I have a dao.create() call that I want to mock when testing a method.
But I am missing something as I'm still getting NPE. What is wrong here?
class MyService {
#Inject
private Dao dao;
public void myMethod() {
//..
dao.create(object);
//
}
}
How can I mock out the dao.create() call?
#RunWith(PowerMockRunner.class)
#PrepareForTest(DAO.class)
public void MyServiceTest {
#Test
public void testMyMethod() {
PowerMockito.mock(DAO.class);
MyService service = new MyService();
service.myMethod(); //NPE for dao.create()
}
}
You are not injecting the DAO. With mockito you can change your test class to use #InjectMocks and use mockito runner.
#RunWith(MockitoJUnitRunner.class)
public void MyServiceTest {
#Mock
private Dao dao;
#InjectMocks
private MyService myService;
...
}
You can read more about InjectMocks at Inject Mocks API
Simpler way is changing your injection to injection by constructor. For example, you would change MyService to
class MyService {
...
private final Dao dao;
#Inject
public MyService(Dao dao) {
this.dao = dao;
}
...
}
then your test you could simple pass the mocked DAO in setup.
...
#Mock
private Dao dao;
#Before
public void setUp() {
this.dao = mock(Dao.class);
this.service = new MyService(dao);
}
...
now you can use verify to check if create was called, like:
...
verify(dao).create(argThat(isExpectedObjectBeingCreated(object)));
}
private Matcher<?> isExpectedObjectBeingCreated(Object object) { ... }
Using injection by constructor will let your dependencies clearer to other developers and it will help when creating tests :)
You still need to set the dao field with your mock.
You can use reflection to this.
You need to inject/set the mocked object DAO in your service class.
If it is a spring based project, you may have a look # Spring Junit Testrunner
If you use new MyService() the Dao is never injected. For the Dao to be injected you need to load the MyService via an ApplicationContext (Spring) or an Injector (Guice). Like you would in your normal application.
As others have already said, you need to set the dao field in your MyService class in some fashion. I'm unsure the mechanism to allow for a compound runner on your test to use both Powermock and a DI framework runner (assuming Powermock is required), but as long as you're already using PowerMock (for reasons unclear in the given example), you could avail yourself of the Whitebox class to set the dao more manually.
public void testMyMethod() {
Dao dao = mock(Dao.class)
doNothing().when(dao).create(anyObject())); //assuming no return val for dao.create()
MyService service = new MyService();
Whitebox.setInternalState(service, "dao", dao);
service.myMethod();
}
Related
I have a singleton class (so private constructor) which needs to use a Spring Data repository during initialization. I have one injected as a constructor argument. Roughly:
#Controller
public class MyClass {
#Autowired
private MyClass(MyRepository repo) {
repo.findAll();
}
}
I want to unit test my class, so I need to have a mock repository initialized with mock values and then passed into my class before my class is initialized. How do I write my Mockito mocks in my JUnit test to make this possible?
You don't need Spring; this is an advantage of constructor injection. Just use MyRepository mockRepo = mock(MyRepository.class) and new MyClass(mockRepo).
(Your constructor should be public, by the way. You seem to be making the common mistake of confusing different senses of "singleton"; in the case of DI it simply means that the container only makes a single instance and shares it. Finally, if you only have one constructor you don't need #Autowired.)
Unit test should be independent. It means, we are not using real data from database even call any service from our test file.
Assuming you are using JUni5 and have findAllStudents() in your controller. So your test file approximately like this
#TestInstance(TestInstance.Lifecycle.PER_CLASS)
public class MyClassTest {
#Mock
private MyRepository repo;
#InjectMocks
private MyClass controller;
#BeforeAll
public void setup() {
MockitoAnnotations.initMocks(this);
}
#Test
public void testDataIsExist() {
List<String> expectednames = new ArrayList();
expectedNames.add("Foo");
expectedNames.add("Bar");
Mockito.when(myRepo.findAll()).thenReturn(expectedNames);
List<String> result = controller.findAllStudents();
Assertions.assertNotNull(result);
Assertions.assertEquals(expectednames, result);
}
}
So we are mock all the services we use in controller, then inject to controller itself. Then inside the test method we mock repo.findAll() to return expectedNames so if the controller find that function it will return what mock says to return.
After we call the function, we have to make it sure that the result is according to what we expected.
There is little value in a "unit test" for a #Controller implementation. If you use #WebMvcTest, then you can use #MockBean:
#WebMvcTest
class MyControllerTest {
#Autowired
private MockMvc mockMvc;
#MockBean
private MyRepository repository;
#Test
void testSomething() {
mockMvc.perform( ... );
}
}
I'm writing tests for a project with a heavy use of dependency injection.
So normally I would just inject the object that I'm testing:
public class RegistrationTest
extends WithApplication {
private RegistrationController controller;
#Before
public void setUp() throws Exception {
Injector injector = app.injector();
controller = injector.instanceOf(RegistrationController.class);
}
#Test
public void openRegistrationView() {
Result result = controller.registrationForm();
assertEquals(OK, result.status());
}
}
Now I need to mock a return value of a method of one of the dependencies of the class under test.
To do this I can use #InjectMocks and #RunWith(MockitoJUnitRunner.class) to inject mocked dependencies.
#RunWith(MockitoJUnitRunner.class)
public class RegistrationTest
extends WithApplication {
#InjectMocks
private RegistrationController controller;
#Mock
private FormFactory formFactory;
#Mock
private RegistrationIpCache registrationIpCache;
#Test
public void openRegistrationView() {
doReturn("test").when(registrationIpCache).getLast();
Result result = controller.registrationForm();
assertEquals(OK, result.status());
}
}
But while I only want to mock one method call of RegistrationIpCache I need to mock the whole class and also I need to mock all other dependencies of RegistrationController like FormFactory in my example. Now every method of all mocked classes doesn't work as expected.
Sure I can use doCallRealMethod() to mock every method of all dependencies
doCallRealMethod().when(formFactory).form(Registration.class);
But as you already can imagine the work and the amount of boilerplate code needed for this to work is extreme.
Isn't it possible to inject my class normally and then only spy one dependency or mock one method of one dependency?
You need to use #Spy instead of a #Mock.
#InjectMocks
private RegistrationController controller;
#Mock
private FormFactory formFactory;
#Spy
private RegistrationIpCache registrationIpCache;
But be aware that in this case #Spy will try to use default constructor.
If the default constructor is not available use explicit constructor call:
#Spy
private RegistrationIpCache registrationIpCache = new RegistrationIpCache(dependencies);
Here is the cases when Mockito isn't able to instantiate your class from #Spy javadoc:
Mockito will try to find zero argument constructor (even private) and
create an instance for you. But Mockito cannot instantiate inner
classes, local classes, abstract classes and interfaces.
Here is the example of manually injecting dependencies:
#RunWith(MockitoJUnitRunner.class)
public class RegistrationTest {
private RegistrationController controller;
private RegistrationIpCache spyRegistrationIpCache; //this is the dependencies that you need to spy
#Before
public void setUp() throws Exception {
spyRegistrationIpCache = spy(realInstanceOfregistrationIpCache);
controller = new RegistrationController(registrationIpCache, realInstanceOfFormFactory);
}
}
In this case there is much more code that you have to write, but this give you much more control over the object instantiation and dependency injection.
Note that using constructor instantiation is not required. Since you do it manually you can instantiate it however you want.
I'm writing a test case for a Class which has a 2 level of dependency injection. I use #Spy annotation for the 1 level dependency injection object, and I would like to Mock the 2nd level of injection. However, I kept getting null pointer exception on the 2nd level. Is there any way that I inject the mock into the #Spy object?
public class CarTestCase{
#Mock
private Configuration configuration;
#Spy
private Engine engine;
#InjectMocks
private Car car;
#Test
public void test(){
Mockito.when(configuration.getProperties("")).return("Something");
car.drive();
}
}
public class Car{
#Inject
private Engine engine;
public void drive(){
engine.start();
}
}
public class Engine{
#Inject
private Configuration configuration;
public void start(){
configuration.getProperties(); // null pointer exception
}
}
I've also wandered how to inject a mock into a spy.
The following approach will not work:
#Spy
#InjectMocks
private MySpy spy;
But the desired behavior can be achieved by a "hybrid" approach, when using both annotation and manual mocking. The following works perfectly:
#Mock
private NeedToBeMocked needToBeMocked;
#InjectMocks
private MySpy mySpy;
#InjectMocks
private SubjectUnderTest sut;
#BeforeMethod
public void setUp() {
mySpy = Mockito.spy(new MySpy());
MockitoAnnotations.initMocks(this);
}
(SubjectUnderTest here depends on MySpy, and MySpy in its turn depends on NeedToBeMocked).
UPD: Personally, I think that if you have to do such a magic too often, it might be a sign that there is something wrong with dependenicies between your classes and it is worth to perform a little bit of refactoring to improve your code.
The (simplest) solution that worked for me.
#InjectMocks
private MySpy spy = Mockito.spy(new MySpy());
No need for MockitoAnnotations.initMocks(this) in this case, as long as test class is annotated with #RunWith(MockitoJUnitRunner.class).
Mockito cannot perform such a tricky injections as it's not an injection framework. So, you need to refactor your code to make it more testable. It's easy done by using constructor injection:
public class Engine{
private Configuration configuration;
#Inject
public Engine(Configuration configuration) {
this.configuration = configuration;
}
........
}
public class Car{
private Engine engine;
#Inject
public Car(Engine engine) {
this.engine = engine;
}
}
In this case you have to handle the mocking and injection manually:
public class CarTestCase{
private Configuration configuration;
private Engine engine;
private Car car;
#Before
public void setUp(){
configuration = mock(Configuration.class);
engine = spy(new Engine(configuration));
car = new Car(engine);
}
#Test
public void test(){
Mockito.when(configuration.getProperties("")).return("Something");
car.drive();
}
}
I also met this issue during the unit testing with Spring boot framework, but I found one solution for using both #Spy and #InjectMocks
Previous answer from Yoory N.
#Spy
#InjectMocks
private MySpy spy;
Because InjectMocks need to have instance created, so the solution works for me is at below,
#Spy
#InjectMocks
private MySpy spy = new MySpy();
I think I just found the definitive answer. I tried Yoory approach but changed the order of the annotations :
#InjectMocks
#Spy
private MySpy spy;
I assume that Mockito first creates the mock, and adds a spy on top of that. So there is no need to instantiate the MySpy object.
Junit5 + mockito-junit-upiter-4.2.0 works well
#ExtendWith(MockitoExtension.class)
public class MyTest {
#Spy
#InjectMocks
private SomeClass spy = new SomeClass();
What is the difference between #Mock and #InjectMocks in Mockito framework?
#Mock creates a mock. #InjectMocks creates an instance of the class and injects the mocks that are created with the #Mock (or #Spy) annotations into this instance.
Note you must use #RunWith(MockitoJUnitRunner.class) or Mockito.initMocks(this) to initialize these mocks and inject them (JUnit 4).
With JUnit 5, you must use #ExtendWith(MockitoExtension.class).
#RunWith(MockitoJUnitRunner.class) // JUnit 4
// #ExtendWith(MockitoExtension.class) for JUnit 5
public class SomeManagerTest {
#InjectMocks
private SomeManager someManager;
#Mock
private SomeDependency someDependency; // this will be injected into someManager
// tests...
}
This is a sample code on how #Mock and #InjectMocks works.
Say we have Game and Player class.
class Game {
private Player player;
public Game(Player player) {
this.player = player;
}
public String attack() {
return "Player attack with: " + player.getWeapon();
}
}
class Player {
private String weapon;
public Player(String weapon) {
this.weapon = weapon;
}
String getWeapon() {
return weapon;
}
}
As you see, Game class need Player to perform an attack.
#RunWith(MockitoJUnitRunner.class)
class GameTest {
#Mock
Player player;
#InjectMocks
Game game;
#Test
public void attackWithSwordTest() throws Exception {
Mockito.when(player.getWeapon()).thenReturn("Sword");
assertEquals("Player attack with: Sword", game.attack());
}
}
Mockito will mock a Player class and it's behaviour using when and thenReturn method. Lastly, using #InjectMocks Mockito will put that Player into Game.
Notice that you don't even have to create a new Game object. Mockito will inject it for you.
// you don't have to do this
Game game = new Game(player);
We will also get same behaviour using #Spy annotation. Even if the attribute name is different.
#RunWith(MockitoJUnitRunner.class)
public class GameTest {
#Mock Player player;
#Spy List<String> enemies = new ArrayList<>();
#InjectMocks Game game;
#Test public void attackWithSwordTest() throws Exception {
Mockito.when(player.getWeapon()).thenReturn("Sword");
enemies.add("Dragon");
enemies.add("Orc");
assertEquals(2, game.numberOfEnemies());
assertEquals("Player attack with: Sword", game.attack());
}
}
class Game {
private Player player;
private List<String> opponents;
public Game(Player player, List<String> opponents) {
this.player = player;
this.opponents = opponents;
}
public int numberOfEnemies() {
return opponents.size();
}
// ...
That's because Mockito will check the Type Signature of Game class, which is Player and List<String>.
In your test class, the tested class should be annotated with #InjectMocks. This tells Mockito which class to inject mocks into:
#InjectMocks
private SomeManager someManager;
From then on, we can specify which specific methods or objects inside the class, in this case, SomeManager, will be substituted with mocks:
#Mock
private SomeDependency someDependency;
In this example, SomeDependency inside the SomeManager class will be mocked.
#Mock annotation mocks the concerned object.
#InjectMocks annotation allows to inject into the underlying object the different (and relevant) mocks created by #Mock.
Both are complementary.
#Mock creates a mock implementation for the classes you need.
#InjectMock creates an instance of the class and injects the mocks that are marked with the annotations #Mock into it.
For example
#Mock
StudentDao studentDao;
#InjectMocks
StudentService service;
#Before
public void setUp() throws Exception {
MockitoAnnotations.initMocks(this);
}
Here we need the DAO class for the service class. So, we mock it and inject it in the service class instance.
Similarly, in Spring framework all the #Autowired beans can be mocked by #Mock in jUnits and injected into your bean through #InjectMocks.
MockitoAnnotations.initMocks(this) method initialises these mocks and injects them for every test method so it needs to be called in the setUp() method.
This link has a good tutorial for Mockito framework
A "mocking framework", which Mockito is based on, is a framework that gives you the ability to create Mock objects ( in old terms these objects could be called shunts, as they work as shunts for dependend functionality )
In other words, a mock object is used to imitate the real object your code is dependend on, you create a proxy object with the mocking framework.
By using mock objects in your tests you are essentially going from normal unit testing to integrational testing
Mockito is an open source testing framework for Java released under the MIT License, it is a "mocking framework", that lets you write beautiful tests with clean and simple API. There are many different mocking frameworks in the Java space, however there are essentially two main types of mock object frameworks, ones that are implemented via proxy and ones that are implemented via class remapping.
Dependency injection frameworks like Spring allow you to inject your proxy objects without modifying any code, the mock object expects a certain method to be called and it will return an expected result.
The #InjectMocks annotation tries to instantiate the testing object instance and injects fields annotated with #Mock or #Spy into private fields of the testing object.
MockitoAnnotations.initMocks(this) call, resets testing object and re-initializes mocks, so remember to have this at your #Before / #BeforeMethod annotation.
Though the above answers have covered, I have just tried to add minute detail s which i see missing. The reason behind them(The Why).
Illustration:
Sample.java
---------------
public class Sample{
DependencyOne dependencyOne;
DependencyTwo dependencyTwo;
public SampleResponse methodOfSample(){
dependencyOne.methodOne();
dependencyTwo.methodTwo();
...
return sampleResponse;
}
}
SampleTest.java
-----------------------
#RunWith(PowerMockRunner.class)
#PrepareForTest({ClassA.class})
public class SampleTest{
#InjectMocks
Sample sample;
#Mock
DependencyOne dependencyOne;
#Mock
DependencyTwo dependencyTwo;
#Before
public void init() {
MockitoAnnotations.initMocks(this);
}
public void sampleMethod1_Test(){
//Arrange the dependencies
DependencyResponse dependencyOneResponse = Mock(sampleResponse.class);
Mockito.doReturn(dependencyOneResponse).when(dependencyOne).methodOne();
DependencyResponse dependencyTwoResponse = Mock(sampleResponse.class);
Mockito.doReturn(dependencyOneResponse).when(dependencyTwo).methodTwo();
//call the method to be tested
SampleResponse sampleResponse = sample.methodOfSample()
//Assert
<assert the SampleResponse here>
}
}
Reference
One advantage you get with the approach mentioned by #Tom is that you don't have to create any constructors in the SomeManager, and hence limiting the clients to instantiate it.
#RunWith(MockitoJUnitRunner.class)
public class SomeManagerTest {
#InjectMocks
private SomeManager someManager;
#Mock
private SomeDependency someDependency; // this will be injected into someManager
//You don't need to instantiate the SomeManager with default contructor at all
//SomeManager someManager = new SomeManager();
//Or SomeManager someManager = new SomeManager(someDependency);
//tests...
}
Whether its a good practice or not depends on your application design.
#Mock is used to declare/mock the references of the dependent beans, while #InjectMocks is used to mock the bean for which test is being created.
For example:
public class A{
public class B b;
public void doSomething(){
}
}
test for class A:
public class TestClassA{
#Mocks
public class B b;
#InjectMocks
public class A a;
#Test
public testDoSomething(){
}
}
#InjectMocks annotation can be used to inject mock fields into a test object automatically.
In below example #InjectMocks has used to inject the mock dataMap into the dataLibrary .
#Mock
Map<String, String> dataMap ;
#InjectMocks
DataLibrary dataLibrary = new DataLibrary();
#Test
public void whenUseInjectMocksAnnotation_() {
Mockito.when(dataMap .get("aData")).thenReturn("aMeaning");
assertEquals("aMeaning", dataLibrary .getMeaning("aData"));
}
Many people have given a great explanation here about #Mock vs #InjectMocks. I like it, but I think our tests and application should be written in such a way that we shouldn't need to use #InjectMocks.
Reference for further reading with examples: https://tedvinke.wordpress.com/2014/02/13/mockito-why-you-should-not-use-injectmocks-annotation-to-autowire-fields/
#Mock is for creating and injecting mock instances without having to call Mockito.mock manually. In this example the instance would be ClassB.
Whereas, #InjectMocks is for injecting mock fields into the tested object automatically. In this case it would be ClassA
Notice that that #InjectMocks are about to be deprecated
deprecate #InjectMocks and schedule for removal in Mockito 3/4
and you can follow #avp answer and link on:
Why You Should Not Use InjectMocks Annotation to Autowire Fields
I have a component setup that is essentially a launcher for an application. It is configured like so:
#Component
public class MyLauncher {
#Autowired
MyService myService;
//other methods
}
MyService is annotated with the #Service Spring annotation and is autowired into my launcher class without any issues.
I would like to write some jUnit test cases for MyLauncher, to do so I started a class like this:
public class MyLauncherTest
private MyLauncher myLauncher = new MyLauncher();
#Test
public void someTest() {
}
}
Can I create a Mock object for MyService and inject it into myLauncher in my test class? I currently don't have a getter or setter in myLauncher as Spring is handling the autowiring. If possible, I'd like to not have to add getters and setters. Can I tell the test case to inject a mock object into the autowired variable using an #Before init method?
If I'm going about this completely wrong, feel free to say that. I'm still new to this. My main goal is to just have some Java code or annotation that puts a mock object in that #Autowired variable without me having to write a setter method or having to use an applicationContext-test.xml file. I would much rather maintain everything for the test cases in the .java file instead of having to maintain a separate application content just for my tests.
I am hoping to use Mockito for the mock objects. In the past I have done this by using org.mockito.Mockito and creating my objects with Mockito.mock(MyClass.class).
You can absolutely inject mocks on MyLauncher in your test. I am sure if you show what mocking framework you are using someone would be quick to provide an answer. With mockito I would look into using #RunWith(MockitoJUnitRunner.class) and using annotations for myLauncher. It would look something like what is below.
#RunWith(MockitoJUnitRunner.class)
public class MyLauncherTest
#InjectMocks
private MyLauncher myLauncher = new MyLauncher();
#Mock
private MyService myService;
#Test
public void someTest() {
}
}
The accepted answer (use MockitoJUnitRunner and #InjectMocks) is great. But if you want something a little more lightweight (no special JUnit runner), and less "magical" (more transparent) especially for occasional use, you could just set the private fields directly using introspection.
If you use Spring, you already have a utility class for this : org.springframework.test.util.ReflectionTestUtils
The use is quite straightforward :
ReflectionTestUtils.setField(myLauncher, "myService", myService);
The first argument is your target bean, the second is the name of the (usually private) field, and the last is the value to inject.
If you don't use Spring, it is quite trivial to implement such a utility method. Here is the code I used before I found this Spring class :
public static void setPrivateField(Object target, String fieldName, Object value){
try{
Field privateField = target.getClass().getDeclaredField(fieldName);
privateField.setAccessible(true);
privateField.set(target, value);
}catch(Exception e){
throw new RuntimeException(e);
}
}
Sometimes you can refactor your #Component to use constructor or setter based injection to setup your testcase (you can and still rely on #Autowired). Now, you can create your test entirely without a mocking framework by implementing test stubs instead (e.g. Martin Fowler's MailServiceStub):
#Component
public class MyLauncher {
private MyService myService;
#Autowired
MyLauncher(MyService myService) {
this.myService = myService;
}
// other methods
}
public class MyServiceStub implements MyService {
// ...
}
public class MyLauncherTest
private MyLauncher myLauncher;
private MyServiceStub myServiceStub;
#Before
public void setUp() {
myServiceStub = new MyServiceStub();
myLauncher = new MyLauncher(myServiceStub);
}
#Test
public void someTest() {
}
}
This technique especially useful if the test and the class under test is located in the same package because then you can use the default, package-private access modifier to prevent other classes from accessing it. Note that you can still have your production code in src/main/java but your tests in src/main/test directories.
If you like Mockito then you will appreciate the MockitoJUnitRunner. It allows you to do "magic" things like #Manuel showed you:
#RunWith(MockitoJUnitRunner.class)
public class MyLauncherTest
#InjectMocks
private MyLauncher myLauncher; // no need to call the constructor
#Mock
private MyService myService;
#Test
public void someTest() {
}
}
Alternatively, you can use the default JUnit runner and call the MockitoAnnotations.initMocks() in a setUp() method to let Mockito initialize the annotated values. You can find more information in the javadoc of #InjectMocks and in a blog post that I have written.
I believe in order to have auto-wiring work on your MyLauncher class (for myService), you will need to let Spring initialize it instead of calling the constructor, by auto-wiring myLauncher. Once that is being auto-wired (and myService is also getting auto-wired), Spring (1.4.0 and up) provides a #MockBean annotation you can put in your test. This will replace a matching single beans in context with a mock of that type. You can then further define what mocking you want, in a #Before method.
public class MyLauncherTest
#MockBean
private MyService myService;
#Autowired
private MyLauncher myLauncher;
#Before
private void setupMockBean() {
doNothing().when(myService).someVoidMethod();
doReturn("Some Value").when(myService).someStringMethod();
}
#Test
public void someTest() {
myLauncher.doSomething();
}
}
Your MyLauncher class can then remain unmodified, and your MyService bean will be a mock whose methods return values as you defined:
#Component
public class MyLauncher {
#Autowired
MyService myService;
public void doSomething() {
myService.someVoidMethod();
myService.someMethodThatCallsSomeStringMethod();
}
//other methods
}
A couple advantages of this over other methods mentioned is that:
You don't need to manually inject myService.
You don't need use the Mockito runner or rules.
I'm a new user for Spring. I found a different solution for this. Using reflection and making public necessary fields and assign mock objects.
This is my auth controller and it has some Autowired private properties.
#RestController
public class AuthController {
#Autowired
private UsersDAOInterface usersDao;
#Autowired
private TokensDAOInterface tokensDao;
#RequestMapping(path = "/auth/getToken", method = RequestMethod.POST)
public #ResponseBody Object getToken(#RequestParam String username,
#RequestParam String password) {
User user = usersDao.getLoginUser(username, password);
if (user == null)
return new ErrorResult("Kullanıcıadı veya şifre hatalı");
Token token = new Token();
token.setTokenId("aergaerg");
token.setUserId(1);
token.setInsertDatetime(new Date());
return token;
}
}
And this is my Junit test for AuthController. I'm making public needed private properties and assign mock objects to them and rock :)
public class AuthControllerTest {
#Test
public void getToken() {
try {
UsersDAO mockUsersDao = mock(UsersDAO.class);
TokensDAO mockTokensDao = mock(TokensDAO.class);
User dummyUser = new User();
dummyUser.setId(10);
dummyUser.setUsername("nixarsoft");
dummyUser.setTopId(0);
when(mockUsersDao.getLoginUser(Matchers.anyString(), Matchers.anyString())) //
.thenReturn(dummyUser);
AuthController ctrl = new AuthController();
Field usersDaoField = ctrl.getClass().getDeclaredField("usersDao");
usersDaoField.setAccessible(true);
usersDaoField.set(ctrl, mockUsersDao);
Field tokensDaoField = ctrl.getClass().getDeclaredField("tokensDao");
tokensDaoField.setAccessible(true);
tokensDaoField.set(ctrl, mockTokensDao);
Token t = (Token) ctrl.getToken("test", "aergaeg");
Assert.assertNotNull(t);
} catch (Exception ex) {
System.out.println(ex);
}
}
}
I don't know advantages and disadvantages for this way but this is working. This technic has a little bit more code but these codes can be seperated by different methods etc. There are more good answers for this question but I want to point to different solution. Sorry for my bad english. Have a good java to everybody :)
Look at this link
Then write your test case as
#RunWith(SpringJUnit4ClassRunner.class)
#ContextConfiguration({"/applicationContext.xml"})
public class MyLauncherTest{
#Resource
private MyLauncher myLauncher ;
#Test
public void someTest() {
//test code
}
}