// RUN: %clang_cc1 -std=c++11 -fsyntax-only -verify %s struct one { char c; }; struct two { char c[2]; }; namespace reference { struct A { int i1, i2; }; void single_init() { const int &cri1a = {1}; const int &cri1b{1}; int i = 1; int &ri1a = {i}; int &ri1b{i}; int &ri2 = {1}; // expected-error {{cannot bind to an initializer list temporary}} A a{1, 2}; A &ra1a = {a}; A &ra1b{a}; } void reference_to_aggregate() { const A &ra1{1, 2}; A &ra2{1, 2}; // expected-error {{cannot bind to an initializer list temporary}} const int (&arrayRef)[] = {1, 2, 3}; static_assert(sizeof(arrayRef) == 3 * sizeof(int), "bad array size"); } struct B { int i1; }; void call() { one f(const int&); f({1}); one g(int&); // expected-note {{passing argument}} g({1}); // expected-error {{cannot bind to an initializer list temporary}} int i = 0; g({i}); void h(const B&); h({1}); void a(B&); // expected-note {{passing argument}} a({1}); // expected-error {{cannot bind to an initializer list temporary}} B b{1}; a({b}); } void overloading() { one f(const int&); two f(const B&); // First is identity conversion, second is user-defined conversion. static_assert(sizeof(f({1})) == sizeof(one), "bad overload resolution"); one g(int&); two g(const B&); static_assert(sizeof(g({1})) == sizeof(two), "bad overload resolution"); one h(const int&); two h(const A&); static_assert(sizeof(h({1, 2})) == sizeof(two), "bad overload resolution"); } struct X {}; void edge_cases() { int const &b({0}); // expected-error {{cannot initialize reference type 'const int &' with a parenthesized initializer list}} const int (&arr)[3] ({1, 2, 3}); // expected-error {{cannot initialize reference type 'const int (&)[3]' with a parenthesized initializer list}} const X &x({}); // expected-error {{cannot initialize reference type 'const reference::X &' with a parenthesized initializer list}} } template void dependent_edge_cases() { T b({}); // expected-error-re 3{{cannot initialize reference type {{.*}} with a parenthesized init}} T({}); // expected-error-re 3{{cannot initialize reference type {{.*}} with a parenthesized init}} } template void dependent_edge_cases(); // ok template void dependent_edge_cases(); // expected-note {{instantiation of}} template void dependent_edge_cases(); // expected-note {{instantiation of}} template void dependent_edge_cases(); // expected-note {{instantiation of}} } namespace PR12182 { void f(int const(&)[3]); void g() { f({1, 2}); } } namespace PR12660 { const int &i { 1 }; struct S { S(int); } const &s { 2 }; } namespace b7891773 { typedef void (*ptr)(); template void f(); int g(const ptr &); int k = g({ f }); } namespace inner_init { struct A { int n; }; struct B { A &&r; }; B b1 { 0 }; // expected-error {{reference to type 'inner_init::A' could not bind to an rvalue of type 'int'}} B b2 { { 0 } }; B b3 { { { 0 } } }; // expected-warning {{braces around scalar init}} struct C { C(int); }; // expected-note 2{{candidate constructor (the implicit}} \ // expected-note {{candidate constructor not viable: cannot convert initializer list argument to 'int'}} struct D { C &&r; }; D d1 { 0 }; // ok, 0 implicitly converts to C D d2 { { 0 } }; // ok, { 0 } calls C(0) D d3 { { { 0 } } }; // ok, { { 0 } } calls C({ 0 }), expected-warning {{braces around scalar init}} D d4 { { { { 0 } } } }; // expected-error {{no matching constructor for initialization of 'inner_init::C &&'}} struct E { explicit E(int); }; // expected-note 2{{here}} struct F { E &&r; }; F f1 { 0 }; // expected-error {{could not bind to an rvalue of type 'int'}} F f2 { { 0 } }; // expected-error {{chosen constructor is explicit}} F f3 { { { 0 } } }; // expected-error {{chosen constructor is explicit}} } namespace PR20844 { struct A {}; struct B { operator A&(); } b; A &a{b}; // expected-error {{excess elements}} expected-note {{in initialization of temporary of type 'PR20844::A'}} } namespace PR21834 { const int &a = (const int &){0}; // expected-error {{cannot bind to an initializer list}} }