clang/test/SemaCXX/sugar-common-types.cpp

   1 // RUN: %clang_cc1 -fsyntax-only -verify %s -std=c++20 -x objective-c++ -fobjc-arc -fenable-matrix -triple i686-pc-win32
   2
   3 enum class N {};
   4
   5 using B1 = int;
   6 using X1 = B1;
   7 using Y1 = B1;
   8
   9 using B2 = void;
  10 using X2 = B2;
  11 using Y2 = B2;
  12
  13 using A3 = char __attribute__((vector_size(4)));
  14 using B3 = A3;
  15 using X3 = B3;
  16 using Y3 = B3;
  17
  18 using A4 = float;
  19 using B4 = A4 __attribute__((matrix_type(4, 4)));
  20 using X4 = B4;
  21 using Y4 = B4;
  22
  23 using X5 = A4 __attribute__((matrix_type(3, 4)));
  24 using Y5 = A4 __attribute__((matrix_type(4, 3)));
  25
  26 N t1 = 0 ? X1() : Y1(); // expected-error {{rvalue of type 'B1'}}
  27 N t2 = 0 ? X2() : Y2(); // expected-error {{rvalue of type 'B2'}}
  28
  29 const X1 &xt3 = 0;
  30 const Y1 &yt3 = 0;
  31 N t3 = 0 ? xt3 : yt3; // expected-error {{lvalue of type 'const B1'}}
  32
  33 N t4 = X3() + Y3();   // expected-error {{rvalue of type 'B3'}}
  34
  35 N t5 = A3() ? X3() : Y3(); // expected-error {{rvalue of type 'B3'}}
  36 N t6 = A3() ? X1() : Y1(); // expected-error {{vector condition type 'A3' (vector of 4 'char' values) and result type '__attribute__((__vector_size__(4 * sizeof(B1)))) B1' (vector of 4 'B1' values) do not have elements of the same size}}
  37
  38 N t7 = X4() + Y4(); // expected-error {{rvalue of type 'B4'}}
  39 N t8 = X4() * Y4(); // expected-error {{rvalue of type 'B4'}}
  40 N t9 = X5() * Y5(); // expected-error {{rvalue of type 'A4 __attribute__((matrix_type(3, 3)))'}}
  41
  42 template <class T> struct S1 {
  43   template <class U> struct S2 {};
  44 };
  45
  46 N t10 = 0 ? S1<X1>() : S1<Y1>(); // expected-error {{from 'S1<B1>' (aka 'S1<int>')}}
  47 N t11 = 0 ? S1<X1>::S2<X2>() : S1<Y1>::S2<Y2>(); // expected-error {{from 'S1<int>::S2<B2>' (aka 'S2<void>')}}
  48
  49 template <class T> using Al = S1<T>;
  50
  51 N t12 = 0 ? Al<X1>() : Al<Y1>(); // expected-error {{from 'Al<B1>' (aka 'S1<int>')}}
  52
  53 #define AS1 __attribute__((address_space(1)))
  54 #define AS2 __attribute__((address_space(1)))
  55 using AS1X1 = AS1 B1;
  56 using AS1Y1 = AS1 B1;
  57 using AS2Y1 = AS2 B1;
  58 N t13 = 0 ? (AS1X1){} : (AS1Y1){}; // expected-error {{rvalue of type 'AS1 B1' (aka '__attribute__((address_space(1))) int')}}
  59 N t14 = 0 ? (AS1X1){} : (AS2Y1){}; // expected-error {{rvalue of type '__attribute__((address_space(1))) B1' (aka '__attribute__((address_space(1))) int')}}
  60
  61 using FX1 = X1 ();
  62 using FY1 = Y1 ();
  63 N t15 = 0 ? (FX1*){} : (FY1*){}; // expected-error {{rvalue of type 'B1 (*)()' (aka 'int (*)()')}}
  64
  65 struct SS1 {};
  66 using SB1 = SS1;
  67 using SX1 = SB1;
  68 using SY1 = SB1;
  69
  70 using MFX1 = X1 SX1::*();
  71 using MFY1 = Y1 SY1::*();
  72
  73 N t16 = 0 ? (MFX1*){} : (MFY1*){}; // expected-error {{rvalue of type 'B1 SB1::*(*)()'}}
  74
  75 N t17 = 0 ? (FX1 SX1::*){} : (FY1 SY1::*){}; // expected-error {{rvalue of type 'B1 (SB1::*)() __attribute__((thiscall))'}}
  76
  77 N t18 = 0 ? (__typeof(X1*)){} : (__typeof(Y1*)){}; // expected-error {{rvalue of type 'typeof(B1 *)' (aka 'int *')}}
  78
  79 struct Enums {
  80   enum X : B1;
  81   enum Y : ::B1;
  82 };
  83 using EnumsB = Enums;
  84 using EnumsX = EnumsB;
  85 using EnumsY = EnumsB;
  86
  87 N t19 = 0 ? (__underlying_type(EnumsX::X)){} : (__underlying_type(EnumsY::Y)){};
  88 // expected-error@-1 {{rvalue of type 'B1' (aka 'int')}}
  89
  90 N t20 = 0 ? (__underlying_type(EnumsX::X)){} : (__underlying_type(EnumsY::X)){};
  91 // expected-error@-1 {{rvalue of type '__underlying_type(Enums::X)' (aka 'int')}}
  92
  93 using QX = const SB1 *;
  94 using QY = const ::SB1 *;
  95 N t23 = 0 ? (QX){} : (QY){}; // expected-error {{rvalue of type 'const SB1 *' (aka 'const SS1 *')}}
  96
  97 template <class T> using Alias = short;
  98 N t24 = 0 ? (Alias<X1>){} : (Alias<Y1>){}; // expected-error {{rvalue of type 'Alias<B1>' (aka 'short')}}
  99 N t25 = 0 ? (Alias<X1>){} : (Alias<X2>){}; // expected-error {{rvalue of type 'short'}}
 100
 101 template <class T, class U> concept C1 = true;
 102 template <class T, class U> concept C2 = true;
 103 C1<X1> auto t26_1 = (SB1){};
 104 C1<X2> auto t26_2 = (::SB1){};
 105 C2<X2> auto t26_3 = (::SB1){};
 106 N t26 = 0 ? t26_1 : t26_2; // expected-error {{from 'SB1' (aka 'SS1')}}
 107 N t27 = 0 ? t26_1 : t26_3; // expected-error {{from 'SB1' (aka 'SS1')}}
 108
 109 using RPB1 = X1*;
 110 using RPX1 = RPB1;
 111 using RPB1 = Y1*; // redeclared
 112 using RPY1 = RPB1;
 113 N t28 = *(RPB1){}; // expected-error {{lvalue of type 'Y1' (aka 'int')}}
 114 auto t29 = 0 ? (RPX1){} : (RPY1){};
 115 N t30 = t29;  // expected-error {{lvalue of type 'RPB1' (aka 'int *')}}
 116 N t31 = *t29; // expected-error {{lvalue of type 'B1' (aka 'int')}}
 117
 118 namespace A { using type1 = X1*; };
 119 namespace C { using A::type1; };
 120 using UPX1 = C::type1;
 121 namespace A { using type1 = Y1*; };  // redeclared
 122 namespace C { using A::type1; };     // redeclared
 123 using UPY1 = C::type1;
 124 auto t32 = 0 ? (UPX1){} : (UPY1){};
 125 N t33 = t32;  // expected-error {{lvalue of type 'C::type1' (aka 'int *')}}
 126 N t34 = *t32; // expected-error {{lvalue of type 'B1' (aka 'int')}}
 127
 128 // See https://github.com/llvm/llvm-project/issues/61419
 129 namespace PR61419 {
 130   template <class T0, class T1> struct pair {
 131     T0 first;
 132     T1 second;
 133   };
 134
 135   extern const pair<id, id> p;
 136   id t = false ? p.first : p.second;
 137 } // namespace PR61419
 138
 139 namespace GH67603 {
 140   template <class> using A = long;
 141   template <class B> void h() {
 142     using C = B;
 143     using D = B;
 144     N t = 0 ? A<decltype(C())>() : A<decltype(D())>();
 145     // expected-error@-1 {{rvalue of type 'A<decltype(C())>' (aka 'long')}}
 146   }
 147   template void h<int>();
 148 } // namespace GH67603