org.sat4j.pb

Class PseudoBitsAdderDecorator

java.lang.Object

org.sat4j.tools.SolverDecorator<IPBSolver>

org.sat4j.pb.PseudoBitsAdderDecorator

All Implemented Interfaces:

Serializable, IPBSolver, IProblem, ISolver, RandomAccessModel

public class PseudoBitsAdderDecorator
extends SolverDecorator<IPBSolver>
implements IPBSolver

A decorator that computes minimal pseudo boolean models.

Author:

daniel

See Also:

Serialized Form

Constructor Summary

Constructors

Constructor and Description
PseudoBitsAdderDecorator(IPBSolver solver)

Method Summary

Methods

Modifier and Type	Method and Description
IConstr	addAtLeast(IVecInt literals, IVec<BigInteger> coeffs, BigInteger degree) Create a pseudo-boolean constraint of the type "at least".
IConstr	addAtLeast(IVecInt literals, IVecInt coeffs, int degree) Create a pseudo-boolean constraint of the type "at least".
IConstr	addAtMost(IVecInt literals, IVec<BigInteger> coeffs, BigInteger degree) Create a pseudo boolean constraint of the type "at most".
IConstr	addAtMost(IVecInt literals, IVecInt coeffs, int degree) Create a pseudo boolean constraint of the type "at most".
IConstr	addExactly(IVecInt literals, IVec<BigInteger> coeffs, BigInteger weight) Create a pseudo-boolean constraint of the type "subset sum".
IConstr	addExactly(IVecInt literals, IVecInt coeffs, int weight) Create a pseudo-boolean constraint of the type "subset sum".
IConstr	addPseudoBoolean(IVecInt lits, IVec<BigInteger> coeffs, boolean moreThan, BigInteger d) Create a Pseudo-Boolean constraint of the type "at least n or at most n of those literals must be satisfied"
ObjectiveFunction	getObjectiveFunction() Retrieve the objective function from the solver.
boolean	isSatisfiable() Check the satisfiability of the set of constraints contained inside the solver.
boolean	isSatisfiable(IVecInt assumps) Check the satisfiability of the set of constraints contained inside the solver.
static void	main(String[] args)
void	setObjectiveFunction(ObjectiveFunction objf) Provide an objective function to the solver.

Methods inherited from class org.sat4j.tools.SolverDecorator

addAllClauses, addAtLeast, addAtMost, addBlockingClause, addClause, addExactly, clearDecorated, clearLearntClauses, decorated, expireTimeout, findModel, findModel, getLogPrefix, getSearchListener, getSolvingEngine, getStat, getTimeout, getTimeoutMs, isDBSimplificationAllowed, isSatisfiable, isSatisfiable, isSolverKeptHot, isVerbose, model, model, modelWithInternalVariables, nConstraints, newVar, newVar, nextFreeVarId, nVars, primeImplicant, primeImplicant, printInfos, printInfos, printStat, printStat, printStat, realNumberOfVariables, registerLiteral, removeConstr, removeSubsumedConstr, reset, setDBSimplificationAllowed, setExpectedNumberOfClauses, setKeepSolverHot, setLogPrefix, setSearchListener, setTimeout, setTimeoutMs, setTimeoutOnConflicts, setVerbose, toString, toString, unsatExplanation

Methods inherited from class java.lang.Object

clone, equals, finalize, getClass, hashCode, notify, notifyAll, wait, wait, wait

Methods inherited from interface org.sat4j.specs.ISolver

addAllClauses, addAtLeast, addAtMost, addBlockingClause, addClause, addExactly, clearLearntClauses, expireTimeout, getLogPrefix, getSearchListener, getSolvingEngine, getStat, getTimeout, getTimeoutMs, isDBSimplificationAllowed, isSolverKeptHot, isVerbose, modelWithInternalVariables, newVar, nextFreeVarId, printStat, printStat, printStat, realNumberOfVariables, registerLiteral, removeConstr, removeSubsumedConstr, reset, setDBSimplificationAllowed, setExpectedNumberOfClauses, setKeepSolverHot, setLogPrefix, setSearchListener, setTimeout, setTimeoutMs, setTimeoutOnConflicts, setVerbose, toString, unsatExplanation

Methods inherited from interface org.sat4j.specs.IProblem

findModel, findModel, isSatisfiable, isSatisfiable, model, nConstraints, newVar, nVars, primeImplicant, primeImplicant, printInfos, printInfos

Methods inherited from interface org.sat4j.specs.RandomAccessModel

model

Constructor Detail

PseudoBitsAdderDecorator

public PseudoBitsAdderDecorator(IPBSolver solver)

Method Detail

setObjectiveFunction

public void setObjectiveFunction(ObjectiveFunction objf)

Description copied from interface: IPBSolver

Provide an objective function to the solver.

Specified by:

setObjectiveFunction in interface IPBSolver

Parameters:

objf - the objective function

isSatisfiable

public boolean isSatisfiable()
                      throws TimeoutException

Description copied from interface: IProblem

Check the satisfiability of the set of constraints contained inside the solver.

Specified by:

isSatisfiable in interface IProblem

Overrides:

isSatisfiable in class SolverDecorator<IPBSolver>

Returns:

true if the set of constraints is satisfiable, else false.

Throws:

TimeoutException

isSatisfiable

public boolean isSatisfiable(IVecInt assumps)
                      throws TimeoutException

Description copied from interface: IProblem

Check the satisfiability of the set of constraints contained inside the solver.

Specified by:

isSatisfiable in interface IProblem

Overrides:

isSatisfiable in class SolverDecorator<IPBSolver>

Parameters:

assumps - a set of literals (represented by usual non null integers in Dimacs format).

Returns:

true if the set of constraints is satisfiable when literals are satisfied, else false.

Throws:

TimeoutException

main

public static void main(String[] args)

addPseudoBoolean

public IConstr addPseudoBoolean(IVecInt lits,
                       IVec<BigInteger> coeffs,
                       boolean moreThan,
                       BigInteger d)
                         throws ContradictionException

Description copied from interface: IPBSolver

Create a Pseudo-Boolean constraint of the type "at least n or at most n of those literals must be satisfied"

Specified by:

addPseudoBoolean in interface IPBSolver

Parameters:

lits - a set of literals. The vector can be reused since the solver is not supposed to keep a reference to that vector.

coeffs - the coefficients of the literals. The vector can be reused since the solver is not supposed to keep a reference to that vector.

moreThan - true if it is a constraint >= degree, false if it is a constraint <= degree

d - the degree of the cardinality constraint

Returns:

a reference to the constraint added in the solver, to use in removeConstr().

Throws:

ContradictionException - iff the vector of literals is empty or if the constraint is falsified after unit propagation

See Also:

ISolver.removeConstr(IConstr)

getObjectiveFunction

public ObjectiveFunction getObjectiveFunction()

Description copied from interface: IPBSolver

Retrieve the objective function from the solver.

Specified by:

getObjectiveFunction in interface IPBSolver

Returns:

the objective function

addAtMost

public IConstr addAtMost(IVecInt literals,
                IVecInt coeffs,
                int degree)
                  throws ContradictionException

Description copied from interface: IPBSolver

Create a pseudo boolean constraint of the type "at most".

Specified by:

addAtMost in interface IPBSolver

Parameters:

literals - a set of literals The vector can be reused since the solver is not supposed to keep a reference to that vector.

coeffs - the coefficients of the literals. The vector can be reused since the solver is not supposed to keep a reference to that vector.

degree - the degree of the pseudo-boolean constraint

Returns:

a reference to the constraint added in the solver, to use in removeConstr().

Throws:

ContradictionException - iff the constraint is found trivially unsat.

See Also:

ISolver.removeConstr(IConstr)

addAtMost

public IConstr addAtMost(IVecInt literals,
                IVec<BigInteger> coeffs,
                BigInteger degree)
                  throws ContradictionException

Description copied from interface: IPBSolver

Create a pseudo boolean constraint of the type "at most".

Specified by:

addAtMost in interface IPBSolver

Parameters:

literals - a set of literals The vector can be reused since the solver is not supposed to keep a reference to that vector.

coeffs - the coefficients of the literals. The vector can be reused since the solver is not supposed to keep a reference to that vector.

degree - the degree of the pseudo-boolean constraint

Returns:

a reference to the constraint added in the solver, to use in removeConstr().

Throws:

ContradictionException - iff the constraint is found trivially unsat.

See Also:

ISolver.removeConstr(IConstr)

addAtLeast

public IConstr addAtLeast(IVecInt literals,
                 IVecInt coeffs,
                 int degree)
                   throws ContradictionException

Description copied from interface: IPBSolver

Create a pseudo-boolean constraint of the type "at least".

Specified by:

addAtLeast in interface IPBSolver

Parameters:

literals - a set of literals. The vector can be reused since the solver is not supposed to keep a reference to that vector.

coeffs - the coefficients of the literals. The vector can be reused since the solver is not supposed to keep a reference to that vector.

degree - the degree of the pseudo-boolean constraint

Returns:

a reference to the constraint added in the solver, to use in removeConstr().

Throws:

ContradictionException - iff the constraint is found trivially unsat.

See Also:

ISolver.removeConstr(IConstr)

addAtLeast

public IConstr addAtLeast(IVecInt literals,
                 IVec<BigInteger> coeffs,
                 BigInteger degree)
                   throws ContradictionException

Description copied from interface: IPBSolver

Create a pseudo-boolean constraint of the type "at least".

Specified by:

addAtLeast in interface IPBSolver

Parameters:

literals - a set of literals. The vector can be reused since the solver is not supposed to keep a reference to that vector.

coeffs - the coefficients of the literals. The vector can be reused since the solver is not supposed to keep a reference to that vector.

degree - the degree of the pseudo-boolean constraint

Returns:

a reference to the constraint added in the solver, to use in removeConstr().

Throws:

ContradictionException - iff the constraint is found trivially unsat.

See Also:

ISolver.removeConstr(IConstr)

addExactly

public IConstr addExactly(IVecInt literals,
                 IVecInt coeffs,
                 int weight)
                   throws ContradictionException

Description copied from interface: IPBSolver

Create a pseudo-boolean constraint of the type "subset sum".

Specified by:

addExactly in interface IPBSolver

Parameters:

literals - a set of literals. The vector can be reused since the solver is not supposed to keep a reference to that vector.

coeffs - the coefficients of the literals. The vector can be reused since the solver is not supposed to keep a reference to that vector.

weight - the number of literals that must be satisfied

Returns:

a reference to the constraint added to the solver. It might return an object representing a group of constraints.

Throws:

ContradictionException - iff the constraint is trivially unsatisfiable.

addExactly

public IConstr addExactly(IVecInt literals,
                 IVec<BigInteger> coeffs,
                 BigInteger weight)
                   throws ContradictionException

Description copied from interface: IPBSolver

Create a pseudo-boolean constraint of the type "subset sum".

Specified by:

addExactly in interface IPBSolver

Parameters:

literals - a set of literals. The vector can be reused since the solver is not supposed to keep a reference to that vector.

coeffs - the coefficients of the literals. The vector can be reused since the solver is not supposed to keep a reference to that vector.

weight - the number of literals that must be satisfied

Returns:

a reference to the constraint added to the solver. It might return an object representing a group of constraints.

Throws:

ContradictionException - iff the constraint is trivially unsatisfiable.