/usr/include/coin/CglLandP.hpp is in coinor-libcgl-dev 0.58.4-2ubuntu2.
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// Author: Pierre Bonami
// Tepper School of Business
// Carnegie Mellon University, Pittsburgh, PA 15213
// Date: 07/21/05
//
// $Id: CglLandP.hpp 1123 2013-04-06 20:47:24Z stefan $
//
// This code is licensed under the terms of the Eclipse Public License (EPL).
//---------------------------------------------------------------------------
#ifndef CglLandP_H
#define CglLandP_H
#include "CglLandPValidator.hpp"
#include "CglCutGenerator.hpp"
#include "CglParam.hpp"
#include <iostream>
class CoinWarmStartBasis;
/** Performs one round of Lift & Project using CglLandPSimplex
to build cuts
*/
namespace LAP
{
enum LapMessagesTypes
{
BEGIN_ROUND,
END_ROUND,
DURING_SEP,
CUT_REJECTED,
CUT_FAILED,
CUT_GAP,
LAP_CUT_FAILED_DO_MIG,
LAP_MESSAGES_DUMMY_END
};
/** Output messages for Cgl */
class LapMessages : public CoinMessages
{
public:
/** Constructor */
LapMessages( );
/** destructor.*/
virtual ~LapMessages() {}
};
class CglLandPSimplex;
}
class CglLandP : public CglCutGenerator
{
friend void CglLandPUnitTest(OsiSolverInterface *si, const std::string & mpsDir);
friend class LAP::CglLandPSimplex;
friend class CftCglp;
public:
enum SelectionRules
{
mostNegativeRc /** select most negative reduced cost */,
bestPivot /** select best possible pivot.*/,
initialReducedCosts/** Select only those rows which had initialy a 0 reduced cost.*/
};
enum ExtraCutsMode
{
none/** Generate no extra cuts.*/,
AtOptimalBasis /** Generate cuts from the optimal basis.*/,
WhenEnteringBasis /** Generate cuts as soon as a structural enters the basis.*/,
AllViolatedMigs/** Generate all violated Mixed integer Gomory cuts in the course of the optimization.*/
};
/** Space where cuts are optimized.*/
enum SeparationSpaces
{
Fractional=0 /** True fractional space.*/,
Fractional_rc/** Use fractional space only for computing reduced costs.*/,
Full /** Work in full space.*/
};
/** Normalization */
enum Normalization
{
Unweighted = 0,
WeightRHS,
WeightLHS,
WeightBoth
};
enum LHSnorm
{
L1 = 0,
L2,
SupportSize,
Infinity,
Average,
Uniform
};
/** RHS weight in normalization.*/
enum RhsWeightType
{
Fixed = 0 /** 2*initial number of constraints. */,
Dynamic /** 2 * current number of constraints. */
};
/** Class storing parameters.
\remark I take all parameters from Ionut's code */
class Parameters : public CglParam
{
public:
/** Default constructor (with default values)*/
Parameters();
/** Copy constructor */
Parameters(const Parameters &other);
/** Assignment opertator */
Parameters & operator=(const Parameters &other);
/// @name integer parameters
///@{
/** Max number of pivots before we generate the cut
\default 20 */
int pivotLimit;
/** Max number of pivots at regular nodes. Put a value if you want it lower than the global pivot limit.
\default 100.*/
int pivotLimitInTree;
/** Maximum number of cuts generated at a given round*/
int maxCutPerRound;
/** Maximum number of failed pivots before aborting */
int failedPivotLimit;
/** maximum number of consecutive degenerate pivots
\default 0 */
int degeneratePivotLimit;
/** Maximum number of extra rows to generate per round.*/
int extraCutsLimit;
///@}
/// @name double parameters
///@{
/** Tolerance for small pivots values (should be the same as the solver */
double pivotTol;
/** A variable have to be at least away from integrity to be generated */
double away;
/** Total time limit for cut generation.*/
double timeLimit;
/** Time limit for generating a single cut.*/
double singleCutTimeLimit;
/** Weight to put in RHS of normalization if static.*/
double rhsWeight;
///@}
/// @name Flags
///@{
/** Do we use tableau row or the disjunction (I don't really get that there should be a way to always use the tableau)*/
bool useTableauRow;
/** Do we apply Egon Balas's Heuristic for modularized cuts */
bool modularize;
/** Do we strengthen the final cut (always do if modularize is 1) */
bool strengthen;
/** Wether to limit or not the number of mistaken RC (when perturbation is applied).*/
bool countMistakenRc;
/** Work in the reduced space (only non-structurals enter the basis) */
SeparationSpaces sepSpace;
/** Apply perturbation procedure. */
bool perturb;
/** How to weight normalization.*/
Normalization normalization;
/** How to weight RHS of normalization.*/
RhsWeightType rhsWeightType;
/** How to weight LHS of normalization.*/
LHSnorm lhs_norm;
/** Generate extra constraints from optimal lift-and-project basis.*/
ExtraCutsMode generateExtraCuts;
/** Which rule to apply for choosing entering and leaving variables.*/
SelectionRules pivotSelection;
///@}
};
/** Constructor for the class*/
CglLandP(const CglLandP::Parameters ¶ms = CglLandP::Parameters(),
const LAP::Validator &validator = LAP::Validator());
/** Destructor */
~CglLandP();
/** Copy constructor */
CglLandP(const CglLandP &source);
/** Assignment operator */
CglLandP& operator=(const CglLandP &rhs);
/** Clone function */
CglCutGenerator * clone() const;
/**@name Generate Cuts */
//@{
virtual void generateCuts(const OsiSolverInterface & si, OsiCuts & cs,
const CglTreeInfo info = CglTreeInfo());
//@}
virtual bool needsOptimalBasis() const
{
return true;
}
LAP::Validator & validator()
{
return validator_;
}
/** set level of log for cut generation procedure :
<ol start=0 >
<li> for none </li>
<li> for log at begin and end of procedure + at some time interval </li>
<li> for log at every cut generated </li>
</ol>
*/
void setLogLevel(int level)
{
handler_->setLogLevel(level);
}
class NoBasisError : public CoinError
{
public:
NoBasisError(): CoinError("No basis available","LandP","") {}
};
class SimplexInterfaceError : public CoinError
{
public:
SimplexInterfaceError(): CoinError("Invalid conversion to simplex interface", "CglLandP","CglLandP") {}
};
Parameters & parameter()
{
return params_;
}
private:
void scanExtraCuts(OsiCuts& cs, const double * colsol) const;
Parameters params_;
/** Some informations that will be changed by the pivots and that we want to keep*/
struct CachedData
{
CachedData(int nBasics = 0 , int nNonBasics = 0);
CachedData(const CachedData & source);
CachedData& operator=(const CachedData &source);
/** Get the data from a problem */
void getData(const OsiSolverInterface &si);
void clean();
~CachedData();
/** Indices of basic variables in starting basis (ordered if variable basics_[i] s basic in row i)*/
int * basics_;
/** Indices of non-basic variables */
int *nonBasics_;
/** number of basics variables */
int nBasics_;
/** number of non-basics */
int nNonBasics_;
/** Optimal basis */
CoinWarmStartBasis * basis_;
/** Stores the value of the solution to cut */
double * colsol_;
/** Stores the values of the slacks */
double * slacks_;
/** Stores wheter slacks are integer constrained */
bool * integers_;
/** Solver before pivots */
OsiSolverInterface * solver_;
};
/** Retrieve sorted integer variables which are fractional in the solution.
Return the number of variables.*/
int getSortedFractionals(CoinPackedVector &xFrac,
const CachedData & data,
const CglLandP::Parameters& params) const;
/** Retrieve sorted integer variables which are fractional in the solution.
Return the number of variables.*/
void getSortedFractionalIndices(std::vector<int>& indices,
const CachedData &data,
const CglLandP::Parameters & params) const;
/** Cached informations about problem.*/
CachedData cached_;
/** message handler */
CoinMessageHandler * handler_;
/** messages */
CoinMessages messages_;
/** cut validator */
LAP::Validator validator_;
/** number of rows in the original problems. */
int numrows_;
/** number of columns in the original problems. */
int numcols_;
/** Original lower bounds for the problem (for lifting cuts).*/
double * originalColLower_;
/** Original upper bounds for the problem (for lifting cuts).*/
double * originalColUpper_;
/** Flag to say if cuts can be lifted.*/
bool canLift_;
/** Store some extra cut which could be cheaply generated but do not cut current incumbent.*/
OsiCuts extraCuts_;
};
void CglLandPUnitTest(OsiSolverInterface *si, const std::string & mpsDir);
#endif
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