// RUN: %clang_cc1 %s -fno-rtti -triple=i386-pc-win32 -emit-llvm -fdump-vtable-layouts -o %t.ll > %t // RUN: FileCheck --check-prefix=EMITS-VFTABLE %s < %t.ll // RUN: FileCheck --check-prefix=NO-VFTABLE %s < %t.ll // RUN: FileCheck %s < %t struct A { // CHECK-LABEL: VFTable for 'A' (3 entries) // CHECK-NEXT: 0 | void A::f() // CHECK-NEXT: 1 | void A::g() // CHECK-NEXT: 2 | void A::h() // CHECK-LABEL: VFTable indices for 'A' (3 entries) // CHECK-NEXT: 0 | void A::f() // CHECK-NEXT: 1 | void A::g() // CHECK-NEXT: 2 | void A::h() virtual void f(); virtual void g(); virtual void h(); int ia; }; A a; // EMITS-VFTABLE-DAG: @"??_7A@@6B@" = linkonce_odr unnamed_addr constant { [3 x i8*] } void use(A *obj) { obj->f(); } struct B : A { // CHECK-LABEL: VFTable for 'A' in 'B' (5 entries) // CHECK-NEXT: 0 | void B::f() // CHECK-NEXT: 1 | void A::g() // CHECK-NEXT: 2 | void A::h() // CHECK-NEXT: 3 | void B::i() // CHECK-NEXT: 4 | void B::j() // CHECK-LABEL: VFTable indices for 'B' (3 entries) // CHECK-NEXT: 0 | void B::f() // CHECK-NEXT: 3 | void B::i() // CHECK-NEXT: 4 | void B::j() virtual void f(); // overrides A::f() virtual void i(); virtual void j(); }; B b; // EMITS-VFTABLE-DAG: @"??_7B@@6B@" = linkonce_odr unnamed_addr constant { [5 x i8*] } void use(B *obj) { obj->f(); } struct C { // CHECK-LABEL: VFTable for 'C' (2 entries) // CHECK-NEXT: 0 | C::~C() [scalar deleting] // CHECK-NEXT: 1 | void C::f() // CHECK-LABEL: VFTable indices for 'C' (2 entries). // CHECK-NEXT: 0 | C::~C() [scalar deleting] // CHECK-NEXT: 1 | void C::f() virtual ~C(); virtual void f(); }; void C::f() {} // NO-VFTABLE-NOT: @"??_7C@@6B@" void use(C *obj) { obj->f(); } struct D { // CHECK-LABEL: VFTable for 'D' (2 entries) // CHECK-NEXT: 0 | void D::f() // CHECK-NEXT: 1 | D::~D() [scalar deleting] // CHECK-LABEL: VFTable indices for 'D' (2 entries) // CHECK-NEXT: 0 | void D::f() // CHECK-NEXT: 1 | D::~D() [scalar deleting] virtual void f(); virtual ~D(); }; D d; // EMITS-VFTABLE-DAG: @"??_7D@@6B@" = linkonce_odr unnamed_addr constant { [2 x i8*] } void use(D *obj) { obj->f(); } struct E : A { // CHECK-LABEL: VFTable for 'A' in 'E' (5 entries) // CHECK-NEXT: 0 | void A::f() // CHECK-NEXT: 1 | void A::g() // CHECK-NEXT: 2 | void A::h() // CHECK-NEXT: 3 | E::~E() [scalar deleting] // CHECK-NEXT: 4 | void E::i() // CHECK-LABEL: VFTable indices for 'E' (2 entries). // CHECK-NEXT: 3 | E::~E() [scalar deleting] // CHECK-NEXT: 4 | void E::i() // ~E would be the key method, but it isn't used, and MS ABI has no key // methods. virtual ~E(); virtual void i(); }; void E::i() {} // NO-VFTABLE-NOT: @"??_7E@@6B@" void use(E *obj) { obj->i(); } struct F : A { // CHECK-LABEL: VFTable for 'A' in 'F' (5 entries) // CHECK-NEXT: 0 | void A::f() // CHECK-NEXT: 1 | void A::g() // CHECK-NEXT: 2 | void A::h() // CHECK-NEXT: 3 | void F::i() // CHECK-NEXT: 4 | F::~F() [scalar deleting] // CHECK-LABEL: VFTable indices for 'F' (2 entries). // CHECK-NEXT: 3 | void F::i() // CHECK-NEXT: 4 | F::~F() [scalar deleting] virtual void i(); virtual ~F(); }; F f; // EMITS-VFTABLE-DAG: @"??_7F@@6B@" = linkonce_odr unnamed_addr constant { [5 x i8*] } void use(F *obj) { obj->i(); } struct G : E { // CHECK-LABEL: VFTable for 'A' in 'E' in 'G' (6 entries) // CHECK-NEXT: 0 | void G::f() // CHECK-NEXT: 1 | void A::g() // CHECK-NEXT: 2 | void A::h() // CHECK-NEXT: 3 | G::~G() [scalar deleting] // CHECK-NEXT: 4 | void E::i() // CHECK-NEXT: 5 | void G::j() // CHECK-LABEL: VFTable indices for 'G' (3 entries). // CHECK-NEXT: 0 | void G::f() // CHECK-NEXT: 3 | G::~G() [scalar deleting] // CHECK-NEXT: 5 | void G::j() virtual void f(); // overrides A::f() virtual ~G(); virtual void j(); }; void G::j() {} // NO-VFTABLE-NOT: @"??_7G@@6B@" void use(G *obj) { obj->j(); } // Test that the usual Itanium-style key method does not emit a vtable. struct H { virtual void f(); }; void H::f() {} // NO-VFTABLE-NOT: @"??_7H@@6B@" struct Empty { }; struct I : Empty { // CHECK-LABEL: VFTable for 'I' (2 entries) // CHECK-NEXT: 0 | void I::f() // CHECK-NEXT: 1 | void I::g() virtual void f(); virtual void g(); }; I i; void use(I *obj) { obj->f(); } struct J { // CHECK-LABEL: VFTable for 'J' (6 entries) // CHECK-NEXT: 0 | void J::foo(long) // CHECK-NEXT: 1 | void J::foo(int) // CHECK-NEXT: 2 | void J::foo(short) // CHECK-NEXT: 3 | void J::bar(long) // CHECK-NEXT: 4 | void J::bar(int) // CHECK-NEXT: 5 | void J::bar(short) virtual void foo(short); virtual void bar(short); virtual void foo(int); virtual void bar(int); virtual void foo(long); virtual void bar(long); }; J j; void use(J *obj) { obj->foo(42); } struct K : J { // CHECK-LABEL: VFTable for 'J' in 'K' (9 entries) // CHECK-NEXT: 0 | void J::foo(long) // CHECK-NEXT: 1 | void J::foo(int) // CHECK-NEXT: 2 | void J::foo(short) // CHECK-NEXT: 3 | void J::bar(long) // CHECK-NEXT: 4 | void J::bar(int) // CHECK-NEXT: 5 | void J::bar(short) // CHECK-NEXT: 6 | void K::bar(double) // CHECK-NEXT: 7 | void K::bar(float) // CHECK-NEXT: 8 | void K::foo(float) virtual void bar(float); virtual void foo(float); virtual void bar(double); }; K k; void use(K *obj) { obj->foo(42.0f); } struct L : J { // CHECK-LABEL: VFTable for 'J' in 'L' (9 entries) // CHECK-NEXT: 0 | void J::foo(long) // CHECK-NEXT: 1 | void L::foo(int) // CHECK-NEXT: 2 | void J::foo(short) // CHECK-NEXT: 3 | void J::bar(long) // CHECK-NEXT: 4 | void J::bar(int) // CHECK-NEXT: 5 | void J::bar(short) // CHECK-NEXT: 6 | void L::foo(float) // CHECK-NEXT: 7 | void L::bar(double) // CHECK-NEXT: 8 | void L::bar(float) // This case is interesting. Since the J::foo(int) override is the first method in // the class, foo(float) precedes the bar(double) and bar(float) in the vftable. virtual void foo(int); virtual void bar(float); virtual void foo(float); virtual void bar(double); }; L l; void use(L *obj) { obj->foo(42.0f); } struct M : J { // CHECK-LABEL: VFTable for 'J' in 'M' (11 entries) // CHECK-NEXT: 0 | void J::foo(long) // CHECK-NEXT: 1 | void M::foo(int) // CHECK-NEXT: 2 | void J::foo(short) // CHECK-NEXT: 3 | void J::bar(long) // CHECK-NEXT: 4 | void J::bar(int) // CHECK-NEXT: 5 | void J::bar(short) // CHECK-NEXT: 6 | void M::foo(float) // CHECK-NEXT: 7 | void M::spam(long) // CHECK-NEXT: 8 | void M::spam(int) // CHECK-NEXT: 9 | void M::bar(double) // CHECK-NEXT: 10 | void M::bar(float) virtual void foo(int); virtual void spam(int); virtual void bar(float); virtual void bar(double); virtual void foo(float); virtual void spam(long); }; M m; void use(M *obj) { obj->foo(42.0f); } struct N { // CHECK-LABEL: VFTable for 'N' (4 entries) // CHECK-NEXT: 0 | void N::operator+(int) // CHECK-NEXT: 1 | void N::operator+(short) // CHECK-NEXT: 2 | void N::operator*(int) // CHECK-NEXT: 3 | void N::operator*(short) virtual void operator+(short); virtual void operator*(short); virtual void operator+(int); virtual void operator*(int); }; N n; void use(N *obj) { obj->operator+(42); } struct O { virtual A *f(); }; struct P : O { virtual B *f(); }; P p; void use(O *obj) { obj->f(); } void use(P *obj) { obj->f(); } // CHECK-LABEL: VFTable for 'O' (1 entry) // CHECK-NEXT: 0 | A *O::f() // CHECK-LABEL: VFTable for 'O' in 'P' (1 entry) // CHECK-NEXT: 0 | B *P::f() struct Q { // CHECK-LABEL: VFTable for 'Q' (2 entries) // CHECK-NEXT: 0 | void Q::foo(int) // CHECK-NEXT: 1 | void Q::bar(int) void foo(short); void bar(short); virtual void bar(int); virtual void foo(int); }; Q q; void use(Q *obj) { obj->foo(42); } // Inherited non-virtual overloads don't participate in the ordering. struct R : Q { // CHECK-LABEL: VFTable for 'Q' in 'R' (4 entries) // CHECK-NEXT: 0 | void Q::foo(int) // CHECK-NEXT: 1 | void Q::bar(int) // CHECK-NEXT: 2 | void R::bar(long) // CHECK-NEXT: 3 | void R::foo(long) virtual void bar(long); virtual void foo(long); }; R r; void use(R *obj) { obj->foo(42l); } struct S { // CHECK-LABEL: VFTable for 'S' (1 entry). // CHECK-NEXT: 0 | void S::f() [deleted] virtual void f() = delete; S(); // EMITS-VFTABLE-DAG: @"??_7S@@6B@" = linkonce_odr unnamed_addr constant { [1 x i8*] } { [1 x i8*] [i8* bitcast (void ()* @_purecall to i8*)] } }; S::S() {} struct T { struct U {}; }; struct V : T { // CHECK-LABEL: VFTable for 'V' (2 entries). // CHECK-NEXT: 0 | void V::U() // CHECK-NEXT: 1 | void V::f() using T::U; virtual void f(); virtual void U(); V(); }; V::V() {}