gcc/testsuite/g++.dg/debug/pr46240.cc - gcc - Git at Google

 // { dg-do compile }
 // { dg-options "-O3 -g" }

 template <typename T>
 T &max (T &a, T &b)
 {
   if (a < b) return b; else return a;
 }
 int foo (double);
 struct S
 {
   struct T
   {
     int dims, count;
     T (int, int) : dims (), count () {}
   };
   T *rep;
   S () {}
   S (int r, int c) : rep (new T (r, c)) {}
   ~S () { delete rep; }
 };
 template <typename T>
 struct U
 {
   static T epsilon () throw ();
 };
 template <class T>
 struct V
 {
   struct W
   {
     T * data;
     int count;
     W (int n) : data (new T[n]), count () {}
   };
   V::W *rep;
   S dimensions;
   int slice_len;
   V (S s) : rep (new V <T>::W (get_size (s))) {}
   int capacity () { return slice_len; }
   int get_size (S);
 };
 template <class T>
 struct Z : public V <T>
 {
   Z () : V <T> (S (0, 0)) {}
   Z (int r, int c) : V <T> (S (r, c)) {}
 };
 template <class T>
 struct A : public Z <T>
 {
   A () : Z <T> () {}
   A (int n, int m) : Z <T> (n, m) {}
 };
 template <class T>
 struct B : public V <T>
 {
 };
 struct C : public A <double>
 {
   C () : A <double> () {}
   C (int r, int c) : A <double> (r, c) {}
 };
 struct D : public B <double>
 {
 };
 template <class T>
 struct E
 {
 };
 template <class T>
 struct G : public E <T>
 {
 };
 struct H : public G <double>
 {
 };
 template <class R>
 struct I
 {
   R scl, sum;
   void accum (R val)
   {
     R t = __builtin_fabs (val);
     if (scl == t)
       sum += 1;
   }
   operator R () { __builtin_sqrt (sum); return R (); }
 };
 template <class R>
 struct J
 {
   template < class U > void accum (U val) {}
   operator R () { return R (); }
 };
 template <class R>
 struct K
 {
   R max;
   template <class U> void accum (U val)
   {
     double z = __builtin_fabs (val);
     max = ::max (max, z);
   }
   operator R () { return max; }
 };
 template <class R>
 struct L
 {
   unsigned num;
   template <class U> void accum (U) {}
   operator R () { return num; }
 };
 template <class T, class R, class S>
 void bar (V <T> &v, R &res, S acc)
 {
   for (int i = 0; i < v.capacity (); i++)
     acc.accum ((i));
   res = acc;
 }
 template <class T, class R>
 void bar (B <T> &v, R)
 {
   R res;
   bar (v, res, I <R> ());
 }
 template <class T, class R>
 R bar (A <T> &v, R p)
 {
   R res;
   if (p == 2)
     bar (v, res, I <R> ());
   else if (p == 1)
     bar (v, res, J <R> ());
   else if (p == sizeof (float) ? (p) : foo (p))
     {
       if (p > 0)
 	bar (v, res, K <R> ());
     }
   else if (p == 0)
     bar (v, res, L <R> ());
   return res;
 }
 template <class CT, class VectorT, class R>
 void
 baz (CT m, R p, R tol, int maxiter, VectorT)
 {
   VectorT y (0, 0), z (0, 1);
   R q = 0;
   R gamma = 0, gamma1 = 0;
   gamma = bar (y, p);
   (void) (bar (z, q) <= (gamma1 <= gamma));
 }
 int a = 100;
 template <class CT, class VectorT, class R>
 void
 test (CT m, R p, VectorT)
 {
   VectorT x;
   R sqrteps (U <R>::epsilon ());
   baz (m, p, sqrteps, a, x);
 }
 void
 fn (D x, double p)
 {
   bar (x, p);
 }
 void
 fn (H x, double p)
 {
   test (x, p, C ());
 }
	// { dg-do compile }
	// { dg-options "-O3 -g" }

	template <typename T>
	T &max (T &a, T &b)
	{
	if (a < b) return b; else return a;
	}
	int foo (double);
	struct S
	{
	struct T
	{
	int dims, count;
	T (int, int) : dims (), count () {}
	};
	T *rep;
	S () {}
	S (int r, int c) : rep (new T (r, c)) {}
	~S () { delete rep; }
	};
	template <typename T>
	struct U
	{
	static T epsilon () throw ();
	};
	template <class T>
	struct V
	{
	struct W
	{
	T * data;
	int count;
	W (int n) : data (new T[n]), count () {}
	};
	V::W *rep;
	S dimensions;
	int slice_len;
	V (S s) : rep (new V <T>::W (get_size (s))) {}
	int capacity () { return slice_len; }
	int get_size (S);
	};
	template <class T>
	struct Z : public V <T>
	{
	Z () : V <T> (S (0, 0)) {}
	Z (int r, int c) : V <T> (S (r, c)) {}
	};
	template <class T>
	struct A : public Z <T>
	{
	A () : Z <T> () {}
	A (int n, int m) : Z <T> (n, m) {}
	};
	template <class T>
	struct B : public V <T>
	{
	};
	struct C : public A <double>
	{
	C () : A <double> () {}
	C (int r, int c) : A <double> (r, c) {}
	};
	struct D : public B <double>
	{
	};
	template <class T>
	struct E
	{
	};
	template <class T>
	struct G : public E <T>
	{
	};
	struct H : public G <double>
	{
	};
	template <class R>
	struct I
	{
	R scl, sum;
	void accum (R val)
	{
	R t = __builtin_fabs (val);
	if (scl == t)
	sum += 1;
	}
	operator R () { __builtin_sqrt (sum); return R (); }
	};
	template <class R>
	struct J
	{
	template < class U > void accum (U val) {}
	operator R () { return R (); }
	};
	template <class R>
	struct K
	{
	R max;
	template <class U> void accum (U val)
	{
	double z = __builtin_fabs (val);
	max = ::max (max, z);
	}
	operator R () { return max; }
	};
	template <class R>
	struct L
	{
	unsigned num;
	template <class U> void accum (U) {}
	operator R () { return num; }
	};
	template <class T, class R, class S>
	void bar (V <T> &v, R &res, S acc)
	{
	for (int i = 0; i < v.capacity (); i++)
	acc.accum ((i));
	res = acc;
	}
	template <class T, class R>
	void bar (B <T> &v, R)
	{
	R res;
	bar (v, res, I <R> ());
	}
	template <class T, class R>
	R bar (A <T> &v, R p)
	{
	R res;
	if (p == 2)
	bar (v, res, I <R> ());
	else if (p == 1)
	bar (v, res, J <R> ());
	else if (p == sizeof (float) ? (p) : foo (p))
	{
	if (p > 0)
	bar (v, res, K <R> ());
	}
	else if (p == 0)
	bar (v, res, L <R> ());
	return res;
	}
	template <class CT, class VectorT, class R>
	void
	baz (CT m, R p, R tol, int maxiter, VectorT)
	{
	VectorT y (0, 0), z (0, 1);
	R q = 0;
	R gamma = 0, gamma1 = 0;
	gamma = bar (y, p);
	(void) (bar (z, q) <= (gamma1 <= gamma));
	}
	int a = 100;
	template <class CT, class VectorT, class R>
	void
	test (CT m, R p, VectorT)
	{
	VectorT x;
	R sqrteps (U <R>::epsilon ());
	baz (m, p, sqrteps, a, x);
	}
	void
	fn (D x, double p)
	{
	bar (x, p);
	}
	void
	fn (H x, double p)
	{
	test (x, p, C ());
	}