54

Java 8 introduced java.time.Clock which can be used as an argument to many other java.time objects, allowing you to inject a real or fake clock into them. For example, I know you can create a Clock.fixed() and then call Instant.now(clock) and it will return the fixed Instant you provided. This sounds perfect for unit testing!

However, I'm having trouble figuring out how best to use this. I have a class, similar to the following:

public class MyClass {
    private Clock clock = Clock.systemUTC();

    public void method1() {
        Instant now = Instant.now(clock);
        // Do something with 'now'
    }
}

Now, I want to unit test this code. I need to be able to set clock to produce fixed times so that I can test method() at different times. Clearly, I could use reflection to set the clock member to specific values, but it would be nice if I didn't have to resort to reflection. I could create a public setClock() method, but that feels wrong. I don't want to add a Clock argument to the method because the real code shouldn't be concerned with passing in a clock.

What is the best approach for handling this? This is new code so I could reorganize the class.

Edit: To clarify, I need to be able to construct a single MyClass object but be able to have that one object see two different clock values (as if it were a regular system clock ticking along). As such, I cannot pass a fixed clock into the constructor.

  • Now, I want to unit test this code. You should indicate what kind of behaviour you expect from MyClass. That would inform the approach to follow here. – jubobs Jan 29 '17 at 13:31
  • Following up on this: I think what it basically comes down to is that you cannot really use the Clock.fixed for unit testing in the way I hoped. Normal mocking approaches will be required. – Mike Oct 20 '17 at 17:32
37

Let me put Jon Skeet's answer and the comments into code:

class under test:

public class Foo {
    private final Clock clock;
    public Foo(Clock clock) {
        this.clock = clock;
    }

    public void someMethod() {
        Instant now = clock.instant();   // this is changed to make test easier
        System.out.println(now);   // Do something with 'now'
    }
}

unit test:

public class FooTest() {

    private Foo foo;
    private Clock mock;

    @Before
    public void setUp() {
        mock = mock(Clock.class);
        foo = new Foo(mock);
    }

    @Test
    public void ensureDifferentValuesWhenMockIsCalled() {
        Instant first = Instant.now();                  // e.g. 12:00:00
        Instant second = first.plusSeconds(1);          // 12:00:01
        Instant thirdAndAfter = second.plusSeconds(1);  // 12:00:02

        when(mock.instant()).thenReturn(first, second, thirdAndAfter);

        foo.someMethod();   // string of first
        foo.someMethod();   // string of second
        foo.someMethod();   // string of thirdAndAfter 
        foo.someMethod();   // string of thirdAndAfter 
    }
}
  • 1
    you might want to change first, second etc to suit your needs (e.g. the time needs to be in the past), but you get the idea. – Jeff Xiao Nov 21 '14 at 18:44
  • 20
    In practice, the example test above will run into NPEs, because user code will most likely call LocalDateTime.now(clock) rather than clock.instant(); a NullPointerException will get thrown the moment LocalDateTime calls clock.getZone().getRules(). Instead, a real Clock object should be created with a call to Clock.fixed(Instant,ZoneId). – Rogério Dec 2 '14 at 14:43
  • 1
    @Rogério my interpretation of the question is "how do i mock to return different values on consecutive calls", thus the answer. I don't know enough about java 8 time for the LocalDateTime.now() or Instant.now() part, but if static method is needed here, it may need to be wrapped into a class, because PowerMock/EasyMock does not support Stubbing consecutive calls in Mockito – Jeff Xiao Dec 3 '14 at 2:52
  • 2
    As @Rogério pointed out, this works by the assumption that class under tests queries Clock.instant(). If it's changed to query Clock.millis(), that will return always 0. This is no good. There is a need mocked clock object that returns mocked time regardless of method actually called. – Piotr Findeisen Nov 16 '15 at 9:44
  • 5
    Use real clock with Clock.fixed instead of mocking! – MariuszS Sep 19 '17 at 12:39
40

I don't want to add a Clock argument to the method because the real code shouldn't be concerned with passing in a clock.

No... but you might want to consider it as a constructor parameter. Basically you're saying that your class needs a clock with which to work... so that's a dependency. Treat it as you would any other dependency, and inject it either in a constructor or via a method. (I personally favour constructor injection, but YMMV.)

As soon as you stop thinking of it as something you can easily construct yourself, and start thinking of it as "just another dependency" then you can use familiar techniques. (I'm assuming you're comfortable with dependency injection in general, admittedly.)

  • Yes, I considered this. However, the problem is that passing a clock through the constructor lets me set it to a single fixed clock. I guess I didn't make it clear, but I need to be able to set the clock to multiple values within a single test without constructing a new object. – Mike Nov 21 '14 at 17:37
  • 1
    @Mike Please update your sample to make clear what your use case is. – Puce Nov 21 '14 at 17:39
  • 3
    @Mike You should be able to mock the Clock your passing as an argument (e.g. using Mockito) instead of providing a fixed Clock. Like this you can return different values at different calls. – Puce Nov 21 '14 at 17:54
  • 3
    @Mike: Or instead of a mock, you could write your own reusable fake clock, with whatever behaviour you want - such as incrementing by 1 second per call. At that point, however, you'll be dependent on the number of calls you make to the clock within your production code, which isn't ideal. – Jon Skeet Nov 21 '14 at 17:57
  • 2
    On top of Puce's answer, you should be able to make the mock return different values per mockito.googlecode.com/svn/tags/1.8.5/javadoc/org/mockito/… – Jeff Xiao Nov 21 '14 at 18:00
24

I'm a bit late to the game here, but to add to the other answers suggesting using a Clock - this definitely works, and by using Mockito's doAnswer you can create a Clock which you can dynamically adjust as your tests progress.

Assume this class, which has been modified to take a Clock in the constructor, and reference the clock on Instant.now(clock) calls.

public class TimePrinter() {
    private final Clock clock; // init in constructor

    // ...

    public void printTheTime() {
        System.out.println(Instant.now(clock));
    }
}

Then, in your test setup:

private Instant currentTime;
private TimePrinter timePrinter;

public void setup() {
   currentTime = Instant.EPOCH; // or Instant.now() or whatever

   // create a mock clock which returns currentTime
   final Clock clock = mock(Clock.class);
   when(clock.instant()).doAnswer((invocation) -> currentTime);

   timePrinter = new TimePrinter(clock);
}

Later in your test:

@Test
public void myTest() {
    myObjectUnderTest.printTheTime(); // 1970-01-01T00:00:00Z

    // go forward in time a year
    currentTime = currentTime.plus(1, ChronoUnit.YEARS);

    myObjectUnderTest.printTheTime(); // 1971-01-01T00:00:00Z
}

You're telling Mockito to always run a function which returns the current value of currentTime whenever instant() is called. Instant.now(clock) will call clock.instant(). Now you can fast-forward, rewind, and generally time travel better than a DeLorean.

  • This answer is perfect. – Eric Hartford Sep 8 '16 at 9:30
  • My use case is to fast-forward some seconds in some tests to verify some time-based validation rules. This seems to be the easiest and most elegant solution to me. Perfect, thanks a lot. Another +1 for the DeLorean. – Maximilian Zellhofer May 5 '17 at 4:51
  • Really elegant solution :) +1 for the DeLorean reference. – Bohsen Sep 9 '17 at 7:07
  • 5
    I'm using Mockito 1.10.19 and doAnswer does not exist. I replaced it with thenAnswer – Wim Deblauwe Dec 4 '17 at 18:48
0

To start, definitely inject a Clock into your class under test, as recommended by @Jon Skeet. If your class only requires one time, then simply pass in a Clock.fixed(...) value. However, if your class behaves differently across time e.g. it does something at time A, and then does something else at time B, then note that the clocks created by Java are immutable, and thus cannot be changed by the test to return time A at one time, and then time B at another.

Mocking, as per the accepted answer, is one option, but does tightly couple the test to the implementation. For example, as one commenter points out, what if the class under test calls LocalDateTime.now(clock) or clock.millis() instead of clock.instant()?

An alternate approach that is a bit more explicit, easier to understand, and may be more robust than a mock, is to create a real implementation of Clock that is mutable, so that the test can inject it and modify it as necessary. This is not difficult to implement. See https://github.com/robfletcher/test-clock for a good example of this.

MutableClock c = new MutableClock(Instant.EPOCH, ZoneId.systemDefault());
ClassUnderTest classUnderTest = new ClassUnderTest(c);

classUnderTest.doSomething()
assertTrue(...)

c.instant(Instant.EPOCH.plusSeconds(60))

classUnderTest.doSomething()
assertTrue(...)
-1

You either give MyClass a clock, mock Clock, orretrieve a clock–there aren't many more options.

You don't need to do the reflection yourself, you use a mocking library.

Opinions vary on what the "correct" approach is.

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