This is an example of unfolding a two-dimensional distribution also using an auxiliary measurement to constrain some background
#include <iostream>
#include <map>
#include <cmath>
#ifndef READ_BINNING_CINT
#else
#endif
using namespace std;
void testUnfold5c()
{
TFile *outputFile=
new TFile(
"testUnfold5_histograms.root",
"recreate");
#ifdef READ_BINNING_CINT
TFile *binningSchemes=
new TFile(
"testUnfold5_binning.root");
#endif
#ifndef READ_BINNING_CINT
if(error) cout<<"error="<<error<<" from TDOMParser\n";
detectorBinning=
generatorBinning=
#else
binningSchemes->
GetObject(
"detector",detectorBinning);
binningSchemes->
GetObject(
"generator",generatorBinning);
delete binningSchemes;
#endif
detectorBinning->
Write();
generatorBinning->
Write();
if(detectorBinning) {
} else {
cout<<"could not read 'detector' binning\n";
}
if(generatorBinning) {
} else {
cout<<"could not read 'generator' binning\n";
}
detectorBinning->
FindNode(
"detectordistribution");
generatorBinning->
FindNode(
"background");
Float_t etaRec,ptRec,discr,etaGen,ptGen;
Int_t istriggered,issignal;
TFile *dataFile=
new TFile(
"testUnfold5_data.root");
if(!dataTree) {
cout<<"could not read 'data' tree\n";
}
cout<<"loop over data events\n";
if(dataTree->
GetEntry(ievent)<=0)
break;
if(istriggered) {
histDataReco->
Fill(binNumber);
}
if(issignal) {
histDataTruth->
Fill(binNumber);
} else {
histDataTruth->
Fill(binNumber);
}
}
delete dataTree;
delete dataFile;
(generatorBinning,detectorBinning,"histMCGenRec");
TFile *signalFile=
new TFile(
"testUnfold5_signal.root");
if(!signalTree) {
cout<<"could not read 'signal' tree\n";
}
cout<<"loop over MC signal events\n";
if(signalTree->
GetEntry(ievent)<=0)
break;
if(istriggered) {
}
histMCGenRec->
Fill(genBin,recBin);
}
delete signalTree;
delete signalFile;
TFile *bgrFile=
new TFile(
"testUnfold5_background.root");
if(!bgrTree) {
cout<<"could not read 'background' tree\n";
}
cout<<"loop over MC background events\n";
if(istriggered) {
(ptRec,etaRec,discr);
histMCGenRec->
Fill(genBin,recBin);
}
}
delete bgrTree;
delete bgrFile;
delete outputFile;
}
virtual TXMLDocument * GetXMLDocument() const
Returns the TXMLDocument.
Int_t ParseFile(const char *filename) override
Parse the XML file where filename is the XML file name.
Bool_t cd() override
Change current directory to "this" directory.
TObject * Get(const char *namecycle) override
Return pointer to object identified by namecycle.
void GetObject(const char *namecycle, T *&ptr)
Get an object with proper type checking.
A ROOT file is composed of a header, followed by consecutive data records (TKey instances) with a wel...
Int_t Write(const char *name=nullptr, Int_t opt=0, Int_t bufsiz=0) override
Write memory objects to this file.
TH1 is the base class of all histogram classes in ROOT.
virtual Int_t Fill(Double_t x)
Increment bin with abscissa X by 1.
static void SetDefaultSumw2(Bool_t sumw2=kTRUE)
When this static function is called with sumw2=kTRUE, all new histograms will automatically activate ...
Service class for 2-D histogram classes.
Int_t Fill(Double_t) override
Invalid Fill method.
virtual Int_t Write(const char *name=nullptr, Int_t option=0, Int_t bufsize=0)
Write this object to the current directory.
A TTree represents a columnar dataset.
virtual Int_t GetEntry(Long64_t entry, Int_t getall=0)
Read all branches of entry and return total number of bytes read.
virtual Int_t SetBranchAddress(const char *bname, void *add, TBranch **ptr=nullptr)
Change branch address, dealing with clone trees properly.
virtual void SetBranchStatus(const char *bname, Bool_t status=1, UInt_t *found=nullptr)
Set branch status to Process or DoNotProcess.
virtual Long64_t GetEntriesFast() const
virtual void ResetBranchAddresses()
Tell all of our branches to drop their current objects and allocate new ones.
static TUnfoldBinningXML * ImportXML(const TXMLDocument *document, const char *name)
Import a binning scheme from an XML file.
Binning schemes for use with the unfolding algorithm TUnfoldDensity.
void PrintStream(std::ostream &out, Int_t indent=0, int debug=0) const
Print some information about this binning tree.
TH1 * CreateHistogram(const char *histogramName, Bool_t originalAxisBinning=kFALSE, Int_t **binMap=nullptr, const char *histogramTitle=nullptr, const char *axisSteering=nullptr) const
Create a THxx histogram capable to hold the bins of this binning node and its children.
Int_t GetGlobalBinNumber(Double_t x) const
Locate a bin in a one-dimensional distribution.
static TH2D * CreateHistogramOfMigrations(TUnfoldBinning const *xAxis, TUnfoldBinning const *yAxis, char const *histogramName, Bool_t originalXAxisBinning=kFALSE, Bool_t originalYAxisBinning=kFALSE, char const *histogramTitle=nullptr)
Create a TH2D histogram capable to hold the bins of the two input binning schemes on the x and y axes...
TUnfoldBinning const * FindNode(char const *name) const
Traverse the tree and return the first node which matches the given name.
TXMLDocument contains a pointer to an xmlDoc structure, after the parser returns a tree built during ...