/usr/include/root/TMVA/BinarySearchTree.h is in libroot-tmva-dev 5.34.30-0ubuntu8.
This file is owned by root:root, with mode 0o644.
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// Author: Andreas Hoecker, Joerg Stelzer, Helge Voss, Kai Voss
/**********************************************************************************
* Project: TMVA - a Root-integrated toolkit for multivariate data analysis *
* Package: TMVA *
* Class : BinarySearchTree *
* Web : http://tmva.sourceforge.net *
* *
* Description: *
* BinarySearchTree incl. volume Search method *
* *
* Authors (alphabetical): *
* Andreas Hoecker <Andreas.Hocker@cern.ch> - CERN, Switzerland *
* Joerg Stelzer <Joerg.Stelzer@cern.ch> - CERN, Switzerland *
* Helge Voss <Helge.Voss@cern.ch> - MPI-K Heidelberg, Germany *
* Kai Voss <Kai.Voss@cern.ch> - U. of Victoria, Canada *
* *
* Copyright (c) 2005: *
* CERN, Switzerland *
* U. of Victoria, Canada *
* MPI-K Heidelberg, Germany *
* LAPP, Annecy, France *
* *
* Redistribution and use in source and binary forms, with or without *
* modification, are permitted according to the terms listed in LICENSE *
* (http://tmva.sourceforge.net/LICENSE) *
**********************************************************************************/
#ifndef ROOT_TMVA_BinarySearchTree
#define ROOT_TMVA_BinarySearchTree
//////////////////////////////////////////////////////////////////////////
// //
// BinarySearchTree //
// //
// A simple Binary search tree including volume search method //
// //
//////////////////////////////////////////////////////////////////////////
#include <vector>
#include <queue>
#ifndef ROOT_time
#include "time.h"
#endif
#ifndef ROOT_TMVA_Volume
#include "TMVA/Volume.h"
#endif
#ifndef ROOT_TMVA_BinaryTree
#include "TMVA/BinaryTree.h"
#endif
#ifndef ROOT_TMVA_BinarySearchTreeNode
#include "TMVA/BinarySearchTreeNode.h"
#endif
#ifndef ROOT_TMVA_VariableInfo
#include "TMVA/VariableInfo.h"
#endif
class TString;
class TTree;
// -----------------------------------------------------------------------------
// the binary search tree
namespace TMVA {
class Event;
// class MethodBase;
class BinarySearchTree : public BinaryTree {
public:
// constructor
BinarySearchTree( void );
// copy constructor
BinarySearchTree (const BinarySearchTree &b);
// destructor
virtual ~BinarySearchTree( void );
virtual Node * CreateNode( UInt_t ) const { return new BinarySearchTreeNode(); }
virtual BinaryTree* CreateTree() const { return new BinarySearchTree(); }
static BinarySearchTree* CreateFromXML(void* node, UInt_t tmva_Version_Code = TMVA_VERSION_CODE);
virtual const char* ClassName() const { return "BinarySearchTree"; }
// Searches for a node with the specified data
// by calling the private, recursive, function for searching
BinarySearchTreeNode* Search( Event * event ) const;
// Adds an item to the tree,
void Insert( const Event * );
// get sum of weights of the nodes;
Double_t GetSumOfWeights( void ) const;
//get sum of weights of the nodes of given type;
Double_t GetSumOfWeights( Int_t theType ) const;
//set the periode (number of variables)
void SetPeriode( Int_t p ) { fPeriod = p; }
// return periode (number of variables)
UInt_t GetPeriode( void ) const { return fPeriod; }
// counts events (weights) within a given volume
Double_t SearchVolume( Volume*, std::vector<const TMVA::BinarySearchTreeNode*>* events = 0 );
// Create the search tree from the event collection
// using ONLY the variables specified in "theVars"
Double_t Fill( const std::vector<TMVA::Event*>& events, const std::vector<Int_t>& theVars, Int_t theType = -1 );
// create the search tree from the events in a TTree
// using ALL the variables specified included in the Event
Double_t Fill( const std::vector<TMVA::Event*>& events, Int_t theType = -1 );
void NormalizeTree ();
void CalcStatistics( TMVA::Node* n = 0 );
void Clear ( TMVA::Node* n = 0 );
// access to mean for signal and background for each variable
Float_t Mean(Types::ESBType sb, UInt_t var ) { return fMeans[sb==Types::kSignal?0:1][var]; }
// access to RMS for signal and background for each variable
Float_t RMS(Types::ESBType sb, UInt_t var ) { return fRMS[sb==Types::kSignal?0:1][var]; }
// access to Minimum for signal and background for each variable
Float_t Min(Types::ESBType sb, UInt_t var ) { return fMin[sb==Types::kSignal?0:1][var]; }
// access to Maximum for signal and background for each variable
Float_t Max(Types::ESBType sb, UInt_t var ) { return fMax[sb==Types::kSignal?0:1][var]; }
Int_t SearchVolumeWithMaxLimit( TMVA::Volume*, std::vector<const TMVA::BinarySearchTreeNode*>* events = 0, Int_t = -1);
// access to RMS for each variable
Float_t RMS(UInt_t var ) { return fRMS[0][var]; } // attention! class 0 is taken as signal!
void SetNormalize( Bool_t norm ) { fCanNormalize = norm; }
private:
// add a new node to the tree (as daughter)
void Insert( const Event*, Node* );
// recursively search the nodes for Event
BinarySearchTreeNode* Search( Event*, Node *) const ;
//check of Event variables lie with the volumde
Bool_t InVolume (const std::vector<Float_t>&, Volume* ) const;
//
void DestroyNode ( BinarySearchTreeNode* );
void NormalizeTree( std::vector< std::pair< Double_t, const TMVA::Event* > >::iterator,
std::vector< std::pair< Double_t, const TMVA::Event* > >::iterator, UInt_t );
// recursive search through daughter nodes in weight counting
Double_t SearchVolume( Node*, Volume*, Int_t,
std::vector<const TMVA::BinarySearchTreeNode*>* events );
UInt_t fPeriod; // periode (number of event variables)
UInt_t fCurrentDepth; // internal variable, counting the depth of the tree during insertion
Bool_t fStatisticsIsValid; // flag if last stat calculation is still valid, set to false if new node is insert
std::vector<Float_t> fMeans[2]; // mean for signal and background for each variable
std::vector<Float_t> fRMS[2]; // RMS for signal and background for each variable
std::vector<Float_t> fMin[2]; // RMS for signal and background for each variable
std::vector<Float_t> fMax[2]; // RMS for signal and background for each variable
std::vector<Double_t> fSum[2]; // Sum for signal and background for each variable
std::vector<Double_t> fSumSq[2]; // Squared Sum for signal and background for each variable
Double_t fNEventsW[2]; // Number of events per class, taking into account event weights
Double_t fSumOfWeights;// Total number of events (weigthed) counted during filling
// should be the same as fNEventsW[0]+fNEventsW[1].. used as a check
Bool_t fCanNormalize; // the tree can be normalised
std::vector< std::pair<Double_t,const TMVA::Event*> > fNormalizeTreeTable;
ClassDef(BinarySearchTree,0) // Binary search tree including volume search method
};
} // namespace TMVA
#endif
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