// RUN: %clang_cc1 -std=c++11 -fms-compatibility -fsyntax-only -verify %s
int foo() __attribute__((optnone));
int bar() __attribute__((optnone)) __attribute__((noinline));
int baz() __attribute__((always_inline)) __attribute__((optnone)); // expected-warning{{'always_inline' attribute ignored}} expected-note{{conflicting attribute is here}}
int quz() __attribute__((optnone)) __attribute__((always_inline)); // expected-warning{{'always_inline' attribute ignored}} expected-note{{conflicting attribute is here}}
__attribute__((always_inline)) int baz1(); // expected-warning{{'always_inline' attribute ignored}}
__attribute__((optnone)) int baz1() { return 1; } // expected-note{{conflicting attribute is here}}
__attribute__((optnone)) int quz1(); // expected-note{{conflicting attribute is here}}
__attribute__((always_inline)) int quz1() { return 1; } // expected-warning{{'always_inline' attribute ignored}}
int bay() __attribute__((minsize)) __attribute__((optnone)); // expected-warning{{'minsize' attribute ignored}} expected-note{{conflicting}}
int quy() __attribute__((optnone)) __attribute__((minsize)); // expected-warning{{'minsize' attribute ignored}} expected-note{{conflicting}}
__attribute__((minsize)) int bay1(); // expected-warning{{'minsize' attribute ignored}}
__attribute__((optnone)) int bay1() { return 1; } // expected-note{{conflicting attribute is here}}
__attribute__((optnone)) int quy1(); // expected-note{{conflicting attribute is here}}
__attribute__((minsize)) int quy1() { return 1; } // expected-warning{{'minsize' attribute ignored}}
__attribute__((always_inline)) // expected-warning{{'always_inline' attribute ignored}}
__attribute__((minsize)) // expected-warning{{'minsize' attribute ignored}}
void bay2();
__attribute__((optnone)) // expected-note 2 {{conflicting}}
void bay2() {}
__forceinline __attribute__((optnone)) int bax(); // expected-warning{{'__forceinline' attribute ignored}} expected-note{{conflicting}}
__attribute__((optnone)) __forceinline int qux(); // expected-warning{{'__forceinline' attribute ignored}} expected-note{{conflicting}}
__forceinline int bax2(); // expected-warning{{'__forceinline' attribute ignored}}
__attribute__((optnone)) int bax2() { return 1; } // expected-note{{conflicting}}
__attribute__((optnone)) int qux2(); // expected-note{{conflicting}}
__forceinline int qux2() { return 1; } // expected-warning{{'__forceinline' attribute ignored}}
int globalVar __attribute__((optnone)); // expected-warning{{'optnone' attribute only applies to functions}}
int fubar(int __attribute__((optnone)), int); // expected-warning{{'optnone' attribute only applies to functions}}
struct A {
int aField __attribute__((optnone)); // expected-warning{{'optnone' attribute only applies to functions}}
};
struct B {
void foo() __attribute__((optnone));
static void bar() __attribute__((optnone));
};
// Verify that we can specify the [[clang::optnone]] syntax as well.
[[clang::optnone]]
int foo2();
[[clang::optnone]]
int bar2() __attribute__((noinline));
[[clang::optnone]] // expected-note {{conflicting}}
int baz2() __attribute__((always_inline)); // expected-warning{{'always_inline' attribute ignored}}
[[clang::optnone]] int globalVar2; //expected-warning{{'optnone' attribute only applies to functions}}
struct A2 {
[[clang::optnone]] int aField; // expected-warning{{'optnone' attribute only applies to functions}}
};
struct B2 {
[[clang::optnone]]
void foo();
[[clang::optnone]]
static void bar();
};