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I use GoogleMock/GoogleTest for testing, and I'm seeing some strange behavior when a matcher has a shared_ptr to a mock as a parameter, and EXPECT is called on the same shared_ptr. The offending piece of code:

#include <gmock/gmock.h>
#include <gtest/gtest.h>

#include <boost/shared_ptr.hpp>
#include <boost/make_shared.hpp>
using namespace boost;
using namespace testing;

struct MyParameter
{
    virtual ~MyParameter() {}
    virtual void myMethod() = 0;
};

struct MyParameterMock : public MyParameter
{
    MOCK_METHOD0(myMethod, void());
};

struct MyClass
{
    virtual ~MyClass() {}
    virtual void myMethod(shared_ptr<MyParameter> p) {}
};

struct MyClassMock : public MyClass
{
    MOCK_METHOD1(myMethod, void(shared_ptr<MyParameter>));
};

TEST(LeakTest, GoogleMockLeaksMatchedPointer)
{
    shared_ptr<MyClassMock> c = make_shared<MyClassMock>();
    shared_ptr<MyParameterMock> p = make_shared<MyParameterMock>();
    {
        InSequence dummy;
        EXPECT_CALL(*c, myMethod(Eq(p)));
        EXPECT_CALL(*p, myMethod());
    }
    c->myMethod(p);
    p->myMethod();
}

When this test is run, I get

leak_ptr_mock.cpp:37: ERROR: this mock object (used in test LeakTest.GoogleMockLeaksMatchedPointer) should be deleted but never is. Its address is @0x9309544.
ERROR: 1 leaked mock object found at program exit.

Any idea of why this happens? I rather not have to use Mock::AllowLeak.

share|improve this question

1 Answer 1

up vote 11 down vote accepted

This is a result of holding p as a shared_ptr, using InSequence and the order in which you have declared your expectations.

When you call

    EXPECT_CALL(*c, myMethod(Eq(p)));

you increase the use_count of p. In order for the leak detection to pass, p must be destroyed at (or before) the end of TEST.

The problem here is that internally, gmock maintains a record of the required mock call sequence by holding a pointer to the preceding expectation. So when you call EXPECT_CALL(*p, myMethod());, it gets a copy of the pointer to the previous expectation.

This then has the effect of blocking the call to p's destructor when TEST ends.

In order to work around this, I think your best bet is to call

    EXPECT_TRUE(Mock::VerifyAndClearExpectations(p.get()));

just before you exit TEST. This clears the expectations on p, including critically its prerequisite expectation, which in turn allows the destructor of p to be invoked correctly.

Alternatively, if the order of the mock calls is unimportant, simply removing InSequence dummy; will also allow p's destructor to execute.


As an aside, your code has a couple of issues;

  • Your base structs should have virtual destructors
  • MyClass::myMethod should be virtual in order to allow gmock's function to override it
  • p->myMethod(p); should be p->myMethod();
share|improve this answer
    
It works, Fraser! I corrected the code as per your suggestions too. –  bruno nery Apr 30 '12 at 21:23
    
@bruno nery: Which version of GoogleMock are you using? –  Martin May 7 '12 at 10:39
    
What would happen if p is created before c? Wouldn't than at the end c be destroyed, its expectations verified and cleared which will lead in decrementing the reference counter of p. After that p will be destroyed, verified and completely destroyed since the counter is now 0. –  Martin May 7 '12 at 11:44
    
@Martin No, the order of construction doesn't affect the order of checks since InSequence dummy; is used. Swapping the order of the EXPECT_CALLs would allow the test to exit successfully without leaks, but if the order of the expectations doesn't matter, you're as well not using InSequence at all. BTW, I'm using gmock 1.6.0. –  Fraser May 7 '12 at 15:13

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