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/******************************************************************************
* Top contributors (to current version):
* Andrew Reynolds, Gereon Kremer
*
* This file is part of the cvc5 project.
*
* Copyright (c) 2009-2021 by the authors listed in the file AUTHORS
* in the top-level source directory and their institutional affiliations.
* All rights reserved. See the file COPYING in the top-level source
* directory for licensing information.
* ****************************************************************************
*
* Utilities for non-linear constraints.
*/
#ifndef CVC5__THEORY__ARITH__NL__EXT__CONSTRAINT_H
#define CVC5__THEORY__ARITH__NL__EXT__CONSTRAINT_H
#include <map>
#include <vector>
#include "expr/kind.h"
#include "expr/node.h"
namespace cvc5 {
namespace theory {
namespace arith {
namespace nl {
class MonomialDb;
/** constraint information
*
* The struct ( d_rhs, d_coeff, d_type ) represents that a literal is of the
* form (d_coeff * x) <d_type> d_rhs.
*/
struct ConstraintInfo
{
public:
/** The term on the right hand side of the constraint */
Node d_rhs;
/** The coefficent */
Node d_coeff;
/** The type (relation) of the constraint */
Kind d_type;
}; /* struct ConstraintInfo */
/** A database for constraints */
class ConstraintDb
{
public:
ConstraintDb(MonomialDb& mdb);
~ConstraintDb() {}
/** register constraint
*
* This ensures that atom is in the domain of the constraints maintained by
* this database.
*/
void registerConstraint(Node atom);
/** get constraints
*
* Returns a map m such that whenever
* m[lit][x] = ( r, coeff, k ), then
* ( lit <=> (coeff * x) <k> r )
*/
const std::map<Node, std::map<Node, ConstraintInfo> >& getConstraints();
/** Returns true if m is of maximal degree in atom
*
* For example, for atom x^2 + x*y + y >=0, the monomials x^2 and x*y
* are of maximal degree (2).
*/
bool isMaximal(Node atom, Node m) const;
private:
/** Reference to a monomial database */
MonomialDb& d_mdb;
/** List of all constraints */
std::vector<Node> d_constraints;
/** Is maximal degree */
std::map<Node, std::map<Node, bool> > d_c_info_maxm;
/** Constraint information */
std::map<Node, std::map<Node, ConstraintInfo> > d_c_info;
};
} // namespace nl
} // namespace arith
} // namespace theory
} // namespace cvc5
#endif /* CVC5__THEORY__ARITH__NL_SOLVER_H */
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