// RUN: %clang_cc1 -fsyntax-only -std=c++98 -Wc++11-compat -verify %s 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}}