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JMockit is a Java toolkit for automated developer testing. It contains mocking/faking APIs and a code coverage tool, supporting both JUnit and TestNG. The mocking APIs allow all kinds of Java code, without testability restrictions, to be tested in isolation from selected dependencies.

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/*
 * Copyright (c) 2006 JMockit developers
 * This file is subject to the terms of the MIT license (see LICENSE.txt).
 */
package mockit;

import java.lang.annotation.*;
import static java.lang.annotation.ElementType.*;
import static java.lang.annotation.RetentionPolicy.*;

/**
 * Indicates a class to be tested, with optional automatic instantiation and/or automatic injection of dependencies.
 * This annotation is applicable to instance fields of a test class, and to test method parameters; alternatively, it can be used as a
 * meta-annotation on a user-defined annotation which, in turn, needs to have {@linkplain RetentionPolicy#RUNTIME runtime}
 * {@linkplain Retention retention} and be {@linkplain Target applicable} to {@linkplain ElementType#FIELD fields} and/or
 * {@linkplain ElementType#PARAMETER parameters}.
 * 

* Every non-final tested field and every tested parameter is eligible for automatic instantiation and initialization. * By default, automatic instantiation occurs just before a test method is executed. * This default can be changed by specifying the {@link #availableDuringSetup} optional attribute as true in a tested field * declaration (it is ignored if applied to a tested parameter). *

* Whenever automatic creation occurs, a suitable instance of the tested class is created, initialized, and assigned to the tested field or * passed as argument to the tested parameter. * Available {@linkplain Injectable injectables} and other @Tested values are used, either as argument values for the chosen * constructor of the tested class, or as values to set into injected fields of the newly-created tested object. * For a given tested object, only preceding tested objects (if any) are regarded as available for injection; * other such objects declared after the one being created are disregarded. * @Tested parameters precede any @Tested fields. *

* For constructor injection, all constructor parameters (if any) must be satisfied with available tested/injectable values. * If the tested class has a constructor annotated with the standard CDI annotation "@Inject", then it is the one to be used; * otherwise, if there are multiple satisfiable constructors then the one with the most parameters and the widest accessibility * (ie, first public, then protected, then package-private, and finally private) is chosen. * The matching between injectable values and constructor parameters is done by type when there is only one parameter of a given * type; otherwise, by type and name. *

* Field injection is performed on all tested objects, even when it was not instantiated automatically. * Only non-final fields are considered, between those declared in the tested class itself or in one of its super-classes; at * this time constructor injection already occurred, so only fields which remain uninitialized are targeted. * For each such target field, the value of a still unused injectable of a matching type is assigned, if any is available. * When a tested object has multiple target fields of a matching type, not just the type but also the name of each field will be * used when looking for available injectables. * Finally, if there is no matching and available injectable value for a given target field, it is left unassigned, unless the target field * is for a required dependency; note that all fields marked with a DI annotation (such as @Inject, @Autowired, * etc.) indicate required dependencies by default (the use of "@Autowired(required = false)" is respected, if present). *

* Tested fields/parameters whose declared type is primitive, a primitive wrapper, numeric, or an enum can use the {@link #value} attribute * to specify an initial value from a string. *

* Custom names specified in field annotations from Java EE (@Resource(name), @Named) or the Spring framework * (@Qualifier) are used when looking for a matching @Injectable or @Tested value. * When such a name contains a - (dash) or . (dot) character, the corresponding camel-cased name is used instead. *

* Whenever constructor or field injection is used, the value of each injectable goes into at most one matching constructor * parameter or instance field of a tested class. *

* The tested class can be abstract. * In this case, if the tested field is left null then a subclass implementing all abstract methods is automatically generated and * instantiated. * The abstract method implementations are automatically mocked so that expectations can be recorded or verified on them. *

* When the {@link #fullyInitialized} attribute is true, all eligible fields in the tested object will get initialized with a * suitable instance, which itself is recursively initialized in the same way. * * @see Tutorial */ @Retention(RUNTIME) @Target({FIELD, PARAMETER, ANNOTATION_TYPE, METHOD}) public @interface Tested { /** * Specifies a literal value when the type of the tested field/parameter is String, a primitive or wrapper type, a number type, * or an enum type. * For a primitive/wrapper/number type, the value provided must be convertible to it. * For an enum type, the given textual value must equal the name of one of the possible enum values. */ String value() default ""; /** * Indicates that each non-final field of the tested object that is eligible for injection should be assigned a value, which can * be an available {@linkplain Injectable @Injectable} or @Tested value of a type assignable to the field type, or a real * (unmocked) instance of the field type. *

* Non-eligible fields are those that have already being assigned from a constructor, or that have a primitive, array, annotation, or JRE * type (with the exception of the types described below, which are given special treatment). * Also non-eligible are any static or volatile fields, unless annotated with an injection annotation (one of * @Inject, @Resource, @Autowired, @EJB, @PersistenceContext, or @PersistenceUnit). *

* For each field of a reference type that would otherwise remain null, an attempt is made to automatically create and * recursively initialize a suitable real instance. * For this attempt to succeed, the type of the field must either be a concrete class having a constructor that can be satisfied by * available tested/injectable values and/or by recursively created dependencies, or a known interface (see below) for which a real * instance can be created. *

* Constructor injection is also supported. * In this case, the same rules used for injected fields apply to the parameters of the constructor that gets chosen for automatic * instantiation. *

* Currently, the following standard types (some of which are Java EE interfaces) have special support: *

    *
  • * {@link java.util.logging.Logger}: * a logger is automatically {@linkplain java.util.logging.Logger#getLogger(String) created} with the name of the tested class. *
  • *
  • * {@link javax.sql.DataSource}: a JDBC data source is created and configured according to a matching * {@link javax.annotation.sql.DataSourceDefinition @DataSourceDefinition} in the tested class. *
  • *
  • * {@link javax.inject.Provider Provider<T>}: a provider which produces an instance of type T is injected. *
  • *
  • * JPA interfaces {@link javax.persistence.EntityManagerFactory} and {@link javax.persistence.EntityManager}: * created through calls to {@link javax.persistence.Persistence#createEntityManagerFactory(String)} and * {@link javax.persistence.EntityManagerFactory#createEntityManager()}, provided a suitable META-INF/persistence.xml file * is available in the runtime classpath. *
  • *
  • * Servlet interfaces {@link javax.servlet.ServletContext} and {@link javax.servlet.http.HttpSession}: * objects that emulate the servlet context and HTTP session are automatically created for use in tests. *
  • *
  • * {@link javax.enterprise.context.Conversation}: an object that emulates a web application's conversation context is created. *
  • *
*/ boolean fullyInitialized() default false; /** * Indicates whether the tested class gets instantiated and initialized before the execution of test setup methods (ie, those * annotated as @Before or @BeforeMethod), or after them. *

* Typically, the early creation of tested objects is useful in a test setup method, which can use them for the initialization of other * objects. * Another potential use is to affect the initialization of other tested objects in the same test class, during their creation * after setup. * Finally, objects made available during setup are also available during the execution of any tear-down methods. */ boolean availableDuringSetup() default false; }





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