Some sources on the Internets (specifically this one) says that std::function use small-closure optimizations, e.g. it do not allocate heap if closure size is lower than some amount of data (link above indicates 16 bytes for gcc)

So I went digging through g++ headers

Looks like whether or not such optimization is applied is decided by this block of code in "functional" header (g++ 4.6.3)

```
static void
_M_init_functor(_Any_data& __functor, _Functor&& __f)
{ _M_init_functor(__functor, std::move(__f), _Local_storage()); }
```

and some lines down:

```
static void
_M_init_functor(_Any_data& __functor, _Functor&& __f, true_type)
{ new (__functor._M_access()) _Functor(std::move(__f)); }
static void
_M_init_functor(_Any_data& __functor, _Functor&& __f, false_type)
{ __functor._M_access<_Functor*>() = new _Functor(std::move(__f)); }
};
```

e.g if _Local_storage() is true_type, than placement-new is called, otherwise - regular new

defintion of _Local_storage is the folowing:

```
typedef integral_constant<bool, __stored_locally> _Local_storage;
```

and __stored_locally:

```
static const std::size_t _M_max_size = sizeof(_Nocopy_types);
static const std::size_t _M_max_align = __alignof__(_Nocopy_types);
static const bool __stored_locally =
(__is_location_invariant<_Functor>::value
&& sizeof(_Functor) <= _M_max_size
&& __alignof__(_Functor) <= _M_max_align
&& (_M_max_align % __alignof__(_Functor) == 0));
```

and finally: __is_location_invariant:

```
template<typename _Tp>
struct __is_location_invariant
: integral_constant<bool, (is_pointer<_Tp>::value
|| is_member_pointer<_Tp>::value)>
{ };
```

So. as far as I can tell, closure type is neither a pointer nor a member pointer. To verify that I even wrote a small test program:

```
#include <functional>
#include <iostream>
int main(int argc, char* argv[])
{
std::cout << "max stored locally size: " << sizeof(std::_Nocopy_types) << ", align: " << __alignof__(std::_Nocopy_types) << std::endl;
auto lambda = [](){};
typedef decltype(lambda) lambda_t;
std::cout << "lambda size: " << sizeof(lambda_t) << std::endl;
std::cout << "lambda align: " << __alignof__(lambda_t) << std::endl;
std::cout << "stored locally: " << ((std::__is_location_invariant<lambda_t>::value
&& sizeof(lambda_t) <= std::_Function_base::_M_max_size
&& __alignof__(lambda_t) <= std::_Function_base::_M_max_align
&& (std::_Function_base::_M_max_align % __alignof__(lambda_t) == 0)) ? "true" : "false") << std::endl;
}
```

and the output is:

```
max stored locally size: 16, align: 8
lambda size: 1
lambda align: 1
stored locally: false
```

So, my questions is the following: is intializing std::function with lambda always results with heap allocation? or am I missing something?