Is it possible to static_assert that a lambda is not generic?
#include <variant>
#include <string>
#include <iostream>
template <class U, typename T = void>
struct can_be_checked : public std::false_type {};
template <typename U>
struct can_be_checked<U, std::enable_if_t< std::is_function<U>::value > > : public std::true_type{};
template <typename U>
struct can_be_checked<U, std::void_t<decltype(&U::operator())>> : public std::true_type{};
template<typename Ret, typename Arg, typename... Rest>
Arg first_argument_helper(Ret(*) (Arg, Rest...));
template<typename Ret, typename F, typename Arg, typename... Rest>
Arg first_argument_helper(Ret(F::*) (Arg, Rest...));
template<typename Ret, typename F, typename Arg, typename... Rest>
Arg first_argument_helper(Ret(F::*) (Arg, Rest...) const);
template <typename F>
decltype(first_argument_helper(&F::operator())) first_argument_helper(F);
template <typename T>
using first_argument = decltype(first_argument_helper(std::declval<T>()));
std::variant<int, std::string> data="abc";
template <typename V>
void Visit(V v){
if constexpr ( can_be_checked<std::remove_pointer_t<decltype(v)>>::value )
{
using Arg1 = typename std::remove_const_t<std::remove_reference_t<first_argument<V>>>;//... TMP magic to get 1st argument of visitor + remove cvr, see Q 43526647
if (! std::holds_alternative<Arg1>(data))
{
std::cerr<< "alternative mismatch\n";
return;
}
v(std::get<Arg1>(data));
}
else
{
std::cout << "it's a template / auto lambda " << std::endl;
}
}
template <class T>
void foo(const T& t)
{
std::cout <<t << " foo \n";
}
void fooi(const int& t)
{
std::cout <<t << " fooi " << std::endl;
}
int main(){
Visit([](const int& i){std::cout << i << std::endl; });
Visit([](const std::string& s){std::cout << s << std::endl; });
Visit([](auto& x){std::cout <<x << std::endl;}); // it's a template / auto lambda*/
Visit(foo<int>);
Visit<decltype(fooi)>(fooi);
Visit(fooi);
// Visit(foo); // => fail ugly
}
I don't know if it's you want, but you can, with that static_assert if an auto lambda is passed as parameter.
I think it's not possible to do the same for template function, but not sure.
Yet another simpler option:
#include <type_traits>
...
template <typename V>
void Visit(V v) {
class Auto {};
static_assert(!std::is_invocable<V, Auto&>::value);
static_assert(!std::is_invocable<V, Auto*>::value);
...
}
The Auto class is just an invented type impossible to occur in the V parameters. If V accepts Auto as an argument it must be a generic.
I tested in coliru and I can confirm the solution covers these cases:
Visit([](auto x){}); // nice static assert
Visit([](auto *x){}); // nice static assert
Visit([](auto &x){}); // nice static assert
Visit([](auto &&x){}); // nice static assert
I'm not sure if that would cover all the possible lambdas that you don't know which are :)
Is there a way to detect this and give nice static_assert about it?
I suppose you can use SFINAE over operator() type.
Follows an example
#include <type_traits>
template <typename T>
constexpr auto foo (T const &)
-> decltype( &T::operator(), bool{} )
{ return true; }
constexpr bool foo (...)
{ return false; }
int main()
{
auto l1 = [](int){ return 0; };
auto l2 = [](auto){ return 0; };
static_assert( foo(l1), "!" );
static_assert( ! foo(l2), "!" );
}
Instead of a bool, you can return std::true_type (from foo() first version) or std::false_type (from second version) if you want to use it through decltype().
Would also be nice if it worked with function templates as well, not just with lambdas.
I don't think it's possible in a so simple way: a lambda (also a generic lambda) is an object; a template function isn't an object but a set of objects. You can pass an object to a function, not a set of objects.
But the preceding solution should works also for classes/structs with operator()s: when there is a single, non template, operator(), you should get 1 from foo(); otherwise (no operator(), more than one operator(), template operator()), foo() should return 0.