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I have a question regarding C++0x lambdas. In my code, it would be beneficial to know whether or not a given type is the type of a C++0x lambda expression. To give an example:

struct foobar
  void operator()()

auto lambda = []{};
typedef is_lambda < decltype(lambda) > ::type T; // T would be a true_type
typedef is_lambda < foobar > ::type T; // T would be a false_type

It is rather easy to distinguish lambda expressions from function and member function types. Functors are another matter.

The problem I see here is the definition of lambda expressions according to the upcoming C++0x standard; the only thing that must be defined is a public call operator. However, this is true for a functor as well; testing for the presence of the call operator is not enough for distinguishing lambda expressions from functors. Furthermore, if the operator of a functor is not present, a compiler error will occur, since SFINAE does not apply. When does this happen? The functor's call operator may be templated. So, such a code:

typedef decltype(&T::operator()) call_type;

will work for both lambda expressions and functors with non-templated call operator, and generate a compiler error for templated call operators.

I believe an is_lambda < > trait can only be created using intrinsic compiler features. Do you see a way how to implement this trait?

share|improve this question
I wonder what would you use it for? – Maxim Egorushkin Jan 11 '11 at 20:36
Sorry for the late reply. Yes, I think I made a logical error. There is no point in distinguishing regular functors from lambdas - I can view the latter as the former. However, there is need for determining whether or not a call operator exists. To this date, no fully generic solution for this problem seems to exist. I will address this in a separate question soon, along with my attempts. – dv_ Jan 24 '11 at 8:47
@MaximYegorushkin: As for a motivating difference: the type of a closure object uniquely identifies it implementation. The same is not (necessarily) true for other function pointers or other function like objects. – BCS Mar 16 '14 at 21:40
up vote 8 down vote accepted

Since evaluation of lambda results in creating closure object, there isn't any difference as soon as the object passed to a function or copied. And, frankly, I can't imagine a problem that would require to know whether an object came from lambda.

Edit. A standard even has a note in 5.1.2/2:

Note: a closure object behaves like a function object (20.8).—end note

share|improve this answer
I do imagine that you could be willing to know whether a std::function<...> type is stateful or not. However since functions are allowed to use static or global variables, their would not be much point in distinguishing lambdas from the mix. – Matthieu M. Jan 12 '11 at 7:20

I don't believe that it can be done- lambdas aren't really anything new semantically, they're just compiler-generated functors and thus will look identical to regular functors.

share|improve this answer

It's possible to define some macro code that determines if an expression is a lambda expression (but that's not very useful as it doesn't tell you if an expression is of a lambda type).

#include <type_traits>

template<typename T, typename U>
struct SameType {
    static_assert(!std::is_same<T, U>::value, "Must use Lambda");
    static T pass(T t) { return t; }

template <typename T, typename U>
T NotLambda(T t, U u) { return SameType<T, U>::pass(t); }

#define ASSERT_LAMBDA(x) NotLambda(x,x)


int fn() { return 0; }

int main() {
    auto l = []{ return 0; };
    return ASSERT_LAMBDA(fn)() +             // << fails
           ASSERT_LAMBDA(l)() +              // << fails
           ASSERT_LAMBDA([]{ return 0; })(); // << passes

This depends on section which specifies that each lambda expression has a distinct type (which I think is a property unique to lambdas).

share|improve this answer
I had the same idea. If only it could be done without the ugly macro, but while I find the syntax of using NotLambda directly (with a lambda expression twice), to be tolerable, a user could of course accidentally provide two distinct function objects. – user2023370 Jun 11 '14 at 12:11

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