// @(#)root/tmva $Id$ // Author: Andreas Hoecker, Joerg Stelzer, Helge Voss, Kai Voss /********************************************************************************** * Project: TMVA - a Root-integrated toolkit for multivariate data analysis * * Package: TMVA * * Classes: Node, NodeID * * Web : http://tmva.sourceforge.net * * * * Description: * * Node for the BinarySearch * * * * Authors (alphabetical): * * Andreas Hoecker - CERN, Switzerland * * Helge Voss - MPI-K Heidelberg, Germany * * Kai Voss - 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_BinarySearchTreeNode #define ROOT_TMVA_BinarySearchTreeNode ////////////////////////////////////////////////////////////////////////// // // // BinarySearchTreeNode // // // // Node for the BinarySearch Tree // // // ////////////////////////////////////////////////////////////////////////// #include #include #ifndef ROOT_Rtypes #include "Rtypes.h" #endif #ifndef ROOT_TMVA_Node #include "TMVA/Node.h" #endif namespace TMVA { class Event; // a class used to identify a Node; (needed for recursive reading from text file) // (currently it is NOT UNIQUE... but could eventually made it // a node in the tree structure class BinarySearchTreeNode : public Node { public: // constructor of a node for the search tree BinarySearchTreeNode( const Event* e = NULL, UInt_t signalClass=0 ); // constructor of a daughter node as a daughter of 'p' BinarySearchTreeNode( BinarySearchTreeNode* parent, char pos ); // copy constructor BinarySearchTreeNode ( const BinarySearchTreeNode &n, BinarySearchTreeNode* parent = NULL); // destructor virtual ~BinarySearchTreeNode (); virtual Node* CreateNode() const { return new BinarySearchTreeNode(); } // test event if it decends the tree at this node to the right virtual Bool_t GoesRight( const Event& ) const; // test event if it decends the tree at this node to the left virtual Bool_t GoesLeft ( const Event& ) const; // test event if it is equal to the event that "makes the node" (just for the "search tree" virtual Bool_t EqualsMe ( const Event& ) const; // set index of variable used for discrimination at this node inline void SetSelector( Short_t i) { fSelector = i; } // return index of variable used for discrimination at this node inline Short_t GetSelector() const { return fSelector; } const std::vector & GetEventV() const { return fEventV; } Float_t GetWeight() const { return fWeight; } UInt_t GetClass() const { return fClass; } // Bool_t IsSignal() const { return (fClass == fSignalClass); } const std::vector & GetTargets() const { return fTargets; } // printout of the node virtual void Print( std::ostream& os ) const; // recursive printout of the node and it daughters virtual void PrintRec( std::ostream& os ) const; virtual void AddAttributesToNode(void* node) const; virtual void AddContentToNode(std::stringstream& s) const; private: // Read the data block virtual void ReadAttributes(void* node, UInt_t tmva_Version_Code = TMVA_VERSION_CODE ); virtual Bool_t ReadDataRecord( std::istream& is, UInt_t tmva_Version_Code = TMVA_VERSION_CODE ); virtual void ReadContent(std::stringstream& s); std::vector fEventV; std::vector fTargets; Float_t fWeight; UInt_t fClass; Short_t fSelector; // index of variable used in node selection (decision tree) ClassDef(BinarySearchTreeNode,0) // Node for the BinarySearchTree }; } // namespace TMVA #endif