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package org.cache2k;
/*
* #%L
* cache2k API
* %%
* Copyright (C) 2000 - 2020 headissue GmbH, Munich
* %%
* 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.
* #L%
*/
import org.cache2k.expiry.ExpiryPolicy;
import org.cache2k.expiry.ExpiryTimeValues;
import org.cache2k.integration.CacheLoader;
import org.cache2k.integration.CacheWriter;
import org.cache2k.integration.CacheLoaderException;
import org.cache2k.integration.CacheWriterException;
import org.cache2k.jmx.CacheInfoMXBean;
import org.cache2k.processor.EntryProcessingException;
import org.cache2k.processor.EntryProcessor;
import org.cache2k.processor.EntryProcessingResult;
import org.cache2k.processor.MutableCacheEntry;
import java.io.Closeable;
import java.util.Map;
import java.util.concurrent.Callable;
import java.util.concurrent.ConcurrentMap;
import java.util.concurrent.Executor;
import java.util.concurrent.TimeUnit;
/* Credits
*
* Descriptions derive partly from the java.util.concurrent.ConcurrentMap.
* Original copyright:
*
* Written by Doug Lea with assistance from members of JCP JSR-166
* Expert Group and released to the public domain, as explained at
* http://creativecommons.org/publicdomain/zero/1.0/
*
* Some inspiration is also from the JSR107 Java Caching standard.
*/
/**
* A cache is similar to a map or a key value store, allowing to retrieve and
* update values which are associated to keys. In contrast to a {@code HashMap} the
* cache allows concurrent access and modification to its content and
* automatically controls the amount of entries in the cache to stay within
* configured resource limits.
*
* A cache can be obtained via a {@link Cache2kBuilder}, for example:
*
*
{@code
* Cache> cache =
* new Cache2kBuilder>() {}
* .name("myCache")
* .eternal(true)
* .build();
* }
*
* Basic operation: To mutate and retrieve the cache content the operations
* {@link #put} and {@link #peek} can be used, for example:
*
*
{@code
* cache.put(1, "one");
* cache.put(2, "two");
* // might fail:
* assertTrue(cache.containsKey(1));
* assertEquals("two", cache.peek(2));
* }
*
* It is important to note that the two assertion in the above example may fail.
* A cache has not the same guarantees as a data storage, because it needs to remove
* content automatically as soon as resource limits are reached. This is called eviction.
*
* Populating: A cache may automatically populate its contents via a {@link CacheLoader}.
* For typical read mostly caching this has several advantages,
* for details see {@link CacheLoader}. When using a cache loader the
* additional methods for mutating the cache directly may not be needed. Some
* methods, that do not interact with the loader such as {@link #containsKey}
* may be false friends. To make the code more obvious and protect against
* the accidental use of methods that do not invoke the loader transparently
* a subset interface, for example the {@link KeyValueSource} can be used.
*
*
CAS-Operations: The cache has a set of operations that examine an entry
* and do a mutation in an atomic way, for example {@link #putIfAbsent}, {@link #containsAndRemove}
* and {@link #replaceIfEquals}. To allow arbitrary semantics that operate atomically on an
* {@link EntryProcessor} can be implemented and executed via {@link Cache#invoke}.
*
*
Compatibility: Future versions of cache2k may introduce new methods to this interface.
* To improve upward compatibility applications that need to implement this interface should use
* {@link AbstractCache} or {@link ForwardingCache}.
*
* @param type of the key
* @param type of the stores values
* @author Jens Wilke
* @see Cache2kBuilder to create a cache
* @see CacheManager to manage and retrieve created caches
* @see cache2k User Guide
*/
@SuppressWarnings("UnusedDeclaration")
public interface Cache extends KeyValueStore, Closeable {
/**
* A configured or generated name of this cache instance. A cache in close state will still
* return its name.
*
* @see Cache2kBuilder#name(String)
* @return name of this cache
*/
String getName();
/**
* Returns a value associated with the given key. If no value is present or it
* is expired the cache loader is invoked, if configured, or {@code null} is returned.
*
* If the {@link CacheLoader} is invoked, subsequent requests of the same key will block
* until the loading is completed. Details see {@link CacheLoader}.
*
*
As an alternative {@link #peek} can be used if the loader should
* not be invoked.
*
* @param key key with which the specified value is associated
* @return the value associated with the specified key, or
* {@code null} if there was no mapping for the key.
* (If nulls are permitted a {@code null} can also indicate that the cache
* previously associated {@code null} with the key)
* @throws ClassCastException if the class of the specified key
* prevents it from being stored in this cache
* @throws NullPointerException if the specified key is {@code null}
* @throws IllegalArgumentException if some property of the specified key
* prevents it from being stored in this cache
* @throws CacheLoaderException if the loading produced an exception .
*/
@Override
V get(K key);
/**
* Returns an entry that contains the cache value associated with the given key.
* If no entry is present or the value is expired, either the loader is invoked
* or {@code null} is returned.
*
*
If the loader is invoked, subsequent requests of the same key will block
* until the loading is completed, details see {@link CacheLoader}
*
*
In case the cache loader yields an exception, the entry object will
* be returned. The exception can be retrieved via {@link CacheEntry#getException()}.
*
*
If {@code null} values are present the method can be used to
* check for an existent mapping and retrieve the value in one API call.
*
*
The alternative method {@link #peekEntry} can be used if the loader
* should not be invoked.
*
* @param key key to retrieve the associated with the cache entry
* @throws ClassCastException if the class of the specified key
* prevents it from being stored in this cache
* @throws NullPointerException if the specified key is null
* @throws IllegalArgumentException if some property of the specified key
* prevents it from being stored in this cache
* @return An entry representing the cache mapping. Multiple calls for the same key may
* return different instances of the entry object.
*/
CacheEntry getEntry(K key);
/**
* Notifies the cache about the intention to retrieve the value for this key in the
* near future.
*
* The method will return immediately and the cache will load
* the value asynchronously if not yet present in the cache. Prefetching
* is done via a separate thread pool if specified via
* {@link Cache2kBuilder#prefetchExecutor(Executor)}.
*
*
If no {@link CacheLoader} is defined the method will do nothing.
*
*
This method doesn't throw an exception in case the loader produced
* an exception. Exceptions will be propagated when the value is accessed.
*
* @param key the key that should be loaded, not {@code null}
* @see Cache2kBuilder#loaderThreadCount(int)
* @see Cache2kBuilder#prefetchExecutor(Executor)
*/
@Override
void prefetch(K key);
/**
* Notifies the cache about the intention to retrieve the value for this key in the
* near future.
*
*
The method will return immediately and the cache will load
* the value asynchronously if not yet present in the cache. Prefetching
* is done via a separate thread pool if specified via
* {@link Cache2kBuilder#prefetchExecutor(Executor)}.
*
*
If no {@link CacheLoader} is defined the method will do nothing.
*
*
Exceptions from the loader will not be propagated via the listener.
* Exceptions will be propagated when the respective value is accessed.
*
* @param keys the keys which should be loaded, not {@code null}
* @param listener Listener interface that is invoked upon completion. May be {@code null} if no
* completion notification is needed.
*/
void prefetchAll(Iterable extends K> keys, CacheOperationCompletionListener listener);
/**
* Returns the value associated to the given key.
*
*
In contrast to {@link #get(Object)} this method solely operates
* on the cache content and does not invoke the {@linkplain CacheLoader cache loader}.
*
*
API rationale: Consequently all methods that do not invoke the loader
* but return a value or a cache entry are prefixed with {@code peek} within this interface
* to make the different semantics immediately obvious by the name.
*
* @param key key with which the specified value is associated
* @return the value associated with the specified key, or
* {@code null} if there was no mapping for the key.
* (If nulls are permitted a {@code null} can also indicate that the cache
* previously associated {@code null} with the key)
* @throws ClassCastException if the class of the specified key
* prevents it from being stored in this cache
* @throws NullPointerException if the specified key is null
* @throws IllegalArgumentException if some property of the specified key
* prevents it from being stored in this cache
* @throws CacheLoaderException if the loading produced an exception .
*/
V peek(K key);
/**
* Returns an entry that contains the cache value associated with the given key.
* If no entry is present or the value is expired, {@code null} is returned.
* The {@linkplain CacheLoader cache loader} will not be invoked by this method.
*
*
In case an exception is present, for example from a load operation carried out
* previously, the entry object will be returned. The exception can be
* retrieved via {@link CacheEntry#getException()}.
*
*
If {@code null} values are present the method can be used to
* check for an existent mapping and retrieve the value in one API call.
*
* @param key key to retrieve the associated with the cache entry
* @throws ClassCastException if the class of the specified key
* prevents it from being stored in this cache
* @throws NullPointerException if the specified key is null
* @throws IllegalArgumentException if some property of the specified key
* prevents it from being stored in this cache
* @return An entry representing the cache mapping. Multiple calls for the same key may
* return different instances of the entry object.
*/
CacheEntry peekEntry(K key);
/**
* Returns {@code true}, if there is a mapping for the specified key.
*
* Effect on statistics: The operation does increase the usage counter if a mapping is present,
* but does not count as read and therefore does not influence miss or hit values.
*
* @param key key which association should be checked
* @return {@code true}, if this cache contains a mapping for the specified
* key
* @throws ClassCastException if the key is of an inappropriate type for
* this cache
* @throws NullPointerException if the specified key is null
*/
boolean containsKey(K key);
/**
* Inserts a new value associated with the given key or updates an
* existing association of the same key with the new value.
*
*
If an {@link ExpiryPolicy} is specified in the
* cache configuration it is called and will determine the expiry time.
* If a {@link CacheWriter} is registered, then it is called with the
* new value. If the {@link ExpiryPolicy} or {@link CacheWriter}
* yield an exception the operation will be aborted and the previous
* mapping will be preserved.
*
* @param key key with which the specified value is associated
* @param value value to be associated with the specified key
* @throws ClassCastException if the class of the specified key or value
* prevents it from being stored in this cache.
* @throws NullPointerException if the specified key is null or the
* value is null and the cache does not permit null values
* @throws IllegalArgumentException if some property of the specified key
* or value prevents it from being stored in this cache.
* @throws CacheException if the cache was unable to process the request
* completely, for example, if an exceptions was thrown
* by a {@link CacheWriter}
*/
@Override
void put(K key, V value);
/**
* If the specified key is not already associated with a value (or exception),
* call the provided task and associate it with the returned value. This is equivalent to
*
*
{@code
* if (!cache.containsKey(key)) {
* V value = callable.call();
* cache.put(key, value);
* return value;
* } else {
* return cache.peek(key);
* }}
*
* except that the action is performed atomically.
*
* See {@link #put(Object, Object)} for the effects on the cache writer and
* expiry calculation.
*
*
Statistics: If an entry exists this operation counts as a hit, if the entry
* is missing, a miss and put is counted.
*
*
Exceptions: If call throws an exception the cache contents will
* not be modified and the exception is propagated. The customized exception propagator is not
* used for this method.
*
*
Rationale: The {@code Function} interface that {@code Map.computeIfAbsent} uses is only
* available in Java 8. {@code Callable} is a useful fallback and we can use it directly
* for the Spring integration. A mismatch is that {@code Callable.call()} declares a checked
* exception but the cache access method do not.
*
* @param key key with which the specified value is to be associated
* @param callable task that computes the value
* @return the associated value in the cache
* @throws CacheLoaderException if a checked exception is thrown it is wrapped into a
* {@code CacheLoaderException}
* @throws RuntimeException in case {@link Callable#call} yields a runtime exception,
* this is thrown directly
* @throws ClassCastException if the class of the specified key or value
* prevents it from being stored in this cache
* @throws NullPointerException if the specified key is {@code null} or the
* value is {@code null} and the cache does not permit {@code null} values
* @throws IllegalArgumentException if some property of the specified key
* or value prevents it from being stored in this cache
*/
V computeIfAbsent(K key, Callable callable);
/**
* If the specified key is not already associated
* with a value, associate it with the given value.
* This is equivalent to
* {@code
* if (!cache.containsKey(key)) {
* cache.put(key, value);
* return true;
* } else {
* return false;
* }}
*
* except that the action is performed atomically.
*
* See {@link #put(Object, Object)} for the effects on the cache writer and
* expiry calculation.
*
*
Statistics: If an entry exists this operation counts as a hit, if the entry
* is missing, a miss and put is counted. This definition is identical to the JSR107
* statistics semantics. This is not consistent with other operations like
* {@link #containsAndRemove(Object)} and {@link #containsKey(Object)} that don't update
* the hit and miss counter if solely the existence of an entry is tested and not the
* value itself is requested. This counting is subject to discussion and future change.
*
* @param key key with which the specified value is to be associated
* @param value value to be associated with the specified key
* @return {@code true}, if no entry was present and the value was associated with the key
* @throws ClassCastException if the class of the specified key or value
* prevents it from being stored in this cache
* @throws NullPointerException if the specified key is null or the
* value is null and the cache does not permit null values
* @throws IllegalArgumentException if some property of the specified key
* or value prevents it from being stored in this cache
*/
boolean putIfAbsent(K key, V value);
/**
* Replaces the entry for a key only if currently mapped to some value.
* This is equivalent to
*
{@code
* if (cache.containsKey(key)) {
* cache.put(key, value);
* return cache.peek(key);
* } else
* return null;
* }
*
* except that the action is performed atomically.
*
* As with {@link #peek(Object)}, no request to the {@link CacheLoader} is made,
* if no entry is associated to the requested key.
*
* @param key key with which the specified value is associated
* @param value value to be associated with the specified key
* @return the previous value associated with the specified key, or
* {@code null} if there was no mapping for the key.
* (A {@code null} return can also indicate that the cache
* previously associated {@code null} with the key)
* @throws ClassCastException if the class of the specified key or value
* prevents it from being stored in this cache
* @throws NullPointerException if the specified key is null or the
* value is null and the cache does not permit null values
* @throws IllegalArgumentException if some property of the specified key
* or value prevents it from being stored in this cache
* @throws CacheLoaderException if the loading of the entry produced
* an exception, which was not suppressed and is not yet expired
*/
V peekAndReplace(K key, V value);
/**
* Replaces the entry for a key only if currently mapped to some value.
* This is equivalent to
*
{@code
* if (cache.containsKey(key)) {
* cache.put(key, value);
* return true
* } else
* return false;
* }
*
* except that the action is performed atomically.
*
* Statistics: If an entry exists this operation counts as a hit, if the entry
* is missing, a miss and put is counted. This definition is identical to the JSR107
* statistics semantics. This is not consistent with other operations like
* {@link #containsAndRemove(Object)} and {@link #containsKey(Object)} that don't update
* the hit and miss counter if solely the existence of an entry is tested and not the
* value itself is requested. This counting is subject to discussion and future change.
*
* @param key key with which the specified value is associated
* @param value value to be associated with the specified key
* @return {@code true} if a mapping is present and the value was replaced.
* {@code false} if no entry is present and no action was performed.
* @throws ClassCastException if the class of the specified key or value
* prevents it from being stored in this cache.
* @throws NullPointerException if the specified key is null or the
* value is null and the cache does not permit null values
* @throws IllegalArgumentException if some property of the specified key
* or value prevents it from being stored in this cache.
*/
boolean replace(K key, V value);
/**
* Replaces the entry for a key only if currently mapped to a given value.
* This is equivalent to
*
{@code
* if (cache.containsKey(key) && Objects.equals(cache.get(key), oldValue)) {
* cache.put(key, newValue);
* return true;
* } else
* return false;
* }
*
* except that the action is performed atomically.
*
* @param key key with which the specified value is associated
* @param oldValue value expected to be associated with the specified key
* @param newValue value to be associated with the specified key
* @return {@code true} if the value was replaced
* @throws ClassCastException if the class of a specified key or value
* prevents it from being stored in this map
* @throws NullPointerException if a specified key or value is null,
* and this map does not permit null keys or values
* @throws IllegalArgumentException if some property of a specified key
* or value prevents it from being stored in this map
*/
boolean replaceIfEquals(K key, V oldValue, V newValue);
/**
* Removes the mapping for a key from the cache if it is present.
*
* Returns the value to which the cache previously associated the key,
* or {@code null} if the cache contained no mapping for the key.
*
*
If the cache does permit null values, then a return value of
* {@code null} does not necessarily indicate that the cache
* contained no mapping for the key. It is also possible that the cache
* explicitly associated the key to the value {@code null}.
*
* This is equivalent to
*
{@code
* V tmp = cache.peek(key);
* cache.remove(key);
* return tmp;
* }
*
* except that the action is performed atomically.
*
* As with {@link #peek(Object)}, no request to the {@link CacheLoader} is made,
* if no entry is associated to the requested key.
*
* @param key key whose mapping is to be removed from the cache
* @return the previous value associated with key, or
* null if there was no mapping for key.
* @throws NullPointerException if a specified key is null
* @throws ClassCastException if the key is of an inappropriate type for
* the cache. This check is optional depending on the cache
* configuration.
*/
V peekAndRemove(K key);
/**
* Removes the mapping for a key from the cache and returns {@code true} if it
* one was present.
*
* @param key key whose mapping is to be removed from the cache
* @return {@code true} if the cache contained a mapping for the specified key
* @throws NullPointerException if a specified key is null
* @throws ClassCastException if the key is of an inappropriate type for
* the cache. This check is optional depending on the cache
* configuration.
*/
boolean containsAndRemove(K key);
/**
* Removes the mapping for a key from the cache if it is present.
*
*
If a writer is registered {@link CacheWriter#delete(Object)} will get called.
*
*
These alternative versions of the remove operation exist:
*
* - {@link #containsAndRemove(Object)}, returning a success flag
* - {@link #peekAndRemove(Object)}, returning the removed value
* - {@link #removeIfEquals(Object, Object)}, conditional removal matching on the current
* value
*
*
* See {@link KeyValueStore#remove(Object)}, for an explanation why no flag or object is
* returned.
*
* @param key key which mapping is to be removed from the cache, not null
* @throws NullPointerException if a specified key is null
* @throws ClassCastException if the key is of an inappropriate type for
* this map
* @throws CacheWriterException if the writer call failed
*/
@Override
void remove(K key);
/**
* Remove the mapping if the stored value is the equal to the comparison value.
*
* @param key key whose mapping is to be removed from the cache
* @param expectedValue value that must match with the existing value in the cache
* @throws NullPointerException if a specified key is null
* @throws ClassCastException if the key is of an inappropriate type for
* this map
* @return true, if mapping was removed
*/
boolean removeIfEquals(K key, V expectedValue);
/**
* Removes a set of keys. This has the same semantics of calling
* remove to every key, except that the cache is trying to optimize the
* bulk operation.
*
* @param keys a set of keys to remove
* @throws NullPointerException if a specified key is null
*/
@Override
void removeAll(Iterable extends K> keys);
/**
* Updates an existing cache entry for the specified key, so it associates
* the given value, or, insert a new cache entry for this key and value. The previous
* value will returned, or null if none was available.
*
*
Returns the value to which the cache previously associated the key,
* or {@code null} if the cache contained no mapping for the key.
*
*
If the cache does permit null values, then a return value of
* {@code null} does not necessarily indicate that the cache
* contained no mapping for the key. It is also possible that the cache
* explicitly associated the key to the value {@code null}.
*
* This is equivalent to
*
{@code
* V tmp = cache.peek(key);
* cache.put(key, value);
* return tmp;
* }
*
* except that the action is performed atomically.
*
* As with {@link #peek(Object)}, no request to the {@link CacheLoader} is made,
* if no entry is associated to the requested key.
*
*
See {@link #put(Object, Object)} for the effects on the cache writer and
* expiry calculation.
*
* @param key key with which the specified value is associated
* @param value value to be associated with the specified key
* @return {@code true} if a mapping is present and the value was replaced.
* {@code false} if no entry is present and no action was performed.
* @throws ClassCastException if the class of the specified key or value
* prevents it from being stored in this cache.
* @throws NullPointerException if the specified key is null or the
* value is null and the cache does not permit null values
* @throws IllegalArgumentException if some property of the specified key
* or value prevents it from being stored in this cache.
*/
V peekAndPut(K key, V value);
/**
* Updates an existing not expired mapping to expire at the given point in time.
* If there is no mapping associated with the key or it is already expired, this
* operation has no effect. The special values {@link org.cache2k.expiry.Expiry#NOW} and
* {@link org.cache2k.expiry.Expiry#REFRESH} also effect an entry that was just
* refreshed.
*
*
If the expiry time is in the past, the entry will expire immediately and
* refresh ahead is triggered, if enabled.
*
*
Although the special time value {@link org.cache2k.expiry.Expiry#NOW} will lead
* to an effective removal of the cache entry, the writer is not called, since the
* method is for cache control only.
*
*
The cache must be configured with a {@link ExpiryPolicy} or
* {@link Cache2kBuilder#expireAfterWrite(long, TimeUnit)} otherwise expiry
* timing is not available and this method will throw an exception. An immediate expire
* via {@link org.cache2k.expiry.Expiry#NOW} is always working.
*
* @param key key with which the specified value is associated
* @param millis Time in milliseconds since epoch when the entry should expire.
* Also see {@link ExpiryTimeValues}
* @throws IllegalArgumentException if no expiry was enabled during cache setup.
*/
void expireAt(K key, long millis);
/**
* Asynchronously loads the given set of keys into the cache. Only missing or expired
* values will be loaded.
*
*
The cache uses multiple threads to load the values in parallel. If thread resources
* are not sufficient, meaning the used executor is throwing
* {@link java.util.concurrent.RejectedExecutionException} the calling thread is used to produce
* back pressure.
*
*
If no loader is defined, the method will throw an immediate exception.
*
*
After the load is completed, the completion listener will be called, if provided.
*
* @param keys The keys to be loaded
* @param listener Listener interface that is invoked upon completion. May be {@code null} if no
* completion notification is needed.
* @throws UnsupportedOperationException if no loader is defined
*/
void loadAll(Iterable extends K> keys, CacheOperationCompletionListener listener);
/**
* Asynchronously loads the given set of keys into the cache. Always invokes load for all keys
* and replaces values already in the cache.
*
*
The cache uses multiple threads to load the values in parallel. If thread resources
* are not sufficient, meaning the used executor is throwing
* {@link java.util.concurrent.RejectedExecutionException} the calling thread is used to produce
* back pressure.
*
*
If no loader is defined, the method will throw an immediate exception.
*
*
After the load is completed, the completion listener will be called, if provided.
*
* @param keys The keys to be loaded
* @param listener Listener interface that is invoked upon completion. May be {@code null} if no
* completion notification is needed.
* @throws UnsupportedOperationException if no loader is defined
*/
void reloadAll(Iterable extends K> keys, CacheOperationCompletionListener listener);
/**
* Invoke a user defined function on a cache entry.
*
* For examples and further details consult the documentation of {@link EntryProcessor}
* and {@link org.cache2k.processor.MutableCacheEntry}.
*
* @param key the key of the cache entry that should be processed
* @param entryProcessor processor instance to be invoked
* @param type of the result
* @throws EntryProcessingException if an exception happened inside
* {@link EntryProcessor#process(MutableCacheEntry)}
* @return result provided by the entry processor
* @see EntryProcessor
* @see org.cache2k.processor.MutableCacheEntry
*/
R invoke(K key, EntryProcessor entryProcessor);
/**
* Invoke a user defined function on multiple cache entries specified by the
* {@code keys} parameter.
*
* The order of the invocation is unspecified. To speed up processing the cache
* may invoke the entry processor in parallel.
*
* For examples and further details consult the documentation of {@link EntryProcessor}
* and {@link org.cache2k.processor.MutableCacheEntry}.
*
* @param keys the keys of the cache entries that should be processed
* @param entryProcessor processor instance to be invoked
* @param type of the result
* @return map containing the invocation results for every cache key
* @see EntryProcessor
* @see org.cache2k.processor.MutableCacheEntry
*/
Map> invokeAll(
Iterable extends K> keys, EntryProcessor entryProcessor);
/**
* Retrieve values from the cache associated with the provided keys. If the
* value is not yet in the cache, the loader is invoked.
*
* Executing the request, the cache may do optimizations like
* utilizing multiple threads for invoking the loader or using the bulk
* methods on the loader. This is not yet fully exploited and will improve
* with further cache2k releases.
*
*
Exception handling: The method may terminate normal, even if the cache
* loader failed to provide values for some keys. The cache will generally
* do everything to delay the propagation of the exception until the key is requested,
* to be most specific. If the loader has permanent failures this method may
* throw an exception immediately.
*
*
The operation is not performed atomically. This operation may call different
* loader methods either {@link CacheLoader#loadAll(Iterable, Executor)} or
* {@link CacheLoader#load(Object)}.
*
*
Performance: A better technique is using {@link Cache#prefetchAll}
* and then {@link Cache#get(Object)} to request the the values.
*
* @throws NullPointerException if one of the specified keys is null
* @throws CacheLoaderException in case the loader has permanent failures.
* Otherwise the exception is thrown when the key is requested.
*/
@Override
Map getAll(Iterable extends K> keys);
/**
* Bulk version for {@link #peek(Object)}
*
* If the cache permits null values, the map will contain entries
* mapped to a null value.
*
*
If the loading of an entry produced an exception, which was not
* suppressed and is not yet expired. This exception will be thrown
* as {@link CacheLoaderException} when the entry is accessed
* via the map interface.
*
*
The operation is not performed atomically. Mutations of the cache during
* this operation may or may not affect the result.
*
* @throws NullPointerException if one of the specified keys is null
* @throws IllegalArgumentException if some property of the specified key
* prevents it from being stored in this cache
*/
Map peekAll(Iterable extends K> keys);
/**
* Insert all elements of the map into the cache.
*
* See {@link Cache#put(Object, Object)} for information about the
* interaction with the {@link CacheWriter} and {@link ExpiryPolicy}
*
* @param valueMap Map of keys with associated values to be inserted in the cache
* @throws NullPointerException if one of the specified keys is null
*/
@Override
void putAll(Map extends K, ? extends V> valueMap);
/**
* Iterate all keys in the cache.
*
*
Contract: The iteration is usable while concurrent operations happen on the cache.
* All entry keys will be iterated when present in the cache at the moment
* of the call to {@link Iterable#iterator()}. An expiration or mutation
* happening during the iteration, may or may not be reflected. Separate calls to
* {@link Iterable#iterator()} to the identical {@code Iterable} instance start
* a separate iteration. It is ensured that every key is only iterated once.
*
*
The iterator itself is not thread safe. Calls to one iterator instance from
* different threads are illegal or need proper synchronization.
*
*
Statistics: Iteration is neutral to the cache statistics.
*
*
Efficiency: Iterating keys is faster as iterating complete entries.
*/
Iterable keys();
/**
* Iterate all entries in the cache.
*
* See {@link #keys()} for the general iterator contract.
*
*
Efficiency: Iterating entries is less efficient then just iterating keys. The cache
* needs to create a new entry object and employ some sort of synchronisation to supply a
* consistent and immutable entry.
*
* @see #keys()
*/
Iterable> entries();
/**
* Removes all cache contents. This has the same semantics of calling
* remove to every key, except that the cache is trying to optimize the
* bulk operation. Same as {@code clear} but listeners will be called.
*/
void removeAll();
/**
* Clear the cache in a fast way, causing minimal disruption. Not calling the listeners.
*/
void clear();
/**
* This is currently identical to {@link Cache#close()}.
*
* This method is to future proof the API, when a persistence feature is added.
* In this case the method will stop cache operations and remove all stored external data.
*
*
Rationale: The corresponding method in JSR107 is {@code CacheManager.destroyCache()}.
* Decided to put it on the cache interface, because: An application can finish its operation on
* a cache with one API call; to destroy all the cached data the cache must read the configuration
* and build its internal representation, which leads to a "half activated" cache; the additional
* call may lead to a race conditions.
*/
void clearAndClose();
/**
* Free all resources and remove the cache from the CacheManager.
*
*
The method is designed to free resources and finish operations as gracefully and fast
* as possible. Some cache operations take an unpredictable long time such as the call of
* the {@link CacheLoader}, so it may happen that the cache still has threads
* in use when this method returns.
*
*
After close, subsequent cache operations will throw a {@link IllegalStateException}.
* Cache operations currently in progress, may or may not terminated with an exception.
* A subsequent call to close will not throw an exception.
*
*
If all caches need to be closed it is more effective to use {@link CacheManager#close()}
*
*
The next releases of cache2k may store cache entries between restarts. If an application
* will never use the cached content again, the method {@link #clearAndClose()} should be used
* instead.
*/
void close();
/**
* Return the cache manager for this cache instance.
*/
CacheManager getCacheManager();
/**
* Returns {@code true} if cache was closed or closing is in progress.
*/
boolean isClosed();
/**
* Returns internal information. This is an expensive operation, since internal statistics are
* collected. During the call, concurrent operations on the cache may be blocked. This method will
* not throw the {@link IllegalStateException} in case the cache is closed, but return the
* solely the cache name and no statistics.
*/
String toString();
/**
* Request an alternative interface for this cache instance.
*/
X requestInterface(Class type);
/**
* Returns a map interface for operating with this cache. Operations on the map
* affect the cache directly, as well as modifications on the cache will affect the map.
*
* The returned map supports {@code null} values if enabled via
* {@link Cache2kBuilder#permitNullValues(boolean)}.
*
*
The {@code equals} and {@code hashCode} methods of the {@code Map} are forwarded to the
* cache. A map is considered identical when from the same cache instance. This is not compatible
* to the general {@code Map} contract.
*
*
Multiple calls to this method return a new object instance which is a wrapper of the cache
* instance. Calling this method is a cheap operation.
*
*
The current {@code ConcurrentMap} implementation is minimalistic and not optimized for all
* usage aspects. Calling the cache methods directly could be more effective.
*
* @return {@code ConcurrentMap} wrapper for this cache instance
*/
ConcurrentMap asMap();
/**
* Return cache statistics. The result is never {@code null} regardless of the settings
* {@link Cache2kBuilder#enableJmx(boolean)} or {@link Cache2kBuilder#disableStatistics(boolean)}
*
* @since 1.4
*/
CacheInfoMXBean getStatistics();
}