test/Layout/no-unique-address.cpp - clang - Git at Google

 // RUN: %clang_cc1 -std=c++2a -fsyntax-only -triple x86_64-linux-gnu -fdump-record-layouts %s | FileCheck %s

 namespace Empty {
   struct A {};
   struct B { [[no_unique_address]] A a; char b; };
   static_assert(sizeof(B) == 1);

   // CHECK:*** Dumping AST Record Layout
   // CHECK:          0 | struct Empty::B
   // CHECK-NEXT:     0 |   struct Empty::A a (empty)
   // CHECK-NEXT:     0 |   char b
   // CHECK-NEXT:       | [sizeof=1, dsize=1, align=1,
   // CHECK-NEXT:       |  nvsize=1, nvalign=1]

   struct C {};
   struct D {
     [[no_unique_address]] A a;
     [[no_unique_address]] C c;
     char d;
   };
   static_assert(sizeof(D) == 1);

   // CHECK:*** Dumping AST Record Layout
   // CHECK:          0 | struct Empty::D
   // CHECK-NEXT:     0 |   struct Empty::A a (empty)
   // CHECK-NEXT:     0 |   struct Empty::C c (empty)
   // CHECK-NEXT:     0 |   char d
   // CHECK-NEXT:       | [sizeof=1, dsize=1, align=1,
   // CHECK-NEXT:       |  nvsize=1, nvalign=1]

   struct E {
     [[no_unique_address]] A a1;
     [[no_unique_address]] A a2;
     char e;
   };
   static_assert(sizeof(E) == 2);

   // CHECK:*** Dumping AST Record Layout
   // CHECK:          0 | struct Empty::E
   // CHECK-NEXT:     0 |   struct Empty::A a1 (empty)
   // CHECK-NEXT:     1 |   struct Empty::A a2 (empty)
   // CHECK-NEXT:     0 |   char e
   // CHECK-NEXT:       | [sizeof=2, dsize=2, align=1,
   // CHECK-NEXT:       |  nvsize=2, nvalign=1]

   struct F {
     ~F();
     [[no_unique_address]] A a1;
     [[no_unique_address]] A a2;
     char f;
   };
   static_assert(sizeof(F) == 2);

   // CHECK:*** Dumping AST Record Layout
   // CHECK:          0 | struct Empty::F
   // CHECK-NEXT:     0 |   struct Empty::A a1 (empty)
   // CHECK-NEXT:     1 |   struct Empty::A a2 (empty)
   // CHECK-NEXT:     0 |   char f
   // CHECK-NEXT:       | [sizeof=2, dsize=1, align=1,
   // CHECK-NEXT:       |  nvsize=2, nvalign=1]

   struct G { [[no_unique_address]] A a; ~G(); };
   static_assert(sizeof(G) == 1);

   // CHECK:*** Dumping AST Record Layout
   // CHECK:          0 | struct Empty::G
   // CHECK-NEXT:     0 |   struct Empty::A a (empty)
   // CHECK-NEXT:       | [sizeof=1, dsize=0, align=1,
   // CHECK-NEXT:       |  nvsize=1, nvalign=1]

   struct H { [[no_unique_address]] A a, b; ~H(); };
   static_assert(sizeof(H) == 2);

   // CHECK:*** Dumping AST Record Layout
   // CHECK:          0 | struct Empty::H
   // CHECK-NEXT:     0 |   struct Empty::A a (empty)
   // CHECK-NEXT:     1 |   struct Empty::A b (empty)
   // CHECK-NEXT:       | [sizeof=2, dsize=0, align=1,
   // CHECK-NEXT:       |  nvsize=2, nvalign=1]

   struct OversizedEmpty : A {
     ~OversizedEmpty();
     [[no_unique_address]] A a;
   };
   static_assert(sizeof(OversizedEmpty) == 2);

   // CHECK:*** Dumping AST Record Layout
   // CHECK:          0 | struct Empty::OversizedEmpty
   // CHECK-NEXT:     0 |   struct Empty::A (base) (empty)
   // CHECK-NEXT:     1 |   struct Empty::A a (empty)
   // CHECK-NEXT:       | [sizeof=2, dsize=0, align=1,
   // CHECK-NEXT:       |  nvsize=2, nvalign=1]

   struct HasOversizedEmpty {
     [[no_unique_address]] OversizedEmpty m;
   };
   static_assert(sizeof(HasOversizedEmpty) == 2);

   // CHECK:*** Dumping AST Record Layout
   // CHECK:          0 | struct Empty::HasOversizedEmpty
   // CHECK-NEXT:     0 |   struct Empty::OversizedEmpty m (empty)
   // CHECK-NEXT:     0 |     struct Empty::A (base) (empty)
   // CHECK-NEXT:     1 |     struct Empty::A a (empty)
   // CHECK-NEXT:       | [sizeof=2, dsize=0, align=1,
   // CHECK-NEXT:       |  nvsize=2, nvalign=1]

   struct EmptyWithNonzeroDSize {
     [[no_unique_address]] A a;
     int x;
     [[no_unique_address]] A b;
     int y;
     [[no_unique_address]] A c;
   };
   static_assert(sizeof(EmptyWithNonzeroDSize) == 12);

   // CHECK:*** Dumping AST Record Layout
   // CHECK:          0 | struct Empty::EmptyWithNonzeroDSize
   // CHECK-NEXT:     0 |   struct Empty::A a (empty)
   // CHECK-NEXT:     0 |   int x
   // CHECK-NEXT:     4 |   struct Empty::A b (empty)
   // CHECK-NEXT:     4 |   int y
   // CHECK-NEXT:     8 |   struct Empty::A c (empty)
   // CHECK-NEXT:       | [sizeof=12, dsize=12, align=4,
   // CHECK-NEXT:       |  nvsize=12, nvalign=4]

   struct EmptyWithNonzeroDSizeNonPOD {
     ~EmptyWithNonzeroDSizeNonPOD();
     [[no_unique_address]] A a;
     int x;
     [[no_unique_address]] A b;
     int y;
     [[no_unique_address]] A c;
   };
   static_assert(sizeof(EmptyWithNonzeroDSizeNonPOD) == 12);

   // CHECK:*** Dumping AST Record Layout
   // CHECK:          0 | struct Empty::EmptyWithNonzeroDSizeNonPOD
   // CHECK-NEXT:     0 |   struct Empty::A a (empty)
   // CHECK-NEXT:     0 |   int x
   // CHECK-NEXT:     4 |   struct Empty::A b (empty)
   // CHECK-NEXT:     4 |   int y
   // CHECK-NEXT:     8 |   struct Empty::A c (empty)
   // CHECK-NEXT:       | [sizeof=12, dsize=8, align=4,
   // CHECK-NEXT:       |  nvsize=9, nvalign=4]
 }

 namespace POD {
   // Cannot reuse tail padding of a PDO type.
   struct A { int n; char c[3]; };
   struct B { [[no_unique_address]] A a; char d; };
   static_assert(sizeof(B) == 12);

   // CHECK:*** Dumping AST Record Layout
   // CHECK:          0 | struct POD::B
   // CHECK-NEXT:     0 |   struct POD::A a
   // CHECK-NEXT:     0 |     int n
   // CHECK-NEXT:     4 |     char [3] c
   // CHECK-NEXT:     8 |   char d
   // CHECK-NEXT:       | [sizeof=12, dsize=12, align=4,
   // CHECK-NEXT:       |  nvsize=12, nvalign=4]
 }

 namespace NonPOD {
   struct A { int n; char c[3]; ~A(); };
   struct B { [[no_unique_address]] A a; char d; };
   static_assert(sizeof(B) == 8);

   // CHECK:*** Dumping AST Record Layout
   // CHECK:          0 | struct NonPOD::B
   // CHECK-NEXT:     0 |   struct NonPOD::A a
   // CHECK-NEXT:     0 |     int n
   // CHECK-NEXT:     4 |     char [3] c
   // CHECK-NEXT:     7 |   char d
   // CHECK-NEXT:       | [sizeof=8, dsize=8, align=4,
   // CHECK-NEXT:       |  nvsize=8, nvalign=4]
 }

 namespace NVSizeGreaterThanDSize {
   // The nvsize of an object includes the complete size of its empty subobjects
   // (although it's unclear why). Ensure this corner case is handled properly.
   struct alignas(8) A { ~A(); }; // dsize 0, nvsize 0, size 8
   struct B : A { char c; }; // dsize 1, nvsize 8, size 8
   static_assert(sizeof(B) == 8);

   // CHECK:*** Dumping AST Record Layout
   // CHECK:          0 | struct NVSizeGreaterThanDSize::B
   // CHECK-NEXT:     0 |   struct NVSizeGreaterThanDSize::A (base) (empty)
   // CHECK-NEXT:     0 |   char c
   // CHECK-NEXT:       | [sizeof=8, dsize=1, align=8,
   // CHECK-NEXT:       |  nvsize=8, nvalign=8]

   struct V { int n; };

   // V is at offset 16, not offset 12, because B's tail padding is strangely not
   // usable for virtual bases.
   struct C : B, virtual V {};
   static_assert(sizeof(C) == 24);

   // CHECK:*** Dumping AST Record Layout
   // CHECK:          0 | struct NVSizeGreaterThanDSize::C
   // CHECK-NEXT:     0 |   (C vtable pointer)
   // CHECK-NEXT:     8 |   struct NVSizeGreaterThanDSize::B (base)
   // CHECK-NEXT:     8 |     struct NVSizeGreaterThanDSize::A (base) (empty)
   // CHECK-NEXT:     8 |     char c
   // CHECK-NEXT:    16 |   struct NVSizeGreaterThanDSize::V (virtual base)
   // CHECK-NEXT:    16 |     int n
   // CHECK-NEXT:       | [sizeof=24, dsize=20, align=8,
   // CHECK-NEXT:       |  nvsize=16, nvalign=8]

   struct D : virtual V {
     [[no_unique_address]] B b;
   };
   static_assert(sizeof(D) == 24);

   // CHECK:*** Dumping AST Record Layout
   // CHECK:          0 | struct NVSizeGreaterThanDSize::D
   // CHECK-NEXT:     0 |   (D vtable pointer)
   // CHECK-NEXT:     8 |   struct NVSizeGreaterThanDSize::B b
   // CHECK-NEXT:     8 |     struct NVSizeGreaterThanDSize::A (base) (empty)
   // CHECK-NEXT:     8 |     char c
   // CHECK-NEXT:    16 |   struct NVSizeGreaterThanDSize::V (virtual base)
   // CHECK-NEXT:    16 |     int n
   // CHECK-NEXT:       | [sizeof=24, dsize=20, align=8,
   // CHECK-NEXT:       |  nvsize=16, nvalign=8]

   struct X : virtual A { [[no_unique_address]] A a; };
   struct E : virtual A {
     [[no_unique_address]] A a;
     // Here, we arrange for X to hang over the end of the nvsize of E. This
     // should force the A vbase to be laid out at offset 24, not 16.
     [[no_unique_address]] X x;
   };
   static_assert(sizeof(E) == 32);

   // CHECK:*** Dumping AST Record Layout
   // CHECK:          0 | struct NVSizeGreaterThanDSize::E
   // CHECK-NEXT:     0 |   (E vtable pointer)
   // CHECK-NEXT:     0 |   struct NVSizeGreaterThanDSize::A a (empty)
   // CHECK-NEXT:     8 |   struct NVSizeGreaterThanDSize::X x
   // CHECK-NEXT:     8 |     (X vtable pointer)
   // CHECK-NEXT:     8 |     struct NVSizeGreaterThanDSize::A a (empty)
   // CHECK-NEXT:    16 |     struct NVSizeGreaterThanDSize::A (virtual base) (empty)
   // CHECK-NEXT:    24 |   struct NVSizeGreaterThanDSize::A (virtual base) (empty)
   // CHECK-NEXT:       | [sizeof=32, dsize=16, align=8,
   // CHECK-NEXT:       |  nvsize=16, nvalign=8]
 }

 namespace RepeatedVBase {
   struct alignas(16) A { ~A(); };
   struct B : A {};
   struct X : virtual A, virtual B {};
   struct Y { [[no_unique_address]] X x; char c; };
   static_assert(sizeof(Y) == 32);

   // CHECK:*** Dumping AST Record Layout
   // CHECK:          0 | struct RepeatedVBase::Y
   // CHECK-NEXT:     0 |   struct RepeatedVBase::X x
   // CHECK-NEXT:     0 |     (X vtable pointer)
   // CHECK-NEXT:     0 |     struct RepeatedVBase::A (virtual base) (empty)
   // CHECK-NEXT:    16 |     struct RepeatedVBase::B (virtual base) (empty)
   // CHECK-NEXT:    16 |       struct RepeatedVBase::A (base) (empty)
   // CHECK-NEXT:     8 |     char c
   // CHECK-NEXT:       | [sizeof=32, dsize=9, align=16,
   // CHECK-NEXT:       |  nvsize=9, nvalign=16]
 }
	// RUN: %clang_cc1 -std=c++2a -fsyntax-only -triple x86_64-linux-gnu -fdump-record-layouts %s \| FileCheck %s

	namespace Empty {
	struct A {};
	struct B { [[no_unique_address]] A a; char b; };
	static_assert(sizeof(B) == 1);

	// CHECK:*** Dumping AST Record Layout
	// CHECK: 0 \| struct Empty::B
	// CHECK-NEXT: 0 \| struct Empty::A a (empty)
	// CHECK-NEXT: 0 \| char b
	// CHECK-NEXT: \| [sizeof=1, dsize=1, align=1,
	// CHECK-NEXT: \| nvsize=1, nvalign=1]

	struct C {};
	struct D {
	[[no_unique_address]] A a;
	[[no_unique_address]] C c;
	char d;
	};
	static_assert(sizeof(D) == 1);

	// CHECK:*** Dumping AST Record Layout
	// CHECK: 0 \| struct Empty::D
	// CHECK-NEXT: 0 \| struct Empty::A a (empty)
	// CHECK-NEXT: 0 \| struct Empty::C c (empty)
	// CHECK-NEXT: 0 \| char d
	// CHECK-NEXT: \| [sizeof=1, dsize=1, align=1,
	// CHECK-NEXT: \| nvsize=1, nvalign=1]

	struct E {
	[[no_unique_address]] A a1;
	[[no_unique_address]] A a2;
	char e;
	};
	static_assert(sizeof(E) == 2);

	// CHECK:*** Dumping AST Record Layout
	// CHECK: 0 \| struct Empty::E
	// CHECK-NEXT: 0 \| struct Empty::A a1 (empty)
	// CHECK-NEXT: 1 \| struct Empty::A a2 (empty)
	// CHECK-NEXT: 0 \| char e
	// CHECK-NEXT: \| [sizeof=2, dsize=2, align=1,
	// CHECK-NEXT: \| nvsize=2, nvalign=1]

	struct F {
	~F();
	[[no_unique_address]] A a1;
	[[no_unique_address]] A a2;
	char f;
	};
	static_assert(sizeof(F) == 2);

	// CHECK:*** Dumping AST Record Layout
	// CHECK: 0 \| struct Empty::F
	// CHECK-NEXT: 0 \| struct Empty::A a1 (empty)
	// CHECK-NEXT: 1 \| struct Empty::A a2 (empty)
	// CHECK-NEXT: 0 \| char f
	// CHECK-NEXT: \| [sizeof=2, dsize=1, align=1,
	// CHECK-NEXT: \| nvsize=2, nvalign=1]

	struct G { [[no_unique_address]] A a; ~G(); };
	static_assert(sizeof(G) == 1);

	// CHECK:*** Dumping AST Record Layout
	// CHECK: 0 \| struct Empty::G
	// CHECK-NEXT: 0 \| struct Empty::A a (empty)
	// CHECK-NEXT: \| [sizeof=1, dsize=0, align=1,
	// CHECK-NEXT: \| nvsize=1, nvalign=1]

	struct H { [[no_unique_address]] A a, b; ~H(); };
	static_assert(sizeof(H) == 2);

	// CHECK:*** Dumping AST Record Layout
	// CHECK: 0 \| struct Empty::H
	// CHECK-NEXT: 0 \| struct Empty::A a (empty)
	// CHECK-NEXT: 1 \| struct Empty::A b (empty)
	// CHECK-NEXT: \| [sizeof=2, dsize=0, align=1,
	// CHECK-NEXT: \| nvsize=2, nvalign=1]

	struct OversizedEmpty : A {
	~OversizedEmpty();
	[[no_unique_address]] A a;
	};
	static_assert(sizeof(OversizedEmpty) == 2);

	// CHECK:*** Dumping AST Record Layout
	// CHECK: 0 \| struct Empty::OversizedEmpty
	// CHECK-NEXT: 0 \| struct Empty::A (base) (empty)
	// CHECK-NEXT: 1 \| struct Empty::A a (empty)
	// CHECK-NEXT: \| [sizeof=2, dsize=0, align=1,
	// CHECK-NEXT: \| nvsize=2, nvalign=1]

	struct HasOversizedEmpty {
	[[no_unique_address]] OversizedEmpty m;
	};
	static_assert(sizeof(HasOversizedEmpty) == 2);

	// CHECK:*** Dumping AST Record Layout
	// CHECK: 0 \| struct Empty::HasOversizedEmpty
	// CHECK-NEXT: 0 \| struct Empty::OversizedEmpty m (empty)
	// CHECK-NEXT: 0 \| struct Empty::A (base) (empty)
	// CHECK-NEXT: 1 \| struct Empty::A a (empty)
	// CHECK-NEXT: \| [sizeof=2, dsize=0, align=1,
	// CHECK-NEXT: \| nvsize=2, nvalign=1]

	struct EmptyWithNonzeroDSize {
	[[no_unique_address]] A a;
	int x;
	[[no_unique_address]] A b;
	int y;
	[[no_unique_address]] A c;
	};
	static_assert(sizeof(EmptyWithNonzeroDSize) == 12);

	// CHECK:*** Dumping AST Record Layout
	// CHECK: 0 \| struct Empty::EmptyWithNonzeroDSize
	// CHECK-NEXT: 0 \| struct Empty::A a (empty)
	// CHECK-NEXT: 0 \| int x
	// CHECK-NEXT: 4 \| struct Empty::A b (empty)
	// CHECK-NEXT: 4 \| int y
	// CHECK-NEXT: 8 \| struct Empty::A c (empty)
	// CHECK-NEXT: \| [sizeof=12, dsize=12, align=4,
	// CHECK-NEXT: \| nvsize=12, nvalign=4]

	struct EmptyWithNonzeroDSizeNonPOD {
	~EmptyWithNonzeroDSizeNonPOD();
	[[no_unique_address]] A a;
	int x;
	[[no_unique_address]] A b;
	int y;
	[[no_unique_address]] A c;
	};
	static_assert(sizeof(EmptyWithNonzeroDSizeNonPOD) == 12);

	// CHECK:*** Dumping AST Record Layout
	// CHECK: 0 \| struct Empty::EmptyWithNonzeroDSizeNonPOD
	// CHECK-NEXT: 0 \| struct Empty::A a (empty)
	// CHECK-NEXT: 0 \| int x
	// CHECK-NEXT: 4 \| struct Empty::A b (empty)
	// CHECK-NEXT: 4 \| int y
	// CHECK-NEXT: 8 \| struct Empty::A c (empty)
	// CHECK-NEXT: \| [sizeof=12, dsize=8, align=4,
	// CHECK-NEXT: \| nvsize=9, nvalign=4]
	}

	namespace POD {
	// Cannot reuse tail padding of a PDO type.
	struct A { int n; char c[3]; };
	struct B { [[no_unique_address]] A a; char d; };
	static_assert(sizeof(B) == 12);

	// CHECK:*** Dumping AST Record Layout
	// CHECK: 0 \| struct POD::B
	// CHECK-NEXT: 0 \| struct POD::A a
	// CHECK-NEXT: 0 \| int n
	// CHECK-NEXT: 4 \| char [3] c
	// CHECK-NEXT: 8 \| char d
	// CHECK-NEXT: \| [sizeof=12, dsize=12, align=4,
	// CHECK-NEXT: \| nvsize=12, nvalign=4]
	}

	namespace NonPOD {
	struct A { int n; char c[3]; ~A(); };
	struct B { [[no_unique_address]] A a; char d; };
	static_assert(sizeof(B) == 8);

	// CHECK:*** Dumping AST Record Layout
	// CHECK: 0 \| struct NonPOD::B
	// CHECK-NEXT: 0 \| struct NonPOD::A a
	// CHECK-NEXT: 0 \| int n
	// CHECK-NEXT: 4 \| char [3] c
	// CHECK-NEXT: 7 \| char d
	// CHECK-NEXT: \| [sizeof=8, dsize=8, align=4,
	// CHECK-NEXT: \| nvsize=8, nvalign=4]
	}

	namespace NVSizeGreaterThanDSize {
	// The nvsize of an object includes the complete size of its empty subobjects
	// (although it's unclear why). Ensure this corner case is handled properly.
	struct alignas(8) A { ~A(); }; // dsize 0, nvsize 0, size 8
	struct B : A { char c; }; // dsize 1, nvsize 8, size 8
	static_assert(sizeof(B) == 8);

	// CHECK:*** Dumping AST Record Layout
	// CHECK: 0 \| struct NVSizeGreaterThanDSize::B
	// CHECK-NEXT: 0 \| struct NVSizeGreaterThanDSize::A (base) (empty)
	// CHECK-NEXT: 0 \| char c
	// CHECK-NEXT: \| [sizeof=8, dsize=1, align=8,
	// CHECK-NEXT: \| nvsize=8, nvalign=8]

	struct V { int n; };

	// V is at offset 16, not offset 12, because B's tail padding is strangely not
	// usable for virtual bases.
	struct C : B, virtual V {};
	static_assert(sizeof(C) == 24);

	// CHECK:*** Dumping AST Record Layout
	// CHECK: 0 \| struct NVSizeGreaterThanDSize::C
	// CHECK-NEXT: 0 \| (C vtable pointer)
	// CHECK-NEXT: 8 \| struct NVSizeGreaterThanDSize::B (base)
	// CHECK-NEXT: 8 \| struct NVSizeGreaterThanDSize::A (base) (empty)
	// CHECK-NEXT: 8 \| char c
	// CHECK-NEXT: 16 \| struct NVSizeGreaterThanDSize::V (virtual base)
	// CHECK-NEXT: 16 \| int n
	// CHECK-NEXT: \| [sizeof=24, dsize=20, align=8,
	// CHECK-NEXT: \| nvsize=16, nvalign=8]

	struct D : virtual V {
	[[no_unique_address]] B b;
	};
	static_assert(sizeof(D) == 24);

	// CHECK:*** Dumping AST Record Layout
	// CHECK: 0 \| struct NVSizeGreaterThanDSize::D
	// CHECK-NEXT: 0 \| (D vtable pointer)
	// CHECK-NEXT: 8 \| struct NVSizeGreaterThanDSize::B b
	// CHECK-NEXT: 8 \| struct NVSizeGreaterThanDSize::A (base) (empty)
	// CHECK-NEXT: 8 \| char c
	// CHECK-NEXT: 16 \| struct NVSizeGreaterThanDSize::V (virtual base)
	// CHECK-NEXT: 16 \| int n
	// CHECK-NEXT: \| [sizeof=24, dsize=20, align=8,
	// CHECK-NEXT: \| nvsize=16, nvalign=8]

	struct X : virtual A { [[no_unique_address]] A a; };
	struct E : virtual A {
	[[no_unique_address]] A a;
	// Here, we arrange for X to hang over the end of the nvsize of E. This
	// should force the A vbase to be laid out at offset 24, not 16.
	[[no_unique_address]] X x;
	};
	static_assert(sizeof(E) == 32);

	// CHECK:*** Dumping AST Record Layout
	// CHECK: 0 \| struct NVSizeGreaterThanDSize::E
	// CHECK-NEXT: 0 \| (E vtable pointer)
	// CHECK-NEXT: 0 \| struct NVSizeGreaterThanDSize::A a (empty)
	// CHECK-NEXT: 8 \| struct NVSizeGreaterThanDSize::X x
	// CHECK-NEXT: 8 \| (X vtable pointer)
	// CHECK-NEXT: 8 \| struct NVSizeGreaterThanDSize::A a (empty)
	// CHECK-NEXT: 16 \| struct NVSizeGreaterThanDSize::A (virtual base) (empty)
	// CHECK-NEXT: 24 \| struct NVSizeGreaterThanDSize::A (virtual base) (empty)
	// CHECK-NEXT: \| [sizeof=32, dsize=16, align=8,
	// CHECK-NEXT: \| nvsize=16, nvalign=8]
	}

	namespace RepeatedVBase {
	struct alignas(16) A { ~A(); };
	struct B : A {};
	struct X : virtual A, virtual B {};
	struct Y { [[no_unique_address]] X x; char c; };
	static_assert(sizeof(Y) == 32);

	// CHECK:*** Dumping AST Record Layout
	// CHECK: 0 \| struct RepeatedVBase::Y
	// CHECK-NEXT: 0 \| struct RepeatedVBase::X x
	// CHECK-NEXT: 0 \| (X vtable pointer)
	// CHECK-NEXT: 0 \| struct RepeatedVBase::A (virtual base) (empty)
	// CHECK-NEXT: 16 \| struct RepeatedVBase::B (virtual base) (empty)
	// CHECK-NEXT: 16 \| struct RepeatedVBase::A (base) (empty)
	// CHECK-NEXT: 8 \| char c
	// CHECK-NEXT: \| [sizeof=32, dsize=9, align=16,
	// CHECK-NEXT: \| nvsize=9, nvalign=16]
	}