/usr/include/coin/OsiSolverBranch.hpp is in coinor-libosi-dev 0.106.9-2+b1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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// Corporation and others. All Rights Reserved.
// This code is licensed under the terms of the Eclipse Public License (EPL).
#ifndef OsiSolverBranch_H
#define OsiSolverBranch_H
class OsiSolverInterface;
#include "CoinWarmStartBasis.hpp"
//#############################################################################
/** Solver Branch Class
This provides information on a branch as a set of tighter bounds on both ways
*/
class OsiSolverBranch {
public:
///@name Add and Get methods
//@{
/// Add a simple branch (i.e. first sets ub of floor(value), second lb of ceil(value))
void addBranch(int iColumn, double value);
/// Add bounds - way =-1 is first , +1 is second
void addBranch(int way,int numberTighterLower, const int * whichLower, const double * newLower,
int numberTighterUpper, const int * whichUpper, const double * newUpper);
/// Add bounds - way =-1 is first , +1 is second
void addBranch(int way,int numberColumns,const double * oldLower, const double * newLower,
const double * oldUpper, const double * newUpper);
/// Apply bounds
void applyBounds(OsiSolverInterface & solver,int way) const;
/// Returns true if current solution satsifies one side of branch
bool feasibleOneWay(const OsiSolverInterface & solver) const;
/// Starts
inline const int * starts() const
{ return start_;}
/// Which variables
inline const int * which() const
{ return indices_;}
/// Bounds
inline const double * bounds() const
{ return bound_;}
//@}
///@name Constructors and destructors
//@{
/// Default Constructor
OsiSolverBranch();
/// Copy constructor
OsiSolverBranch(const OsiSolverBranch & rhs);
/// Assignment operator
OsiSolverBranch & operator=(const OsiSolverBranch & rhs);
/// Destructor
~OsiSolverBranch ();
//@}
private:
///@name Private member data
//@{
/// Start of lower first, upper first, lower second, upper second
int start_[5];
/// Column numbers (if >= numberColumns treat as rows)
int * indices_;
/// New bounds
double * bound_;
//@}
};
//#############################################################################
/** Solver Result Class
This provides information on a result as a set of tighter bounds on both ways
*/
class OsiSolverResult {
public:
///@name Add and Get methods
//@{
/// Create result
void createResult(const OsiSolverInterface & solver,const double * lowerBefore,
const double * upperBefore);
/// Restore result
void restoreResult(OsiSolverInterface & solver) const;
/// Get basis
inline const CoinWarmStartBasis & basis() const
{ return basis_;}
/// Objective value (as minimization)
inline double objectiveValue() const
{ return objectiveValue_;}
/// Primal solution
inline const double * primalSolution() const
{ return primalSolution_;}
/// Dual solution
inline const double * dualSolution() const
{ return dualSolution_;}
/// Extra fixed
inline const OsiSolverBranch & fixed() const
{ return fixed_;}
//@}
///@name Constructors and destructors
//@{
/// Default Constructor
OsiSolverResult();
/// Constructor from solver
OsiSolverResult(const OsiSolverInterface & solver,const double * lowerBefore,
const double * upperBefore);
/// Copy constructor
OsiSolverResult(const OsiSolverResult & rhs);
/// Assignment operator
OsiSolverResult & operator=(const OsiSolverResult & rhs);
/// Destructor
~OsiSolverResult ();
//@}
private:
///@name Private member data
//@{
/// Value of objective (if >= OsiSolverInterface::getInfinity() then infeasible)
double objectiveValue_;
/// Warm start information
CoinWarmStartBasis basis_;
/// Primal solution (numberColumns)
double * primalSolution_;
/// Dual solution (numberRows)
double * dualSolution_;
/// Which extra variables have been fixed (only way==-1 counts)
OsiSolverBranch fixed_;
//@}
};
#endif
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