/*
* Copyright 2016-present Open Networking Laboratory
*
* 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 org.onosproject.store.service;
import com.google.common.collect.Multiset;
import org.onosproject.store.primitives.DefaultConsistentMultimap;
import java.util.Collection;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.CompletableFuture;
/**
* Interface for a distributed multimap.
*
* NOTE: Editing any returned collection will NOT effect the map itself and
* changes in the map will NOT be reflected in the returned collections.
* Certain operations may be too expensive when backed by a distributed data
* structure and have been labeled as such.
*/
public interface AsyncConsistentMultimap<K, V> extends DistributedPrimitive {
@Override
default DistributedPrimitive.Type primitiveType() {
return Type.CONSISTENT_MULTIMAP;
}
@Override
default CompletableFuture<Void> destroy() {
return clear();
}
/**
* Returns the number of key-value pairs in this multimap.
* @return the number of key-value pairs
*/
CompletableFuture<Integer> size();
/**
* Returns if this multimap contains no key-value pairs.
* @return completable future that will be true if no key-value pairs
* exist, false otherwise
*/
CompletableFuture<Boolean> isEmpty();
/**
* Returns true if there is at lease one key-value pair with a key equal to
* key.
* @param key the key to query
* @return a future whose value will be true if the map contains a
* key-value pair with key false otherwise
*/
CompletableFuture<Boolean> containsKey(K key);
/**
* Returns true if this map contains at lease one key-value pair with a
* value equal to value.
* @param value the value to query
* @return a future whose value will be true if there is a key-value pair
* with the specified value, false otherwise.
*/
CompletableFuture<Boolean> containsValue(V value);
/**
* Returns true if this map contains at least one key-value pair with key
* and value specified.
*
* @param key key
* @param value value
* @return a future whose value will be true if there is a key-value pair
* with the specified key and value,
* false otherwise.
*/
CompletableFuture<Boolean> containsEntry(K key, V value);
/**
* If the key-value pair does not already exist adds either the key value
* pair or the value to the set of values associated with the key and
* returns true, if the key-value pair already exists then behavior is
* implementation specific with some implementations allowing duplicates
* and others ignoring put requests for existing entries.
*
* @param key the key to add
* @param value the value to add
* @return a future whose value will be true if the map has changed because
* of this call, false otherwise
*/
CompletableFuture<Boolean> put(K key, V value);
/**
* Removes the key-value pair with the specified values if it exists. In
* implementations that allow duplicates which matching entry will be
* removed is undefined.
*
* @param key the key of the pair to be removed
* @param value the value of the pair to be removed
* @return a future whose value will be true if the map changed because of
* this call, false otherwise.
*/
CompletableFuture<Boolean> remove(K key, V value);
/**
* Removes the key-value pairs with the specified key and values if they
* exist. In implementations that allow duplicates each instance of a key
* will remove one matching entry, which one is not defined. Equivalent to
* repeated calls to {@code remove()} for each key value pair but more
* efficient.
*
* @param key the key of the pair to be removed
* @param values the set of values to be removed
* @return a future whose value will be true if the map changes because of
* this call, false otherwise.
*/
CompletableFuture<Boolean> removeAll(K key,
Collection<? extends V> values);
/**
* Removes all values associated with the specified key as well as the key
* itself.
*
* @param key the key whose key-value pairs will be removed
* @return a future whose value is the set of values that were removed,
* which may be empty, if the values did not exist the version will be
* less than one.
*/
CompletableFuture<Versioned<Collection<? extends V>>> removeAll(K key);
/**
* Adds the set of key-value pairs of the specified key with each of the
* values in the iterable if each key-value pair does not already exist,
* if the pair does exist the behavior is implementation specific.
* (Same as repeated puts but with efficiency gains.)
*
* @param key the key to use for all pairs to be added
* @param values the set of values to be added in pairs with the key
* @return a future whose value will be true if any change in the map
* results from this call, false otherwise
*/
CompletableFuture<Boolean> putAll(K key,
Collection<? extends V> values);
/**
* Stores all the values in values associated with the key specified,
* removes all preexisting values and returns a collection of the removed
* values which may be empty if the entry did not exist.
*
* @param key the key for all entries to be added
* @param values the values to be associated with the key
* @return a future whose value will be the collection of removed values,
* which may be empty
*/
CompletableFuture<Versioned<Collection<? extends V>>> replaceValues(
K key, Collection<V> values);
/**
* Removes all key-value pairs, after which it will be empty.
*
* @return a future whose value is irrelevant, simply used to determine if
* the call has completed
*/
CompletableFuture<Void> clear();
/**
* Returns a collection of values associated with the specified key, if the
* key is not in the map it will return an empty collection.
*
* @param key the key whose associated values will be returned
* @return a future whose value will be the collection of the values
* associated with the specified key, the collection may be empty
*/
CompletableFuture<Versioned<Collection<? extends V>>> get(K key);
/**
* Returns a set of the keys contained in this multimap with one or more
* associated values.
*
* @return a future whose value will be the collection of all keys with one
* or more associated values, this may be empty
*/
CompletableFuture<Set<K>> keySet();
/**
* Returns a multiset of the keys present in this multimap with one or more
* associated values each. Keys will appear once for each key-value pair
* in which they participate.
*
* @return a future whose value will be a multiset of the keys, this may
* be empty
*/
CompletableFuture<Multiset<K>> keys();
/**
* Returns a collection of values in the set with duplicates permitted, the
* size of this collection will equal the size of the map at the time of
* creation.
*
* @return a future whose value will be a collection of values, this may be
* empty
*/
CompletableFuture<Multiset<V>> values();
/**
* Returns a collection of each key-value pair in this map.
*
* @return a future whose value will be a collection of all entries in the
* map, this may be empty
*/
CompletableFuture<Collection<Map.Entry<K, V>>> entries();
/**
* Returns a map of keys to collections of values that reflect the set of
* key-value pairs contained in the multimap, where the key value pairs
* would be the key paired with each of the values in the collection.
*
* @return a future whose value will be a map of keys to collections of
* values, the returned map may be empty.
*/
CompletableFuture<Map<K, Collection<V>>> asMap();
/**
* Returns a {@code ConsistentMultimap} instance that wraps this map. All
* calls will have the same behavior as this map but will be blocking
* instead of asynchronous. If a call does not complete within the
* default timeout an exception will be produced.
*
* @return a {@code ConsistentMultimap} which wraps this map, providing
* synchronous access to this map
*/
default ConsistentMultimap<K, V> asMultimap() {
return asMultimap(DEFAULT_OPERTATION_TIMEOUT_MILLIS);
}
/**
* Returns a {@code ConsistentMultimap} instance that wraps this map. All
* calls will have the same behavior as this map but will be blocking
* instead of asynchronous. If a call does not complete within the
* specified timeout an exception will be produced.
*
* @param timeoutMillis the number of millis to block while waiting for a
* call to return
* @return a {@code ConsistentMultimap} which wraps this map, providing
* synchronous access to this map
*/
default ConsistentMultimap<K, V> asMultimap(long timeoutMillis) {
return new DefaultConsistentMultimap(this, timeoutMillis);
}
}