label.DrawLatex(0.175, 0.740, "#eta");
label.DrawLatex(0.205, 0.775, "#rho,#omega");
label.DrawLatex(0.270, 0.740, "#phi");
label.DrawLatex(0.400, 0.800, "J/#psi");
label.DrawLatex(0.415, 0.670, "#psi'");
label.DrawLatex(0.485, 0.700, "Y(1,2,3S)");
label.DrawLatex(0.755, 0.680, "Z");
label.SetTextSize(0.040); label.DrawLatex(0.100, 0.920, "#bf{CMS Open Data}");
label.SetTextSize(0.030); label.DrawLatex(0.630, 0.920, "#sqrt{s} = 8 TeV, L_{int} = 11.6 fb^{-1}");
// Print cut-flow report
report->Print();
}
#define c(i)
Definition RSha256.hxx:101
#define h(i)
Definition RSha256.hxx:106
R__EXTERN TStyle * gStyle
Definition TStyle.h:433
The RDataSource implementation for RNTuple.
Definition RNTupleDS.hxx:43
ROOT's RDataFrame offers a modern, high-level interface for analysis of data stored in TTree ,...
virtual void SetTextFont(Font_t tfont=62)
Set the text font.
Definition TAttText.h:46
virtual void SetTextSize(Float_t tsize=1)
Set the text size.
Definition TAttText.h:47
The Canvas class.
Definition TCanvas.h:23
To draw Mathematical Formula.
Definition TLatex.h:18
TLatex * DrawLatex(Double_t x, Double_t y, const char *text)
Make a copy of this object with the new parameters And copy object attributes.
Definition TLatex.cxx:1943
void SetOptStat(Int_t stat=1)
The type of information printed in the histogram statistics box can be selected via the parameter mod...
Definition TStyle.cxx:1636
virtual void SetNDC(Bool_t isNDC=kTRUE)
Set NDC mode on if isNDC = kTRUE, off otherwise.
Definition TText.cxx:823
void Print(Option_t *option="") const override
Dump this text with its attributes.
Definition TText.cxx:788
void EnableImplicitMT(UInt_t numthreads=0)
Enable ROOT's implicit multi-threading for all objects and methods that provide an internal paralleli...
Definition TROOT.cxx:537
Date
April 2019
Author
The ROOT Team

Definition in file ntpl004_dimuon.C.