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I have an interface List whose implementations include Singly Linked List, Doubly, Circular etc. The unit tests I wrote for Singly should do good for most of Doubly as well as Circular and any other new implementation of the interface. So instead of repeating the unit tests for every implementation, does JUnit offer something inbuilt which would let me have one JUnit test and run it against different implementations?

Using JUnit parameterized tests I can supply different implementations like Singly, doubly, circular etc but for each implementation the same object is used to execute all the tests in the class.

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what do you mean "the same object is used to execute all the tests"? – Olimpiu POP Apr 26 '13 at 13:05
up vote 21 down vote accepted

With JUnit 4.0+ you can use parameterized tests:

  • Add @RunWith(value = Parameterized.class) annotation to your test fixture
  • Create a public static method returning Collection, annotate it with @Parameters, and put SinglyLinkedList.class, DoublyLinkedList.class, CircularList.class, etc. into that collection
  • Add a constructor to your test fixture that takes Class: public MyListTest(Class cl), and store the Class in an instance variable listClass
  • In the setUp method or @Before, use List testList = (List)listClass.newInstance();

With the above setup in place, the parameterized runner will make a new instance of your test fixture MyListTest for each subclass that you provide in the @Parameters method, letting you exercise the same test logic for every subclass that you need to test.

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Damn! Why did I not think of it. Thanks. – ChrisOdney Apr 26 '13 at 13:13
How about doing List testList = (List)listClass.newInstance(); in the setUp method instead of every test method? – ChrisOdney Apr 26 '13 at 13:19
@ChrisOdney Yes, that would work as well. You could also make a helper makeList() method in case some of your test methods must create several instances of the list class. – dasblinkenlight Apr 26 '13 at 13:22
Works great. Thanks. Plus see this post when your constructor needs parameters. – jaw Sep 4 '14 at 10:39
Omg awesome answer this was exactly what I was looking for. Thank you so very much. – JourneyMan Apr 13 '15 at 21:45

I'd probably avoid JUnit's parameterized tests (which IMHO are pretty clumsily implemented), and just make an abstract List test class which could be inherited by tests implementations:

public abstract class ListTestBase<T extends List> {

    private T instance;

    protected abstract T createInstance();

    public void setUp() {
        instance = createInstance();

    public void testOneThing(){ /* ... */ }

    public void testAnotherThing(){ /* ... */ }


The different implementations then get their own concrete classes:

class SinglyLinkedListTest extends ListTestBase<SinglyLinkedList> {

    protected SinglyLinkedList createInstance(){ 
        return new SinglyLinkedList(); 


class DoublyLinkedListTest extends ListTestBase<DoublyLinkedList> {

    protected DoublyLinkedList createInstance(){ 
        return new DoublyLinkedList(); 


The nice thing about doing it this way (instead of making one test class which tests all implementations) is that if there are some specific corner cases you'd like to test with one implementation, you can just add more tests to the specific test subclass.

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Thanks for the answer, its more elegant than Junit Paramterized tests and I am probably gonna use it. But I have to stick with dasblinkenlight's answer as I was looking for a way out using Junit's Parameterized tests – ChrisOdney Apr 26 '13 at 13:31
You could do it this way, or use parameterized tests and use Assume. If there is a test method which only applies to one (or more) particular class, then you'd have an assume at the beginning of the test, and that test would get ignored for for other classes. – Matthew Farwell Apr 26 '13 at 13:37
I think this a base for a great solution. It is important to be able to test all interface methods implemented by an object. But imagine a RepositoryGateway interface with methods like saveUser(user) and findUserById(id), which should be implemented for different databases. For findUserById(id), the testmethod specific setup will need to populate the specific database with the user to be found. For saveUser(user),the assert part should retrieve data from the specific database. Could this be solved by adding a hook (like prepareFindUser) in the testmethod, implemented by the specific testclass? – Jop van Raaij Dec 25 '13 at 9:05
@JopvanRaaij that's one way to do it, but you might as well make it a full-blown integration test instead and use the interface methods to create the test objects. – gustafc Jan 2 '14 at 19:16

You could actually create a helper method in your test class that sets up your test List to be an instance of one of your implementations dependent on an argument. In combination with this you should be able to get the behaviour you want.

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Expanding on the first answer, the Parameter aspects of JUnit4 work very well. Here is the actual code I used in a project testing filters. The class is created using a factory function (getPluginIO) and the function getPluginsNamed gets all PluginInfo classes with the name using SezPoz and annotations to allow for new classes to be automatically detected.

public class FilterTests {
 public static Collection<PluginInfo[]> getPlugins() {
    List<PluginInfo> possibleClasses=PluginManager.getPluginsNamed("Filter");
    return wrapCollection(possibleClasses);
 final protected PluginInfo pluginId;
 final IOPlugin CFilter;
 public FilterTests(final PluginInfo pluginToUse) {
    System.out.println("Using Plugin:"+pluginToUse);
    pluginId=pluginToUse; // save plugin settings
    CFilter=PluginManager.getPluginIO(pluginId); // create an instance using the factory
 //.... the tests to run

Note it is important (I personally have no idea why it works this way) to have the collection as a collection of arrays of the actual parameter fed to the constructor, in this case a class called PluginInfo. The wrapCollection static function performs this task.

 * Wrap a collection into a collection of arrays which is useful for parameterization in junit testing
 * @param inCollection input collection
 * @return wrapped collection
public static <T> Collection<T[]> wrapCollection(Collection<T> inCollection) {
    final List<T[]> out=new ArrayList<T[]>();
    for(T curObj : inCollection) {
        T[] arr = (T[])new Object[1];
    return out;
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