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Open-source constraint solver.
/*
* 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.nary.binPacking;
import org.chocosolver.memory.IStateInt;
import org.chocosolver.solver.constraints.Propagator;
import org.chocosolver.solver.constraints.PropagatorPriority;
import org.chocosolver.solver.exception.ContradictionException;
import org.chocosolver.solver.variables.IntVar;
import org.chocosolver.solver.variables.delta.IIntDeltaMonitor;
import org.chocosolver.solver.variables.events.IntEventType;
import org.chocosolver.solver.variables.events.PropagatorEventType;
import org.chocosolver.util.ESat;
import org.chocosolver.util.objects.setDataStructures.ISet;
import org.chocosolver.util.objects.setDataStructures.ISetIterator;
import org.chocosolver.util.objects.setDataStructures.SetFactory;
import org.chocosolver.util.objects.setDataStructures.SetType;
import org.chocosolver.util.procedure.UnaryIntProcedure;
import org.chocosolver.util.tools.ArrayUtils;
import java.util.BitSet;
import java.util.Comparator;
import java.util.stream.IntStream;
/**
* Propagator for a Bin Packing constraint
* This propagator is an implementation of filtering rules introduced in the following paper :
* Shaw, P. (2004). A Constraint for Bin Packing. In M. Wallace (Ed.), Principles and Practice of Constraint Programming – CP 2004 (pp. 648–662). Springer Berlin Heidelberg.
*
* @author Arthur Godet , Jean-Guillaume Fages
*/
public class PropBinPacking extends Propagator {
private final IntVar[] itemBin;
protected int[] itemSize;
protected IntVar[] binLoad;
protected final int offset;
private final int nbItems;
private final int nbAvailableBins;
protected IIntDeltaMonitor[] monitors;
protected ISet[] P;
protected ISet[] R;
protected IStateInt[] sumR;
private final IStateInt[] sumP;
private final BitSet binsToProcess;
// NoSum parameters and Java variables
private final boolean useNoSumFiltering;
private int sumA;
private int sumB;
private int sumC;
private int k;
private int kPrime;
private final int[] indexSortedBySize;
private final int[] X;
private int xSize;
@SuppressWarnings("Convert2Diamond")
private final UnaryIntProcedure procedure = new UnaryIntProcedure() {
int item;
@Override
public UnaryIntProcedure set(Integer itemIdx) {
item = itemIdx;
return this;
}
@Override
public void execute(int bin) throws ContradictionException {
bin -= offset;
if (bin >= 0 && bin < nbAvailableBins && P[bin].contains(item)) {
P[bin].remove(item);
binLoad[bin].updateUpperBound(sumP[bin].add(-itemSize[item]), PropBinPacking.this);
}
}
};
/**
* Propagator for a Bin Packing constraint
*
* @param itemBin bin of every item (possibly with offset)
* @param itemSize size of every item
* @param binLoad total load of every bin
* @param offset index offset: binOfItem[i] = k means item i is in bin k-offset
*/
public PropBinPacking(IntVar[] itemBin, int[] itemSize, IntVar[] binLoad, int offset) {
this(itemBin, itemSize, binLoad, offset, true);
}
/**
* Propagator for a Bin Packing constraint
*
* @param itemBin bin of every item (possibly with offset)
* @param itemSize size of every item
* @param binLoad total load of every bin
* @param offset index offset: binOfItem[i] = k means item i is in bin k-offset
* @param useNoSumFiltering indicates whether to use NoSum filterings or not (should be true)
*/
public PropBinPacking(IntVar[] itemBin, int[] itemSize, IntVar[] binLoad, int offset, boolean useNoSumFiltering) {
super(ArrayUtils.append(itemBin, binLoad), PropagatorPriority.LINEAR, true);
this.itemBin = itemBin;
this.itemSize = itemSize;
this.binLoad = binLoad;
this.offset = offset;
this.useNoSumFiltering = useNoSumFiltering;
nbItems = itemBin.length;
nbAvailableBins = binLoad.length;
monitors = new IIntDeltaMonitor[nbItems];
for(int i=0; i -itemSize[i]))
.mapToInt(i -> i)
.toArray();
}
@Override
public int getPropagationConditions(int vIdx) {
if(vIdx < nbItems) {
return IntEventType.all();
} else {
return IntEventType.boundAndInst();
}
}
////////////////////////////////////////////////////////////////////////////////////////
////////////////////////////// FILTERING ALGORITHMS //////////////////////////////
////////////////////////////////////////////////////////////////////////////////////////
private void removeItemFromBin(int binIdx, int itemIdx) throws ContradictionException {
if(P[binIdx].contains(itemIdx)) {
P[binIdx].remove(itemIdx);
binLoad[binIdx].updateUpperBound(sumP[binIdx].add(-itemSize[itemIdx]), this);
binsToProcess.set(binIdx);
if(itemBin[itemIdx].isInstantiated()) {
updateRAfterInstantiation(itemBin[itemIdx].getValue() - offset, itemIdx);
}
}
}
protected void updateRAfterInstantiation(int binIdx, int itemIdx) throws ContradictionException {
if(R[binIdx].add(itemIdx)) {
binLoad[binIdx].updateLowerBound(sumR[binIdx].add(itemSize[itemIdx]), this);
binsToProcess.set(binIdx);
for(int k = 0; k binLoad[j].getUB() && itemBin[i].removeValue(j+offset, this)) {
hasFiltered = true;
removeItemFromBin(j, i);
}
}
}
}
return hasFiltered;
}
private void processBin(int j) throws ContradictionException {
binsToProcess.clear(j);
boolean hasFiltered;
do {
hasFiltered = singleItemEliminationAndCommitment(j);
if(useNoSumFiltering) {
hasFiltered |= noSumFiltering(j);
}
} while(hasFiltered);
}
////////////////////////////////////////////////////////////////////////////////////////
///////////////////////////////// NO_SUM METHODS /////////////////////////////////
////////////////////////////////////////////////////////////////////////////////////////
private void fillXArrayWithCj(int j, int idxToRemove) {
xSize = 0;
for(int i = 0; i < nbItems; i++) {
if(indexSortedBySize[i] != idxToRemove
&& P[j].contains(indexSortedBySize[i])
&& !R[j].contains(indexSortedBySize[i])
) {
X[xSize++] = indexSortedBySize[i];
}
}
}
private void noSumInit() {
sumA = 0;
sumB = 0;
sumC = 0;
k = 0;
kPrime = 0;
}
private boolean noSumComputings(int alpha, int beta) {
while(kPrime < xSize && sumC + itemSize[X[xSize-1-kPrime]] < alpha) {
sumC += itemSize[X[xSize-1-kPrime]];
kPrime++;
}
if(kPrime < xSize) {
sumB = itemSize[X[xSize-1-kPrime]];
}
while(k= alpha) {
kPrime--;
sumC -= itemSize[X[xSize-1-kPrime]];
sumB += itemSize[X[xSize-1-kPrime]] - itemSize[X[xSize-1-kPrime-k-1]];
}
}
}
return sumA < alpha;
}
private boolean noSum(int j, int alpha, int beta) {
return noSum(j, alpha, beta, -1);
}
private boolean noSum(int j, int alpha, int beta, int idxToRemove) {
if(alpha <= 0 || beta >= sumP[j].get()-sumR[j].get()) {
return false;
}
noSumInit();
fillXArrayWithCj(j, idxToRemove);
return noSumComputings(alpha, beta);
}
private boolean noSumFiltering(int j) throws ContradictionException {
boolean hasFiltered = false;
// Pruning Rule
if(noSum(j, binLoad[j].getLB()-sumR[j].get(), binLoad[j].getUB()-sumR[j].get())) {
fails();
}
// Tightening Bounds on Bin Load
int lbVal = binLoad[j].getLB()-sumR[j].get();
if(noSum(j, lbVal, lbVal)) {
hasFiltered = true;
binLoad[j].updateLowerBound(sumR[j].get() + sumB, this);
}
int ubVal = binLoad[j].getUB()-sumR[j].get();
if(noSum(j, ubVal, ubVal)) {
binLoad[j].updateUpperBound(sumR[j].get() + sumA + sumC, this);
}
// Elimination and Commitment of Items
ISetIterator iter = P[j].iterator();
while(iter.hasNext()) {
int i = iter.nextInt();
if(!R[j].contains(i)) {
int lbVal2 = binLoad[j].getLB()-sumR[j].get()-itemSize[i];
int ubVal2 = binLoad[j].getUB()-sumR[j].get()-itemSize[i];
if(noSum(j, lbVal2, ubVal2, i)) {
if(itemBin[i].removeValue(j+offset, this)) {
hasFiltered = true;
removeItemFromBin(j, i);
}
}
lbVal2 += itemSize[i];
ubVal2 += itemSize[i];
if(noSum(j, lbVal2, ubVal2, i)) {
hasFiltered |= itemBin[i].instantiateTo(j+offset, this);
updateRAfterInstantiation(j, i);
}
}
}
return hasFiltered;
}
////////////////////////////////////////////////////////////////////////////////////////
////////////////////////////////// PROPAGATION ///////////////////////////////////
////////////////////////////////////////////////////////////////////////////////////////
@Override
public void propagate(int idxVarInProp, int mask) throws ContradictionException {
if(idxVarInProp < nbItems) {
monitors[idxVarInProp].forEachRemVal(procedure.set(idxVarInProp));
if(itemBin[idxVarInProp].isInstantiated()) {
int j = itemBin[idxVarInProp].getValue() - offset;
updateRAfterInstantiation(j, idxVarInProp);
binsToProcess.set(j);
}
} else {
binsToProcess.set(idxVarInProp - nbItems);
}
forcePropagate(PropagatorEventType.CUSTOM_PROPAGATION);
}
@Override
public void propagate(int evtmask) throws ContradictionException {
if(PropagatorEventType.isFullPropagation(evtmask)) {
for(int i = 0; i=nbAvailableBins+offset){
return ESat.FALSE;
}
}
}
for(int b = 0; b binLoad[b].getUB() || max < binLoad[b].getLB()) {
return ESat.FALSE;
}
}
if(isCompletelyInstantiated()) {
return ESat.TRUE;
}
return ESat.UNDEFINED;
}
}