// @(#)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 * * Web : http://tmva.sourceforge.net * * * * Description: * * Node for the BinarySearch or Decision Trees * * * * 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 * * * * 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_Node #define ROOT_TMVA_Node ////////////////////////////////////////////////////////////////////////// // // // Node // // // // Node base class for the BinarySearch or Decision Trees Nodes // // // ////////////////////////////////////////////////////////////////////////// #include #ifndef ROOT_Rtypes #include "Rtypes.h" #endif #ifndef ROOT_TMVA_Version #include "TMVA/Version.h" #endif namespace TMVA { class Node; class Event; class BinaryTree; std::ostream& operator<<( std::ostream& os, const Node& node ); std::ostream& operator<<( std::ostream& os, const Node* node ); // 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 Node { // output operator for a node friend std::ostream& operator << (std::ostream& os, const Node& node); // output operator with a pointer to the node (which still prints the node itself) friend std::ostream& operator << (std::ostream& os, const Node* node); public: // constructor of a node Node(); // constructor of a daughter node as a daughter of 'p' Node( Node* p, char pos ); // copy constructor Node( const Node &n ); // destructor virtual ~Node(); virtual Node* CreateNode() const = 0; // test event if i{ decends the tree at this node to the right virtual Bool_t GoesRight( const Event& ) const = 0; // test event if it decends the tree at this node to the left virtual Bool_t GoesLeft ( const Event& ) const = 0; // test event if it is equal to the event that "makes the node" (just for the "search tree" // return pointer to the left/right daughter or parent node inline virtual Node* GetLeft () const { return fLeft; } inline virtual Node* GetRight () const { return fRight; } inline virtual Node* GetParent() const { return fParent; } // set pointer to the left/right daughter or parent node inline virtual void SetLeft (Node* l) { fLeft = l;} inline virtual void SetRight (Node* r) { fRight = r;} inline virtual void SetParent(Node* p) { fParent = p;} //recursively go through the part of the tree below this node and count all daughters Int_t CountMeAndAllDaughters() const; // printout of the node virtual void Print( std::ostream& os ) const = 0; // recursive printout of the node and it daughters virtual void PrintRec ( std::ostream& os ) const = 0; void* AddXMLTo(void* parent) const; void ReadXML(void* node, UInt_t tmva_Version_Code = TMVA_VERSION_CODE ); virtual void AddAttributesToNode(void* node) const = 0; virtual void AddContentToNode(std::stringstream& s) const = 0; // Set depth, layer of the where the node is within the tree, seen from the top (root) void SetDepth(UInt_t d){fDepth=d;} // Return depth, layer of the where the node is within the tree, seen from the top (root) UInt_t GetDepth() const {return fDepth;} // set node position, i.e, the node is a left (l) or right (r) daugther void SetPos(char s) {fPos=s;} // Return the node position, i.e, the node is a left (l) or right (r) daugther char GetPos() const {return fPos;} // Return the pointer to the Parent tree to which the Node belongs virtual TMVA::BinaryTree* GetParentTree() const {return fParentTree;} // set the pointer to the Parent Tree to which the Node belongs virtual void SetParentTree(TMVA::BinaryTree* t) {fParentTree = t;} int GetCount(); virtual Bool_t ReadDataRecord( std::istream&, UInt_t tmva_Version_Code = TMVA_VERSION_CODE ) = 0; virtual void ReadAttributes(void* node, UInt_t tmva_Version_Code = TMVA_VERSION_CODE ) = 0; virtual void ReadContent(std::stringstream& s) =0; protected: Node* fParent; // the previous (parent) node Node* fLeft; // pointers to the two "daughter" nodes Node* fRight; // pointers to the two "daughter" nodes char fPos; // position, i.e. it is a left (l) or right (r) daughter UInt_t fDepth; // depth of the node within the tree (seen from root node) BinaryTree* fParentTree; // pointer to the parent tree to which the Node belongs private: static Int_t fgCount; // counter of all nodes present.. for debug.. to spot memory leaks... public: ClassDef(Node,0) // Node for the BinarySearch or Decision Trees }; } // namespace TMVA #endif