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/*
 * Copyright 2014 Ben Manes. All Rights Reserved.
 *
 * 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.github.benmanes.caffeine.cache;

import static java.util.Objects.requireNonNull;

import java.util.Map;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.CompletionException;
import java.util.concurrent.Executor;

import org.checkerframework.checker.nullness.qual.NonNull;
import org.checkerframework.checker.nullness.qual.Nullable;

/**
 * Computes or retrieves values, based on a key, for use in populating a {@link LoadingCache} or
 * {@link AsyncLoadingCache}.
 * 

* Most implementations will only need to implement {@link #load}. Other methods may be * overridden as desired. *

* Usage example: *

{@code
 *   CacheLoader loader = key -> createExpensiveGraph(key);
 *   LoadingCache cache = Caffeine.newBuilder().build(loader);
 * }
* * @author [email protected] (Ben Manes) */ @FunctionalInterface @SuppressWarnings({"PMD.SignatureDeclareThrowsException", "FunctionalInterfaceMethodChanged"}) public interface CacheLoader extends AsyncCacheLoader { /** * Computes or retrieves the value corresponding to {@code key}. *

* Warning: loading must not attempt to update any mappings of this cache directly. * * @param key the non-null key whose value should be loaded * @return the value associated with {@code key} or {@code null} if not found * @throws Exception or Error, in which case the mapping is unchanged * @throws InterruptedException if this method is interrupted. {@code InterruptedException} is * treated like any other {@code Exception} in all respects except that, when it is * caught, the thread's interrupt status is set */ @Nullable V load(@NonNull K key) throws Exception; /** * Computes or retrieves the values corresponding to {@code keys}. This method is called by * {@link LoadingCache#getAll}. *

* If the returned map doesn't contain all requested {@code keys} then the entries it does contain * will be cached and {@code getAll} will return the partial results. If the returned map contains * extra keys not present in {@code keys} then all returned entries will be cached, but only the * entries for {@code keys} will be returned from {@code getAll}. *

* This method should be overridden when bulk retrieval is significantly more efficient than many * individual lookups. Note that {@link LoadingCache#getAll} will defer to individual calls to * {@link LoadingCache#get} if this method is not overridden. *

* Warning: loading must not attempt to update any mappings of this cache directly. * * @param keys the unique, non-null keys whose values should be loaded * @return a map from each key in {@code keys} to the value associated with that key; may not * contain null values * @throws Exception or Error, in which case the mappings are unchanged * @throws InterruptedException if this method is interrupted. {@code InterruptedException} is * treated like any other {@code Exception} in all respects except that, when it is * caught, the thread's interrupt status is set */ @NonNull default Map<@NonNull K, @NonNull V> loadAll( @NonNull Iterable keys) throws Exception { throw new UnsupportedOperationException(); } /** * Asynchronously computes or retrieves the value corresponding to {@code key}. * * @param key the non-null key whose value should be loaded * @param executor the executor that asynchronously loads the entry * @return the future value associated with {@code key} */ @Override @NonNull default CompletableFuture asyncLoad(@NonNull K key, @NonNull Executor executor) { requireNonNull(key); requireNonNull(executor); return CompletableFuture.supplyAsync(() -> { try { return load(key); } catch (RuntimeException e) { throw e; } catch (Exception e) { throw new CompletionException(e); } }, executor); } /** * Asynchronously computes or retrieves the values corresponding to {@code keys}. This method is * called by {@link AsyncLoadingCache#getAll}. *

* If the returned map doesn't contain all requested {@code keys} then the entries it does contain * will be cached and {@code getAll} will return the partial results. If the returned map contains * extra keys not present in {@code keys} then all returned entries will be cached, but only the * entries for {@code keys} will be returned from {@code getAll}. *

* This method should be overridden when bulk retrieval is significantly more efficient than many * individual lookups. Note that {@link AsyncLoadingCache#getAll} will defer to individual calls * to {@link AsyncLoadingCache#get} if this method is not overridden. * * @param keys the unique, non-null keys whose values should be loaded * @param executor the executor that with asynchronously loads the entries * @return a future containing the map from each key in {@code keys} to the value associated with * that key; may not contain null values */ @Override @NonNull default CompletableFuture> asyncLoadAll( @NonNull Iterable keys, @NonNull Executor executor) { requireNonNull(keys); requireNonNull(executor); return CompletableFuture.supplyAsync(() -> { try { return loadAll(keys); } catch (RuntimeException e) { throw e; } catch (Exception e) { throw new CompletionException(e); } }, executor); } /** * Computes or retrieves a replacement value corresponding to an already-cached {@code key}. If * the replacement value is not found then the mapping will be removed if {@code null} is * returned. This method is called when an existing cache entry is refreshed by * {@link Caffeine#refreshAfterWrite}, or through a call to {@link LoadingCache#refresh}. *

* Note: all exceptions thrown by this method will be logged and then swallowed. * * @param key the non-null key whose value should be loaded * @param oldValue the non-null old value corresponding to {@code key} * @return the new value associated with {@code key}, or {@code null} if the mapping is to be * removed * @throws Exception or Error, in which case the mapping is unchanged * @throws InterruptedException if this method is interrupted. {@code InterruptedException} is * treated like any other {@code Exception} in all respects except that, when it is * caught, the thread's interrupt status is set */ @Nullable default V reload(@NonNull K key, @NonNull V oldValue) throws Exception { return load(key); } /** * Asynchronously computes or retrieves a replacement value corresponding to an already-cached * {@code key}. If the replacement value is not found then the mapping will be removed if * {@code null} is computed. This method is called when an existing cache entry is refreshed by * {@link Caffeine#refreshAfterWrite}, or through a call to {@link LoadingCache#refresh}. *

* Note: all exceptions thrown by this method will be logged and then swallowed. * * @param key the non-null key whose value should be loaded * @param oldValue the non-null old value corresponding to {@code key} * @param executor the executor with which the entry is asynchronously loaded * @return a future containing the new value associated with {@code key}, or containing * {@code null} if the mapping is to be removed */ @Override @NonNull default CompletableFuture asyncReload( @NonNull K key, @NonNull V oldValue, @NonNull Executor executor) { requireNonNull(key); requireNonNull(executor); return CompletableFuture.supplyAsync(() -> { try { return reload(key, oldValue); } catch (RuntimeException e) { throw e; } catch (Exception e) { throw new CompletionException(e); } }, executor); } }





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