1// RUN: %clang_cc1 -fsyntax-only -verify %s 2 3template<typename T> struct A { }; 4 5// Top-level cv-qualifiers of P's type are ignored for type deduction. 6template<typename T> A<T> f0(const T); 7 8void test_f0(int i, const int ci) { 9 A<int> a0 = f0(i); 10 A<int> a1 = f0(ci); 11} 12 13// If P is a reference type, the type referred to by P is used for type 14// deduction. 15template<typename T> A<T> f1(T&); 16 17void test_f1(int i, const int ci, volatile int vi) { 18 A<int> a0 = f1(i); 19 A<const int> a1 = f1(ci); 20 A<volatile int> a2 = f1(vi); 21} 22 23template<typename T, unsigned N> struct B { }; 24template<typename T, unsigned N> B<T, N> g0(T (&array)[N]); 25template<typename T, unsigned N> B<T, N> g0b(const T (&array)[N]); 26 27void test_g0() { 28 int array0[5]; 29 B<int, 5> b0 = g0(array0); 30 const int array1[] = { 1, 2, 3}; 31 B<const int, 3> b1 = g0(array1); 32 B<int, 3> b2 = g0b(array1); 33} 34 35template<typename T> B<T, 0> g1(const A<T>&); 36 37void test_g1(A<float> af) { 38 B<float, 0> b0 = g1(af); 39 B<int, 0> b1 = g1(A<int>()); 40} 41 42// - If the original P is a reference type, the deduced A (i.e., the type 43// referred to by the reference) can be more cv-qualified than the 44// transformed A. 45template<typename T> A<T> f2(const T&); 46 47void test_f2(int i, const int ci, volatile int vi) { 48 A<int> a0 = f2(i); 49 A<int> a1 = f2(ci); 50 A<volatile int> a2 = f2(vi); 51} 52 53// PR5913 54template <typename T, int N> 55void Foo(const T (&a)[N]) { 56 T x; 57 x = 0; 58} 59 60const int a[1] = { 0 }; 61 62void Test() { 63 Foo(a); 64} 65 66// - The transformed A can be another pointer or pointer to member type that 67// can be converted to the deduced A via a qualification conversion (4.4). 68template<typename T> A<T> f3(T * * const * const); 69 70void test_f3(int ***ip, volatile int ***vip) { 71 A<int> a0 = f3(ip); 72 A<volatile int> a1 = f3(vip); 73} 74 75// Also accept conversions for pointer types which require removing 76// [[noreturn]]. 77namespace noreturn_stripping { 78 template <class R> 79 void f(R (*function)()); 80 81 void g() __attribute__ ((__noreturn__)); 82 void h(); 83 void test() { 84 f(g); 85 f(h); 86 } 87} 88 89// - If P is a class, and P has the form template-id, then A can be a 90// derived class of the deduced A. Likewise, if P is a pointer to a class 91// of the form template-id, A can be a pointer to a derived class pointed 92// to by the deduced A. 93template<typename T, int I> struct C { }; 94 95struct D : public C<int, 1> { }; 96struct E : public D { }; 97struct F : A<float> { }; 98struct G : A<float>, C<int, 1> { }; 99 100template<typename T, int I> 101 C<T, I> *f4a(const C<T, I>&); 102template<typename T, int I> 103 C<T, I> *f4b(C<T, I>); 104template<typename T, int I> 105 C<T, I> *f4c(C<T, I>*); 106int *f4c(...); 107 108void test_f4(D d, E e, F f, G g) { 109 C<int, 1> *ci1a = f4a(d); 110 C<int, 1> *ci2a = f4a(e); 111 C<int, 1> *ci1b = f4b(d); 112 C<int, 1> *ci2b = f4b(e); 113 C<int, 1> *ci1c = f4c(&d); 114 C<int, 1> *ci2c = f4c(&e); 115 C<int, 1> *ci3c = f4c(&g); 116 int *ip1 = f4c(&f); 117} 118 119// PR8462 120namespace N { 121 struct T0; 122 struct T1; 123 124 template<typename X, typename Y> struct B {}; 125 126 struct J : B<T0,T0> {}; 127 struct K : B<T1,T1> {}; 128 129 struct D : J, K {}; 130 131 template<typename X, typename Y> void F(B<Y,X>); 132 133 void test() 134 { 135 D d; 136 N::F<T0>(d); // Fails 137 N::F<T1>(d); // OK 138 } 139} 140 141namespace PR9233 { 142 template<typename T> void f(const T **q); // expected-note{{candidate template ignored: substitution failure [with T = int]}} 143 144 void g(int **p) { 145 f(p); // expected-error{{no matching function for call to 'f'}} 146 } 147 148} 149