// RUN: %clang_cc1 -std=c++1z -verify -fsyntax-only -fblocks -emit-llvm-only %s // RUN: %clang_cc1 -std=c++1z -verify -fsyntax-only -fblocks -fdelayed-template-parsing %s -DDELAYED_TEMPLATE_PARSING // RUN: %clang_cc1 -std=c++1z -verify -fsyntax-only -fblocks -fms-extensions %s -DMS_EXTENSIONS // RUN: %clang_cc1 -std=c++1z -verify -fsyntax-only -fblocks -fdelayed-template-parsing -fms-extensions %s -DMS_EXTENSIONS -DDELAYED_TEMPLATE_PARSING template constexpr bool is_same = false; template constexpr bool is_same = true; namespace test_star_this { namespace ns1 { class A { int x = 345; auto foo() { (void) [*this, this] { }; //expected-error{{'this' can appear only once}} (void) [this] { ++x; }; (void) [*this] { ++x; }; //expected-error{{read-only variable}} (void) [*this] () mutable { ++x; }; (void) [=] { return x; }; (void) [&, this] { return x; }; (void) [=, *this] { return x; }; (void) [&, *this] { return x; }; } }; } // end ns1 namespace ns2 { class B { B(const B&) = delete; //expected-note{{deleted here}} int *x = (int *) 456; void foo() { (void)[this] { return x; }; (void)[*this] { return x; }; //expected-error{{call to deleted}} } }; } // end ns2 namespace ns3 { class B { B(const B&) = delete; //expected-note2{{deleted here}} int *x = (int *) 456; public: template void foo() { (void)[this] { return x; }; (void)[*this] { return x; }; //expected-error2{{call to deleted}} } B() = default; } b; B *c = (b.foo(), nullptr); //expected-note{{in instantiation}} } // end ns3 namespace ns4 { template class B { B(const B&) = delete; //expected-note{{deleted here}} double d = 3.14; public: template auto foo() { const auto &L = [*this] (auto a) mutable { //expected-error{{call to deleted}} d += a; return [this] (auto b) { return d +=b; }; }; } B() = default; }; void main() { B b; b.foo(); //expected-note{{in instantiation}} } // end main } // end ns4 namespace ns5 { struct X { double d = 3.14; X(const volatile X&); void foo() { } void foo() const { //expected-note{{const}} auto L = [*this] () mutable { static_assert(is_same); ++d; auto M = [this] { static_assert(is_same); ++d; auto N = [] { static_assert(is_same); }; }; }; auto L1 = [*this] { static_assert(is_same); auto M = [this] () mutable { static_assert(is_same); auto N = [] { static_assert(is_same); }; }; auto M2 = [*this] () mutable { static_assert(is_same); auto N = [] { static_assert(is_same); }; }; }; auto GL1 = [*this] (auto a) { static_assert(is_same); auto M = [this] (auto b) mutable { static_assert(is_same); auto N = [] (auto c) { static_assert(is_same); }; return N; }; auto M2 = [*this] (auto a) mutable { static_assert(is_same); auto N = [] (auto b) { static_assert(is_same); }; return N; }; return [=](auto a) mutable { M(a)(a); M2(a)(a); }; }; GL1("abc")("abc"); auto L2 = [this] () mutable { static_assert(is_same); ++d; //expected-error{{cannot assign}} }; auto GL = [*this] (auto a) mutable { static_assert(is_same); ++d; auto M = [this] (auto b) { static_assert(is_same); ++d; auto N = [] (auto c) { static_assert(is_same); }; N(3.14); }; M("abc"); }; GL(3.14); } void foo() volatile const { auto L = [this] () { static_assert(is_same); auto M = [*this] () mutable { static_assert(is_same); auto N = [this] { static_assert(is_same); auto M = [] { static_assert(is_same); }; }; auto N2 = [*this] { static_assert(is_same); }; }; auto M2 = [*this] () { static_assert(is_same); auto N = [this] { static_assert(is_same); }; }; }; } }; } //end ns5 namespace ns6 { struct X { double d; auto foo() const { auto L = [*this] () mutable { auto M = [=] (auto a) { auto N = [this] { ++d; static_assert(is_same); auto O = [*this] { static_assert(is_same); }; }; N(); static_assert(is_same); }; return M; }; return L; } }; int main() { auto L = X{}.foo(); auto M = L(); M(3.14); } } // end ns6 namespace ns7 { struct X { double d; X(); X(const X&); X(X&) = delete; auto foo() const { //OK - the object used to initialize our capture is a const object and so prefers the non-deleted ctor. const auto &&L = [*this] { }; } }; int main() { X x; x.foo(); } } // end ns7 } //end ns test_star_this