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After seeing many examples of metaprogramming in C++ that allow for figuring out may properties of classes (such as knowing if a type is a specialization of a template ), or knowing if a class incorporates a given nested type; but I was wondering if is was possible to write a test or trait that determines the inverse of the last one - to check if a given Type is nested within a class or struct.

In other words, I'm looking for the equivalent of the following pseudocode:

template <typename Type> struct is_nested {
    enum { value = {__some magic__} };

typedef int type1;
struct Something { typedef int internal_type; };
typedef Something::internal_type type2;

//...later, likely at a different scope

is_nested< int >::value; // yields false
is_nested< std::vector<int>::iterator >::value; // yields true
is_nested< type1 >::value; // yields false
is_nested< type2 >::value; // yields true

I know I can use sizeof to implement yes/no tests, and I presume Type is part of those tests, but I can't figure out how to plug in some sort of "any viable type" into the test such that I can form an expression like Anytype::Type.

struct is_nested
    typedef char yes;
    typedef struct { char u[2]; } no;

    // Herein lies the problem
    ???? static yes test( char [ sizeof(Anytype::Type) ] ) ;
    ???? static no test(...);

    enum { value = sizeof(test(0)) == sizeof(char) };

(Note that I don't care nor (can afford to) know what type would Type be nested in; all it matters is if it is nested in something or not. In other words, this trait should only depend on Type.)

I'm looking for a C++ solution be it in C++11 or C++03, but in the first case I would welcome it much more if it was backportable.

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What is the problem that this is intended to solve? –  Pete Becker May 1 '13 at 18:51
I'm mostly theorizing on how to improve my adaption of typesafe enums in C++03 by disabling relational operators for enums which are nested inside structs; this is one of two approaches I'm studying to tackle that problem. –  Luis Machuca May 1 '13 at 18:57

1 Answer 1

What you are asking is not possible, but not due to a technical limitation, rather because you can't always tell whether a type name identifies a nested type or not - and templates work with types, not names.

In this case, for instance:

is_nested< std::vector<int>::iterator >::value

You do not know what iterator is. Consider this class my_vector:

template<typename T>
struct my_vector
    typedef T* iterator;
    // ...

What should is_nested<my_vector<int>::iterator>::value yield? You probably expect the result to be true.

However, what is nested here is the alias, not the type itself: the type int* is not nested. In fact, I expect you would wish the following to yield false:


So here the same is_nested<T> trait should yield two different results given the same type T (int*, in this case). The information based on which is_nested<> should define value cannot be retrieved from the type T itself - and templates work with types, not names.

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Excellent point on the matter of pointer-as-iterator and other similar situations that could arise. At that point though I'd expect the compiler to be able to solve it as the iterator type is known; in such case, this trait would for example help determine if a container type has contiguous storage (would definitively yield false if the iterator type is a raw pointer, and likely yield true otherwise). –  Luis Machuca May 1 '13 at 19:02
@LuisMachuca: Not sure what you mean when you say "to solve it". What do you mean by "it"? Your is_nested<> trait would get a type in input, which in both cases is int*. That's everything is_nested<> knows. There is no way you can program is_nested<> to produce different results given the same template arguments. –  Andy Prowl May 1 '13 at 19:05
…True, unfortunately. This means I'll have to discard this approach. –  Luis Machuca May 1 '13 at 19:27
@LuisMachuca: I'm afraid so :( –  Andy Prowl May 1 '13 at 19:30
Um, at this point I should ask what is the correct protocol here? Is the question marked as answered-but-not-solved, closed overall, or...? –  Luis Machuca May 5 '13 at 22:51

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