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I am in the process of writing some unit tests. In particular I want to test some private methods.

So far the I have come up with using.

#define private public

But I am not happy with this as it will destroy all encapsulation from the point of view of the unit test.

What methods do you use to unit-test private methods.

share|improve this question
what kind of C++ unit testing framework are you using? – Laurens Ruijtenberg Sep 9 '10 at 12:52
I am using boost-test – Mumbles Sep 9 '10 at 12:54
Note that there are ways to use private members in C++. You can read about it in my blog: bloglitb.blogspot.com/2010/07/… – Johannes Schaub - litb Sep 9 '10 at 21:36
#define private public - it is illegal to define a reserved word. – JBentley Mar 16 '13 at 1:37
up vote 42 down vote accepted

If the methods are complex enough to warrant testing in isolation, then refactor them into their own class(es) and test via their public interface(s). Then use them privately in the original class.

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huh? why on earth should public functions warrant more testing than private ones? – Assaf Lavie Sep 9 '10 at 13:02
I don't understand why wanting to unit test a private method is design smell. Lets say, I start writing a class, and at the same time write the unit-test, before I start writing the public function, I write some fairly simple private functions that I want to prove works before I start to implement the public functions. – Mumbles Sep 9 '10 at 13:19
@Assaf: private functions can't be tested unintrusively, so if they need testing in isolation you must either be make them public (where they are, or in another class), or add an intrusive testing mechanism. My suggestion is to refactor so that all code can be tested unintrusively; in my view (which not everyone will share) this also gives a cleaner design, by reducing the responsibilities of the original class, and allowing reuse of what was previously private functionality. Use Anthony's suggestion of a friend test class if you prefer large classes with multiple responsibilities. – Mike Seymour Sep 9 '10 at 13:23
@David: it's a smell because it indicates that the class has multiple responsibilities (implementing its public interface, and also implementing private functionality). It may be a cleaner design to delegate the private functionality to other classes, rather than to private methods. – Mike Seymour Sep 9 '10 at 13:25
@Assaf: looking at it another way, I think that tests should not need to be removed if you change the implementation details of the class without changing its public interface (or protected, if you like). You might want to add tests after a re-write, when you're white-box testing, to catch new "risky" cases. You shouldn't have to remove them -- the new implementation is supposed to do every significant thing the old one did. But private functions are implementation details. Tests which stop working when an implementation detail changes, even though nothing is actually broken, are nuisances. – Steve Jessop Sep 9 '10 at 13:47

Rather than the nasty #define hack you mention in the question, a cleaner mechanism is to make the test a friend of the class under test. This allows the test code (and just the test code) access to the privates, whilst protecting them from everything else.

However, it is preferable to test through the public interface. If your class X has a lot of code in the private member functions then it might be worth extracting a new class Y which is used by the implementation of class X. This new class Y can then be tested through its public interface, without exposing its use to the clients of class X.

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What one should do is use a compiler define for unit testing and #ifdef UNIT_TESTING friend void UnitTestFcn() #endif – iheanyi Apr 21 '14 at 15:25
Yes, you can make the test conditionally a friend. It is still preferable to test through the public interface. – Anthony Williams Apr 22 '14 at 8:30

If you're using Google Test, you can use FRIEND_TEST to easily declare your test fixture as a friend to the class under test.

And you know, if testing private functions were unequivocally bad like some of the other answers were saying, then it probably wouldn't be built into Google Test.

You can read more about when testing private functions is good or bad in this answer.

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Make the test class as the friend of the original class. This friend declaration will be inside the #define __UNIT_TEST__ flag.

class To_test_class {
   #ifdef __UNIT_TEST__
     friend test_class;

Now for your unit test you will compile the code with flag -D__UNIT_TEST__. This way you will be able to test the private function.

Now your unit test code will not be pushed into production environment, as __UNIT__TEST_ flag will be false. Hence the code is still secure.

Also you will not need any special library for unit testing.

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One could also put the friend in a #ifdef DEBUG, then you don't need to extra flags. – Ant6n Mar 3 at 21:36

I know this is an older question, but it seems that nobody has shared the relatively good method that I prefer, so here it goes:

Change the method you wish to test from private to protected. For other classes, the method is still going to be private, but now you can derive a "testing" class from your base class that exposes the private functionality you want tested.

Here's a minimal example:

class BASE_CLASS {
    int your_method(int a, int b);

class TEST_CLASS : public BASE_CLASS {
    int your_method(int a, int b) {
      return BASE_CLASS::your_method(a, b);

Of course you will have to update your unit tests to run your tests on the derived class instead of the base class, but after that, any change made to the base class will be automatically reflected in the "testing" class.

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The define hack is a horrible idea. Arbitrarily re-writing your code with the preprocessor when you go to compile it is never wise.

Now as several people have mentioned already, it's debatable whether you should be testing private methods at all. But this doesn't cover the case where you've intentionally hidden constructors to restrict instantiaton to certain scopes, or a few other more esoteric cases.

Also, you can't friend a namespace and "friendship" is not inherited in C++ so depending on your unit testing framework you could be in trouble. Luckily, if you're using Boost.Test, there's in elegant solution to this issue in the form of Fixtures.


You can friend the fixture and have it instantiate all of the instances that you use in your unit testing functions, declaring them as static to the fixture and with module scope. If you're using a namespace don't worry, you can just declare your fixture within the namespace and your test cases outside of the namespace, and then use the scope resolution operator to get to the static members.

The BOOST_FIXTURE_TEST_CASE macro will take care of instantiating and tearing down your fixture for you.

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I don't think unit test cases would be required for private methods.

If a method is private it can used only within that class. If you have tested all the public methods using this private method then there is no need to test this separately since it was used only in those many ways.

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Nope. Imagine you have a class with public interface and a private method sum(). You write it up, your public interface unit tests all pass. Months go by, someone makes a change to sum that introduces a bug without breaking the public interface unit tests. The public interface is a level of abstraction away from sum(). The further away you are in abstraction, the harder to fully test. Just because the public interface seems to work doesn't mean there are bugs in there that you don't want to catch. – iheanyi Apr 21 '14 at 15:37
So, rather than write a million unit test of the public interface so that you exercise everything behind it in all ways possible, why don't you just write a smaller number of tests for each function and a smaller number for the public interface? – iheanyi Apr 21 '14 at 15:40
@iheanyi If the tests of the public methods, which make use of sum(), don't break with the change, why do you expect the unit test of sum() itself to break? – Kyle Strand Apr 15 '15 at 17:14
@KyleStrand Yes, rereading my original comment, it appears that it was written before I had a better understanding of unit tests. Then, seeing your comment almost a year later, I incorrectly construed it to contradict my current view, w/o realizing (or reading to discover) that my original comment also contradicts my current view! I'm sorry for the confusion. Its not everyday one runs into such concrete evidence of past misunderstandings :) – iheanyi Apr 15 '15 at 20:44
@iheanyi Well, uh, drinks all around, then! – Kyle Strand Apr 15 '15 at 21:09

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