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I guess I've found a G++ bug but I'm not sure. I cannot explain it. The compile shouldn't pass BAD code but it does. g++-4.5 and g++4.6 -std=c++0x pass this code without any warning.

As is the compile thinks that pointer to Bar object is Bar object itself. I'm crazy. I spent many hours to get the bug. Is there any technique to protect from this kind of bug?

Bad code gives:

 g++-4.6 for_stackoverflow.cpp && ./a.out
 address of bar in main()   0xbff18fc0
 Foo 0x9e80008      Bar     0xbff18fec
 Foo 0x9e80028      Bar     0xbff18fec
 Foo 0x9e80048      Bar     0xbff18fec

Source code:

     #include <iostream>
     #include <list>
     #include <iomanip>
     #include <algorithm>

     #define BAD

     using namespace std;

     class Bar;

     class Foo {
       virtual void tick(Bar & b) {
         cout << "Foo " << this << "      Bar " << setw(14) << (&b) << endl;

     class Bar : public list<Foo*> {

     int main() {
       Bar bar;
       cout << "address of bar in main()   " << &bar << endl;
       bar.push_back(new Foo());
       bar.push_back(new Foo());
       bar.push_back(new Foo());
     #ifdef GOOD
       for_each(bar.begin(), bar.end(), bind2nd(mem_fun(&Foo::tick), bar));
     #elif defined(BAD)
       for_each(bar.begin(), bar.end(), bind2nd(mem_fun(&Foo::tick), &bar));
     #error "define GOOD xor BAD"
       cout << "end" << endl;
       return 0;
share|improve this question

1 Answer 1

up vote 0 down vote accepted

bind2nd is declared as:

template <class Fn, class T>
binder2nd<Fn> bind2nd(const Fn&, const T&);

This means that the type T is deduced, in this case as Bar *.

On my system it's implemented as:

template<typename _Operation, typename _Tp>
inline binder2nd<_Operation>
bind2nd(const _Operation& __fn, const _Tp& __x)
  typedef typename _Operation::second_argument_type _Arg2_type;
  return binder2nd<_Operation>(__fn, _Arg2_type(__x));

To see why that would compile consider:

class Bar {};

int main() {
  Bar *b = 0;
  typedef const Bar& type;
  const type t = type(b);

which seems to be the real problem and does compile with g++, because it's basically a reinterpret_cast.

The simplest workaround is changing it to use boost::bind (or std::bind for C++11):

#include <boost/bind.hpp>


boost::bind(mem_fun(&Foo::tick), _1, &bar)

or a lambda function does give the error you'd expect to see.

share|improve this answer
As far I understood a type of the argument of bind2nd is inferred from the type of a real argument and then it is sharply converted to another without any checking and care. This is genuine pitfall :(. Like as follows char x; float f; f = *((float *)(void *)&x); –  Daneel S. Yaitskov Jan 10 '12 at 19:16
@DaneelS.Yaitskov - I'm not too clear why the standard requires it to be type(x) instead of static_cast<type>(x), but this seems likely to be one of the reasons that lead to std::bind1st/std::bind2nd being deprecated in favour of std::bind in C++11 –  Flexo Jan 10 '12 at 19:18

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