llvm-project/clang/test/SemaCXX/overloaded-builtin-operators.cpp
Nemanja Ivanovic bb1ea2d613 Enable support for __float128 in Clang and enable it on pertinent platforms
This patch corresponds to reviews:
http://reviews.llvm.org/D15120
http://reviews.llvm.org/D19125

It adds support for the __float128 keyword, literals and target feature to
enable it. Based on the latter of the two aforementioned reviews, this feature
is enabled on Linux on i386/X86 as well as SystemZ.
This is also the second attempt in commiting this feature. The first attempt
did not enable it on required platforms which caused failures when compiling
type_traits with -std=gnu++11.

If you see failures with compiling this header on your platform after this
commit, it is likely that your platform needs to have this feature enabled.

llvm-svn: 268898
2016-05-09 08:52:33 +00:00

280 lines
5.6 KiB
C++

// RUN: %clang_cc1 -fsyntax-only -fshow-overloads=best -verify -triple x86_64-linux-gnu %s
// RUN: %clang_cc1 -fsyntax-only -fshow-overloads=best -verify -triple x86_64-linux-gnu -std=c++98 %s
// RUN: %clang_cc1 -fsyntax-only -fshow-overloads=best -verify -triple x86_64-linux-gnu -std=c++11 %s
struct yes;
struct no;
struct Short {
operator short();
};
struct Long {
operator long();
};
enum E1 { };
struct Enum1 {
operator E1();
};
enum E2 { };
struct Enum2 {
operator E2();
};
struct X {
void f();
};
typedef void (X::*pmf)();
struct Xpmf {
operator pmf();
};
yes& islong(long);
yes& islong(unsigned long); // FIXME: shouldn't be needed
no& islong(int);
void f(Short s, Long l, Enum1 e1, Enum2 e2, Xpmf pmf) {
// C++ [over.built]p8
int i1 = +e1;
int i2 = -e2;
// C++ [over.built]p10:
int i3 = ~s;
bool b1 = !s;
// C++ [over.built]p12
(void)static_cast<yes&>(islong(s + l));
(void)static_cast<no&>(islong(s + s));
// C++ [over.built]p16
(void)(pmf == &X::f);
(void)(pmf == 0);
// C++ [over.built]p17
(void)static_cast<yes&>(islong(s % l));
(void)static_cast<yes&>(islong(l << s));
(void)static_cast<no&>(islong(s << l));
(void)static_cast<yes&>(islong(e1 % l));
// FIXME: should pass (void)static_cast<no&>(islong(e1 % e2));
}
struct ShortRef { // expected-note{{candidate function (the implicit copy assignment operator) not viable}}
#if __cplusplus >= 201103L // C++11 or later
// expected-note@-2 {{candidate function (the implicit move assignment operator) not viable}}
#endif
operator short&();
};
struct LongRef {
operator volatile long&();
};
struct XpmfRef { // expected-note{{candidate function (the implicit copy assignment operator) not viable}}
#if __cplusplus >= 201103L // C++11 or later
// expected-note@-2 {{candidate function (the implicit move assignment operator) not viable}}
#endif
operator pmf&();
};
struct E2Ref {
operator E2&();
};
void g(ShortRef sr, LongRef lr, E2Ref e2_ref, XpmfRef pmf_ref) {
// C++ [over.built]p3
short s1 = sr++;
// C++ [over.built]p3
long l1 = lr--;
// C++ [over.built]p18
short& sr1 = (sr *= lr);
volatile long& lr1 = (lr *= sr);
// C++ [over.built]p20:
E2 e2r2;
e2r2 = e2_ref;
pmf &pmr = (pmf_ref = &X::f); // expected-error{{no viable overloaded '='}}
pmf pmr2;
pmr2 = pmf_ref;
// C++ [over.built]p22
short& sr2 = (sr %= lr);
volatile long& lr2 = (lr <<= sr);
bool b1 = (sr && lr) || (sr || lr);
}
struct VolatileIntPtr {
operator int volatile *();
};
struct ConstIntPtr {
operator int const *();
};
struct VolatileIntPtrRef {
operator int volatile *&();
};
struct ConstIntPtrRef {
operator int const *&();
};
void test_with_ptrs(VolatileIntPtr vip, ConstIntPtr cip, ShortRef sr,
VolatileIntPtrRef vipr, ConstIntPtrRef cipr) {
const int& cir1 = cip[sr];
const int& cir2 = sr[cip];
volatile int& vir1 = vip[sr];
volatile int& vir2 = sr[vip];
bool b1 = (vip == cip);
long p1 = vip - cip;
// C++ [over.built]p5:
int volatile *vip1 = vipr++;
int const *cip1 = cipr++;
int volatile *&vipr1 = ++vipr;
int const *&cipr1 = --cipr;
// C++ [over.built]p6:
int volatile &ivr = *vip;
// C++ [over.built]p8:
int volatile *vip2 = +vip;
int i1 = +sr;
int i2 = -sr;
// C++ [over.built]p13:
int volatile &ivr2 = vip[17];
int const &icr2 = 17[cip];
}
// C++ [over.match.open]p4
void test_assign_restrictions(ShortRef& sr) {
sr = (short)0; // expected-error{{no viable overloaded '='}}
}
struct Base { };
struct Derived1 : Base { };
struct Derived2 : Base { };
template<typename T>
struct ConvertibleToPtrOf {
operator T*();
};
bool test_with_base_ptrs(ConvertibleToPtrOf<Derived1> d1,
ConvertibleToPtrOf<Derived2> d2) {
return d1 == d2; // expected-error{{invalid operands}}
}
// DR425
struct A {
template< typename T > operator T() const;
};
void test_dr425(A a) {
// FIXME: lots of candidates here!
(void)(1.0f * a); // expected-error{{ambiguous}} \
// expected-note 4{{candidate}} \
// expected-note {{remaining 140 candidates omitted; pass -fshow-overloads=all to show them}}
}
// pr5432
enum e {X};
const int a[][2] = {{1}};
int test_pr5432() {
return a[X][X];
}
void f() {
(void)__extension__(A());
}
namespace PR7319 {
typedef enum { Enum1, Enum2, Enum3 } MyEnum;
template<typename X> bool operator>(const X &inX1, const X &inX2);
void f() {
MyEnum e1, e2;
if (e1 > e2) {}
}
}
namespace PR8477 {
struct Foo {
operator bool();
operator const char *();
};
bool doit() {
Foo foo;
long long zero = 0;
(void)(foo + zero);
(void)(foo - zero);
(void)(zero + foo);
(void)(zero[foo]);
(void)(foo - foo); // expected-error{{use of overloaded operator '-' is ambiguous}} \
// expected-note 4{{built-in candidate operator-}} \
// expected-note{{candidates omitted}}
return foo[zero] == zero;
}
}
namespace PR7851 {
struct X {
operator const void *() const;
operator void *();
operator const unsigned *() const;
operator unsigned *();
};
void f() {
X x;
x[0] = 1;
*x = 0;
(void)(x - x);
}
}
namespace PR12854 {
enum { size = 1 };
void plus_equals() {
int* __restrict py;
py += size;
}
struct RestrictInt {
operator int* __restrict &();
};
void user_conversions(RestrictInt ri) {
++ri;
--ri;
ri++;
ri--;
}
}
namespace PR12964 {
struct X { operator __int128() const; } x;
bool a = x == __int128(0);
bool b = x == 0;
struct Y { operator unsigned __int128() const; } y;
bool c = y == __int128(0);
bool d = y == 0;
bool e = x == y;
}