// $Id: CbcBranchDefaultDecision.hpp 1899 2013-04-09 18:12:08Z stefan $ // Copyright (C) 2002, International Business Machines // Corporation and others. All Rights Reserved. // This code is licensed under the terms of the Eclipse Public License (EPL). // Edwin 11/10/2009-- carved out of CbcBranchActual #ifndef CbcBranchDefaultDecision_H #define CbcBranchDefaultDecision_H #include "CbcBranchBase.hpp" /** Branching decision default class This class implements a simple default algorithm (betterBranch()) for choosing a branching variable. */ class CbcBranchDefaultDecision : public CbcBranchDecision { public: // Default Constructor CbcBranchDefaultDecision (); // Copy constructor CbcBranchDefaultDecision ( const CbcBranchDefaultDecision &); virtual ~CbcBranchDefaultDecision(); /// Clone virtual CbcBranchDecision * clone() const; /// Initialize, e.g. before the start of branch selection at a node virtual void initialize(CbcModel * model); /** \brief Compare two branching objects. Return nonzero if \p thisOne is better than \p bestSoFar. The routine compares branches using the values supplied in \p numInfUp and \p numInfDn until a solution is found by search, after which it uses the values supplied in \p changeUp and \p changeDn. The best branching object seen so far and the associated parameter values are remembered in the \c CbcBranchDefaultDecision object. The nonzero return value is +1 if the up branch is preferred, -1 if the down branch is preferred. As the names imply, the assumption is that the values supplied for \p numInfUp and \p numInfDn will be the number of infeasibilities reported by the branching object, and \p changeUp and \p changeDn will be the estimated change in objective. Other measures can be used if desired. Because an \c CbcBranchDefaultDecision object remembers the current best branching candidate (#bestObject_) as well as the values used in the comparison, the parameter \p bestSoFar is redundant, hence unused. */ virtual int betterBranch(CbcBranchingObject * thisOne, CbcBranchingObject * bestSoFar, double changeUp, int numInfUp, double changeDn, int numInfDn); /** Sets or gets best criterion so far */ virtual void setBestCriterion(double value); virtual double getBestCriterion() const; /** \brief Compare N branching objects. Return index of best and sets way of branching in chosen object. This routine is used only after strong branching. */ virtual int bestBranch (CbcBranchingObject ** objects, int numberObjects, int numberUnsatisfied, double * changeUp, int * numberInfeasibilitiesUp, double * changeDown, int * numberInfeasibilitiesDown, double objectiveValue) ; private: /// Illegal Assignment operator CbcBranchDefaultDecision & operator=(const CbcBranchDefaultDecision& rhs); /// data /// "best" so far double bestCriterion_; /// Change up for best double bestChangeUp_; /// Number of infeasibilities for up int bestNumberUp_; /// Change down for best double bestChangeDown_; /// Pointer to best branching object CbcBranchingObject * bestObject_; /// Number of infeasibilities for down int bestNumberDown_; }; #endif