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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.extension.nary;

import org.chocosolver.memory.IEnvironment;
import org.chocosolver.memory.IStateInt;
import org.chocosolver.solver.constraints.extension.Tuples;
import org.chocosolver.solver.exception.ContradictionException;
import org.chocosolver.solver.exception.SolverException;
import org.chocosolver.solver.variables.IntVar;
import org.chocosolver.solver.variables.Variable;
import org.chocosolver.solver.variables.events.PropagatorEventType;
import org.chocosolver.util.objects.setDataStructures.iterable.IntIterableBitSet;

/**
 * 
* * @author Charles Prud'homme, Hadrien Cambazard * @since 24/04/2014 */ public class PropLargeGAC2001 extends PropLargeCSP { // Last valid supports Last(x_i, val) = supports( (blocks(i) + val) * size ) private final IStateInt[] supports; private final int[] blocks; // Cardinality private final int size; // offsets(i) = Min(x_i) private final int[] offsets; // check if none of the tuple is trivially outside //the domains and if yes use a fast valid check //by avoiding checking the bounds private final ValidityChecker valcheck; private final IntIterableBitSet vrms; private PropLargeGAC2001(IntVar[] vs, LargeRelation relation) { super(vs, relation); this.size = vs.length; this.blocks = new int[size]; this.offsets = new int[size]; int nbElt = 0; boolean allboolean = true; for (int i = 0; i < size; i++) { offsets[i] = vs[i].getLB(); blocks[i] = nbElt; if ((vars[i].getTypeAndKind() & Variable.KIND) != Variable.BOOL) allboolean = false; if (!vars[i].hasEnumeratedDomain()) { throw new SolverException("GAC2001 can not be used with bound variables"); } else nbElt += vars[i].getUB() - vars[i].getLB() + 1; } this.supports = new IStateInt[nbElt * size]; IEnvironment env = vs[0].getEnvironment(); for (int i = 0; i < supports.length; i++) { supports[i] = env.makeInt(Integer.MIN_VALUE); } if (allboolean) valcheck = new FastBooleanValidityChecker(size, vars); else valcheck = new ValidityChecker(size, vars); vrms = new IntIterableBitSet(); } public PropLargeGAC2001(IntVar[] vs, Tuples tuples) { this(vs, RelationFactory.makeLargeRelation(tuples, vs)); } @Override public void propagate(int evtmask) throws ContradictionException { if (PropagatorEventType.isFullPropagation(evtmask)) { for (int i = 0; i < vars.length; i++) { reviseVar(i, true); } } for (int i = 0; i < size; i++) reviseVar(i, false); } @Override public void propagate(int idxVarInProp, int mask) throws ContradictionException { filter(idxVarInProp); } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////////////////////////////////// // updates the support for all values in the domain of variable // and remove unsupported values for variable private void reviseVar(int indexVar, boolean fromScratch) throws ContradictionException { int[] currentSupport; vrms.clear(); vrms.setOffset(vars[indexVar].getLB()); int val; for (val = vars[indexVar].getLB(); val <= vars[indexVar].getUB(); val = vars[indexVar].nextValue(val)) { currentSupport = seekNextSupport(indexVar, val, fromScratch); if (currentSupport != null) { setSupport(indexVar, val, currentSupport); } else { vrms.add(val); // vars[indexVar].removeVal(val, this, false); } } vars[indexVar].removeValues(vrms, this); } // Store Last(x_i, val) = support private void setSupport(int indexVar, int value, int[] support) { for (int i = 0; i < vars.length; i++) { supports[(blocks[indexVar] + value - offsets[indexVar]) * size + i].set(support[i]); } } // Get Last(x_i, val) private int[] getUBport(int indexVar, int value) { int[] resultat = new int[size]; for (int i = 0; i < size; i++) { resultat[i] = supports[(blocks[indexVar] + value - offsets[indexVar]) * size + i].get(); } return resultat; } /** * seek a new support for (variable, value), the smallest tuple greater than currentSupport * the search is made through valid tuples until and allowed one is found. */ private int[] seekNextSupport(int indexVar, int val, boolean fromscratch) { int[] currentSupport = new int[size]; int k = 0; if (fromscratch) { for (int i = 0; i < size; i++) { if (i != indexVar) currentSupport[i] = vars[i].getLB(); else currentSupport[i] = val; } if (relation.isConsistent(currentSupport)) { return currentSupport; } } else { currentSupport = getUBport(indexVar, val); if (valcheck.isValid(currentSupport)) { return currentSupport; } else { currentSupport = getFirstValidTupleFrom(currentSupport, indexVar); if (currentSupport == null) return null; if (relation.isConsistent(currentSupport)) return currentSupport; } } while (k < vars.length) { if (k == indexVar) k++; if (k < vars.length) { if (vars[k].nextValue(currentSupport[k]) == Integer.MAX_VALUE) { currentSupport[k] = vars[k].getLB(); k++; } else { currentSupport[k] = vars[k].nextValue(currentSupport[k]); if ((relation.isConsistent(currentSupport))) { return currentSupport; } k = 0; } } } return null; } /** * t is a consistent tuple not valid anymore, we need to go to the first valid tuple * greater than t before searching among the valid tuples */ private int[] getFirstValidTupleFrom(int[] t, int indexVar) { int k = 0; while (k < vars.length) { if (k == indexVar) k++; if (k < vars.length) { if (vars[k].nextValue(t[k]) == Integer.MAX_VALUE) { t[k] = vars[k].getLB(); k++; } else { t[k] = vars[k].nextValue(t[k]); if (valcheck.isValid(t)) { return t; } k = 0; } } } return null; } private void filter(int idx) throws ContradictionException { //sort variables regarding domain sizes to speedup the check ! valcheck.sortvars(); if (vars[idx].hasEnumeratedDomain()) { for (int i = 0; i < size; i++) if (idx != valcheck.getPosition(i)) reviseVar(valcheck.getPosition(i), false); } else { for (int i = 0; i < size; i++) reviseVar(valcheck.getPosition(i), false); } } }




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