Codebase Browser
llvm
Go to App

llvm/clang/test/SemaTemplate/alias-template-with-lambdas.cpp 

// RUN: %clang_cc1 -std=c++2c -fsyntax-only -verify %s
namespace lambda_calls {

template <class>
concept True = true;

template <class>
concept False = false; // #False

template <class T> struct S {
  template <class... U> using type = decltype([](U...) {}(U()...));
  template <class U> using type2 = decltype([](auto) {}(1));
  template <class U> using type3 = decltype([](True auto) {}(1));
  template <class>
  using type4 = decltype([](auto... pack) { return sizeof...(pack); }(1, 2));

  template <class U> using type5 = decltype([](False auto...) {}(1)); // #Type5

  template <class U>
  using type6 = decltype([]<True> {}.template operator()<char>());
  template <class U>
  using type7 = decltype([]<False> {}.template operator()<char>()); // #Type7

  template <class U>
  using type8 = decltype([]() // #Type8
                           requires(sizeof(U) == 32) // #Type8-requirement
                         {}());

  template <class... U>
  using type9 = decltype([]<True>(U...) {}.template operator()<char>(U()...));
  // https://github.com/llvm/llvm-project/issues/76674
  template <class U>
  using type10 = decltype([]<class V> { return V(); }.template operator()<U>());

  template <class U> using type11 = decltype([] { return U{}; });
};

template <class> using Meow = decltype([]<True> {}.template operator()<int>());

template <class... U>
using MeowMeow = decltype([]<True>(U...) {}.template operator()<char>(U()...));

// https://github.com/llvm/llvm-project/issues/70601
template <class> using U = decltype([]<True> {}.template operator()<int>());

U<int> foo();

void bar() {
  using T = S<int>::type<int, int, int>;
  using T2 = S<int>::type2<int>;
  using T3 = S<int>::type3<char>;
  using T4 = S<int>::type4<void>;
  using T5 = S<int>::type5<void>; // #T5
  // expected-error@#Type5 {{no matching function for call}}
  // expected-note@#T5 {{type alias 'type5' requested here}}
  // expected-note@#Type5 {{constraints not satisfied [with auto:1 = <int>]}}
  // expected-note@#Type5 {{because 'int' does not satisfy 'False'}}
  // expected-note@#False {{because 'false' evaluated to false}}

  using T6 = S<int>::type6<void>;
  using T7 = S<int>::type7<void>; // #T7
  // expected-error@#Type7 {{no matching member function for call}}
  // expected-note@#T7 {{type alias 'type7' requested here}}
  // expected-note@#Type7 {{constraints not satisfied [with $0 = char]}}
  // expected-note@#Type7 {{because 'char' does not satisfy 'False'}}
  // expected-note@#False {{because 'false' evaluated to false}}

  using T8 = S<int>::type8<char>; // #T8
  // expected-error@#Type8 {{no matching function for call}}
  // expected-note@#T8 {{type alias 'type8' requested here}}
  // expected-note@#Type8 {{constraints not satisfied}}
  // expected-note@#Type8-requirement {{because 'sizeof(char) == 32' (1 == 32) evaluated to false}}

  using T9 = S<int>::type9<long, long, char>;
  using T10 = S<int>::type10<int>;
  using T11 = S<int>::type11<int>;
  int x = T11()();
  using T12 = Meow<int>;
  using T13 = MeowMeow<char, int, long, unsigned>;

  static_assert(__is_same(T, void));
  static_assert(__is_same(T2, void));
  static_assert(__is_same(T3, void));
  static_assert(__is_same(T4, decltype(sizeof(0))));
  static_assert(__is_same(T6, void));
  static_assert(__is_same(T9, void));
  static_assert(__is_same(T10, int));
  static_assert(__is_same(T12, void));
  static_assert(__is_same(T13, void));
}

namespace GH82104 {

template <typename, typename... D> constexpr int Value = sizeof...(D);

template <typename T, typename... U>
using T14 = decltype([]<int V = 0>(auto Param) {
  return Value<T, U...> + V + (int)sizeof(Param);
}("hello"));

template <typename T> using T15 = T14<T, T>;

static_assert(__is_same(T15<char>, int));

// FIXME: This still crashes because we can't extract template arguments T and U
// outside of the instantiation context of T16.
#if 0
template <typename T, typename... U>
using T16 = decltype([](auto Param) requires (sizeof(Param) != 1 && sizeof...(U) > 0) {
  return Value<T, U...> + sizeof(Param);
});
static_assert(T16<int, char, float>()(42) == 2 + sizeof(42));
#endif
} // namespace GH82104

namespace GH89853 {

template <typename = void>
static constexpr auto innocuous = []<int m> { return m; };

template <auto Pred = innocuous<>>
using broken = decltype(Pred.template operator()<42>());

broken<> *boom;

template <auto Pred =
              []<char c> {
                (void)static_cast<char>(c);
              }>
using broken2 = decltype(Pred.template operator()<42>());

broken2<> *boom2;

template <auto Pred = []<char m> { return m; }>
using broken3 = decltype(Pred.template operator()<42>());

broken3<> *boom3;

static constexpr auto non_default = []<char c>(True auto) {
    (void) static_cast<char>(c);
};

template<True auto Pred>
using broken4 = decltype(Pred.template operator()<42>(Pred));

broken4<non_default>* boom4;

} // namespace GH89853

namespace GH105885 {

template<int>
using test = decltype([](auto...) {
}());

static_assert(__is_same(test<0>, void));

} // namespace GH105885

namespace GH102760 {

auto make_tuple = []< class Tag, class... Captures>(Tag, Captures...) {
  return []< class _Fun >( _Fun) -> void requires requires { 0; }
  {};
};

template < class, class... _As >
using Result = decltype(make_tuple(0)(_As{}...));

using T = Result<int, int>;

} // namespace GH102760

} // namespace lambda_calls