org.elasticsearch.common.inject.Injector Maven / Gradle / Ivy
/*
* Copyright (C) 2006 Google Inc.
*
* 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.elasticsearch.common.inject;
import java.util.List;
import java.util.Map;
/**
* Builds the graphs of objects that make up your application. The injector tracks the dependencies
* for each type and uses bindings to inject them. This is the core of Guice, although you rarely
* interact with it directly. This "behind-the-scenes" operation is what distinguishes dependency
* injection from its cousin, the service locator pattern.
*
* Contains several default bindings:
*
* - This {@link Injector} instance itself
*
- A {@code Provider
} for each binding of type {@code T}
* - The {@link java.util.logging.Logger} for the class being injected
*
- The {@link Stage} in which the Injector was created
*
*
* Injectors are created using the facade class {@link Guice}.
*
* An injector can also {@link #injectMembers(Object) inject the dependencies} of
* already-constructed instances. This can be used to interoperate with objects created by other
* frameworks or services.
*
* Injectors can be {@link #createChildInjector(Iterable) hierarchical}. Child injectors inherit
* the configuration of their parent injectors, but the converse does not hold.
*
* The injector's {@link #getBindings() internal bindings} are available for introspection. This
* enables tools and extensions to operate on an injector reflectively.
*
* @author [email protected] (Bob Lee)
* @author [email protected] (Jesse Wilson)
*/
public interface Injector {
/**
* Injects dependencies into the fields and methods of {@code instance}. Ignores the presence or
* absence of an injectable constructor.
*
* Whenever Guice creates an instance, it performs this injection automatically (after first
* performing constructor injection), so if you're able to let Guice create all your objects for
* you, you'll never need to use this method.
*
* @param instance to inject members on
* @see Binder#getMembersInjector(Class) for a preferred alternative that supports checks before
* run time
*/
void injectMembers(Object instance);
/**
* Returns the members injector used to inject dependencies into methods and fields on instances
* of the given type {@code T}.
*
* @param typeLiteral type to get members injector for
* @see Binder#getMembersInjector(TypeLiteral) for an alternative that offers up front error
* detection
* @since 2.0
*/
MembersInjector getMembersInjector(TypeLiteral typeLiteral);
/**
* Returns the members injector used to inject dependencies into methods and fields on instances
* of the given type {@code T}. When feasible, use {@link Binder#getMembersInjector(TypeLiteral)}
* instead to get increased up front error detection.
*
* @param type type to get members injector for
* @see Binder#getMembersInjector(Class) for an alternative that offers up front error
* detection
* @since 2.0
*/
MembersInjector getMembersInjector(Class type);
/**
* Returns all explicit bindings.
*
* The returned map does not include bindings inherited from a {@link #getParent() parent
* injector}, should one exist. The returned map is guaranteed to iterate (for example, with
* its {@link java.util.Map#entrySet()} iterator) in the order of insertion. In other words,
* the order in which bindings appear in user Modules.
*
* This method is part of the Guice SPI and is intended for use by tools and extensions.
*/
Map, Binding>> getBindings();
/**
* Returns the binding for the given injection key. This will be an explicit bindings if the key
* was bound explicitly by a module, or an implicit binding otherwise. The implicit binding will
* be created if necessary.
*
* This method is part of the Guice SPI and is intended for use by tools and extensions.
*
* @throws ConfigurationException if this injector cannot find or create the binding.
*/
Binding getBinding(Key key);
/**
* Returns the binding for the given type. This will be an explicit bindings if the injection key
* was bound explicitly by a module, or an implicit binding otherwise. The implicit binding will
* be created if necessary.
*
* This method is part of the Guice SPI and is intended for use by tools and extensions.
*
* @throws ConfigurationException if this injector cannot find or create the binding.
* @since 2.0
*/
Binding getBinding(Class type);
/**
* Returns all explicit bindings for {@code type}.
*
* This method is part of the Guice SPI and is intended for use by tools and extensions.
*/
List> findBindingsByType(TypeLiteral type);
/**
* Returns the provider used to obtain instances for the given injection key. When feasible, avoid
* using this method, in favor of having Guice inject your dependencies ahead of time.
*
* @throws ConfigurationException if this injector cannot find or create the provider.
* @see Binder#getProvider(Key) for an alternative that offers up front error detection
*/
Provider getProvider(Key key);
/**
* Returns the provider used to obtain instances for the given type. When feasible, avoid
* using this method, in favor of having Guice inject your dependencies ahead of time.
*
* @throws ConfigurationException if this injector cannot find or create the provider.
* @see Binder#getProvider(Class) for an alternative that offers up front error detection
*/
Provider getProvider(Class type);
/**
* Returns the appropriate instance for the given injection key; equivalent to {@code
* getProvider(key).get()}. When feasible, avoid using this method, in favor of having Guice
* inject your dependencies ahead of time.
*
* @throws ConfigurationException if this injector cannot find or create the provider.
* @throws ProvisionException if there was a runtime failure while providing an instance.
*/
T getInstance(Key key);
/**
* Returns the appropriate instance for the given injection type; equivalent to {@code
* getProvider(type).get()}. When feasible, avoid using this method, in favor of having Guice
* inject your dependencies ahead of time.
*
* @throws ConfigurationException if this injector cannot find or create the provider.
* @throws ProvisionException if there was a runtime failure while providing an instance.
*/
T getInstance(Class type);
/**
* Returns this injector's parent, or {@code null} if this is a top-level injector.
*
* @since 2.0
*/
Injector getParent();
/**
* Returns a new injector that inherits all state from this injector. All bindings, scopes,
* interceptors and type converters are inherited -- they are visible to the child injector.
* Elements of the child injector are not visible to its parent.
*
* Just-in-time bindings created for child injectors will be created in an ancestor injector
* whenever possible. This allows for scoped instances to be shared between injectors. Use
* explicit bindings to prevent bindings from being shared with the parent injector.
*
* No key may be bound by both an injector and one of its ancestors. This includes just-in-time
* bindings. The lone exception is the key for {@code Injector.class}, which is bound by each
* injector to itself.
*
* @since 2.0
*/
Injector createChildInjector(Iterable extends Module> modules);
/**
* Returns a new injector that inherits all state from this injector. All bindings, scopes,
* interceptors and type converters are inherited -- they are visible to the child injector.
* Elements of the child injector are not visible to its parent.
*
* Just-in-time bindings created for child injectors will be created in an ancestor injector
* whenever possible. This allows for scoped instances to be shared between injectors. Use
* explicit bindings to prevent bindings from being shared with the parent injector.
*
* No key may be bound by both an injector and one of its ancestors. This includes just-in-time
* bindings. The lone exception is the key for {@code Injector.class}, which is bound by each
* injector to itself.
*
* @since 2.0
*/
Injector createChildInjector(Module... modules);
}