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I am very new to Java testing with jUnit. Till today, I was using Python and its unit test class unittest. Now, I have to work with Java and I would like to use unit tests.

My problem is: I have abstract class with some abstract methods. But there are some methods, which are not abstract. How can I test this class with jUnit? Example code (very simple):

abstract class Car {

  public void Car(int speed, int fuel) {
    this.speed = speed;
    this.fuel = fuel;

  private int speed;
  private int fuel;

  abstract void drive();

  public int getSpeed() {
    return this.speed;

  public int getFuel() {
    return this.fuel;

I want to test getSpeed() and getFuel() functions.

Similar question to this problem is here, but it is not using jUnit.

In jUnit FAQ section, I found this link, but I don't understand what the author want to say with this example. What does this line of code mean?

public abstract Source getSource() ;

Thanks for any help.

share|improve this question
See… for two solutions using Mockito. – ddso Sep 27 '11 at 12:58
Is there any advantage to learn another framework for testing? Is Mockito only an extension to jUnit, or completely different project? – vasco Sep 27 '11 at 13:25
Mockito does not replace JUnit. Like other mocking frameworks, it is used in addition to a unit testing framework and helps you with creating mock objects to use in your test cases. – ddso Sep 27 '11 at 13:31

8 Answers 8

up vote 35 down vote accepted

If you have no concrete implementations of the class and the methods aren't static whats the point of testing them? If you have a concrete class then you'll be testing those methods as part of the concrete class's public API.

I know what you are thinking "I don't want to test these methods over and over thats the reason I created the abstract class", but my counter argument to that is that the point of unit tests is to allow developers to make changes, run the tests, and analyze the results. Part of those changes could include overriding your abstract class's methods, both protected and public, which could result in fundamental behavioral changes. Depending on the nature of those changes it could affect how your application runs in unexpected, possibly negative ways. If you have a good unit testing suite problems arising from these types changes should be apparent at development time.

share|improve this answer
You are absolutely right. I didn't think about it in this way. I just thought it is good to have test suit for every class in project, so I can be sure every class is working how I suppose. – vasco Sep 27 '11 at 13:22
100% code coverage is a myth. You should have exactly enough tests to cover all your known hypotheses about how your application should behave(preferably written before you write the code la Test Driven Development). I am currently working on a very highly functioning TDD team and we only have 63% coverage as of our last build all written as we developed. Is that good? who knows?, but I would consider it a waste of time to go back and try to boost that higher. – nsfyn55 Sep 27 '11 at 13:34
I would avoid the test duplication and declare methods as final where it applies. The flip side to this argument, is that you will have to change multiple tests if you decide to refactor or change the function of the abstract class – HandyManDan Oct 3 '13 at 1:45
sure. Some would argue that is a violation of good TDD. Imagine you are on a team. You make the assumption that the method is final and don't put tests for in in any concrete implementations. Someone removes the modifier and makes changes that ripple down an entire branch of the inheritance hierarchy. Wouldn't you want your test suite to catch that? – nsfyn55 Oct 5 '13 at 11:35
I disagree. Whether you work in TDD or not, your abstract class's concrete method contains code, therefore, they should have tests (regardless of whether there are subclasses or not). Moreover, unit testing in Java tests (normally) classes. Therefore, there's really no logic in testing methods that are not a part of the class, but rather of its super class. Following that logic, we should not test any class in Java, except for classes with no sub classes at all. Regarding the methods being overridden, that's exactly when you add a test to check the changes/additions to the sub class's test. – eitanfar Sep 17 '14 at 9:54

Create a concrete class that inherits the abstract class and then test the functions the concrete class inherits from the abstract class.

share|improve this answer

With the example class you posted it doesn't seem to make much sense to test getFuel() and getSpeed() since they can only return 0 (there are no setters).

However, assuming that this was just a simplified example for illustrative purposes, and that you have legitimate reasons to test methods in the abstract base class (others have already pointed out the implications), you could setup your test code so that it creates an anonymous subclass of the base class that just provides dummy (no-op) implementations for the abstract methods.

For example, in your TestCase you could do this:

c = new Car() {
       void drive() { };

Then test the rest of the methods, e.g.:

public class CarTest extends TestCase
    private Car c;

    public void setUp()
        c = new Car() {
            void drive() { };

    public void testGetFuel() 
        assertEquals(c.getFuel(), 0);


(This example is based on JUnit3 syntax. For JUnit4, the code would be slightly different, but the idea is the same.)

share|improve this answer
Thanks for answer. Yes, my example was simplified (and not so good). After reading all answers here, I wrote dummy class. But as wrote @nsfyn55 in his answer, I write test for every descendant of this abstract class. – vasco Sep 28 '11 at 11:44
Thank you for actually providing an answer to the question for people like me who has the same question four years later. – Aequitas Aug 16 at 23:26

Use mocking. Check Mockito for example.

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You can not test whole abstract class. In this case you have abstract methods, this mean that they should be implemented by class that extend given abstract class.

In that class programmer have to write the source code that is dedicated for logic of his.

In other words there is no sens of testing abstract class because you are not able to check the final behavior of it.

If you have major functionality not related to abstract methods in some abstract class, just create another class where the abstract method will throw some exception.

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I would create a jUnit subclass that inherits from the abstract class. This can be instantiated and have access to all the methods defined in the abstract class.

share|improve this answer
This is excellent advice. It could be improved by providing an example, though. Perhaps an example of the class you're describing. – SDJMcHattie Mar 4 '14 at 7:05

You could do something like this

public abstract MyAbstractClass {

    private MyMock myMock;        

    protected String sayHello() {
            return myMock.getHello() + ", " + getName();

    public abstract String getName();

// this is your JUnit test
public class MyAbstractClassTest extends MyAbstractClass {

    private MyMock myMock;

    private MyAbstractClass thiz = this;

    private String myName = null;

    public String getName() {
        return myName;

    public void testSayHello() {
        myName = "Johnny"
        String result = sayHello();
        assertEquals("Hello, Johnny", result);
share|improve this answer

If you need a solution anyway (e.g. because you have too many implementations of the abstract class and the testing would always repeat the same procedures) then you could create an abstract test class with an abstract factory method which will be excuted by the implementation of that test class. This examples works or me with TestNG:

The abstract test class of Car:

abstract class CarTest {

// the factory method
abstract Car createCar(int speed, int fuel);

// all test methods need to make use of the factory method to create the instance of a car
public void testGetSpeed() {
    Car car = createCar(33, 44);
    assertEquals(car.getSpeed(), 33);

Implementation of Car

class ElectricCar extends Car {

    private final int batteryCapacity;

    public ElectricCar(int speed, int fuel, int batteryCapacity) {
        super(speed, fuel);
        this.batteryCapacity = batteryCapacity;


Unit test class ElectricCarTest of the Class ElectricCar:

class ElectricCarTest extends CarTest {

    // implementation of the abstract factory method
    Car createCar(int speed, int fuel) {
        return new ElectricCar(speed, fuel, 0);

    // here you cann add specific test methods
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