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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.variables.view;
import org.chocosolver.solver.ICause;
import org.chocosolver.solver.exception.ContradictionException;
import org.chocosolver.solver.learn.ExplanationForSignedClause;
import org.chocosolver.solver.variables.IntVar;
import org.chocosolver.solver.variables.Variable;
import org.chocosolver.solver.variables.delta.IDelta;
import org.chocosolver.solver.variables.delta.IntDelta;
import org.chocosolver.solver.variables.delta.NoDelta;
import org.chocosolver.solver.variables.events.IEventType;
import org.chocosolver.solver.variables.events.IntEventType;
import org.chocosolver.solver.variables.impl.siglit.SignedLiteral;
import org.chocosolver.util.iterators.*;
import org.chocosolver.util.objects.setDataStructures.iterable.IntIterableRangeSet;
import org.chocosolver.util.objects.setDataStructures.iterable.IntIterableSet;
import java.util.Iterator;
import java.util.function.Consumer;
import static org.chocosolver.util.objects.setDataStructures.iterable.IntIterableSetUtils.unionOf;
/**
* Abstract class for defining integer views on integer variables
*
* "A view implements the same operations as a variable. A view stores a reference to a variable.
* Invoking an operation on the view executes the appropriate operation on the view's variable."
*
* Based on "Views and Iterators for Generic Constraint Implementations"
* C. Shulte and G. Tack.
* Eleventh International Conference on Principles and Practice of Constraint Programming
*
*
* @author Charles Prud'homme
* @since 18/03/11
*/
public abstract class IntView extends AbstractView implements IntVar {
/**
* Observed variable
*/
protected final I var;
/**
* To store removed values
*/
protected IntDelta delta;
/**
* Value iterator
*/
protected DisposableValueIterator _viterator;
/**
* Range iterator
*/
protected DisposableRangeIterator _riterator;
/**
* Value iterator allowing for(int i:this) loops
*/
private final IntVarValueIterator _javaIterator = new IntVarValueIterator(this);
/**
* Signed Literal
*/
protected SignedLiteral literal;
/**
* Create a view based on {@code var}
* @param name name of the view
* @param var observed variable
*/
protected IntView(String name, I var) {
super(name, var);
this.var = var;
this.delta = NoDelta.singleton;
}
/**
* Action to execute on {@link #var} when this view requires to instantiate it
* @param value value before modification of the view
* @return true if {@link #var} has been modified
* @throws ContradictionException if modification fails
*/
protected boolean doInstantiateVar(int value) throws ContradictionException{
throw new UnsupportedOperationException();
}
/**
* Action to execute on {@link #var} when this view requires to update its lower bound
* @param value value before modification of the view
* @return true if {@link #var} has been modified
* @throws ContradictionException if modification fails
*/
protected boolean doUpdateLowerBoundOfVar(int value) throws ContradictionException{
throw new UnsupportedOperationException();
}
/**
* Action to execute on {@link #var} when this view requires to update its upper bound
* @param value value before modification of the view
* @return true if {@link #var} has been modified
* @throws ContradictionException if modification fails
*/
protected boolean doUpdateUpperBoundOfVar(int value) throws ContradictionException{
throw new UnsupportedOperationException();
}
/**
* Action to execute on {@link #var} when this view requires to remove a value from it
* @param value value before modification of the view
* @return true if {@link #var} has been modified
* @throws ContradictionException if modification fails
*/
protected boolean doRemoveValueFromVar(int value) throws ContradictionException{
throw new UnsupportedOperationException();
}
/**
* Action to execute on {@link #var} when this view requires to remove an interval from it
* @param from first value of the interval before modification of the view
* @param to last value of the interval before modification of the view
* @return true if {@link #var} has been modified
* @throws ContradictionException if modification fails
*/
protected boolean doRemoveIntervalFromVar(int from, int to) throws ContradictionException{
throw new UnsupportedOperationException();
}
@Override
public boolean removeValue(int value, ICause cause) throws ContradictionException {
assert cause != null;
int inf = getLB();
int sup = getUB();
if (inf <= value && value <= sup) {
IntEventType e = IntEventType.REMOVE;
model.getSolver().getEventObserver().removeValue(this, value, cause);
if (doRemoveValueFromVar(value)) {
if (value == inf) {
e = IntEventType.INCLOW;
} else if (value == sup) {
e = IntEventType.DECUPP;
}
if (this.isInstantiated()) {
e = IntEventType.INSTANTIATE;
}
this.notifyPropagators(e, cause);
return true;
}else{
model.getSolver().getEventObserver().undo();
}
}
return false;
}
@Override
public boolean removeValues(IntIterableSet values, ICause cause) throws ContradictionException {
assert cause != null;
int olb = getLB();
int oub = getUB();
int nlb = values.nextValue(olb - 1);
int nub = values.previousValue(oub + 1);
if (nlb > oub || nub < olb) {
return false;
}
if (nlb == olb) {
// look for the new lb
do {
olb = nextValue(olb);
nlb = values.nextValue(olb - 1);
} while (olb < Integer.MAX_VALUE && oub < Integer.MAX_VALUE && nlb == olb);
}
if (nub == oub) {
// look for the new ub
do {
oub = previousValue(oub);
nub = values.previousValue(oub + 1);
} while (olb > Integer.MIN_VALUE && oub > Integer.MIN_VALUE && nub == oub);
}
// the new bounds are now known, delegate to the right method
boolean hasChanged = updateBounds(olb, oub, cause);
// now deal with holes
int value = nlb, to = nub;
boolean hasRemoved = false;
while (value <= to) {
model.getSolver().getEventObserver().removeValue(this, value, cause);
if(doRemoveValueFromVar(value)){
hasRemoved = true;
}else{
model.getSolver().getEventObserver().undo();
}
value = values.nextValue(value);
}
if (hasRemoved) {
IntEventType e = IntEventType.REMOVE;
if (var.isInstantiated()) {
e = IntEventType.INSTANTIATE;
}
this.notifyPropagators(e, cause);
}
return hasRemoved || hasChanged;
}
@Override
public boolean removeInterval(int from, int to, ICause cause) throws ContradictionException {
assert cause != null;
if (from <= getLB()) {
return updateLowerBound(to + 1, cause);
} else if (getUB() <= to) {
return updateUpperBound(from - 1, cause);
} else if(var.hasEnumeratedDomain()){
for (int v = from; v <= to; v++) {
if (this.contains(v)) {
model.getSolver().getEventObserver().removeValue(this, v, cause);
}
}
boolean done = doRemoveIntervalFromVar(from, to);
if (done) {
notifyPropagators(IntEventType.REMOVE, cause);
}// no else needed, since all values were checked
return done;
}
return false;
}
@Override
public boolean removeAllValuesBut(IntIterableSet values, ICause cause) throws ContradictionException {
int olb = getLB();
int oub = getUB();
int nlb = values.nextValue(olb - 1);
int nub = values.previousValue(oub + 1);
// the new bounds are now known, delegate to the right method
boolean hasChanged = updateBounds(nlb, nub, cause);
// now deal with holes
int to = previousValue(nub);
boolean hasRemoved = false;
int value = nextValue(nlb);
// iterate over the values in the domain, remove the ones that are not in values
for (; value <= to; value = nextValue(value)) {
if (!values.contains(value)) {
model.getSolver().getEventObserver().removeValue(this, value, cause);
if(doRemoveValueFromVar(value)){
hasRemoved = true;
}else{
model.getSolver().getEventObserver().undo();
}
}
}
if (hasRemoved) {
IntEventType e = IntEventType.REMOVE;
if (isInstantiated()) {
e = IntEventType.INSTANTIATE;
}
this.notifyPropagators(e, cause);
}
return hasRemoved || hasChanged;
}
@Override
public boolean instantiateTo(int value, ICause cause) throws ContradictionException {
assert cause != null;
model.getSolver().getEventObserver().instantiateTo(this, value, cause, getLB(), getUB());
boolean done = doInstantiateVar(value);
if (done) {
notifyPropagators(IntEventType.INSTANTIATE, cause);
return true;
}else{
model.getSolver().getEventObserver().undo();
}
return false;
}
@Override
public boolean updateLowerBound(int value, ICause cause) throws ContradictionException {
assert cause != null;
int old = this.getLB();
if (old < value) {
model.getSolver().getEventObserver().updateLowerBound(this, value, getLB(), cause);
IntEventType e = IntEventType.INCLOW;
boolean done = doUpdateLowerBoundOfVar(value);
if (isInstantiated()) {
e = IntEventType.INSTANTIATE;
}
if (done) {
this.notifyPropagators(e, cause);
return true;
}else{
model.getSolver().getEventObserver().undo();
}
}
return false;
}
@Override
public boolean updateUpperBound(int value, ICause cause) throws ContradictionException {
assert cause != null;
int old = this.getUB();
if (old > value) {
model.getSolver().getEventObserver().updateUpperBound(this, value, getUB(), cause);
IntEventType e = IntEventType.DECUPP;
boolean done = doUpdateUpperBoundOfVar(value);
if (isInstantiated()) {
e = IntEventType.INSTANTIATE;
}
if (done) {
this.notifyPropagators(e, cause);
return true;
}else{
model.getSolver().getEventObserver().undo();
}
}
return false;
}
@Override
public boolean updateBounds(int lb, int ub, ICause cause) throws ContradictionException {
assert cause != null;
int olb = this.getLB();
int oub = this.getUB();
boolean hasChanged = false;
if (olb < lb || oub > ub) {
IntEventType e = null;
if (olb < lb) {
model.getSolver().getEventObserver().updateLowerBound(this, lb, getLB(), cause);
e = IntEventType.INCLOW;
if(doUpdateLowerBoundOfVar(lb)){
hasChanged = true;
}else{
model.getSolver().getEventObserver().undo();
}
}
if (oub > ub) {
e = e == null ? IntEventType.DECUPP : IntEventType.BOUND;
model.getSolver().getEventObserver().updateUpperBound(this, ub, getUB(), cause);
if(doUpdateUpperBoundOfVar(ub)){
hasChanged = true;
}else{
model.getSolver().getEventObserver().undo();
}
}
if (isInstantiated()) {
e = IntEventType.INSTANTIATE;
}
if (hasChanged) {
this.notifyPropagators(e, cause);
}
}
return hasChanged;
}
@Override
public int getTypeAndKind() {
return Variable.VIEW | Variable.INT;
}
public I getVariable() {
return var;
}
@Override
public int getDomainSize() {
return var.getDomainSize();
}
@Override
public int getRange() {
return var.getRange();
}
@Override
public boolean hasEnumeratedDomain() {
return var.hasEnumeratedDomain();
}
@Override
public boolean isInstantiated() {
return getVariable().isInstantiated();
}
@Override
public IDelta getDelta() {
return var.getDelta();
}
@Override
public void createDelta() {
var.createDelta();
}
@Override
public void notify(IEventType event, int variableIdx) throws ContradictionException {
super.notifyPropagators(transformEvent(event), this);
}
@Override
public DisposableValueIterator getValueIterator(boolean bottomUp) {
if (_viterator == null || _viterator.isNotReusable()) {
_viterator = new DisposableValueBoundIterator(this);
}
if (bottomUp) {
_viterator.bottomUpInit();
} else {
_viterator.topDownInit();
}
return _viterator;
}
@Override
public DisposableRangeIterator getRangeIterator(boolean bottomUp) {
if (_riterator == null || _riterator.isNotReusable()) {
_riterator = new DisposableRangeBoundIterator(this);
}
if (bottomUp) {
_riterator.bottomUpInit();
} else {
_riterator.topDownInit();
}
return _riterator;
}
@Override
public Iterator iterator() {
_javaIterator.reset();
return _javaIterator;
}
@Override
public void forEachIntVar(Consumer action) {
action.accept(var);
action.accept(this);
}
@Override
public void createLit(IntIterableRangeSet rootDomain) {
if (this.literal != null) {
throw new IllegalStateException("createLit(Implications) called twice");
}
this.literal = new SignedLiteral.Set(rootDomain);
}
@Override
public SignedLiteral getLit() {
if (this.literal == null) {
throw new NullPointerException("getLit() called on null, a call to createLit(Implications) is required");
}
return this.literal;
}
@Override
public void explain(int p, ExplanationForSignedClause explanation) {
IntVar pivot = explanation.readVar(p);
IntVar other = (this == pivot ? getVariable() : this);
IntIterableRangeSet dom = explanation.complement(other);
other.unionLit(dom, explanation);
dom = explanation.complement(pivot);
unionOf(dom, explanation.readDom(p));
pivot.intersectLit(dom, explanation);
}
}