EaglerForge/sources/main/java/com/google/common/collect/MapConstraints.java

865 lines
25 KiB
Java

/*
* Copyright (C) 2007 The Guava Authors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.google.common.collect;
import static com.google.common.base.Preconditions.checkNotNull;
import java.io.Serializable;
import java.util.Collection;
import java.util.Comparator;
import java.util.Iterator;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Map;
import java.util.Map.Entry;
import java.util.Set;
import java.util.SortedSet;
import javax.annotation.Nullable;
import com.google.common.annotations.Beta;
import com.google.common.annotations.GwtCompatible;
/**
* Factory and utilities pertaining to the {@code MapConstraint} interface.
*
* @see Constraints
* @author Mike Bostock
* @since 3.0
*/
@Beta
@GwtCompatible
public final class MapConstraints {
private MapConstraints() {
}
/**
* Returns a constraint that verifies that neither the key nor the value is
* null. If either is null, a {@link NullPointerException} is thrown.
*/
public static MapConstraint<Object, Object> notNull() {
return NotNullMapConstraint.INSTANCE;
}
// enum singleton pattern
private enum NotNullMapConstraint implements MapConstraint<Object, Object> {
INSTANCE;
@Override
public void checkKeyValue(Object key, Object value) {
checkNotNull(key);
checkNotNull(value);
}
@Override
public String toString() {
return "Not null";
}
}
/**
* Returns a constrained view of the specified map, using the specified
* constraint. Any operations that add new mappings will call the provided
* constraint. However, this method does not verify that existing mappings
* satisfy the constraint.
*
* <p>
* The returned map is not serializable.
*
* @param map the map to constrain
* @param constraint the constraint that validates added entries
* @return a constrained view of the specified map
*/
public static <K, V> Map<K, V> constrainedMap(Map<K, V> map, MapConstraint<? super K, ? super V> constraint) {
return new ConstrainedMap<K, V>(map, constraint);
}
/**
* Returns a constrained view of the specified multimap, using the specified
* constraint. Any operations that add new mappings will call the provided
* constraint. However, this method does not verify that existing mappings
* satisfy the constraint.
*
* <p>
* Note that the generated multimap's {@link Multimap#removeAll} and
* {@link Multimap#replaceValues} methods return collections that are not
* constrained.
*
* <p>
* The returned multimap is not serializable.
*
* @param multimap the multimap to constrain
* @param constraint the constraint that validates added entries
* @return a constrained view of the multimap
*/
public static <K, V> Multimap<K, V> constrainedMultimap(Multimap<K, V> multimap,
MapConstraint<? super K, ? super V> constraint) {
return new ConstrainedMultimap<K, V>(multimap, constraint);
}
/**
* Returns a constrained view of the specified list multimap, using the
* specified constraint. Any operations that add new mappings will call the
* provided constraint. However, this method does not verify that existing
* mappings satisfy the constraint.
*
* <p>
* Note that the generated multimap's {@link Multimap#removeAll} and
* {@link Multimap#replaceValues} methods return collections that are not
* constrained.
*
* <p>
* The returned multimap is not serializable.
*
* @param multimap the multimap to constrain
* @param constraint the constraint that validates added entries
* @return a constrained view of the specified multimap
*/
public static <K, V> ListMultimap<K, V> constrainedListMultimap(ListMultimap<K, V> multimap,
MapConstraint<? super K, ? super V> constraint) {
return new ConstrainedListMultimap<K, V>(multimap, constraint);
}
/**
* Returns a constrained view of the specified set multimap, using the specified
* constraint. Any operations that add new mappings will call the provided
* constraint. However, this method does not verify that existing mappings
* satisfy the constraint.
*
* <p>
* Note that the generated multimap's {@link Multimap#removeAll} and
* {@link Multimap#replaceValues} methods return collections that are not
* constrained.
* <p>
* The returned multimap is not serializable.
*
* @param multimap the multimap to constrain
* @param constraint the constraint that validates added entries
* @return a constrained view of the specified multimap
*/
public static <K, V> SetMultimap<K, V> constrainedSetMultimap(SetMultimap<K, V> multimap,
MapConstraint<? super K, ? super V> constraint) {
return new ConstrainedSetMultimap<K, V>(multimap, constraint);
}
/**
* Returns a constrained view of the specified sorted-set multimap, using the
* specified constraint. Any operations that add new mappings will call the
* provided constraint. However, this method does not verify that existing
* mappings satisfy the constraint.
*
* <p>
* Note that the generated multimap's {@link Multimap#removeAll} and
* {@link Multimap#replaceValues} methods return collections that are not
* constrained.
* <p>
* The returned multimap is not serializable.
*
* @param multimap the multimap to constrain
* @param constraint the constraint that validates added entries
* @return a constrained view of the specified multimap
*/
public static <K, V> SortedSetMultimap<K, V> constrainedSortedSetMultimap(SortedSetMultimap<K, V> multimap,
MapConstraint<? super K, ? super V> constraint) {
return new ConstrainedSortedSetMultimap<K, V>(multimap, constraint);
}
/**
* Returns a constrained view of the specified entry, using the specified
* constraint. The {@link Entry#setValue} operation will be verified with the
* constraint.
*
* @param entry the entry to constrain
* @param constraint the constraint for the entry
* @return a constrained view of the specified entry
*/
private static <K, V> Entry<K, V> constrainedEntry(final Entry<K, V> entry,
final MapConstraint<? super K, ? super V> constraint) {
checkNotNull(entry);
checkNotNull(constraint);
return new ForwardingMapEntry<K, V>() {
@Override
protected Entry<K, V> delegate() {
return entry;
}
@Override
public V setValue(V value) {
constraint.checkKeyValue(getKey(), value);
return entry.setValue(value);
}
};
}
/**
* Returns a constrained view of the specified {@code asMap} entry, using the
* specified constraint. The {@link Entry#setValue} operation will be verified
* with the constraint, and the collection returned by {@link Entry#getValue}
* will be similarly constrained.
*
* @param entry the {@code asMap} entry to constrain
* @param constraint the constraint for the entry
* @return a constrained view of the specified entry
*/
private static <K, V> Entry<K, Collection<V>> constrainedAsMapEntry(final Entry<K, Collection<V>> entry,
final MapConstraint<? super K, ? super V> constraint) {
checkNotNull(entry);
checkNotNull(constraint);
return new ForwardingMapEntry<K, Collection<V>>() {
@Override
protected Entry<K, Collection<V>> delegate() {
return entry;
}
@Override
public Collection<V> getValue() {
return Constraints.constrainedTypePreservingCollection(entry.getValue(), new Constraint<V>() {
@Override
public V checkElement(V value) {
constraint.checkKeyValue(getKey(), value);
return value;
}
});
}
};
}
/**
* Returns a constrained view of the specified set of {@code asMap} entries,
* using the specified constraint. The {@link Entry#setValue} operation will be
* verified with the constraint, and the collection returned by
* {@link Entry#getValue} will be similarly constrained. The {@code add} and
* {@code
* addAll} operations simply forward to the underlying set, which throws an
* {@link UnsupportedOperationException} per the multimap specification.
*
* @param entries the entries to constrain
* @param constraint the constraint for the entries
* @return a constrained view of the entries
*/
private static <K, V> Set<Entry<K, Collection<V>>> constrainedAsMapEntries(Set<Entry<K, Collection<V>>> entries,
MapConstraint<? super K, ? super V> constraint) {
return new ConstrainedAsMapEntries<K, V>(entries, constraint);
}
/**
* Returns a constrained view of the specified collection (or set) of entries,
* using the specified constraint. The {@link Entry#setValue} operation will be
* verified with the constraint, along with add operations on the returned
* collection. The {@code add} and {@code addAll} operations simply forward to
* the underlying collection, which throws an
* {@link UnsupportedOperationException} per the map and multimap specification.
*
* @param entries the entries to constrain
* @param constraint the constraint for the entries
* @return a constrained view of the specified entries
*/
private static <K, V> Collection<Entry<K, V>> constrainedEntries(Collection<Entry<K, V>> entries,
MapConstraint<? super K, ? super V> constraint) {
if (entries instanceof Set) {
return constrainedEntrySet((Set<Entry<K, V>>) entries, constraint);
}
return new ConstrainedEntries<K, V>(entries, constraint);
}
/**
* Returns a constrained view of the specified set of entries, using the
* specified constraint. The {@link Entry#setValue} operation will be verified
* with the constraint, along with add operations on the returned set. The
* {@code add} and {@code addAll} operations simply forward to the underlying
* set, which throws an {@link UnsupportedOperationException} per the map and
* multimap specification.
*
* <p>
* The returned multimap is not serializable.
*
* @param entries the entries to constrain
* @param constraint the constraint for the entries
* @return a constrained view of the specified entries
*/
private static <K, V> Set<Entry<K, V>> constrainedEntrySet(Set<Entry<K, V>> entries,
MapConstraint<? super K, ? super V> constraint) {
return new ConstrainedEntrySet<K, V>(entries, constraint);
}
/** @see MapConstraints#constrainedMap */
static class ConstrainedMap<K, V> extends ForwardingMap<K, V> {
private final Map<K, V> delegate;
final MapConstraint<? super K, ? super V> constraint;
private transient Set<Entry<K, V>> entrySet;
ConstrainedMap(Map<K, V> delegate, MapConstraint<? super K, ? super V> constraint) {
this.delegate = checkNotNull(delegate);
this.constraint = checkNotNull(constraint);
}
@Override
protected Map<K, V> delegate() {
return delegate;
}
@Override
public Set<Entry<K, V>> entrySet() {
Set<Entry<K, V>> result = entrySet;
if (result == null) {
entrySet = result = constrainedEntrySet(delegate.entrySet(), constraint);
}
return result;
}
@Override
public V put(K key, V value) {
constraint.checkKeyValue(key, value);
return delegate.put(key, value);
}
@Override
public void putAll(Map<? extends K, ? extends V> map) {
delegate.putAll(checkMap(map, constraint));
}
}
/**
* Returns a constrained view of the specified bimap, using the specified
* constraint. Any operations that modify the bimap will have the associated
* keys and values verified with the constraint.
*
* <p>
* The returned bimap is not serializable.
*
* @param map the bimap to constrain
* @param constraint the constraint that validates added entries
* @return a constrained view of the specified bimap
*/
public static <K, V> BiMap<K, V> constrainedBiMap(BiMap<K, V> map, MapConstraint<? super K, ? super V> constraint) {
return new ConstrainedBiMap<K, V>(map, null, constraint);
}
/** @see MapConstraints#constrainedBiMap */
private static class ConstrainedBiMap<K, V> extends ConstrainedMap<K, V> implements BiMap<K, V> {
/*
* We could switch to racy single-check lazy init and remove volatile, but
* there's a downside. That's because this field is also written in the
* constructor. Without volatile, the constructor's write of the existing
* inverse BiMap could occur after inverse()'s read of the field's initial null
* value, leading inverse() to overwrite the existing inverse with a doubly
* indirect version. This wouldn't be catastrophic, but it's something to keep
* in mind if we make the change.
*
* Note that UnmodifiableBiMap *does* use racy single-check lazy init.
* TODO(cpovirk): pick one and standardize
*/
volatile BiMap<V, K> inverse;
ConstrainedBiMap(BiMap<K, V> delegate, @Nullable BiMap<V, K> inverse,
MapConstraint<? super K, ? super V> constraint) {
super(delegate, constraint);
this.inverse = inverse;
}
@Override
protected BiMap<K, V> delegate() {
return (BiMap<K, V>) super.delegate();
}
@Override
public V forcePut(K key, V value) {
constraint.checkKeyValue(key, value);
return delegate().forcePut(key, value);
}
@Override
public BiMap<V, K> inverse() {
if (inverse == null) {
inverse = new ConstrainedBiMap<V, K>(delegate().inverse(), this,
new InverseConstraint<V, K>(constraint));
}
return inverse;
}
@Override
public Set<V> values() {
return delegate().values();
}
}
/** @see MapConstraints#constrainedBiMap */
private static class InverseConstraint<K, V> implements MapConstraint<K, V> {
final MapConstraint<? super V, ? super K> constraint;
public InverseConstraint(MapConstraint<? super V, ? super K> constraint) {
this.constraint = checkNotNull(constraint);
}
@Override
public void checkKeyValue(K key, V value) {
constraint.checkKeyValue(value, key);
}
}
/** @see MapConstraints#constrainedMultimap */
private static class ConstrainedMultimap<K, V> extends ForwardingMultimap<K, V> implements Serializable {
final MapConstraint<? super K, ? super V> constraint;
final Multimap<K, V> delegate;
transient Collection<Entry<K, V>> entries;
transient Map<K, Collection<V>> asMap;
public ConstrainedMultimap(Multimap<K, V> delegate, MapConstraint<? super K, ? super V> constraint) {
this.delegate = checkNotNull(delegate);
this.constraint = checkNotNull(constraint);
}
@Override
protected Multimap<K, V> delegate() {
return delegate;
}
@Override
public Map<K, Collection<V>> asMap() {
Map<K, Collection<V>> result = asMap;
if (result == null) {
final Map<K, Collection<V>> asMapDelegate = delegate.asMap();
asMap = result = new ForwardingMap<K, Collection<V>>() {
Set<Entry<K, Collection<V>>> entrySet;
Collection<Collection<V>> values;
@Override
protected Map<K, Collection<V>> delegate() {
return asMapDelegate;
}
@Override
public Set<Entry<K, Collection<V>>> entrySet() {
Set<Entry<K, Collection<V>>> result = entrySet;
if (result == null) {
entrySet = result = constrainedAsMapEntries(asMapDelegate.entrySet(), constraint);
}
return result;
}
@SuppressWarnings("unchecked")
@Override
public Collection<V> get(Object key) {
try {
Collection<V> collection = ConstrainedMultimap.this.get((K) key);
return collection.isEmpty() ? null : collection;
} catch (ClassCastException e) {
return null; // key wasn't a K
}
}
@Override
public Collection<Collection<V>> values() {
Collection<Collection<V>> result = values;
if (result == null) {
values = result = new ConstrainedAsMapValues<K, V>(delegate().values(), entrySet());
}
return result;
}
@Override
public boolean containsValue(Object o) {
return values().contains(o);
}
};
}
return result;
}
@Override
public Collection<Entry<K, V>> entries() {
Collection<Entry<K, V>> result = entries;
if (result == null) {
entries = result = constrainedEntries(delegate.entries(), constraint);
}
return result;
}
@Override
public Collection<V> get(final K key) {
return Constraints.constrainedTypePreservingCollection(delegate.get(key), new Constraint<V>() {
@Override
public V checkElement(V value) {
constraint.checkKeyValue(key, value);
return value;
}
});
}
@Override
public boolean put(K key, V value) {
constraint.checkKeyValue(key, value);
return delegate.put(key, value);
}
@Override
public boolean putAll(K key, Iterable<? extends V> values) {
return delegate.putAll(key, checkValues(key, values, constraint));
}
@Override
public boolean putAll(Multimap<? extends K, ? extends V> multimap) {
boolean changed = false;
for (Entry<? extends K, ? extends V> entry : multimap.entries()) {
changed |= put(entry.getKey(), entry.getValue());
}
return changed;
}
@Override
public Collection<V> replaceValues(K key, Iterable<? extends V> values) {
return delegate.replaceValues(key, checkValues(key, values, constraint));
}
}
/** @see ConstrainedMultimap#asMap */
private static class ConstrainedAsMapValues<K, V> extends ForwardingCollection<Collection<V>> {
final Collection<Collection<V>> delegate;
final Set<Entry<K, Collection<V>>> entrySet;
/**
* @param entrySet map entries, linking each key with its corresponding values,
* that already enforce the constraint
*/
ConstrainedAsMapValues(Collection<Collection<V>> delegate, Set<Entry<K, Collection<V>>> entrySet) {
this.delegate = delegate;
this.entrySet = entrySet;
}
@Override
protected Collection<Collection<V>> delegate() {
return delegate;
}
@Override
public Iterator<Collection<V>> iterator() {
final Iterator<Entry<K, Collection<V>>> iterator = entrySet.iterator();
return new Iterator<Collection<V>>() {
@Override
public boolean hasNext() {
return iterator.hasNext();
}
@Override
public Collection<V> next() {
return iterator.next().getValue();
}
@Override
public void remove() {
iterator.remove();
}
};
}
@Override
public Object[] toArray() {
return standardToArray();
}
@Override
public <T> T[] toArray(T[] array) {
return standardToArray(array);
}
@Override
public boolean contains(Object o) {
return standardContains(o);
}
@Override
public boolean containsAll(Collection<?> c) {
return standardContainsAll(c);
}
@Override
public boolean remove(Object o) {
return standardRemove(o);
}
@Override
public boolean removeAll(Collection<?> c) {
return standardRemoveAll(c);
}
@Override
public boolean retainAll(Collection<?> c) {
return standardRetainAll(c);
}
}
/** @see MapConstraints#constrainedEntries */
private static class ConstrainedEntries<K, V> extends ForwardingCollection<Entry<K, V>> {
final MapConstraint<? super K, ? super V> constraint;
final Collection<Entry<K, V>> entries;
ConstrainedEntries(Collection<Entry<K, V>> entries, MapConstraint<? super K, ? super V> constraint) {
this.entries = entries;
this.constraint = constraint;
}
@Override
protected Collection<Entry<K, V>> delegate() {
return entries;
}
@Override
public Iterator<Entry<K, V>> iterator() {
final Iterator<Entry<K, V>> iterator = entries.iterator();
return new ForwardingIterator<Entry<K, V>>() {
@Override
public Entry<K, V> next() {
return constrainedEntry(iterator.next(), constraint);
}
@Override
protected Iterator<Entry<K, V>> delegate() {
return iterator;
}
};
}
// See Collections.CheckedMap.CheckedEntrySet for details on attacks.
@Override
public Object[] toArray() {
return standardToArray();
}
@Override
public <T> T[] toArray(T[] array) {
return standardToArray(array);
}
@Override
public boolean contains(Object o) {
return Maps.containsEntryImpl(delegate(), o);
}
@Override
public boolean containsAll(Collection<?> c) {
return standardContainsAll(c);
}
@Override
public boolean remove(Object o) {
return Maps.removeEntryImpl(delegate(), o);
}
@Override
public boolean removeAll(Collection<?> c) {
return standardRemoveAll(c);
}
@Override
public boolean retainAll(Collection<?> c) {
return standardRetainAll(c);
}
}
/** @see MapConstraints#constrainedEntrySet */
static class ConstrainedEntrySet<K, V> extends ConstrainedEntries<K, V> implements Set<Entry<K, V>> {
ConstrainedEntrySet(Set<Entry<K, V>> entries, MapConstraint<? super K, ? super V> constraint) {
super(entries, constraint);
}
// See Collections.CheckedMap.CheckedEntrySet for details on attacks.
@Override
public boolean equals(@Nullable Object object) {
return Sets.equalsImpl(this, object);
}
@Override
public int hashCode() {
return Sets.hashCodeImpl(this);
}
}
/** @see MapConstraints#constrainedAsMapEntries */
static class ConstrainedAsMapEntries<K, V> extends ForwardingSet<Entry<K, Collection<V>>> {
private final MapConstraint<? super K, ? super V> constraint;
private final Set<Entry<K, Collection<V>>> entries;
ConstrainedAsMapEntries(Set<Entry<K, Collection<V>>> entries, MapConstraint<? super K, ? super V> constraint) {
this.entries = entries;
this.constraint = constraint;
}
@Override
protected Set<Entry<K, Collection<V>>> delegate() {
return entries;
}
@Override
public Iterator<Entry<K, Collection<V>>> iterator() {
final Iterator<Entry<K, Collection<V>>> iterator = entries.iterator();
return new ForwardingIterator<Entry<K, Collection<V>>>() {
@Override
public Entry<K, Collection<V>> next() {
return constrainedAsMapEntry(iterator.next(), constraint);
}
@Override
protected Iterator<Entry<K, Collection<V>>> delegate() {
return iterator;
}
};
}
// See Collections.CheckedMap.CheckedEntrySet for details on attacks.
@Override
public Object[] toArray() {
return standardToArray();
}
@Override
public <T> T[] toArray(T[] array) {
return standardToArray(array);
}
@Override
public boolean contains(Object o) {
return Maps.containsEntryImpl(delegate(), o);
}
@Override
public boolean containsAll(Collection<?> c) {
return standardContainsAll(c);
}
@Override
public boolean equals(@Nullable Object object) {
return standardEquals(object);
}
@Override
public int hashCode() {
return standardHashCode();
}
@Override
public boolean remove(Object o) {
return Maps.removeEntryImpl(delegate(), o);
}
@Override
public boolean removeAll(Collection<?> c) {
return standardRemoveAll(c);
}
@Override
public boolean retainAll(Collection<?> c) {
return standardRetainAll(c);
}
}
private static class ConstrainedListMultimap<K, V> extends ConstrainedMultimap<K, V> implements ListMultimap<K, V> {
ConstrainedListMultimap(ListMultimap<K, V> delegate, MapConstraint<? super K, ? super V> constraint) {
super(delegate, constraint);
}
@Override
public List<V> get(K key) {
return (List<V>) super.get(key);
}
@Override
public List<V> removeAll(Object key) {
return (List<V>) super.removeAll(key);
}
@Override
public List<V> replaceValues(K key, Iterable<? extends V> values) {
return (List<V>) super.replaceValues(key, values);
}
}
private static class ConstrainedSetMultimap<K, V> extends ConstrainedMultimap<K, V> implements SetMultimap<K, V> {
ConstrainedSetMultimap(SetMultimap<K, V> delegate, MapConstraint<? super K, ? super V> constraint) {
super(delegate, constraint);
}
@Override
public Set<V> get(K key) {
return (Set<V>) super.get(key);
}
@Override
public Set<Map.Entry<K, V>> entries() {
return (Set<Map.Entry<K, V>>) super.entries();
}
@Override
public Set<V> removeAll(Object key) {
return (Set<V>) super.removeAll(key);
}
@Override
public Set<V> replaceValues(K key, Iterable<? extends V> values) {
return (Set<V>) super.replaceValues(key, values);
}
}
private static class ConstrainedSortedSetMultimap<K, V> extends ConstrainedSetMultimap<K, V>
implements SortedSetMultimap<K, V> {
ConstrainedSortedSetMultimap(SortedSetMultimap<K, V> delegate, MapConstraint<? super K, ? super V> constraint) {
super(delegate, constraint);
}
@Override
public SortedSet<V> get(K key) {
return (SortedSet<V>) super.get(key);
}
@Override
public SortedSet<V> removeAll(Object key) {
return (SortedSet<V>) super.removeAll(key);
}
@Override
public SortedSet<V> replaceValues(K key, Iterable<? extends V> values) {
return (SortedSet<V>) super.replaceValues(key, values);
}
@Override
public Comparator<? super V> valueComparator() {
return ((SortedSetMultimap<K, V>) delegate()).valueComparator();
}
}
private static <K, V> Collection<V> checkValues(K key, Iterable<? extends V> values,
MapConstraint<? super K, ? super V> constraint) {
Collection<V> copy = Lists.newArrayList(values);
for (V value : copy) {
constraint.checkKeyValue(key, value);
}
return copy;
}
private static <K, V> Map<K, V> checkMap(Map<? extends K, ? extends V> map,
MapConstraint<? super K, ? super V> constraint) {
Map<K, V> copy = new LinkedHashMap<K, V>(map);
for (Entry<K, V> entry : copy.entrySet()) {
constraint.checkKeyValue(entry.getKey(), entry.getValue());
}
return copy;
}
}