llvm-project/clang/test/CodeGenObjCXX/encode.mm

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// RUN: %clang_cc1 %s -triple=x86_64-apple-darwin10 -emit-llvm -o - | FileCheck %s
// CHECK: v17@0:8{vector<float, float, float>=}16
// CHECK: {vector<float, float, float>=}
// CHECK: v24@0:816
template <typename T1, typename T2, typename T3> struct vector {
vector();
vector(T1,T2,T3);
};
typedef vector< float, float, float > vector3f;
@interface SceneNode
{
vector3f position;
}
@property (assign, nonatomic) vector3f position;
@end
@interface MyOpenGLView
{
@public
vector3f position;
}
@property vector3f position;
@end
@implementation MyOpenGLView
@synthesize position;
-(void)awakeFromNib {
SceneNode *sn;
vector3f VF3(1.0, 1.0, 1.0);
[sn setPosition:VF3];
}
@end
class Int3 { int x, y, z; };
// Enforce @encoding for member pointers.
@interface MemPtr {}
- (void) foo: (int (Int3::*)) member;
@end
@implementation MemPtr
- (void) foo: (int (Int3::*)) member {
}
@end
// rdar: // 8519948
typedef float HGVec4f __attribute__ ((vector_size(16)));
@interface RedBalloonHGXFormWrapper {
HGVec4f m_Transform[4];
}
@end
@implementation RedBalloonHGXFormWrapper
@end
// rdar://9357400
namespace rdar9357400 {
template<int Dim1 = -1, int Dim2 = -1> struct fixed {
template<int D> struct rebind { typedef fixed<D> other; };
};
template<typename Element, int Size>
class fixed_1D
{
public:
typedef Element value_type;
typedef value_type array_impl[Size];
protected:
array_impl m_data;
};
template<typename Element, typename Alloc>
class vector;
template<typename Element, int Size>
class vector< Element, fixed<Size> >
: public fixed_1D<Element,Size> { };
typedef vector< float, fixed<4> > vector4f;
// CHECK: @_ZN11rdar93574002ggE = constant [49 x i8] c"{vector<float, rdar9357400::fixed<4, -1> >=[4f]}\00"
extern const char gg[] = @encode(vector4f);
}
// rdar://9624314
namespace rdar9624314 {
struct B2 { int x; };
struct B3 {};
struct S : B2, B3 {};
// CHECK: @_ZN11rdar96243142ggE = constant [6 x i8] c"{S=i}\00"
extern const char gg[] = @encode(S);
struct S2 { unsigned : 0; int x; unsigned : 0; };
// CHECK: @_ZN11rdar96243142g2E = constant [11 x i8] c"{S2=b0ib0}\00"
extern const char g2[] = @encode(S2);
}
namespace test {
class Foo {
public:
virtual void f() {};
};
class Bar {
public:
virtual void g() {};
};
class Zoo : virtual public Foo, virtual public Bar {
public:
int x;
int y;
};
// CHECK: @_ZN4test3ecdE = constant [15 x i8] c"{Zoo=^^?ii^^?}\00"
extern const char ecd[] = @encode(Zoo);
}
struct Base1 {
char x;
};
struct DBase : public Base1 {
double x;
virtual ~DBase();
};
struct Sub_with_virt : virtual DBase {
long x;
};
struct Sub2 : public Sub_with_virt, public Base1, virtual DBase {
float x;
};
// CHECK: @g1 = constant [10 x i8] c"{Base1=c}\00"
extern const char g1[] = @encode(Base1);
// CHECK: @g2 = constant [14 x i8] c"{DBase=^^?cd}\00"
extern const char g2[] = @encode(DBase);
// CHECK: @g3 = constant [26 x i8] c"{Sub_with_virt=^^?q^^?cd}\00"
extern const char g3[] = @encode(Sub_with_virt);
// CHECK: @g4 = constant [19 x i8] c"{Sub2=^^?qcf^^?cd}\00"
extern const char g4[] = @encode(Sub2);
// http://llvm.org/PR9927
class allocator {
};
class basic_string {
struct _Alloc_hider : allocator {
char* _M_p;
};
_Alloc_hider _M_dataplus;
};
// CHECK: @g5 = constant [32 x i8] c"{basic_string={_Alloc_hider=*}}\00"
extern const char g5[] = @encode(basic_string);
// PR10990
class CefBase {
virtual ~CefBase() {}
};
class CefBrowser : public virtual CefBase {};
class CefBrowserImpl : public CefBrowser {};
// CHECK: @g6 = constant [21 x i8] c"{CefBrowserImpl=^^?}\00"
extern const char g6[] = @encode(CefBrowserImpl);
// PR10990_2
class CefBase2 {
virtual ~CefBase2() {}
int i;
};
class CefBrowser2 : public virtual CefBase2 {};
class CefBrowserImpl2 : public CefBrowser2 {};
// CHECK: @g7 = constant [26 x i8] c"{CefBrowserImpl2=^^?^^?i}\00"
extern const char g7[] = @encode(CefBrowserImpl2);
// <rdar://problem/11324167>
struct Empty {};
struct X : Empty {
int array[10];
};
struct Y : Empty {
X vec;
};
// CHECK: @g8 = constant [14 x i8] c"{Y={X=[10i]}}\00"
extern const char g8[] = @encode(Y);
class dynamic_class {
public:
virtual ~dynamic_class();
};
@interface has_dynamic_class_ivar
@end
@implementation has_dynamic_class_ivar {
dynamic_class dynamic_class_ivar;
}
@end
// CHECK: private unnamed_addr constant [41 x i8] c"{dynamic_class=\22_vptr$dynamic_class\22^^?}\00"
namespace PR17142 {
struct A { virtual ~A(); };
struct B : virtual A { int y; };
struct C { virtual ~C(); int z; };
struct D : C, B { int a; };
struct E : D {};
// CHECK: @_ZN7PR171421xE = constant [14 x i8] c"{E=^^?i^^?ii}\00"
extern const char x[] = @encode(E);
}
// This test used to cause infinite recursion.
template<typename T>
struct S {
typedef T Ty;
Ty *t;
};
@interface N
{
S<N> a;
}
@end
@implementation N
@end
const char *expand_struct() {
// CHECK: @{{.*}} = private unnamed_addr constant [16 x i8] c"{N={S<N>=^{N}}}\00"
return @encode(N);
}