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 * Copyright (c) 2017, 2018 Oracle and/or its affiliates. All rights reserved.
 *
 * This program and the accompanying materials are made available under the
 * terms of the Eclipse Public License v. 2.0, which is available at
 * http://www.eclipse.org/legal/epl-2.0.
 *
 * This Source Code may also be made available under the following Secondary
 * Licenses when the conditions for such availability set forth in the
 * Eclipse Public License v. 2.0 are satisfied: GNU General Public License,
 * version 2 with the GNU Classpath Exception, which is available at
 * https://www.gnu.org/software/classpath/license.html.
 *
 * SPDX-License-Identifier: EPL-2.0 OR GPL-2.0 WITH Classpath-exception-2.0
 */

package org.glassfish.jersey.internal.inject;

import java.lang.annotation.Annotation;
import java.lang.reflect.Type;
import java.util.List;

Interface provides the communication API between Jersey and Dependency Injection provider.

Lifecycle methods should be called in this order:

completeRegistration() - notifies that Jersey bootstrap has been finished and DI provider should be ready for a runtime.
shutdown() - Jersey application has been closed and DI provider should make needed cleaning steps.

 All getInstance methods can be called after completeRegistration() method has been called because at this all components are bound to injection manager and ready for getting. In turn, shutdown() method stops the possibility to use these methods and closes InjectionManager. 
Author:
Petr Bouda/**
 * Interface provides the communication API between Jersey and Dependency Injection provider.
 * <p>
 * Lifecycle methods should be called in this order:
 * <ul>
 * <li>{@link #completeRegistration()} - notifies that Jersey bootstrap has been finished and DI provider should be ready for a runtime.</li>
 * <li>{@link #shutdown()} - Jersey application has been closed and DI provider should make needed cleaning steps.</li>
 * </ul>
 * <p>
 * All {@code getInstance} methods can be called after {@link #completeRegistration()} method has been called because at this all
 * components are bound to injection manager and ready for getting.
 * In turn, {@link #shutdown()} method stops the possibility to use these methods and closes {@code InjectionManager}.
 *
 * @author Petr Bouda
 */
public interface InjectionManager {

    
Completes InjectionManager and the underlying DI provider. All registered components are bound to injection manager and after an invocation of this method all components are available using e.g. getInstance(Class<Object>). /**
     * Completes {@link InjectionManager} and the underlying DI provider. All registered components are bound to injection
     * manager and after an invocation of this method all components are available using e.g. {@link #getInstance(Class)}.
     */
    void completeRegistration();

    
Shuts down the entire InjectionManager and the underlying DI provider. 

Shutdown phase is dedicated to make some final cleaning steps regarding underlying DI provider.
/**
     * Shuts down the entire {@link InjectionManager} and the underlying DI provider.
     * <p>
     * Shutdown phase is dedicated to make some final cleaning steps regarding underlying DI provider.
     */
    void shutdown();

    
Registers one bean represented using fields in the provided descriptor. The final bean can be direct bean or factory object which will create the bean at the time of injection. InjectionManager is able to register a bean represented by a class or direct instance. 
Params:
binding – one descriptor.
See Also:
ClassBinding
InstanceBinding
SupplierClassBinding
SupplierInstanceBinding/**
     * Registers one bean represented using fields in the provided descriptor. The final bean can be direct bean or
     * factory object which will create the bean at the time of injection. {@code InjectionManager} is able to register a bean
     * represented by a class or direct instance.
     *
     * @param binding one descriptor.
     * @see ClassBinding
     * @see InstanceBinding
     * @see SupplierClassBinding
     * @see SupplierInstanceBinding
     */
    void register(Binding binding);

    
Registers a collection of beans represented using fields in the provided descriptors. The final bean can be direct bean or factory object which will create the bean at the time of injection. InjectionManager is able to register a bean represented by a class or direct instance. 
Params:
descriptors – collection of descriptors.
See Also:
ClassBinding
InstanceBinding
SupplierClassBinding
SupplierInstanceBinding/**
     * Registers a collection of beans represented using fields in the provided descriptors. The final bean can be
     * direct bean or factory object which will create the bean at the time of injection. {@code InjectionManager} is able to
     * register a bean represented by a class or direct instance.
     *
     * @param descriptors collection of descriptors.
     * @see ClassBinding
     * @see InstanceBinding
     * @see SupplierClassBinding
     * @see SupplierInstanceBinding
     */
    void register(Iterable<Binding> descriptors);

    
Registers beans which are included in Binder. Binder can contains all descriptors extending Binding or other binders which are installed together in tree-structure. This method will get all descriptors bound in the given binder and register them in the order how the binders are installed together. In the tree structure, the deeper on the left side will be processed first. 
Params:
binder – collection of descriptors.
See Also:
ClassBinding
InstanceBinding
SupplierClassBinding
SupplierInstanceBinding/**
     * Registers beans which are included in {@link Binder}. {@code Binder} can contains all descriptors extending
     * {@link Binding} or other binders which are installed together in tree-structure. This method will get all descriptors
     * bound in the given binder and register them in the order how the binders are installed together. In the tree structure,
     * the deeper on the left side will be processed first.
     *
     * @param binder collection of descriptors.
     * @see ClassBinding
     * @see InstanceBinding
     * @see SupplierClassBinding
     * @see SupplierInstanceBinding
     */
    void register(Binder binder);

    
Registers a provider. An implementation of the InjectionManager should test whether the type of the object can be registered using the method isRegistrable(Class<?>). Then a caller has an certainty that the instance of the tested class can be registered in InjectionManager. If InjectionManager is not able to register the provider then IllegalArgumentException is thrown. 
Params:
provider – object that can be registered in InjectionManager.
Throws:
IllegalArgumentException – provider cannot be registered./**
     * Registers a provider. An implementation of the {@link InjectionManager} should test whether the type of the object can be
     * registered using the method {@link #isRegistrable(Class)}. Then a caller has an certainty that the instance of the tested
     * class can be registered in {@code InjectionManager}. If {@code InjectionManager} is not able to register the provider
     * then {@link IllegalArgumentException} is thrown.
     *
     * @param provider object that can be registered in {@code InjectionManager}.
     * @throws IllegalArgumentException provider cannot be registered.
     */
    void register(Object provider) throws IllegalArgumentException;

    
Tests whether the provided clazz can be registered by the implementation of the InjectionManager. 
Params:
clazz – type that is tested whether is registrable by the implementation of InjectionManager.
Returns:
true if the InjectionManager is able to register this type./**
     * Tests whether the provided {@code clazz} can be registered by the implementation of the {@link InjectionManager}.
     *
     * @param clazz type that is tested whether is registrable by the implementation of {@code InjectionManager}.
     * @return {@code true} if the {@code InjectionManager} is able to register this type.
     */
    boolean isRegistrable(Class<?> clazz);

    
Creates, injects and post-constructs an object with the given class. This is equivalent to calling the create-class method followed by the inject-class method followed by the post-construct method. 

The object created is not managed by the injection manager.
Params:
createMe – The non-null class to create this object from;
Returns:
An instance of the object that has been created, injected and post constructed./**
     * Creates, injects and post-constructs an object with the given class. This is equivalent to calling the
     * {@code create-class} method followed by the {@code inject-class} method followed by the {@code post-construct} method.
     * <p>
     * The object created is not managed by the injection manager.
     *
     * @param createMe The non-null class to create this object from;
     * @return An instance of the object that has been created, injected and post constructed.
     */
    <T> T createAndInitialize(Class<T> createMe);

    
Gets all services from this injection manager that implements this contract or has this implementation along with information about the service which can be kept by ServiceHolder. 
Params:
contractOrImpl – May not be null, and is the contract or concrete implementation to get the best instance of.
qualifiers –     The set of qualifiers that must match this service definition.
Type parameters:
<T> –            Instance type.
Returns:
An instance of the contract or impl along with other information. May return  null if there is no provider that
provides the given implementation or contract./**
     * Gets all services from this injection manager that implements this contract or has this implementation along with
     * information about the service which can be kept by {@link ServiceHolder}.
     *
     * @param contractOrImpl May not be null, and is the contract or concrete implementation to get the best instance of.
     * @param qualifiers     The set of qualifiers that must match this service definition.
     * @param <T>            Instance type.
     * @return An instance of the contract or impl along with other information. May return  null if there is no provider that
     * provides the given implementation or contract.
     */
    <T> List<ServiceHolder<T>> getAllServiceHolders(Class<T> contractOrImpl, Annotation... qualifiers);

    
Gets the best service from this injection manager that implements this contract or has this implementation.
 Use this method only if other information is not needed otherwise use, otherwise use getAllServiceHolders(Class<Object>, Annotation...). 
Params:
contractOrImpl – May not be null, and is the contract or concrete implementation to get the best instance of.
qualifiers –     The set of qualifiers that must match this service definition.
Type parameters:
<T> –            Instance type.
Returns:
An instance of the contract or impl.  May return  null if there is no provider that provides the given
implementation or contract./**
     * Gets the best service from this injection manager that implements this contract or has this implementation.
     * <p>
     * Use this method only if other information is not needed otherwise use, otherwise use
     * {@link InjectionManager#getAllServiceHolders(Class, Annotation...)}.
     *
     * @param contractOrImpl May not be null, and is the contract or concrete implementation to get the best instance of.
     * @param qualifiers     The set of qualifiers that must match this service definition.
     * @param <T>            Instance type.
     * @return An instance of the contract or impl.  May return  null if there is no provider that provides the given
     * implementation or contract.
     */
    <T> T getInstance(Class<T> contractOrImpl, Annotation... qualifiers);

    
Gets the best service from this injection manager that implements this contract or has this implementation.
 Use this method only if other information is not needed otherwise use, otherwise use getAllServiceHolders(Class<Object>, Annotation...). 
Params:
contractOrImpl – May not be null, and is the contract or concrete implementation to get the best instance of.
classAnalyzer –  -------
Type parameters:
<T> –            Instance type.
Returns:
An instance of the contract or impl.  May return  null if there is no provider that provides the given
implementation or contract./**
     * Gets the best service from this injection manager that implements this contract or has this implementation.
     * <p>
     * Use this method only if other information is not needed otherwise use, otherwise use
     * {@link InjectionManager#getAllServiceHolders(Class, Annotation...)}.
     *
     * @param contractOrImpl May not be null, and is the contract or concrete implementation to get the best instance of.
     * @param classAnalyzer  -------
     * @param <T>            Instance type.
     * @return An instance of the contract or impl.  May return  null if there is no provider that provides the given
     * implementation or contract.
     */
    // TODO: Remove CLASS ANALYZER - NEEDED ONLY IN CdiComponentProvider
    <T> T getInstance(Class<T> contractOrImpl, String classAnalyzer);

    
Gets the best service from this injection manager that implements this contract or has this implementation.
 Use this method only if other information is not needed otherwise use, otherwise use getAllServiceHolders(Class<Object>, Annotation...). 
Params:
contractOrImpl – May not be null, and is the contract or concrete implementation to get the best instance of.
Type parameters:
<T> –            Instance type.
Returns:
An instance of the contract or impl.  May return  null if there is no provider that provides the given
implementation or contract./**
     * Gets the best service from this injection manager that implements this contract or has this implementation.
     * <p>
     * Use this method only if other information is not needed otherwise use, otherwise use
     * {@link InjectionManager#getAllServiceHolders(Class, Annotation...)}.
     *
     * @param contractOrImpl May not be null, and is the contract or concrete implementation to get the best instance of.
     * @param <T>            Instance type.
     * @return An instance of the contract or impl.  May return  null if there is no provider that provides the given
     * implementation or contract.
     */
    <T> T getInstance(Class<T> contractOrImpl);

    
Gets the best service from this injection manager that implements this contract or has this implementation.
 Use this method only if other information is not needed otherwise use, otherwise use getAllServiceHolders(Class<Object>, Annotation...). 
Params:
contractOrImpl – May not be null, and is the contract or concrete implementation to get the best instance of.
Type parameters:
<T> –            Instance type.
Returns:
An instance of the contract or impl.  May return  null if there is no provider that provides the given
implementation or contract./**
     * Gets the best service from this injection manager that implements this contract or has this implementation.
     * <p>
     * Use this method only if other information is not needed otherwise use, otherwise use
     * {@link InjectionManager#getAllServiceHolders(Class, Annotation...)}.
     *
     * @param contractOrImpl May not be null, and is the contract or concrete implementation to get the best instance of.
     * @param <T>            Instance type.
     * @return An instance of the contract or impl.  May return  null if there is no provider that provides the given
     * implementation or contract.
     */
    <T> T getInstance(Type contractOrImpl);

    
Gets the service instance according to ForeignDescriptor which is specific to the underlying DI provider. 
Params:
foreignDescriptor – DI specific descriptor.
Returns:
service instance according to foreign descriptor./**
     * Gets the service instance according to {@link ForeignDescriptor} which is specific to the underlying DI provider.
     *
     * @param foreignDescriptor DI specific descriptor.
     * @return service instance according to foreign descriptor.
     */
    Object getInstance(ForeignDescriptor foreignDescriptor);

    
Creates and registers the descriptor in the underlying DI provider and returns ForeignDescriptor that is specific descriptor for the underlying DI provider. 
Params:
binding – jersey descriptor.
Returns:
specific foreign descriptor of the underlying DI provider./**
     * Creates and registers the descriptor in the underlying DI provider and returns {@link ForeignDescriptor} that is specific
     * descriptor for the underlying DI provider.
     *
     * @param binding jersey descriptor.
     * @return specific foreign descriptor of the underlying DI provider.
     */
    ForeignDescriptor createForeignDescriptor(Binding binding);

    
Gets all services from this injection manager that implement this contract or have this implementation.
 Use this method only if other information is not needed otherwise use, otherwise use getAllServiceHolders(Class<Object>, Annotation...). 
Params:
contractOrImpl – May not be null, and is the contract or concrete implementation to get the best instance of.
Type parameters:
<T> –            Instance type.
Returns:
A list of services implementing this contract or concrete implementation.  May not return null, but  may return
an empty list/**
     * Gets all services from this injection manager that implement this contract or have this implementation.
     * <p>
     * Use this method only if other information is not needed otherwise use, otherwise use
     * {@link InjectionManager#getAllServiceHolders(Class, Annotation...)}.
     *
     * @param contractOrImpl May not be null, and is the contract or concrete implementation to get the best instance of.
     * @param <T>            Instance type.
     * @return A list of services implementing this contract or concrete implementation.  May not return null, but  may return
     * an empty list
     */
    <T> List<T> getAllInstances(Type contractOrImpl);

    
Analyzes the given object and inject into its fields and methods.
The object injected in this way will not be managed by HK2
Params:
injectMe – The object to be analyzed and injected into/**
     * Analyzes the given object and inject into its fields and methods.
     * The object injected in this way will not be managed by HK2
     *
     * @param injectMe The object to be analyzed and injected into
     */
    void inject(Object injectMe);

    
This will analyze the given object and inject into its fields and methods. The object injected in this way will not be
managed by HK2
Params:
injectMe – The object to be analyzed and injected into/**
     * This will analyze the given object and inject into its fields and methods. The object injected in this way will not be
     * managed by HK2
     *
     * @param injectMe The object to be analyzed and injected into
     */
    // TODO: Remove CLASS ANALYZER - only in legacy CDI integration.
    void inject(Object injectMe, String classAnalyzer);

    
Analyzes the given object and call the preDestroy method. The object given will not be managed by bean manager.
Params:
preDestroyMe – The object to preDestroy/**
     * Analyzes the given object and call the preDestroy method. The object given will not be managed by bean manager.
     *
     * @param preDestroyMe The object to preDestroy
     */
    void preDestroy(Object preDestroyMe);
}