llvm-project/clang/test/CodeGenCXX/microsoft-abi-structors.cpp

443 lines
16 KiB
C++

// RUN: %clang_cc1 -emit-llvm -fno-rtti %s -std=c++11 -o - -mconstructor-aliases -triple=i386-pc-win32 -fno-rtti > %t
// RUN: FileCheck %s < %t
// vftables are emitted very late, so do another pass to try to keep the checks
// in source order.
// RUN: FileCheck --check-prefix DTORS %s < %t
// RUN: FileCheck --check-prefix DTORS2 %s < %t
// RUN: FileCheck --check-prefix DTORS3 %s < %t
//
// RUN: %clang_cc1 -emit-llvm %s -o - -mconstructor-aliases -triple=x86_64-pc-win32 -fno-rtti | FileCheck --check-prefix DTORS-X64 %s
namespace basic {
class A {
public:
A() { }
~A();
};
void no_constructor_destructor_infinite_recursion() {
A a;
// CHECK: define linkonce_odr x86_thiscallcc %"class.basic::A"* @"\01??0A@basic@@QAE@XZ"(%"class.basic::A"* returned %this)
// CHECK: [[THIS_ADDR:%[.0-9A-Z_a-z]+]] = alloca %"class.basic::A"*, align 4
// CHECK-NEXT: store %"class.basic::A"* %this, %"class.basic::A"** [[THIS_ADDR]], align 4
// CHECK-NEXT: [[T1:%[.0-9A-Z_a-z]+]] = load %"class.basic::A"** [[THIS_ADDR]]
// CHECK-NEXT: ret %"class.basic::A"* [[T1]]
// CHECK-NEXT: }
}
A::~A() {
// Make sure that the destructor doesn't call itself:
// CHECK: define {{.*}} @"\01??1A@basic@@QAE@XZ"
// CHECK-NOT: call void @"\01??1A@basic@@QAE@XZ"
// CHECK: ret
}
struct B {
B();
};
// Tests that we can define constructors outside the class (PR12784).
B::B() {
// CHECK: define x86_thiscallcc %"struct.basic::B"* @"\01??0B@basic@@QAE@XZ"(%"struct.basic::B"* returned %this)
// CHECK: ret
}
struct C {
virtual ~C() {
// DTORS: define linkonce_odr x86_thiscallcc void @"\01??_GC@basic@@UAEPAXI@Z"(%"struct.basic::C"* %this, i32 %should_call_delete)
// DTORS: store i32 %should_call_delete, i32* %[[SHOULD_DELETE_VAR:[0-9a-z._]+]], align 4
// DTORS: %[[SHOULD_DELETE_VALUE:[0-9a-z._]+]] = load i32* %[[SHOULD_DELETE_VAR]]
// DTORS: call x86_thiscallcc void @"\01??1C@basic@@UAE@XZ"(%"struct.basic::C"* %[[THIS:[0-9a-z]+]])
// DTORS-NEXT: %[[CONDITION:[0-9]+]] = icmp eq i32 %[[SHOULD_DELETE_VALUE]], 0
// DTORS-NEXT: br i1 %[[CONDITION]], label %[[CONTINUE_LABEL:[0-9a-z._]+]], label %[[CALL_DELETE_LABEL:[0-9a-z._]+]]
//
// DTORS: [[CALL_DELETE_LABEL]]
// DTORS-NEXT: %[[THIS_AS_VOID:[0-9a-z]+]] = bitcast %"struct.basic::C"* %[[THIS]] to i8*
// DTORS-NEXT: call void @"\01??3@YAXPAX@Z"(i8* %[[THIS_AS_VOID]])
// DTORS-NEXT: br label %[[CONTINUE_LABEL]]
//
// DTORS: [[CONTINUE_LABEL]]
// DTORS-NEXT: ret void
// Check that we do the mangling correctly on x64.
// DTORS-X64: @"\01??_GC@basic@@UEAAPEAXI@Z"
}
virtual void foo();
};
// Emits the vftable in the output.
void C::foo() {}
void check_vftable_offset() {
C c;
// The vftable pointer should point at the beginning of the vftable.
// CHECK: [[THIS_PTR:%[0-9]+]] = bitcast %"struct.basic::C"* {{.*}} to [2 x i8*]**
// CHECK: store [2 x i8*]* @"\01??_7C@basic@@6B@", [2 x i8*]** [[THIS_PTR]]
}
void call_complete_dtor(C *obj_ptr) {
// CHECK: define void @"\01?call_complete_dtor@basic@@YAXPAUC@1@@Z"(%"struct.basic::C"* %obj_ptr)
obj_ptr->~C();
// CHECK: %[[OBJ_PTR_VALUE:.*]] = load %"struct.basic::C"** %{{.*}}, align 4
// CHECK-NEXT: %[[PVTABLE:.*]] = bitcast %"struct.basic::C"* %[[OBJ_PTR_VALUE]] to void (%"struct.basic::C"*, i32)***
// CHECK-NEXT: %[[VTABLE:.*]] = load void (%"struct.basic::C"*, i32)*** %[[PVTABLE]]
// CHECK-NEXT: %[[PVDTOR:.*]] = getelementptr inbounds void (%"struct.basic::C"*, i32)** %[[VTABLE]], i64 0
// CHECK-NEXT: %[[VDTOR:.*]] = load void (%"struct.basic::C"*, i32)** %[[PVDTOR]]
// CHECK-NEXT: call x86_thiscallcc void %[[VDTOR]](%"struct.basic::C"* %[[OBJ_PTR_VALUE]], i32 0)
// CHECK-NEXT: ret void
}
void call_deleting_dtor(C *obj_ptr) {
// CHECK: define void @"\01?call_deleting_dtor@basic@@YAXPAUC@1@@Z"(%"struct.basic::C"* %obj_ptr)
delete obj_ptr;
// CHECK: %[[OBJ_PTR_VALUE:.*]] = load %"struct.basic::C"** %{{.*}}, align 4
// CHECK: br i1 {{.*}}, label %[[DELETE_NULL:.*]], label %[[DELETE_NOTNULL:.*]]
// CHECK: [[DELETE_NOTNULL]]
// CHECK-NEXT: %[[PVTABLE:.*]] = bitcast %"struct.basic::C"* %[[OBJ_PTR_VALUE]] to void (%"struct.basic::C"*, i32)***
// CHECK-NEXT: %[[VTABLE:.*]] = load void (%"struct.basic::C"*, i32)*** %[[PVTABLE]]
// CHECK-NEXT: %[[PVDTOR:.*]] = getelementptr inbounds void (%"struct.basic::C"*, i32)** %[[VTABLE]], i64 0
// CHECK-NEXT: %[[VDTOR:.*]] = load void (%"struct.basic::C"*, i32)** %[[PVDTOR]]
// CHECK-NEXT: call x86_thiscallcc void %[[VDTOR]](%"struct.basic::C"* %[[OBJ_PTR_VALUE]], i32 1)
// CHECK: ret void
}
struct D {
static int foo();
D() {
static int ctor_static = foo();
// CHECK that the static in the ctor gets mangled correctly:
// CHECK: @"\01?ctor_static@?1???0D@basic@@QAE@XZ@4HA"
}
~D() {
static int dtor_static = foo();
// CHECK that the static in the dtor gets mangled correctly:
// CHECK: @"\01?dtor_static@?1???1D@basic@@QAE@XZ@4HA"
}
};
void use_D() { D c; }
} // end namespace basic
namespace dtor_in_second_nvbase {
struct A {
virtual void f(); // A needs vftable to be primary.
};
struct B {
virtual ~B();
};
struct C : A, B {
virtual ~C();
};
C::~C() {
// CHECK-LABEL: define x86_thiscallcc void @"\01??1C@dtor_in_second_nvbase@@UAE@XZ"
// CHECK: (%"struct.dtor_in_second_nvbase::C"* %this)
// No this adjustment!
// CHECK-NOT: getelementptr
// CHECK: load %"struct.dtor_in_second_nvbase::C"** %{{.*}}
// Now we this-adjust before calling ~B.
// CHECK: bitcast %"struct.dtor_in_second_nvbase::C"* %{{.*}} to i8*
// CHECK: getelementptr inbounds i8* %{{.*}}, i64 4
// CHECK: bitcast i8* %{{.*}} to %"struct.dtor_in_second_nvbase::B"*
// CHECK: call x86_thiscallcc void @"\01??1B@dtor_in_second_nvbase@@UAE@XZ"
// CHECK: (%"struct.dtor_in_second_nvbase::B"* %{{.*}})
// CHECK: ret void
}
void foo() {
C c;
}
// DTORS2-LABEL: define linkonce_odr x86_thiscallcc void @"\01??_EC@dtor_in_second_nvbase@@W3AEPAXI@Z"
// DTORS2: (%"struct.dtor_in_second_nvbase::C"* %this, i32 %should_call_delete)
// Do an adjustment from B* to C*.
// DTORS2: getelementptr i8* %{{.*}}, i32 -4
// DTORS2: bitcast i8* %{{.*}} to %"struct.dtor_in_second_nvbase::C"*
// DTORS2: call x86_thiscallcc void @"\01??_GC@dtor_in_second_nvbase@@UAEPAXI@Z"
// DTORS2: ret void
}
namespace test2 {
// Just like dtor_in_second_nvbase, except put that in a vbase of a diamond.
// C's dtor is in the non-primary base.
struct A { virtual void f(); };
struct B { virtual ~B(); };
struct C : A, B { virtual ~C(); int c; };
// Diamond hierarchy, with C as the shared vbase.
struct D : virtual C { int d; };
struct E : virtual C { int e; };
struct F : D, E { ~F(); int f; };
F::~F() {
// CHECK-LABEL: define x86_thiscallcc void @"\01??1F@test2@@UAE@XZ"(%"struct.test2::F"*)
// Do an adjustment from C vbase subobject to F as though F was the
// complete type.
// CHECK: getelementptr inbounds i8* %{{.*}}, i32 -20
// CHECK: bitcast i8* %{{.*}} to %"struct.test2::F"*
// CHECK: store %"struct.test2::F"*
}
void foo() {
F f;
}
// DTORS3-LABEL: define linkonce_odr x86_thiscallcc void @"\01??_DF@test2@@UAE@XZ"
// Do an adjustment from C* to F*.
// DTORS3: getelementptr i8* %{{.*}}, i32 20
// DTORS3: bitcast i8* %{{.*}} to %"struct.test2::F"*
// DTORS3: call x86_thiscallcc void @"\01??1F@test2@@UAE@XZ"
// DTORS3: ret void
}
namespace constructors {
struct A {
A() {}
};
struct B : A {
B();
~B();
};
B::B() {
// CHECK: define x86_thiscallcc %"struct.constructors::B"* @"\01??0B@constructors@@QAE@XZ"(%"struct.constructors::B"* returned %this)
// CHECK: call x86_thiscallcc %"struct.constructors::A"* @"\01??0A@constructors@@QAE@XZ"(%"struct.constructors::A"* %{{.*}})
// CHECK: ret
}
struct C : virtual A {
C();
};
C::C() {
// CHECK: define x86_thiscallcc %"struct.constructors::C"* @"\01??0C@constructors@@QAE@XZ"(%"struct.constructors::C"* returned %this, i32 %is_most_derived)
// TODO: make sure this works in the Release build too;
// CHECK: store i32 %is_most_derived, i32* %[[IS_MOST_DERIVED_VAR:.*]], align 4
// CHECK: %[[IS_MOST_DERIVED_VAL:.*]] = load i32* %[[IS_MOST_DERIVED_VAR]]
// CHECK: %[[SHOULD_CALL_VBASE_CTORS:.*]] = icmp ne i32 %[[IS_MOST_DERIVED_VAL]], 0
// CHECK: br i1 %[[SHOULD_CALL_VBASE_CTORS]], label %[[INIT_VBASES:.*]], label %[[SKIP_VBASES:.*]]
//
// CHECK: [[INIT_VBASES]]
// CHECK-NEXT: %[[this_i8:.*]] = bitcast %"struct.constructors::C"* %{{.*}} to i8*
// CHECK-NEXT: %[[vbptr_off:.*]] = getelementptr inbounds i8* %[[this_i8]], i64 0
// CHECK-NEXT: %[[vbptr:.*]] = bitcast i8* %[[vbptr_off]] to [2 x i32]**
// CHECK-NEXT: store [2 x i32]* @"\01??_8C@constructors@@7B@", [2 x i32]** %[[vbptr]]
// CHECK-NEXT: bitcast %"struct.constructors::C"* %{{.*}} to i8*
// CHECK-NEXT: getelementptr inbounds i8* %{{.*}}, i64 4
// CHECK-NEXT: bitcast i8* %{{.*}} to %"struct.constructors::A"*
// CHECK-NEXT: call x86_thiscallcc %"struct.constructors::A"* @"\01??0A@constructors@@QAE@XZ"(%"struct.constructors::A"* %{{.*}})
// CHECK-NEXT: br label %[[SKIP_VBASES]]
//
// CHECK: [[SKIP_VBASES]]
// Class C does not define or override methods, so shouldn't change the vfptr.
// CHECK-NOT: @"\01??_7C@constructors@@6B@"
// CHECK: ret
}
void create_C() {
C c;
// CHECK: define void @"\01?create_C@constructors@@YAXXZ"()
// CHECK: call x86_thiscallcc %"struct.constructors::C"* @"\01??0C@constructors@@QAE@XZ"(%"struct.constructors::C"* %c, i32 1)
// CHECK: ret
}
struct D : C {
D();
};
D::D() {
// CHECK: define x86_thiscallcc %"struct.constructors::D"* @"\01??0D@constructors@@QAE@XZ"(%"struct.constructors::D"* returned %this, i32 %is_most_derived) unnamed_addr
// CHECK: store i32 %is_most_derived, i32* %[[IS_MOST_DERIVED_VAR:.*]], align 4
// CHECK: %[[IS_MOST_DERIVED_VAL:.*]] = load i32* %[[IS_MOST_DERIVED_VAR]]
// CHECK: %[[SHOULD_CALL_VBASE_CTORS:.*]] = icmp ne i32 %[[IS_MOST_DERIVED_VAL]], 0
// CHECK: br i1 %[[SHOULD_CALL_VBASE_CTORS]], label %[[INIT_VBASES:.*]], label %[[SKIP_VBASES:.*]]
//
// CHECK: [[INIT_VBASES]]
// CHECK-NEXT: %[[this_i8:.*]] = bitcast %"struct.constructors::D"* %{{.*}} to i8*
// CHECK-NEXT: %[[vbptr_off:.*]] = getelementptr inbounds i8* %[[this_i8]], i64 0
// CHECK-NEXT: %[[vbptr:.*]] = bitcast i8* %[[vbptr_off]] to [2 x i32]**
// CHECK-NEXT: store [2 x i32]* @"\01??_8D@constructors@@7B@", [2 x i32]** %[[vbptr]]
// CHECK-NEXT: bitcast %"struct.constructors::D"* %{{.*}} to i8*
// CHECK-NEXT: getelementptr inbounds i8* %{{.*}}, i64 4
// CHECK-NEXT: bitcast i8* %{{.*}} to %"struct.constructors::A"*
// CHECK-NEXT: call x86_thiscallcc %"struct.constructors::A"* @"\01??0A@constructors@@QAE@XZ"(%"struct.constructors::A"* %{{.*}})
// CHECK-NEXT: br label %[[SKIP_VBASES]]
//
// CHECK: [[SKIP_VBASES]]
// CHECK: call x86_thiscallcc %"struct.constructors::C"* @"\01??0C@constructors@@QAE@XZ"(%"struct.constructors::C"* %{{.*}}, i32 0)
// CHECK: ret
}
struct E : virtual C {
E();
};
E::E() {
// CHECK: define x86_thiscallcc %"struct.constructors::E"* @"\01??0E@constructors@@QAE@XZ"(%"struct.constructors::E"* returned %this, i32 %is_most_derived) unnamed_addr
// CHECK: store i32 %is_most_derived, i32* %[[IS_MOST_DERIVED_VAR:.*]], align 4
// CHECK: %[[IS_MOST_DERIVED_VAL:.*]] = load i32* %[[IS_MOST_DERIVED_VAR]]
// CHECK: %[[SHOULD_CALL_VBASE_CTORS:.*]] = icmp ne i32 %[[IS_MOST_DERIVED_VAL]], 0
// CHECK: br i1 %[[SHOULD_CALL_VBASE_CTORS]], label %[[INIT_VBASES:.*]], label %[[SKIP_VBASES:.*]]
//
// CHECK: [[INIT_VBASES]]
// CHECK-NEXT: %[[this_i8:.*]] = bitcast %"struct.constructors::E"* %{{.*}} to i8*
// CHECK-NEXT: %[[offs:.*]] = getelementptr inbounds i8* %[[this_i8]], i64 0
// CHECK-NEXT: %[[vbptr_E:.*]] = bitcast i8* %[[offs]] to [3 x i32]**
// CHECK-NEXT: store [3 x i32]* @"\01??_8E@constructors@@7B01@@", [3 x i32]** %[[vbptr_E]]
// CHECK-NEXT: %[[offs:.*]] = getelementptr inbounds i8* %[[this_i8]], i64 4
// CHECK-NEXT: %[[vbptr_C:.*]] = bitcast i8* %[[offs]] to [2 x i32]**
// CHECK-NEXT: store [2 x i32]* @"\01??_8E@constructors@@7BC@1@@", [2 x i32]** %[[vbptr_C]]
// CHECK-NEXT: bitcast %"struct.constructors::E"* %{{.*}} to i8*
// CHECK-NEXT: getelementptr inbounds i8* %{{.*}}, i64 4
// CHECK-NEXT: bitcast i8* %{{.*}} to %"struct.constructors::A"*
// CHECK-NEXT: call x86_thiscallcc %"struct.constructors::A"* @"\01??0A@constructors@@QAE@XZ"(%"struct.constructors::A"* %{{.*}})
// CHECK: call x86_thiscallcc %"struct.constructors::C"* @"\01??0C@constructors@@QAE@XZ"(%"struct.constructors::C"* %{{.*}}, i32 0)
// CHECK-NEXT: br label %[[SKIP_VBASES]]
//
// CHECK: [[SKIP_VBASES]]
// CHECK: ret
}
// PR16735 - even abstract classes should have a constructor emitted.
struct F {
F();
virtual void f() = 0;
};
F::F() {}
// CHECK: define x86_thiscallcc %"struct.constructors::F"* @"\01??0F@constructors@@QAE@XZ"
} // end namespace constructors
namespace dtors {
struct A {
~A();
};
void call_nv_complete(A *a) {
a->~A();
// CHECK: define void @"\01?call_nv_complete@dtors@@YAXPAUA@1@@Z"
// CHECK: call x86_thiscallcc void @"\01??1A@dtors@@QAE@XZ"
// CHECK: ret
}
// CHECK: declare x86_thiscallcc void @"\01??1A@dtors@@QAE@XZ"
// Now try some virtual bases, where we need the complete dtor.
struct B : virtual A { ~B(); };
struct C : virtual A { ~C(); };
struct D : B, C { ~D(); };
void call_vbase_complete(D *d) {
d->~D();
// CHECK: define void @"\01?call_vbase_complete@dtors@@YAXPAUD@1@@Z"
// CHECK: call x86_thiscallcc void @"\01??_DD@dtors@@QAE@XZ"(%"struct.dtors::D"* %{{[^,]+}})
// CHECK: ret
}
// The complete dtor should call the base dtors for D and the vbase A (once).
// CHECK: define linkonce_odr x86_thiscallcc void @"\01??_DD@dtors@@QAE@XZ"
// CHECK-NOT: call
// CHECK: call x86_thiscallcc void @"\01??1D@dtors@@QAE@XZ"
// CHECK-NOT: call
// CHECK: call x86_thiscallcc void @"\01??1A@dtors@@QAE@XZ"
// CHECK-NOT: call
// CHECK: ret
void destroy_d_complete() {
D d;
// CHECK: define void @"\01?destroy_d_complete@dtors@@YAXXZ"
// CHECK: call x86_thiscallcc void @"\01??_DD@dtors@@QAE@XZ"(%"struct.dtors::D"* %{{[^,]+}})
// CHECK: ret
}
// FIXME: Clang manually inlines the deletion, so we don't get a call to the
// deleting dtor (_G). The only way to call deleting dtors currently is through
// a vftable.
void call_nv_deleting_dtor(D *d) {
delete d;
// CHECK: define void @"\01?call_nv_deleting_dtor@dtors@@YAXPAUD@1@@Z"
// CHECK: call x86_thiscallcc void @"\01??_DD@dtors@@QAE@XZ"(%"struct.dtors::D"* %{{[^,]+}})
// CHECK: call void @"\01??3@YAXPAX@Z"
// CHECK: ret
}
}
namespace test1 {
struct A { };
struct B : virtual A {
B(int *a);
B(const char *a, ...);
__cdecl B(short *a);
};
B::B(int *a) {}
B::B(const char *a, ...) {}
B::B(short *a) {}
// CHECK: define x86_thiscallcc %"struct.test1::B"* @"\01??0B@test1@@QAE@PAH@Z"
// CHECK: (%"struct.test1::B"* returned %this, i32* %a, i32 %is_most_derived)
// CHECK: define %"struct.test1::B"* @"\01??0B@test1@@QAA@PBDZZ"
// CHECK: (%"struct.test1::B"* returned %this, i32 %is_most_derived, i8* %a, ...)
// FIXME: This should be x86_thiscallcc. MSVC ignores explicit CCs on structors.
// CHECK: define %"struct.test1::B"* @"\01??0B@test1@@QAA@PAF@Z"
// CHECK: (%"struct.test1::B"* returned %this, i16* %a, i32 %is_most_derived)
void construct_b() {
int a;
B b1(&a);
B b2("%d %d", 1, 2);
}
// CHECK-LABEL: define void @"\01?construct_b@test1@@YAXXZ"()
// CHECK: call x86_thiscallcc %"struct.test1::B"* @"\01??0B@test1@@QAE@PAH@Z"
// CHECK: (%"struct.test1::B"* {{.*}}, i32* {{.*}}, i32 1)
// CHECK: call %"struct.test1::B"* (%"struct.test1::B"*, i32, i8*, ...)* @"\01??0B@test1@@QAA@PBDZZ"
// CHECK: (%"struct.test1::B"* {{.*}}, i32 1, i8* {{.*}}, i32 1, i32 2)
}
namespace implicit_copy_vtable {
// This was a crash that only reproduced in ABIs without key functions.
struct ImplicitCopy {
// implicit copy ctor
virtual ~ImplicitCopy();
};
void CreateCopy(ImplicitCopy *a) {
new ImplicitCopy(*a);
}
// CHECK: store {{.*}} @"\01??_7ImplicitCopy@implicit_copy_vtable@@6B@"
struct MoveOnly {
MoveOnly(MoveOnly &&o) = default;
virtual ~MoveOnly();
};
MoveOnly &&f();
void g() { new MoveOnly(f()); }
// CHECK: store {{.*}} @"\01??_7MoveOnly@implicit_copy_vtable@@6B@"
}
// Dtor thunks for classes in anonymous namespaces should be internal, not
// linkonce_odr.
namespace {
struct A {
virtual ~A() { }
};
}
void *getA() {
return (void*)new A();
}
// CHECK: define internal x86_thiscallcc void @"\01??_GA@?A@@UAEPAXI@Z"
// CHECK: (%"struct.(anonymous namespace)::A"* %this, i32 %should_call_delete)
// CHECK: define internal x86_thiscallcc void @"\01??1A@?A@@UAE@XZ"
// CHECK: (%"struct.(anonymous namespace)::A"* %this)