// RUN: %clang_cc1 -fsyntax-only -verify -std=c++11 %s template <class T> struct only { only(T) {} template <class U> only(U) { static_assert(sizeof(U) == 0, "expected type failure"); } }; auto f() -> int { return 0; } auto g(); // expected-error{{return without trailing return type}} int h() -> int; // expected-error{{trailing return type must specify return type 'auto', not 'int'}} int i(); auto i() -> int; int i() {} using T = auto (int) -> auto (*)(char) -> void; // expected-note {{previous}} using T = void; // expected-error {{type alias redefinition with different types ('void' vs 'auto (int) -> auto (*)(char) -> void')}} using U = auto (int) -> auto (*)(char) -> void; using U = void (*(int))(char); // ok int x; template <class T> auto i(T x) -> decltype(x) { return x; } only<double> p1 = i(1.0); template <class T> struct X { auto f(T x) -> T { return x; } template <class U> auto g(T x, U y) -> decltype(x + y) { return x + y; } template<typename U> struct nested { template <class V> auto h(T x, U y, V z) -> decltype(x + y + z) { return x + y + z; } }; template<typename U> nested<U> get_nested(); }; X<int> xx; only<int> p2 = xx.f(0L); only<double> p3 = xx.g(0L, 1.0); only<double> p4 = xx.get_nested<double>().h(0L, 1.0, 3.14f); namespace PR12053 { template <typename T> auto f1(T t) -> decltype(f1(t)) {} // expected-note{{candidate template ignored}} void test_f1() { f1(0); // expected-error{{no matching function for call to 'f1'}} } template <typename T> auto f2(T t) -> decltype(f2(&t)) {} // expected-note{{candidate template ignored}} void test_f2() { f2(0); // expected-error{{no matching function for call to 'f2'}} } }