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llvm-project/clang/test/SemaCXX/overload-call.cpp
Aaron Ballman 0f1c1be196 [clang] Remove rdar links; NFC 
We have a new policy in place making links to private resources
something we try to avoid in source and test files. Normally, we'd
organically switch to the new policy rather than make a sweeping change
across a project. However, Clang is in a somewhat special circumstance
currently: recently, I've had several new contributors run into rdar
links around test code which their patch was changing the behavior of.
This turns out to be a surprisingly bad experience, especially for
newer folks, for a handful of reasons: not understanding what the link
is and feeling intimidated by it, wondering whether their changes are
actually breaking something important to a downstream in some way,
having to hunt down strangers not involved with the patch to impose on
them for help, accidental pressure from asking for potentially private
IP to be made public, etc. Because folks run into these links entirely
by chance (through fixing bugs or working on new features), there's not
really a set of problematic links to focus on -- all of the links have
basically the same potential for causing these problems. As a result,
this is an omnibus patch to remove all such links.

This was not a mechanical change; it was done by manually searching for
rdar, radar, radr, and other variants to find all the various
problematic links. From there, I tried to retain or reword the
surrounding comments so that we would lose as little context as
possible. However, because most links were just a plain link with no
supporting context, the majority of the changes are simple removals.

Differential Review: https://reviews.llvm.org/D158071
2023-08-28 12:13:42 -04:00

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// RUN: %clang_cc1 -triple %itanium_abi_triple -pedantic -verify %s
// RUN: %clang_cc1 -triple %itanium_abi_triple -pedantic -verify -std=c++98 %s
// RUN: %clang_cc1 -triple %itanium_abi_triple -pedantic -verify -std=c++11 %s
int* f(int) { return 0; }
float* f(float) { return 0; }
void f();
void test_f(int iv, float fv) {
float* fp = f(fv);
int* ip = f(iv);
}
int* g(int, float, int); // expected-note {{candidate function}}
float* g(int, int, int);
double* g(int, float, float); // expected-note {{candidate function}}
char* g(int, float, ...);
void g();
void test_g(int iv, float fv) {
int* ip1 = g(iv, fv, 0);
float* fp1 = g(iv, iv, 0);
double* dp1 = g(iv, fv, fv);
char* cp1 = g(0, 0);
char* cp2 = g(0, 0, 0, iv, fv);
double* dp2 = g(0, fv, 1.5); // expected-error {{call to 'g' is ambiguous}}
}
double* h(double f);
int* h(int);
void test_h(float fv, unsigned char cv) {
double* dp = h(fv);
int* ip = h(cv);
}
int* i(int);
double* i(long);
void test_i(short sv, int iv, long lv, unsigned char ucv) {
int* ip1 = i(sv);
int* ip2 = i(iv);
int* ip3 = i(ucv);
double* dp1 = i(lv);
}
int* j(void*);
double* j(bool);
void test_j(int* ip) {
int* ip1 = j(ip);
}
int* k(char*);
double* k(bool);
void test_k() {
int* ip1 = k("foo");
#if __cplusplus <= 199711L
// expected-warning@-2 {{conversion from string literal to 'char *' is deprecated}}
#else
// expected-error@-4 {{cannot initialize a variable of type 'int *' with an rvalue of type 'double *'}}
#endif
int* ip2 = k(("foo"));
#if __cplusplus <= 199711L
// expected-warning@-2 {{conversion from string literal to 'char *' is deprecated}}
#else
// expected-error@-4 {{cannot initialize a variable of type 'int *' with an rvalue of type 'double *'}}
#endif
double* dp1 = k(L"foo");
}
int* l(wchar_t*);
double* l(bool);
void test_l() {
int* ip1 = l(L"foo");
#if __cplusplus <= 199711L
// expected-warning@-2 {{conversion from string literal to 'wchar_t *' is deprecated}}
#else
// expected-error@-4 {{cannot initialize a variable of type 'int *' with an rvalue of type 'double *'}}
#endif
double* dp1 = l("foo");
}
int* m(const char*);
double* m(char*);
void test_m() {
int* ip = m("foo");
}
int* n(char*);
double* n(void*);
class E;
void test_n(E* e) {
char ca[7];
int* ip1 = n(ca);
int* ip2 = n("foo");
#if __cplusplus <= 199711L
// expected-warning@-2 {{conversion from string literal to 'char *' is deprecated}}
#else
// expected-warning@-4 {{ISO C++11 does not allow conversion from string literal to 'char *'}}
#endif
float fa[7];
double* dp1 = n(fa);
double* dp2 = n(e);
}
enum PromotesToInt {
PromotesToIntValue = -1
};
enum PromotesToUnsignedInt {
PromotesToUnsignedIntValue = __INT_MAX__ * 2U
};
int* o(int);
double* o(unsigned int);
float* o(long);
void test_o() {
int* ip1 = o(PromotesToIntValue);
double* dp1 = o(PromotesToUnsignedIntValue);
}
int* p(int);
double* p(double);
void test_p() {
int* ip = p((short)1);
double* dp = p(1.0f);
}
struct Bits {
signed short int_bitfield : 5;
unsigned int uint_bitfield : 8;
};
int* bitfields(int, int);
float* bitfields(unsigned int, int);
void test_bitfield(Bits bits, int x) {
int* ip = bitfields(bits.int_bitfield, 0);
float* fp = bitfields(bits.uint_bitfield, 0u);
}
int* multiparm(long, int, long); // expected-note {{candidate function}}
float* multiparm(int, int, int); // expected-note {{candidate function}}
double* multiparm(int, int, short); // expected-note {{candidate function}}
void test_multiparm(long lv, short sv, int iv) {
int* ip1 = multiparm(lv, iv, lv);
int* ip2 = multiparm(lv, sv, lv);
float* fp1 = multiparm(iv, iv, iv);
float* fp2 = multiparm(sv, iv, iv);
double* dp1 = multiparm(sv, sv, sv);
double* dp2 = multiparm(iv, sv, sv);
multiparm(sv, sv, lv); // expected-error {{call to 'multiparm' is ambiguous}}
}
// Test overloading based on qualification vs. no qualification
// conversion.
int* quals1(int const * p);
char* quals1(int * p);
int* quals2(int const * const * pp);
char* quals2(int * * pp);
int* quals3(int const * * const * ppp);
char* quals3(int *** ppp);
void test_quals(int * p, int * * pp, int * * * ppp) {
char* q1 = quals1(p);
char* q2 = quals2(pp);
char* q3 = quals3(ppp);
}
// Test overloading based on qualification ranking (C++ 13.3.2)p3.
int* quals_rank1(int const * p);
float* quals_rank1(int const volatile *p);
char* quals_rank1(char*);
double* quals_rank1(const char*);
int* quals_rank2(int const * const * pp);
float* quals_rank2(int * const * pp);
void quals_rank3(int const * const * const volatile * p); // expected-note{{candidate function}}
void quals_rank3(int const * const volatile * const * p); // expected-note{{candidate function}}
void quals_rank3(int const *); // expected-note{{candidate function}}
void quals_rank3(int volatile *); // expected-note{{candidate function}}
void test_quals_ranking(int * p, int volatile *pq, int * * pp, int * * * ppp) {
int* q1 = quals_rank1(p);
float* q2 = quals_rank1(pq);
double* q3 = quals_rank1("string literal");
char a[17];
const char* ap = a;
char* q4 = quals_rank1(a);
double* q5 = quals_rank1(ap);
float* q6 = quals_rank2(pp);
quals_rank3(ppp); // expected-error {{call to 'quals_rank3' is ambiguous}}
quals_rank3(p); // expected-error {{call to 'quals_rank3' is ambiguous}}
quals_rank3(pq);
}
// Test overloading based on derived-to-base conversions
class A { };
class B : public A { };
class C : public B { };
class D : public C { };
int* derived1(A*);
char* derived1(const A*);
float* derived1(void*);
int* derived2(A*);
float* derived2(B*);
int* derived3(A*);
float* derived3(const B*);
char* derived3(C*);
void test_derived(B* b, B const* bc, C* c, const C* cc, void* v, D* d) {
int* d1 = derived1(b);
char* d2 = derived1(bc);
int* d3 = derived1(c);
char* d4 = derived1(cc);
float* d5 = derived1(v);
float* d6 = derived2(b);
float* d7 = derived2(c);
char* d8 = derived3(d);
}
void derived4(C*); // expected-note{{candidate function not viable: cannot convert from base class pointer 'A *' to derived class pointer 'C *' for 1st argument}}
void test_base(A* a) {
derived4(a); // expected-error{{no matching function for call to 'derived4}}
}
// Test overloading of references.
// (FIXME: tests binding to determine candidate sets, not overload
// resolution per se).
int* intref(int&);
float* intref(const int&);
void intref_test() {
float* ir1 = intref(5);
float* ir2 = intref(5.5); // expected-warning{{implicit conversion from 'double' to 'int' changes value from 5.5 to 5}}
}
void derived5(C&); // expected-note{{candidate function not viable: cannot bind base class object of type 'A' to derived class reference 'C &' for 1st argument}}
void test_base(A& a) {
derived5(a); // expected-error{{no matching function for call to 'derived5}}
}
// Test reference binding vs. standard conversions.
int& bind_vs_conv(const double&);
float& bind_vs_conv(int);
void bind_vs_conv_test()
{
int& i1 = bind_vs_conv(1.0f);
float& f1 = bind_vs_conv((short)1);
}
// Test that cv-qualifiers get subsumed in the reference binding.
struct X { };
struct Y { };
struct Z : X, Y { };
int& cvqual_subsume(X&); // expected-note{{candidate function}}
float& cvqual_subsume(const Y&); // expected-note{{candidate function}}
int& cvqual_subsume2(X&); // expected-note{{candidate function}}
float& cvqual_subsume2(volatile Y&); // expected-note{{candidate function}}
void cvqual_subsume_test(Z z) {
cvqual_subsume(z); // expected-error{{call to 'cvqual_subsume' is ambiguous}}
cvqual_subsume2(z); // expected-error{{call to 'cvqual_subsume2' is ambiguous}}
}
// Test overloading with cv-qualification differences in reference
// binding.
int& cvqual_diff(X&);
float& cvqual_diff(const X&);
void cvqual_diff_test(X x, Z z) {
int& i1 = cvqual_diff(x);
int& i2 = cvqual_diff(z);
}
// Test overloading with derived-to-base differences in reference
// binding.
struct Z2 : Z { };
int& db_rebind(X&);
long& db_rebind(Y&);
float& db_rebind(Z&);
void db_rebind_test(Z2 z2) {
float& f1 = db_rebind(z2);
}
class string { };
class opt : public string { };
struct SR {
SR(const string&);
};
void f(SR) { }
void g(opt o) {
f(o);
}
namespace PR5756 {
int &a(void*, int);
float &a(void*, float);
void b() {
int &ir = a(0,0);
(void)ir;
}
}
// Tests the exact text used to note the candidates
namespace test1 {
template <class T>
void foo(T t, unsigned N); // expected-note {{candidate function template not viable: no known conversion from 'const char[6]' to 'unsigned int' for 2nd argument}}
void foo(int n, char N); // expected-note {{candidate function not viable: no known conversion from 'const char[6]' to 'char' for 2nd argument}}
void foo(int n, const char *s, int t); // expected-note {{candidate function not viable: requires 3 arguments, but 2 were provided}}
void foo(int n, const char *s, int t, ...); // expected-note {{candidate function not viable: requires at least 3 arguments, but 2 were provided}}
void foo(int n, const char *s, int t, int u = 0); // expected-note {{candidate function not viable: requires at least 3 arguments, but 2 were provided}}
// PR 11857
void foo(int n); // expected-note {{candidate function not viable: requires single argument 'n', but 2 arguments were provided}}
void foo(unsigned n = 10); // expected-note {{candidate function not viable: allows at most single argument 'n', but 2 arguments were provided}}
void bar(int n, int u = 0); // expected-note {{candidate function not viable: requires at least argument 'n', but no arguments were provided}}
void baz(int n = 0, int u = 0); // expected-note {{candidate function not viable: requires at most 2 arguments, but 3 were provided}}
void test() {
foo(4, "hello"); //expected-error {{no matching function for call to 'foo'}}
bar(); //expected-error {{no matching function for call to 'bar'}}
baz(3, 4, 5); // expected-error {{no matching function for call to 'baz'}}
}
}
// PR 6014
namespace test2 {
struct QFixed {
QFixed(int i);
QFixed(long i);
};
bool operator==(const QFixed &f, int i);
class qrgb666 {
inline operator unsigned int () const;
inline bool operator==(const qrgb666 &v) const;
inline bool operator!=(const qrgb666 &v) const { return !(*this == v); }
};
}
// PR 6117
namespace IncompleteConversion {
struct Complete {};
struct Incomplete;
void completeFunction(Complete *); // expected-note 2 {{cannot convert argument of incomplete type}}
void completeFunction(Complete &); // expected-note 2 {{cannot convert argument of incomplete type}}
void testTypeConversion(Incomplete *P) {
completeFunction(P); // expected-error {{no matching function for call to 'completeFunction'}}
completeFunction(*P); // expected-error {{no matching function for call to 'completeFunction'}}
}
void incompletePointerFunction(Incomplete *); // expected-note {{candidate function not viable: cannot convert argument of incomplete type 'Incomplete' to 'Incomplete *' for 1st argument; take the address of the argument with &}}
void incompleteReferenceFunction(Incomplete &); // expected-note {{candidate function not viable: cannot convert argument of incomplete type 'Incomplete *' to 'Incomplete &' for 1st argument; dereference the argument with *}}
void testPointerReferenceConversion(Incomplete &reference, Incomplete *pointer) {
incompletePointerFunction(reference); // expected-error {{no matching function for call to 'incompletePointerFunction'}}
incompleteReferenceFunction(pointer); // expected-error {{no matching function for call to 'incompleteReferenceFunction'}}
}
}
namespace DerivedToBaseVsVoid {
struct A { };
struct B : A { };
float &f(void *);
int &f(const A*);
void g(B *b) {
int &ir = f(b);
}
}
// PR 6398 + PR 6421
namespace test4 {
class A;
class B {
static void foo(); // expected-note {{not viable}}
static void foo(int*); // expected-note {{not viable}}
static void foo(long*); // expected-note {{not viable}}
void bar(A *a) {
foo(a); // expected-error {{no matching function for call}}
}
};
}
namespace DerivedToBase {
struct A { };
struct B : A { };
struct C : B { };
int &f0(const A&);
float &f0(B);
void g() {
float &fr = f0(C());
}
}
namespace PR6483 {
struct X0 {
operator const unsigned int & () const;
};
struct X1 {
operator unsigned int & () const;
};
void f0(const bool &);
void f1(bool &); // expected-note 2{{not viable}}
void g(X0 x0, X1 x1) {
f0(x0);
f1(x0); // expected-error{{no matching function for call}}
f0(x1);
f1(x1); // expected-error{{no matching function for call}}
}
}
namespace PR6078 {
struct A {
A(short); // expected-note{{candidate constructor}}
A(long); // expected-note{{candidate constructor}}
};
struct S {
typedef void ft(A);
operator ft*();
};
void f() {
S()(0); // expected-error{{conversion from 'int' to 'A' is ambiguous}}
}
}
namespace PR6177 {
struct String { String(char const*); };
void f(bool const volatile&);
int &f(String);
void g() { int &r = f(""); }
}
namespace PR7095 {
struct X { };
struct Y {
operator const X*();
private:
operator X*();
};
void f(const X *);
void g(Y y) { f(y); }
}
namespace PR7224 {
class A {};
class B : public A {};
int &foo(A *const d);
float &foo(const A *const d);
void bar()
{
B *const d = 0;
B const *const d2 = 0;
int &ir = foo(d);
float &fr = foo(d2);
}
}
namespace NontrivialSubsequence {
struct X0;
class A {
operator X0 *();
public:
operator const X0 *();
};
A a;
void foo( void const * );
void g() {
foo(a);
}
}
namespace rdar8499524 {
struct W {};
struct S {
S(...);
};
void g(const S&);
void f() {
g(W());
}
}
namespace rdar9173984 {
template <typename T, unsigned long N> int &f(const T (&)[N]);
template <typename T> float &f(const T *);
void test() {
int arr[2] = {0, 0};
int *arrp = arr;
int &ir = f(arr);
float &fr = f(arrp);
}
}
namespace PR9507 {
void f(int * const&); // expected-note{{candidate function}}
void f(int const(&)[1]); // expected-note{{candidate function}}
int main() {
int n[1];
f(n); // expected-error{{call to 'f' is ambiguous}}
}
}
namespace rdar9803316 {
void foo(float);
int &foo(int);
void bar() {
int &ir = (&foo)(0);
}
}
namespace IncompleteArg {
// Ensure that overload resolution attempts to complete argument types when
// performing ADL.
template<typename T> struct S {
friend int f(const S&);
};
extern S<int> s;
int k = f(s);
template<typename T> struct Op {
friend bool operator==(const Op &, const Op &);
};
extern Op<char> op;
bool b = op == op;
// ... and not in other cases! Nothing here requires U<int()> to be complete.
// (Note that instantiating U<int()> will fail.)
template<typename T> struct U {
T t;
};
struct Consumer {
template<typename T>
int operator()(const U<T> &);
};
template<typename T> U<T> &make();
Consumer c;
int n = sizeof(c(make<int()>()));
}
namespace PR12142 {
void fun(int (*x)[10]); // expected-note{{candidate function not viable: 1st argument ('const int (*)[10]') would lose const qualifier}}
void g() { fun((const int(*)[10])0); } // expected-error{{no matching function for call to 'fun'}}
}
// DR1152: Take 'volatile' into account when handling reference bindings in
// overload resolution.
namespace PR12931 {
void f(const int &, ...);
void f(const volatile int &, int);
void g() { f(0, 0); }
}
void test5() {
struct {
typedef void F1(int);
typedef void F2(double);
operator F1*(); // expected-note{{conversion candidate}}
operator F2*(); // expected-note{{conversion candidate}}
} callable;
callable(); // expected-error{{no matching function for call}}
}
namespace PR20218 {
void f(void (*const &)()); // expected-note 2{{candidate}}
void f(void (&&)()) = delete; // expected-note 2{{candidate}}
#if __cplusplus <= 199711L
// expected-warning@-2 {{rvalue references are a C++11 extension}}
// expected-warning@-3 {{deleted function definitions are a C++11 extension}}
#endif
void g(void (&&)()) = delete; // expected-note 2{{candidate}}
#if __cplusplus <= 199711L
// expected-warning@-2 {{rvalue references are a C++11 extension}}
// expected-warning@-3 {{deleted function definitions are a C++11 extension}}
#endif
void g(void (*const &)()); // expected-note 2{{candidate}}
void x();
typedef void (&fr)();
struct Y { operator fr(); } y;
void h() {
f(x); // expected-error {{ambiguous}}
g(x); // expected-error {{ambiguous}}
f(y); // expected-error {{ambiguous}}
g(y); // expected-error {{ambiguous}}
}
}
namespace StringLiteralToCharAmbiguity {
void f(char *, int);
void f(const char *, unsigned);
void g() { f("foo", 0); }
#if __cplusplus <= 199711L
// expected-error@-2 {{call to 'f' is ambiguous}}
// expected-note@-5 {{candidate function}}
// expected-note@-5 {{candidate function}}
#endif
}
namespace ProduceNotesAfterSFINAEFailure {
struct A {
template<typename T, typename U = typename T::x> A(T); // expected-warning 0-1{{extension}}
};
void f(void*, A); // expected-note {{candidate function not viable}}
void g() { f(1, 2); } // expected-error {{no matching function}}
}
namespace PR19808 {
struct B {
int i;
void bar();
};
struct D : public B{};
void f(bool);
void f(int D::*);
void f(void (D::*)());
void Usage() {
int B::*pmem;
void (B::*pmf)();
// These should not be ambiguous.
f(pmem);
f(pmf);
}
}
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