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How can I write a lambda expression with two placeholders, one for the callable object, and one for the function argument, such that supplying the callable object first returns a unary function.

In the example below, generate should be a lambda expression with the first placeholder for the callable object itself, and the second placeholder for the argument. Calling generate(c) should return a unary function that is only missing the function call argument. In fact, it somehow returns type bool already, as proved by the static assert.

#include <boost/lambda/bind.hpp>

struct Arg {

struct Callable : std::unary_function<Arg, bool> {
    bool operator()( Arg const& a ) const { return true; }

int main( int argc, const char* argv[] ) {
    BOOST_AUTO(generate, boost::lambda::bind(boost::lambda::_1, boost::lambda::protect(boost::lambda::_1)));

    Callable c;
    BOOST_AUTO(fn, generate(c));

    BOOST_STATIC_ASSERT((boost::is_same<BOOST_TYPEOF(fn), bool>::value));
    Arg a;
    bool b = fn(a);
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3 Answers 3

up vote 4 down vote accepted

If using Boost.Phoenix the answer would have been a little easier:

#include <boost/phoenix/phoenix.hpp>

struct callable
    typedef bool result_type;

    bool operator()(int) const
        return true;

int main()
    using phx::bind;
    using phx::lambda;
    using phx::arg_names::_1;
    using phx::local_names::_a;

    auto generate = lambda(_a = _1)[bind(_a, _1)];
    auto fn = generate(callable());

    bool b = fn(8);

Not that this solution is far more generic than the version posted by the OT. It can be used with any unary function object, no matter what argument, no matter what return type.

The downside, you need to use the current boost trunk ...

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I'll keep that in mind in case we gradually introduce boost::phoenix into our code base. boost::bind, boost::lambda::bind, boost::phoenix::bind -- this is getting a bit out of hand, isn't it? :-) – Sebastian Mar 11 '11 at 8:35
It is. Phoenix attempts to unify these three. For example, phoenix::bind is able to perform everything that boost::bind does (it passes all testcases from Boost.Bind) with the addition of providing way more functionality. – Thomas Heller Mar 14 '11 at 9:50
That is good to know! – Sebastian Mar 14 '11 at 15:21

Though I'm not 100% sure I understand the question, the following code might meet your purpose:

template< class R >
struct FCreateBind {
  typedef boost::function< R() > result_type;

  template< class T, class U >
  result_type operator()( T const& x, U const& y ) const {
    return boost::bind( x, y );

int main() {
  BOOST_AUTO( generate, boost::bind( FCreateBind< bool >(), Callable(), _1 ) );
  BOOST_AUTO( fn, generate( Arg() ) );
  bool b = fn();

That being said, probably this isn't as pretty as the questioner expects...
As you mentioned, if we specify one of the overloads of boost::bind explicitly, FCreateBind wouldn't be needed. However, as far as I saw, there seems not to be the portable way to specify the overload. So, in this case, probably we have to depend on the internal of boost.
For your information, the following code could be compiled when I tested:

int main() {
  namespace bb = boost::_bi; // Sorry, for brevity
  bb::bind_t< bb::unspecified, Callable, bb::list1< bb::value< Arg > > >
    (*bi)( Callable, Arg ) = boost::bind< bb::unspecified, Callable, Arg >;
  BOOST_AUTO( generate, boost::bind( bi, Callable(), _1 ) );
  BOOST_AUTO( fn, generate( Arg() ) );
  bool b = fn();

Hope this helps

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The first solution is pretty much what I proposed myself in my own answer but using boost::function as a result_type. Whenever the explicit type can be used I prefer it over wrapping a functor in boost::function. Thanks though for figuring out how to write the boost::bind functor down. – Sebastian Mar 11 '11 at 8:34

I have solved my own problem, albeit not as elegantly as I had hoped:

   struct FCreateBind {
        typedef boost::_bi::bind_t<bool, Callable, boost::_bi::list2<boost::arg<1>, boost::arg<2> >  > result_type;
        result_type operator()( Callable const& c ) const {
            return boost::bind<bool>(c, _1);
BOOST_AUTO(generate, boost::bind(FCreateBind(), _1));

   BOOST_AUTO(fn, generate(Callable());
   bool b = fn(Arg());

Of course, in this simple example I could just write BOOST_AUTO(generate, boost::lambda_1) since Callable itself is the callable object. But I was looking for a way to set the arguments of Callable beforehand so the generated function fn is a nullary function. This solution would let me do this inside FCreateBind.

FCreateBind can probably be eliminated as well, but I have not yet figured out how to define the pointer to the overloaded global function boost::bind.

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