// RUN: %clang_cc1 -triple x86_64-apple-darwin -emit-llvm -o - %s | FileCheck %s
// CHECK: @a = global i32 10
int a = 10;
// CHECK: @ar = constant i32* @a
int &ar = a;
void f();
// CHECK: @fr = constant void ()* @_Z1fv
void (&fr)() = f;
struct S { int& a; };
// CHECK: @s = global %struct.S { i32* @a }
S s = { a };
// PR5581
namespace PR5581 {
class C {
public:
enum { e0, e1 };
unsigned f;
};
// CHECK: @_ZN6PR55812g0E = global %"class.PR5581::C" { i32 1 }
C g0 = { C::e1 };
}
namespace test2 {
struct A {
static const double d = 1.0;
static const float f = d / 2;
static int g();
} a;
// CHECK: @_ZN5test22t0E = global double {{1\.0+e\+0+}}, align 8
// CHECK: @_ZN5test22t1E = global [2 x double] [double {{1\.0+e\+0+}}, double {{5\.0+e-0*}}1], align 16
// CHECK: @_ZN5test22t2E = global double* @_ZN5test21A1d
// CHECK: @_ZN5test22t3E = global {{.*}} @_ZN5test21A1g
double t0 = A::d;
double t1[] = { A::d, A::f };
const double *t2 = &a.d;
int (*t3)() = &a.g;
}
// We don't expect to fold this in the frontend, but make sure it doesn't crash.
// CHECK: @PR9558 = global float 0.000000e+0
float PR9558 = reinterpret_cast<const float&>("asd");
// An initialized const automatic variable cannot be promoted to a constant
// global if it has a mutable member.
struct MutableMember {
mutable int n;
};
int writeToMutable() {
// CHECK-NOT: {{.*}}MM{{.*}} = {{.*}}constant
const MutableMember MM = { 0 };
return ++MM.n;
}
// Make sure we don't try to fold this in the frontend; the backend can't
// handle it.
// CHECK: @PR11705 = global i128 0
__int128_t PR11705 = (__int128_t)&PR11705;
// Make sure we don't try to fold this either.
// CHECK: @_ZZ23UnfoldableAddrLabelDiffvE1x = internal global i128 0
void UnfoldableAddrLabelDiff() { static __int128_t x = (long)&&a-(long)&&b; a:b:return;}
// But make sure we do fold this.
// CHECK: @_ZZ21FoldableAddrLabelDiffvE1x = internal global i64 sub (i64 ptrtoint (i8* blockaddress(@_Z21FoldableAddrLabelDiffv
void FoldableAddrLabelDiff() { static long x = (long)&&a-(long)&&b; a:b:return;}
// CHECK: @i = constant i32* bitcast (float* @PR9558 to i32*)
int &i = reinterpret_cast<int&>(PR9558);
int arr[2];
// CHECK: @pastEnd = constant i32* bitcast (i8* getelementptr (i8, i8* bitcast ([2 x i32]* @arr to i8*), i64 8) to i32*)
int &pastEnd = arr[2];
struct X {
long n : 8;
};
long k;
X x = {(long)&k};
// CHECK: store i8 ptrtoint (i64* @k to i8), i8* getelementptr inbounds (%struct.X, %struct.X* @x, i32 0, i32 0)