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public class A
{

    public void method(boolean b)
    {
          if (b == true)
               method1();
          else
               method2();
    }

    private void method1() {}

    private void method2() {}

}
public class TestA
{

    @Test
    public void testMethod()
    {
      A a = mock(A.class);

      a.method(true);

    //how to test like    verify(a).method1();
    }
}

How to test private method is called or not, and how to test private method using mockito???

Thanks in advance

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7 Answers 7

up vote 12 down vote accepted

you can't do that with mockito but you can use powermock to extend mockito and mock private methods. Powermock supports mockito. Here's an axample.

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Not possible through mockito. From their wiki

Why Mockito doesn't mock private methods?

Firstly, we are not dogmatic about mocking private methods. We just don't care about private methods because from the standpoint of testing private methods don't exist. Here are a couple of reasons Mockito doesn't mock private methods:

It requires hacking of classloaders that is never bullet proof and it changes the api (you must use custom test runner, annotate the class, etc.).

It is very easy to work around - just change the visibility of method from private to package-protected (or protected).

It requires me to spend time implementing & maintaining it. And it does not make sense given point #2 and a fact that it is already implemented in different tool (powermock).

Finally... Mocking private methods is a hint that there is something wrong with OO understanding. In OO you want objects (or roles) to collaborate, not methods. Forget about pascal & procedural code. Think in objects.

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Think about this in terms of behaviour, not in terms of what methods there are. The method called method has a particular behaviour if b is true. It has different behaviour if b is false. This means you should write two different tests for method; one for each case. So instead of having three method-oriented tests (one for method, one for method1, one for method2, you have two behaviour-oriented tests.

Related to this (I suggested this in another SO thread recently, and got called a four-letter word as a result, so feel free to take this with a grain of salt); I find it helpful to choose test names that reflect the behaviour that I'm testing, rather than the name of the method. So don't call your tests testMethod(), testMethod1(), testMethod2() and so forth. I like names like calculatedPriceIsBasePricePlusTax() or taxIsExcludedWhenExcludeIsTrue() that indicate what behaviour I'm testing; then within each test method, test only the indicated behaviour. Most such behaviours will involve just one call to a public method, but may involve many calls to private methods.

Hope this helps.

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So now they call you names for a naming suggestion ;) –  mlvljr May 22 '12 at 20:37
1  
@mlvljr It wasn't so much about the naming, but about my recommendation of the practice of writing one test for each behaviour, rather than one test for each method. But thanks for the chuckle! –  David Wallace May 23 '12 at 6:25
    
Always a pleasure ;) –  mlvljr May 23 '12 at 21:09

You're not suppose to test private methods. Only non-private methods needs to be tested as these should call the private methods anyway. If you "want" to test private methods, it may indicate that you need to rethink your design:

Am I using proper dependency injection? Do I possibly needs to move the private methods into a separate class and rather test that? Must these methods be private? ...can't they be default or protected rather?

In the above instance, the two methods that are called "randomly" may actually need to be placed in a class of their own, tested and then injected into the class above.

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5  
A valid point. However, isn't it the reason for using a private modifier for methods is because you simply want to chop down codes that are too lengthy and/or repetitive? Separating it as another class is like you're promoting those lines of codes to be first class citizens which won't get reused anywhere else because it was meant specifically to partition lengthy codes and to prevent repeating lines of codes. If you're going to separate it to another class it just doesn't feel right; you would easily get class explosion. –  supertonsky Feb 27 '13 at 9:53
    
Noted supertonsky, I was referring to the general case. I agree that in the above case it should not be in a separate class. (+1 on your comment though - it is a very valid point you're making on promoting private members) –  Jaco Van Niekerk Feb 28 '13 at 5:35
1  
@supertonsky, I have been unable to find any satisfactory response to this problem. There are several reasons why I might use private members and very often they do not indicate a code smell and I would benefit greatly from testing them. People seem to brush this off by saying "just don't do it". –  LuddyPants Jan 27 at 19:34
1  
Sorry, I opted to downvote based on "If you 'want' to test private methods, it may indicate you need to downvote your design". OK, fair enough, but one of the reasons to be testing at all is because, under a deadline when you don't have time to be rethinking the design, you're trying to safely implement a change that needs to be made to a private method. In an ideal world would that private method not need to be changed because the design would be perfect? Sure, but in a perfect world, but it's moot because in a perfect world who needs tests, it all just works. :) –  John Lockwood Mar 12 at 16:30
    
@John. Point taken, your downvote warranted (+1). Thanks for the comment as well - I agree with you on the point you make. In such cases I can see one of two options: Either the method is made package-private or protected and unit tests written as usual; or (and this is tongue-in-cheek and bad practice) a main method is quickly written to make sure it still works. However, my response was based on a scenario of NEW code being written and not refactoring when you may not be able to tamper with the original design. –  Jaco Van Niekerk Mar 13 at 8:31

Here is a small example how to do it powermock

    public class Hello {
       private Hello obj;
       private Integer method1(Long id){
          return id + 10;
        }
    } 

To test method1 use code:

Hello testObj = new Hello();
Integer result = Whitebox.invokeMethod(testObj, "method1", new Long(10L));

To set private object obj use this:

Hello testObj = new Hello();
Hello newObject = new Hello();
Whitebox.setInternalState(testObj, "obj", newObject);
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Put your test in the same package, but a different source folder (src/main/java vs. src/test/java) and make those methods package-private. Imo testability is more important than privacy.

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2  
The only legitimate reason is to test a part of a legacy system. If you begin to test private/package-private method, you expose your object internals. Doing so usually results in poor refactorable code. PRefer composition so you can achieve testability, with all the goodness of an object oriented system. –  Brice Jan 10 '12 at 7:53
    
Agreed - that would be the preferred way. However, if you really want to test private methods with mockito, this is the only (typesafe) option you have. My answer was a bit hasty though, I should have pointed out the risks, like you and the others have done it. –  Roland Jan 10 '12 at 20:28

I don't really understand your need to test the private method. The root problem is that your public method has void as return type, and hence you are not able to test your public method. Hence you are forced to test your private method. Is my guess correct??

A few possible solutions (AFAIK):

  1. Mocking your private methods, but still you won't be "actually" testing your methods.

  2. Verify the state of object used in the method. MOSTLY methods either do some processing of the input values and return an output, or change the state of the objects. Testing the objects for the desired state can also be employed.

    public class A{
    
    SomeClass classObj = null;
    
    public void publicMethod(){
       privateMethod();
    }
    
    private void privateMethod(){
         classObj = new SomeClass();
    }
    
    }
    

    [Here you can test for the private method, by checking the state change of the classObj from null to not null.]

  3. Refactor your code a little (Hope this is not a legacy code). My funda of writing a method is that, one should always return something (a int/ a boolean). The returned value MAY or MAY NOT be used by the implementation, but it will SURELY BE used by the test

    code.

    public class A
    { 
        public int method(boolean b)
        {
              int nReturn = 0;
              if (b == true)
                   nReturn = method1();
              else
                   nReturn = method2();
        }
    
        private int method1() {}
    
        private int method2() {}
    
    }
    
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