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// RUN: %clang_cc1 %s -triple x86_64-apple-darwin10 -emit-llvm -o - | FileCheck %s
// An extra byte should be allocated for an empty class.
namespace Test1 {
// CHECK: %"struct.Test1::A" = type { i8 }
struct A { } *a;
}
namespace Test2 {
// No need to add tail padding here.
// CHECK: %"struct.Test2::A" = type { i8*, i32 }
struct A { void *a; int b; } *a;
}
namespace Test3 {
// C should have a vtable pointer.
// CHECK: %"struct.Test3::A" = type { i32 (...)**, i32 }
struct A { virtual void f(); int a; } *a;
}
namespace Test4 {
// Test from PR5589.
// CHECK: %"struct.Test4::B" = type { %"struct.Test4::A", i16, double }
// CHECK: %"struct.Test4::A" = type { i32, i8, float }
struct A {
int a;
char c;
float b;
};
struct B : public A {
short d;
double e;
} *b;
}
namespace Test5 {
struct A {
virtual void f();
char a;
};
// CHECK: %"struct.Test5::B" = type { [9 x i8], i8, i8, [5 x i8] }
struct B : A {
char b : 1;
char c;
} *b;
}
// PR10912: don't crash
namespace Test6 {
template <typename T> class A {
// If T is complete, IR-gen will want to translate it recursively
// when translating T*.
T *foo;
};
class B;
// This causes IR-gen to have an incomplete translation of A<B>
// sitting around.
A<B> *a;
class C {};
class B : public C {
// This forces Sema to instantiate A<B>, which triggers a callback
// to IR-gen. Because of the previous, incomplete translation,
// IR-gen actually cares, and it immediately tries to complete
// A<B>'s IR type. That, in turn, causes the translation of B*.
// B isn't complete yet, but it has a definition, and if we try to
// compute a record layout for that definition then we'll really
// regret it later.
A<B> a;
};
// The derived class E and empty base class C are required to
// provoke the original assertion.
class E : public B {};
E *e;
}
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