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#include <vector>

struct A {int a;};
struct B : public A {char b;};

int main()
  B b;
  typedef std::pair<A*, A*> MyPair;
  std::vector<MyPair> v;
  v.push_back(std::make_pair(&b, &b)); //compiler error should be here(pair<B*,B*>)
  return 0;

I don't understand why this compiles (, maybe somebody may kindly provide detailed explanation? Is it something related to name look-up?

Btw, on Solair,SunStudio12 it doesn't compile : error : formal argument x of type const std::pair<A*, A*> & in call to std::vector<std::pair<A*,A*> >::push_back(const std::pair<A*, A*> & ) is being passed std::pair<B*, B*>

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That struct template above isn't really doing much is it? – BenG Jan 26 '10 at 4:03
@BennyG: It heard about some trouble in the neighbourhood and decided to come and have a look. – j_random_hacker Jan 26 '10 at 4:40
sorry, cleared it – yurec Jan 26 '10 at 5:27
up vote 12 down vote accepted

std::pair has a constructor template:

template<class U, class V> pair(const pair<U, V> &p);

"Effects: Initializes members from the corresponding members of the argument, performing implicit conversions as needed." (C++03, 20.2.2/4)

Conversion from a derived class pointer to a base class pointer is implicit.

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+1 for short and precise answer :-) – Prasoon Saurav Jan 26 '10 at 4:09
I'm not convinced, make_pair is a template function, which deducts types from arguments. Right? – yurec Jan 26 '10 at 5:30
Yes, and it makes a std::pair(B*,B*). It then uses the above constructor to construct an std::pair(A*,A*) out of it. – GManNickG Jan 26 '10 at 5:42
Reread the reply. It's indeed very clear. Thx. – yurec Jan 26 '10 at 5:52

Because B is derived from A, the vector v will contain pointers to base class structures of the object b. therefore, you could access the members of A, i.e.

std::cout << v[0].first->a;

EDIT: My mistake, as pointed out below, you can still cast to pointers of type B since the vector is of pointers, not objects, so no object slicing has occurred.

A call such as

std::cout << v[0].first->b; 

will not compile since the elements in the vector are base class pointers and cannot point to derived class members without a cast, i.e.

 std::cout << static_cast<B*>(v[0].first)->b; 

Also note that a dynamic cast, as in

std::cout << dynamic_cast<B*>(v[0].first)->b;  

will not compile with the following error in gcc:

cast.cpp:14: error: cannot dynamic_cast ‘v.std::vector<_Tp, _Alloc>::operator[] [with _Tp = std::pair<A*, A*>, _Alloc = std::allocator<std::pair<A*, A*> >](0u)->std::pair<A*, A*>::first’ (of type struct A*’) to type struct B*’ (source type is not polymorphic)
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The members of class B have not been lost, and the dynamic type of the objects pointed to is still B. Members of B can still be accessed: static_cast<B*>(v[0].first)->b (though in this case, a dynamic_cast would probably be preferable). – James McNellis Jan 26 '10 at 4:18
@tmatth: As James McNellis says, you can still access the derived class members via a cast. Maybe you're thinking of object slicing? That occurs only when using a vector of objects (A), not a vector of pointers (A*). In that case, yes, members of B will be silently discarded. – j_random_hacker Jan 26 '10 at 4:39
i edited to reflect your feedback, hopefully this clears it up. – tmatth Jan 26 '10 at 15:57
The dynamic_cast fails because A is not a polymorphic type; you have to add a virtual function to A. – James McNellis Jan 26 '10 at 23:03

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