// RUN: %clang_cc1 -std=c++11 -fexceptions -fcxx-exceptions -fsyntax-only -verify %s // Simple parser tests, dynamic specification. namespace dyn { struct X { }; struct Y { }; void f() throw() { } void g(int) throw(X) { } void h() throw(X, Y) { } class Class { void foo() throw (X, Y) { } }; void (*fptr)() throw(); } // Simple parser tests, noexcept specification. namespace noex { void f1() noexcept { } void f2() noexcept (true) { } void f3() noexcept (false) { } void f4() noexcept (1 < 2) { } class CA1 { void foo() noexcept { } void bar() noexcept (true) { } }; void (*fptr1)() noexcept; void (*fptr2)() noexcept (true); } namespace mix { void f() throw(int) noexcept { } // expected-error {{cannot have both}} void g() noexcept throw(int) { } // expected-error {{cannot have both}} } // Sema tests, noexcept specification namespace noex { struct A {}; void g1() noexcept(A()); // expected-error {{not contextually convertible}} void g2(bool b) noexcept(b); // expected-error {{argument to noexcept specifier must be a constant expression}} expected-note {{read of non-const variable 'b'}} expected-note {{here}} } namespace noexcept_unevaluated { template<typename T> bool f(T) { T* x = 1; } template<typename T> void g(T x) noexcept((sizeof(T) == sizeof(int)) || noexcept(f(x))) { } void h() { g(1); } } namespace PR11084 { template<int X> struct A { static int f() noexcept(1/X) { return 10; } // expected-error{{argument to noexcept specifier must be a constant expression}} expected-note{{division by zero}} }; template<int X> void f() { int (*p)() noexcept(1/X); // expected-error{{argument to noexcept specifier must be a constant expression}} expected-note{{division by zero}} }; void g() { A<0>::f(); // expected-note{{in instantiation of exception specification for 'f'}} f<0>(); // expected-note{{in instantiation of function template specialization}} } } namespace FuncTmplNoexceptError { int a = 0; // expected-error@+1{{argument to noexcept specifier must be a constant expression}} template <class T> T f() noexcept(a++){ return {};} void g(){ f<int>(); } }; |