// RUN: %clang_cc1 -fno-rtti -emit-llvm -o %t.ll -fdump-vtable-layouts %s -cxx-abi microsoft -triple=i386-pc-win32 >%t // RUN: FileCheck --check-prefix=VTABLE-C %s < %t // RUN: FileCheck --check-prefix=VTABLE-D %s < %t // RUN: FileCheck --check-prefix=TEST1 %s < %t // RUN: FileCheck --check-prefix=TEST2 %s < %t // RUN: FileCheck --check-prefix=TEST3 %s < %t // RUN: FileCheck --check-prefix=TEST4 %s < %t // RUN: FileCheck --check-prefix=TEST5 %s < %t // RUN: FileCheck --check-prefix=TEST6 %s < %t // RUN: FileCheck --check-prefix=TEST7 %s < %t // RUN: FileCheck --check-prefix=TEST8-X %s < %t // RUN: FileCheck --check-prefix=TEST8-Z %s < %t // RUN: FileCheck --check-prefix=TEST9-Y %s < %t // RUN: FileCheck --check-prefix=TEST9-Z %s < %t // RUN: FileCheck --check-prefix=TEST9-W %s < %t // RUN: FileCheck --check-prefix=TEST9-T %s < %t // RUN: FileCheck --check-prefix=TEST10 %s < %t // RUN: FileCheck --check-prefix=VDTORS-Y %s < %t // RUN: FileCheck --check-prefix=VDTORS-U %s < %t // RUN: FileCheck --check-prefix=VDTORS-V %s < %t // RUN: FileCheck --check-prefix=VDTORS-P %s < %t // RUN: FileCheck --check-prefix=RET-W %s < %t // RUN: FileCheck --check-prefix=RET-T %s < %t // RUN: FileCheck --check-prefix=RET-V %s < %t // RUN: FileCheck --check-prefix=MANGLING %s < %t.ll struct Empty { }; struct A { virtual void f(); virtual void z(); // Useful to check there are no thunks for f() when appropriate. }; struct B { virtual void g(); }; struct C: virtual A { // VTABLE-C: VFTable for 'A' in 'C' (2 entries) // VTABLE-C-NEXT: 0 | void C::f() // VTABLE-C-NEXT: 1 | void A::z() // VTABLE-C: VFTable indices for 'C' (1 entries) // VTABLE-C-NEXT: vbtable index 1, vfptr at offset 0 // VTABLE-C-NEXT: 0 | void C::f() // MANGLING-DAG: @"\01??_7C@@6B@" virtual void f(); }; C c; struct D: virtual A { // VTABLE-D: VFTable for 'D' (1 entries). // VTABLE-D-NEXT: 0 | void D::h() // VTABLE-D: VFTable for 'A' in 'D' (2 entries). // VTABLE-D-NEXT: 0 | void D::f() // VTABLE-D-NEXT: 1 | void A::z() // VTABLE-D: VFTable indices for 'D' (2 entries). // VTABLE-D-NEXT: via vfptr at offset 0 // VTABLE-D-NEXT: 0 | void D::h() // VTABLE-D-NEXT: via vbtable index 1, vfptr at offset 0 // VTABLE-D-NEXT: 0 | void D::f() // MANGLING-DAG: @"\01??_7D@@6B0@@" // MANGLING-DAG: @"\01??_7D@@6BA@@@" virtual void f(); virtual void h(); }; void D::h() {} D d; namespace Test1 { struct X { int x; }; // X and A get reordered in the layout since X doesn't have a vfptr while A has. struct Y : X, A { }; // MANGLING-DAG: @"\01??_7Y@Test1@@6B@" struct Z : virtual Y { // TEST1: VFTable for 'A' in 'Test1::Y' in 'Test1::Z' (2 entries). // TEST1-NEXT: 0 | void A::f() // TEST1-NEXT: 1 | void A::z() // TEST1-NOT: VFTable indices for 'Test1::Z' // MANGLING-DAG: @"\01??_7Z@Test1@@6B@" }; Z z; } namespace Test2 { struct X: virtual A, virtual B { // TEST2: VFTable for 'Test2::X' (1 entries). // TEST2-NEXT: 0 | void Test2::X::h() // TEST2: VFTable for 'A' in 'Test2::X' (2 entries). // TEST2-NEXT: 0 | void A::f() // TEST2-NEXT: 1 | void A::z() // TEST2: VFTable for 'B' in 'Test2::X' (1 entries). // TEST2-NEXT: 0 | void B::g() // TEST2: VFTable indices for 'Test2::X' (1 entries). // TEST2-NEXT: 0 | void Test2::X::h() // MANGLING-DAG: @"\01??_7X@Test2@@6B01@@" // MANGLING-DAG: @"\01??_7X@Test2@@6BA@@@" // MANGLING-DAG: @"\01??_7X@Test2@@6BB@@@" virtual void h(); }; X x; } namespace Test3 { struct X : virtual A { // MANGLING-DAG: @"\01??_7X@Test3@@6B@" }; struct Y: virtual X { // TEST3: VFTable for 'A' in 'Test3::X' in 'Test3::Y' (2 entries). // TEST3-NEXT: 0 | void A::f() // TEST3-NEXT: 1 | void A::z() // TEST3-NOT: VFTable indices for 'Test3::Y' // MANGLING-DAG: @"\01??_7Y@Test3@@6B@" }; Y y; } namespace Test4 { struct X: virtual C { // This one's interesting. C::f expects (A*) to be passed as 'this' and does // ECX-=4 to cast to (C*). In X, C and A vbases are reordered, so the thunk // should pass a pointer to the end of X in order // for ECX-=4 to point at the C part. // TEST4: VFTable for 'A' in 'C' in 'Test4::X' (2 entries). // TEST4-NEXT: 0 | void C::f() // TEST4-NEXT: [this adjustment: 8 non-virtual] // TEST4-NEXT: 1 | void A::z() // TEST4-NOT: VFTable indices for 'Test4::X' // MANGLING-DAG: @"\01??_7X@Test4@@6B@" // Also check the mangling of the thunk. // MANGLING-DAG: define weak x86_thiscallcc void @"\01?f@C@@WPPPPPPPI@AEXXZ" }; X x; } namespace Test5 { // New methods are added to the base's vftable. struct X : A { // MANGLING-DAG: @"\01??_7X@Test5@@6B@" virtual void g(); }; struct Y : virtual X { // TEST5: VFTable for 'Test5::Y' (1 entries). // TEST5-NEXT: 0 | void Test5::Y::h() // TEST5: VFTable for 'A' in 'Test5::X' in 'Test5::Y' (3 entries). // TEST5-NEXT: 0 | void A::f() // TEST5-NEXT: 1 | void A::z() // TEST5-NEXT: 2 | void Test5::X::g() // TEST5: VFTable indices for 'Test5::Y' (1 entries). // TEST5-NEXT: 0 | void Test5::Y::h() // MANGLING-DAG: @"\01??_7Y@Test5@@6B01@@" // MANGLING-DAG: @"\01??_7Y@Test5@@6BX@1@@" virtual void h(); }; Y y; } namespace Test6 { struct X : A, virtual Empty { // TEST6: VFTable for 'A' in 'Test6::X' (2 entries). // TEST6-NEXT: 0 | void A::f() // TEST6-NEXT: 1 | void A::z() // TEST6-NOT: VFTable indices for 'Test6::X' // MANGLING-DAG: @"\01??_7X@Test6@@6B@" }; X x; } namespace Test7 { struct X : C { // MANGLING-DAG: @"\01??_7X@Test7@@6B@" }; struct Y : virtual X { // TEST7: VFTable for 'A' in 'C' in 'Test7::X' in 'Test7::Y' (2 entries). // TEST7-NEXT: 0 | void C::f() // TEST7-NEXT: [this adjustment: 8 non-virtual] // TEST7-NEXT: 1 | void A::z() // TEST7: Thunks for 'void C::f()' (1 entry). // TEST7-NEXT: 0 | [this adjustment: 8 non-virtual] // TEST7-NOT: VFTable indices for 'Test7::Y' // MANGLING-DAG: @"\01??_7Y@Test7@@6B@" }; Y y; } namespace Test8 { // This is a typical diamond inheritance with a shared 'A' vbase. struct X : D, C { // TEST8-X: VFTable for 'D' in 'Test8::X' (1 entries). // TEST8-X-NEXT: 0 | void D::h() // TEST8-X: VFTable for 'A' in 'D' in 'Test8::X' (2 entries). // TEST8-X-NEXT: 0 | void Test8::X::f() // TEST8-X-NEXT: 1 | void A::z() // TEST8-X: VFTable indices for 'Test8::X' (1 entries). // TEST8-X-NEXT: via vbtable index 1, vfptr at offset 0 // TEST8-X-NEXT: 0 | void Test8::X::f() // MANGLING-DAG: @"\01??_7X@Test8@@6BA@@@" // MANGLING-DAG: @"\01??_7X@Test8@@6BD@@@" virtual void f(); }; X x; // Another diamond inheritance which led to AST crashes. struct Y : virtual A {}; class Z : Y, C { // TEST8-Z: VFTable for 'A' in 'Test8::Y' in 'Test8::Z' (2 entries). // TEST8-Z-NEXT: 0 | void Test8::Z::f() // TEST8-Z-NEXT: 1 | void A::z() // TEST8-Z: VFTable indices for 'Test8::Z' (1 entries). // TEST8-Z-NEXT: via vbtable index 1, vfptr at offset 0 // TEST8-Z-NEXT: 0 | void Test8::Z::f() virtual void f(); }; Z z; } namespace Test9 { struct X : A { }; struct Y : virtual X { // TEST9-Y: VFTable for 'Test9::Y' (1 entries). // TEST9-Y-NEXT: 0 | void Test9::Y::h() // TEST9-Y: VFTable for 'A' in 'Test9::X' in 'Test9::Y' (2 entries). // TEST9-Y-NEXT: 0 | void A::f() // TEST9-Y-NEXT: 1 | void A::z() // TEST9-Y: VFTable indices for 'Test9::Y' (1 entries). // TEST9-Y-NEXT: 0 | void Test9::Y::h() // MANGLING-DAG: @"\01??_7Y@Test9@@6B01@@" // MANGLING-DAG: @"\01??_7Y@Test9@@6BX@1@@" virtual void h(); }; Y y; struct Z : Y, virtual B { // TEST9-Z: VFTable for 'Test9::Y' in 'Test9::Z' (1 entries). // TEST9-Z-NEXT: 0 | void Test9::Y::h() // TEST9-Z: VFTable for 'A' in 'Test9::X' in 'Test9::Y' in 'Test9::Z' (2 entries). // TEST9-Z-NEXT: 0 | void A::f() // TEST9-Z-NEXT: 1 | void A::z() // TEST9-Z: VFTable for 'B' in 'Test9::Z' (1 entries). // TEST9-Z-NEXT: 0 | void B::g() // TEST9-Z-NOT: VFTable indices for 'Test9::Z' // MANGLING-DAG: @"\01??_7Z@Test9@@6BX@1@@" // MANGLING-DAG: @"\01??_7Z@Test9@@6BY@1@@" // FIXME this one is wrong: // INCORRECT MANGLING-DAG: @"\01??_7Z@Test9@@6BB@@@" // MANGLING-DAG-SHOULD-BE: @"\01??_7Z@Test9@@6B@" }; Z z; struct W : Z, D, virtual A, virtual B { // TEST9-W: VFTable for 'Test9::Y' in 'Test9::Z' in 'Test9::W' (1 entries). // TEST9-W-NEXT: 0 | void Test9::Y::h() // TEST9-W: VFTable for 'A' in 'Test9::X' in 'Test9::Y' in 'Test9::Z' in 'Test9::W' (2 entries). // TEST9-W-NEXT: 0 | void A::f() // TEST9-W-NEXT: 1 | void A::z() // TEST9-W: VFTable for 'B' in 'Test9::Z' in 'Test9::W' (1 entries). // TEST9-W-NEXT: 0 | void B::g() // TEST9-W: VFTable for 'D' in 'Test9::W' (1 entries). // TEST9-W-NEXT: 0 | void D::h() // TEST9-W: VFTable for 'A' in 'D' in 'Test9::W' (2 entries). // TEST9-W-NEXT: 0 | void D::f() // TEST9-W-NEXT: [this adjustment: -8 non-virtual] // TEST9-W-NEXT: 1 | void A::z() // TEST9-W: Thunks for 'void D::f()' (1 entry). // TEST9-W-NEXT: 0 | [this adjustment: -8 non-virtual] // TEST9-W-NOT: VFTable indices for 'Test9::W' // MANGLING-DAG: @"\01??_7W@Test9@@6BA@@@" // MANGLING-DAG: @"\01??_7W@Test9@@6BD@@@" // MANGLING-DAG: @"\01??_7W@Test9@@6BX@1@@" // FIXME: these two are wrong: // INCORRECT MANGLING-DAG: @"\01??_7W@Test9@@6BB@@@" // MANGLING-DAG-SHOULD-BE: @"\01??_7W@Test9@@6B@" // INCORRECT MANGLING-DAG: @"\01??_7W@Test9@@6BY@1@Z@1@@" // MANGLING-DAG-SHOULD-BE: @"\01??_7W@Test9@@6BY@1@@" }; W w; struct T : Z, D, virtual A, virtual B { // TEST9-T: VFTable for 'Test9::Y' in 'Test9::Z' in 'Test9::T' (1 entries). // TEST9-T-NEXT: 0 | void Test9::T::h() // TEST9-T: VFTable for 'A' in 'Test9::X' in 'Test9::Y' in 'Test9::Z' in 'Test9::T' (2 entries). // TEST9-T-NEXT: 0 | void Test9::T::f() // TEST9-T-NEXT: 1 | void Test9::T::z() // TEST9-T: VFTable for 'B' in 'Test9::Z' in 'Test9::T' (1 entries). // TEST9-T-NEXT: 0 | void Test9::T::g() // TEST9-T: VFTable for 'D' in 'Test9::T' (1 entries). // TEST9-T-NEXT: 0 | void Test9::T::h() // TEST9-T-NEXT: [this adjustment: -8 non-virtual] // TEST9-T: Thunks for 'void Test9::T::h()' (1 entry). // TEST9-T-NEXT: 0 | [this adjustment: -8 non-virtual] // TEST9-T: VFTable for 'A' in 'D' in 'Test9::T' (2 entries). // TEST9-T-NEXT: 0 | void Test9::T::f() // TEST9-T-NEXT: [this adjustment: -8 non-virtual] // TEST9-T-NEXT: 1 | void Test9::T::z() // TEST9-T-NEXT: [this adjustment: -8 non-virtual] // TEST9-T: Thunks for 'void Test9::T::f()' (1 entry). // TEST9-T-NEXT: 0 | [this adjustment: -8 non-virtual] // TEST9-T: Thunks for 'void Test9::T::z()' (1 entry). // TEST9-T-NEXT: 0 | [this adjustment: -8 non-virtual] // TEST9-T: VFTable indices for 'Test9::T' (4 entries). // TEST9-T-NEXT: via vfptr at offset 0 // TEST9-T-NEXT: 0 | void Test9::T::h() // TEST9-T-NEXT: via vbtable index 1, vfptr at offset 0 // TEST9-T-NEXT: 0 | void Test9::T::f() // TEST9-T-NEXT: 1 | void Test9::T::z() // TEST9-T-NEXT: via vbtable index 2, vfptr at offset 0 // TEST9-T-NEXT: 0 | void Test9::T::g() // MANGLING-DAG: @"\01??_7T@Test9@@6BA@@@" // MANGLING-DAG: @"\01??_7T@Test9@@6BD@@@" // MANGLING-DAG: @"\01??_7T@Test9@@6BX@1@@" // FIXME: these two are wrong: // INCORRECT MANGLING-DAG: @"\01??_7T@Test9@@6BB@@@" // MANGLING-DAG-SHOULD-BE: @"\01??_7T@Test9@@6B@" // INCORRECT MANGLING-DAG: @"\01??_7T@Test9@@6BY@1@Z@1@@" // MANGLING-DAG-SHOULD-BE: @"\01??_7T@Test9@@6BY@1@@" virtual void f(); virtual void g(); virtual void h(); virtual void z(); }; T t; } namespace Test10 { struct X : virtual C, virtual A { // TEST10: VFTable for 'A' in 'C' in 'Test10::X' (2 entries). // TEST10-NEXT: 0 | void Test10::X::f() // TEST10-NEXT: 1 | void A::z() // TEST10: VFTable indices for 'Test10::X' (1 entries). // TEST10-NEXT: via vbtable index 1, vfptr at offset 0 // TEST10-NEXT: 0 | void Test10::X::f() virtual void f(); }; void X::f() {} X x; } namespace vdtors { struct X { virtual ~X(); virtual void zzz(); }; struct Y : virtual X { // VDTORS-Y: VFTable for 'vdtors::X' in 'vdtors::Y' (2 entries). // VDTORS-Y-NEXT: 0 | vdtors::Y::~Y() [scalar deleting] // VDTORS-Y-NEXT: 1 | void vdtors::X::zzz() // VDTORS-Y-NOT: Thunks for 'vdtors::Y::~Y()' virtual ~Y(); }; Y y; struct Z { virtual void z(); }; struct W : Z, X { // Implicit virtual dtor. }; struct U : virtual W { // VDTORS-U: VFTable for 'vdtors::Z' in 'vdtors::W' in 'vdtors::U' (1 entries). // VDTORS-U-NEXT: 0 | void vdtors::Z::z() // VDTORS-U: VFTable for 'vdtors::X' in 'vdtors::W' in 'vdtors::U' (2 entries). // VDTORS-U-NEXT: 0 | vdtors::U::~U() [scalar deleting] // VDTORS-U-NEXT: [this adjustment: -4 non-virtual] // VDTORS-U-NEXT: 1 | void vdtors::X::zzz() // VDTORS-U: Thunks for 'vdtors::W::~W()' (1 entry). // VDTORS-U-NEXT: 0 | [this adjustment: -4 non-virtual] // VDTORS-U: VFTable indices for 'vdtors::U' (1 entries). // VDTORS-U-NEXT: -- accessible via vbtable index 1, vfptr at offset 4 -- // VDTORS-U-NEXT: 0 | vdtors::U::~U() [scalar deleting] virtual ~U(); }; U u; struct V : virtual W { // VDTORS-V: VFTable for 'vdtors::Z' in 'vdtors::W' in 'vdtors::V' (1 entries). // VDTORS-V-NEXT: 0 | void vdtors::Z::z() // VDTORS-V: VFTable for 'vdtors::X' in 'vdtors::W' in 'vdtors::V' (2 entries). // VDTORS-V-NEXT: 0 | vdtors::V::~V() [scalar deleting] // VDTORS-V-NEXT: [this adjustment: -4 non-virtual] // VDTORS-V-NEXT: 1 | void vdtors::X::zzz() // VDTORS-V: Thunks for 'vdtors::W::~W()' (1 entry). // VDTORS-V-NEXT: 0 | [this adjustment: -4 non-virtual] // VDTORS-V: VFTable indices for 'vdtors::V' (1 entries). // VDTORS-V-NEXT: -- accessible via vbtable index 1, vfptr at offset 4 -- // VDTORS-V-NEXT: 0 | vdtors::V::~V() [scalar deleting] }; V v; struct T : virtual X { virtual ~T(); }; struct P : T, Y { // VDTORS-P: VFTable for 'vdtors::X' in 'vdtors::T' in 'vdtors::P' (2 entries). // VDTORS-P-NEXT: 0 | vdtors::P::~P() [scalar deleting] // VDTORS-P-NEXT: 1 | void vdtors::X::zzz() // VDTORS-P-NOT: Thunks for 'vdtors::P::~P()' virtual ~P(); }; P p; } namespace return_adjustment { struct X : virtual A { virtual void f(); }; struct Y : virtual A, virtual X { virtual void f(); }; struct Z { virtual A* foo(); }; struct W : Z { // RET-W: VFTable for 'return_adjustment::Z' in 'return_adjustment::W' (2 entries). // RET-W-NEXT: 0 | return_adjustment::X *return_adjustment::W::foo() // RET-W-NEXT: [return adjustment: vbase #1, 0 non-virtual] // RET-W-NEXT: 1 | return_adjustment::X *return_adjustment::W::foo() // RET-W: VFTable indices for 'return_adjustment::W' (1 entries). // RET-W-NEXT: 1 | return_adjustment::X *return_adjustment::W::foo() virtual X* foo(); }; W y; struct T : W { // RET-T: VFTable for 'return_adjustment::Z' in 'return_adjustment::W' in 'return_adjustment::T' (3 entries). // RET-T-NEXT: 0 | return_adjustment::Y *return_adjustment::T::foo() // RET-T-NEXT: [return adjustment: vbase #1, 0 non-virtual] // RET-T-NEXT: 1 | return_adjustment::Y *return_adjustment::T::foo() // RET-T-NEXT: [return adjustment: vbase #2, 0 non-virtual] // RET-T-NEXT: 2 | return_adjustment::Y *return_adjustment::T::foo() // RET-T: VFTable indices for 'return_adjustment::T' (1 entries). // RET-T-NEXT: 2 | return_adjustment::Y *return_adjustment::T::foo() virtual Y* foo(); }; T t; struct U : virtual A { virtual void g(); // adds a vfptr }; struct V : Z { // RET-V: VFTable for 'return_adjustment::Z' in 'return_adjustment::V' (2 entries). // RET-V-NEXT: 0 | return_adjustment::U *return_adjustment::V::foo() // RET-V-NEXT: [return adjustment: vbptr at offset 4, vbase #1, 0 non-virtual] // RET-V-NEXT: 1 | return_adjustment::U *return_adjustment::V::foo() // RET-V: VFTable indices for 'return_adjustment::V' (1 entries). // RET-V-NEXT: 1 | return_adjustment::U *return_adjustment::V::foo() virtual U* foo(); }; V v; }