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// RUN: %clang_cc1 -std=c++20 -verify %s
// RUN: %clang_cc1 -std=c++20 -verify %s -triple powerpc64-ibm-aix
namespace GH57945 {
template<typename T>
concept c = true;
template<typename>
auto f = []() requires c<void> {
};
void g() {
f<int>();
};
}
namespace GH57945_2 {
template<typename>
concept c = true;
template<typename T>
auto f = [](auto... args) requires c<T> {
};
template <typename T>
auto f2 = [](auto... args)
requires (sizeof...(args) > 0)
{};
void g() {
f<void>();
f2<void>(5.0);
}
}
namespace GH57958 {
template<class> concept C = true;
template<int> constexpr bool v = [](C auto) { return true; }(0);
int _ = v<0>;
}
namespace GH57958_2 {
template<class> concept C = true;
template<int> constexpr bool v = [](C auto...) { return true; }(0);
int _ = v<0>;
}
namespace GH57971 {
template<typename>
concept any = true;
template<typename>
auto f = [](any auto) {
};
using function_ptr = void(*)(int);
function_ptr ptr = f<void>;
}
// GH58368: A lambda defined in a concept requires we store
// the concept as a part of the lambda context.
namespace LambdaInConcept {
using size_t = unsigned long;
template<size_t...Ts>
struct IdxSeq{};
template <class T, class... Ts>
concept NotLike = true;
template <size_t, class... Ts>
struct AnyExcept {
template <NotLike<Ts...> T> operator T&() const;
template <NotLike<Ts...> T> operator T&&() const;
};
template <class T>
concept ConstructibleWithN = (requires {
[]<size_t I, size_t... Idxs>
(IdxSeq<I, Idxs...>)
requires requires { T{AnyExcept<I, T>{}}; }
{ }
(IdxSeq<1,2,3>{});
});
struct Foo {
int i;
double j;
char k;
};
static_assert(ConstructibleWithN<Foo>);
}
// GH60642 reported an assert being hit, make sure we don't assert.
namespace GH60642 {
template<auto Q> concept C = requires { Q.template operator()<float>(); };
template<class> concept D = true;
static_assert(C<[]<D>{}>); // ok
template<class> concept E = C<[]<D>{}>;
static_assert(E<int>); // previously Asserted.
// ensure we properly diagnose when "D" is false.
namespace DIsFalse {
template<auto Q> concept C = requires { Q.template operator()<float>(); };
template<class> concept D = false;
static_assert(C<[]<D>{}>);
// expected-error@-1{{static assertion failed}}
// expected-note@-2{{does not satisfy 'C'}}
// expected-note@-5{{because 'Q.template operator()<float>()' would be invalid: no matching member function for call to 'operator()'}}
template<class> concept E = C<[]<D>{}>;
static_assert(E<int>);
// expected-error@-1{{static assertion failed}}
// expected-note@-2{{because 'int' does not satisfy 'E'}}
// expected-note@-4{{does not satisfy 'C'}}
// expected-note@-11{{because 'Q.template operator()<float>()' would be invalid: no matching member function for call to 'operator()'}}
}
}
namespace ReturnTypeRequirementInLambda {
template <typename T>
concept C1 = true;
template <class T>
concept test = [] {
return requires(T t) {
{ t } -> C1;
};
}();
static_assert(test<int>);
template <typename T>
concept C2 = true;
struct S1 {
int f1() { return 1; }
};
void foo() {
auto make_caller = []<auto member> {
return [](S1 *ps) {
if constexpr (requires {
{ (ps->*member)() } -> C2;
})
;
};
};
auto caller = make_caller.operator()<&S1::f1>();
}
} // namespace ReturnTypeRequirementInLambda
namespace GH73418 {
void foo() {
int x;
[&x](auto) {
return [](auto y) {
return [](auto obj, auto... params)
requires requires {
sizeof...(params);
[](auto... pack) {
return sizeof...(pack);
}(params...);
}
{ return false; }(y);
}(x);
}(x);
}
} // namespace GH73418
|
