// RUN: %clang_cc1 -fno-rtti -emit-llvm -fdump-vtable-layouts %s -o %t.ll -cxx-abi microsoft -triple=i386-pc-win32 >%t // RUN: FileCheck --check-prefix=VTABLE-SIMPLE-A %s < %t // RUN: FileCheck --check-prefix=VTABLE-SIMPLE-B %s < %t // RUN: FileCheck --check-prefix=VTABLE-SIMPLE-C %s < %t // RUN: FileCheck --check-prefix=VTABLE-EXTENDED-A %s < %t // RUN: FileCheck --check-prefix=VTABLE-EXTENDED-B %s < %t // RUN: FileCheck --check-prefix=VTABLE-EXTENDED-C %s < %t // RUN: FileCheck --check-prefix=VTABLE-EXTENDED-E %s < %t // RUN: FileCheck --check-prefix=VTABLE-EXTENDED-F %s < %t // RUN: FileCheck --check-prefix=VTABLE-EXTENDED-G %s < %t // RUN: FileCheck --check-prefix=VTABLE-EXTENDED-H %s < %t // RUN: FileCheck --check-prefix=VTABLE-PR17738-A %s < %t // RUN: FileCheck --check-prefix=MANGLING %s < %t.ll // For now, just make sure x86_64 doesn't crash. // RUN: %clang_cc1 -fno-rtti -emit-llvm-only -fdump-vtable-layouts %s -cxx-abi microsoft -triple=x86_64-pc-win32 >/dev/null struct V1 { virtual void f(); virtual ~V1(); }; struct V2 { virtual void f(); virtual ~V2(); int v; }; struct Z { virtual void g(); virtual ~Z(); int x; }; struct V3 : Z, V2 { }; struct V4 : Z, V1, V2 { int y; }; void use_somewhere_else(void*); namespace simple { // In case of a single-layer virtual inheritance, the "this" adjustment is done // staically: // struct A { // virtual void f(); // Expects "(A*)this" in ECX // }; // struct B : virtual A { // virtual void f(); // Expects "(char*)(B*)this + 12" in ECX // virtual ~B(); // Might call f() // }; // // If a class overrides a virtual function of its base and has a non-trivial // ctor/dtor that call(s) the virtual function (or may escape "this" to some // code that might call it), a virtual adjustment might be needed in case the // current class layout and the most derived class layout are different. // This is done using vtordisp thunks. // // A simple vtordisp{A,B} thunk for Method@Class is something like: // sub ecx, [ecx+A] // apply the vtordisp adjustment // sub ecx, B // apply the subobject adjustment, if needed. // jmp Method@Class struct A : virtual V1 { // VTABLE-SIMPLE-A: VFTable for 'V1' in 'simple::A' (2 entries). // VTABLE-SIMPLE-A-NEXT: 0 | void simple::A::f() // VTABLE-SIMPLE-A-NEXT: [this adjustment: vtordisp at -4, 0 non-virtual] // VTABLE-SIMPLE-A-NEXT: 1 | simple::A::~A() [scalar deleting] // VTABLE-SIMPLE-A-NEXT: [this adjustment: vtordisp at -4, 0 non-virtual] virtual void f(); // MANGLING-DAG: @"\01?f@A@simple@@$4PPPPPPPM@A@AEXXZ" virtual ~A(); // MANGLING-DAG: @"\01??_EA@simple@@$4PPPPPPPM@A@AEPAXI@Z" }; A a; struct B : virtual V3 { // VTABLE-SIMPLE-B: VFTable for 'Z' in 'V3' in 'simple::B' (2 entries). // VTABLE-SIMPLE-B-NEXT: 0 | void Z::g() // VTABLE-SIMPLE-B-NEXT: 1 | simple::B::~B() [scalar deleting] // VTABLE-SIMPLE-B-NEXT: [this adjustment: vtordisp at -4, 0 non-virtual] // VTABLE-SIMPLE-B: VFTable for 'V2' in 'V3' in 'simple::B' (2 entries). // VTABLE-SIMPLE-B-NEXT: 0 | void simple::B::f() // VTABLE-SIMPLE-B-NEXT: [this adjustment: vtordisp at -12, 0 non-virtual] // VTABLE-SIMPLE-B-NEXT: 1 | simple::B::~B() [scalar deleting] // VTABLE-SIMPLE-B-NEXT: [this adjustment: vtordisp at -12, -8 non-virtual] // FIXME: The vtordisp thunk should only get emitted for a constructor // if "this" leaves scope. B() { use_somewhere_else(this); } virtual void f(); // MANGLING-DAG: @"\01?f@B@simple@@$4PPPPPPPE@A@AEXXZ" // Has an implicit destructor. // MANGLING-DAG: @"\01??_EB@simple@@$4PPPPPPPE@7AEPAXI@Z" // MANGLING-DAG: @"\01??_EB@simple@@$4PPPPPPPM@A@AEPAXI@Z" }; B b; struct C : virtual V4 { // VTABLE-SIMPLE-C: VFTable for 'Z' in 'V4' in 'simple::C' (2 entries). // VTABLE-SIMPLE-C-NEXT: 0 | void Z::g() // VTABLE-SIMPLE-C-NEXT: 1 | simple::C::~C() [scalar deleting] // VTABLE-SIMPLE-C-NEXT: [this adjustment: vtordisp at -4, 0 non-virtual] // VTABLE-SIMPLE-C: VFTable for 'V1' in 'V4' in 'simple::C' (2 entries). // VTABLE-SIMPLE-C-NEXT: 0 | void simple::C::f() // VTABLE-SIMPLE-C-NEXT: [this adjustment: vtordisp at -12, 0 non-virtual] // VTABLE-SIMPLE-C-NEXT: 1 | simple::C::~C() [scalar deleting] // VTABLE-SIMPLE-C-NEXT: [this adjustment: vtordisp at -12, -8 non-virtual] // VTABLE-SIMPLE-C: VFTable for 'V2' in 'V4' in 'simple::C' (2 entries). // VTABLE-SIMPLE-C-NEXT: 0 | void simple::C::f() // VTABLE-SIMPLE-C-NEXT: [this adjustment: vtordisp at -16, -4 non-virtual] // VTABLE-SIMPLE-C-NEXT: 1 | simple::C::~C() [scalar deleting] // VTABLE-SIMPLE-C-NEXT: [this adjustment: vtordisp at -16, -12 non-virtual] int x; virtual void f(); // MANGLING-DAG: @"\01?f@C@simple@@$4PPPPPPPA@3AEXXZ" // MANGLING-DAG: @"\01?f@C@simple@@$4PPPPPPPE@A@AEXXZ" virtual ~C(); // MANGLING-DAG: @"\01??_EC@simple@@$4PPPPPPPA@M@AEPAXI@Z" // MANGLING-DAG: @"\01??_EC@simple@@$4PPPPPPPE@7AEPAXI@Z" // MANGLING-DAG: @"\01??_EC@simple@@$4PPPPPPPM@A@AEPAXI@Z" }; C c; } namespace extended { // If a virtual function requires vtordisp adjustment and the final overrider // is defined in another vitual base of the most derived class, // we need to know two vbase offsets. // In this case, we should use the extended form of vtordisp thunks, called // vtordispex thunks. // // vtordispex{A,B,C,D} thunk for Method@Class is something like: // sub ecx, [ecx+C] // apply the vtordisp adjustment // sub ecx, A // jump to the vbtable of the most derived class // mov eax, [ecx] // load the vbtable address // add ecx, [eax+B] // lookup the final overrider's vbase offset // add ecx, D // apphy the subobject offset if needed // jmp Method@Class struct A : virtual simple::A { // VTABLE-EXTENDED-A: VFTable for 'V1' in 'simple::A' in 'extended::A' (2 entries). // VTABLE-EXTENDED-A-NEXT: 0 | void simple::A::f() // VTABLE-EXTENDED-A-NEXT: [this adjustment: vtordisp at -4, vbptr at 8 to the left, // VTABLE-EXTENDED-A-NEXT: vboffset at 8 in the vbtable, 8 non-virtual] // VTABLE-EXTENDED-A-NEXT: 1 | extended::A::~A() [scalar deleting] // VTABLE-EXTENDED-A-NEXT: [this adjustment: vtordisp at -4, 0 non-virtual] // `vtordispex{8,8,4294967292,8}' // MANGLING-DAG: @"\01?f@A@simple@@$R477PPPPPPPM@7AEXXZ" virtual ~A(); // vtordisp{4294967292,0} // MANGLING-DAG: @"\01??_EA@extended@@$4PPPPPPPM@A@AEPAXI@Z" }; A a; struct B : virtual simple::A { // This class has an implicit dtor. Vdtors don't require vtordispex thunks // as the most derived class always has an implicit dtor, // which is a final overrider. // VTABLE-EXTENDED-B: VFTable for 'V1' in 'simple::A' in 'extended::B' (2 entries). // ... // VTABLE-EXTENDED-B: 1 | extended::B::~B() [scalar deleting] // VTABLE-EXTENDED-B-NEXT: [this adjustment: vtordisp at -4, 0 non-virtual] // vtordisp{4294967292,0} // MANGLING-DAG: @"\01??_EB@extended@@$4PPPPPPPM@A@AEPAXI@Z" }; B b; struct C : virtual simple::A { // VTABLE-EXTENDED-C: VFTable for 'V1' in 'simple::A' in 'extended::C' (2 entries). // VTABLE-EXTENDED-C-NEXT: 0 | void simple::A::f() // VTABLE-EXTENDED-C-NEXT: [this adjustment: vtordisp at -4, vbptr at 12 to the left, // VTABLE-EXTENDED-C-NEXT: vboffset at 8 in the vbtable, 8 non-virtual] // `vtordispex{12,8,4294967292,8}' // MANGLING-DAG: @"\01?f@A@simple@@$R4M@7PPPPPPPM@7AEXXZ" int x; virtual ~C(); // MANGLING-DAG: @"\01??_EC@extended@@$4PPPPPPPM@A@AEPAXI@Z" }; C c; struct D : virtual V2 { virtual void f(); virtual ~D(); int x; }; struct E : virtual D { // VTABLE-EXTENDED-E: VFTable for 'V2' in 'extended::D' in 'extended::E' (2 entries). // VTABLE-EXTENDED-E-NEXT: 0 | void extended::D::f() // VTABLE-EXTENDED-E-NEXT: [this adjustment: vtordisp at -4, vbptr at 8 to the left, // VTABLE-EXTENDED-E-NEXT: vboffset at 8 in the vbtable, 12 non-virtual] // `vtordispex{8,8,4294967292,12}' // MANGLING-DAG: @"\01?f@D@extended@@$R477PPPPPPPM@M@AEXXZ" virtual ~E(); // MANGLING-DAG: @"\01??_EE@extended@@$4PPPPPPPM@A@AEPAXI@Z" }; E e; struct F : virtual Z, virtual D { // VTABLE-EXTENDED-F: VFTable for 'V2' in 'extended::D' in 'extended::F' (2 entries). // VTABLE-EXTENDED-F-NEXT: 0 | void extended::D::f() // VTABLE-EXTENDED-F-NEXT: [this adjustment: vtordisp at -4, vbptr at 20 to the left, // VTABLE-EXTENDED-F-NEXT: vboffset at 12 in the vbtable, 12 non-virtual] // `vtordispex{20,12,4294967292,12}' // MANGLING-DAG: @"\01?f@D@extended@@$R4BE@M@PPPPPPPM@M@AEXXZ" int x; virtual ~F(); // MANGLING-DAG: @"\01??_EF@extended@@$4PPPPPPPM@M@AEPAXI@Z" }; F f; struct G : virtual simple::A { // VTABLE-EXTENDED-G: VFTable for 'extended::G' (1 entries). // VTABLE-EXTENDED-G-NEXT: 0 | void extended::G::g() // VTABLE-EXTENDED-G: VFTable for 'V1' in 'simple::A' in 'extended::G' (2 entries). // VTABLE-EXTENDED-G-NEXT: 0 | void simple::A::f() // VTABLE-EXTENDED-G-NEXT: [this adjustment: vtordisp at -4, vbptr at 8 to the left, // VTABLE-EXTENDED-G-NEXT: vboffset at 8 in the vbtable, 8 non-virtual] // VTABLE-EXTENDED-G-NEXT: 1 | extended::G::~G() [scalar deleting] // VTABLE-EXTENDED-G-NEXT: [this adjustment: vtordisp at -4, 0 non-virtual] // Emits a G's own vfptr, thus moving the vbptr in the layout. virtual void g(); virtual ~G(); // vtordisp{4294967292,0} // MANGLING-DAG: @"\01??_EG@extended@@$4PPPPPPPM@A@AEPAXI@Z" }; G g; struct H : Z, A { // VTABLE-EXTENDED-H: VFTable for 'Z' in 'extended::H' (2 entries). // VTABLE-EXTENDED-H-NEXT: 0 | void Z::g() // VTABLE-EXTENDED-H-NEXT: 1 | extended::H::~H() [scalar deleting] // VTABLE-EXTENDED-H: VFTable for 'V1' in 'simple::A' in 'extended::A' in 'extended::H' (2 entries). // VTABLE-EXTENDED-H-NEXT: 0 | void simple::A::f() // VTABLE-EXTENDED-H-NEXT: [this adjustment: vtordisp at -4, vbptr at 8 to the left, // VTABLE-EXTENDED-H-NEXT: vboffset at 8 in the vbtable, 8 non-virtual] // MANGLING-DAG: @"\01?f@A@simple@@$R477PPPPPPPM@7AEXXZ" // MANGLING-DAG: @"\01??_EH@extended@@$4PPPPPPPM@BA@AEPAXI@Z" }; H h; } namespace pr17738 { // These classes should have vtordispex thunks but MSVS CL miscompiles them. // Just do the right thing. struct A : virtual simple::B { // VTABLE-PR17738-A: VFTable for 'V2' in 'V3' in 'simple::B' in 'pr17738::A' (2 entries). // VTABLE-PR17738-A-NEXT: 0 | void simple::B::f() // VTABLE-PR17738-A-NEXT: [this adjustment: vtordisp at -12, vbptr at 20 to the left, // VTABLE-PR17738-A-NEXT: vboffset at 8 in the vbtable, 16 non-virtual] // MANGLING-DAG: @"\01?f@B@simple@@$R4BE@7PPPPPPPE@BA@AEXXZ" int a; virtual ~A(); }; A a; } namespace access { struct A { virtual ~A(); protected: virtual void prot(); private: virtual void priv(); }; struct B : virtual A { virtual ~B(); protected: virtual void prot(); // MANGLING-DAG: @"\01?prot@B@access@@$2PPPPPPPM@A@AEXXZ" private: virtual void priv(); // MANGLING-DAG: @"\01?priv@B@access@@$0PPPPPPPM@A@AEXXZ" }; B b; struct C : virtual B { virtual ~C(); // MANGLING-DAG: @"\01?prot@B@access@@$R277PPPPPPPM@7AEXXZ" // MANGLING-DAG: @"\01?priv@B@access@@$R077PPPPPPPM@7AEXXZ" }; C c; }