java.com.google.common.cache.LoadingCache Maven / Gradle / Ivy
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/*
* Copyright (C) 2011 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.cache;
import com.google.common.annotations.GwtCompatible;
import com.google.common.base.Function;
import com.google.common.collect.ImmutableMap;
import com.google.common.util.concurrent.ExecutionError;
import com.google.common.util.concurrent.UncheckedExecutionException;
import java.util.concurrent.ConcurrentMap;
import java.util.concurrent.ExecutionException;
/**
* A semi-persistent mapping from keys to values. Values are automatically loaded by the cache, and
* are stored in the cache until either evicted or manually invalidated. The common way to build
* instances is using {@link CacheBuilder}.
*
* Implementations of this interface are expected to be thread-safe, and can be safely accessed
* by multiple concurrent threads.
*
*
When evaluated as a {@link Function}, a cache yields the same result as invoking {@link
* #getUnchecked}.
*
* @author Charles Fry
* @since 11.0
*/
@GwtCompatible
public interface LoadingCache extends Cache, Function {
/**
* Returns the value associated with {@code key} in this cache, first loading that value if
* necessary. No observable state associated with this cache is modified until loading completes.
*
* If another call to {@link #get} or {@link #getUnchecked} is currently loading the value for
* {@code key}, simply waits for that thread to finish and returns its loaded value. Note that
* multiple threads can concurrently load values for distinct keys.
*
*
Caches loaded by a {@link CacheLoader} will call {@link CacheLoader#load} to load new values
* into the cache. Newly loaded values are added to the cache using {@code
* Cache.asMap().putIfAbsent} after loading has completed; if another value was associated with
* {@code key} while the new value was loading then a removal notification will be sent for the
* new value.
*
*
If the cache loader associated with this cache is known not to throw checked exceptions,
* then prefer {@link #getUnchecked} over this method.
*
* @throws ExecutionException if a checked exception was thrown while loading the value. ({@code
* ExecutionException} is thrown even if
* computation was interrupted by an {@code InterruptedException}.)
* @throws UncheckedExecutionException if an unchecked exception was thrown while loading the
* value
* @throws ExecutionError if an error was thrown while loading the value
*/
V get(K key) throws ExecutionException;
/**
* Returns the value associated with {@code key} in this cache, first loading that value if
* necessary. No observable state associated with this cache is modified until loading completes.
* Unlike {@link #get}, this method does not throw a checked exception, and thus should only be
* used in situations where checked exceptions are not thrown by the cache loader.
*
*
If another call to {@link #get} or {@link #getUnchecked} is currently loading the value for
* {@code key}, simply waits for that thread to finish and returns its loaded value. Note that
* multiple threads can concurrently load values for distinct keys.
*
*
Caches loaded by a {@link CacheLoader} will call {@link CacheLoader#load} to load new values
* into the cache. Newly loaded values are added to the cache using {@code
* Cache.asMap().putIfAbsent} after loading has completed; if another value was associated with
* {@code key} while the new value was loading then a removal notification will be sent for the
* new value.
*
*
Warning: this method silently converts checked exceptions to unchecked exceptions,
* and should not be used with cache loaders which throw checked exceptions. In such cases use
* {@link #get} instead.
*
* @throws UncheckedExecutionException if an exception was thrown while loading the value. (As
* explained in the last paragraph above, this should be an unchecked exception only.)
* @throws ExecutionError if an error was thrown while loading the value
*/
V getUnchecked(K key);
/**
* Returns a map of the values associated with {@code keys}, creating or retrieving those values
* if necessary. The returned map contains entries that were already cached, combined with newly
* loaded entries; it will never contain null keys or values.
*
*
Caches loaded by a {@link CacheLoader} will issue a single request to {@link
* CacheLoader#loadAll} for all keys which are not already present in the cache. All entries
* returned by {@link CacheLoader#loadAll} will be stored in the cache, over-writing any
* previously cached values. This method will throw an exception if {@link CacheLoader#loadAll}
* returns {@code null}, returns a map containing null keys or values, or fails to return an entry
* for each requested key.
*
*
Note that duplicate elements in {@code keys}, as determined by {@link Object#equals}, will
* be ignored.
*
* @throws ExecutionException if a checked exception was thrown while loading the value. ({@code
* ExecutionException} is thrown even if
* computation was interrupted by an {@code InterruptedException}.)
* @throws UncheckedExecutionException if an unchecked exception was thrown while loading the
* values
* @throws ExecutionError if an error was thrown while loading the values
* @since 11.0
*/
ImmutableMap getAll(Iterable extends K> keys) throws ExecutionException;
/**
* @deprecated Provided to satisfy the {@code Function} interface; use {@link #get} or {@link
* #getUnchecked} instead.
* @throws UncheckedExecutionException if an exception was thrown while loading the value. (As
* described in the documentation for {@link #getUnchecked}, {@code LoadingCache} should be
* used as a {@code Function} only with cache loaders that throw only unchecked exceptions.)
*/
@Deprecated
@Override
V apply(K key);
/**
* Loads a new value for key {@code key}, possibly asynchronously. While the new value is loading
* the previous value (if any) will continue to be returned by {@code get(key)} unless it is
* evicted. If the new value is loaded successfully it will replace the previous value in the
* cache; if an exception is thrown while refreshing the previous value will remain, and the
* exception will be logged (using {@link java.util.logging.Logger}) and swallowed.
*
* Caches loaded by a {@link CacheLoader} will call {@link CacheLoader#reload} if the cache
* currently contains a value for {@code key}, and {@link CacheLoader#load} otherwise. Loading is
* asynchronous only if {@link CacheLoader#reload} was overridden with an asynchronous
* implementation.
*
*
Returns without doing anything if another thread is currently loading the value for {@code
* key}. If the cache loader associated with this cache performs refresh asynchronously then this
* method may return before refresh completes.
*
* @since 11.0
*/
void refresh(K key);
/**
* {@inheritDoc}
*
*
Note that although the view is modifiable, no method on the returned map will ever
* cause entries to be automatically loaded.
*/
@Override
ConcurrentMap asMap();
}