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llvm-project/clang/test/SemaTemplate/concepts-lambda.cpp
Corentin Jabot 6d00c4297f
[Clang] Do not skip over RequiresExprBodyDecl when creating lambdas (#147764) 
When we create a lambda, we would skip over declaration contexts
representing a require expression body, which would lead to wrong
lookup.

Note that I wasn't able to establish why the code
in `Sema::createLambdaClosureType` was there to begin with (it's not
exactly recent)

The changes to mangling only ensure the status quo is preserved and do
not attempt to address the known issues of
mangling lambdas in require clauses.

In particular the itanium mangling is consistent with Clang before this
patch but differs from GCC's.

Fixes #147650
2025-07-10 00:21:09 +03:00

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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>);
namespace GH56556 {
template <typename It>
inline constexpr It declare ();
template <typename It, template <typename> typename Template>
concept D = requires {
{ [] <typename T1> (Template<T1> &) {}(declare<It &>()) };
};
template <typename T>
struct B {};
template <typename T>
struct Adapter;
template <D<B> T>
struct Adapter<T> {};
template struct Adapter<B<int>>;
} // namespace GH56556
namespace GH82849 {
template <class T>
concept C = requires(T t) {
requires requires (T u) {
[]<class V>(V) {
return requires(V v) {
[](V w) {}(v);
};
}(t);
};
};
template <class From>
struct Widget;
template <C F>
struct Widget<F> {
static F create(F from) {
return from;
}
};
template <class>
bool foo() {
return C<int>;
}
void bar() {
// https://github.com/llvm/llvm-project/issues/49570#issuecomment-1664966972
Widget<char>::create(0);
}
} // namespace GH82849
}
// 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
namespace GH93821 {
template <class>
concept C = true;
template <class...>
concept D = []<C T = int>() { return true; }();
D auto x = 0;
} // namespace GH93821
namespace dependent_param_concept {
template <typename... Ts> void sink(Ts...) {}
void dependent_param() {
auto L = [](auto... x) {
return [](decltype(x)... y) {
return [](int z)
requires requires { sink(y..., z); }
{};
};
};
L(0, 1)(1, 2)(1);
}
} // namespace dependent_param_concept
namespace init_captures {
template <int N> struct V {};
void sink(V<0>, V<1>, V<2>, V<3>, V<4>) {}
void init_capture_pack() {
auto L = [](auto... z) {
return [=](auto... y) {
return [... w = z, y...](auto)
requires requires { sink(w..., y...); }
{};
};
};
L(V<0>{}, V<1>{}, V<2>{})(V<3>{}, V<4>{})(1);
}
void dependent_capture_packs() {
auto L = [](auto... z) {
return [... w = z](auto... y) {
return [... c = w](auto)
requires requires { sink(c..., y...); }
{};
};
};
L(V<0>{}, V<1>{}, V<2>{})(V<3>{}, V<4>{})(1);
}
} // namespace init_captures
namespace GH110721 {
template <int N> void connect() {
int x = N, y = N;
[x, y = y]()
requires requires { x; }
{}();
}
void foo() {
connect<42>();
}
} // namespace GH110721
namespace GH123441 {
void test() {
auto L = [](auto... x) {
return [](decltype(x)... y)
requires true
{};
};
L(0, 1)(1, 2);
}
}
namespace GH128175 {
template <class> void f() {
[i{0}] {
[&] {
[&] {
[]()
requires true
{}();
}();
}();
}();
}
template void f<int>();
}
namespace GH133719 {
template <class T>
constexpr auto f{[] (auto arg) {
return [a{arg}] {
[] () requires true {}();
};
}};
void foo() {
f<int>(0);
}
}
namespace GH147650 {
template <int> int b;
template <int b>
void f()
requires requires { [] { (void)b; static_assert(b == 42); }; } {}
void test() {
f<42>();
}
}
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