// RUN: %clang_cc1 -std=c++20 %s -Wno-c++23-extensions -verify // RUN: %clang_cc1 -std=c++23 %s -verify template struct Nothing {}; Nothing<[]() { return 0; }()> nothing; template struct NothingT {}; Nothing<[]() { return 0; }> nothingT; template concept True = [] { return true; }(); static_assert(True); static_assert(sizeof([] { return 0; })); static_assert(sizeof([] { return 0; }())); void f() noexcept(noexcept([] { return 0; }())); using a = decltype([] { return 0; }); using b = decltype([] { return 0; }()); using c = decltype([]() noexcept(noexcept([] { return 0; }())) { return 0; }); using d = decltype(sizeof([] { return 0; })); template int unique_test1(); static_assert(&unique_test1<[](){}> != &unique_test1<[](){}>); template auto g(T) -> decltype([]() { T::invalid; } ()); auto e = g(0); // expected-error@-1{{type 'int' cannot be used prior to '::'}} // expected-note@-1{{while substituting deduced template}} // expected-note@-3{{while substituting into a lambda}} // expected-error@-3 {{no matching function for call to 'g'}} // expected-note@-5 {{substitution failure}} template auto foo(decltype([] { return [] { return T(); }(); })) {} void test() { foo({}); } template struct C { template auto foo(decltype([] { return [] { return T(); }(); })) {} }; void test2() { C{}.foo({}); } namespace PR52073 { // OK, these are distinct functions not redefinitions. template void f(decltype([]{})) {} // expected-note {{candidate}} template void f(decltype([]{})) {} // expected-note {{candidate}} void use_f() { f({}); } // expected-error {{ambiguous}} // Same. template void g(const char (*)[([]{ return N; })()]) {} // expected-note {{candidate}} template void g(const char (*)[([]{ return N; })()]) {} // expected-note {{candidate}} void use_g() { g<6>(&"hello"); } // expected-error {{ambiguous}} } namespace GH51416 { template struct A { void spam(decltype([] {})); }; template void A::spam(decltype([] {})) // expected-error{{out-of-line definition of 'spam' does not match}} {} struct B { template void spam(decltype([] {})); }; template void B::spam(decltype([] {})) {} // expected-error{{out-of-line definition of 'spam' does not match}} } // namespace GH51416 namespace GH50376 { template struct foo_t { // expected-note 2{{candidate constructor}} foo_t(T ptr) {} // expected-note{{candidate constructor}} }; template using alias = foo_t; template auto fun(T const &t) -> alias { return alias{t}; // expected-error{{no viable conversion from returned value of type 'alias<...>'}} } void f() { int i; auto const error = fun(i); // expected-note{{in instantiation}} } } // namespace GH50376 namespace GH51414 { template void spam(decltype([] {}) (*s)[sizeof(T)] = nullptr) {} void foo() { spam(); } } // namespace GH51414 namespace GH51641 { template void foo(decltype(+[](T) {}) lambda, T param); static_assert(!__is_same(decltype(foo), void)); } // namespace GH51641 namespace StaticLambdas { template struct Nothing {}; Nothing<[]() static { return 0; }()> nothing; template struct NothingT {}; Nothing<[]() static { return 0; }> nothingT; template concept True = [] static { return true; }(); static_assert(True); static_assert(sizeof([] static { return 0; })); static_assert(sizeof([] static { return 0; }())); void f() noexcept(noexcept([] static { return 0; }())); using a = decltype([] static { return 0; }); using b = decltype([] static { return 0; }()); using c = decltype([]() static noexcept(noexcept([] { return 0; }())) { return 0; }); using d = decltype(sizeof([] static { return 0; })); } namespace lambda_in_trailing_decltype { auto x = ([](auto) -> decltype([] {}()) {}(0), 2); } namespace lambda_in_constraints { struct WithFoo { static void foo(); }; template concept lambda_works = requires { []() { T::foo(); }; // expected-error{{type 'int' cannot be used prior to '::'}} // expected-note@-1{{while substituting into a lambda expression here}} // expected-note@-2{{in instantiation of requirement here}} // expected-note@-4{{while substituting template arguments into constraint expression here}} }; static_assert(!lambda_works); // expected-note {{while checking the satisfaction of concept 'lambda_works' requested here}} static_assert(lambda_works); template int* func(T) requires requires { []() { T::foo(); }; }; // expected-error{{type 'int' cannot be used prior to '::'}} // expected-note@-1{{while substituting into a lambda expression here}} // expected-note@-2{{in instantiation of requirement here}} // expected-note@-3{{while substituting template arguments into constraint expression here}} double* func(...); static_assert(__is_same(decltype(func(0)), double*)); // expected-note {{while checking constraint satisfaction for template 'func' required here}} // expected-note@-1 {{in instantiation of function template specialization 'lambda_in_constraints::func'}} static_assert(__is_same(decltype(func(WithFoo())), int*)); template auto direct_lambda(T) -> decltype([] { T::foo(); }) {} void direct_lambda(...) {} void recursive() { direct_lambda(0); // expected-error@-4 {{type 'int' cannot be used prior to '::'}} // expected-note@-1 {{while substituting deduced template arguments}} // expected-note@-6 {{while substituting into a lambda}} bool x = requires { direct_lambda(0); }; // expected-error@-7 {{type 'int' cannot be used prior to '::'}} // expected-note@-1 {{while substituting deduced template arguments}} // expected-note@-9 {{while substituting into a lambda}} } }