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A light weight and high performance Java caching library. Android and Java 6 compatible. This artifact contains the official API of cache2k.

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package org.cache2k.expiry;

/*
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 * cache2k API
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 * Copyright (C) 2000 - 2020 headissue GmbH, Munich
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 * 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
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 *      http://www.apache.org/licenses/LICENSE-2.0
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 * Unless required by applicable law or agreed to in writing, software
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import org.cache2k.Cache2kBuilder;
import org.cache2k.CacheEntry;

import java.util.concurrent.TimeUnit;

/**
 * A custom policy which allows to calculate a dynamic expiry time for an entry after an
 * insert or update.
 *
 * 

For some expiry calculations it is useful to know the previous entry, e.g. to detect * whether the stored data was updated. If a previous value is present in the cache, * it is passed to this method. Expired old entries will be passed in also, if still present * in the cache. * *

The expiry policy is also used for refresh ahead, determining the time when an entry should * be automatically refreshed. * * @author Jens Wilke * @since 0.20 * @see * cache2k user guide - Expiry and Refresh * @see Cache2kBuilder#expiryPolicy(ExpiryPolicy) * @see Cache2kBuilder#refreshAhead(boolean) * @see Cache2kBuilder#expireAfterWrite(long, TimeUnit) */ public interface ExpiryPolicy extends ExpiryTimeValues { /** * Returns the time of expiry in milliseconds since epoch. * *

By default expiry itself happens lenient, which means the expiry happens * zero or some milliseconds after the obtained time. If sharp expiry is requested, * the value will not be returned any more by the cache when the point in time is reached. * The cache parameters {@link Cache2kBuilder#sharpExpiry(boolean)} * and {@link Cache2kBuilder#refreshAhead(boolean)} influence the behaviour. * It is also possible to request a sharp timeout for some entries. This is done * by returning a negative time value, see the further comments for the return * value below. * *

Inserts or updates: It is possible to return different expiry times for * inserts or updates. An update can be detected by the presence of the old entry. * *

Calling cache operations: It is illegal to call any * cache methods from this method. The outcome is undefined and it can * cause a deadlock. * *

Calling time:

The method is called from the cache whenever a * cache entry is updated. However, it is legal that the cache calls the * method at arbitrary times during the entry lifecycle. * *

{@code null} values: If the loader returns a {@code null} value, the expiry * policy will be called, regardless of the {@link Cache2kBuilder#permitNullValues} setting. * If the expiry policy returns a {@link #NO_CACHE} the entry will be removed. If the expiry * policy returns a different time value, a {@code NullPointerException} will be propagated * if {@code null} values are not permitted. * *

API rationale: The recently loaded or inserted data is not passed in via a cache * entry object. Using a cache entry is desirable for API design reasons to have a thinner * interface. But the "real" entry can only be filled after the expiry policy is done, passing * in an entry object would mean to build a temporary object, increasing GC load. Second, the * properties that are needed by the implementation are available directly. The downside, OTOH, * 4-arity breaks Java 8 lambdas. * * @param key the cache key used for inserting or loading * @param value the value to be cached. May be {@code null} if the loader returns {@code null}, * regardless of the {@link Cache2kBuilder#permitNullValues} setting. * @param loadTime The time the entry was inserted or loaded. If a loader was used, * this is the time before the loader was called. * @param oldEntry entry representing the current mapping, if there is a value present. * If the old entry holds an exception, this is {@code null}. Expired entries * will be passed in as well if still in the cache. * @return time the time of expiry in millis since epoch. {@link #NO_CACHE} if it should not * cached. If {@link Cache2kBuilder#refreshAhead} is enabled the return value * {@link #NO_CACHE} will remove the entry from the cache and trigger an immediate * refresh. The return value {@link #ETERNAL} means that there is no specific expiry time * known or needed. The effective expiry duration will never be longer than the configured * expiry value via {@link Cache2kBuilder#expireAfterWrite(long, TimeUnit)}. * If a negative value is returned, the negated value will be the expiry time * used, but sharp expiry is requested. Use {@link Expiry#toSharpTime(long)} to have a * more expressive code. Switching on * {@link Cache2kBuilder#sharpExpiry(boolean)} means always sharp expiry. * * @see ValueWithExpiryTime#getCacheExpiryTime() */ long calculateExpiryTime( K key, V value, long loadTime, CacheEntry oldEntry); }





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