// RUN: %clang_cc1 -verify -fsyntax-only %s -Wno-c++17-extensions int bar(); [[gnu::always_inline]] void always_inline_fn(void) {} // expected-note@+1{{conflicting attribute is here}} [[gnu::flatten]] void flatten_fn(void) {} // expected-note@+1{{conflicting attribute is here}} [[gnu::noinline]] void noinline_fn(void) {} void foo() { [[clang::always_inline]] bar(); [[clang::always_inline(0)]] bar(); // expected-error {{'always_inline' attribute takes no arguments}} int x; [[clang::always_inline]] int i = bar(); // expected-warning {{'always_inline' attribute only applies to functions and statements}} [[clang::always_inline]] x = 0; // expected-warning {{'always_inline' attribute is ignored because there exists no call expression inside the statement}} [[clang::always_inline]] { asm("nop"); } // expected-warning {{'always_inline' attribute is ignored because there exists no call expression inside the statement}} [[clang::always_inline]] label : x = 1; // expected-warning {{'always_inline' attribute only applies to functions and statements}} [[clang::always_inline]] always_inline_fn(); [[clang::always_inline]] noinline_fn(); // expected-warning {{statement attribute 'always_inline' has higher precedence than function attribute 'noinline'}} [[clang::always_inline]] flatten_fn(); // expected-warning {{statement attribute 'always_inline' has higher precedence than function attribute 'flatten'}} [[gnu::always_inline]] bar(); // expected-warning {{attribute is ignored on this statement as it only applies to functions; use '[[clang::always_inline]]' on statements}} __attribute__((always_inline)) bar(); // expected-warning {{attribute is ignored on this statement as it only applies to functions; use '[[clang::always_inline]]' on statements}} } [[clang::always_inline]] static int i = bar(); // expected-warning {{'always_inline' attribute only applies to functions and statements}} // This used to crash the compiler. template int foo(int x) { [[clang::always_inline]] return foo(x + 1); } template [[gnu::noinline]] int dependent(int x){ return x + D;} // #DEP [[gnu::noinline]] int non_dependent(int x){return x;} // #NO_DEP template [[gnu::noinline]] int baz(int x) { // #BAZ // expected-warning@+2{{statement attribute 'always_inline' has higher precedence than function attribute 'noinline'}} // expected-note@#NO_DEP{{conflicting attribute is here}} [[clang::always_inline]] non_dependent(x); if constexpr (D>0) { // expected-warning@+6{{statement attribute 'always_inline' has higher precedence than function attribute 'noinline'}} // expected-note@#NO_DEP{{conflicting attribute is here}} // expected-warning@+4 3{{statement attribute 'always_inline' has higher precedence than function attribute 'noinline'}} // expected-note@#BAZ 3{{conflicting attribute is here}} // expected-note@#BAZ_INST 3{{in instantiation}} // expected-note@+1 3{{in instantiation}} [[clang::always_inline]] return non_dependent(x), baz(x + 1); } return x; } // We can't suppress if there is a variadic involved. template int variadic_baz(int x) { // Diagnoses NO_DEP 2x, once during phase 1, the second during instantiation. // Dianoses DEP 3x, once per variadic expansion. // expected-warning@+5 2{{statement attribute 'always_inline' has higher precedence than function attribute 'noinline'}} // expected-note@#NO_DEP 2{{conflicting attribute is here}} // expected-warning@+3 3{{statement attribute 'always_inline' has higher precedence than function attribute 'noinline'}} // expected-note@#DEP 3{{conflicting attribute is here}} // expected-note@#VARIADIC_INST{{in instantiation}} [[clang::always_inline]] return non_dependent(x) + (dependent(x) + ...); } void use() { baz<3>(0); // #BAZ_INST variadic_baz<0, 1, 2>(0); // #VARIADIC_INST }