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// RUN: %clang_cc1 -std=c++1z -verify %s
using size_t = decltype(sizeof(0));
struct A { int x, y; };
struct B { int x, y; };
void no_tuple_size_1() { auto [x, y] = A(); } // ok, decompose elementwise
namespace std { template<typename T> struct tuple_size; }
void no_tuple_size_2() { auto [x, y] = A(); } // ok, decompose elementwise
struct Bad1 { int a, b; };
template<> struct std::tuple_size<Bad1> {};
void no_tuple_size_3() { auto [x, y] = Bad1(); } // ok, omitting value is valid after DR2386
struct Bad2 {};
template<> struct std::tuple_size<Bad2> { const int value = 5; };
void no_tuple_size_4() { auto [x, y] = Bad2(); } // expected-error {{cannot decompose this type; 'std::tuple_size<Bad2>::value' is not a valid integral constant expression}}
template<> struct std::tuple_size<A> { static const int value = 3; };
template<> struct std::tuple_size<B> { enum { value = 3 }; };
void no_get_1() {
{
auto [a0, a1] = A(); // expected-error {{decomposes into 3 elements}}
auto [b0, b1] = B(); // expected-error {{decomposes into 3 elements}}
}
auto [a0, a1, a2] = A(); // expected-error {{undeclared identifier 'get'}} expected-note {{in implicit initialization of binding declaration 'a0'}}
}
int get(A);
void no_get_2() {
// FIXME: This diagnostic is not great.
auto [a0, a1, a2] = A(); // expected-error {{undeclared identifier 'get'}} expected-note {{in implicit initialization of binding declaration 'a0'}}
}
template<int> float &get(A); // expected-note 2 {{no known conversion}}
void no_tuple_element_1() {
auto [a0, a1, a2] = A(); // expected-error-re {{'std::tuple_element<0U{{L*}}, A>::type' does not name a type}} expected-note {{in implicit}}
}
namespace std { template<size_t, typename> struct tuple_element; } // expected-note 2{{here}}
void no_tuple_element_2() {
auto [a0, a1, a2] = A(); // expected-error {{implicit instantiation of undefined template 'std::tuple_element<0, A>'}} expected-note {{in implicit}}
}
template<> struct std::tuple_element<0, A> { typedef float type; };
void no_tuple_element_3() {
auto [a0, a1, a2] = A(); // expected-error {{implicit instantiation of undefined template 'std::tuple_element<1, A>'}} expected-note {{in implicit}}
}
template<> struct std::tuple_element<1, A> { typedef float &type; };
template<> struct std::tuple_element<2, A> { typedef const float &type; };
template<int N> auto get(B) -> int (&)[N + 1]; // expected-note 2 {{no known conversion}}
template<int N> struct std::tuple_element<N, B> { typedef int type[N +1 ]; };
template<typename T> struct std::tuple_size<const T> : std::tuple_size<T> {};
template<size_t N, typename T> struct std::tuple_element<N, const T> {
typedef const typename std::tuple_element<N, T>::type type;
};
void referenced_type() {
auto [a0, a1, a2] = A();
auto [b0, b1, b2] = B();
A a;
B b;
auto &[ar0, ar1, ar2] = a;
auto &[br0, br1, br2] = b;
auto &&[arr0, arr1, arr2] = A();
auto &&[brr0, brr1, brr2] = B();
const auto &[acr0, acr1, acr2] = A();
const auto &[bcr0, bcr1, bcr2] = B();
using Float = float;
using Float = decltype(a0);
using Float = decltype(ar0);
using Float = decltype(arr0);
using ConstFloat = const float;
using ConstFloat = decltype(acr0);
using FloatRef = float&;
using FloatRef = decltype(a1);
using FloatRef = decltype(ar1);
using FloatRef = decltype(arr1);
using FloatRef = decltype(acr1);
using ConstFloatRef = const float&;
using ConstFloatRef = decltype(a2);
using ConstFloatRef = decltype(ar2);
using ConstFloatRef = decltype(arr2);
using ConstFloatRef = decltype(acr2);
using Int1 = int[1];
using Int1 = decltype(b0);
using Int1 = decltype(br0);
using Int1 = decltype(brr0);
using ConstInt1 = const int[1];
using ConstInt1 = decltype(bcr0);
using Int2 = int[2];
using Int2 = decltype(b1);
using Int2 = decltype(br1);
using Int2 = decltype(brr1);
using ConstInt2 = const int[2];
using ConstInt2 = decltype(bcr1);
using Int3 = int[3];
using Int3 = decltype(b2);
using Int3 = decltype(br2);
using Int3 = decltype(brr2);
using ConstInt3 = const int[3];
using ConstInt3 = decltype(bcr2);
}
struct C { template<int> int get() const; };
template<> struct std::tuple_size<C> { static const int value = 1; };
template<> struct std::tuple_element<0, C> { typedef int type; };
int member_get() {
auto [c] = C();
using T = int;
using T = decltype(c);
return c;
}
constexpr C c = C();
template<const C *p> void dependent_binding_PR40674() {
const auto &[c] = *p;
(void)c;
}
struct D {
// FIXME: Emit a note here explaining why this was ignored.
template<int> struct get {};
};
template<> struct std::tuple_size<D> { static const int value = 1; };
template<> struct std::tuple_element<0, D> { typedef D::get<0> type; };
void member_get_class_template() {
auto [d] = D(); // expected-error {{no matching function for call to 'get'}} expected-note {{in implicit init}}
}
struct E {
// FIXME: Emit a note here explaining why this was ignored.
int get();
};
template<> struct std::tuple_size<E> { static const int value = 1; };
template<> struct std::tuple_element<0, E> { typedef int type; };
void member_get_non_template() {
// FIXME: This diagnostic is not very good.
auto [e] = E(); // expected-error {{no matching function for call to 'get'}} expected-note {{in implicit init}}
}
namespace ADL {
struct X {};
};
template<int> int get(ADL::X);
template<> struct std::tuple_size<ADL::X> { static const int value = 1; };
template<> struct std::tuple_element<0, ADL::X> { typedef int type; };
void adl_only_bad() {
auto [x] = ADL::X(); // expected-error {{undeclared identifier 'get'}} expected-note {{in implicit init}}
}
template<typename ElemType, typename GetTypeLV, typename GetTypeRV>
struct wrap {
template<size_t> GetTypeLV get() &;
template<size_t> GetTypeRV get() &&;
};
template<typename ET, typename GTL, typename GTR>
struct std::tuple_size<wrap<ET, GTL, GTR>> {
static const int value = 1;
};
template<typename ET, typename GTL, typename GTR>
struct std::tuple_element<0, wrap<ET, GTL, GTR>> {
using type = ET;
};
template<typename T> T &lvalue();
void test_value_category() {
// If the declared variable is an lvalue reference, the operand to get is an
// lvalue. Otherwise it's an xvalue.
{ auto [a] = wrap<int, void, int>(); }
{ auto &[a] = lvalue<wrap<int, int, void>>(); }
{ auto &&[a] = wrap<int, void, int>(); }
// If the initializer (call to get) is an lvalue, the binding is an lvalue
// reference to the element type. Otherwise it's an rvalue reference to the
// element type.
{ auto [a] = wrap<int, void, int&>(); }
{ auto [a] = wrap<int&, void, int&>(); }
{ auto [a] = wrap<int&&, void, int&>(); } // ok, reference collapse to int&
{ auto [a] = wrap<int, void, int&&>(); }
{ auto [a] = wrap<int&, void, int&&>(); } // expected-error {{non-const lvalue reference to type 'int' cannot bind}} expected-note {{in implicit}}
{ auto [a] = wrap<const int&, void, int&&>(); }
{ auto [a] = wrap<int&&, void, int&&>(); }
{ auto [a] = wrap<int, void, float&>(); } // expected-error {{cannot bind}} expected-note {{implicit}}
{ auto [a] = wrap<const int, void, float&>(); } // ok, const int &a can bind to float
{ auto [a] = wrap<int, void, float>(); } // ok, int &&a can bind to float
}
namespace constant {
struct Q {};
template<int N> constexpr int get(Q &&) { return N * N; }
}
template<> struct std::tuple_size<constant::Q> { static const int value = 3; };
template<int N> struct std::tuple_element<N, constant::Q> { typedef int type; };
namespace constant {
Q q;
// This creates and lifetime-extends a temporary to hold the result of each get() call.
auto [a, b, c] = q; // expected-note {{temporary}}
static_assert(a == 0); // expected-error {{constant expression}} expected-note {{temporary}}
constexpr bool f() {
auto [a, b, c] = q;
return a == 0 && b == 1 && c == 4;
}
static_assert(f());
constexpr int g() {
int *p = nullptr;
{
auto [a, b, c] = q;
p = &c;
}
return *p; // expected-note {{read of object outside its lifetime}}
}
static_assert(g() == 4); // expected-error {{constant}} expected-note {{in call to 'g()'}}
}
// P0961R1
struct InvalidMemberGet {
int get();
template <class T> int get();
struct get {};
};
template <> struct std::tuple_size<InvalidMemberGet> { static constexpr size_t value = 1; };
template <> struct std::tuple_element<0, InvalidMemberGet> { typedef float type; };
template <size_t> float get(InvalidMemberGet) { return 0; }
int f() {
InvalidMemberGet img;
auto [x] = img;
typedef decltype(x) same_as_float;
typedef float same_as_float;
}
struct ValidMemberGet {
int get();
template <class T> int get() { return 0; }
template <size_t N> float get() { return 0; }
};
template <> struct std::tuple_size<ValidMemberGet> { static constexpr size_t value = 1; };
template <> struct std::tuple_element<0, ValidMemberGet> { typedef float type; };
// Don't use this one; we should use the member get.
template <size_t N> int get(ValidMemberGet) { static_assert(N && false, ""); }
int f2() {
ValidMemberGet img;
auto [x] = img;
typedef decltype(x) same_as_float;
typedef float same_as_float;
}
struct Base1 {
int get(); // expected-note{{member found by ambiguous name lookup}}
};
struct Base2 {
template<int> int get(); // expected-note{{member found by ambiguous name lookup}}
};
struct Derived : Base1, Base2 {};
template <> struct std::tuple_size<Derived> { static constexpr size_t value = 1; };
template <> struct std::tuple_element<0, Derived> { typedef int type; };
auto [x] = Derived(); // expected-error{{member 'get' found in multiple base classes of different types}}
struct Base {
template<int> int get();
};
struct UsingGet : Base {
using Base::get;
};
template <> struct std::tuple_size<UsingGet> {
static constexpr size_t value = 1;
};
template <> struct std::tuple_element<0, UsingGet> { typedef int type; };
auto [y] = UsingGet();