src/third_party/llvm-project/clang/test/Layout/watchos-standard-layout.cpp - cobalt - Git at Google

 // RUN: %clang_cc1 -fsyntax-only -triple armv7k-apple-darwin-watchos -fdump-record-layouts %s | FileCheck %s

 // WatchOS, 64-bit iOS, and WebAssembly use the C++11 definition of POD to
 // determine whether we can reuse the tail padding of a struct (POD is
 // "trivially copyable and standard layout"). The definition of standard
 // layout changed some time around C++17; check that we still use the old
 // ABI rule.

 // B is not standard-layout, but it was under C++11's rule, so we pack
 // C::d into its tail padding anyway.
 struct A { int : 0; };
 struct B : A { int n; char c[3]; };
 struct C : B { char d; };
 int c = sizeof(C);
 static_assert(!__is_standard_layout(B));

 // CHECK:*** Dumping AST Record Layout
 // CHECK:          0 | struct C
 // CHECK-NEXT:     0 |   struct B (base)
 // CHECK-NEXT:     0 |     struct A (base) (empty)
 // CHECK-NEXT:   0:- |       int
 // CHECK-NEXT:     0 |     int n
 // CHECK-NEXT:     4 |     char [3] c
 // CHECK-NEXT:     8 |   char d
 // CHECK-NEXT:       | [sizeof=12, dsize=9, align=4,
 // CHECK-NEXT:       |  nvsize=9, nvalign=4]

 // F is not standard-layout due to the repeated D base class, but it was under
 // C++11's rule, so we pack G::d into its tail padding anyway.
 struct D {};
 struct E : D {};
 struct F : D, E { int n; char c[3]; };
 struct G : F { G(const G&); char d; };
 int g = sizeof(G);
 static_assert(!__is_standard_layout(F));

 // CHECK:*** Dumping AST Record Layout
 // CHECK:          0 | struct G
 // CHECK-NEXT:     0 |   struct F (base)
 // CHECK-NEXT:     0 |     struct D (base) (empty)
 // CHECK-NEXT:     1 |     struct E (base) (empty)
 // CHECK-NEXT:     1 |       struct D (base) (empty)
 // CHECK-NEXT:     0 |     int n
 // CHECK-NEXT:     4 |     char [3] c
 // CHECK-NEXT:     8 |   char d
 // CHECK-NEXT:       | [sizeof=12, dsize=9, align=4,
 // CHECK-NEXT:       |  nvsize=9, nvalign=4]
	// RUN: %clang_cc1 -fsyntax-only -triple armv7k-apple-darwin-watchos -fdump-record-layouts %s \| FileCheck %s

	// WatchOS, 64-bit iOS, and WebAssembly use the C++11 definition of POD to
	// determine whether we can reuse the tail padding of a struct (POD is
	// "trivially copyable and standard layout"). The definition of standard
	// layout changed some time around C++17; check that we still use the old
	// ABI rule.

	// B is not standard-layout, but it was under C++11's rule, so we pack
	// C::d into its tail padding anyway.
	struct A { int : 0; };
	struct B : A { int n; char c[3]; };
	struct C : B { char d; };
	int c = sizeof(C);
	static_assert(!__is_standard_layout(B));

	// CHECK:*** Dumping AST Record Layout
	// CHECK: 0 \| struct C
	// CHECK-NEXT: 0 \| struct B (base)
	// CHECK-NEXT: 0 \| struct A (base) (empty)
	// CHECK-NEXT: 0:- \| int
	// CHECK-NEXT: 0 \| int n
	// CHECK-NEXT: 4 \| char [3] c
	// CHECK-NEXT: 8 \| char d
	// CHECK-NEXT: \| [sizeof=12, dsize=9, align=4,
	// CHECK-NEXT: \| nvsize=9, nvalign=4]

	// F is not standard-layout due to the repeated D base class, but it was under
	// C++11's rule, so we pack G::d into its tail padding anyway.
	struct D {};
	struct E : D {};
	struct F : D, E { int n; char c[3]; };
	struct G : F { G(const G&); char d; };
	int g = sizeof(G);
	static_assert(!__is_standard_layout(F));

	// CHECK:*** Dumping AST Record Layout
	// CHECK: 0 \| struct G
	// CHECK-NEXT: 0 \| struct F (base)
	// CHECK-NEXT: 0 \| struct D (base) (empty)
	// CHECK-NEXT: 1 \| struct E (base) (empty)
	// CHECK-NEXT: 1 \| struct D (base) (empty)
	// CHECK-NEXT: 0 \| int n
	// CHECK-NEXT: 4 \| char [3] c
	// CHECK-NEXT: 8 \| char d
	// CHECK-NEXT: \| [sizeof=12, dsize=9, align=4,
	// CHECK-NEXT: \| nvsize=9, nvalign=4]