83 lines
2.9 KiB
C++
83 lines
2.9 KiB
C++
// RUN: %clang_cc1 -std=c++2b -verify %s
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// Ensure we substitute into instantiation-dependent but non-dependent
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// constructs. The poster-child for this is...
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template<class ...> using void_t = void;
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namespace PR24076 {
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template<class T> T declval();
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struct s {};
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template<class T,
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class = void_t<decltype(declval<T>() + 1)>>
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void foo(T) {} // expected-note {{invalid operands to binary expression}}
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void f() {
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foo(s{}); // expected-error {{no matching function}}
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}
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template<class T,
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class = void_t<decltype(declval<T>() + 1)>> // expected-error {{invalid operands to binary expression}}
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struct bar {};
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bar<s> bar; // expected-note {{in instantiation of}}
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}
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namespace PR33655 {
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struct One { using x = int; };
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struct Two { using y = int; };
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template<typename T, void_t<typename T::x> * = nullptr> int &func() {}
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template<typename T, void_t<typename T::y> * = nullptr> float &func() {}
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int &test1 = func<One>();
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float &test2 = func<Two>();
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template<class ...Args> struct indirect_void_t_imp { using type = void; };
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template<class ...Args> using indirect_void_t = typename indirect_void_t_imp<Args...>::type;
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template<class T> void foo() {
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static_assert(!__is_void(indirect_void_t<T>)); // "ok", dependent
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static_assert(!__is_void(void_t<T>)); // expected-error {{failed}}
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}
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}
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namespace PR46791 { // also PR45782
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template<typename T, typename = void>
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struct trait {
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static constexpr int specialization = 0;
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};
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// FIXME: Per a strict interpretation of the C++ rules, the two void_t<...>
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// types below are equivalent -- we only (effectively) do token-by-token
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// comparison for *expressions* appearing within types. But all other
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// implementations accept this, using rules that are unclear.
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template<typename T>
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struct trait<T, void_t<typename T::value_type>> { // expected-note {{previous}} FIXME-note {{matches}}
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static constexpr int specialization = 1;
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};
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template<typename T>
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struct trait<T, void_t<typename T::element_type>> { // expected-error {{redefinition}} FIXME-note {{matches}}
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static constexpr int specialization = 2;
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};
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struct A {};
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struct B { typedef int value_type; };
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struct C { typedef int element_type; };
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struct D : B, C {};
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static_assert(trait<A>::specialization == 0);
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static_assert(trait<B>::specialization == 1); // FIXME expected-error {{failed}}
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static_assert(trait<C>::specialization == 2); // FIXME expected-error {{failed}}
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static_assert(trait<D>::specialization == 0); // FIXME-error {{ambiguous partial specialization}}
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}
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namespace TypeQualifier {
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// Ensure that we substitute into an instantiation-dependent but
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// non-dependent qualifier.
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template<int> struct A { using type = int; };
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template<typename T> A<sizeof(sizeof(T::error))>::type f() {} // expected-note {{'int' cannot be used prior to '::'}}
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int k = f<int>(); // expected-error {{no matching}}
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}
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