* //Creates mock with different default answer & name
* Foo mock = mock(Foo.class, withSettings()
* .defaultAnswer(RETURNS_SMART_NULLS)
* .name("cool mockie")
* );
*
* //Creates mock with different default answer, descriptive name and extra interfaces
* Foo mock = mock(Foo.class, withSettings()
* .defaultAnswer(RETURNS_SMART_NULLS)
* .name("cool mockie")
* .extraInterfaces(Bar.class));
* * This mysterious feature should be used very occasionally. * The object under test should know exactly its collaborators & dependencies. * If you happen to use it often than please make sure you are really producing simple, clean & readable code. *
* Examples: *
* Foo foo = mock(Foo.class, withSettings().extraInterfaces(Bar.class, Baz.class));
*
* //now, the mock implements extra interfaces, so following casting is possible:
* Bar bar = (Bar) foo;
* Baz baz = (Baz) foo;
* * Beware that naming mocks is not a solution for complex code which uses too many mocks or collaborators. * If you have too many mocks then refactor the code so that it's easy to test/debug without necessity of naming mocks. *
* If you use @Mock annotation then you've got naming mocks for free! @Mock uses field name as mock name. {@link Mock Read more.} *
* Examples: *
* Foo foo = mock(Foo.class, withSettings().name("foo"));
*
* //Below does exactly the same:
* Foo foo = mock(Foo.class, "foo");
* * As usual you are going to read the partial mock warning: * Object oriented programming is more or less about tackling complexity by dividing the complexity into separate, specific, SRPy objects. * How does partial mock fit into this paradigm? Well, it just doesn't... * Partial mock usually means that the complexity has been moved to a different method on the same object. * In most cases, this is not the way you want to design your application. *
* However, there are rare cases when partial mocks come handy: * dealing with code you cannot change easily (3rd party interfaces, interim refactoring of legacy code etc.) * However, I wouldn't use partial mocks for new, test-driven & well-designed code. *
* Enough warnings about partial mocks, see an example how spiedInstance() works: *
* Foo foo = mock(Foo.class, withSettings().spiedInstance(fooInstance));
*
* //Below does exactly the same:
* Foo foo = spy(fooInstance);
* doReturn|Throw|Answer|CallRealMethod stubbing style. Example:
*
* * List list = new LinkedList(); * List spy = spy(list); * * //Impossible: real method is called so spy.get(0) throws IndexOutOfBoundsException (the list is yet empty) * when(spy.get(0)).thenReturn("foo"); * * //You have to use doReturn() for stubbing * doReturn("foo").when(spy).get(0); ** * @param instance to spy on * @return settings instance so that you can fluently specify other settings */ MockSettings spiedInstance(Object instance); /** * Specifies default answers to interactions. * It's quite advanced feature and typically you don't need it to write decent tests. * However it can be helpful when working with legacy systems. ** It is the default answer so it will be used only when you don't stub the method call. * *
* * @param defaultAnswer default answer to be used by mock when not stubbed * @return settings instance so that you can fluently specify other settings */ @SuppressWarnings("unchecked") MockSettings defaultAnswer(Answer defaultAnswer); /** * Configures the mock to be serializable. With this feature you can use a mock in a place that requires dependencies to be serializable. ** Foo mock = mock(Foo.class, withSettings().defaultAnswer(RETURNS_SMART_NULLS)); * Foo mockTwo = mock(Foo.class, withSettings().defaultAnswer(new YourOwnAnswer())); * * //Below does exactly the same: * Foo mockTwo = mock(Foo.class, new YourOwnAnswer()); ** WARNING: This should be rarely used in unit testing. *
* The behaviour was implemented for a specific use case of a BDD spec that had an unreliable external dependency. This * was in a web environment and the objects from the external dependency were being serialized to pass between layers. *
* Example: *
* * @return settings instance so that you can fluently specify other settings * @since 1.8.1 */ MockSettings serializable(); /** * Configures the mock to be serializable with a specific serializable mode. * With this feature you can use a mock in a place that requires dependencies to be serializable. ** List serializableMock = mock(List.class, withSettings().serializable()); ** WARNING: This should be rarely used in unit testing. *
* The behaviour was implemented for a specific use case of a BDD spec that had an unreliable external dependency. This * was in a web environment and the objects from the external dependency were being serialized to pass between layers. * *
* * @param mode serialization mode * @return settings instance so that you can fluently specify other settings * @since 1.10.0 */ MockSettings serializable(SerializableMode mode); /** * Enables real-time logging of method invocations on this mock. Can be used * during test debugging in order to find wrong interactions with this mock. ** List serializableMock = mock(List.class, withSettings().serializable(SerializableMode.ACROSS_CLASSLOADERS)); ** Invocations are logged as they happen to the standard output stream. *
* Calling this method multiple times makes no difference. *
* Example: *
* * @return settings instance so that you can fluently specify other settings */ MockSettings verboseLogging(); /** * Registers a listener for method invocations on this mock. The listener is * notified every time a method on this mock is called. ** List mockWithLogger = mock(List.class, withSettings().verboseLogging()); ** Multiple listeners may be added and they will be notified in the order they were supplied. * * Example: *
* * See the {@link InvocationListener listener interface} for more details. * * @param listeners The invocation listeners to add. May not be null. * @return settings instance so that you can fluently specify other settings */ MockSettings invocationListeners(InvocationListener... listeners); /** * Registers a listener(s) that will be notified when user starts verification. * See {@link VerificationStartedListener} on how such listener can be useful. ** List mockWithListener = mock(List.class, withSettings().invocationListeners(new YourInvocationListener())); ** When multiple listeners are added, they are notified in order they were supplied. * There is no reason to supply multiple listeners but we wanted to keep the API * simple and consistent with {@link #invocationListeners(InvocationListener...)}. *
* Throws exception when any of the passed listeners is null or when the entire vararg array is null. * * @param listeners to be notified when user starts verification. * @return settings instance so that you can fluently specify other settings * @since 2.11.0 */ @Incubating MockSettings verificationStartedListeners(VerificationStartedListener... listeners); /** * A stub-only mock does not record method * invocations, thus saving memory but * disallowing verification of invocations. *
* Example: *
* * @return settings instance so that you can fluently specify other settings */ MockSettings stubOnly(); /** * Mockito attempts to use constructor when creating instance of the mock. * This is particularly useful for spying on abstract classes. See also {@link Mockito#spy(Class)}. ** List stubOnly = mock(List.class, withSettings().stubOnly()); ** Example: *
* * @param args The arguments to pass to the constructor. Not passing any arguments means that a parameter-less * constructor will be called * @return settings instance so that you can fluently specify other settings * @since 2.7.14 (useConstructor with no arguments was supported since 1.10.12) */ @Incubating MockSettings useConstructor(Object... args); /** * Makes it possible to mock non-static inner classes in conjunction with {@link #useConstructor(Object...)}. ** //Robust API, via settings builder: * OtherAbstract spy = mock(OtherAbstract.class, withSettings() * .useConstructor().defaultAnswer(CALLS_REAL_METHODS)); * * //Mocking an abstract class with constructor arguments * SomeAbstract spy = mock(SomeAbstract.class, withSettings() * .useConstructor("arg1", 123).defaultAnswer(CALLS_REAL_METHODS)); * * //Mocking a non-static inner abstract class: * InnerAbstract spy = mock(InnerAbstract.class, withSettings() * .useConstructor().outerInstance(outerInstance).defaultAnswer(CALLS_REAL_METHODS)); ** Example: *
* * @return settings instance so that you can fluently specify other settings * @since 1.10.12 */ @Incubating MockSettings outerInstance(Object outerClassInstance); /** * By default, Mockito makes an attempt to preserve all annotation meta data on the mocked * type and its methods to mirror the mocked type as closely as possible. If this is not * desired, this option can be used to disable this behavior. * * @return settings instance so that you can fluently specify other settings * @since 1.10.13 */ @Incubating MockSettings withoutAnnotations(); /** * Creates immutable view of mock settings used later by Mockito. * Framework integrators can use this method to create instances of creation settings * and use them in advanced use cases, for example to create invocations with {@link InvocationFactory}, * or to implement custom {@link MockHandler}. * Since {@link MockCreationSettings} is {@link NotExtensible}, Mockito public API needs a creation method for this type. * * @param typeToMock class to mock * @param* InnerClass mock = mock(InnerClass.class, withSettings() * .useConstructor().outerInstance(outerInstance).defaultAnswer(CALLS_REAL_METHODS)); *type to mock * @return immutable view of mock settings * @since 2.10.0 */ @Incubating MockCreationSettings build(Class typeToMock); /** * Lenient mocks bypass "strict stubbing" validation (see {@link Strictness#STRICT_STUBS}). * When mock is declared as lenient none of its stubbings will be checked for potential stubbing problems such as * 'unnecessary stubbing' ({@link UnnecessaryStubbingException}) or for 'stubbing argument mismatch' {@link PotentialStubbingProblem}. * * * * For more information and an elaborate example, see {@link Mockito#lenient()}. */ @Incubating MockSettings lenient(); }* Foo mock = mock(Foo.class, withSettings.lenient()); *