I have the following code:

template<class A, class B>
void test(A& a, const B* b)
{ std::cout << "hi" << std::endl; }

template<class A, class B>
void test(A& a, const B** b)
{ std::cout << "hello" << std::endl; }

class TestClass

int main()
    int a = 5;
    TestClass b;
    TestClass* c = &b;
    test(a, &c);
    return 0;

Somehow the output is "hi" although it seems that better match would be the second template function. When I remove consts as the qualifiers to B* and B** then I get "hello" which corresponds to the second template function. How does the compiler choose the function to call in this case? Thanks!

3 Answers 3


Given that there is no conversion from T** to T const** the second isn't a match at all (there is no such conversion because it would allow nonconst access to a const object). There is a conversion from T** to T* const*, however. Thus, the corresponding overload is the only viable and used one.


&c is a TestClass** which may be promoted to TestClass* const * but not to const TestClass**.

You may force the error by explicitly using test<int, TestClass>(a, &c); which will show you the impossible conversion.


The other answers correctly note that there is no implicit conversion from T** to const T** and therefore one of the overloads is not viable at all. I'll explain why this conversion is not allowed. It is actually written as an example in the standard. To quote paragraph 4.4,

[ Note: if a program could assign a pointer of type T** to a pointer of type const T** (that is, if line #1 below were allowed), a program could inadvertently modify a const object (as it is done on line #2). For example,

int main() {
    const char c = ’c’;
    char* pc;
    const char** pcc = &pc; // #1: not allowed
    *pcc = &c;
    *pc = ’C’; // #2: modifies a const object

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