// RUN: %clang_cc1 -fsyntax-only -verify %s char *const_cast_test(const char *var) { return const_cast<char*>(var); } struct A { virtual ~A() {} }; struct B : public A { }; struct B *dynamic_cast_test(struct A *a) { return dynamic_cast<struct B*>(a); } char *reinterpret_cast_test() { return reinterpret_cast<char*>(0xdeadbeef); } double static_cast_test(int i) { return static_cast<double>(i); } char postfix_expr_test() { return reinterpret_cast<char*>(0xdeadbeef)[0]; } // This was being incorrectly tentatively parsed. namespace test1 { template <class T> class A {}; // expected-note 2{{here}} void foo() { A<int>(*(A<int>*)0); } } typedef char* c; typedef A* a; void test2(char x, struct B * b) { (void)const_cast<::c>(&x); // expected-error{{found '<::' after a const_cast which forms the digraph '<:' (aka '[') and a ':', did you mean '< ::'?}} (void)dynamic_cast<::a>(b); // expected-error{{found '<::' after a dynamic_cast which forms the digraph '<:' (aka '[') and a ':', did you mean '< ::'?}} (void)reinterpret_cast<::c>(x); // expected-error{{found '<::' after a reinterpret_cast which forms the digraph '<:' (aka '[') and a ':', did you mean '< ::'?}} (void)static_cast<::c>(&x); // expected-error{{found '<::' after a static_cast which forms the digraph '<:' (aka '[') and a ':', did you mean '< ::'?}} // Do not do digraph correction. (void)static_cast<: :c>(&x); //\ expected-error {{expected '<' after 'static_cast'}} \ expected-error {{expected expression}}\ expected-error {{expected ']'}}\ expected-note {{to match this '['}} (void)static_cast<: // expected-error {{expected '<' after 'static_cast'}} \ expected-note {{to match this '['}} :c>(&x); // expected-error {{expected expression}} \ expected-error {{expected ']'}} #define LC <: #define C : test1::A LC:B> c; // expected-error {{cannot refer to class template 'A' without a template argument list}} expected-error 2{{}} expected-note{{}} (void)static_cast LC:c>(&x); // expected-error {{expected '<' after 'static_cast'}} expected-error 2{{}} expected-note{{}} test1::A<:C B> d; // expected-error {{cannot refer to class template 'A' without a template argument list}} expected-error 2{{}} expected-note{{}} (void)static_cast<:C c>(&x); // expected-error {{expected '<' after 'static_cast'}} expected-error 2{{}} expected-note{{}} #define LCC <:: test1::A LCC B> e; // expected-error{{found '<::' after a template name which forms the digraph '<:' (aka '[') and a ':', did you mean '< ::'?}} (void)static_cast LCC c>(&x); // expected-error{{found '<::' after a static_cast which forms the digraph '<:' (aka '[') and a ':', did you mean '< ::'?}} } // This note comes from "::D[:F> A5;" template <class T> class D {}; // expected-note{{template is declared here}} template <class T> void E() {}; class F {}; void test3() { ::D<::F> A1; // expected-error{{found '<::' after a template name which forms the digraph '<:' (aka '[') and a ':', did you mean '< ::'?}} D<::F> A2; // expected-error{{found '<::' after a template name which forms the digraph '<:' (aka '[') and a ':', did you mean '< ::'?}} ::E<::F>(); // expected-error{{found '<::' after a template name which forms the digraph '<:' (aka '[') and a ':', did you mean '< ::'?}} E<::F>(); // expected-error{{found '<::' after a template name which forms the digraph '<:' (aka '[') and a ':', did you mean '< ::'?}} ::D< ::F> A3; D< ::F> A4; ::E< ::F>(); E< ::F>(); // Make sure that parser doesn't expand '[:' to '< ::' ::D[:F> A5; // expected-error {{cannot refer to class template 'D' without a template argument list}} \ // expected-error {{expected expression}} \ // expected-error {{expected ']'}} \ // expected-note {{to match this '['}} }