// RUN: %clang_cc1 -triple i386-unknown-unknown -std=c++11 %s -emit-llvm -o - | FileCheck %s namespace Test1 { struct A { virtual int f() final; }; // CHECK-LABEL: define{{.*}} i32 @_ZN5Test11fEPNS_1AE int f(A *a) { // CHECK: call i32 @_ZN5Test11A1fEv return a->f(); } } namespace Test2 { struct A final { virtual int f(); }; // CHECK-LABEL: define{{.*}} i32 @_ZN5Test21fEPNS_1AE int f(A *a) { // CHECK: call i32 @_ZN5Test21A1fEv return a->f(); } } namespace Test2a { struct A { virtual ~A() final {} virtual int f(); }; // CHECK-LABEL: define{{.*}} i32 @_ZN6Test2a1fEPNS_1AE int f(A *a) { // CHECK: call i32 @_ZN6Test2a1A1fEv return a->f(); } } namespace Test3 { struct A { virtual int f(); }; struct B final : A { }; // CHECK-LABEL: define{{.*}} i32 @_ZN5Test31fEPNS_1BE int f(B *b) { // CHECK: call i32 @_ZN5Test31A1fEv return b->f(); } // CHECK-LABEL: define{{.*}} i32 @_ZN5Test31fERNS_1BE int f(B &b) { // CHECK: call i32 @_ZN5Test31A1fEv return b.f(); } // CHECK-LABEL: define{{.*}} i32 @_ZN5Test31fEPv int f(void *v) { // CHECK: call i32 @_ZN5Test31A1fEv return static_cast(v)->f(); } } namespace Test4 { struct A { virtual void f(); virtual int operator-(); }; struct B final : A { virtual void f(); virtual int operator-(); }; // CHECK-LABEL: define{{.*}} void @_ZN5Test41fEPNS_1BE void f(B* d) { // CHECK: call void @_ZN5Test41B1fEv static_cast(d)->f(); // CHECK: call i32 @_ZN5Test41BngEv -static_cast(*d); } } namespace Test5 { struct A { virtual void f(); virtual int operator-(); }; struct B : A { virtual void f(); virtual int operator-(); }; struct C final : B { }; // CHECK-LABEL: define{{.*}} void @_ZN5Test51fEPNS_1CE void f(C* d) { // FIXME: It should be possible to devirtualize this case, but that is // not implemented yet. // CHECK: getelementptr // CHECK-NEXT: %[[FUNC:.*]] = load // CHECK-NEXT: call void %[[FUNC]] static_cast(d)->f(); } // CHECK-LABEL: define{{.*}} void @_ZN5Test53fopEPNS_1CE void fop(C* d) { // FIXME: It should be possible to devirtualize this case, but that is // not implemented yet. // CHECK: getelementptr // CHECK-NEXT: %[[FUNC:.*]] = load // CHECK-NEXT: call i32 %[[FUNC]] -static_cast(*d); } } namespace Test6 { struct A { virtual ~A(); }; struct B : public A { virtual ~B(); }; struct C { virtual ~C(); }; struct D final : public C, public B { }; // CHECK-LABEL: define{{.*}} void @_ZN5Test61fEPNS_1DE void f(D* d) { // CHECK: call void @_ZN5Test61DD1Ev static_cast(d)->~A(); } } namespace Test7 { struct foo { virtual void g() {} }; struct bar { virtual int f() { return 0; } }; struct zed final : public foo, public bar { int z; virtual int f() {return z;} }; // CHECK-LABEL: define{{.*}} i32 @_ZN5Test71fEPNS_3zedE int f(zed *z) { // CHECK: alloca // CHECK-NEXT: store // CHECK-NEXT: load // CHECK-NEXT: call i32 @_ZN5Test73zed1fEv // CHECK-NEXT: ret return static_cast(z)->f(); } } namespace Test8 { struct A { virtual ~A() {} }; struct B { int b; virtual int foo() { return b; } }; struct C final : A, B { }; // CHECK-LABEL: define{{.*}} i32 @_ZN5Test84testEPNS_1CE int test(C *c) { // CHECK: %[[THIS:.*]] = phi // CHECK-NEXT: call i32 @_ZN5Test81B3fooEv(%"struct.Test8::B"* {{[^,]*}} %[[THIS]]) return static_cast(c)->foo(); } } namespace Test9 { struct A { int a; }; struct B { int b; }; struct C : public B, public A { }; struct RA { virtual A *f() { return 0; } virtual A *operator-() { return 0; } }; struct RC final : public RA { virtual C *f() { C *x = new C(); x->a = 1; x->b = 2; return x; } virtual C *operator-() { C *x = new C(); x->a = 1; x->b = 2; return x; } }; // CHECK: define {{.*}} @_ZN5Test91fEPNS_2RCE A *f(RC *x) { // FIXME: It should be possible to devirtualize this case, but that is // not implemented yet. // CHECK: load // CHECK: bitcast // CHECK: [[F_PTR_RA:%.+]] = bitcast // CHECK: [[VTABLE:%.+]] = load {{.+}} [[F_PTR_RA]] // CHECK: [[VFN:%.+]] = getelementptr inbounds {{.+}} [[VTABLE]], i{{[0-9]+}} 0 // CHECK-NEXT: %[[FUNC:.*]] = load {{.+}} [[VFN]] // CHECK-NEXT: = call {{.*}} %[[FUNC]] return static_cast(x)->f(); } // CHECK: define {{.*}} @_ZN5Test93fopEPNS_2RCE A *fop(RC *x) { // FIXME: It should be possible to devirtualize this case, but that is // not implemented yet. // CHECK: load // CHECK: bitcast // CHECK: [[F_PTR_RA:%.+]] = bitcast // CHECK: [[VTABLE:%.+]] = load {{.+}} [[F_PTR_RA]] // CHECK: [[VFN:%.+]] = getelementptr inbounds {{.+}} [[VTABLE]], i{{[0-9]+}} 1 // CHECK-NEXT: %[[FUNC:.*]] = load {{.+}} [[VFN]] // CHECK-NEXT: = call {{.*}} %[[FUNC]] return -static_cast(*x); } } namespace Test10 { struct A { virtual int f(); }; struct B : A { int f() final; }; // CHECK-LABEL: define{{.*}} i32 @_ZN6Test101fEPNS_1BE int f(B *b) { // CHECK: call i32 @_ZN6Test101B1fEv return static_cast(b)->f(); } } namespace TestVBase { struct A { virtual void f(); }; struct B : virtual A {}; struct C : virtual A { void f() override; }; extern struct BC final : B, C {} &bc; extern struct BCusingA final : B, C { using A::f; } &bc_using_a; extern struct BCusingB final : B, C { using B::f; } &bc_using_b; extern struct BCusingC final : B, C { using C::f; } &bc_using_c; extern struct CB final : C, B {} &cb; extern struct CBusingA final : C, B { using A::f; } &cb_using_a; extern struct CBusingB final : C, B { using B::f; } &cb_using_b; extern struct CBusingC final : C, B { using C::f; } &cb_using_c; // CHECK-LABEL: @_ZN9TestVBase4testEv( void test() { // FIXME: The 'using A' case can be devirtualized to call A's virtual // adjustment thunk for C::f. // FIXME: The 'using B' case can be devirtualized, but requires us to emit // a derived-to-base or base-to-derived conversion as part of // devirtualization. // CHECK: call void @_ZN9TestVBase1C1fEv( bc.f(); // CHECK: call void % bc_using_a.f(); // CHECK: call void % bc_using_b.f(); // CHECK: call void @_ZN9TestVBase1C1fEv( bc_using_c.f(); // CHECK: call void @_ZN9TestVBase1C1fEv( cb.f(); // CHECK: call void % cb_using_a.f(); // CHECK: call void % cb_using_b.f(); // CHECK: call void @_ZN9TestVBase1C1fEv( cb_using_c.f(); } } namespace Test11 { // Check that the definitions of Derived's operators are emitted. // CHECK-LABEL: define linkonce_odr void @_ZN6Test111SIiE4foo1Ev( // CHECK: call void @_ZN6Test111SIiE7DerivedclEv( // CHECK: call zeroext i1 @_ZN6Test111SIiE7DerivedeqERKNS_4BaseE( // CHECK: call zeroext i1 @_ZN6Test111SIiE7DerivedntEv( // CHECK: call nonnull align 4 dereferenceable(4) %"class.Test11::Base"* @_ZN6Test111SIiE7DerivedixEi( // CHECK: define linkonce_odr void @_ZN6Test111SIiE7DerivedclEv( // CHECK: define linkonce_odr zeroext i1 @_ZN6Test111SIiE7DerivedeqERKNS_4BaseE( // CHECK: define linkonce_odr zeroext i1 @_ZN6Test111SIiE7DerivedntEv( // CHECK: define linkonce_odr nonnull align 4 dereferenceable(4) %"class.Test11::Base"* @_ZN6Test111SIiE7DerivedixEi( class Base { public: virtual void operator()() {} virtual bool operator==(const Base &other) { return false; } virtual bool operator!() { return false; } virtual Base &operator[](int i) { return *this; } }; template struct S { class Derived final : public Base { public: void operator()() override {} bool operator==(const Base &other) override { return true; } bool operator!() override { return true; } Base &operator[](int i) override { return *this; } }; Derived *ptr = nullptr, *ptr2 = nullptr; void foo1() { if (ptr && ptr2) { // These calls get devirtualized. Linkage fails if the definitions of // the called functions are not emitted. (*ptr)(); (void)(*ptr == *ptr2); (void)(!(*ptr)); (void)((*ptr)[1]); } } }; void foo2() { S *s = new S; s->foo1(); } }