cxx0x-initializer-stdinitializerlist.cpp
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// RUN: %clang_cc1 -std=c++11 -fsyntax-only -verify %s
// This must obviously come before the definition of std::initializer_list.
void missing_initializerlist() {
auto l = {1, 2, 3, 4}; // expected-error {{std::initializer_list was not found}}
}
namespace std {
typedef decltype(sizeof(int)) size_t;
// libc++'s implementation
template <class _E>
class initializer_list
{
const _E* __begin_;
size_t __size_;
initializer_list(const _E* __b, size_t __s)
: __begin_(__b),
__size_(__s)
{}
public:
typedef _E value_type;
typedef const _E& reference;
typedef const _E& const_reference;
typedef size_t size_type;
typedef const _E* iterator;
typedef const _E* const_iterator;
constexpr initializer_list() : __begin_(nullptr), __size_(0) {}
constexpr size_t size() const {return __size_;}
const _E* begin() const {return __begin_;}
const _E* end() const {return __begin_ + __size_;}
};
}
template <typename T, typename U>
struct same_type { static const bool value = false; };
template <typename T>
struct same_type<T, T> { static const bool value = true; };
struct one { char c[1]; };
struct two { char c[2]; };
struct A {
int a, b;
};
struct B {
B();
B(int, int);
};
void simple_list() {
std::initializer_list<int> il = { 1, 2, 3 };
std::initializer_list<double> dl = { 1.0, 2.0, 3 };
std::initializer_list<A> al = { {1, 2}, {2, 3}, {3, 4} };
std::initializer_list<B> bl = { {1, 2}, {2, 3}, {} };
}
void function_call() {
void f(std::initializer_list<int>);
f({1, 2, 3});
void g(std::initializer_list<B>);
g({ {1, 2}, {2, 3}, {} });
}
struct C {
C(int);
};
struct D {
D();
operator int();
operator C();
};
void overloaded_call() {
one overloaded(std::initializer_list<int>);
two overloaded(std::initializer_list<B>);
static_assert(sizeof(overloaded({1, 2, 3})) == sizeof(one), "bad overload");
static_assert(sizeof(overloaded({ {1, 2}, {2, 3}, {} })) == sizeof(two), "bad overload");
void ambiguous(std::initializer_list<A>); // expected-note {{candidate}}
void ambiguous(std::initializer_list<B>); // expected-note {{candidate}}
ambiguous({ {1, 2}, {2, 3}, {3, 4} }); // expected-error {{ambiguous}}
one ov2(std::initializer_list<int>); // expected-note {{candidate}}
two ov2(std::initializer_list<C>); // expected-note {{candidate}}
// Worst sequence to int is identity, whereas to C it's user-defined.
static_assert(sizeof(ov2({1, 2, 3})) == sizeof(one), "bad overload");
// But here, user-defined is worst in both cases.
ov2({1, 2, D()}); // expected-error {{ambiguous}}
}
template <typename T>
T deduce(std::initializer_list<T>); // expected-note {{conflicting types for parameter 'T' ('int' vs. 'double')}}
template <typename T>
T deduce_ref(const std::initializer_list<T>&); // expected-note {{conflicting types for parameter 'T' ('int' vs. 'double')}}
template<typename T, typename U> struct pair { pair(...); };
template<typename T> void deduce_pairs(std::initializer_list<pair<T, typename T::type>>);
// expected-note@-1 {{deduced type 'pair<[...], typename WithIntType::type>' of element of 1st parameter does not match adjusted type 'pair<[...], float>' of element of argument [with T = WithIntType]}}
struct WithIntType { typedef int type; };
template<typename ...T> void deduce_after_init_list_in_pack(void (*)(T...), T...); // expected-note {{<int, int> vs. <(no value), double>}}
void argument_deduction() {
static_assert(same_type<decltype(deduce({1, 2, 3})), int>::value, "bad deduction");
static_assert(same_type<decltype(deduce({1.0, 2.0, 3.0})), double>::value, "bad deduction");
deduce({1, 2.0}); // expected-error {{no matching function}}
static_assert(same_type<decltype(deduce_ref({1, 2, 3})), int>::value, "bad deduction");
static_assert(same_type<decltype(deduce_ref({1.0, 2.0, 3.0})), double>::value, "bad deduction");
deduce_ref({1, 2.0}); // expected-error {{no matching function}}
pair<WithIntType, int> pi;
pair<WithIntType, float> pf;
deduce_pairs({pi, pi, pi}); // ok
deduce_pairs({pi, pf, pi}); // expected-error {{no matching function}}
deduce_after_init_list_in_pack((void(*)(int,int))0, {}, 0);
deduce_after_init_list_in_pack((void(*)(int,int))0, {}, 0.0); // expected-error {{no matching function}}
}
void auto_deduction() {
auto l = {1, 2, 3, 4};
auto l2 {1, 2, 3, 4}; // expected-error {{initializer for variable 'l2' with type 'auto' contains multiple expressions}}
auto l3 {1};
static_assert(same_type<decltype(l), std::initializer_list<int>>::value, "");
static_assert(same_type<decltype(l3), int>::value, "");
auto bl = {1, 2.0}; // expected-error {{deduced conflicting types ('int' vs 'double') for initializer list element type}}
void f1(int), f1(float), f2(int), f3(float);
auto fil = {f1, f2};
auto ffl = {f1, f3};
auto fl = {f1, f2, f3}; // expected-error {{deduced conflicting types ('void (*)(int)' vs 'void (*)(float)') for initializer list element type}}
for (int i : {1, 2, 3, 4}) {}
for (int j : {1.0, 2.0, 3.0f, 4.0}) {} // expected-error {{deduced conflicting types ('double' vs 'float') for initializer list element type}}
}
void dangle() {
new auto{1, 2, 3}; // expected-error {{new expression for type 'auto' contains multiple constructor arguments}}
new std::initializer_list<int>{1, 2, 3}; // expected-warning {{at the end of the full-expression}}
}
struct haslist1 {
std::initializer_list<int> il // expected-note {{declared here}}
= {1, 2, 3}; // ok, unused
std::initializer_list<int> jl{1, 2, 3}; // expected-note {{default member init}}
haslist1();
};
haslist1::haslist1() // expected-error {{backing array for 'std::initializer_list' member 'jl' is a temporary object}}
: il{1, 2, 3} // expected-error {{backing array for 'std::initializer_list' member 'il' is a temporary object}}
{}
namespace PR12119 {
// Deduction with nested initializer lists.
template<typename T> void f(std::initializer_list<T>);
template<typename T> void g(std::initializer_list<std::initializer_list<T>>);
void foo() {
f({0, {1}}); // expected-warning{{braces around scalar initializer}}
g({{0, 1}, {2, 3}});
std::initializer_list<int> il = {1, 2};
g({il, {2, 3}});
}
}
namespace Decay {
template<typename T>
void f(std::initializer_list<T>) {
T x = 1; // expected-error{{cannot initialize a variable of type 'const char *' with an rvalue of type 'int'}}
}
void g() {
f({"A", "BB", "CCC"}); // expected-note{{in instantiation of function template specialization 'Decay::f<const char *>' requested here}}
auto x = { "A", "BB", "CCC" };
std::initializer_list<const char *> *il = &x;
for( auto s : {"A", "BB", "CCC", "DDD"}) { }
}
}
namespace PR12436 {
struct X {
template<typename T>
X(std::initializer_list<int>, T);
};
X x({}, 17);
}
namespace rdar11948732 {
template<typename T> struct X {};
struct XCtorInit {
XCtorInit(std::initializer_list<X<int>>);
};
void f(X<int> &xi) {
XCtorInit xc = { xi, xi };
}
}
namespace PR14272 {
auto x { { 0, 0 } }; // expected-error {{cannot deduce type for variable 'x' with type 'auto' from nested initializer list}}
}
namespace initlist_of_array {
void f(std::initializer_list<int[2]>) {}
void f(std::initializer_list<int[2][2]>) = delete;
void h() {
f({{1,2},{3,4}});
}
}
namespace init_list_deduction_failure {
void f();
void f(int);
// FIXME: It'd be nice to track that 'T' became a non-deduced context due to
// overload resolution failure for 'f'.
template<typename T> void g(std::initializer_list<T>);
// expected-note@-1 {{candidate template ignored: couldn't infer template argument 'T'}}
void h() {
g({f}); // expected-error {{no matching function for call to 'g'}}
g({f, h}); // ok
}
}
namespace deleted_copy {
struct X {
X(int i) {}
X(const X& x) = delete; // expected-note {{here}}
void operator=(const X& x) = delete;
};
std::initializer_list<X> x{1}; // expected-error {{invokes deleted constructor}}
}
namespace RefVersusInitList {
struct S {};
void f(const S &) = delete;
void f(std::initializer_list<S>);
void g(S s) { f({S()}); }
}
namespace PR18013 {
int f();
std::initializer_list<long (*)()> x = {f}; // expected-error {{cannot initialize an array element of type 'long (*const)()' with an lvalue of type 'int ()': different return type ('long' vs 'int')}}
}
namespace DR1070 {
struct S {
S(std::initializer_list<int>);
};
S s[3] = { {1, 2, 3}, {4, 5} }; // ok
S *p = new S[3] { {1, 2, 3}, {4, 5} }; // ok
}
namespace ListInitInstantiate {
struct A {
A(std::initializer_list<A>);
A(std::initializer_list<int>);
};
struct B : A {
B(int);
};
template<typename T> struct X {
X();
A a;
};
template<typename T> X<T>::X() : a{B{0}, B{1}} {}
X<int> x;
int f(const A&);
template<typename T> void g() { int k = f({0}); }
template void g<int>();
}
namespace TemporaryInitListSourceRange_PR22367 {
struct A {
constexpr A() {}
A(std::initializer_list<int>); // expected-note {{here}}
};
constexpr int f(A) { return 0; }
constexpr int k = f( // expected-error {{must be initialized by a constant expression}}
// The point of this test is to check that the caret points to
// 'std::initializer_list', not to '{0}'.
std::initializer_list // expected-note {{constructor}}
<int>
{0}
);
}
namespace ParameterPackNestedInitializerLists_PR23904c3 {
template <typename ...T>
void f(std::initializer_list<std::initializer_list<T>> ...tt); // expected-note 2{{conflicting}} expected-note {{incomplete pack}}
void foo() {
f({{0}}, {{'\0'}}); // ok, T = <int, char>
f({{0}, {'\0'}}); // expected-error {{no match}}
f({{0, '\0'}}); // expected-error {{no match}}
f({{0}}, {{{}}}); // expected-error {{no match}}
f({{0}}, {{{}, '\0'}}); // ok, T = <int, char>
f({{0}, {{}}}); // ok, T = <int>
f({{0, {}}}); // ok, T = <int>
}
}
namespace update_rbrace_loc_crash {
// We used to crash-on-invalid on this example when updating the right brace
// location.
template <typename T, T>
struct A {};
template <typename T, typename F, int... I>
std::initializer_list<T> ExplodeImpl(F p1, A<int, I...>) {
// expected-error@+1 {{reference to incomplete type 'const update_rbrace_loc_crash::Incomplete' could not bind to an rvalue of type 'void'}}
return {p1(I)...};
}
template <typename T, int N, typename F>
void Explode(F p1) {
// expected-note@+1 {{in instantiation of function template specialization}}
ExplodeImpl<T>(p1, A<int, N>());
}
class Incomplete;
struct ContainsIncomplete {
const Incomplete &obstacle;
};
void f() {
// expected-note@+1 {{in instantiation of function template specialization}}
Explode<ContainsIncomplete, 4>([](int) {});
}
}
namespace no_conversion_after_auto_list_deduction {
// We used to deduce 'auto' == 'std::initializer_list<X>' here, and then
// incorrectly accept the declaration of 'x'.
struct X { using T = std::initializer_list<X> X::*; operator T(); };
auto X::*x = { X() }; // expected-error {{from initializer list}}
struct Y { using T = std::initializer_list<Y>(*)(); operator T(); };
auto (*y)() = { Y() }; // expected-error {{from initializer list}}
}
namespace designated_init {
constexpr auto a = {.a = 1, .b = 2}; // expected-error {{cannot deduce}}
constexpr auto b = {[0] = 1, [4] = 2}; // expected-error {{cannot deduce}} expected-warning {{C99}}
constexpr auto c = {1, [4] = 2}; // expected-error {{cannot deduce}} expected-warning 2{{C99}} expected-note {{here}}
constexpr auto d = {1, [0] = 2}; // expected-error {{cannot deduce}} expected-warning 2{{C99}} expected-note {{here}}
// If we ever start accepting the above, these assertions should pass.
static_assert(c.size() == 5, "");
static_assert(d.size() == 1, "");
}
namespace weird_initlist {
struct weird {};
}
template<> struct std::initializer_list<weird_initlist::weird> { int a, b, c; };
namespace weird_initlist {
// We don't check the struct layout in Sema.
auto x = {weird{}, weird{}, weird{}, weird{}, weird{}};
// ... but we do in constant evaluation.
constexpr auto y = {weird{}, weird{}, weird{}, weird{}, weird{}}; // expected-error {{constant}} expected-note {{type 'const std::initializer_list<weird_initlist::weird>' has unexpected layout}}
}