// RUN: %clang_cc1 -std=c++2c -verify -fsyntax-only %s
template<typename... T>
struct S {
T...1; // expected-error{{expected member name or ';' after declaration specifiers}}
T...[; // expected-error{{expected expression}} \
// expected-error{{expected ']'}} \
// expected-note {{to match this '['}} \
// expected-warning{{declaration does not declare anything}}
T...[1; // expected-error{{expected ']'}} \
// expected-note {{to match this '['}} \
// expected-warning{{declaration does not declare anything}}
T...[]; // expected-error{{expected expression}} \
// expected-warning{{declaration does not declare anything}}
void f(auto... v) {
decltype(v...[1]) a = v...[1];
decltype(v...[1]) b = v...[]; // expected-error{{expected expression}}
decltype(v...[1]) c = v...[ ; // expected-error{{expected expression}}\
// expected-error{{expected ']'}} \
// expected-note {{to match this '['}}
}
};
template <typename...>
struct typelist{};
template <typename... T>
requires requires(T...[0]) { {T...[0](0)}; }
struct SS : T...[1] {
[[maybe_unused]] T...[1] base = {};
using foo = T...[1];
SS()
: T...[1]()
{}
typelist<T...[0]> a;
const T...[0] f(T...[0] && p) noexcept((T...[0])0) {
T...[0] (*test)(const volatile T...[0]**);
thread_local T...[0] d;
[[maybe_unused]] T...[0] a = p;
auto ptr = new T...[0](0);
(*ptr).~T...[0]();
return T...[0](0);
typename T...[1]::foo b = 0;
T...[1]::i = 0;
return (T...[0])(a);
new T...[0];
[[maybe_unused]] auto l = []<T...[0]>(T...[0][1]) -> T...[0]{return{};};
[[maybe_unused]] auto _ = l.template operator()<T...[0]{}>({0});
}
operator T...[0]() const{}
};
struct base {
using foo = int;
static inline int i = 42;
};
int main() {
SS<int, base>().f(0);
}