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I am confused as to what boost::bind does when we bind to member variables. With binding to member function, we essentially create a function object, and then call it passing to it the arguments that are provided or delayed and substituted via placeholders.

But what does this expression do behind the scenes:

boost::bind(&std::pair::second, _1);

What gets substituted in place of the placeholder _1?

I found this while reading this example from an article on boost::bind:

void print_string(const std::string& s) {
  std::cout << s << '\n';

std::map<int,std::string> my_map;

   boost::bind(&print_string, boost::bind(


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up vote 3 down vote accepted

Behind the scenes it is using a member pointer and applying it to the passed in argument. It is quite complex in the context of binds, so here is a simple example of pointer to member usage:

int main()
   std::pair< int, int > p1 = make_pair( 1, 2 );
   std::pair< int, int > p2 = make_pair( 2, 4 );
   int std::pair<int,int>::*ptr = &std::pair<int,int>::second; // pointer to second member

   std::cout << p1.*ptr << std::endl; // 2 dereference pointer to member 
   std::cout << p2.*ptr << std::endl; // 4 dereference pointer to member

Behind the scenes bind is composing different calls. The resulting functor takes the dereference of std::map<>::iterator (of type std::pair< const key_type, value_type >). That is passed to the inner bind, that dereferences the member pointer, thus returning (*it).second to the outer bind that passes that value to the print_string method for the final call: print_string( (*it).second ).

(*it) is actually the _1 you asked about. All _# are placeholders, that is, the result of bind will be a functor that will take as many arguments as different placeholders exist in the order defined by the number of placeholder. In the example you gave, the resulting functor takes a single argument _1.

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boost::bind(&std::pair<U,V>::second, _1);

is functionally equivalent to

std::pair<U,V> p -> p.second

ie. it is a function (object) that maps a pair<U,V> to its second member.

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