1#ifndef ROOT_TMVA_ROCCalc
2#define ROOT_TMVA_ROCCalc
1-D histogram with a double per channel (see TH1 documentation)}
TH1 is the base class of all histogram classes in ROOT.
2-D histogram with a float per channel (see TH1 documentation)}
Service class for 2-D histogram classes.
ostringstream derivative to redirect and format output
Double_t fSignalCut
MVA cut value for last demanded background rejection or signal efficiency.
Double_t Root(Double_t)
Root finding using Brents algorithm; taken from CERNLIB function RZERO.
void ApplySignalAndBackgroundStyle(TH1 *sig, TH1 *bkg, TH1 *any=nullptr)
Double_t GetROCIntegral()
code to compute the area under the ROC ( rej-vs-eff ) curve
Float_t fXmax
min and max of the mva distribution
TSpline * fSplmvaCumB
spline of cumulated mva distributions
Int_t fMaxIter
maximum number of iterations
Bool_t fStatus
false if is found some error in mvaS or mvaB
Double_t GetSignalReferenceCut()
Int_t fCutOrientation
+1 if larger mva value means more signal like, -1 otherwise
TH1 * GetPurity(Int_t nStot, Int_t nBtot)
Double_t GetEffSForEffBof(Double_t effBref, Double_t &effSerr)
get the signal efficiency for a particular background efficiency that will be the value of the effici...
TH1 * GetSignificance(Int_t nStot, Int_t nBtot)
MsgLogger & Log() const
message logger
TH1D * GetROC()
get the ROC curve
TH1 * fmvaB
the input mva distributions
Double_t fAbsTol
absolute tolerance deviation
TH1 * fmvaBpdf
the normalized (and rebinned) input mva distributions
Double_t GetEffForRoot(Double_t theCut)
returns efficiency as function of cut
Double_t fNevtS
number of signal events (used in error calculation)
Base class for spline implementation containing the Draw/Paint methods.
A TTree represents a columnar dataset.
create variable transformations