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| // RUN: %clang_cc1 -fsyntax-only -std=c++98 -Wc++11-compat-pedantic -verify %s
// RUN: %clang_cc1 -fsyntax-only -std=c++17 -Wc++11-compat-pedantic -verify %s
#if __cplusplus < 201103L
namespace N {
template<typename T> void f(T) {} // expected-note 2{{here}}
namespace M {
template void ::N::f<int>(int); // expected-warning {{explicit instantiation of 'f' not in a namespace enclosing 'N'}}
}
}
using namespace N;
template void f<char>(char); // expected-warning {{explicit instantiation of 'N::f' must occur in namespace 'N'}}
template<typename T> void g(T) {} // expected-note 2{{here}}
namespace M {
template void g<int>(int); // expected-warning {{explicit instantiation of 'g' must occur at global scope}}
template void ::g<char>(char); // expected-warning {{explicit instantiation of 'g' must occur at global scope}}
}
template inline void g<double>(double); // expected-warning {{explicit instantiation cannot be 'inline'}}
void g() {
auto int n = 0; // expected-warning {{'auto' storage class specifier is redundant and incompatible with C++11}}
}
int n;
struct S {
char c;
}
s = { n }, // expected-warning {{non-constant-expression cannot be narrowed from type 'int' to 'char' in initializer list in C++11}} expected-note {{explicit cast}}
t = { 1234 }; // expected-warning {{constant expression evaluates to 1234 which cannot be narrowed to type 'char' in C++11}} expected-warning {{changes value}} expected-note {{explicit cast}}
#define PRIuS "uS"
int printf(const char *, ...);
typedef __typeof(sizeof(int)) size_t;
void h(size_t foo, size_t bar) {
printf("foo is %"PRIuS", bar is %"PRIuS, foo, bar); // expected-warning 2{{identifier after literal will be treated as a reserved user-defined literal suffix in C++11}}
}
#define _x + 1
char c = 'x'_x; // expected-warning {{will be treated as a user-defined literal suffix}}
template<int ...N> int f() { // expected-warning {{C++11 extension}}
return (N + ...); // expected-warning {{C++17 extension}}
}
#else
decltype(auto) x = 0; // expected-warning {{'decltype(auto)' type specifier is incompatible}}
auto init_capture = [a(0)] {}; // expected-warning {{initialized lambda captures are incompatible with C++ standards before C++14}}
auto generic_lambda =
[](
auto // expected-warning {{generic lambdas are incompatible}}
*a) {};
auto deduced_return_type(); // expected-warning {{incompatible with C++ standards before C++14}}
auto *another_deduced_return_type(); // expected-warning {{incompatible with C++ standards before C++14}}
decltype(auto) also_deduced_return_type(); // expected-warning {{return type deduction}} expected-warning {{'decltype(auto)' type specifier is incompatible}}
int f();
auto (*not_deduced_return_type)() = f;
auto deduced_lambda_return_type = []() ->
auto // expected-warning {{return type deduction is incompatible}}
{};
auto trailing_non_deduced_return_type() -> int;
auto trailing_deduced_return_type() -> auto; // expected-warning {{incompatible with C++ standards before C++14}}
struct A {
operator auto(); // expected-warning {{return type deduction is incompatible}}
};
#endif
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