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I am very new to unit testing and I am a little confused.

I am trying to do unit testing (using the Boost unit testing framework) on a C++ class called VariableImpl. Here are the details.

class Variable
  void UpdateStatistics (void) {
    // compute mean based on m_val and update m_mean;
    OtherClass::SendData (m_mean);
    m_val.clear ();
  virtual void RecordData (double) = 0;

  std::vector<double> m_val;

  double m_mean;

class VariableImpl : public Variable
  virtual void RecordData (double d) {
    // put data in m_val

My question is how can I check that the mean is computed correctly? Note that 1) m_mean is protected and 2) UpdateStatistics calls a method of another class and then clears the vector.

The only way I can see would be to add a getter (for instance, GetMean), but I don't like this solution at all, nor I think it is the most elegant.

How should I do?

And what should I do if I were to test a private method instead of a private variable?



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I’ve been meaning to ask something very similar. But in my opinion unit testing and large classes simply doesn’t mix well. –  Konrad Rudolph Jul 21 '11 at 15:34
Well, can't you see the effects in OtherClass? –  R. Martinho Fernandes Jul 21 '11 at 15:35
You should read Enemies of Test Driven Development part I: encapsulation. –  André Caron Jul 21 '11 at 15:44
@André In fact, quite a few proponents of TDD say that encapsulation is outdated and shouldn’t be used. Infuriating. This post goes into the direction but stops just short of saying it outright. I’ve given an example in my answer (below) where using a private method that should be covered by tests is entirely reasonable. And then the author claims that “testability is a perfectly good reason to make something public” – no, it’s not. If a method shouldn’t be used by the consumer of the class (e.g. since it cannot be meaningfully used) it shouldn’t be public. –  Konrad Rudolph Jul 21 '11 at 16:01
Take a look at some answers to a similar question here:stackoverflow.com/questions/249847/… –  morechilli Jul 21 '11 at 16:28

6 Answers 6

up vote 19 down vote accepted

Well, unit testing should test units and ideally every class is a self-contained unit – this follows directly from the single responsibility principle.

So testing private members of a class shouldn’t be necessary – the class is a black box that can be covered in a unit test as-is.

On the other hand, this isn’t always true, and sometimes with good reasons (for instance, several methods of the class could rely on a private utility function that should be tested). One very simple, very crufty but ultimately successful solution is to put the following into your unit-test file, before including the header that defines your class:

#define private public

Of course, this destroys encapsulation and is evil. But for testing, it serves the purpose.

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It seems that this define is the least obtrusive solution. I guess the problems I'm facing are more due to the fact that my classes don't follow the single responsibility principle very well. Regarding the toy example I presented, would you suggest that I create a Mean class to be used as a private member of Variable? That way Mean could be tested without any problem. The downside, however, would be proliferation of classes. –  Jir Jul 22 '11 at 7:24
@Jir In your case, shouldn’t it be enough to unit-test OtherClass::SendData since that computes the mean? –  Konrad Rudolph Jul 22 '11 at 7:58
Actually, yes. I think I'm starting to get the basics of unit testing... thanks! –  Jir Jul 22 '11 at 8:10
While this answer works on most compilers it is not standard compliant. You are not allowed to use #define statements that are identical to keywords. See C++98: section –  Alex Nov 12 '12 at 11:00
@Alex Yes, of course. That’s why I called it crufty and evil. And I wouldn’t recommend it (see the rest of my answer). –  Konrad Rudolph Nov 12 '12 at 11:24

For a protected method/variable, inherit a Test class from the class and do your testing.

For a private, introduce a friend class. It isn't the best of solutions but can do the work for you.

Or this hack

#define private public
share|improve this answer
Having a friend class is too intrusive in my opinion. –  Konrad Rudolph Jul 21 '11 at 15:33
@Konrad Rudolph - Yes, that is why I said it isn't the best of solutions. And I would assume for testing it should not be that big of a deal. –  DumbCoder Jul 21 '11 at 15:43

I generally suggest testing the public interface of your classes, not the private/protected implementations. In this case, if it can't be observed from the outside world by a public method, then the unit test may not need to test it.

If the functionality requires a child class, either unit test the real derived class OR create your own test derived class that has an appropriate implementation.

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Good approach to test the protected data in c + + is the assignment of a friend proxy class:

#define FRIEND_TEST(test_case_name, test_name)\
friend class test_case_name##_##test_name##_Test

class MyClass 
  int MyMethod();
  FRIEND_TEST(MyClassTest, MyMethod);

class MyClassTest : public testing::Test 
  // ...
  void Test1()
    MyClass obj1;
    ASSERT_TRUE(obj1.MyMethod() == 0);

  void Test2()
    ASSERT_TRUE(obj2.MyMethod() == 0);

  MyClass obj2;

TEST_F(MyClassTest, PrivateTests) 

see more goolge test (gtest): http://code.google.com/p/googletest-translations/

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Unit test VariableImpl such that if its behavior is ensured, so is Variable.

Testing internals isn't the worst thing in the world, but the goal is that they can be anything as long as the interfaces contracts are ensured. If that means creating a bunch of weird mock implementations to test Variable, then that is reasonable.

If that seems like a lot, consider that implementation inheritance doesn't create great separation of concerns. If it is hard to unit test, then that is a pretty obvious code smell for me.

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In general, I agree with what others have said on here - only the public interface should be unit tested. Nevertheless, I've just had a case where I had to call a protected method first, to prepare for a specific test case. I first tried the #define protected public approach mentioned above; this worked with Linux/gcc, but failed with Windows/VisualStudio. The reason was that changing protected to public also changed the mangled symbol name and thus gave me linker errors: the library provided a protected __declspec(dllexport) void Foo::bar() method, but with the #define in place, my test program expected a public __declspec(dllimport) void Foo::bar() method which gave me an unresolved symbol error.

For this reason I switched to a friend based solution, doing the following in my class header:

// This goes in Foo.h
namespace unit_test {   // Name this anything you like
struct FooTester; // Forward declaration for befriending

// Class to be tested
class Foo 
  bool somePrivateMethod(int bar);
  // Unit test access
  friend struct ::unit_test::FooTester;

And in my actual test case, I did this:

#include <Foo.h>
#include <boost/test/unit_test.hpp>
namespace unit_test {
// Static wrappers for private/protected methods
struct FooTester
  static bool somePrivateMethod(Foo& foo, int bar)
    return foo.somePrivateMethod(bar);

  // Just a silly example
  Foo foo;
  BOOST_CHECK_EQUAL(unit_test::FooTester::somePrivateMethod(foo, 42), true);

This works with Linux/gcc as well as Windows/VisualStudio.

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