// RUN: %clang_cc1 %s -triple=x86_64-apple-darwin10 -emit-llvm-only -fdump-vtable-layouts 2>&1 | FileCheck %s // For now, just verify this doesn't crash. namespace test0 { struct Obj {}; struct Base { virtual const Obj *foo() = 0; }; struct Derived : Base { virtual Obj *foo() { return new Obj(); } }; void test(Derived *D) { D->foo(); } } namespace Test1 { // CHECK: Vtable for 'Test1::A' (3 entries). // CHECK-NEXT: 0 | offset_to_top (0) // CHECK-NEXT: 1 | Test1::A RTTI // CHECK-NEXT: -- (Test1::A, 0) vtable address -- // CHECK-NEXT: 2 | void Test1::A::f() struct A { virtual void f(); }; void A::f() { } } namespace Test2 { // This is a smoke test of the vtable dumper. // CHECK: Vtable for 'Test2::A' (9 entries). // CHECK-NEXT: 0 | offset_to_top (0) // CHECK-NEXT: 1 | Test2::A RTTI // CHECK-NEXT: -- (Test2::A, 0) vtable address -- // CHECK-NEXT: 2 | void Test2::A::f() // CHECK-NEXT: 3 | void Test2::A::f() const // CHECK-NEXT: 4 | Test2::A *Test2::A::g(int) // CHECK-NEXT: 5 | Test2::A::~A() [complete] // CHECK-NEXT: 6 | Test2::A::~A() [deleting] // CHECK-NEXT: 7 | void Test2::A::h() // CHECK-NEXT: 8 | Test2::A &Test2::A::operator=(Test2::A const &) struct A { virtual void f(); virtual void f() const; virtual A* g(int a); virtual ~A(); virtual void h(); virtual A& operator=(const A&); }; void A::f() { } // Another simple vtable dumper test. // CHECK: Vtable for 'Test2::B' (6 entries). // CHECK-NEXT: 0 | offset_to_top (0) // CHECK-NEXT: 1 | Test2::B RTTI // CHECK-NEXT: -- (Test2::B, 0) vtable address -- // CHECK-NEXT: 2 | void Test2::B::f() // CHECK-NEXT: 3 | void Test2::B::g() [pure] // CHECK-NEXT: 4 | Test2::B::~B() [complete] [pure] // CHECK-NEXT: 5 | Test2::B::~B() [deleting] [pure] struct B { virtual void f(); virtual void g() = 0; virtual ~B() = 0; }; void B::f() { } } namespace Test3 { // If a function in a derived class overrides a function in a primary base, // then the function should not have an entry in the derived class (unless the return // value requires adjusting). // CHECK: Vtable for 'Test3::A' (3 entries). // CHECK-NEXT: 0 | offset_to_top (0) // CHECK-NEXT: 1 | Test3::A RTTI // CHECK-NEXT: -- (Test3::A, 0) vtable address -- // CHECK-NEXT: 2 | void Test3::A::f() struct A { virtual void f(); }; void A::f() { } // CHECK: Vtable for 'Test3::B' (4 entries). // CHECK-NEXT: 0 | offset_to_top (0) // CHECK-NEXT: 1 | Test3::B RTTI // CHECK-NEXT: -- (Test3::A, 0) vtable address -- // CHECK-NEXT: -- (Test3::B, 0) vtable address -- // CHECK-NEXT: 2 | void Test3::B::f() // CHECK-NEXT: 3 | void Test3::B::g() struct B : A { virtual void f(); virtual void g(); }; void B::f() { } // CHECK: Vtable for 'Test3::C' (5 entries). // CHECK-NEXT: 0 | offset_to_top (0) // CHECK-NEXT: 1 | Test3::C RTTI // CHECK-NEXT: -- (Test3::A, 0) vtable address -- // CHECK-NEXT: -- (Test3::C, 0) vtable address -- // CHECK-NEXT: 2 | void Test3::A::f() // CHECK-NEXT: 3 | void Test3::C::g() // CHECK-NEXT: 4 | void Test3::C::h() struct C : A { virtual void g(); virtual void h(); }; void C::g() { } // CHECK: Vtable for 'Test3::D' (5 entries). // CHECK-NEXT: 0 | offset_to_top (0) // CHECK-NEXT: 1 | Test3::D RTTI // CHECK-NEXT: -- (Test3::A, 0) vtable address -- // CHECK-NEXT: -- (Test3::B, 0) vtable address -- // CHECK-NEXT: -- (Test3::D, 0) vtable address -- // CHECK-NEXT: 2 | void Test3::D::f() // CHECK-NEXT: 3 | void Test3::D::g() // CHECK-NEXT: 4 | void Test3::D::h() struct D : B { virtual void f(); virtual void g(); virtual void h(); }; void D::f() { } } namespace Test4 { // Test non-virtual result adjustments. struct R1 { int r1; }; struct R2 { int r2; }; struct R3 : R1, R2 { int r3; }; struct A { virtual R2 *f(); }; // CHECK: Vtable for 'Test4::B' (4 entries). // CHECK-NEXT: 0 | offset_to_top (0) // CHECK-NEXT: 1 | Test4::B RTTI // CHECK-NEXT: -- (Test4::A, 0) vtable address -- // CHECK-NEXT: -- (Test4::B, 0) vtable address -- // CHECK-NEXT: 2 | Test4::R3 *Test4::B::f() // CHECK-NEXT: [return adjustment: 4 non-virtual] // CHECK-NEXT: 3 | Test4::R3 *Test4::B::f() struct B : A { virtual R3 *f(); }; R3 *B::f() { return 0; } // Test virtual result adjustments. struct V1 { int v1; }; struct V2 : virtual V1 { int v1; }; struct C { virtual V1 *f(); }; // CHECK: Vtable for 'Test4::D' (4 entries). // CHECK-NEXT: 0 | offset_to_top (0) // CHECK-NEXT: 1 | Test4::D RTTI // CHECK-NEXT: -- (Test4::C, 0) vtable address -- // CHECK-NEXT: -- (Test4::D, 0) vtable address -- // CHECK-NEXT: 2 | Test4::V2 *Test4::D::f() // CHECK-NEXT: [return adjustment: 0 non-virtual, -24 vbase offset offset] // CHECK-NEXT: 3 | Test4::V2 *Test4::D::f() struct D : C { virtual V2 *f(); }; V2 *D::f() { return 0; }; // Virtual result adjustments with an additional non-virtual adjustment. struct V3 : virtual R3 { int r3; }; // CHECK: Vtable for 'Test4::E' (4 entries). // CHECK-NEXT: 0 | offset_to_top (0) // CHECK-NEXT: 1 | Test4::E RTTI // CHECK-NEXT: -- (Test4::A, 0) vtable address -- // CHECK-NEXT: -- (Test4::E, 0) vtable address -- // CHECK-NEXT: 2 | Test4::V3 *Test4::E::f() // CHECK-NEXT: [return adjustment: 4 non-virtual, -24 vbase offset offset] // CHECK-NEXT: 3 | Test4::V3 *Test4::E::f() struct E : A { virtual V3 *f(); }; V3 *E::f() { return 0;} // Test that a pure virtual member doesn't get a thunk. // CHECK: Vtable for 'Test4::F' (5 entries). // CHECK-NEXT: 0 | offset_to_top (0) // CHECK-NEXT: 1 | Test4::F RTTI // CHECK-NEXT: -- (Test4::A, 0) vtable address -- // CHECK-NEXT: -- (Test4::F, 0) vtable address -- // CHECK-NEXT: 2 | Test4::R3 *Test4::F::f() [pure] // CHECK-NEXT: 3 | void Test4::F::g() // CHECK-NEXT: 4 | Test4::R3 *Test4::F::f() [pure] struct F : A { virtual void g(); virtual R3 *f() = 0; }; void F::g() { } } namespace Test5 { // Simple secondary vtables without 'this' pointer adjustments. struct A { virtual void f(); virtual void g(); int a; }; struct B1 : A { virtual void f(); int b1; }; struct B2 : A { virtual void g(); int b2; }; // CHECK: Vtable for 'Test5::C' (9 entries). // CHECK-NEXT: 0 | offset_to_top (0) // CHECK-NEXT: 1 | Test5::C RTTI // CHECK-NEXT: -- (Test5::A, 0) vtable address -- // CHECK-NEXT: -- (Test5::B1, 0) vtable address -- // CHECK-NEXT: -- (Test5::C, 0) vtable address -- // CHECK-NEXT: 2 | void Test5::B1::f() // CHECK-NEXT: 3 | void Test5::A::g() // CHECK-NEXT: 4 | void Test5::C::h() // CHECK-NEXT: 5 | offset_to_top (-16) // CHECK-NEXT: 6 | Test5::C RTTI // CHECK-NEXT: -- (Test5::A, 16) vtable address -- // CHECK-NEXT: -- (Test5::B2, 16) vtable address -- // CHECK-NEXT: 7 | void Test5::A::f() // CHECK-NEXT: 8 | void Test5::B2::g() struct C : B1, B2 { virtual void h(); }; void C::h() { } } namespace Test6 { // Simple non-virtual 'this' pointer adjustments. struct A1 { virtual void f(); int a; }; struct A2 { virtual void f(); int a; }; // CHECK: Vtable for 'Test6::C' (6 entries). // CHECK-NEXT: 0 | offset_to_top (0) // CHECK-NEXT: 1 | Test6::C RTTI // CHECK-NEXT: -- (Test6::A1, 0) vtable address -- // CHECK-NEXT: -- (Test6::C, 0) vtable address -- // CHECK-NEXT: 2 | void Test6::C::f() // CHECK-NEXT: 3 | offset_to_top (-16) // CHECK-NEXT: 4 | Test6::C RTTI // CHECK-NEXT: -- (Test6::A2, 16) vtable address -- // CHECK-NEXT: 5 | void Test6::C::f() // CHECK-NEXT: [this adjustment: -16 non-virtual] struct C : A1, A2 { virtual void f(); }; void C::f() { } } namespace Test7 { // Test that the D::f overrider for A::f have different 'this' pointer // adjustments in the two A base subobjects. struct A { virtual void f(); int a; }; struct B1 : A { }; struct B2 : A { }; struct C { virtual void c(); }; // CHECK: Vtable for 'Test7::D' (10 entries). // CHECK-NEXT: 0 | offset_to_top (0) // CHECK-NEXT: 1 | Test7::D RTTI // CHECK-NEXT: -- (Test7::C, 0) vtable address -- // CHECK-NEXT: -- (Test7::D, 0) vtable address -- // CHECK-NEXT: 2 | void Test7::C::c() // CHECK-NEXT: 3 | void Test7::D::f() // CHECK-NEXT: 4 | offset_to_top (-8) // CHECK-NEXT: 5 | Test7::D RTTI // CHECK-NEXT: -- (Test7::A, 8) vtable address -- // CHECK-NEXT: -- (Test7::B1, 8) vtable address -- // CHECK-NEXT: 6 | void Test7::D::f() // CHECK-NEXT: [this adjustment: -8 non-virtual] // CHECK-NEXT: 7 | offset_to_top (-24) // CHECK-NEXT: 8 | Test7::D RTTI // CHECK-NEXT: -- (Test7::A, 24) vtable address -- // CHECK-NEXT: -- (Test7::B2, 24) vtable address -- // CHECK-NEXT: 9 | void Test7::D::f() // CHECK-NEXT: [this adjustment: -24 non-virtual] struct D : C, B1, B2 { virtual void f(); }; void D::f() { } } namespace Test8 { // Test that we don't try to layout vtables for classes that don't have // virtual bases or virtual member functions. struct A { }; // CHECK: Vtable for 'Test8::B' (3 entries). // CHECK-NEXT: 0 | offset_to_top (0) // CHECK-NEXT: 1 | Test8::B RTTI // CHECK-NEXT: -- (Test8::B, 0) vtable address -- // CHECK-NEXT: 2 | void Test8::B::f() struct B : A { virtual void f(); }; void B::f() { } } namespace Test9 { // Simple test of vbase offsets. struct A1 { int a1; }; struct A2 { int a2; }; // CHECK: Vtable for 'Test9::B' (5 entries). // CHECK-NEXT: 0 | vbase_offset (16) // CHECK-NEXT: 1 | vbase_offset (12) // CHECK-NEXT: 2 | offset_to_top (0) // CHECK-NEXT: 3 | Test9::B RTTI // CHECK-NEXT: -- (Test9::B, 0) vtable address -- // CHECK-NEXT: 4 | void Test9::B::f() struct B : virtual A1, virtual A2 { int b; virtual void f(); }; void B::f() { } } namespace Test10 { // Test for a bug where we would not emit secondary vtables for bases // of a primary base. struct A1 { virtual void a1(); }; struct A2 { virtual void a2(); }; // CHECK: Vtable for 'Test10::C' (7 entries). // CHECK-NEXT: 0 | offset_to_top (0) // CHECK-NEXT: 1 | Test10::C RTTI // CHECK-NEXT: -- (Test10::A1, 0) vtable address -- // CHECK-NEXT: -- (Test10::B, 0) vtable address -- // CHECK-NEXT: -- (Test10::C, 0) vtable address -- // CHECK-NEXT: 2 | void Test10::A1::a1() // CHECK-NEXT: 3 | void Test10::C::f() // CHECK-NEXT: 4 | offset_to_top (-8) // CHECK-NEXT: 5 | Test10::C RTTI // CHECK-NEXT: -- (Test10::A2, 8) vtable address -- // CHECK-NEXT: 6 | void Test10::A2::a2() struct B : A1, A2 { int b; }; struct C : B { virtual void f(); }; void C::f() { } } namespace Test11 { // Very simple test of vtables for virtual bases. struct A1 { int a; }; struct A2 { int b; }; struct B : A1, virtual A2 { int b; }; // CHECK: Vtable for 'Test11::C' (8 entries). // CHECK-NEXT: 0 | vbase_offset (24) // CHECK-NEXT: 1 | vbase_offset (8) // CHECK-NEXT: 2 | offset_to_top (0) // CHECK-NEXT: 3 | Test11::C RTTI // CHECK-NEXT: -- (Test11::C, 0) vtable address -- // CHECK-NEXT: 4 | void Test11::C::f() // CHECK-NEXT: 5 | vbase_offset (16) // CHECK-NEXT: 6 | offset_to_top (-8) // CHECK-NEXT: 7 | Test11::C RTTI struct C : virtual B { virtual void f(); }; void C::f() { } } namespace Test12 { // Test that the right vcall offsets are generated in the right order. // CHECK: Vtable for 'Test12::B' (19 entries). // CHECK-NEXT: 0 | vbase_offset (8) // CHECK-NEXT: 1 | offset_to_top (0) // CHECK-NEXT: 2 | Test12::B RTTI // CHECK-NEXT: -- (Test12::B, 0) vtable address -- // CHECK-NEXT: 3 | void Test12::B::f() // CHECK-NEXT: 4 | void Test12::B::a() // CHECK-NEXT: 5 | vcall_offset (32) // CHECK-NEXT: 6 | vcall_offset (16) // CHECK-NEXT: 7 | vcall_offset (-8) // CHECK-NEXT: 8 | vcall_offset (0) // CHECK-NEXT: 9 | offset_to_top (-8) // CHECK-NEXT: 10 | Test12::B RTTI // CHECK-NEXT: -- (Test12::A, 8) vtable address -- // CHECK-NEXT: -- (Test12::A1, 8) vtable address -- // CHECK-NEXT: 11 | void Test12::A1::a1() // CHECK-NEXT: 12 | void Test12::B::a() // CHECK-NEXT: [this adjustment: 0 non-virtual, -32 vcall offset offset] // CHECK-NEXT: 13 | offset_to_top (-24) // CHECK-NEXT: 14 | Test12::B RTTI // CHECK-NEXT: -- (Test12::A2, 24) vtable address -- // CHECK-NEXT: 15 | void Test12::A2::a2() // CHECK-NEXT: 16 | offset_to_top (-40) // CHECK-NEXT: 17 | Test12::B RTTI // CHECK-NEXT: -- (Test12::A3, 40) vtable address -- // CHECK-NEXT: 18 | void Test12::A3::a3() struct A1 { virtual void a1(); int a; }; struct A2 { virtual void a2(); int a; }; struct A3 { virtual void a3(); int a; }; struct A : A1, A2, A3 { virtual void a(); int i; }; struct B : virtual A { virtual void f(); virtual void a(); }; void B::f() { } } namespace Test13 { // Test that we don't try to emit a vtable for 'A' twice. struct A { virtual void f(); }; struct B : virtual A { virtual void f(); }; // CHECK: Vtable for 'Test13::C' (6 entries). // CHECK-NEXT: 0 | vbase_offset (0) // CHECK-NEXT: 1 | vbase_offset (0) // CHECK-NEXT: 2 | vcall_offset (0) // CHECK-NEXT: 3 | offset_to_top (0) // CHECK-NEXT: 4 | Test13::C RTTI // CHECK-NEXT: -- (Test13::A, 0) vtable address -- // CHECK-NEXT: -- (Test13::B, 0) vtable address -- // CHECK-NEXT: -- (Test13::C, 0) vtable address -- // CHECK-NEXT: 5 | void Test13::C::f() struct C : virtual B, virtual A { virtual void f(); }; void C::f() { } } namespace Test14 { // Verify that we handle A being a non-virtual base of B, which is a virtual base. struct A { virtual void f(); }; struct B : A { }; struct C : virtual B { }; // CHECK: Vtable for 'Test14::D' (5 entries). // CHECK-NEXT: 0 | vbase_offset (0) // CHECK-NEXT: 1 | vcall_offset (0) // CHECK-NEXT: 2 | offset_to_top (0) // CHECK-NEXT: 3 | Test14::D RTTI // CHECK-NEXT: -- (Test14::A, 0) vtable address -- // CHECK-NEXT: -- (Test14::B, 0) vtable address -- // CHECK-NEXT: -- (Test14::C, 0) vtable address -- // CHECK-NEXT: -- (Test14::D, 0) vtable address -- // CHECK-NEXT: 4 | void Test14::D::f() struct D : C, virtual B { virtual void f(); }; void D::f() { } } namespace Test15 { // Test that we don't emit an extra vtable for B since it's a primary base of C. struct A { virtual void a(); }; struct B { virtual void b(); }; struct C : virtual B { }; // CHECK: Vtable for 'Test15::D' (11 entries). // CHECK-NEXT: 0 | vbase_offset (8) // CHECK-NEXT: 1 | vbase_offset (8) // CHECK-NEXT: 2 | offset_to_top (0) // CHECK-NEXT: 3 | Test15::D RTTI // CHECK-NEXT: -- (Test15::A, 0) vtable address -- // CHECK-NEXT: -- (Test15::D, 0) vtable address -- // CHECK-NEXT: 4 | void Test15::A::a() // CHECK-NEXT: 5 | void Test15::D::f() // CHECK-NEXT: 6 | vbase_offset (0) // CHECK-NEXT: 7 | vcall_offset (0) // CHECK-NEXT: 8 | offset_to_top (-8) // CHECK-NEXT: 9 | Test15::D RTTI // CHECK-NEXT: -- (Test15::B, 8) vtable address -- // CHECK-NEXT: -- (Test15::C, 8) vtable address -- // CHECK-NEXT: 10 | void Test15::B::b() struct D : A, virtual B, virtual C { virtual void f(); }; void D::f() { } } namespace Test16 { // Test that destructors share vcall offsets. struct A { virtual ~A(); }; struct B { virtual ~B(); }; struct C : A, B { virtual ~C(); }; // CHECK: Vtable for 'Test16::D' (15 entries). // CHECK-NEXT: 0 | vbase_offset (8) // CHECK-NEXT: 1 | offset_to_top (0) // CHECK-NEXT: 2 | Test16::D RTTI // CHECK-NEXT: -- (Test16::D, 0) vtable address -- // CHECK-NEXT: 3 | void Test16::D::f() // CHECK-NEXT: 4 | Test16::D::~D() [complete] // CHECK-NEXT: 5 | Test16::D::~D() [deleting] // CHECK-NEXT: 6 | vcall_offset (-8) // CHECK-NEXT: 7 | offset_to_top (-8) // CHECK-NEXT: 8 | Test16::D RTTI // CHECK-NEXT: -- (Test16::A, 8) vtable address -- // CHECK-NEXT: -- (Test16::C, 8) vtable address -- // CHECK-NEXT: 9 | Test16::D::~D() [complete] // CHECK-NEXT: [this adjustment: 0 non-virtual, -24 vcall offset offset] // CHECK-NEXT: 10 | Test16::D::~D() [deleting] // CHECK-NEXT: [this adjustment: 0 non-virtual, -24 vcall offset offset] // CHECK-NEXT: 11 | offset_to_top (-16) // CHECK-NEXT: 12 | Test16::D RTTI // CHECK-NEXT: -- (Test16::B, 16) vtable address -- // CHECK-NEXT: 13 | Test16::D::~D() [complete] // CHECK-NEXT: [this adjustment: -8 non-virtual, -24 vcall offset offset] // CHECK-NEXT: 14 | Test16::D::~D() [deleting] // CHECK-NEXT: [this adjustment: -8 non-virtual, -24 vcall offset offset] struct D : virtual C { virtual void f(); }; void D::f() { } } namespace Test17 { // Test that we don't mark E::f in the C-in-E vtable as unused. struct A { virtual void f(); }; struct B : virtual A { virtual void f(); }; struct C : virtual A { virtual void f(); }; struct D : virtual B, virtual C { virtual void f(); }; // CHECK: Vtable for 'Test17::E' (13 entries). // CHECK-NEXT: 0 | vbase_offset (0) // CHECK-NEXT: 1 | vbase_offset (8) // CHECK-NEXT: 2 | vbase_offset (0) // CHECK-NEXT: 3 | vbase_offset (0) // CHECK-NEXT: 4 | vcall_offset (0) // CHECK-NEXT: 5 | offset_to_top (0) // CHECK-NEXT: 6 | Test17::E RTTI // CHECK-NEXT: -- (Test17::A, 0) vtable address -- // CHECK-NEXT: -- (Test17::B, 0) vtable address -- // CHECK-NEXT: -- (Test17::D, 0) vtable address -- // CHECK-NEXT: -- (Test17::E, 0) vtable address -- // CHECK-NEXT: 7 | void Test17::E::f() // CHECK-NEXT: 8 | vbase_offset (-8) // CHECK-NEXT: 9 | vcall_offset (-8) // CHECK-NEXT: 10 | offset_to_top (-8) // CHECK-NEXT: 11 | Test17::E RTTI // CHECK-NEXT: -- (Test17::A, 8) vtable address -- // CHECK-NEXT: -- (Test17::C, 8) vtable address -- // CHECK-NEXT: 12 | void Test17::E::f() // CHECK-NEXT: [this adjustment: 0 non-virtual, -24 vcall offset offset] class E : virtual D { virtual void f(); }; void E::f() {} } namespace Test18 { // Test that we compute the right 'this' adjustment offsets. struct A { virtual void f(); virtual void g(); }; struct B : virtual A { virtual void f(); }; struct C : A, B { virtual void g(); }; // CHECK: Vtable for 'Test18::D' (24 entries). // CHECK-NEXT: 0 | vbase_offset (8) // CHECK-NEXT: 1 | vbase_offset (0) // CHECK-NEXT: 2 | vbase_offset (0) // CHECK-NEXT: 3 | vcall_offset (8) // CHECK-NEXT: 4 | vcall_offset (0) // CHECK-NEXT: 5 | offset_to_top (0) // CHECK-NEXT: 6 | Test18::D RTTI // CHECK-NEXT: -- (Test18::A, 0) vtable address -- // CHECK-NEXT: -- (Test18::B, 0) vtable address -- // CHECK-NEXT: -- (Test18::D, 0) vtable address -- // CHECK-NEXT: 7 | void Test18::D::f() // CHECK-NEXT: 8 | void Test18::C::g() // CHECK-NEXT: [this adjustment: 0 non-virtual, -32 vcall offset offset] // CHECK-NEXT: 9 | void Test18::D::h() // CHECK-NEXT: 10 | vcall_offset (0) // CHECK-NEXT: 11 | vcall_offset (-8) // CHECK-NEXT: 12 | vbase_offset (-8) // CHECK-NEXT: 13 | offset_to_top (-8) // CHECK-NEXT: 14 | Test18::D RTTI // CHECK-NEXT: -- (Test18::A, 8) vtable address -- // CHECK-NEXT: -- (Test18::C, 8) vtable address -- // CHECK-NEXT: 15 | void Test18::D::f() // CHECK-NEXT: [this adjustment: 0 non-virtual, -32 vcall offset offset] // CHECK-NEXT: 16 | void Test18::C::g() // CHECK-NEXT: 17 | vbase_offset (-16) // CHECK-NEXT: 18 | vcall_offset (-8) // CHECK-NEXT: 19 | vcall_offset (-16) // CHECK-NEXT: 20 | offset_to_top (-16) // CHECK-NEXT: 21 | Test18::D RTTI // CHECK-NEXT: -- (Test18::A, 16) vtable address -- // CHECK-NEXT: -- (Test18::B, 16) vtable address -- // CHECK-NEXT: 22 | void Test18::D::f() // CHECK-NEXT: [this adjustment: -8 non-virtual, -32 vcall offset offset] // CHECK-NEXT: 23 | [unused] void Test18::C::g() struct D : virtual B, virtual C, virtual A { virtual void f(); virtual void h(); }; void D::f() {} } namespace Test19 { // Another 'this' adjustment test. struct A { int a; virtual void f(); }; struct B : A { int b; virtual void g(); }; struct C { virtual void c(); }; // CHECK: Vtable for 'Test19::D' (13 entries). // CHECK-NEXT: 0 | vbase_offset (24) // CHECK-NEXT: 1 | offset_to_top (0) // CHECK-NEXT: 2 | Test19::D RTTI // CHECK-NEXT: -- (Test19::C, 0) vtable address -- // CHECK-NEXT: -- (Test19::D, 0) vtable address -- // CHECK-NEXT: 3 | void Test19::C::c() // CHECK-NEXT: 4 | void Test19::D::f() // CHECK-NEXT: 5 | offset_to_top (-8) // CHECK-NEXT: 6 | Test19::D RTTI // CHECK-NEXT: -- (Test19::A, 8) vtable address -- // CHECK-NEXT: -- (Test19::B, 8) vtable address -- // CHECK-NEXT: 7 | void Test19::D::f() // CHECK-NEXT: [this adjustment: -8 non-virtual] // CHECK-NEXT: 8 | void Test19::B::g() // CHECK-NEXT: 9 | vcall_offset (-24) // CHECK-NEXT: 10 | offset_to_top (-24) // CHECK-NEXT: 11 | Test19::D RTTI // CHECK-NEXT: -- (Test19::A, 24) vtable address -- // CHECK-NEXT: 12 | void Test19::D::f() // CHECK-NEXT: [this adjustment: 0 non-virtual, -24 vcall offset offset] struct D : C, B, virtual A { virtual void f(); }; void D::f() { } } namespace Test20 { // pure virtual member functions should never have 'this' adjustments. struct A { virtual void f() = 0; virtual void g(); }; struct B : A { }; // CHECK: Vtable for 'Test20::C' (9 entries). // CHECK-NEXT: 0 | offset_to_top (0) // CHECK-NEXT: 1 | Test20::C RTTI // CHECK-NEXT: -- (Test20::A, 0) vtable address -- // CHECK-NEXT: -- (Test20::C, 0) vtable address -- // CHECK-NEXT: 2 | void Test20::C::f() [pure] // CHECK-NEXT: 3 | void Test20::A::g() // CHECK-NEXT: 4 | void Test20::C::h() // CHECK-NEXT: 5 | offset_to_top (-8) // CHECK-NEXT: 6 | Test20::C RTTI // CHECK-NEXT: -- (Test20::A, 8) vtable address -- // CHECK-NEXT: -- (Test20::B, 8) vtable address -- // CHECK-NEXT: 7 | void Test20::C::f() [pure] // CHECK-NEXT: 8 | void Test20::A::g() struct C : A, B { virtual void f() = 0; virtual void h(); }; void C::h() { } } namespace Test21 { // Test that we get vbase offsets right in secondary vtables. struct A { virtual void f(); }; struct B : virtual A { }; class C : virtual B { }; class D : virtual C { }; class E : virtual C { }; // CHECK: Vtable for 'Test21::F' (16 entries). // CHECK-NEXT: 0 | vbase_offset (8) // CHECK-NEXT: 1 | vbase_offset (0) // CHECK-NEXT: 2 | vbase_offset (0) // CHECK-NEXT: 3 | vbase_offset (0) // CHECK-NEXT: 4 | vbase_offset (0) // CHECK-NEXT: 5 | vcall_offset (0) // CHECK-NEXT: 6 | offset_to_top (0) // CHECK-NEXT: 7 | Test21::F RTTI // CHECK-NEXT: -- (Test21::A, 0) vtable address -- // CHECK-NEXT: -- (Test21::B, 0) vtable address -- // CHECK-NEXT: -- (Test21::C, 0) vtable address -- // CHECK-NEXT: -- (Test21::D, 0) vtable address -- // CHECK-NEXT: -- (Test21::F, 0) vtable address -- // CHECK-NEXT: 8 | void Test21::F::f() // CHECK-NEXT: 9 | vbase_offset (-8) // CHECK-NEXT: 10 | vbase_offset (-8) // CHECK-NEXT: 11 | vbase_offset (-8) // CHECK-NEXT: 12 | vcall_offset (-8) // CHECK-NEXT: 13 | offset_to_top (-8) // CHECK-NEXT: 14 | Test21::F RTTI // CHECK-NEXT: -- (Test21::A, 8) vtable address -- // CHECK-NEXT: -- (Test21::B, 8) vtable address -- // CHECK-NEXT: -- (Test21::C, 8) vtable address -- // CHECK-NEXT: -- (Test21::E, 8) vtable address -- // CHECK-NEXT: 15 | [unused] void Test21::F::f() class F : virtual D, virtual E { virtual void f(); }; void F::f() { } } namespace Test22 { // Very simple construction vtable test. struct V1 { int v1; }; struct V2 : virtual V1 { int v2; }; // CHECK: Vtable for 'Test22::C' (8 entries). // CHECK-NEXT: 0 | vbase_offset (16) // CHECK-NEXT: 1 | vbase_offset (12) // CHECK-NEXT: 2 | offset_to_top (0) // CHECK-NEXT: 3 | Test22::C RTTI // CHECK-NEXT: -- (Test22::C, 0) vtable address -- // CHECK-NEXT: 4 | void Test22::C::f() // CHECK-NEXT: 5 | vbase_offset (-4) // CHECK-NEXT: 6 | offset_to_top (-16) // CHECK-NEXT: 7 | Test22::C RTTI // CHECK-NEXT: -- (Test22::V2, 16) vtable address -- // CHECK: Construction vtable for ('Test22::V2', 16) in 'Test22::C' (3 entries). // CHECK-NEXT: 0 | vbase_offset (-4) // CHECK-NEXT: 1 | offset_to_top (0) // CHECK-NEXT: 2 | Test22::V2 RTTI struct C : virtual V1, virtual V2 { int c; virtual void f(); }; void C::f() { } } namespace Test23 { struct A { int a; }; struct B : virtual A { int b; }; struct C : A, virtual B { int c; }; // CHECK: Vtable for 'Test23::D' (7 entries). // CHECK-NEXT: 0 | vbase_offset (20) // CHECK-NEXT: 1 | vbase_offset (24) // CHECK-NEXT: 2 | offset_to_top (0) // CHECK-NEXT: 3 | Test23::D RTTI // CHECK-NEXT: -- (Test23::C, 0) vtable address -- // CHECK-NEXT: -- (Test23::D, 0) vtable address -- // CHECK-NEXT: 4 | vbase_offset (-4) // CHECK-NEXT: 5 | offset_to_top (-24) // CHECK-NEXT: 6 | Test23::D RTTI // CHECK-NEXT: -- (Test23::B, 24) vtable address -- // CHECK: Construction vtable for ('Test23::C', 0) in 'Test23::D' (7 entries). // CHECK-NEXT: 0 | vbase_offset (20) // CHECK-NEXT: 1 | vbase_offset (24) // CHECK-NEXT: 2 | offset_to_top (0) // CHECK-NEXT: 3 | Test23::C RTTI // CHECK-NEXT: -- (Test23::C, 0) vtable address -- // CHECK-NEXT: 4 | vbase_offset (-4) // CHECK-NEXT: 5 | offset_to_top (-24) // CHECK-NEXT: 6 | Test23::C RTTI // CHECK-NEXT: -- (Test23::B, 24) vtable address -- // CHECK: Construction vtable for ('Test23::B', 24) in 'Test23::D' (3 entries). // CHECK-NEXT: 0 | vbase_offset (-4) // CHECK-NEXT: 1 | offset_to_top (0) // CHECK-NEXT: 2 | Test23::B RTTI // CHECK-NEXT: -- (Test23::B, 24) vtable address -- struct D : virtual A, virtual B, C { int d; void f(); }; void D::f() { } } namespace Test24 { // Another construction vtable test. struct A { virtual void f(); }; struct B : virtual A { }; struct C : virtual A { }; // CHECK: Vtable for 'Test24::D' (10 entries). // CHECK-NEXT: 0 | vbase_offset (0) // CHECK-NEXT: 1 | vcall_offset (0) // CHECK-NEXT: 2 | offset_to_top (0) // CHECK-NEXT: 3 | Test24::D RTTI // CHECK-NEXT: -- (Test24::A, 0) vtable address -- // CHECK-NEXT: -- (Test24::B, 0) vtable address -- // CHECK-NEXT: -- (Test24::D, 0) vtable address -- // CHECK-NEXT: 4 | void Test24::D::f() // CHECK-NEXT: 5 | vbase_offset (-8) // CHECK-NEXT: 6 | vcall_offset (-8) // CHECK-NEXT: 7 | offset_to_top (-8) // CHECK-NEXT: 8 | Test24::D RTTI // CHECK-NEXT: -- (Test24::A, 8) vtable address -- // CHECK-NEXT: -- (Test24::C, 8) vtable address -- // CHECK-NEXT: 9 | [unused] void Test24::D::f() // CHECK: Construction vtable for ('Test24::B', 0) in 'Test24::D' (5 entries). // CHECK-NEXT: 0 | vbase_offset (0) // CHECK-NEXT: 1 | vcall_offset (0) // CHECK-NEXT: 2 | offset_to_top (0) // CHECK-NEXT: 3 | Test24::B RTTI // CHECK-NEXT: -- (Test24::A, 0) vtable address -- // CHECK-NEXT: -- (Test24::B, 0) vtable address -- // CHECK-NEXT: 4 | void Test24::A::f() // CHECK: Construction vtable for ('Test24::C', 8) in 'Test24::D' (9 entries). // CHECK-NEXT: 0 | vbase_offset (-8) // CHECK-NEXT: 1 | vcall_offset (-8) // CHECK-NEXT: 2 | offset_to_top (0) // CHECK-NEXT: 3 | Test24::C RTTI // CHECK-NEXT: -- (Test24::A, 8) vtable address -- // CHECK-NEXT: -- (Test24::C, 8) vtable address -- // CHECK-NEXT: 4 | [unused] void Test24::A::f() // CHECK-NEXT: 5 | vcall_offset (0) // CHECK-NEXT: 6 | offset_to_top (8) // CHECK-NEXT: 7 | Test24::C RTTI // CHECK-NEXT: -- (Test24::A, 0) vtable address -- // CHECK-NEXT: 8 | void Test24::A::f() struct D : B, C { virtual void f(); }; void D::f() { } } namespace Test25 { // This mainly tests that we don't assert on this class hierarchy. struct V { virtual void f(); }; struct A : virtual V { }; struct B : virtual V { }; // CHECK: Vtable for 'Test25::C' (11 entries). // CHECK-NEXT: 0 | vbase_offset (0) // CHECK-NEXT: 1 | vcall_offset (0) // CHECK-NEXT: 2 | offset_to_top (0) // CHECK-NEXT: 3 | Test25::C RTTI // CHECK-NEXT: -- (Test25::A, 0) vtable address -- // CHECK-NEXT: -- (Test25::C, 0) vtable address -- // CHECK-NEXT: -- (Test25::V, 0) vtable address -- // CHECK-NEXT: 4 | void Test25::V::f() // CHECK-NEXT: 5 | void Test25::C::g() // CHECK-NEXT: 6 | vbase_offset (-8) // CHECK-NEXT: 7 | vcall_offset (-8) // CHECK-NEXT: 8 | offset_to_top (-8) // CHECK-NEXT: 9 | Test25::C RTTI // CHECK-NEXT: -- (Test25::B, 8) vtable address -- // CHECK-NEXT: -- (Test25::V, 8) vtable address -- // CHECK-NEXT: 10 | [unused] void Test25::V::f() // CHECK: Construction vtable for ('Test25::A', 0) in 'Test25::C' (5 entries). // CHECK-NEXT: 0 | vbase_offset (0) // CHECK-NEXT: 1 | vcall_offset (0) // CHECK-NEXT: 2 | offset_to_top (0) // CHECK-NEXT: 3 | Test25::A RTTI // CHECK-NEXT: -- (Test25::A, 0) vtable address -- // CHECK-NEXT: -- (Test25::V, 0) vtable address -- // CHECK-NEXT: 4 | void Test25::V::f() // CHECK: Construction vtable for ('Test25::B', 8) in 'Test25::C' (9 entries). // CHECK-NEXT: 0 | vbase_offset (-8) // CHECK-NEXT: 1 | vcall_offset (-8) // CHECK-NEXT: 2 | offset_to_top (0) // CHECK-NEXT: 3 | Test25::B RTTI // CHECK-NEXT: -- (Test25::B, 8) vtable address -- // CHECK-NEXT: -- (Test25::V, 8) vtable address -- // CHECK-NEXT: 4 | [unused] void Test25::V::f() // CHECK-NEXT: 5 | vcall_offset (0) // CHECK-NEXT: 6 | offset_to_top (8) // CHECK-NEXT: 7 | Test25::B RTTI // CHECK-NEXT: -- (Test25::V, 0) vtable address -- // CHECK-NEXT: 8 | void Test25::V::f() struct C : A, virtual V, B { virtual void g(); }; void C::g() { } } namespace Test26 { // Test that we generate the right number of entries in the C-in-D construction vtable, and that // we don't mark A::a as unused. struct A { virtual void a(); }; struct B { virtual void c(); }; struct C : virtual A { virtual void b(); }; // CHECK: Vtable for 'Test26::D' (15 entries). // CHECK-NEXT: 0 | vbase_offset (8) // CHECK-NEXT: 1 | vbase_offset (8) // CHECK-NEXT: 2 | vbase_offset (0) // CHECK-NEXT: 3 | vcall_offset (0) // CHECK-NEXT: 4 | offset_to_top (0) // CHECK-NEXT: 5 | Test26::D RTTI // CHECK-NEXT: -- (Test26::B, 0) vtable address -- // CHECK-NEXT: -- (Test26::D, 0) vtable address -- // CHECK-NEXT: 6 | void Test26::B::c() // CHECK-NEXT: 7 | void Test26::D::d() // CHECK-NEXT: 8 | vcall_offset (0) // CHECK-NEXT: 9 | vbase_offset (0) // CHECK-NEXT: 10 | vcall_offset (0) // CHECK-NEXT: 11 | offset_to_top (-8) // CHECK-NEXT: 12 | Test26::D RTTI // CHECK-NEXT: -- (Test26::A, 8) vtable address -- // CHECK-NEXT: -- (Test26::C, 8) vtable address -- // CHECK-NEXT: 13 | void Test26::A::a() // CHECK-NEXT: 14 | void Test26::C::b() // CHECK: Construction vtable for ('Test26::C', 8) in 'Test26::D' (7 entries). // CHECK-NEXT: 0 | vcall_offset (0) // CHECK-NEXT: 1 | vbase_offset (0) // CHECK-NEXT: 2 | vcall_offset (0) // CHECK-NEXT: 3 | offset_to_top (0) // CHECK-NEXT: 4 | Test26::C RTTI // CHECK-NEXT: -- (Test26::A, 8) vtable address -- // CHECK-NEXT: -- (Test26::C, 8) vtable address -- // CHECK-NEXT: 5 | void Test26::A::a() // CHECK-NEXT: 6 | void Test26::C::b() class D : virtual B, virtual C { virtual void d(); }; void D::d() { } }