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I've done some reseach like:

Tell me if I misunderstood some.

I was trying to input std::pair from a file and I wanted to use std::istream_iterator >

Here comes the code:

std::ifstream in("file.in");

std::map<int, int> pp; 
pp.insert((std::istream_iterator<std::pair<int, int> >(in)),
        std::istream_iterator<std::pair<int, int> >());

I did the overloading as following:

std::istream & operator>>(std::istream & in, std::pair<int, int> & pa)
{ in >> pa.first >> pa.second; return in; }

std::istream & operator>>(std::istream && in, std::pair<int, int> & pa)
{ in >> pa.first >> pa.second; return in; }

Here's the Error:

In file included from /usr/include/c++/4.8/iterator:66:0,
                 from No_12.cpp:7:
/usr/include/c++/4.8/bits/stream_iterator.h: In instantiation of ‘void std::istream_iterator<_Tp, _CharT, _Traits, _Dist>::_M_read() [with _Tp = std::pair<int, int>; _CharT = char; _Traits = std::char_traits<char>; _Dist = long int]’:
/usr/include/c++/4.8/bits/stream_iterator.h:70:17:   required from ‘std::istream_iterator<_Tp, _CharT, _Traits, _Dist>::istream_iterator(std::istream_iterator<_Tp, _CharT, _Traits, _Dist>::istream_type&) [with _Tp = std::pair<int, int>; _CharT = char; _Traits = std::char_traits<char>; _Dist = long int; std::istream_iterator<_Tp, _CharT, _Traits, _Dist>::istream_type = std::basic_istream<char>]’
No_12.cpp:23:59:   required from here
/usr/include/c++/4.8/bits/stream_iterator.h:121:17: error: cannot bind ‘std::istream_iterator<std::pair<int, int> >::istream_type {aka std::basic_istream<char>}’ lvalue to ‘std::basic_istream<char>&&’
      *_M_stream >> _M_value;
In file included from /usr/include/c++/4.8/iostream:40:0,
                 from /files/Nutstore/000/CPPWorkSpace/SHUCourse/DataStructures/BinarySearchTree/20130514/src/BinarySearchTree.hpp:6,
                 from /files/Nutstore/000/CPPWorkSpace/SHUCourse/DataStructures/BinarySearchTree/20130514/BinarySearchTree:3,
                 from No_12.cpp:1:
/usr/include/c++/4.8/istream:872:5: error:   initializing argument 1 of ‘std::basic_istream<_CharT, _Traits>& std::operator>>(std::basic_istream<_CharT, _Traits>&&, _Tp&) [with _CharT = char; _Traits = std::char_traits<char>; _Tp = std::pair<int, int>]’
     operator>>(basic_istream<_CharT, _Traits>&& __is, _Tp& __x)

I don't know what I can do now... Hope that someone can give me some advice. Thanks.

share|improve this question
Moreover, I'm using g++-4.8 –  Adam May 14 '13 at 13:47
It looks to me like your operators are not found (name resolution). I'll try to get some more info and post an answer. –  dyp May 14 '13 at 14:00
Why the second overload? It looks to me like that is your problem. The normal idiom is to only provide the first overload. –  James Kanze May 14 '13 at 14:06
@JamesKanze Doesn't solve the problem; in fact, putting them in the namespace std in clang 3.2 does solve the problem - though I don't know why. –  dyp May 14 '13 at 14:10
It would make sense if there was a dependent name involved, I'm still trying to figure out where. –  dyp May 14 '13 at 14:43

1 Answer 1

To understand what's the problem, we have to take a look at an exemplary implementation of istream_iterator (the problem arises from the requirements of the Standard, which are implicitly shown here):

template < class T, class CharT, class Traits, class Distance >
class istream_iterator
    /* ... */
    typedef std::basic_istream<CharT, Traits>  istream_type;
    istream_type* stored_istream_ptr;
    T value;

    /* ... */
    istream_iterator& operator++()
        *stored_istream_ptr >> value; // (A)
        return *this;
    T const& operator*() const
        return value;
    /* ... */

In line (A), an operator is applied to objects of dependent types:

  • value is of type T
  • stored_istream_ptr is of type istream_type, see the typedef

According to [temp.dep.type]/8, both types are dependent.

For the expression A >> B as well as for any other function call, first the name of the function is looked up (here: operator>>) -> name lookup, then, from the set of found functions (overloads), the most viable is chosen and called -> overload resolution.

For an operator, both member and non-member functions (such as your operators) are looked up.

In this case, the involved types are dependent, therefore special rules for name lookup apply [temp.dep.res]/1:

In resolving dependent names, names from the following sources are considered:

  • Declarations that are visible at the point of definition of the template.
  • Declarations from namespaces associated with the types of the function arguments both from the instantiation context ( and from the definition context.

Your operators have been defined in the global namespace, which is not associated to neither std::basic_istream nor std::pair. Therefore, name resolution does not find your operators and overload resolution for the expression in line (A) fails.

This would explain clang 3.2's error message:

stream_iterator.h:120:17: error: invalid operands to binary expression ('istream_type' (aka 'basic_istream < char, std::char_traits >') and 'std::pair')

       *_M_stream >> _M_value;
       ~~~~~~~~~~ ^  ~~~~~~~~

And it explains why the workarounds work.

g++ on the other hand seems to only show one overload found by name resolution and the reason it's rejecting it (whereas clang++ shows all overloads found by name resolution with a reason for every single one why it has been rejected). The one g++ shows might be the "best fitting":

template< class CharT, class Traits, class T >
basic_istream<CharT,Traits>& operator>>(basic_istream<CharT,Traits>&&, T&);

Which is, AFAIK, just a wrapper to call the other operator>> in the case the expression istream_obj >> value operates on a rvalue (like get_istream() >> value).

This is unrelated to your problem (and confusing).

Two workarounds:

  • use a wrapper type to wrap std::pair such that you can define the operator>> in a namespace associated with that wrapper type
  • inject your operators in namespace std (not recommended??)
share|improve this answer
With regards to the wrapper class: this might be a legitimate case to derive from std::pair<int, int>. Otherwise, a operator std::pair<int, int>() const will do the trick. (I do this a lot, where the type I'm iterating over is actually something like struct { char const* key, int value; operator std::pair<std::string, int>() const; };, which can be statically initialized.) –  James Kanze May 14 '13 at 14:47
Woo... This is awesome!!! but ... one tiny problem ... If I'd use a wrapper class, I'll have to change all other stuffs in my code to fullfill this... –  Adam May 14 '13 at 15:22
@Adam I found a workaround, see second part of this question –  dyp May 14 '13 at 17:06

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