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*Edit: Somehow I thought the compiler was creating B just as A<int, int, string>, leading to my assumption about how is_same should evaluate them, regardless of inheritance/derivation. My bad :( Sorry for subsequent misunderstandings :\ *

Making some meta-functions to check for my custom types, and ran into this issue, but not sure I understand what's going on here. I think I can work around it by comparing this_t member of a known type to this_t of whatever parameter is passed, but I just want to understand why the 1st and 3rd is_same tests fail:

template<typename... Args> struct A {
    typedef A<Args...> this_t;

struct B : A<int, int, string> {

std::is_same<A<int, int, string>, B>::value; //false
std::is_same<A<int, int, string>, typename B::this_t>::value; //true
std::is_same<B, typename B::this_t>::value; //false

//more tests for kicks
std::is_base_of<A<int, int, string>, B>::value; //true
std::is_base_of<A<int, int, string>, typename B::this_t>::value; //true
std::is_base_of<B, typename B::this_t>::value; //false

Is is_same differentiating by way of the A<...> base? What's the appreciable difference between A<int, int, string> and B?

share|improve this question
I don't understand what you mean by your edit, please expound. – Benjamin Lindley May 16 '11 at 15:17
I mean you're swinging at the low-hanging fruit with your answer. If an error in the usage of B is encountered when compiling, I get a message back referring to B as A<int, int, string> as opposed to B. So if the compiler sees B as A<int, int, string> then I'm not sure why the is_same test would fail. – Brett Rossier May 16 '11 at 15:21
Also. What output do you expect? All true? or all false? or what? – Nawaz May 16 '11 at 15:21
Well then, you should ask about that error. Show the code the generates it, and show the error message. – Benjamin Lindley May 16 '11 at 15:24
C'mon guys. I'm asking for help, not sponsoring a "call me an idiot" contest. I'm trying to understand what's going on. If the compiler refers to B as A<int, int, string>, then what gives when I pass is_same an A<int, int, string> and ask it to compare that to a B? – Brett Rossier May 16 '11 at 15:24
up vote 3 down vote accepted

The is_same is basically a template with a specialization

template<class T, class U>
struct is_same : false_type
{ };

template<class T>
struct is_same<T, T> : true_type
{ };

That will never give you true, unless you have exactly the same type. Note that there is only one T in the specialization. It can never match both A and B.

share|improve this answer
I need to clarify my question a bit, as to what assumptions I've made about the compiler. I'm trying to get some code that will show what's happening. Will post an edit when I do. – Brett Rossier May 16 '11 at 15:45
Thanks for the thoughtful answer. I would have figured A and B to fail is_same, but I was working from an incorrect assumption about what my compiler was doing with B. Somehow I had it figured that it was creating B in terms of A<int, int, string>, which it was not :( – Brett Rossier May 17 '11 at 0:15

The is_same trait is true only if the two types passed to it are the exact same type. B is not the same type as A<int, int, string>.

share|improve this answer
Please see my edit. – Brett Rossier May 16 '11 at 15:14

is_same tests if two types are the same type.

B is not the same type as A<int, int, string>. How could it be? It's derived from it.

share|improve this answer
Please see my edit. – Brett Rossier May 16 '11 at 15:14

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