// 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 namespace test1 { struct A { virtual void g(); // Add an extra virtual method so it's easier to check for the absence of thunks. virtual void h(); }; struct B { virtual void g(); }; // Overrides a method of two bases at the same time, thus needing thunks. struct C : A, B { virtual void g(); }; struct D { virtual B* foo(); virtual void z(); }; struct X : D { // CHECK-LABEL: VFTable for 'test1::D' in 'test1::X' (3 entries). // CHECK-NEXT: 0 | test1::C *test1::X::foo() // CHECK-NEXT: [return adjustment (to type 'struct test1::B *'): 4 non-virtual] // CHECK-NEXT: 1 | void test1::D::z() // CHECK-NEXT: 2 | test1::C *test1::X::foo() // CHECK-LABEL: Thunks for 'test1::C *test1::X::foo()' (1 entry). // CHECK-NEXT: 0 | [return adjustment (to type 'struct test1::B *'): 4 non-virtual] // CHECK-LABEL: VFTable indices for 'test1::X' (1 entry). // CHECK-NEXT: 2 | test1::C *test1::X::foo() // MANGLING-DAG: @"??_7X@test1@@6B@" virtual C* foo(); } x; void build_vftable(X *obj) { obj->foo(); } } namespace test2 { struct A { virtual void g(); virtual void h(); }; struct B { virtual void g(); }; struct C : A, B { virtual void g(); }; struct D { virtual B* foo(); virtual void z(); }; struct E : D { virtual C* foo(); }; struct F : C { }; struct X : E { virtual F* foo(); // CHECK-LABEL: VFTable for 'test2::D' in 'test2::E' in 'test2::X' (4 entries). // CHECK-NEXT: 0 | test2::F *test2::X::foo() // CHECK-NEXT: [return adjustment (to type 'struct test2::B *'): 4 non-virtual] // CHECK-NEXT: 1 | void test2::D::z() // CHECK-NEXT: 2 | test2::F *test2::X::foo() // CHECK-NEXT: [return adjustment (to type 'struct test2::C *'): 0 non-virtual] // CHECK-NEXT: 3 | test2::F *test2::X::foo() // CHECK-LABEL: Thunks for 'test2::F *test2::X::foo()' (2 entries). // CHECK-NEXT: 0 | [return adjustment (to type 'struct test2::C *'): 0 non-virtual] // CHECK-NEXT: 1 | [return adjustment (to type 'struct test2::B *'): 4 non-virtual] // CHECK-LABEL: VFTable indices for 'test2::X' (1 entry). // CHECK-NEXT: 3 | test2::F *test2::X::foo() }; void build_vftable(X *obj) { obj->foo(); } } namespace test3 { struct A { virtual void g(); virtual void h(); }; struct B { virtual void g(); }; struct C : A, B { virtual void g(); }; struct D { virtual B* foo(); virtual void z(); }; struct E : D { virtual C* foo(); }; struct F : A, C { }; struct X : E { // CHECK-LABEL: VFTable for 'test3::D' in 'test3::E' in 'test3::X' (4 entries). // CHECK-NEXT: 0 | test3::F *test3::X::foo() // CHECK-NEXT: [return adjustment (to type 'struct test3::B *'): 8 non-virtual] // CHECK-NEXT: 1 | void test3::D::z() // CHECK-NEXT: 2 | test3::F *test3::X::foo() // CHECK-NEXT: [return adjustment (to type 'struct test3::C *'): 4 non-virtual] // CHECK-NEXT: 3 | test3::F *test3::X::foo() // CHECK-LABEL: Thunks for 'test3::F *test3::X::foo()' (2 entries). // CHECK-NEXT: 0 | [return adjustment (to type 'struct test3::C *'): 4 non-virtual] // CHECK-NEXT: 1 | [return adjustment (to type 'struct test3::B *'): 8 non-virtual] // CHECK-LABEL: VFTable indices for 'test3::X' (1 entry). // CHECK-NEXT: 3 | test3::F *test3::X::foo() virtual F* foo(); }; void build_vftable(X *obj) { obj->foo(); } } namespace test4 { struct A { virtual void g(); virtual void h(); }; struct B { virtual void g(); }; struct C : A, B { virtual void g(); }; struct D { virtual B* foo(); virtual void z(); }; struct E : D { virtual C* foo(); }; struct F : A, C { }; struct X : D, E { // CHECK-LABEL: VFTable for 'test4::D' in 'test4::X' (3 entries). // CHECK-NEXT: 0 | test4::F *test4::X::foo() // CHECK-NEXT: [return adjustment (to type 'struct test4::B *'): 8 non-virtual] // CHECK-NEXT: 1 | void test4::D::z() // CHECK-NEXT: 2 | test4::F *test4::X::foo() // CHECK-LABEL: Thunks for 'test4::F *test4::X::foo()' (1 entry). // CHECK-NEXT: 0 | [return adjustment (to type 'struct test4::B *'): 8 non-virtual] // CHECK-LABEL: VFTable for 'test4::D' in 'test4::E' in 'test4::X' (4 entries). // CHECK-NEXT: 0 | test4::F *test4::X::foo() // CHECK-NEXT: [return adjustment (to type 'struct test4::B *'): 8 non-virtual] // CHECK-NEXT: [this adjustment: -4 non-virtual] // CHECK-NEXT: 1 | void test4::D::z() // CHECK-NEXT: 2 | test4::F *test4::X::foo() // CHECK-NEXT: [return adjustment (to type 'struct test4::C *'): 4 non-virtual] // CHECK-NEXT: [this adjustment: -4 non-virtual] // CHECK-NEXT: 3 | test4::F *test4::X::foo() // CHECK-NEXT: [return adjustment (to type 'struct test4::F *'): 0 non-virtual] // CHECK-NEXT: [this adjustment: -4 non-virtual] // CHECK-LABEL: Thunks for 'test4::F *test4::X::foo()' (3 entries). // CHECK-NEXT: 0 | [return adjustment (to type 'struct test4::F *'): 0 non-virtual] // CHECK-NEXT: [this adjustment: -4 non-virtual] // CHECK-NEXT: 1 | [return adjustment (to type 'struct test4::C *'): 4 non-virtual] // CHECK-NEXT: [this adjustment: -4 non-virtual] // CHECK-NEXT: 2 | [return adjustment (to type 'struct test4::B *'): 8 non-virtual] // CHECK-NEXT: [this adjustment: -4 non-virtual] // CHECK-LABEL: VFTable indices for 'test4::X' (1 entry). // CHECK-NEXT: 2 | test4::F *test4::X::foo() virtual F* foo(); }; void build_vftable(X *obj) { obj->foo(); } } namespace test5 { struct A { virtual void g(); virtual void h(); }; struct B { virtual void g(); }; struct C : A, B { virtual void g(); }; struct D { virtual B* foo(); virtual void z(); }; struct X : A, D { // CHECK-LABEL: VFTable for 'test5::A' in 'test5::X' (2 entries). // CHECK-NEXT: 0 | void test5::A::g() // CHECK-NEXT: 1 | void test5::A::h() // CHECK-LABEL: VFTable for 'test5::D' in 'test5::X' (3 entries). // CHECK-NEXT: 0 | test5::C *test5::X::foo() // CHECK-NEXT: [return adjustment (to type 'struct test5::B *'): 4 non-virtual] // CHECK-NEXT: 1 | void test5::D::z() // CHECK-NEXT: 2 | test5::C *test5::X::foo() // CHECK-LABEL: Thunks for 'test5::C *test5::X::foo()' (1 entry). // CHECK-NEXT: 0 | [return adjustment (to type 'struct test5::B *'): 4 non-virtual] // CHECK-LABEL: VFTable indices for 'test5::X' (1 entry). // CHECK-NEXT: via vfptr at offset 4 // CHECK-NEXT: 2 | test5::C *test5::X::foo() virtual C* foo(); }; void build_vftable(X *obj) { obj->foo(); } } namespace test6 { struct A { virtual void g(); virtual void h(); }; struct B { virtual void g(); }; struct C : A, B { virtual void g(); }; struct D { virtual B* foo(); virtual void z(); }; struct E : A, D { virtual C* foo(); }; struct F : A, C { }; struct X : E { // CHECK-LABEL: VFTable for 'test6::A' in 'test6::E' in 'test6::X' (2 entries). // CHECK-NEXT: 0 | void test6::A::g() // CHECK-NEXT: 1 | void test6::A::h() // CHECK-LABEL: VFTable for 'test6::D' in 'test6::E' in 'test6::X' (4 entries). // CHECK-NEXT: 0 | test6::F *test6::X::foo() // CHECK-NEXT: [return adjustment (to type 'struct test6::B *'): 8 non-virtual] // CHECK-NEXT: 1 | void test6::D::z() // CHECK-NEXT: 2 | test6::F *test6::X::foo() // CHECK-NEXT: [return adjustment (to type 'struct test6::C *'): 4 non-virtual] // CHECK-NEXT: 3 | test6::F *test6::X::foo() // CHECK-LABEL: Thunks for 'test6::F *test6::X::foo()' (2 entries). // CHECK-NEXT: 0 | [return adjustment (to type 'struct test6::C *'): 4 non-virtual] // CHECK-NEXT: 1 | [return adjustment (to type 'struct test6::B *'): 8 non-virtual] // CHECK-LABEL: VFTable indices for 'test6::X' (1 entry). // CHECK-NEXT: -- accessible via vfptr at offset 4 -- // CHECK-NEXT: 3 | test6::F *test6::X::foo() virtual F* foo(); }; void build_vftable(X *obj) { obj->foo(); } } namespace test7 { struct A { virtual A *f() = 0; }; struct B { virtual void g(); }; struct C : B, A { virtual void g(); virtual C *f() = 0; // CHECK-LABEL: VFTable for 'test7::B' in 'test7::C' (1 entry). // CHECK-NEXT: 0 | void test7::C::g() // CHECK-LABEL: VFTable for 'test7::A' in 'test7::C' (2 entries). // CHECK-NEXT: 0 | test7::C *test7::C::f() [pure] // CHECK-NEXT: 1 | test7::C *test7::C::f() [pure] // No return adjusting thunks needed for pure virtual methods. // CHECK-NOT: Thunks for 'test7::C *test7::C::f()' }; void build_vftable(C *obj) { obj->g(); } } namespace pr20444 { struct A { virtual A* f(); }; struct B { virtual B* f(); }; struct C : A, B { virtual C* f(); // CHECK-LABEL: VFTable for 'pr20444::A' in 'pr20444::C' (1 entry). // CHECK-NEXT: 0 | pr20444::C *pr20444::C::f() // CHECK-LABEL: VFTable for 'pr20444::B' in 'pr20444::C' (2 entries). // CHECK-NEXT: 0 | pr20444::C *pr20444::C::f() // CHECK-NEXT: [return adjustment (to type 'struct pr20444::B *'): 4 non-virtual] // CHECK-NEXT: [this adjustment: -4 non-virtual] // CHECK-NEXT: 1 | pr20444::C *pr20444::C::f() // CHECK-NEXT: [return adjustment (to type 'struct pr20444::C *'): 0 non-virtual] // CHECK-NEXT: [this adjustment: -4 non-virtual] }; void build_vftable(C *obj) { obj->f(); } struct D : C { virtual D* f(); // CHECK-LABEL: VFTable for 'pr20444::A' in 'pr20444::C' in 'pr20444::D' (1 entry). // CHECK-NEXT: 0 | pr20444::D *pr20444::D::f() // CHECK-LABEL: VFTable for 'pr20444::B' in 'pr20444::C' in 'pr20444::D' (3 entries). // CHECK-NEXT: 0 | pr20444::D *pr20444::D::f() // CHECK-NEXT: [return adjustment (to type 'struct pr20444::B *'): 4 non-virtual] // CHECK-NEXT: [this adjustment: -4 non-virtual] // CHECK-NEXT: 1 | pr20444::D *pr20444::D::f() // CHECK-NEXT: [return adjustment (to type 'struct pr20444::C *'): 0 non-virtual] // CHECK-NEXT: [this adjustment: -4 non-virtual] // CHECK-NEXT: 2 | pr20444::D *pr20444::D::f() // CHECK-NEXT: [return adjustment (to type 'struct pr20444::D *'): 0 non-virtual] // CHECK-NEXT: [this adjustment: -4 non-virtual] }; void build_vftable(D *obj) { obj->f(); } }