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| // RUN: %clang_cc1 -std=c++1z -verify %s -fexceptions -fcxx-exceptions -Wno-dynamic-exception-spec
struct X {};
struct Y : X {};
using A = void (*)() noexcept;
using B = void (*)();
using C = void (X::*)() noexcept;
using D = void (X::*)();
using E = void (Y::*)() noexcept;
using F = void (Y::*)();
void f(A a, B b, C c, D d, E e, F f, bool k) {
a = k ? a : b; // expected-error {{different exception specifications}}
b = k ? a : b;
c = k ? c : d; // expected-error {{different exception specifications}}
d = k ? c : d;
e = k ? c : f; // expected-error {{different exception specifications}}
e = k ? d : e; // expected-error {{different exception specifications}}
f = k ? c : f;
f = k ? d : e;
const A ak = a;
const B bk = b;
const A &ak2 = k ? ak : ak;
const A &ak3 = k ? ak : bk; // expected-error {{could not bind}}
const B &bk3 = k ? ak : bk;
}
namespace dynamic_exception_spec {
// Prior to P0012, we had:
// "[...] the target entity shall allow at least the exceptions allowed
// by the source value in the assignment or initialization"
//
// There's really only one way we can coherently apply this to conditional
// expressions: this must hold no matter which branch was taken.
using X = void (*)() throw(int);
using Y = void (*)() throw(float);
using Z = void (*)() throw(int, float);
void g(X x, Y y, Z z, bool k) {
x = k ? X() : Y(); // expected-warning {{not superset}}
y = k ? X() : Y(); // expected-warning {{not superset}}
z = k ? X() : Y();
x = k ? x : y; // expected-warning {{not superset}}
y = k ? x : y; // expected-warning {{not superset}}
z = k ? x : y;
}
}
|