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/*
 * Copyright 2013 Romain Gilles
 *
 *    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.javabits.yar;


import com.google.common.reflect.TypeToken;

import javax.annotation.Nullable;
import javax.annotation.concurrent.ThreadSafe;
import java.lang.reflect.Type;
import java.util.Collection;
import java.util.List;
import java.util.Set;
import java.util.concurrent.TimeUnit;

/**
 * It represent a storage to share capabilities with other component.
 * The capabilities are represented by Guava {@code Supplier}.
 *
 * @author Romain Gilles
 * @since 1.0
 */
@ThreadSafe
public interface Registry {

    TimeUnit DEFAULT_TIME_UNIT = TimeUnit.MILLISECONDS;
    //5 minutes
    long DEFAULT_TIMEOUT = 1000 * 60 * 5L;

    /**
     * Returns all the {@link Id}s contained by this registry
     * at a certain point of time.
     * 

The returned {@code Set} is not link to the registry. Any modification * to the content of the registry are not reported to this {@code Set}. You can * see it as a snapshot.

*

This intent of this method is to provide information on the content * of the {@code Registry}. It can be used for monitoring and supervision.

*

Warning: Due to the dynamic nature of the {@code Registry} the returned * {@code Set} must be immutable. And you must get, it use and discard it. Keeping * a long reference to it can introduce issues as memory leak. As it is a snapshot * of the {@code Registry} content it as only informational value.

* * @return all the ids contained by this registry. */ Set> ids(); /** * Returns all the {@link Type}s contained by this registry * at a certain point of time. The registry can contains more * than one {@link Id} for a given type. Therefore the size of the * {@code Set} returned by {@link #ids()} is {@code >=} to the size * of the {@code Set} returned by this method. *

The returned {@code Set} can be link to the registry state. Any modification * to the content of the registry may have to be reported to this {@code Set}. You can * see it as a in sync with the registry. But it must be unmodifiable.

*

This intent of this method is to provide information on the content * of the {@code Registry}. It can be used for monitoring and supervision.

*

Warning: Due to the dynamic nature of the {@code Registry} the returned * {@code Set} must be immutable. And you must get, it use and discard it. Keeping * a long reference to it can introduce issues as memory leak. As it is a snapshot * of the {@code Registry} content it as only informational value.

* * @return all the types contained by this registry. */ Set types(); /** * Returns the first {@link Supplier} to which the specified type is mapped * or {@code null} if the map contains no mapping for this type. *

*

More formally, if this registry contains at least a mapping for a type * then it returns the first available mapping where for a given type {@code t} for all * ids in the registry returns the first {@link Supplier} where {@code id.type()} == {@code t}

* * @param type not {@code null} type whose associated {@link Supplier} is to be returned * @param the matching type between the class parameter and the returned {@link Supplier} * @return the value to which the specified type is mapped, or * {@code null} if this map contains no mapping for the key * @throws NullPointerException if the given type parameter is {@code null} */ @Nullable Supplier get(Class type); /** * Returns all {@link Supplier}s to which the specified type is mapped * or an empty list if the map contains no mapping for this type. *

*

More formally, if this registry contains a mapping for a type * then it returns all available mapping where for a given type {@code t} * ids {@code id} in the registry returns {@link Supplier}s * where {@code id.type()} == {@code t}

* * @param type not {@code null} type whose associated {@link Supplier}s are to be returned * @param the matching type between the class parameter and the returned {@link Supplier}s * @return the list of {@link Supplier}s value to which the specified type is mapped, or * an empty list if this map contains no mapping for the given type. * @throws NullPointerException if the given type parameter is {@code null}. */ List> getAll(Class type); /** * Returns the first {@link Supplier} to which the specified id is mapped * or {@code null} if the map contains no mapping for this id. *

*

More formally, if this registry contains at least a mapping for an id * then it returns the first available mapping where for a given identifier {@code id} for all * ids {@code other} in the registry returns the first {@link Supplier} where {@code id.equals(other)}

*

This method is a strict comparison regarding the {@link #get(Class)} * and {@link #get(com.google.common.reflect.TypeToken)} which are more weak.

* * @param id not {@code null} {@link Id} whose associated {@link Supplier} is to be returned. * @param the matching type between the {@link Id} parameter and the returned {@link Supplier} * @return the value to which the specified {@link Id} is mapped, or * {@code null} if this map contains no mapping for the given {@link Id}. * @throws NullPointerException if the given {@link Id} parameter is {@code null}. */ @Nullable Supplier get(Id id); /** * Returns all {@link Supplier}s to which the specified {@link Id} is mapped * or an empty list if the map contains no mapping for this type. *

*

More formally, if this registry contains a mapping for a {@link Id} * then it returns all available mapping where for a given {@link Id} id * ids {@code otherId} in the registry {@code id.equals(otherId)}

*

This method is a strict comparison regarding the {@link #getAll(Class)} * and {@link #getAll(com.google.common.reflect.TypeToken)} which are more weak.

* * @param id not {@code null} {@link Id} whose associated {@link Supplier}s are to be returned * @param the matching type between the class parameter and the returned {@link Supplier}s * @return the list of {@link Supplier}s value to which the specified {@link Id} is mapped, or * an empty list if this map contains no mapping for the given {@link Id}. * @throws NullPointerException if the given {@link Id} parameter is {@code null}. */ List> getAll(Id id); /** * Returns the first {@link Supplier} to which the specified type is mapped * or {@code null} if the map contains no mapping for this type. *

*

More formally, if this registry contains at least a mapping for a type * then it returns the first available mapping where for a given {@code TypeToken} {@code t} for all * ids in the registry if {@code id.type()} == {@code t.getType()}

*

This implementation is lest strict that the {@link #get(Id)} because it just validate * the type and forget the annotation.

* * @param type not {@code null} type whose associated {@link Supplier} is to be returned * @param the matching type between the class parameter and the returned {@link Supplier} * @return the value to which the specified type is mapped, or * {@code null} if this map contains no mapping for the key * @throws NullPointerException if the given type parameter is {@code null} */ @Nullable Supplier get(TypeToken type); /** * Returns all {@link Supplier}s to which the specified {@code TypeToken} is mapped * or an empty list if the map contains no mapping for this type. *

*

More formally, if this registry contains a mapping for a {@code TypeToken} * then it returns all available mapping where for a given {@code TypeToken} {@code t}, * ids ({@code otherId}) in the registry match: {@code t.getType() == otherId.type()}

*

This method is not strict comparison regarding the {@link #getAll(Id)} * as it just validate the type and not the annotation.

*

This version of the getAll(...) method provide more type safety than the {@link #get(Class)}.

* * @param type not {@code null} {@code TypeToken} whose associated {@link Supplier}s are to be returned. * @param the matching type between the type parameter and the returned {@link Supplier}s * @return the list of {@link Supplier}s value to which the specified {@link Id} is mapped, or * an empty list if this map contains no mapping for the given {@link Id}. * @throws NullPointerException if the given {@code TypeToken} parameter is {@code null}. */ List> getAll(TypeToken type); /** * Associates the specified supplier with the specified id in this registry. * If the map previously contained a mapping for the id, the new supplier is * added after the old one or an runtime exception is throw for duplicated entry, * This behaviour depends on the implementation. *

* (A registry {@code r} is said to contain a mapping for a id {@code i} if * and only if {@link #contains(Id) r.contains(i)} would return {@code true}.) * * @param id id with which the specified supplier is to be associated. * @param supplier supplier to be associated with the specified id * @return the registration handle for use by the caller to remove this * registration action. It not intents to be shared by the caller. * @throws NullPointerException if the specified key or value is null * and this map does not permit null keys or values * @see Registration * @see #remove(Registration) */ Registration put(Id id, com.google.common.base.Supplier supplier); /** * Removes the supplier referenced by the specified * {@code Registration} object. * * @param registration A reference to the supplier to be released. */ void remove(Registration registration); /** * Bulk remove the suppliers referenced by the specified list of * {@code Registration} objects. * * @param registrations A list of references to the suppliers to be released. */ void removeAll(Collection> registrations); /** * Registers a listener / watcher for suppliers life-cycle events (add / remove). * The registry will notify the listener when a supplier is added of removed * and its Id is matched by the given {@link Id} matcher. *

Warning: To avoid memory leak watcher are stored in the registry * with weak reference. Therefore the caller must keep a strong reference to * the registration to avoid premature garbage collection of the watcher.

* * @param idMatcher the matcher that matches supplier ids the listener * should be notified of. * @param watcher the watcher for suppliers whose associated ids are * matched by idMatcher * @param the supplied type * @return the registration that represent this action. This registration is * the only way to remove this watcher from the registry. It is not intended * to be shared by the caller */ Registration addWatcher(IdMatcher idMatcher, Watcher watcher); /** * Removes the {@link Watcher} instance referenced by the specified * {@code Registration} object. * * @param watcherRegistration A reference to the watcher to be released. */ void removeWatcher(Registration watcherRegistration); /** * Bulk remove the {@link Watcher Watchers} referenced by the specified list of * {@code Registration Registration}. * * @param watcherRegistrations A list of references to the watchers to be released. */ void removeAllWatchers(Collection> watcherRegistrations); }




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