// RUN: %clang_cc1 -std=c++14 -Wno-unused-value -fsyntax-only -verify -verify=expected-cxx14 -fblocks %s // RUN: %clang_cc1 -std=c++17 -Wno-unused-value -fsyntax-only -verify -fblocks %s namespace std { class type_info; }; namespace ExplicitCapture { class C { int Member; static void Overload(int); void Overload(); virtual C& Overload(float); void ImplicitThisCapture() { []() { (void)Member; }; // expected-error {{'this' cannot be implicitly captured in this context}} expected-note {{explicitly capture 'this'}} const int var = []() {(void)Member; return 0; }(); // expected-error {{'this' cannot be implicitly captured in this context}} expected-note {{explicitly capture 'this'}} [&](){(void)Member;}; [this](){(void)Member;}; [this]{[this]{};}; []{[this]{};};// expected-error {{'this' cannot be implicitly captured in this context}} []{Overload(3);}; [] { Overload(); }; // expected-error {{'this' cannot be implicitly captured in this context}} expected-note {{explicitly capture 'this'}} []{(void)typeid(Overload());}; [] { (void)typeid(Overload(.5f)); }; // expected-error {{'this' cannot be implicitly captured in this context}} expected-note {{explicitly capture 'this'}} } }; void f() { [this] () {}; // expected-error {{'this' cannot be captured in this context}} } } namespace ReturnDeduction { void test() { [](){ return 1; }; [](){ return 1; }; [](){ return ({return 1; 1;}); }; [](){ return ({return 'c'; 1;}); }; // expected-error {{must match previous return type}} []()->int{ return 'c'; return 1; }; [](){ return 'c'; return 1; }; // expected-error {{must match previous return type}} []() { return; return (void)0; }; [](){ return 1; return 1; }; } } namespace ImplicitCapture { void test() { int a = 0; // expected-note 5 {{declared}} []() { return a; }; // expected-error {{variable 'a' cannot be implicitly captured in a lambda with no capture-default specified}} expected-note {{begins here}} expected-note 2 {{capture 'a' by}} expected-note 2 {{default capture by}} [&]() { return a; }; [=]() { return a; }; [=]() { int* b = &a; }; // expected-error {{cannot initialize a variable of type 'int *' with an rvalue of type 'const int *'}} [=]() { return [&]() { return a; }; }; []() { return [&]() { return a; }; }; // expected-error {{variable 'a' cannot be implicitly captured in a lambda with no capture-default specified}} expected-note {{lambda expression begins here}} expected-note 2 {{capture 'a' by}} expected-note 2 {{default capture by}} []() { return ^{ return a; }; };// expected-error {{variable 'a' cannot be implicitly captured in a lambda with no capture-default specified}} expected-note {{lambda expression begins here}} expected-note 2 {{capture 'a' by}} expected-note 2 {{default capture by}} []() { return [&a] { return a; }; }; // expected-error 2 {{variable 'a' cannot be implicitly captured in a lambda with no capture-default specified}} expected-note 2 {{lambda expression begins here}} expected-note 4 {{capture 'a' by}} expected-note 4 {{default capture by}} [=]() { return [&a] { return a; }; }; // const int b = 2; []() { return b; }; union { // expected-note {{declared}} int c; float d; }; d = 3; [=]() { return c; }; // expected-error {{unnamed variable cannot be implicitly captured in a lambda expression}} __block int e; // expected-note 2{{declared}} [&]() { return e; }; // expected-error {{__block variable 'e' cannot be captured in a lambda expression}} [&e]() { return e; }; // expected-error {{__block variable 'e' cannot be captured in a lambda expression}} int f[10]; // expected-note {{declared}} [&]() { return f[2]; }; (void) ^{ return []() { return f[2]; }; }; // expected-error {{variable 'f' cannot be implicitly captured in a lambda with no capture-default specified}} \ // expected-note{{lambda expression begins here}} expected-note 2 {{capture 'f' by}} expected-note 2 {{default capture by}} struct G { G(); G(G&); int a; }; // expected-note 6 {{not viable}} G g; [=]() { const G* gg = &g; return gg->a; }; [=]() { return [=]{ const G* gg = &g; return gg->a; }(); }; // expected-error {{no matching constructor for initialization of 'G'}} (void)^{ return [=]{ const G* gg = &g; return gg->a; }(); }; // expected-error 2 {{no matching constructor for initialization of 'const G'}} const int h = a; // expected-note {{declared}} []() { return h; }; // expected-error {{variable 'h' cannot be implicitly captured in a lambda with no capture-default specified}} expected-note {{lambda expression begins here}} expected-note 2 {{capture 'h' by}} expected-note 2 {{default capture by}} // References can appear in constant expressions if they are initialized by // reference constant expressions. int i; int &ref_i = i; // expected-note {{declared}} [] { return ref_i; }; // expected-error {{variable 'ref_i' cannot be implicitly captured in a lambda with no capture-default specified}} expected-note {{lambda expression begins here}} expected-note 2 {{capture 'ref_i' by}} expected-note 2 {{default capture by}} static int j; int &ref_j = j; [] { return ref_j; }; // ok } } namespace SpecialMembers { void f() { auto a = []{}; // expected-note 2{{here}} expected-note 2{{candidate}} decltype(a) b; // expected-error {{no matching constructor}} decltype(a) c = a; decltype(a) d = static_cast(a); a = a; // expected-error {{copy assignment operator is implicitly deleted}} a = static_cast(a); // expected-error {{copy assignment operator is implicitly deleted}} } struct P { P(const P&) = delete; //expected-note {{deleted here}} // expected-cxx14-note {{deleted here}} }; struct Q { ~Q() = delete; // expected-note {{deleted here}} }; struct R { R(const R&) = default; R(R&&) = delete; R &operator=(const R&) = delete; R &operator=(R&&) = delete; }; void g(P &p, Q &q, R &r) { // FIXME: The note attached to the second error here is just amazingly bad. auto pp = [p]{}; // expected-error {{deleted constructor}} expected-cxx14-error {{deleted copy constructor of '(lambda}} // expected-cxx14-note@-1 {{copy constructor of '' is implicitly deleted because field '' has a deleted copy constructor}} auto qq = [q]{}; // expected-error {{deleted function}} expected-note {{because}} auto a = [r]{}; // expected-note 2{{here}} decltype(a) b = a; decltype(a) c = static_cast(a); // ok, copies R a = a; // expected-error {{copy assignment operator is implicitly deleted}} a = static_cast(a); // expected-error {{copy assignment operator is implicitly deleted}} } } namespace PR12031 { struct X { template X(const T&); ~X(); }; void f(int i, X x); void g() { const int v = 10; f(v, [](){}); } } namespace Array { int &f(int *p); char &f(...); void g() { int n = -1; [=] { int arr[n]; // VLA } (); const int m = -1; [] { int arr[m]; // expected-error{{negative size}} } (); [&] { int arr[m]; // expected-error{{negative size}} } (); [=] { int arr[m]; // expected-error{{negative size}} } (); [m] { int arr[m]; // expected-error{{negative size}} } (); } } void PR12248() { unsigned int result = 0; auto l = [&]() { ++result; }; } namespace ModifyingCapture { void test() { int n = 0; [=] { n = 1; // expected-error {{cannot assign to a variable captured by copy in a non-mutable lambda}} }; } } namespace VariadicPackExpansion { template using Fst = T; template bool g(Fst ...bools); template bool f(Ts &&...ts) { return g([&ts] { if (!ts) return false; --ts; return true; } () ...); } void h() { int a = 5, b = 2, c = 3; while (f(a, b, c)) { } } struct sink { template sink(Ts &&...) {} }; template void local_class() { sink { [] (Ts t) { struct S : Ts { void f(Ts t) { Ts &that = *this; that = t; } Ts g() { return *this; }; }; S s; s.f(t); return s; } (Ts()).g() ... }; }; struct X {}; struct Y {}; template void local_class(); template void nested(Ts ...ts) { f( // Each expansion of this lambda implicitly captures all of 'ts', because // the inner lambda also expands 'ts'. [&] { return ts + [&] { return f(ts...); } (); } () ... ); } template void nested(int, int, int); template void nested2(Ts ...ts) { // expected-note 2{{here}} // Capture all 'ts', use only one. f([&ts...] { return ts; } ()...); // Capture each 'ts', use it. f([&ts] { return ts; } ()...); // Capture all 'ts', use all of them. f([&ts...] { return (int)f(ts...); } ()); // Capture each 'ts', use all of them. Ill-formed. In more detail: // // We instantiate two lambdas here; the first captures ts$0, the second // captures ts$1. Both of them reference both ts parameters, so both are // ill-formed because ts can't be implicitly captured. // // FIXME: This diagnostic does not explain what's happening. We should // specify which 'ts' we're referring to in its diagnostic name. We should // also say which slice of the pack expansion is being performed in the // instantiation backtrace. f([&ts] { return (int)f(ts...); } ()...); // \ // expected-error 2{{'ts' cannot be implicitly captured}} \ // expected-note 2{{lambda expression begins here}} \ // expected-note 4 {{capture 'ts' by}} } template void nested2(int); // ok template void nested2(int, int); // expected-note {{in instantiation of}} } namespace PR13860 { void foo() { auto x = PR13860UndeclaredIdentifier(); // expected-error {{use of undeclared identifier 'PR13860UndeclaredIdentifier'}} auto y = [x]() { }; static_assert(sizeof(y), ""); } } namespace PR13854 { auto l = [](void){}; } namespace PR14518 { auto f = [](void) { return __func__; }; // no-warning } namespace PR16708 { auto L = []() { auto ret = 0; return ret; return 0; }; } namespace TypeDeduction { struct S {}; void f() { const S s {}; S &&t = [&] { return s; } (); #if __cplusplus > 201103L S &&u = [&] () -> auto { return s; } (); #endif } } namespace lambdas_in_NSDMIs { template struct L { T t{}; T t2 = ([](int a) { return [](int b) { return b; };})(t)(t); }; L l; namespace non_template { struct L { int t = 0; int t2 = ([](int a) { return [](int b) { return b; };})(t)(t); }; L l; } } // PR18477: don't try to capture 'this' from an NSDMI encountered while parsing // a lambda. namespace NSDMIs_in_lambdas { template struct S { int a = 0; int b = a; }; void f() { []() { S s; }; } auto x = []{ struct S { int n, m = n; }; }; auto y = [&]{ struct S { int n, m = n; }; }; // expected-error {{non-local lambda expression cannot have a capture-default}} void g() { auto z = [&]{ struct S { int n, m = n; }; }; } } namespace CaptureIncomplete { struct Incomplete; // expected-note 2{{forward decl}} void g(const Incomplete &a); void f(Incomplete &a) { (void) [a] {}; // expected-error {{incomplete}} (void) [&a] {}; (void) [=] { g(a); }; // expected-error {{incomplete}} (void) [&] { f(a); }; } } namespace CaptureAbstract { struct S { virtual void f() = 0; // expected-note {{unimplemented}} int n = 0; }; struct T : S { constexpr T() {} void f(); }; void f() { constexpr T t = T(); S &s = const_cast(t); // FIXME: Once we properly compute odr-use per DR712, this should be // accepted (and should not capture 's'). [=] { return s.n; }; // expected-error {{abstract}} } } namespace PR18128 { auto l = [=]{}; // expected-error {{non-local lambda expression cannot have a capture-default}} struct S { int n; int (*f())[true ? 1 : ([=]{ return n; }(), 0)]; // expected-error@-1 {{non-local lambda expression cannot have a capture-default}} // expected-error@-2 {{invalid use of non-static data member 'n'}} // expected-cxx14-error@-3 {{a lambda expression may not appear inside of a constant expression}} int g(int k = ([=]{ return n; }(), 0)); // expected-error@-1 {{non-local lambda expression cannot have a capture-default}} // expected-error@-2 {{invalid use of non-static data member 'n'}} int a = [=]{ return n; }(); // ok int b = [=]{ return [=]{ return n; }(); }(); // ok int c = []{ int k = 0; return [=]{ return k; }(); }(); // ok int d = [] { return [=] { return n; }(); }(); // expected-error {{'this' cannot be implicitly captured in this context}} expected-note {{explicitly capture 'this'}} }; } namespace PR18473 { template void f() { T t(0); (void) [=]{ int n = t; }; // expected-error {{deleted}} } template void f(); struct NoCopy { NoCopy(int); NoCopy(const NoCopy &) = delete; // expected-note {{deleted}} operator int() const; }; template void f(); // expected-note {{instantiation}} } void PR19249() { auto x = [&x]{}; // expected-error {{cannot appear in its own init}} } namespace PR20731 { template void Job(L l); template void Logger(Args &&... args) { auto len = Invalid_Function((args)...); // expected-error@-1 {{use of undeclared identifier 'Invalid_Function'}} Job([len]() {}); } void GetMethod() { Logger(); // expected-note@-1 {{in instantiation of function template specialization 'PR20731::Logger<>' requested here}} } template struct A { T t; // expected-error@-1 {{field has incomplete type 'void'}} }; template void g(F f) { auto a = A{}; // expected-note@-1 {{in instantiation of template class 'PR20731::A' requested here}} auto xf = [a, f]() {}; int x = sizeof(xf); }; void f() { g([] {}); // expected-note-re@-1 {{in instantiation of function template specialization 'PR20731::g<(lambda at {{.*}}>' requested here}} } template struct function { template function(_Fp) { static_assert(sizeof(_Fp) > 0, "Type must be complete."); } }; template void p(T t) { auto l = some_undefined_function(t); // expected-error@-1 {{use of undeclared identifier 'some_undefined_function'}} function(([l]() {})); } void q() { p(0); } // expected-note@-1 {{in instantiation of function template specialization 'PR20731::p' requested here}} } namespace lambda_in_default_mem_init { template void f() { struct S { int n = []{ return 0; }(); }; } template void f(); template void g() { struct S { int n = [](int n){ return n; }(0); }; } template void g(); } namespace error_in_transform_prototype { template void f(T t) { // expected-error@+2 {{type 'int' cannot be used prior to '::' because it has no members}} // expected-error@+1 {{no member named 'ns' in 'error_in_transform_prototype::S'}} auto x = [](typename T::ns::type &k) {}; } class S {}; void foo() { f(5); // expected-note {{requested here}} f(S()); // expected-note {{requested here}} } } namespace PR21857 { template struct fun : Fn { fun() = default; using Fn::operator(); }; template fun wrap(Fn fn); auto x = wrap([](){}); } namespace PR13987 { class Enclosing { void Method(char c = []()->char { int d = []()->int { struct LocalClass { int Method() { return 0; } }; return 0; }(); return d; }() ); }; } namespace PR23860 { template struct A { void f(int x = []() { struct B { void g() {} }; return 0; }()); }; int main() { } A a; } // rdar://22032373 namespace rdar22032373 { void foo() { auto blk = [](bool b) { if (b) return undeclared_error; // expected-error {{use of undeclared identifier}} return 0; }; auto bar = []() { return undef(); // expected-error {{use of undeclared identifier}} return 0; // verify no init_conversion_failed diagnostic emitted. }; } } namespace nested_lambda { template class S {}; void foo() { const int num = 18; auto outer = []() { auto inner = [](S &X) {}; }; } } namespace PR27994 { struct A { template A(T); }; template struct B { int x; A a = [&] { int y = x; }; A b = [&] { [&] { [&] { int y = x; }; }; }; A d = [&](auto param) { int y = x; }; A e = [&](auto param) { [&] { [&](auto param2) { int y = x; }; }; }; }; B b; template struct C { struct D { int x; A f = [&] { int y = x; }; }; }; int func() { C a; decltype(a)::D b; } } namespace PR30566 { int name1; // expected-note {{'name1' declared here}} struct S1 { template S1(T t) { s = sizeof(t); } int s; }; void foo1() { auto s0 = S1{[name=]() {}}; // expected-error 2 {{expected expression}} auto s1 = S1{[name=name]() {}}; // expected-error {{use of undeclared identifier 'name'; did you mean 'name1'?}} } } namespace PR25627_dont_odr_use_local_consts { template struct X {}; void foo() { const int N = 10; (void) [] { X x; }; } } namespace ConversionOperatorDoesNotHaveDeducedReturnType { auto x = [](int){}; auto y = [](auto &v) -> void { v.n = 0; }; using T = decltype(x); using U = decltype(y); using ExpectedTypeT = void (*)(int); template using ExpectedTypeU = void (*)(T&); struct X { #if __cplusplus > 201402L friend constexpr auto T::operator()(int) const; friend constexpr T::operator ExpectedTypeT() const noexcept; template friend constexpr void U::operator()(T&) const; // FIXME: This should not match; the return type is specified as behaving // "as if it were a decltype-specifier denoting the return type of // [operator()]", which is not equivalent to this alias template. template friend constexpr U::operator ExpectedTypeU() const noexcept; #else friend auto T::operator()(int) const; friend T::operator ExpectedTypeT() const; template friend void U::operator()(T&) const; // FIXME: This should not match, as above. template friend U::operator ExpectedTypeU() const; #endif private: int n; }; // Should be OK: lambda's call operator is a friend. void use(X &x) { y(x); } // This used to crash in return type deduction for the conversion opreator. struct A { int n; void f() { +[](decltype(n)) {}; } }; } namespace TypoCorrection { template struct X {}; // expected-note@-1 {{template parameter is declared here}} template void Run(const int& points) { // expected-note@-1 {{'points' declared here}} auto outer_lambda = []() { auto inner_lambda = [](const X&) {}; // expected-error@-1 {{use of undeclared identifier 'Points'; did you mean 'points'?}} // expected-error@-2 {{template argument for template type parameter must be a type}} }; } } void operator_parens() { [&](int x){ operator()(); }(0); // expected-error {{undeclared 'operator()'}} } namespace captured_name { void Test() { union { // expected-note {{'' declared here}} int i; }; [] { return i; }; // expected-error {{variable '' cannot be implicitly captured in a lambda with no capture-default specified}} // expected-note@-1 {{lambda expression begins here}} // expected-note@-2 2 {{default capture by}} } };