// Copyright (C) 2007, International Business Machines
// Corporation and others.  All Rights Reserved.
#ifndef ClpConstraintAmpl_H
#define ClpConstraintAmpl_H

#include "ClpConstraint.hpp"

//#############################################################################

/** Ampl Constraint Class

*/

class ClpConstraintAmpl : public ClpConstraint {
  
public:
  
  ///@name Stuff
  //@{
  
  
  /** Fills gradient.  If Ampl then solution may be NULL,
      also returns true value of function and offset so we can use x not deltaX in constraint
      If refresh is false then uses last solution
      Uses model for scaling
      Returns non-zero if gradient udefined at current solution
  */
  virtual int gradient(const ClpSimplex * model,
		       const double * solution,
		       double * gradient,
		       double & functionValue ,
		       double & offset,
		       bool useScaling=false,
		       bool refresh=true) const ;
  /// Resize constraint
  virtual void resize(int newNumberColumns) ; 
  /// Delete columns in  constraint
  virtual void deleteSome(int numberToDelete, const int * which) ; 
  /// Scale constraint 
  virtual void reallyScale(const double * columnScale) ;
  /** Given a zeroed array sets nonampl columns to 1.
      Returns number of nonampl columns
   */
  virtual int markNonlinear(char * which) const ;
  /** Given a zeroed array sets possible nonzero coefficients to 1.
      Returns number of nonzeros
   */
  virtual int markNonzero(char * which) const;
  /// Say we have new primal solution - so may need to recompute
  virtual void newXValues() ;
  //@}
  
  
  ///@name Constructors and destructors
  //@{
  /// Default Constructor
  ClpConstraintAmpl(); 
  
  /// Constructor from ampl
  ClpConstraintAmpl(int row, void * amplInfo);
  
  /** Copy constructor .
  */
  ClpConstraintAmpl(const ClpConstraintAmpl & rhs);

  /// Assignment operator 
  ClpConstraintAmpl & operator=(const ClpConstraintAmpl& rhs);
  
  /// Destructor 
  virtual ~ClpConstraintAmpl ();

  /// Clone
  virtual ClpConstraint * clone() const;
  //@}
  ///@name Gets and sets
  //@{
  /// Number of coefficients
  virtual int numberCoefficients() const;
  /// Columns
  inline const int * column() const
  { return column_;}
  /// Coefficients
  inline const double * coefficient() const
  { return coefficient_;}
  //@}

  //---------------------------------------------------------------------------
  
private:
  ///@name Private member data 
  /// Ampl info
  void * amplInfo_;
  /// Column
  int * column_;
  /// Coefficients
  double * coefficient_;
  /// Number of coefficients in gradient
  int numberCoefficients_;
  //@}
};

#endif