src/javax/inject/Inject.java - platform/external/jsr330 - Gitiles

 /*
  * Copyright (C) 2009 The JSR-330 Expert Group
  *
  * 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 javax.inject;

 import java.lang.annotation.Target;
 import java.lang.annotation.Retention;
 import java.lang.annotation.Documented;
 import static java.lang.annotation.RetentionPolicy.RUNTIME;
 import static java.lang.annotation.ElementType.METHOD;
 import static java.lang.annotation.ElementType.CONSTRUCTOR;
 import static java.lang.annotation.ElementType.FIELD;

 /**
  * Identifies injectable constructors, methods, and fields. May apply to static
  * as well as instance members. An injectable member may have any access
  * modifier (private, package-private, protected, public). Constructors are
  * injected first, followed by fields, and then methods. Fields and methods
  * in superclasses are injected before those in subclasses. Ordering of
  * injection among fields and among methods in the same class is not specified.
  * Which values are injected depends upon the injector implementation and its
  * configuration.
  *
  * <p>Injectable constructors are annotated with {@code @Inject} and accept
  * zero or more dependencies as arguments. {@code @Inject} can apply to at most
  * one constructor per class.
  *
  * <p><tt><blockquote style="padding-left: 2em; text-indent: -2em;">@Inject
  *       <i>ConstructorModifiers<sub>opt</sub></i>
  *       <i>SimpleTypeName</i>(<i>FormalParameterList<sub>opt</sub></i>)
  *       <i>Throws<sub>opt</sub></i>
  *       <i>ConstructorBody</i></blockquote></tt>
  *
  * <p>{@code @Inject} is optional for public, no-argument constructors when no
  * other constructors are present. This enables injectors to invoke default
  * constructors.
  *
  * <p><tt><blockquote style="padding-left: 2em; text-indent: -2em;">
  *       {@literal @}Inject<sub><i>opt</i></sub>
  *       <i>Annotations<sub>opt</sub></i>
  *       public
  *       <i>SimpleTypeName</i>()
  *       <i>Throws<sub>opt</sub></i>
  *       <i>ConstructorBody</i></blockquote></tt>
  *
  * <p>Injectable fields:
  * <ul>
  *   <li>are annotated with {@code @Inject}.
  *   <li>are not final.
  *   <li>may have any otherwise valid name.</li></ul>
  *
  * <p><tt><blockquote style="padding-left: 2em; text-indent: -2em;">@Inject
  *       <i>FieldModifiers<sub>opt</sub></i>
  *       <i>Type</i>
  *       <i>VariableDeclarators</i>;</blockquote></tt>
  *
  * <p>Injectable methods:
  * <ul>
  *   <li>are annotated with {@code @Inject}.</li>
  *   <li>are not abstract.</li>
  *   <li>do not declare type parameters of their own.</li>
  *   <li>may return a result</li>
  *   <li>may have any otherwise valid name.</li>
  *   <li>accept zero or more dependencies as arguments.</li></ul>
  *
  * <p><tt><blockquote style="padding-left: 2em; text-indent: -2em;">@Inject
  *       <i>MethodModifiers<sub>opt</sub></i>
  *       <i>ResultType</i>
  *       <i>Identifier</i>(<i>FormalParameterList<sub>opt</sub></i>)
  *       <i>Throws<sub>opt</sub></i>
  *       <i>MethodBody</i></blockquote></tt>
  *
  * <p>The injector ignores the result of an injected method, but
  * non-{@code void} return types are allowed to support use of the method in
  * other contexts (builder-style method chaining, for example).
  *
  * <p>For example:
  *
  * <pre>
  *   public class Car {
  *     // Injectable constructor
  *     &#064;Inject public Car(Engine engine) { ... }
  *
  *     // Injectable field
  *     &#064;Inject private Provider&lt;Seat> seatProvider;
  *
  *     // Injectable package-private method
  *     &#064;Inject void install(Windshield windshield, Trunk trunk) { ... }
  *   }</pre>
  *
  * <p>A method annotated with {@code @Inject} that overrides another method
  * annotated with {@code @Inject} will only be injected once per injection
  * request per instance. A method with <i>no</i> {@code @Inject} annotation
  * that overrides a method annotated with {@code @Inject} will not be
  * injected.
  *
  * <p>Injection of members annotated with {@code @Inject} is required. While an
  * injectable member may use any accessibility modifier (including
  * <tt>private</tt>), platform or injector limitations (like security
  * restrictions or lack of reflection support) might preclude injection
  * of non-public members.
  *
  * <h3>Qualifiers</h3>
  *
  * <p>A {@linkplain Qualifier qualifier} may annotate an injectable field
  * or parameter and, combined with the type, identify the implementation to
  * inject. Qualifiers are optional, and when used with {@code @Inject} in
  * injector-independent classes, no more than one qualifier should annotate a
  * single field or parameter. The qualifiers are bold in the following example:
  *
  * <pre>
  *   public class Car {
  *     &#064;Inject private <b>@Leather</b> Provider&lt;Seat> seatProvider;
  *
  *     &#064;Inject void install(<b>@Tinted</b> Windshield windshield,
  *         <b>@Big</b> Trunk trunk) { ... }
  *   }</pre>
  *
  * <p>If one injectable method overrides another, the overriding method's
  * parameters do not automatically inherit qualifiers from the overridden
  * method's parameters.
  *
  * <h3>Circular Dependencies</h3>
  *
  * <p>Detecting and resolving circular dependencies is left as an exercise for
  * the injector implementation. Circular dependencies between two constructors
  * is an obvious problem, but you can also have a circular dependency between
  * injectable fields or methods:
  *
  * <pre>
  *   class A {
  *     &#064;Inject B b;
  *   }
  *   class B {
  *     &#064;Inject A a;
  *   }</pre>
  *
  * <p>When constructing an instance of {@code A}, a naive injector
  * implementation might go into an infinite loop constructing an instance of
  * {@code B} to set on {@code A}, a second instance of {@code A} to set on
  * {@code B}, a second instance of {@code B} to set on the second instance of
  * {@code A}, and so on.
  *
  * <p>A conservative injector might detect the circular dependency at build
  * time and generate an error, at which point the programmer could break the
  * circular dependency by injecting {@link Provider Provider&lt;A>} or {@code
  * Provider<B>} instead of {@code A} or {@code B} respectively. Calling {@link
  * Provider#get() get()} on the provider directly from the constructor or
  * method it was injected into defeats the provider's ability to break up
  * circular dependencies. In the case of method or field injection, scoping
  * one of the dependencies (using {@linkplain Singleton singleton scope}, for
  * example) may also enable a valid circular relationship.
  *
  * @see javax.inject.Qualifier @Qualifier
  * @see javax.inject.Provider
  */
 @Target({ METHOD, CONSTRUCTOR, FIELD })
 @Retention(RUNTIME)
 @Documented
 public @interface Inject {}
	/*
	* Copyright (C) 2009 The JSR-330 Expert Group
	*
	* 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 javax.inject;

	import java.lang.annotation.Target;
	import java.lang.annotation.Retention;
	import java.lang.annotation.Documented;
	import static java.lang.annotation.RetentionPolicy.RUNTIME;
	import static java.lang.annotation.ElementType.METHOD;
	import static java.lang.annotation.ElementType.CONSTRUCTOR;
	import static java.lang.annotation.ElementType.FIELD;

	/**
	* Identifies injectable constructors, methods, and fields. May apply to static
	* as well as instance members. An injectable member may have any access
	* modifier (private, package-private, protected, public). Constructors are
	* injected first, followed by fields, and then methods. Fields and methods
	* in superclasses are injected before those in subclasses. Ordering of
	* injection among fields and among methods in the same class is not specified.
	* Which values are injected depends upon the injector implementation and its
	* configuration.
	*
	* <p>Injectable constructors are annotated with {@code @Inject} and accept
	* zero or more dependencies as arguments. {@code @Inject} can apply to at most
	* one constructor per class.
	*
	* <p><tt><blockquote style="padding-left: 2em; text-indent: -2em;">@Inject
	* <i>ConstructorModifiers<sub>opt</sub></i>
	* <i>SimpleTypeName</i>(<i>FormalParameterList<sub>opt</sub></i>)
	* <i>Throws<sub>opt</sub></i>
	* <i>ConstructorBody</i></blockquote></tt>
	*
	* <p>{@code @Inject} is optional for public, no-argument constructors when no
	* other constructors are present. This enables injectors to invoke default
	* constructors.
	*
	* <p><tt><blockquote style="padding-left: 2em; text-indent: -2em;">
	* {@literal @}Inject<sub><i>opt</i></sub>
	* <i>Annotations<sub>opt</sub></i>
	* public
	* <i>SimpleTypeName</i>()
	* <i>Throws<sub>opt</sub></i>
	* <i>ConstructorBody</i></blockquote></tt>
	*
	* <p>Injectable fields:
	* <ul>
	* <li>are annotated with {@code @Inject}.
	* <li>are not final.
	* <li>may have any otherwise valid name.</li></ul>
	*
	* <p><tt><blockquote style="padding-left: 2em; text-indent: -2em;">@Inject
	* <i>FieldModifiers<sub>opt</sub></i>
	* <i>Type</i>
	* <i>VariableDeclarators</i>;</blockquote></tt>
	*
	* <p>Injectable methods:
	* <ul>
	* <li>are annotated with {@code @Inject}.</li>
	* <li>are not abstract.</li>
	* <li>do not declare type parameters of their own.</li>
	* <li>may return a result</li>
	* <li>may have any otherwise valid name.</li>
	* <li>accept zero or more dependencies as arguments.</li></ul>
	*
	* <p><tt><blockquote style="padding-left: 2em; text-indent: -2em;">@Inject
	* <i>MethodModifiers<sub>opt</sub></i>
	* <i>ResultType</i>
	* <i>Identifier</i>(<i>FormalParameterList<sub>opt</sub></i>)
	* <i>Throws<sub>opt</sub></i>
	* <i>MethodBody</i></blockquote></tt>
	*
	* <p>The injector ignores the result of an injected method, but
	* non-{@code void} return types are allowed to support use of the method in
	* other contexts (builder-style method chaining, for example).
	*
	* <p>For example:
	*
	* <pre>
	* public class Car {
	* // Injectable constructor
	* @Inject public Car(Engine engine) { ... }
	*
	* // Injectable field
	* @Inject private Provider<Seat> seatProvider;
	*
	* // Injectable package-private method
	* @Inject void install(Windshield windshield, Trunk trunk) { ... }
	* }</pre>
	*
	* <p>A method annotated with {@code @Inject} that overrides another method
	* annotated with {@code @Inject} will only be injected once per injection
	* request per instance. A method with <i>no</i> {@code @Inject} annotation
	* that overrides a method annotated with {@code @Inject} will not be
	* injected.
	*
	* <p>Injection of members annotated with {@code @Inject} is required. While an
	* injectable member may use any accessibility modifier (including
	* <tt>private</tt>), platform or injector limitations (like security
	* restrictions or lack of reflection support) might preclude injection
	* of non-public members.
	*
	* <h3>Qualifiers</h3>
	*
	* <p>A {@linkplain Qualifier qualifier} may annotate an injectable field
	* or parameter and, combined with the type, identify the implementation to
	* inject. Qualifiers are optional, and when used with {@code @Inject} in
	* injector-independent classes, no more than one qualifier should annotate a
	* single field or parameter. The qualifiers are bold in the following example:
	*
	* <pre>
	* public class Car {
	* @Inject private <b>@Leather</b> Provider<Seat> seatProvider;
	*
	* @Inject void install(<b>@Tinted</b> Windshield windshield,
	* <b>@Big</b> Trunk trunk) { ... }
	* }</pre>
	*
	* <p>If one injectable method overrides another, the overriding method's
	* parameters do not automatically inherit qualifiers from the overridden
	* method's parameters.
	*
	* <h3>Circular Dependencies</h3>
	*
	* <p>Detecting and resolving circular dependencies is left as an exercise for
	* the injector implementation. Circular dependencies between two constructors
	* is an obvious problem, but you can also have a circular dependency between
	* injectable fields or methods:
	*
	* <pre>
	* class A {
	* @Inject B b;
	* }
	* class B {
	* @Inject A a;
	* }</pre>
	*
	* <p>When constructing an instance of {@code A}, a naive injector
	* implementation might go into an infinite loop constructing an instance of
	* {@code B} to set on {@code A}, a second instance of {@code A} to set on
	* {@code B}, a second instance of {@code B} to set on the second instance of
	* {@code A}, and so on.
	*
	* <p>A conservative injector might detect the circular dependency at build
	* time and generate an error, at which point the programmer could break the
	* circular dependency by injecting {@link Provider Provider<A>} or {@code
	* Provider<B>} instead of {@code A} or {@code B} respectively. Calling {@link
	* Provider#get() get()} on the provider directly from the constructor or
	* method it was injected into defeats the provider's ability to break up
	* circular dependencies. In the case of method or field injection, scoping
	* one of the dependencies (using {@linkplain Singleton singleton scope}, for
	* example) may also enable a valid circular relationship.
	*
	* @see javax.inject.Qualifier @Qualifier
	* @see javax.inject.Provider
	*/
	@Target({ METHOD, CONSTRUCTOR, FIELD })
	@Retention(RUNTIME)
	@Documented
	public @interface Inject {}