llvm-project/clang/test/Layout/ms-x86-primary-bases.cpp

294 lines
11 KiB
C++

// RUN: %clang_cc1 -fno-rtti -emit-llvm-only -triple i686-pc-win32 -fdump-record-layouts -fsyntax-only %s 2>/dev/null \
// RUN: | FileCheck %s --strict-whitespace
// RUN: %clang_cc1 -fno-rtti -emit-llvm-only -triple x86_64-pc-win32 -fdump-record-layouts -fsyntax-only %s 2>/dev/null \
// RUN: | FileCheck %s -check-prefix CHECK-X64 --strict-whitespace
extern "C" int printf(const char *fmt, ...);
struct B0 { int a; B0() : a(0xf00000B0) { printf("B0 = %p\n", this); } virtual void f() { printf("B0"); } };
struct B1 { int a; B1() : a(0xf00000B1) { printf("B1 = %p\n", this); } virtual void g() { printf("B1"); } };
struct B2 { int a; B2() : a(0xf00000B2) { printf("B1 = %p\n", this); } };
struct B0X { int a; B0X() : a(0xf00000B0) {} };
struct B1X { int a; B1X() : a(0xf00000B1) {} virtual void f() { printf("B0"); } };
struct B2X : virtual B1X { int a; B2X() : a(0xf00000B2) {} };
struct A : virtual B0 {
};
// CHECK-LABEL: 0 | struct A
// CHECK-NEXT: 0 | (A vbtable pointer)
// CHECK-NEXT: 4 | struct B0 (virtual base)
// CHECK-NEXT: 4 | (B0 vftable pointer)
// CHECK-NEXT: 8 | int a
// CHECK-NEXT: | [sizeof=12, align=4
// CHECK-NEXT: | nvsize=4, nvalign=4]
// CHECK-X64-LABEL: 0 | struct A
// CHECK-X64-NEXT: 0 | (A vbtable pointer)
// CHECK-X64-NEXT: 8 | struct B0 (virtual base)
// CHECK-X64-NEXT: 8 | (B0 vftable pointer)
// CHECK-X64-NEXT: 16 | int a
// CHECK-X64-NEXT: | [sizeof=24, align=8
// CHECK-X64-NEXT: | nvsize=8, nvalign=8]
struct B : virtual B0 {
virtual void f() { printf("B"); }
};
// CHECK-LABEL: 0 | struct B
// CHECK-NEXT: 0 | (B vbtable pointer)
// CHECK-NEXT: 4 | struct B0 (virtual base)
// CHECK-NEXT: 4 | (B0 vftable pointer)
// CHECK-NEXT: 8 | int a
// CHECK-NEXT: | [sizeof=12, align=4
// CHECK-NEXT: | nvsize=4, nvalign=4]
// CHECK-X64-LABEL: 0 | struct B
// CHECK-X64-NEXT: 0 | (B vbtable pointer)
// CHECK-X64-NEXT: 8 | struct B0 (virtual base)
// CHECK-X64-NEXT: 8 | (B0 vftable pointer)
// CHECK-X64-NEXT: 16 | int a
// CHECK-X64-NEXT: | [sizeof=24, align=8
// CHECK-X64-NEXT: | nvsize=8, nvalign=8]
struct C : virtual B0 {
virtual void g() { printf("A"); }
};
// CHECK-LABEL: 0 | struct C
// CHECK-NEXT: 0 | (C vftable pointer)
// CHECK-NEXT: 4 | (C vbtable pointer)
// CHECK-NEXT: 8 | struct B0 (virtual base)
// CHECK-NEXT: 8 | (B0 vftable pointer)
// CHECK-NEXT: 12 | int a
// CHECK-NEXT: | [sizeof=16, align=4
// CHECK-NEXT: | nvsize=8, nvalign=4]
// CHECK-X64-LABEL: 0 | struct C
// CHECK-X64-NEXT: 0 | (C vftable pointer)
// CHECK-X64-NEXT: 8 | (C vbtable pointer)
// CHECK-X64-NEXT: 16 | struct B0 (virtual base)
// CHECK-X64-NEXT: 16 | (B0 vftable pointer)
// CHECK-X64-NEXT: 24 | int a
// CHECK-X64-NEXT: | [sizeof=32, align=8
// CHECK-X64-NEXT: | nvsize=16, nvalign=8]
struct D : virtual B2, virtual B0 {
virtual void f() { printf("D"); }
virtual void g() { printf("D"); }
};
// CHECK-LABEL: 0 | struct D
// CHECK-NEXT: 0 | (D vftable pointer)
// CHECK-NEXT: 4 | (D vbtable pointer)
// CHECK-NEXT: 8 | struct B2 (virtual base)
// CHECK-NEXT: 8 | int a
// CHECK-NEXT: 12 | struct B0 (virtual base)
// CHECK-NEXT: 12 | (B0 vftable pointer)
// CHECK-NEXT: 16 | int a
// CHECK-NEXT: | [sizeof=20, align=4
// CHECK-NEXT: | nvsize=8, nvalign=4]
// CHECK-X64-LABEL: 0 | struct D
// CHECK-X64-NEXT: 0 | (D vftable pointer)
// CHECK-X64-NEXT: 8 | (D vbtable pointer)
// CHECK-X64-NEXT: 16 | struct B2 (virtual base)
// CHECK-X64-NEXT: 16 | int a
// CHECK-X64-NEXT: 24 | struct B0 (virtual base)
// CHECK-X64-NEXT: 24 | (B0 vftable pointer)
// CHECK-X64-NEXT: 32 | int a
// CHECK-X64-NEXT: | [sizeof=40, align=8
// CHECK-X64-NEXT: | nvsize=16, nvalign=8]
struct E : B0, virtual B1 {
virtual void f() { printf("E"); }
virtual void g() { printf("E"); }
};
// CHECK-LABEL: 0 | struct E
// CHECK-NEXT: 0 | struct B0 (primary base)
// CHECK-NEXT: 0 | (B0 vftable pointer)
// CHECK-NEXT: 4 | int a
// CHECK-NEXT: 8 | (E vbtable pointer)
// CHECK-NEXT: 12 | struct B1 (virtual base)
// CHECK-NEXT: 12 | (B1 vftable pointer)
// CHECK-NEXT: 16 | int a
// CHECK-NEXT: | [sizeof=20, align=4
// CHECK-NEXT: | nvsize=12, nvalign=4]
// CHECK-X64-LABEL: 0 | struct E
// CHECK-X64-NEXT: 0 | struct B0 (primary base)
// CHECK-X64-NEXT: 0 | (B0 vftable pointer)
// CHECK-X64-NEXT: 8 | int a
// CHECK-X64-NEXT: 16 | (E vbtable pointer)
// CHECK-X64-NEXT: 24 | struct B1 (virtual base)
// CHECK-X64-NEXT: 24 | (B1 vftable pointer)
// CHECK-X64-NEXT: 32 | int a
// CHECK-X64-NEXT: | [sizeof=40, align=8
// CHECK-X64-NEXT: | nvsize=24, nvalign=8]
struct F : virtual B0, virtual B1 {
};
// CHECK-LABEL: 0 | struct F
// CHECK-NEXT: 0 | (F vbtable pointer)
// CHECK-NEXT: 4 | struct B0 (virtual base)
// CHECK-NEXT: 4 | (B0 vftable pointer)
// CHECK-NEXT: 8 | int a
// CHECK-NEXT: 12 | struct B1 (virtual base)
// CHECK-NEXT: 12 | (B1 vftable pointer)
// CHECK-NEXT: 16 | int a
// CHECK-NEXT: | [sizeof=20, align=4
// CHECK-NEXT: | nvsize=4, nvalign=4]
// CHECK-X64-LABEL: 0 | struct F
// CHECK-X64-NEXT: 0 | (F vbtable pointer)
// CHECK-X64-NEXT: 8 | struct B0 (virtual base)
// CHECK-X64-NEXT: 8 | (B0 vftable pointer)
// CHECK-X64-NEXT: 16 | int a
// CHECK-X64-NEXT: 24 | struct B1 (virtual base)
// CHECK-X64-NEXT: 24 | (B1 vftable pointer)
// CHECK-X64-NEXT: 32 | int a
// CHECK-X64-NEXT: | [sizeof=40, align=8
// CHECK-X64-NEXT: | nvsize=8, nvalign=8]
struct AX : B0X, B1X { int a; AX() : a(0xf000000A) {} virtual void f() { printf("A"); } };
// CHECK-LABEL: 0 | struct AX
// CHECK-NEXT: 0 | struct B1X (primary base)
// CHECK-NEXT: 0 | (B1X vftable pointer)
// CHECK-NEXT: 4 | int a
// CHECK-NEXT: 8 | struct B0X (base)
// CHECK-NEXT: 8 | int a
// CHECK-NEXT: 12 | int a
// CHECK-NEXT: | [sizeof=16, align=4
// CHECK-NEXT: | nvsize=16, nvalign=4]
// CHECK-X64-LABEL: 0 | struct AX
// CHECK-X64-NEXT: 0 | struct B1X (primary base)
// CHECK-X64-NEXT: 0 | (B1X vftable pointer)
// CHECK-X64-NEXT: 8 | int a
// CHECK-X64-NEXT: 16 | struct B0X (base)
// CHECK-X64-NEXT: 16 | int a
// CHECK-X64-NEXT: 20 | int a
// CHECK-X64-NEXT: | [sizeof=24, align=8
// CHECK-X64-NEXT: | nvsize=24, nvalign=8]
struct BX : B0X, B1X { int a; BX() : a(0xf000000B) {} virtual void g() { printf("B"); } };
// CHECK-LABEL: 0 | struct BX
// CHECK-NEXT: 0 | struct B1X (primary base)
// CHECK-NEXT: 0 | (B1X vftable pointer)
// CHECK-NEXT: 4 | int a
// CHECK-NEXT: 8 | struct B0X (base)
// CHECK-NEXT: 8 | int a
// CHECK-NEXT: 12 | int a
// CHECK-NEXT: | [sizeof=16, align=4
// CHECK-NEXT: | nvsize=16, nvalign=4]
// CHECK-X64-LABEL: 0 | struct BX
// CHECK-X64-NEXT: 0 | struct B1X (primary base)
// CHECK-X64-NEXT: 0 | (B1X vftable pointer)
// CHECK-X64-NEXT: 8 | int a
// CHECK-X64-NEXT: 16 | struct B0X (base)
// CHECK-X64-NEXT: 16 | int a
// CHECK-X64-NEXT: 20 | int a
// CHECK-X64-NEXT: | [sizeof=24, align=8
// CHECK-X64-NEXT: | nvsize=24, nvalign=8]
struct CX : B0X, B2X { int a; CX() : a(0xf000000C) {} virtual void g() { printf("C"); } };
// CHECK-LABEL: 0 | struct CX
// CHECK-NEXT: 0 | (CX vftable pointer)
// CHECK-NEXT: 4 | struct B0X (base)
// CHECK-NEXT: 4 | int a
// CHECK-NEXT: 8 | struct B2X (base)
// CHECK-NEXT: 8 | (B2X vbtable pointer)
// CHECK-NEXT: 12 | int a
// CHECK-NEXT: 16 | int a
// CHECK-NEXT: 20 | struct B1X (virtual base)
// CHECK-NEXT: 20 | (B1X vftable pointer)
// CHECK-NEXT: 24 | int a
// CHECK-NEXT: | [sizeof=28, align=4
// CHECK-NEXT: | nvsize=20, nvalign=4]
// CHECK-X64-LABEL: 0 | struct CX
// CHECK-X64-NEXT: 0 | (CX vftable pointer)
// CHECK-X64-NEXT: 8 | struct B0X (base)
// CHECK-X64-NEXT: 8 | int a
// CHECK-X64-NEXT: 16 | struct B2X (base)
// CHECK-X64-NEXT: 16 | (B2X vbtable pointer)
// CHECK-X64-NEXT: 24 | int a
// CHECK-X64-NEXT: 32 | int a
// CHECK-X64-NEXT: 40 | struct B1X (virtual base)
// CHECK-X64-NEXT: 40 | (B1X vftable pointer)
// CHECK-X64-NEXT: 48 | int a
// CHECK-X64-NEXT: | [sizeof=56, align=8
// CHECK-X64-NEXT: | nvsize=40, nvalign=8]
struct DX : virtual B1X { int a; DX() : a(0xf000000D) {} virtual void f() { printf("D"); } };
// CHECK-LABEL: 0 | struct DX
// CHECK-NEXT: 0 | (DX vbtable pointer)
// CHECK-NEXT: 4 | int a
// CHECK-NEXT: 8 | (vtordisp for vbase B1X)
// CHECK-NEXT: 12 | struct B1X (virtual base)
// CHECK-NEXT: 12 | (B1X vftable pointer)
// CHECK-NEXT: 16 | int a
// CHECK-NEXT: | [sizeof=20, align=4
// CHECK-NEXT: | nvsize=8, nvalign=4]
// CHECK-X64-LABEL: 0 | struct DX
// CHECK-X64-NEXT: 0 | (DX vbtable pointer)
// CHECK-X64-NEXT: 8 | int a
// CHECK-X64-NEXT: 20 | (vtordisp for vbase B1X)
// CHECK-X64-NEXT: 24 | struct B1X (virtual base)
// CHECK-X64-NEXT: 24 | (B1X vftable pointer)
// CHECK-X64-NEXT: 32 | int a
// CHECK-X64-NEXT: | [sizeof=40, align=8
// CHECK-X64-NEXT: | nvsize=16, nvalign=8]
struct EX : virtual B1X { int a; EX() : a(0xf000000E) {} virtual void g() { printf("E"); } };
// CHECK-LABEL: 0 | struct EX
// CHECK-NEXT: 0 | (EX vftable pointer)
// CHECK-NEXT: 4 | (EX vbtable pointer)
// CHECK-NEXT: 8 | int a
// CHECK-NEXT: 12 | struct B1X (virtual base)
// CHECK-NEXT: 12 | (B1X vftable pointer)
// CHECK-NEXT: 16 | int a
// CHECK-NEXT: | [sizeof=20, align=4
// CHECK-NEXT: | nvsize=12, nvalign=4]
// CHECK-X64-LABEL: 0 | struct EX
// CHECK-X64-NEXT: 0 | (EX vftable pointer)
// CHECK-X64-NEXT: 8 | (EX vbtable pointer)
// CHECK-X64-NEXT: 16 | int a
// CHECK-X64-NEXT: 24 | struct B1X (virtual base)
// CHECK-X64-NEXT: 24 | (B1X vftable pointer)
// CHECK-X64-NEXT: 32 | int a
// CHECK-X64-NEXT: | [sizeof=40, align=8
// CHECK-X64-NEXT: | nvsize=24, nvalign=8]
struct FX : virtual B1X { int a; FX() : a(0xf000000F) {} };
// CHECK-LABEL: 0 | struct FX
// CHECK-NEXT: 0 | (FX vbtable pointer)
// CHECK-NEXT: 4 | int a
// CHECK-NEXT: 8 | struct B1X (virtual base)
// CHECK-NEXT: 8 | (B1X vftable pointer)
// CHECK-NEXT: 12 | int a
// CHECK-NEXT: | [sizeof=16, align=4
// CHECK-NEXT: | nvsize=8, nvalign=4]
// CHECK-X64-LABEL: 0 | struct FX
// CHECK-X64-NEXT: 0 | (FX vbtable pointer)
// CHECK-X64-NEXT: 8 | int a
// CHECK-X64-NEXT: 16 | struct B1X (virtual base)
// CHECK-X64-NEXT: 16 | (B1X vftable pointer)
// CHECK-X64-NEXT: 24 | int a
// CHECK-X64-NEXT: | [sizeof=32, align=8
// CHECK-X64-NEXT: | nvsize=16, nvalign=8]
int a[
sizeof(A)+
sizeof(B)+
sizeof(C)+
sizeof(D)+
sizeof(E)+
sizeof(F)+
sizeof(AX)+
sizeof(BX)+
sizeof(CX)+
sizeof(DX)+
sizeof(EX)+
sizeof(FX)];