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/*
 * This file is part of choco-solver, http://choco-solver.org/
 *
 * Copyright (c) 2022, IMT Atlantique. All rights reserved.
 *
 * Licensed under the BSD 4-clause license.
 *
 * See LICENSE file in the project root for full license information.
 */
package org.chocosolver.solver.constraints;

import org.chocosolver.solver.Model;
import org.chocosolver.solver.constraints.reification.Opposite;
import org.chocosolver.solver.constraints.reification.PropImplied;
import org.chocosolver.solver.constraints.reification.PropImplies;
import org.chocosolver.solver.exception.SolverException;
import org.chocosolver.solver.variables.BoolVar;
import org.chocosolver.util.ESat;

import java.util.*;

/**
 * A Constraint is basically a set of Propagator.
 * It can either be posted or reified
 *
 * @author Jean-Guillaume Fages
 * @author Xavier Lorca
 * @author Charles Prud'homme
 * @version major revision 13/01/2014
 * @see org.chocosolver.solver.variables.Variable
 * @see Propagator
 * @see org.chocosolver.solver.propagation.PropagationEngine
 * @since 0.01
 */
public class Constraint {

    //***********************************************************************************
    // VARIABLES
    //***********************************************************************************

    /**
     * Status of this constraint wrt the model
     */
    public enum Status {
        /**
         * Indicate that this constraint is posted in the model
         */
        POSTED,
        /**
         * Indicate that this constraint is reified in the model
         */
        REIFIED,
        /**
         * Indicate that this constraint is not posted or reified yet
         */
        FREE
    }

    /**
     * Propagators of the constraint (they will filter domains and eventually check solutions)
     */
    final protected Propagator[] propagators;

    /**
     * BoolVar that reifies this constraint, unique.
     */
    protected BoolVar boolReif;

    /**
     * Opposite constraint of this constraint, unique.
     */
    private Constraint opposite;

    /**
     * Status of this constraint in the model
     */
    private Status mStatus;

    /**
     * Index of this constraint in the model data structure
     */
    private int cidx;

    /**
     * Name of this constraint
     */
    private String name;

    /**
     * If a constraint is enabled to the propagation engine.
     */
    private boolean enabled = true;

    //***********************************************************************************
    // CONSTRUCTOR
    //***********************************************************************************

    /**
     * Make a new constraint defined as a set of given propagators
     *
     * @param name        name of the constraint
     * @param propagators set of propagators defining the constraint
     */
    public Constraint(String name, Propagator... propagators) {
        if (propagators == null || propagators.length == 0) {
            throw new UnsupportedOperationException("cannot create a constraint without propagators ");
        }
        this.name = name;
        this.propagators = propagators;
        this.mStatus = Status.FREE;
        this.cidx = -1;
        for (Propagator propagator : propagators) {
            propagator.defineIn(this);
        }
        Model model = propagators[0].getModel();
        if (model.getSettings().checkDeclaredConstraints()) {
            @SuppressWarnings("unchecked")
            Set instances = (Set) model.getHook("cinstances");
            if (instances == null) {
                instances = new HashSet<>();
                model.addHook("cinstances", instances);
            }
            instances.add(this);
        }
    }

    //***********************************************************************************
    // METHODS
    //***********************************************************************************

    /**
     * Return an array which contains the propagators declared in this.
     *
     * @return an array of {@link Propagator}.
     */
    @SuppressWarnings("rawtypes")
    public Propagator[] getPropagators() {
        return propagators;
    }

    public Propagator getPropagator(int i) {
        return propagators[i];
    }

    /**
     * Test if this Constraint object is satisfied,
     * regarding its Propagators and its Variable current domains.
     * 

* This method is called on each solution as a checker when assertions are enabled (-ea in VM parameters) * It is also called for constraint reification (to state whether or not a constraint is satisfied) *

* The method calls entailment checks of this propagators * * @return ESat.FALSE if the constraint cannot be satisfied (from domain consideration), * ESat.TRUE if whatever future decisions are, the constraint will be satisfied for sure (without propagating domain modifications) * ESat.UNDIFINED otherwise (more decisions/filtering must be made before concluding about constraint satisfaction) */ public ESat isSatisfied() { int sat = 0; for (Propagator propagator : propagators) { ESat entail = propagator.isEntailed(); if (entail.equals(ESat.FALSE)) { return entail; } else if (entail.equals(ESat.TRUE)) { sat++; } } if (sat == propagators.length) { return ESat.TRUE; } else {// No need to check if FALSE, must have been returned before return ESat.UNDEFINED; } } public String toString() { return name + " (" + Arrays.toString(propagators) + ")"; } /** * @return true iff this constraint has been reified */ public final boolean isReified() { return boolReif != null; } /** * Reifies the constraint with a boolean variable * If the reified boolean variable already exists, an additional (equality) constraint is automatically posted. * * @param bool the variable to reify with */ public void reifyWith(BoolVar bool) { Model s = propagators[0].getModel(); getOpposite(); if (boolReif == null) { boolReif = bool; assert opposite.boolReif == null; opposite.boolReif = this.boolReif.not(); if (boolReif.isInstantiatedTo(1)) { this.post(); } else if (boolReif.isInstantiatedTo(0)) { this.opposite.post(); } else { new ReificationConstraint(boolReif, this, opposite).post(); } } else if (bool != boolReif) { s.arithm(bool, "=", boolReif).post(); } } /** * Get/make the boolean variable indicating whether the constraint is satisfied or not * This should not be posted. * * @return the boolean reifying the constraint */ public final BoolVar reify() { if (boolReif == null) { Model model = propagators[0].getModel(); reifyWith(model.boolVar(model.generateName("REIF_"))); } return boolReif; } /** * Encapsulate this constraint in an implication relationship: *

* c ⇒ r *

* where 'c' is this constraint and 'r' is a boolean variable. *

* After a call to this method, this constraint 'c' can be posted, * but a better option would be to set 'r' to true. * 'c' can also be reified, but a better option would be to link the reifying boolean to 'r' directly. *

* * @param r a boolean variable */ public final void implies(BoolVar r) { new Constraint(ConstraintsName.IMPLYCONSTRAINT, new PropImplies(this, r)).post(); } /** * Encapsulate this constraint in an implication relationship: *

* r ⇒ c *

* where 'r' is a boolean variable and 'c' is this constraint. *
*

* After a call to this method, this constraint 'c' can be posted, * but then 'r' can take any value. * 'c' can also be reified, but a better option would be to link the reifying boolean to 'r' directly. *

* * @param r a boolean variable */ public final void impliedBy(BoolVar r) { if (r.isInstantiatedTo(1)) { this.post(); } else { new Constraint(ConstraintsName.IMPLIEDCONSTRAINT, new PropImplied(r, this)).post(); } } /** * Posts the constraint to its model so that the constraint must be satisfied. * This should not be reified. */ public final void post() { propagators[0].getModel().post(this); } /** * When a constraint has been declared but neither posted or reified, * a call to {@code ignore()} ensures this constraint will be ignored * when declared constraints are checked. */ public final void ignore() { assert mStatus == Status.FREE : "Cannot ignore a posted or reified constraint"; Model model = propagators[0].getModel(); if (model.getSettings().checkDeclaredConstraints()) { @SuppressWarnings("unchecked") Set instances = (Set) model.getHook("cinstances"); if (instances == null) { instances = new HashSet<>(); model.addHook("cinstances", instances); } instances.remove(this); } } /** * For internal usage only, declare the status of this constraint in the model * and, if need be, its position in the constraint list. * * @param aStatus status of this constraint in the model * @param idx position of this constraint in the constraint list. * @throws SolverException if the constraint a incoherent status is declared */ public final void declareAs(Status aStatus, int idx) throws SolverException { checkNewStatus(aStatus); mStatus = aStatus; cidx = idx; Model model = propagators[0].getModel(); if (model.getSettings().checkDeclaredConstraints()) { @SuppressWarnings("unchecked") Set instances = (Set) model.getHook("cinstances"); if (instances == null) { instances = new HashSet<>(); model.addHook("cinstances", instances); } if (mStatus != Status.FREE) { instances.remove(this); } else { instances.add(this); } } } /** * Check if the new status is not in conflict with the current one * * @param aStatus new status of the constraint * @throws SolverException if the constraint a incoherent status is declared */ public final void checkNewStatus(Status aStatus) throws SolverException { switch (mStatus) { default: case FREE: if (aStatus == Status.FREE) { throw new SolverException("Try to remove a constraint which is not known from the model."); } break; case POSTED: switch (aStatus) { case POSTED: throw new SolverException("Try to post a constraint which is already posted in the model."); case REIFIED: throw new SolverException("Try to post a constraint which is already reified in the model."); default: break; } break; case REIFIED: switch (aStatus) { case POSTED: throw new SolverException("Try to reify a constraint which is already posted in the model."); case REIFIED: throw new SolverException("Try to reify a constraint which is already reified in the model."); default: break; } break; } } /** * @return the {@link Status} of this constraint * @implNote The constraint's status takes into account the state of the opposite constraint if it exists */ public final Status getStatus() { return (mStatus == Status.FREE && opposite != null) ? opposite.mStatus : mStatus; } /** * @return the position of this constraint in the model */ public int getCidxInModel() { return cidx; } /** * Get the opposite constraint of this constraint. * At first call, it creates the opposite constraint, * links them together (the opposite constraint of this opposite constraint is this constraint) * and returns the opposite. * Next calls will return the previously created opposite constraint. * In other words, there can be only one opposite per instance of constraint. * The default opposite constraint does not filter domains but fails if this constraint is satisfied. * * @return the opposite constraint of this */ public Constraint getOpposite() { if (opposite == null) { setOpposite(makeOpposite()); } return opposite; } protected void setOpposite(Constraint opp) { opposite = opp; opposite.opposite = this; } /** * Make the opposite constraint of this. * BEWARE: this method should never be called by the user * but it can be overridden to provide better constraint negations */ protected Constraint makeOpposite() { return new Opposite(this); } /** * Changes the name of this constraint * * @param newName the name of the constraint */ public void setName(String newName) { name = newName; } /** * @return the name of this constraint */ public String getName() { return name; } /** * @return the maximum priority of a propagator of this constraint */ public PropagatorPriority computeMaxPriority() { int priority = 1; for (Propagator p : propagators) { priority = Math.max(priority, p.getPriority().getValue()); } return PropagatorPriority.get(priority); } /** * Creates a new constraint with all propagators of toMerge * * @param name name of the new constraint * @param toMerge a set of constraints to merge in this * @return a new constraint with all propagators of toMerge */ public static Constraint merge(String name, Constraint... toMerge) { ArrayList props = new ArrayList<>(); for (Constraint c : toMerge) { c.ignore(); Collections.addAll(props, c.getPropagators()); } return new Constraint(name, props.toArray(new Propagator[0])); } /** * A constraint, when disabled, is prevented from execute propagation during search * and from participate in the solution feasibility check. It's handy to disable * constraints for algorithms like ({@link org.chocosolver.solver.QuickXPlain}, that * execute massive search to find a minimum conflicting set of constraints, and to do * this needs to alternate constraints execution by enabling and disabling it. * * @return enabled if the constraint is available to the solver */ public boolean isEnabled() { return enabled; } /** * Disable a constraint from being propagated during search and from feasibility * check ({@link org.chocosolver.solver.Solver#isSatisfied()}). A constraint * shouldn't swap between enabled/disabled during solver execution (branching, * filtering, etc...) because there is not control of the side effects it can * cause (e.g.: when at node n, if a constraint becomes disabled, it doesn't * undo filtering it has done at n-1). * It means that, constraint should be disabled only before any interaction with * the ({@link org.chocosolver.solver.Solver}) class to prevent side-effects. * * @param enabled a boolean * @throws SolverException when setEnabled is called during solving */ public void setEnabled(boolean enabled) { if (propagators[0].getModel().getSolver().isSolving()) { throw new SolverException("A constraint enabling state can't be changed during search"); } if (this.enabled != enabled) { this.enabled = enabled; for (Propagator p : propagators) { if (p != null) { p.setEnabled(enabled); } } } } }




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