1

To avoid alot of redundant test classes for simple integration testing, I'd like to create a parameterized generic test class like the following example:

@RunWith(Parameterized.class)
public class MovementTest<V extends Vehicle, T extends Track<V>> {

    private final V testVehicle;

    private final T testTrack;

    public MovementTest(V vehicle, T track){
        testVehicle = vehicle;
        testTrack = track;
    }

    @Test
    public void testMovement(){
        testVehicle.moveAlong(testTrack);
    }

    @Parameters
    public static Iterable<Object[]> provideTestExamples(){
        Object[][] params = {
            { new Car(), new Highway() },
            { new Train(), new RailRoadTrack() }
        };
        return Arrays.asList(params);
    }
}

public interface Vehicle {
    abstract void moveAlong(Track t);
}

public interface Track<E extends Vehicle> { }    

public class Train implements Vehicle {
    @Override
    public void moveAlong(Track t) {}
}

public class RailRoadTrack implements Track<Train> {}

public class Car implements Vehicle {
    @Override
    public void moveAlong(Track t) { }
}

public class Highway implements Track<Car> {}    

Unfortunately, this test class is not runnable. Is there a concise way to implement something alike?

  • Any stacktrace, log, whatever? You have Object[][] params but are creating new Object[] – Gaskoin Feb 29 '16 at 19:29
  • @Gaskoin Fixed it. Besides, Eclipse does not provide an option to run this test class, so there is no stacktrace. – SME_Dev Feb 29 '16 at 19:33
  • The eclipse JUnit runner will be running against type-erased bytecode, so it shouldn't matter that MovementTest has generic type parameters. Are you using a relatively recent version of eclipse? Is JUnit 4 on the project path? I have no problems with Parameterized tests -- even ones with generic type parameters -- in eclipse Luna. – Ken Koster Mar 1 '16 at 4:52
  • @KenKoster I tried both Helios and Luna having the same outcome. But as it turns out: I am too used to have the JUnit run configurations ad hoc executable, because the IDE usually creates them automatically. What I overlooked was that I can manually create run configurations. Et voila, problem solved. Thanks anyway. – SME_Dev Mar 1 '16 at 10:11
3

#1

You can use JUnit's Parametrized runner. It works as follows:

@RunWith(Parameterized.class)
public class ParametrizedTest {

    private final String text;
    private final int number;

    public ParametrizedTest(String text, int number) {
        this.text = text;
        this.number = number;
    }

    @Test
    public void shouldContainNumber() {
        assertTrue(text.contains(String.valueOf(number)));
    }

    @Parameterized.Parameters
    public static Iterable<Object[]> params() {
        return Arrays.asList(
                new Object[][]{
                        {"test string 1", 1},
                        {"test string 2", 2}
                }
        );
    }
}

You can read more about this solution here

#2 (better)

There's also better way (I think so) using JUnitParameters (link), just take a look:

@RunWith(JUnitParamsRunner.class)
public class JUnitParamsTest{

    @Test
    @Parameters
    public void shouldContainNumber(String text, int number) {
        assertTrue(text.contains(String.valueOf(number)));
    }

    public Object[] parametersForShouldContainNumber() {
        return $(
                $("test string 1", 1),
                $("test string 2", 2)
        );
    }
}

Note that name of method which supplies parameters has to fit test name. This solution seems better because (not only) you get better tests names after execution:

[OK] JUnitParams.[0] test string 1, 1 (shouldContainNumber)

[OK] JUnitParams.[1] test string 2, 2 (shouldContainNumber)

More comprehensive list of why it's better can be found at project site:

  • more explicit - params are in test method params, not class fields
  • less code - you don't need a constructor to set up parameters
  • you can mix parametrised with non-parametrised methods in one class
  • params can be passed as a CSV string or from a parameters provider class
  • parameters provider class can have as many parameters providing methods as you want, so that you can group different cases
  • you can have a test method that provides parameters (no external classes or statics anymore)
  • you can see actual parameter values in your IDE (in JUnit's Parametrised it's only consecutive numbers of parameters)
  • Yes, this is a very basic parameterized test and we are using it plenty. However, this does not address my needs for the given situation. The emphasize here is on 'generic'. – SME_Dev Feb 29 '16 at 19:42
  • @SME_Dev take a look at updated answer – Maciej Dobrowolski Feb 29 '16 at 19:47
  • I'll look into the library tomorrow. Looks promising at first sight. Thank you. – SME_Dev Feb 29 '16 at 19:50

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