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llvm-project/clang/test/SemaCXX/static-cast.cpp
Douglas Gregor b472e93af7 Implement appropriate semantics for C++ casting and conversion when 
dealing with address-space- and GC-qualified pointers. Previously,
these qualifiers were being treated just like cvr-qualifiers (in some
cases) or were completely ignored, leading to uneven behavior. For
example, const_cast would allow conversion between pointers to
different address spaces.

The new semantics are fairly simple: reinterpret_cast can be used to
explicitly cast between pointers to different address spaces
(including adding/removing addresss spaces), while
static_cast/dynamic_cast/const_cast do not tolerate any changes in the
address space. C-style casts can add/remove/change address spaces
through the reinterpret_cast mechanism. Other non-CVR qualifiers
(e.g., Objective-C GC qualifiers) work similarly.

As part of this change, I tweaked the "casts away constness"
diagnostic to use the term "casts away qualifiers". The term
"constness" actually comes from the C++ standard, despite the fact
that removing "volatile" also falls under that category. In Clang, we
also have restrict, address spaces, ObjC GC attributes, etc., so the
more general "qualifiers" is clearer.

llvm-svn: 129583
2011-04-15 17:59:54 +00:00

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// RUN: %clang_cc1 -fsyntax-only -verify %s
struct A {};
struct B : public A {}; // Single public base.
struct C1 : public virtual B {}; // Single virtual base.
struct C2 : public virtual B {};
struct D : public C1, public C2 {}; // Diamond
struct E : private A {}; // Single private base. expected-note 3 {{declared private here}}
struct F : public C1 {}; // Single path to B with virtual.
struct G1 : public B {};
struct G2 : public B {};
struct H : public G1, public G2 {}; // Ambiguous path to B.
enum Enum { En1, En2 };
enum Onom { On1, On2 };
struct Co1 { operator int(); };
struct Co2 { Co2(int); };
struct Co3 { };
struct Co4 { Co4(Co3); operator Co3(); };
// Explicit implicits
void t_529_2()
{
int i = 1;
(void)static_cast<float>(i);
double d = 1.0;
(void)static_cast<float>(d);
(void)static_cast<int>(d);
(void)static_cast<char>(i);
(void)static_cast<unsigned long>(i);
(void)static_cast<int>(En1);
(void)static_cast<double>(En1);
(void)static_cast<int&>(i);
(void)static_cast<const int&>(i);
int ar[1];
(void)static_cast<const int*>(ar);
(void)static_cast<void (*)()>(t_529_2);
(void)static_cast<void*>(0);
(void)static_cast<void*>((int*)0);
(void)static_cast<volatile const void*>((const int*)0);
(void)static_cast<A*>((B*)0);
(void)static_cast<A&>(*((B*)0));
(void)static_cast<const B*>((C1*)0);
(void)static_cast<B&>(*((C1*)0));
(void)static_cast<A*>((D*)0);
(void)static_cast<const A&>(*((D*)0));
(void)static_cast<int B::*>((int A::*)0);
(void)static_cast<void (B::*)()>((void (A::*)())0);
(void)static_cast<int>(Co1());
(void)static_cast<Co2>(1);
(void)static_cast<Co3>(static_cast<Co4>(Co3()));
// Bad code below
(void)static_cast<void*>((const int*)0); // expected-error {{static_cast from 'const int *' to 'void *' is not allowed}}
(void)static_cast<A*>((E*)0); // expected-error {{cannot cast 'E' to its private base class 'A'}}
(void)static_cast<A*>((H*)0); // expected-error {{ambiguous conversion}}
(void)static_cast<int>((int*)0); // expected-error {{static_cast from 'int *' to 'int' is not allowed}}
(void)static_cast<A**>((B**)0); // expected-error {{static_cast from 'B **' to 'A **' is not allowed}}
(void)static_cast<char&>(i); // expected-error {{non-const lvalue reference to type 'char' cannot bind to a value of unrelated type 'int'}}
}
// Anything to void
void t_529_4()
{
static_cast<void>(1);
static_cast<void>(t_529_4);
}
// Static downcasts
void t_529_5_8()
{
(void)static_cast<B*>((A*)0);
(void)static_cast<B&>(*((A*)0));
(void)static_cast<const G1*>((A*)0);
(void)static_cast<const G1&>(*((A*)0));
// Bad code below
(void)static_cast<C1*>((A*)0); // expected-error {{cannot cast 'A *' to 'C1 *' via virtual base 'B'}}
(void)static_cast<C1&>(*((A*)0)); // expected-error {{cannot cast 'A' to 'C1 &' via virtual base 'B'}}
(void)static_cast<D*>((A*)0); // expected-error {{cannot cast 'A *' to 'D *' via virtual base 'B'}}
(void)static_cast<D&>(*((A*)0)); // expected-error {{cannot cast 'A' to 'D &' via virtual base 'B'}}
(void)static_cast<B*>((const A*)0); // expected-error {{static_cast from 'const A *' to 'B *' casts away qualifiers}}
(void)static_cast<B&>(*((const A*)0)); // expected-error {{static_cast from 'const A' to 'B &' casts away qualifiers}}
(void)static_cast<E*>((A*)0); // expected-error {{cannot cast private base class 'A' to 'E'}}
(void)static_cast<E&>(*((A*)0)); // expected-error {{cannot cast private base class 'A' to 'E'}}
(void)static_cast<H*>((A*)0); // expected-error {{ambiguous cast from base 'A' to derived 'H':\n struct A -> struct B -> struct G1 -> struct H\n struct A -> struct B -> struct G2 -> struct H}}
(void)static_cast<H&>(*((A*)0)); // expected-error {{ambiguous cast from base 'A' to derived 'H':\n struct A -> struct B -> struct G1 -> struct H\n struct A -> struct B -> struct G2 -> struct H}}
(void)static_cast<E*>((B*)0); // expected-error {{static_cast from 'B *' to 'E *' is not allowed}}
(void)static_cast<E&>(*((B*)0)); // expected-error {{non-const lvalue reference to type 'E' cannot bind to a value of unrelated type 'B'}}
// TODO: Test inaccessible base in context where it's accessible, i.e.
// member function and friend.
// TODO: Test DR427. This requires user-defined conversions, though.
}
// Enum conversions
void t_529_7()
{
(void)static_cast<Enum>(1);
(void)static_cast<Enum>(1.0);
(void)static_cast<Onom>(En1);
// Bad code below
(void)static_cast<Enum>((int*)0); // expected-error {{static_cast from 'int *' to 'Enum' is not allowed}}
}
// Void pointer to object pointer
void t_529_10()
{
(void)static_cast<int*>((void*)0);
(void)static_cast<const A*>((void*)0);
// Bad code below
(void)static_cast<int*>((const void*)0); // expected-error {{static_cast from 'const void *' to 'int *' casts away qualifiers}}
(void)static_cast<void (*)()>((void*)0); // expected-error {{static_cast from 'void *' to 'void (*)()' is not allowed}}
}
// Member pointer upcast.
void t_529_9()
{
(void)static_cast<int A::*>((int B::*)0);
// Bad code below
(void)static_cast<int A::*>((int H::*)0); // expected-error {{ambiguous conversion from pointer to member of derived class 'H' to pointer to member of base class 'A':}}
(void)static_cast<int A::*>((int F::*)0); // expected-error {{conversion from pointer to member of class 'F' to pointer to member of class 'A' via virtual base 'B' is not allowed}}
}
// PR 5261 - static_cast should instantiate template if possible
namespace pr5261 {
struct base {};
template<typename E> struct derived : public base {};
template<typename E> struct outer {
base *pb;
~outer() { (void)static_cast<derived<E>*>(pb); }
};
outer<int> EntryList;
}
// Initialization by constructor
struct X0;
struct X1 {
X1();
X1(X1&);
X1(const X0&);
operator X0() const;
};
struct X0 { };
void test_ctor_init() {
(void)static_cast<X1>(X1());
}
// Casting away constness
struct X2 {
};
struct X3 : X2 {
};
struct X4 {
typedef const X3 X3_typedef;
void f() const {
(void)static_cast<X3_typedef*>(x2);
}
const X2 *x2;
};
// PR5897 - accept static_cast from const void* to const int (*)[1].
void PR5897() { (void)static_cast<const int(*)[1]>((const void*)0); }
namespace PR6072 {
struct A { };
struct B : A { void f(int); void f(); }; // expected-note 2{{candidate function}}
struct C : B { };
struct D { };
void f() {
(void)static_cast<void (A::*)()>(&B::f);
(void)static_cast<void (B::*)()>(&B::f);
(void)static_cast<void (C::*)()>(&B::f);
(void)static_cast<void (D::*)()>(&B::f); // expected-error{{address of overloaded function 'f' cannot be static_cast to type 'void (PR6072::D::*)()'}}
}
}
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