// RUN: %clang_cc1 -fsyntax-only -verify -Wunused -Wunused-member-function -Wno-unused-local-typedefs -Wno-c++11-extensions -std=c++98 %s // RUN: %clang_cc1 -fsyntax-only -verify -Wunused -Wunused-member-function -Wno-unused-local-typedefs -std=c++11 %s #ifdef HEADER static void headerstatic() {} // expected-warning{{unused}} static inline void headerstaticinline() {} namespace { void headeranon() {} // expected-warning{{unused}} inline void headerinlineanon() {} } namespace test7 { template<typename T> static inline void foo(T) { } // This should not emit an unused-function warning since it inherits // the static storage type from the base template. template<> inline void foo(int) { } // Partial specialization template<typename T, typename U> static inline void bar(T, U) { } template<typename U> inline void bar(int, U) { } template<> inline void bar(int, int) { } }; namespace pr19713 { #if __cplusplus >= 201103L static constexpr int constexpr1() { return 1; } constexpr int constexpr2() { return 2; } #endif } #else #define HEADER #include "warn-unused-filescoped.cpp" static void f1(); // expected-warning{{unused}} namespace { void f2(); // expected-warning{{unused}} void f3() { } // expected-warning{{unused}} struct S { void m1() { } // expected-warning{{unused}} void m2(); // expected-warning{{unused}} void m3(); S(const S&); void operator=(const S&); }; template <typename T> struct TS { void m(); }; template <> void TS<int>::m() { } // expected-warning{{unused}} template <typename T> void tf() { } template <> void tf<int>() { } // expected-warning{{unused}} struct VS { virtual void vm() { } }; struct SVS : public VS { void vm() { } }; } void S::m3() { } // expected-warning{{unused}} static inline void f4() { } // expected-warning{{unused}} const unsigned int cx = 0; // expected-warning{{unused}} const unsigned int cy = 0; int f5() { return cy; } static int x1; // expected-warning{{unused}} namespace { int x2; // expected-warning{{unused}} struct S2 { static int x; // expected-warning{{unused}} }; template <typename T> struct TS2 { static int x; }; template <> int TS2<int>::x; // expected-warning{{unused}} } namespace PR8841 { // Ensure that friends of class templates are considered to have a dependent // context and not marked unused. namespace { template <typename T> struct X { friend bool operator==(const X&, const X&) { return false; } }; } template <typename T> void template_test(X<T> x) { (void)(x == x); } void test() { X<int> x; template_test(x); } } namespace test4 { namespace { struct A {}; } void test(A a); // expected-warning {{unused function}} extern "C" void test4(A a); } namespace rdar8733476 { static void foo() { } // expected-warning {{not needed and will not be emitted}} template <int> void bar() { foo(); } } namespace test5 { static int n = 0; static int &r = n; int f(int &); int k = f(r); // FIXME: We should produce warnings for both of these. static const int m = n; int x = sizeof(m); static const double d = 0.0; // expected-warning{{not needed and will not be emitted}} int y = sizeof(d); } namespace unused_nested { class outer { void func1(); struct { void func2() { } } x; }; } namespace unused { struct { void func() { // expected-warning {{unused member function}} } } x; // expected-warning {{unused variable}} } namespace test6 { typedef struct { void bar(); } A; typedef struct { void bar(); // expected-warning {{unused member function 'bar'}} } *B; struct C { void bar(); }; } namespace pr14776 { namespace { struct X {}; } X a = X(); // expected-warning {{unused variable 'a'}} auto b = X(); // expected-warning {{unused variable 'b'}} } namespace UndefinedInternalStaticMember { namespace { struct X { static const unsigned x = 3; int y[x]; }; } } namespace test8 { static void func(); void bar() { void func() __attribute__((used)); } static void func() {} } namespace pr19713 { #if __cplusplus >= 201103L // FIXME: We should warn on both of these. static constexpr int constexpr3() { return 1; } // expected-warning {{unused}} constexpr int constexpr4() { return 2; } #endif } #endif