hanchenye-llvm-project/clang/test/CodeGenCXX/microsoft-abi-vtables-multi...

610 lines
21 KiB
C++

// RUN: %clang_cc1 %s -fno-rtti -triple=i386-pc-win32 -emit-llvm -o %t.ll -fdump-vtable-layouts >%t
// RUN: FileCheck %s < %t
// RUN: FileCheck --check-prefix=MANGLING %s < %t.ll
struct Empty {
// Doesn't have a vftable!
};
struct A {
virtual void f();
};
struct B {
virtual void g();
// Add an extra virtual method so it's easier to check for the absence of thunks.
virtual void h();
};
struct C {
virtual void g(); // Might "collide" with B::g if both are bases of some class.
};
namespace no_thunks {
struct Test1: A, B {
// CHECK-LABEL:Test1' (1 entry)
// CHECK-NEXT: 0 | void no_thunks::Test1::f()
// CHECK-LABEL:Test1' (2 entries)
// CHECK-NEXT: 0 | void B::g()
// CHECK-NEXT: 1 | void B::h()
// CHECK-LABEL:Test1' (1 entry)
// CHECK-NEXT: 0 | void no_thunks::Test1::f()
// MANGLING-DAG: @"\01??_7Test1@no_thunks@@6BA@@@"
// MANGLING-DAG: @"\01??_7Test1@no_thunks@@6BB@@@"
// Overrides only the left child's method (A::f), needs no thunks.
virtual void f();
};
Test1 t1;
void use(Test1 *obj) { obj->f(); }
struct Test2: A, B {
// CHECK-LABEL: VFTable for 'A' in 'no_thunks::Test2' (1 entry)
// CHECK-NEXT: 0 | void A::f()
// CHECK-LABEL: VFTable for 'B' in 'no_thunks::Test2' (2 entries)
// CHECK-NEXT: 0 | void no_thunks::Test2::g()
// CHECK-NEXT: 1 | void B::h()
// CHECK-LABEL: VFTable indices for 'no_thunks::Test2' (1 entry).
// CHECK-NEXT: via vfptr at offset 4
// CHECK-NEXT: 0 | void no_thunks::Test2::g()
// Overrides only the right child's method (B::g), needs this adjustment but
// not thunks.
virtual void g();
};
Test2 t2;
void use(Test2 *obj) { obj->g(); }
struct Test3: A, B {
// CHECK-LABEL: VFTable for 'A' in 'no_thunks::Test3' (2 entries)
// CHECK-NEXT: 0 | void A::f()
// CHECK-NEXT: 1 | void no_thunks::Test3::i()
// CHECK-LABEL: VFTable for 'B' in 'no_thunks::Test3' (2 entries)
// CHECK-NEXT: 0 | void B::g()
// CHECK-NEXT: 1 | void B::h()
// CHECK-LABEL: VFTable indices for 'no_thunks::Test3' (1 entry).
// CHECK-NEXT: 1 | void no_thunks::Test3::i()
// Only adds a new method.
virtual void i();
};
Test3 t3;
void use(Test3 *obj) { obj->i(); }
// Only the right base has a vftable, so it's laid out before the left one!
struct Test4 : Empty, A {
// CHECK-LABEL: VFTable for 'A' in 'no_thunks::Test4' (1 entry)
// CHECK-NEXT: 0 | void no_thunks::Test4::f()
// CHECK-LABEL: VFTable indices for 'no_thunks::Test4' (1 entry).
// CHECK-NEXT: 0 | void no_thunks::Test4::f()
// MANGLING-DAG: @"\01??_7Test4@no_thunks@@6B@"
virtual void f();
};
Test4 t4;
void use(Test4 *obj) { obj->f(); }
// 2-level structure with repeating subobject types, but no thunks needed.
struct Test5: Test1, Test2 {
// CHECK-LABEL: VFTable for 'A' in 'no_thunks::Test1' in 'no_thunks::Test5' (2 entries)
// CHECK-NEXT: 0 | void no_thunks::Test1::f()
// CHECK-NEXT: 1 | void no_thunks::Test5::z()
// CHECK-LABEL: VFTable for 'B' in 'no_thunks::Test1' in 'no_thunks::Test5' (2 entries)
// CHECK-NEXT: 0 | void B::g()
// CHECK-NEXT: 1 | void B::h()
// CHECK-LABEL: VFTable for 'A' in 'no_thunks::Test2' in 'no_thunks::Test5' (1 entry)
// CHECK-NEXT: 0 | void A::f()
// CHECK-LABEL: VFTable for 'B' in 'no_thunks::Test2' in 'no_thunks::Test5' (2 entries)
// CHECK-NEXT: 0 | void no_thunks::Test2::g()
// CHECK-NEXT: 1 | void B::h()
// CHECK-LABEL: VFTable indices for 'no_thunks::Test5' (1 entry).
// CHECK-NEXT: 1 | void no_thunks::Test5::z()
// MANGLING-DAG: @"\01??_7Test5@no_thunks@@6BA@@Test1@1@@"
// MANGLING-DAG: @"\01??_7Test5@no_thunks@@6BA@@Test2@1@@"
// MANGLING-DAG: @"\01??_7Test5@no_thunks@@6BB@@Test1@1@@"
// MANGLING-DAG: @"\01??_7Test5@no_thunks@@6BB@@Test2@1@@"
virtual void z();
};
Test5 t5;
void use(Test5 *obj) { obj->z(); }
struct Test6: Test1 {
// CHECK-LABEL: VFTable for 'A' in 'no_thunks::Test1' in 'no_thunks::Test6' (1 entry).
// CHECK-NEXT: 0 | void no_thunks::Test6::f()
// CHECK-LABEL: VFTable for 'B' in 'no_thunks::Test1' in 'no_thunks::Test6' (2 entries).
// CHECK-NEXT: 0 | void B::g()
// CHECK-NEXT: 1 | void B::h()
// CHECK-LABEL: VFTable indices for 'no_thunks::Test6' (1 entry).
// CHECK-NEXT: 0 | void no_thunks::Test6::f()
// MANGLING-DAG: @"\01??_7Test6@no_thunks@@6BA@@@"
// MANGLING-DAG: @"\01??_7Test6@no_thunks@@6BB@@@"
// Overrides both no_thunks::Test1::f and A::f.
virtual void f();
};
Test6 t6;
void use(Test6 *obj) { obj->f(); }
struct Test7: Test2 {
// CHECK-LABEL: VFTable for 'A' in 'no_thunks::Test2' in 'no_thunks::Test7' (1 entry).
// CHECK-NEXT: 0 | void A::f()
// CHECK-LABEL: VFTable for 'B' in 'no_thunks::Test2' in 'no_thunks::Test7' (2 entries).
// CHECK-NEXT: 0 | void no_thunks::Test7::g()
// CHECK-NEXT: 1 | void B::h()
// CHECK-LABEL: VFTable indices for 'no_thunks::Test7' (1 entry).
// CHECK-NEXT: via vfptr at offset 4
// CHECK-NEXT: 0 | void no_thunks::Test7::g()
// Overrides both no_thunks::Test2::g and B::g.
virtual void g();
};
Test7 t7;
void use(Test7 *obj) { obj->g(); }
struct Test8: Test3 {
// CHECK-LABEL: VFTable for 'A' in 'no_thunks::Test3' in 'no_thunks::Test8' (2 entries).
// CHECK-NEXT: 0 | void A::f()
// CHECK-NEXT: 1 | void no_thunks::Test3::i()
// CHECK-LABEL: VFTable for 'B' in 'no_thunks::Test3' in 'no_thunks::Test8' (2 entries).
// CHECK-NEXT: 0 | void no_thunks::Test8::g()
// CHECK-NEXT: 1 | void B::h()
// CHECK-LABEL: VFTable indices for 'no_thunks::Test8' (1 entry).
// CHECK-NEXT: via vfptr at offset 4
// CHECK-NEXT: 0 | void no_thunks::Test8::g()
// Overrides grandparent's B::g.
virtual void g();
};
Test8 t8;
void use(Test8 *obj) { obj->g(); }
struct D : A {
virtual void g();
};
// Repeating subobject.
struct Test9: A, D {
// CHECK-LABEL: VFTable for 'A' in 'no_thunks::Test9' (2 entries).
// CHECK-NEXT: 0 | void A::f()
// CHECK-NEXT: 1 | void no_thunks::Test9::h()
// CHECK-LABEL: VFTable for 'A' in 'no_thunks::D' in 'no_thunks::Test9' (2 entries).
// CHECK-NEXT: 0 | void A::f()
// CHECK-NEXT: 1 | void no_thunks::D::g()
// CHECK-LABEL: VFTable indices for 'no_thunks::Test9' (1 entry).
// CHECK-NEXT: 1 | void no_thunks::Test9::h()
// MANGLING-DAG: @"\01??_7Test9@no_thunks@@6BA@@@"
// MANGLING-DAG: @"\01??_7Test9@no_thunks@@6BD@1@@"
virtual void h();
};
Test9 t9;
void use(Test9 *obj) { obj->h(); }
}
namespace pure_virtual {
struct D {
virtual void g() = 0;
virtual void h();
};
struct Test1: A, D {
// CHECK: VFTable for 'A' in 'pure_virtual::Test1' (1 entry)
// CHECK-NEXT: 0 | void A::f()
// CHECK: VFTable for 'pure_virtual::D' in 'pure_virtual::Test1' (2 entries)
// CHECK-NEXT: 0 | void pure_virtual::Test1::g()
// CHECK-NEXT: 1 | void pure_virtual::D::h()
// CHECK: VFTable indices for 'pure_virtual::Test1' (1 entry).
// CHECK-NEXT: via vfptr at offset 4
// CHECK-NEXT: 0 | void pure_virtual::Test1::g()
// MANGLING-DAG: @"\01??_7Test1@pure_virtual@@6BA@@@"
// MANGLING-DAG: @"\01??_7Test1@pure_virtual@@6BD@1@@"
// Overrides only the right child's method (pure_virtual::D::g), needs this adjustment but
// not thunks.
virtual void g();
};
Test1 t1;
void use(Test1 *obj) { obj->g(); }
}
namespace this_adjustment {
// Overrides methods of two bases at the same time, thus needing thunks.
struct Test1 : B, C {
// CHECK-LABEL: VFTable for 'B' in 'this_adjustment::Test1' (2 entries).
// CHECK-NEXT: 0 | void this_adjustment::Test1::g()
// CHECK-NEXT: 1 | void B::h()
// CHECK-LABEL: VFTable for 'C' in 'this_adjustment::Test1' (1 entry).
// CHECK-NEXT: 0 | void this_adjustment::Test1::g()
// CHECK-NEXT: [this adjustment: -4 non-virtual]
// CHECK-LABEL: Thunks for 'void this_adjustment::Test1::g()' (1 entry).
// CHECK-NEXT: 0 | [this adjustment: -4 non-virtual]
// CHECK-LABEL: VFTable indices for 'this_adjustment::Test1' (1 entry).
// CHECK-NEXT: 0 | void this_adjustment::Test1::g()
// MANGLING-DAG: @"\01??_7Test1@this_adjustment@@6BB@@@"
// MANGLING-DAG: @"\01??_7Test1@this_adjustment@@6BC@@@"
virtual void g();
};
Test1 t1;
void use(Test1 *obj) { obj->g(); }
struct Test2 : A, B, C {
// CHECK-LABEL: VFTable for 'A' in 'this_adjustment::Test2' (1 entry).
// CHECK-NEXT: 0 | void A::f()
// CHECK-LABEL: VFTable for 'B' in 'this_adjustment::Test2' (2 entries).
// CHECK-NEXT: 0 | void this_adjustment::Test2::g()
// CHECK-NEXT: 1 | void B::h()
// CHECK-LABEL: VFTable for 'C' in 'this_adjustment::Test2' (1 entry).
// CHECK-NEXT: 0 | void this_adjustment::Test2::g()
// CHECK-NEXT: [this adjustment: -4 non-virtual]
// CHECK-LABEL: Thunks for 'void this_adjustment::Test2::g()' (1 entry).
// CHECK-NEXT: 0 | [this adjustment: -4 non-virtual]
// CHECK-LABEL: VFTable indices for 'this_adjustment::Test2' (1 entry).
// CHECK-NEXT: via vfptr at offset 4
// CHECK-NEXT: 0 | void this_adjustment::Test2::g()
// MANGLING-DAG: @"\01??_7Test2@this_adjustment@@6BA@@@"
// MANGLING-DAG: @"\01??_7Test2@this_adjustment@@6BB@@@"
// MANGLING-DAG: @"\01??_7Test2@this_adjustment@@6BC@@@"
virtual void g();
};
Test2 t2;
void use(Test2 *obj) { obj->g(); }
// Overrides methods of two bases at the same time, thus needing thunks.
struct Test3: no_thunks::Test1, no_thunks::Test2 {
// CHECK-LABEL: VFTable for 'A' in 'no_thunks::Test1' in 'this_adjustment::Test3' (1 entry).
// CHECK-NEXT: 0 | void this_adjustment::Test3::f()
// CHECK-LABEL: VFTable for 'B' in 'no_thunks::Test1' in 'this_adjustment::Test3' (2 entries).
// CHECK-NEXT: 0 | void this_adjustment::Test3::g()
// CHECK-NEXT: 1 | void B::h()
// CHECK-LABEL: VFTable for 'A' in 'no_thunks::Test2' in 'this_adjustment::Test3' (1 entry).
// CHECK-NEXT: 0 | void this_adjustment::Test3::f()
// CHECK-NEXT: [this adjustment: -8 non-virtual]
// CHECK-LABEL: Thunks for 'void this_adjustment::Test3::f()' (1 entry).
// CHECK-NEXT: 0 | [this adjustment: -8 non-virtual]
// CHECK-LABEL: VFTable for 'B' in 'no_thunks::Test2' in 'this_adjustment::Test3' (2 entries).
// CHECK-NEXT: 0 | void this_adjustment::Test3::g()
// CHECK-NEXT: [this adjustment: -8 non-virtual]
// CHECK-NEXT: 1 | void B::h()
// CHECK-LABEL: Thunks for 'void this_adjustment::Test3::g()' (1 entry).
// CHECK-NEXT: 0 | [this adjustment: -8 non-virtual]
// CHECK-LABEL: VFTable indices for 'this_adjustment::Test3' (2 entries).
// CHECK-NEXT: via vfptr at offset 0
// CHECK-NEXT: 0 | void this_adjustment::Test3::f()
// CHECK-NEXT: via vfptr at offset 4
// CHECK-NEXT: 0 | void this_adjustment::Test3::g()
virtual void f();
virtual void g();
};
Test3 t3;
void use(Test3 *obj) { obj->g(); }
}
namespace vdtor {
struct Test1 {
virtual ~Test1();
virtual void z1();
};
struct Test2 {
virtual ~Test2();
};
struct Test3 : Test1, Test2 {
// CHECK-LABEL: VFTable for 'vdtor::Test1' in 'vdtor::Test3' (2 entries).
// CHECK-NEXT: 0 | vdtor::Test3::~Test3() [scalar deleting]
// CHECK-NEXT: 1 | void vdtor::Test1::z1()
// CHECK-LABEL: VFTable for 'vdtor::Test2' in 'vdtor::Test3' (1 entry).
// CHECK-NEXT: 0 | vdtor::Test3::~Test3() [scalar deleting]
// CHECK-NEXT: [this adjustment: -4 non-virtual]
// CHECK-LABEL: Thunks for 'vdtor::Test3::~Test3()' (1 entry).
// CHECK-NEXT: 0 | [this adjustment: -4 non-virtual]
// CHECK-LABEL: VFTable indices for 'vdtor::Test3' (1 entry).
// CHECK-NEXT: 0 | vdtor::Test3::~Test3() [scalar deleting]
virtual ~Test3();
};
Test3 t3;
void use(Test3 *obj) { delete obj; }
struct Test4 {
// No virtual destructor here!
virtual void z4();
};
struct Test5 : Test4, Test2 {
// Implicit virtual dtor here!
// CHECK-LABEL: VFTable for 'vdtor::Test4' in 'vdtor::Test5' (1 entry).
// CHECK-NEXT: 0 | void vdtor::Test4::z4()
// CHECK-LABEL: VFTable for 'vdtor::Test2' in 'vdtor::Test5' (1 entry).
// CHECK-NEXT: 0 | vdtor::Test5::~Test5() [scalar deleting]
// CHECK-NEXT: [this adjustment: -4 non-virtual]
// CHECK-LABEL: Thunks for 'vdtor::Test5::~Test5()' (1 entry).
// CHECK-NEXT: 0 | [this adjustment: -4 non-virtual]
// CHECK-LABEL: VFTable indices for 'vdtor::Test5' (1 entry).
// CHECK-NEXT: -- accessible via vfptr at offset 4 --
// CHECK-NEXT: 0 | vdtor::Test5::~Test5() [scalar deleting]
};
Test5 t5;
void use(Test5 *obj) { delete obj; }
struct Test6 : Test4, Test2 {
// Implicit virtual dtor here!
// CHECK-LABEL: VFTable for 'vdtor::Test4' in 'vdtor::Test6' (1 entry).
// CHECK-NEXT: 0 | void vdtor::Test4::z4()
// CHECK-LABEL: VFTable for 'vdtor::Test2' in 'vdtor::Test6' (1 entry).
// CHECK-NEXT: 0 | vdtor::Test6::~Test6() [scalar deleting]
// CHECK-NEXT: [this adjustment: -4 non-virtual]
// CHECK-LABEL: Thunks for 'vdtor::Test6::~Test6()' (1 entry).
// CHECK-NEXT: 0 | [this adjustment: -4 non-virtual]
// CHECK-LABEL: VFTable indices for 'vdtor::Test6' (1 entry).
// CHECK-NEXT: -- accessible via vfptr at offset 4 --
// CHECK-NEXT: 0 | vdtor::Test6::~Test6() [scalar deleting]
};
Test6 t6;
void use(Test6 *obj) { delete obj; }
struct Test7 : Test5 {
// CHECK-LABEL: VFTable for 'vdtor::Test4' in 'vdtor::Test5' in 'vdtor::Test7' (1 entry).
// CHECK-NEXT: 0 | void vdtor::Test4::z4()
// CHECK-LABEL: VFTable for 'vdtor::Test2' in 'vdtor::Test5' in 'vdtor::Test7' (1 entry).
// CHECK-NEXT: 0 | vdtor::Test7::~Test7() [scalar deleting]
// CHECK-NEXT: [this adjustment: -4 non-virtual]
// CHECK-LABEL: Thunks for 'vdtor::Test7::~Test7()' (1 entry).
// CHECK-NEXT: 0 | [this adjustment: -4 non-virtual]
// CHECK-LABEL: VFTable indices for 'vdtor::Test7' (1 entry).
// CHECK-NEXT: -- accessible via vfptr at offset 4 --
// CHECK-NEXT: 0 | vdtor::Test7::~Test7() [scalar deleting]
virtual ~Test7();
};
Test7 t7;
void use(Test7 *obj) { delete obj; }
}
namespace return_adjustment {
struct Ret1 {
virtual C* foo();
virtual void z();
};
struct Test1 : Ret1 {
// CHECK-LABEL: VFTable for 'return_adjustment::Ret1' in 'return_adjustment::Test1' (3 entries).
// CHECK-NEXT: 0 | this_adjustment::Test1 *return_adjustment::Test1::foo()
// CHECK-NEXT: [return adjustment (to type 'struct C *'): 4 non-virtual]
// CHECK-NEXT: 1 | void return_adjustment::Ret1::z()
// CHECK-NEXT: 2 | this_adjustment::Test1 *return_adjustment::Test1::foo()
// CHECK-LABEL: Thunks for 'this_adjustment::Test1 *return_adjustment::Test1::foo()' (1 entry).
// CHECK-NEXT: 0 | [return adjustment (to type 'struct C *'): 4 non-virtual]
// CHECK-LABEL: VFTable indices for 'return_adjustment::Test1' (1 entry).
// CHECK-NEXT: 2 | this_adjustment::Test1 *return_adjustment::Test1::foo()
// MANGLING-DAG: @"\01??_7Test1@return_adjustment@@6B@"
virtual this_adjustment::Test1* foo();
};
Test1 t1;
void use(Test1 *obj) { obj->foo(); }
struct Ret2 : B, this_adjustment::Test1 { };
struct Test2 : Test1 {
// CHECK-LABEL: VFTable for 'return_adjustment::Ret1' in 'return_adjustment::Test1' in 'return_adjustment::Test2' (4 entries).
// CHECK-NEXT: 0 | return_adjustment::Ret2 *return_adjustment::Test2::foo()
// CHECK-NEXT: [return adjustment (to type 'struct C *'): 8 non-virtual]
// CHECK-NEXT: 1 | void return_adjustment::Ret1::z()
// CHECK-NEXT: 2 | return_adjustment::Ret2 *return_adjustment::Test2::foo()
// CHECK-NEXT: [return adjustment (to type 'struct this_adjustment::Test1 *'): 4 non-virtual]
// CHECK-NEXT: 3 | return_adjustment::Ret2 *return_adjustment::Test2::foo()
// CHECK-LABEL: Thunks for 'return_adjustment::Ret2 *return_adjustment::Test2::foo()' (2 entries).
// CHECK-NEXT: 0 | [return adjustment (to type 'struct this_adjustment::Test1 *'): 4 non-virtual]
// CHECK-NEXT: 1 | [return adjustment (to type 'struct C *'): 8 non-virtual]
// CHECK-LABEL: VFTable indices for 'return_adjustment::Test2' (1 entry).
// CHECK-NEXT: 3 | return_adjustment::Ret2 *return_adjustment::Test2::foo()
virtual Ret2* foo();
};
Test2 t2;
void use(Test2 *obj) { obj->foo(); }
struct Test3: B, Ret1 {
// CHECK-LABEL: VFTable for 'B' in 'return_adjustment::Test3' (2 entries).
// CHECK-NEXT: 0 | void B::g()
// CHECK-NEXT: 1 | void B::h()
// CHECK-LABEL: VFTable for 'return_adjustment::Ret1' in 'return_adjustment::Test3' (3 entries).
// CHECK-NEXT: 0 | this_adjustment::Test1 *return_adjustment::Test3::foo()
// CHECK-NEXT: [return adjustment (to type 'struct C *'): 4 non-virtual]
// CHECK-NEXT: 1 | void return_adjustment::Ret1::z()
// CHECK-NEXT: 2 | this_adjustment::Test1 *return_adjustment::Test3::foo()
// CHECK-LABEL: Thunks for 'this_adjustment::Test1 *return_adjustment::Test3::foo()' (1 entry).
// CHECK-NEXT: 0 | [return adjustment (to type 'struct C *'): 4 non-virtual]
// CHECK-LABEL: VFTable indices for 'return_adjustment::Test3' (1 entry).
// CHECK-NEXT: via vfptr at offset 4
// CHECK-NEXT: 2 | this_adjustment::Test1 *return_adjustment::Test3::foo()
virtual this_adjustment::Test1* foo();
};
Test3 t3;
void use(Test3 *obj) { obj->foo(); }
struct Test4 : Test3 {
// CHECK-LABEL: VFTable for 'B' in 'return_adjustment::Test3' in 'return_adjustment::Test4' (2 entries).
// CHECK-NEXT: 0 | void B::g()
// CHECK-NEXT: 1 | void B::h()
// CHECK-LABEL: VFTable for 'return_adjustment::Ret1' in 'return_adjustment::Test3' in 'return_adjustment::Test4' (4 entries).
// CHECK-NEXT: 0 | return_adjustment::Ret2 *return_adjustment::Test4::foo()
// CHECK-NEXT: [return adjustment (to type 'struct C *'): 8 non-virtual]
// CHECK-NEXT: 1 | void return_adjustment::Ret1::z()
// CHECK-NEXT: 2 | return_adjustment::Ret2 *return_adjustment::Test4::foo()
// CHECK-NEXT: [return adjustment (to type 'struct this_adjustment::Test1 *'): 4 non-virtual]
// CHECK-NEXT: 3 | return_adjustment::Ret2 *return_adjustment::Test4::foo()
// CHECK-LABEL: Thunks for 'return_adjustment::Ret2 *return_adjustment::Test4::foo()' (2 entries).
// CHECK-NEXT: 0 | [return adjustment (to type 'struct this_adjustment::Test1 *'): 4 non-virtual]
// CHECK-NEXT: 1 | [return adjustment (to type 'struct C *'): 8 non-virtual]
// CHECK-LABEL: VFTable indices for 'return_adjustment::Test4' (1 entry).
// CHECK-NEXT: -- accessible via vfptr at offset 4 --
// CHECK-NEXT: 3 | return_adjustment::Ret2 *return_adjustment::Test4::foo()
virtual Ret2* foo();
};
Test4 t4;
void use(Test4 *obj) { obj->foo(); }
struct Test5 : Ret1, Test1 {
// CHECK-LABEL: VFTable for 'return_adjustment::Ret1' in 'return_adjustment::Test5' (3 entries).
// CHECK-NEXT: 0 | return_adjustment::Ret2 *return_adjustment::Test5::foo()
// CHECK-NEXT: [return adjustment (to type 'struct C *'): 8 non-virtual]
// CHECK-NEXT: 1 | void return_adjustment::Ret1::z()
// CHECK-NEXT: 2 | return_adjustment::Ret2 *return_adjustment::Test5::foo()
// CHECK-LABEL: Thunks for 'return_adjustment::Ret2 *return_adjustment::Test5::foo()' (1 entry).
// CHECK-NEXT: 0 | [return adjustment (to type 'struct C *'): 8 non-virtual]
// CHECK-LABEL: VFTable for 'return_adjustment::Ret1' in 'return_adjustment::Test1' in 'return_adjustment::Test5' (4 entries).
// CHECK-NEXT: 0 | return_adjustment::Ret2 *return_adjustment::Test5::foo()
// CHECK-NEXT: [return adjustment (to type 'struct C *'): 8 non-virtual]
// CHECK-NEXT: [this adjustment: -4 non-virtual]
// CHECK-NEXT: 1 | void return_adjustment::Ret1::z()
// CHECK-NEXT: 2 | return_adjustment::Ret2 *return_adjustment::Test5::foo()
// CHECK-NEXT: [return adjustment (to type 'struct this_adjustment::Test1 *'): 4 non-virtual]
// CHECK-NEXT: [this adjustment: -4 non-virtual]
// CHECK-NEXT: 3 | return_adjustment::Ret2 *return_adjustment::Test5::foo()
// CHECK-NEXT: [return adjustment (to type 'struct return_adjustment::Ret2 *'): 0 non-virtual]
// CHECK-NEXT: [this adjustment: -4 non-virtual]
// CHECK-LABEL: Thunks for 'return_adjustment::Ret2 *return_adjustment::Test5::foo()' (3 entries).
// CHECK-NEXT: 0 | [return adjustment (to type 'struct return_adjustment::Ret2 *'): 0 non-virtual]
// CHECK-NEXT: [this adjustment: -4 non-virtual]
// CHECK-NEXT: 1 | [return adjustment (to type 'struct this_adjustment::Test1 *'): 4 non-virtual]
// CHECK-NEXT: [this adjustment: -4 non-virtual]
// CHECK-NEXT: 2 | [return adjustment (to type 'struct C *'): 8 non-virtual]
// CHECK-NEXT: [this adjustment: -4 non-virtual]
// CHECK-LABEL: VFTable indices for 'return_adjustment::Test5' (1 entry).
// CHECK-NEXT: 2 | return_adjustment::Ret2 *return_adjustment::Test5::foo()
virtual Ret2* foo();
};
Test5 t5;
void use(Test5 *obj) { obj->foo(); }
struct Ret3 : this_adjustment::Test1 { };
struct Test6 : Test1 {
virtual Ret3* foo();
// CHECK-LABEL: VFTable for 'return_adjustment::Ret1' in 'return_adjustment::Test1' in 'return_adjustment::Test6' (4 entries).
// CHECK-NEXT: 0 | return_adjustment::Ret3 *return_adjustment::Test6::foo()
// CHECK-NEXT: [return adjustment (to type 'struct C *'): 4 non-virtual]
// CHECK-NEXT: 1 | void return_adjustment::Ret1::z()
// CHECK-NEXT: 2 | return_adjustment::Ret3 *return_adjustment::Test6::foo()
// CHECK-NEXT: [return adjustment (to type 'struct this_adjustment::Test1 *'): 0 non-virtual]
// CHECK-NEXT: 3 | return_adjustment::Ret3 *return_adjustment::Test6::foo()
// CHECK-LABEL: Thunks for 'return_adjustment::Ret3 *return_adjustment::Test6::foo()' (2 entries).
// CHECK-NEXT: 0 | [return adjustment (to type 'struct this_adjustment::Test1 *'): 0 non-virtual]
// CHECK-NEXT: 1 | [return adjustment (to type 'struct C *'): 4 non-virtual]
// CHECK-LABEL: VFTable indices for 'return_adjustment::Test6' (1 entry).
// CHECK-NEXT: 3 | return_adjustment::Ret3 *return_adjustment::Test6::foo()
};
Test6 t6;
void use(Test6 *obj) { obj->foo(); }
}