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+/* $Id: ClpInterior.hpp 1665 2011-01-04 17:55:54Z lou $ */
+// Copyright (C) 2003, International Business Machines
+// Corporation and others. All Rights Reserved.
+// This code is licensed under the terms of the Eclipse Public License (EPL).
+/*
+ Authors
+
+ John Tomlin (pdco)
+ John Forrest (standard predictor-corrector)
+
+ Note JJF has added arrays - this takes more memory but makes
+ flow easier to understand and hopefully easier to extend
+
+ */
+#ifndef ClpInterior_H
+#define ClpInterior_H
+
+#include <iostream>
+#include <cfloat>
+#include "ClpModel.hpp"
+#include "ClpMatrixBase.hpp"
+#include "ClpSolve.hpp"
+#include "CoinDenseVector.hpp"
+class ClpLsqr;
+class ClpPdcoBase;
+/// ******** DATA to be moved into protected section of ClpInterior
+typedef struct {
+ double atolmin;
+ double r3norm;
+ double LSdamp;
+ double* deltay;
+} Info;
+/// ******** DATA to be moved into protected section of ClpInterior
+
+typedef struct {
+ double atolold;
+ double atolnew;
+ double r3ratio;
+ int istop;
+ int itncg;
+} Outfo;
+/// ******** DATA to be moved into protected section of ClpInterior
+
+typedef struct {
+ double gamma;
+ double delta;
+ int MaxIter;
+ double FeaTol;
+ double OptTol;
+ double StepTol;
+ double x0min;
+ double z0min;
+ double mu0;
+ int LSmethod; // 1=Cholesky 2=QR 3=LSQR
+ int LSproblem; // See below
+ int LSQRMaxIter;
+ double LSQRatol1; // Initial atol
+ double LSQRatol2; // Smallest atol (unless atol1 is smaller)
+ double LSQRconlim;
+ int wait;
+} Options;
+class Lsqr;
+class ClpCholeskyBase;
+// ***** END
+/** This solves LPs using interior point methods
+
+ It inherits from ClpModel and all its arrays are created at
+ algorithm time.
+
+*/
+
+class ClpInterior : public ClpModel {
+ friend void ClpInteriorUnitTest(const std::string & mpsDir,
+ const std::string & netlibDir);
+
+public:
+
+ /**@name Constructors and destructor and copy */
+ //@{
+ /// Default constructor
+ ClpInterior ( );
+
+ /// Copy constructor.
+ ClpInterior(const ClpInterior &);
+ /// Copy constructor from model.
+ ClpInterior(const ClpModel &);
+ /** Subproblem constructor. A subset of whole model is created from the
+ row and column lists given. The new order is given by list order and
+ duplicates are allowed. Name and integer information can be dropped
+ */
+ ClpInterior (const ClpModel * wholeModel,
+ int numberRows, const int * whichRows,
+ int numberColumns, const int * whichColumns,
+ bool dropNames = true, bool dropIntegers = true);
+ /// Assignment operator. This copies the data
+ ClpInterior & operator=(const ClpInterior & rhs);
+ /// Destructor
+ ~ClpInterior ( );
+ // Ones below are just ClpModel with some changes
+ /** Loads a problem (the constraints on the
+ rows are given by lower and upper bounds). If a pointer is 0 then the
+ following values are the default:
+ <ul>
+ <li> <code>colub</code>: all columns have upper bound infinity
+ <li> <code>collb</code>: all columns have lower bound 0
+ <li> <code>rowub</code>: all rows have upper bound infinity
+ <li> <code>rowlb</code>: all rows have lower bound -infinity
+ <li> <code>obj</code>: all variables have 0 objective coefficient
+ </ul>
+ */
+ void loadProblem ( const ClpMatrixBase& matrix,
+ const double* collb, const double* colub,
+ const double* obj,
+ const double* rowlb, const double* rowub,
+ const double * rowObjective = NULL);
+ void loadProblem ( const CoinPackedMatrix& matrix,
+ const double* collb, const double* colub,
+ const double* obj,
+ const double* rowlb, const double* rowub,
+ const double * rowObjective = NULL);
+
+ /** Just like the other loadProblem() method except that the matrix is
+ given in a standard column major ordered format (without gaps). */
+ void loadProblem ( const int numcols, const int numrows,
+ const CoinBigIndex* start, const int* index,
+ const double* value,
+ const double* collb, const double* colub,
+ const double* obj,
+ const double* rowlb, const double* rowub,
+ const double * rowObjective = NULL);
+ /// This one is for after presolve to save memory
+ void loadProblem ( const int numcols, const int numrows,
+ const CoinBigIndex* start, const int* index,
+ const double* value, const int * length,
+ const double* collb, const double* colub,
+ const double* obj,
+ const double* rowlb, const double* rowub,
+ const double * rowObjective = NULL);
+ /// Read an mps file from the given filename
+ int readMps(const char *filename,
+ bool keepNames = false,
+ bool ignoreErrors = false);
+ /** Borrow model. This is so we dont have to copy large amounts
+ of data around. It assumes a derived class wants to overwrite
+ an empty model with a real one - while it does an algorithm.
+ This is same as ClpModel one. */
+ void borrowModel(ClpModel & otherModel);
+ /** Return model - updates any scalars */
+ void returnModel(ClpModel & otherModel);
+ //@}
+
+ /**@name Functions most useful to user */
+ //@{
+ /** Pdco algorithm - see ClpPdco.hpp for method */
+ int pdco();
+ // ** Temporary version
+ int pdco( ClpPdcoBase * stuff, Options &options, Info &info, Outfo &outfo);
+ /// Primal-Dual Predictor-Corrector barrier
+ int primalDual();
+ //@}
+
+ /**@name most useful gets and sets */
+ //@{
+ /// If problem is primal feasible
+ inline bool primalFeasible() const {
+ return (sumPrimalInfeasibilities_ <= 1.0e-5);
+ }
+ /// If problem is dual feasible
+ inline bool dualFeasible() const {
+ return (sumDualInfeasibilities_ <= 1.0e-5);
+ }
+ /// Current (or last) algorithm
+ inline int algorithm() const {
+ return algorithm_;
+ }
+ /// Set algorithm
+ inline void setAlgorithm(int value) {
+ algorithm_ = value;
+ }
+ /// Sum of dual infeasibilities
+ inline CoinWorkDouble sumDualInfeasibilities() const {
+ return sumDualInfeasibilities_;
+ }
+ /// Sum of primal infeasibilities
+ inline CoinWorkDouble sumPrimalInfeasibilities() const {
+ return sumPrimalInfeasibilities_;
+ }
+ /// dualObjective.
+ inline CoinWorkDouble dualObjective() const {
+ return dualObjective_;
+ }
+ /// primalObjective.
+ inline CoinWorkDouble primalObjective() const {
+ return primalObjective_;
+ }
+ /// diagonalNorm
+ inline CoinWorkDouble diagonalNorm() const {
+ return diagonalNorm_;
+ }
+ /// linearPerturbation
+ inline CoinWorkDouble linearPerturbation() const {
+ return linearPerturbation_;
+ }
+ inline void setLinearPerturbation(CoinWorkDouble value) {
+ linearPerturbation_ = value;
+ }
+ /// projectionTolerance
+ inline CoinWorkDouble projectionTolerance() const {
+ return projectionTolerance_;
+ }
+ inline void setProjectionTolerance(CoinWorkDouble value) {
+ projectionTolerance_ = value;
+ }
+ /// diagonalPerturbation
+ inline CoinWorkDouble diagonalPerturbation() const {
+ return diagonalPerturbation_;
+ }
+ inline void setDiagonalPerturbation(CoinWorkDouble value) {
+ diagonalPerturbation_ = value;
+ }
+ /// gamma
+ inline CoinWorkDouble gamma() const {
+ return gamma_;
+ }
+ inline void setGamma(CoinWorkDouble value) {
+ gamma_ = value;
+ }
+ /// delta
+ inline CoinWorkDouble delta() const {
+ return delta_;
+ }
+ inline void setDelta(CoinWorkDouble value) {
+ delta_ = value;
+ }
+ /// ComplementarityGap
+ inline CoinWorkDouble complementarityGap() const {
+ return complementarityGap_;
+ }
+ //@}
+
+ /**@name most useful gets and sets */
+ //@{
+ /// Largest error on Ax-b
+ inline CoinWorkDouble largestPrimalError() const {
+ return largestPrimalError_;
+ }
+ /// Largest error on basic duals
+ inline CoinWorkDouble largestDualError() const {
+ return largestDualError_;
+ }
+ /// Maximum iterations
+ inline int maximumBarrierIterations() const {
+ return maximumBarrierIterations_;
+ }
+ inline void setMaximumBarrierIterations(int value) {
+ maximumBarrierIterations_ = value;
+ }
+ /// Set cholesky (and delete present one)
+ void setCholesky(ClpCholeskyBase * cholesky);
+ /// Return number fixed to see if worth presolving
+ int numberFixed() const;
+ /** fix variables interior says should be. If reallyFix false then just
+ set values to exact bounds */
+ void fixFixed(bool reallyFix = true);
+ /// Primal erturbation vector
+ inline CoinWorkDouble * primalR() const {
+ return primalR_;
+ }
+ /// Dual erturbation vector
+ inline CoinWorkDouble * dualR() const {
+ return dualR_;
+ }
+ //@}
+
+protected:
+ /**@name protected methods */
+ //@{
+ /// Does most of deletion
+ void gutsOfDelete();
+ /// Does most of copying
+ void gutsOfCopy(const ClpInterior & rhs);
+ /// Returns true if data looks okay, false if not
+ bool createWorkingData();
+ void deleteWorkingData();
+ /// Sanity check on input rim data
+ bool sanityCheck();
+ /// This does housekeeping
+ int housekeeping();
+ //@}
+public:
+ /**@name public methods */
+ //@{
+ /// Raw objective value (so always minimize)
+ inline CoinWorkDouble rawObjectiveValue() const {
+ return objectiveValue_;
+ }
+ /// Returns 1 if sequence indicates column
+ inline int isColumn(int sequence) const {
+ return sequence < numberColumns_ ? 1 : 0;
+ }
+ /// Returns sequence number within section
+ inline int sequenceWithin(int sequence) const {
+ return sequence < numberColumns_ ? sequence : sequence - numberColumns_;
+ }
+ /// Checks solution
+ void checkSolution();
+ /** Modifies djs to allow for quadratic.
+ returns quadratic offset */
+ CoinWorkDouble quadraticDjs(CoinWorkDouble * djRegion, const CoinWorkDouble * solution,
+ CoinWorkDouble scaleFactor);
+
+ /// To say a variable is fixed
+ inline void setFixed( int sequence) {
+ status_[sequence] = static_cast<unsigned char>(status_[sequence] | 1) ;
+ }
+ inline void clearFixed( int sequence) {
+ status_[sequence] = static_cast<unsigned char>(status_[sequence] & ~1) ;
+ }
+ inline bool fixed(int sequence) const {
+ return ((status_[sequence] & 1) != 0);
+ }
+
+ /// To flag a variable
+ inline void setFlagged( int sequence) {
+ status_[sequence] = static_cast<unsigned char>(status_[sequence] | 2) ;
+ }
+ inline void clearFlagged( int sequence) {
+ status_[sequence] = static_cast<unsigned char>(status_[sequence] & ~2) ;
+ }
+ inline bool flagged(int sequence) const {
+ return ((status_[sequence] & 2) != 0);
+ }
+
+ /// To say a variable is fixed OR free
+ inline void setFixedOrFree( int sequence) {
+ status_[sequence] = static_cast<unsigned char>(status_[sequence] | 4) ;
+ }
+ inline void clearFixedOrFree( int sequence) {
+ status_[sequence] = static_cast<unsigned char>(status_[sequence] & ~4) ;
+ }
+ inline bool fixedOrFree(int sequence) const {
+ return ((status_[sequence] & 4) != 0);
+ }
+
+ /// To say a variable has lower bound
+ inline void setLowerBound( int sequence) {
+ status_[sequence] = static_cast<unsigned char>(status_[sequence] | 8) ;
+ }
+ inline void clearLowerBound( int sequence) {
+ status_[sequence] = static_cast<unsigned char>(status_[sequence] & ~8) ;
+ }
+ inline bool lowerBound(int sequence) const {
+ return ((status_[sequence] & 8) != 0);
+ }
+
+ /// To say a variable has upper bound
+ inline void setUpperBound( int sequence) {
+ status_[sequence] = static_cast<unsigned char>(status_[sequence] | 16) ;
+ }
+ inline void clearUpperBound( int sequence) {
+ status_[sequence] = static_cast<unsigned char>(status_[sequence] & ~16) ;
+ }
+ inline bool upperBound(int sequence) const {
+ return ((status_[sequence] & 16) != 0);
+ }
+
+ /// To say a variable has fake lower bound
+ inline void setFakeLower( int sequence) {
+ status_[sequence] = static_cast<unsigned char>(status_[sequence] | 32) ;
+ }
+ inline void clearFakeLower( int sequence) {
+ status_[sequence] = static_cast<unsigned char>(status_[sequence] & ~32) ;
+ }
+ inline bool fakeLower(int sequence) const {
+ return ((status_[sequence] & 32) != 0);
+ }
+
+ /// To say a variable has fake upper bound
+ inline void setFakeUpper( int sequence) {
+ status_[sequence] = static_cast<unsigned char>(status_[sequence] | 64) ;
+ }
+ inline void clearFakeUpper( int sequence) {
+ status_[sequence] = static_cast<unsigned char>(status_[sequence] & ~64) ;
+ }
+ inline bool fakeUpper(int sequence) const {
+ return ((status_[sequence] & 64) != 0);
+ }
+ //@}
+
+////////////////// data //////////////////
+protected:
+
+ /**@name data. Many arrays have a row part and a column part.
+ There is a single array with both - columns then rows and
+ then normally two arrays pointing to rows and columns. The
+ single array is the owner of memory
+ */
+ //@{
+ /// Largest error on Ax-b
+ CoinWorkDouble largestPrimalError_;
+ /// Largest error on basic duals
+ CoinWorkDouble largestDualError_;
+ /// Sum of dual infeasibilities
+ CoinWorkDouble sumDualInfeasibilities_;
+ /// Sum of primal infeasibilities
+ CoinWorkDouble sumPrimalInfeasibilities_;
+ /// Worst complementarity
+ CoinWorkDouble worstComplementarity_;
+ ///
+public:
+ CoinWorkDouble xsize_;
+ CoinWorkDouble zsize_;
+protected:
+ /// Working copy of lower bounds (Owner of arrays below)
+ CoinWorkDouble * lower_;
+ /// Row lower bounds - working copy
+ CoinWorkDouble * rowLowerWork_;
+ /// Column lower bounds - working copy
+ CoinWorkDouble * columnLowerWork_;
+ /// Working copy of upper bounds (Owner of arrays below)
+ CoinWorkDouble * upper_;
+ /// Row upper bounds - working copy
+ CoinWorkDouble * rowUpperWork_;
+ /// Column upper bounds - working copy
+ CoinWorkDouble * columnUpperWork_;
+ /// Working copy of objective
+ CoinWorkDouble * cost_;
+public:
+ /// Rhs
+ CoinWorkDouble * rhs_;
+ CoinWorkDouble * x_;
+ CoinWorkDouble * y_;
+ CoinWorkDouble * dj_;
+protected:
+ /// Pointer to Lsqr object
+ ClpLsqr * lsqrObject_;
+ /// Pointer to stuff
+ ClpPdcoBase * pdcoStuff_;
+ /// Below here is standard barrier stuff
+ /// mu.
+ CoinWorkDouble mu_;
+ /// objectiveNorm.
+ CoinWorkDouble objectiveNorm_;
+ /// rhsNorm.
+ CoinWorkDouble rhsNorm_;
+ /// solutionNorm.
+ CoinWorkDouble solutionNorm_;
+ /// dualObjective.
+ CoinWorkDouble dualObjective_;
+ /// primalObjective.
+ CoinWorkDouble primalObjective_;
+ /// diagonalNorm.
+ CoinWorkDouble diagonalNorm_;
+ /// stepLength
+ CoinWorkDouble stepLength_;
+ /// linearPerturbation
+ CoinWorkDouble linearPerturbation_;
+ /// diagonalPerturbation
+ CoinWorkDouble diagonalPerturbation_;
+ // gamma from Saunders and Tomlin regularized
+ CoinWorkDouble gamma_;
+ // delta from Saunders and Tomlin regularized
+ CoinWorkDouble delta_;
+ /// targetGap
+ CoinWorkDouble targetGap_;
+ /// projectionTolerance
+ CoinWorkDouble projectionTolerance_;
+ /// maximumRHSError. maximum Ax
+ CoinWorkDouble maximumRHSError_;
+ /// maximumBoundInfeasibility.
+ CoinWorkDouble maximumBoundInfeasibility_;
+ /// maximumDualError.
+ CoinWorkDouble maximumDualError_;
+ /// diagonalScaleFactor.
+ CoinWorkDouble diagonalScaleFactor_;
+ /// scaleFactor. For scaling objective
+ CoinWorkDouble scaleFactor_;
+ /// actualPrimalStep
+ CoinWorkDouble actualPrimalStep_;
+ /// actualDualStep
+ CoinWorkDouble actualDualStep_;
+ /// smallestInfeasibility
+ CoinWorkDouble smallestInfeasibility_;
+ /// historyInfeasibility.
+#define LENGTH_HISTORY 5
+ CoinWorkDouble historyInfeasibility_[LENGTH_HISTORY];
+ /// complementarityGap.
+ CoinWorkDouble complementarityGap_;
+ /// baseObjectiveNorm
+ CoinWorkDouble baseObjectiveNorm_;
+ /// worstDirectionAccuracy
+ CoinWorkDouble worstDirectionAccuracy_;
+ /// maximumRHSChange
+ CoinWorkDouble maximumRHSChange_;
+ /// errorRegion. i.e. Ax
+ CoinWorkDouble * errorRegion_;
+ /// rhsFixRegion.
+ CoinWorkDouble * rhsFixRegion_;
+ /// upperSlack
+ CoinWorkDouble * upperSlack_;
+ /// lowerSlack
+ CoinWorkDouble * lowerSlack_;
+ /// diagonal
+ CoinWorkDouble * diagonal_;
+ /// solution
+ CoinWorkDouble * solution_;
+ /// work array
+ CoinWorkDouble * workArray_;
+ /// delta X
+ CoinWorkDouble * deltaX_;
+ /// delta Y
+ CoinWorkDouble * deltaY_;
+ /// deltaZ.
+ CoinWorkDouble * deltaZ_;
+ /// deltaW.
+ CoinWorkDouble * deltaW_;
+ /// deltaS.
+ CoinWorkDouble * deltaSU_;
+ CoinWorkDouble * deltaSL_;
+ /// Primal regularization array
+ CoinWorkDouble * primalR_;
+ /// Dual regularization array
+ CoinWorkDouble * dualR_;
+ /// rhs B
+ CoinWorkDouble * rhsB_;
+ /// rhsU.
+ CoinWorkDouble * rhsU_;
+ /// rhsL.
+ CoinWorkDouble * rhsL_;
+ /// rhsZ.
+ CoinWorkDouble * rhsZ_;
+ /// rhsW.
+ CoinWorkDouble * rhsW_;
+ /// rhs C
+ CoinWorkDouble * rhsC_;
+ /// zVec
+ CoinWorkDouble * zVec_;
+ /// wVec
+ CoinWorkDouble * wVec_;
+ /// cholesky.
+ ClpCholeskyBase * cholesky_;
+ /// numberComplementarityPairs i.e. ones with lower and/or upper bounds (not fixed)
+ int numberComplementarityPairs_;
+ /// numberComplementarityItems_ i.e. number of active bounds
+ int numberComplementarityItems_;
+ /// Maximum iterations
+ int maximumBarrierIterations_;
+ /// gonePrimalFeasible.
+ bool gonePrimalFeasible_;
+ /// goneDualFeasible.
+ bool goneDualFeasible_;
+ /// Which algorithm being used
+ int algorithm_;
+ //@}
+};
+//#############################################################################
+/** A function that tests the methods in the ClpInterior class. The
+ only reason for it not to be a member method is that this way it doesn't
+ have to be compiled into the library. And that's a gain, because the
+ library should be compiled with optimization on, but this method should be
+ compiled with debugging.
+
+ It also does some testing of ClpFactorization class
+ */
+void
+ClpInteriorUnitTest(const std::string & mpsDir,
+ const std::string & netlibDir);
+
+
+#endif