Is there any difference between the two? Or am I safe to replace every occurrence of boost::bind by std::bind in my code and thereby remove the dependence on Boost?

  • I believe std::bind was pretty much copied from boost::bind when they came out with C++11, as with quite a few other things. – chris May 11 '12 at 16:56
  • 10
    The question is about the "pretty much" part though. With some of the things that were lifted from Boost, minor changes were made. – jalf May 11 '12 at 16:58
  • boost::bind has overloaded relational operators, std::bind does not.

  • boost::bind supports non-default calling conventions, std::bind is not guaranteed to (standard library implementations may offer this as an extension).

  • boost::bind provides a direct mechanism to allow one to prevent eager evaluation of nested bind expressions (boost::protect), std::bind does not. (That said, one can use boost::protect with std::bind if they want, or trivially reimplement it on their own.)

  • std::bind provides a direct mechanism to allow one to treat any user defined functor as a nested bind expression in order to force eager evaluation (std::is_bind_expression: [func.bind.isbind]/1, [func.bind.bind]/10), boost::bind does not.


Besides the several differences cited on the other answers, here are two other differences:

  • boost::bind seems to deal with overloaded function names in some situations, whereas std::bind does not deal with them in the same way. See c++11 faq

(using gcc 4.7.2, boost lib version 1_54)

void foo(){}
void foo(int i){}

auto badstd1 = std::bind(foo);  
//compile error: no matching function for call to bind(<unresolved overloaded function type>)
auto badstd2 = std::bind(foo, 1); 
//compile error: no matching function for call to bind(<unresolved overloaded function type>)
auto std1 = std::bind(static_cast<void(*)()>(foo)); //compiles ok
auto std2 = std::bind(static_cast<void(*)(int)>(foo), 1); //compiles ok
auto boost1 = boost::bind(foo, 1); //compiles ok
auto boost2 = boost::bind(foo); //compiles ok

So if you simply replaced all boost::bind with std::bind, your build could break.

  • std::bind can seamlessly bind to c++11 lambda types, whereas boost::bind as of boost 1.54 seems to require input from the user (unless return_type is defined). See boost doc

(using gcc 4.7.2, boost lib version 1_54)

auto fun = [](int i) { return i;};
auto stdbound = std::bind(fun, std::placeholders::_1);

auto boostboundNaive = boost::bind(fun, _1);  //compile error.
// error: no type named ‘result_type’ ...
auto boostbound1 = boost::bind<int>(fun, _1); //ok
auto boostbound2 = boost::bind(boost::type<int>(), fun, _1); //ok

So, if you simply replaced all std::bind with boost::bind, your build could also break.


Besides the listed above, boost::bind has an important extension point: get_pointer() function that allows integrating boost::bind with any smart pointer, eg. ATL::CComPtr etc. http://www.boost.org/doc/libs/1_49_0/libs/bind/mem_fn.html#get_pointer

As a result, with boost::bind you can also bind a weak_ptr: http://lists.boost.org/Archives/boost/2012/01/189529.php

  • 2
    The INVOKE functionality in the standard works with any smart pointer that support operator* – Jonathan Wakely Sep 16 '15 at 14:24

I don't have the full answer but std::bind will use variadic templates rather than parameter lists.

The placeholders are in std::placeholders as in std::placeholders::_1rather than the global namespace.

I alias the namespace to stdph with

namespace stdph=std::placeholders;

Apart from that I have had no problems updating to C++11

  • When porting existing boost::bind code that use placeholders, adding "using namespace std::placeholders;" at the top of the file puts the placeholders into the global namespace. Very handy. – goertzenator Feb 7 '13 at 16:23
  • 1
    the problem is, when porting you usually end up with boost bind still wrangling it;s way through somehow and you end up with the standard and boost placeholders. – 111111 Feb 7 '13 at 17:24
  • It depends on the project I guess. I mechanically removed all my boost function.hpp and bind.hpp includes from a decent size project with sed and the above namespace directive worked out fine. If you have boost bind in some header that you can't change, I see how things could get ugly. – goertzenator Feb 7 '13 at 20:03
  • 2
    @goertzenator : I think the issue is more about use of any other Boost libraries, as I'd wager at least a third of Boost uses boost::bind directly or indirectly. – ildjarn Sep 9 '15 at 18:53

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.