gcc/testsuite/g++.dg/lto/pr65193_0.C - gcc - Git at Google

 /* { dg-lto-do link } */
 /* { dg-require-effective-target fpic } */
 /* { dg-require-effective-target lto_incremental } */
 /* { dg-lto-options {{-fPIC -r -nostdlib -flto -O2 -g -Wno-return-type}} } */

 void frexp (int, int *);
 namespace std
 {
   int ldexp (int, int);
   struct A
     {
     };
   template <class T> T get_min_shift_value ();
   template <class> struct min_shift_initializer
     {
       struct B
 	{
 	  B () { get_min_shift_value<long double> (); }
 	} static const b;
       static void
 	  m_fn1 ()
 	    {
 	      b;
 	    }
     };
   template <class T>
       const typename min_shift_initializer<T>::B min_shift_initializer<T>::b;
   template <class T>
       inline T
       get_min_shift_value ()
 	{
 	  using std::ldexp;
 	  static T c = ldexp (0, 0);
 	  min_shift_initializer<T>::m_fn1;
 	}
   template <class T, class Policy>
       void
       float_next_imp (T p1, Policy p2)
 	{
 	  using std::ldexp;
 	  int d;
 	  float_next (0, p2);
 	  frexp (p1, &d);
 	}
   template <class T, class Policy>
       int
       float_next (const T &p1, Policy &p2)
 	{
 	  float_next_imp (p1, p2);
 	}
   template <class T, class Policy> void float_prior_imp (T, Policy)
     {
       get_min_shift_value<T> ();
     }
   template <class T, class Policy> int float_prior (T, Policy)
     {
       float_prior_imp (static_cast<T> (0), 0);
     }
   template <class T, class U, class Policy>
       void
       nextafter (T p1, U p2, Policy p3)
 	{
 	  p2 ? float_next (0, p3) : float_prior (p1, 0);
 	}
   long double e;
   int f;
   void
       nextafter ()
 	{
 	  nextafter (e, f, A ());
 	}
 }
	/* { dg-lto-do link } */
	/* { dg-require-effective-target fpic } */
	/* { dg-require-effective-target lto_incremental } */
	/* { dg-lto-options {{-fPIC -r -nostdlib -flto -O2 -g -Wno-return-type}} } */

	void frexp (int, int *);
	namespace std
	{
	int ldexp (int, int);
	struct A
	{
	};
	template <class T> T get_min_shift_value ();
	template <class> struct min_shift_initializer
	{
	struct B
	{
	B () { get_min_shift_value<long double> (); }
	} static const b;
	static void
	m_fn1 ()
	{
	b;
	}
	};
	template <class T>
	const typename min_shift_initializer<T>::B min_shift_initializer<T>::b;
	template <class T>
	inline T
	get_min_shift_value ()
	{
	using std::ldexp;
	static T c = ldexp (0, 0);
	min_shift_initializer<T>::m_fn1;
	}
	template <class T, class Policy>
	void
	float_next_imp (T p1, Policy p2)
	{
	using std::ldexp;
	int d;
	float_next (0, p2);
	frexp (p1, &d);
	}
	template <class T, class Policy>
	int
	float_next (const T &p1, Policy &p2)
	{
	float_next_imp (p1, p2);
	}
	template <class T, class Policy> void float_prior_imp (T, Policy)
	{
	get_min_shift_value<T> ();
	}
	template <class T, class Policy> int float_prior (T, Policy)
	{
	float_prior_imp (static_cast<T> (0), 0);
	}
	template <class T, class U, class Policy>
	void
	nextafter (T p1, U p2, Policy p3)
	{
	p2 ? float_next (0, p3) : float_prior (p1, 0);
	}
	long double e;
	int f;
	void
	nextafter ()
	{
	nextafter (e, f, A ());
	}
	}