What's the notation for declaring a lambda variable, or function parameter, without the use of auto or templates? Is there any way to do so? Or does the compiler define a unique class object for each lambda whose name is unknown to the programmer before compile time? If so, why? Can't they just be passed as some sort of function pointer? It would be a major disappointment if that were not possible.

  • "It would be a major disappointment if that were not possible." Why? How could that possibly be useful?
    – ildjarn
    Nov 14, 2011 at 19:33
  • @ildjarn For runtime lambda!
    – fstamour
    Feb 18, 2013 at 1:42

2 Answers 2


Lambdas may hold state (like captured references from the surrounding context); if they don't, they can be stored in a function pointer. If they do, they have to be stored as a function object (because there is no where to keep state in a function pointer).

// No state, can be a function pointer:
int (*func_pointer) (int) = [](int a) { return a; };

// One with state:
int b = 3;
std::function<int (int)> func_obj = [&](int a) { return a*b; };
  • Oh, I get it. So that's why they're of undetermined type, because they could be a function object with a few member variables? Nov 13, 2011 at 4:29
  • I suspect having an indeterminate type is more a C++ standard thing; IIRC, most of the literals in c++ don't actually have a defined "type", rather, they are a literal that can convert to different types (like, a string literal is not a const char *. It can become a const char * or a char *). I suspect this gives implementations some leeway? But certainly one of the benefits of this is it allows a literal to become multiple types. (some of this is on shaky memories of the standard though, so reader bewarned) Nov 13, 2011 at 4:35
  • 2
    Actually a string literal is a const char[N] where N is the number of characters in it plus one. Nov 13, 2011 at 16:24
  • The second solution does seem to violate the "without templates" part of the question. That's unavoidable, though: the type of a lambda cannot be named, so you either have to use a standard conversion to another type or use templates. (User-defined, non-template conversions can't name the lambda source type either). So, as it happens the only conversion from lambda types that does not involve templates is to a function pointer.
    – MSalters
    Nov 17, 2011 at 14:57

You can use a polymorphic wrapper for a function object. For example:

#include <functional>

std::function<double (double, double)> f = [](double a, double b) { return a*b };

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