/usr/include/coin/OsiRowCut.hpp is in coinor-libosi-dev 0.107.9+repack1-1.
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 OsiRowCut_H
#define OsiRowCut_H
#include "CoinPackedVector.hpp"
#include "OsiCollections.hpp"
#include "OsiCut.hpp"
//#define OSI_INLINE_ROWCUT_METHODS
#ifdef OSI_INLINE_ROWCUT_METHODS
#define OsiRowCut_inline inline
#else
#define OsiRowCut_inline
#endif
/** Row Cut Class
A row cut has:
<ul>
<li>a lower bound<br>
<li>an upper bound<br>
<li>a vector of row elements
</ul>
*/
class OsiRowCut : public OsiCut {
friend void OsiRowCutUnitTest(const OsiSolverInterface * baseSiP,
const std::string & mpsDir);
public:
/**@name Row bounds */
//@{
/// Get lower bound
OsiRowCut_inline double lb() const;
/// Set lower bound
OsiRowCut_inline void setLb(double lb);
/// Get upper bound
OsiRowCut_inline double ub() const;
/// Set upper bound
OsiRowCut_inline void setUb(double ub);
//@}
/**@name Row rhs, sense, range */
//@{
/// Get sense ('E', 'G', 'L', 'N', 'R')
char sense() const;
/// Get right-hand side
double rhs() const;
/// Get range (ub - lb for 'R' rows, 0 otherwise)
double range() const;
//@}
//-------------------------------------------------------------------
/**@name Row elements */
//@{
/// Set row elements
OsiRowCut_inline void setRow(
int size,
const int * colIndices,
const double * elements,
bool testForDuplicateIndex = COIN_DEFAULT_VALUE_FOR_DUPLICATE);
/// Set row elements from a packed vector
OsiRowCut_inline void setRow( const CoinPackedVector & v );
/// Get row elements
OsiRowCut_inline const CoinPackedVector & row() const;
/// Get row elements for changing
OsiRowCut_inline CoinPackedVector & mutableRow() ;
//@}
/**@name Comparison operators */
//@{
#if __GNUC__ != 2
using OsiCut::operator== ;
#endif
/** equal - true if lower bound, upper bound, row elements,
and OsiCut are equal.
*/
OsiRowCut_inline bool operator==(const OsiRowCut& rhs) const;
#if __GNUC__ != 2
using OsiCut::operator!= ;
#endif
/// not equal
OsiRowCut_inline bool operator!=(const OsiRowCut& rhs) const;
//@}
//----------------------------------------------------------------
/**@name Sanity checks on cut */
//@{
/** Returns true if the cut is consistent.
This checks to ensure that:
<ul>
<li>The row element vector does not have duplicate indices
<li>The row element vector indices are >= 0
</ul>
*/
OsiRowCut_inline bool consistent() const;
/** Returns true if cut is consistent with respect to the solver
interface's model.
This checks to ensure that
<ul>
<li>The row element vector indices are < the number of columns
in the model
</ul>
*/
OsiRowCut_inline bool consistent(const OsiSolverInterface& im) const;
/** Returns true if the row cut itself is infeasible and cannot be satisfied.
This checks whether
<ul>
<li>the lower bound is strictly greater than the
upper bound.
</ul>
*/
OsiRowCut_inline bool infeasible(const OsiSolverInterface &im) const;
/** Returns infeasibility of the cut with respect to solution
passed in i.e. is positive if cuts off that solution.
solution is getNumCols() long..
*/
virtual double violated(const double * solution) const;
//@}
/**@name Arithmetic operators. Apply CoinPackedVector methods to the vector */
//@{
/// add <code>value</code> to every vector entry
void operator+=(double value)
{ row_ += value; }
/// subtract <code>value</code> from every vector entry
void operator-=(double value)
{ row_ -= value; }
/// multiply every vector entry by <code>value</code>
void operator*=(double value)
{ row_ *= value; }
/// divide every vector entry by <code>value</code>
void operator/=(double value)
{ row_ /= value; }
//@}
/// Allow access row sorting function
void sortIncrIndex()
{row_.sortIncrIndex();}
/**@name Constructors and destructors */
//@{
/// Assignment operator
OsiRowCut & operator=( const OsiRowCut& rhs);
/// Copy constructor
OsiRowCut ( const OsiRowCut &);
/// Clone
virtual OsiRowCut * clone() const;
/// Default Constructor
OsiRowCut ();
/** \brief Ownership Constructor
This constructor assumes ownership of the vectors passed as parameters
for indices and elements. \p colIndices and \p elements will be NULL
on return.
*/
OsiRowCut(double cutlb, double cutub,
int capacity, int size,
int *&colIndices, double *&elements);
/// Destructor
virtual ~OsiRowCut ();
//@}
/**@name Debug stuff */
//@{
/// Print cuts in collection
virtual void print() const ;
//@}
private:
/**@name Private member data */
//@{
/// Row elements
CoinPackedVector row_;
/// Row lower bound
double lb_;
/// Row upper bound
double ub_;
//@}
};
#ifdef OSI_INLINE_ROWCUT_METHODS
//-------------------------------------------------------------------
// Set/Get lower & upper bounds
//-------------------------------------------------------------------
double OsiRowCut::lb() const { return lb_; }
void OsiRowCut::setLb(double lb) { lb_ = lb; }
double OsiRowCut::ub() const { return ub_; }
void OsiRowCut::setUb(double ub) { ub_ = ub; }
//-------------------------------------------------------------------
// Set row elements
//-------------------------------------------------------------------
void OsiRowCut::setRow(int size,
const int * colIndices, const double * elements)
{
row_.setVector(size,colIndices,elements);
}
void OsiRowCut::setRow( const CoinPackedVector & v )
{
row_ = v;
}
//-------------------------------------------------------------------
// Get the row
//-------------------------------------------------------------------
const CoinPackedVector & OsiRowCut::row() const
{
return row_;
}
//-------------------------------------------------------------------
// Get the row so we can change
//-------------------------------------------------------------------
CoinPackedVector & OsiRowCut::mutableRow()
{
return row_;
}
//----------------------------------------------------------------
// == operator
//-------------------------------------------------------------------
bool
OsiRowCut::operator==(const OsiRowCut& rhs) const
{
if ( this->OsiCut::operator!=(rhs) ) return false;
if ( row() != rhs.row() ) return false;
if ( lb() != rhs.lb() ) return false;
if ( ub() != rhs.ub() ) return false;
return true;
}
bool
OsiRowCut::operator!=(const OsiRowCut& rhs) const
{
return !( (*this)==rhs );
}
//----------------------------------------------------------------
// consistent & infeasible
//-------------------------------------------------------------------
bool OsiRowCut::consistent() const
{
const CoinPackedVector & r=row();
r.duplicateIndex("consistent", "OsiRowCut");
if ( r.getMinIndex() < 0 ) return false;
return true;
}
bool OsiRowCut::consistent(const OsiSolverInterface& im) const
{
const CoinPackedVector & r=row();
if ( r.getMaxIndex() >= im.getNumCols() ) return false;
return true;
}
bool OsiRowCut::infeasible(const OsiSolverInterface &im) const
{
if ( lb() > ub() ) return true;
return false;
}
#endif
/** Row Cut Class which refers back to row which created it.
It may be useful to strengthen a row rather than add a cut. To do this
we need to know which row is strengthened. This trivial extension
to OsiRowCut does that.
*/
class OsiRowCut2 : public OsiRowCut {
public:
/**@name Which row */
//@{
/// Get row
inline int whichRow() const
{ return whichRow_;}
/// Set row
inline void setWhichRow(int row)
{ whichRow_=row;}
//@}
/**@name Constructors and destructors */
//@{
/// Assignment operator
OsiRowCut2 & operator=( const OsiRowCut2& rhs);
/// Copy constructor
OsiRowCut2 ( const OsiRowCut2 &);
/// Clone
virtual OsiRowCut * clone() const;
/// Default Constructor
OsiRowCut2 (int row=-1);
/// Destructor
virtual ~OsiRowCut2 ();
//@}
private:
/**@name Private member data */
//@{
/// Which row
int whichRow_;
//@}
};
#endif
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