OOPSE/libmdtools/LinearCons.hpp

#ifndef _LINEARCONS_H_
#define _LINEARCONS_H_

#include "Constraint.hpp"

/**
 * Linear Constraint for nonlinear optimization problem
 * boundType is used to  identify whether it is linear equality constraint or linear inequality
 * constraint
 */ 
class LinearCons : public ConstraintBase{

  public:

    LinearCons(vector<int>& theIndex, vector<double>& , double b, BoundType bType);
    LinearCons(int dim, vector<int>& theIndex, vector<double>& , double b, BoundType bType);
    virtual double calcResidual(vector<double>& x);
    virtual vector<double> calcConsGrad(vector<double>& x);
    virtual SymMatrix calcConsHessian(vector<double>& x);

  protected:
    
    vector<int> index;
    vector<double> coeff;
};
#endif  
Revision:	1011
Committed:	Tue Feb 3 20:47:10 2004 UTC (21 years, 9 months ago) by tim
File size:	756 byte(s)
Log Message:	* empty log message *
#	User	Rev	Content
1	tim	1011	#ifndef _LINEARCONS_H_
2			#define _LINEARCONS_H_
3
4			#include "Constraint.hpp"
5
6			/**
7			* Linear Constraint for nonlinear optimization problem
8			* boundType is used to identify whether it is linear equality constraint or linear inequality
9			* constraint
10			*/
11			class LinearCons : public ConstraintBase{
12
13			public:
14
15			LinearCons(vector<int>& theIndex, vector<double>& , double b, BoundType bType);
16			LinearCons(int dim, vector<int>& theIndex, vector<double>& , double b, BoundType bType);
17			virtual double calcResidual(vector<double>& x);
18			virtual vector<double> calcConsGrad(vector<double>& x);
19			virtual SymMatrix calcConsHessian(vector<double>& x);
20
21			protected:
22
23			vector<int> index;
24			vector<double> coeff;
25			};
26			#endif