/* Copyright (C) 2009  Free Software Foundation.

   Verify that folding of complex mul and div work correctly.

   Origin: Kaveh R. Ghazi,  August 13, 2009.  */

/* { dg-do run } */
/* C6X fails due to -freciprocal-math default.  */
/* { dg-skip-if "" { tic6x-*-* } } */
/* { dg-add-options ieee } */
/* { dg-require-effective-target large_double } */

extern void link_error(int);

/* Evaluate this expression at compile-time.  */
#define COMPILETIME_TESTIT(TYPE,X,OP,Y,RES) do { \
  if ((_Complex TYPE)(X) OP (_Complex TYPE)(Y) != (_Complex TYPE)(RES)) \
    link_error(__LINE__); \
} while (0)

/* Use this error function for cases which only evaluate at
   compile-time when optimizing.  */
#ifdef __OPTIMIZE__
# define ERROR_FUNC(X) link_error(X)
#else
# define ERROR_FUNC(X) __builtin_abort()
#endif

/* Evaluate this expression at compile-time using static initializers.  */
#define STATICINIT_TESTIT(TYPE,X,OP,Y,RES) do { \
  static const _Complex TYPE foo = (_Complex TYPE)(X) OP (_Complex TYPE)(Y); \
  if (foo != (_Complex TYPE)(RES)) \
    ERROR_FUNC (__LINE__); \
} while (0)

/* Evaluate this expression at runtime.  */
#define RUNTIME_TESTIT(TYPE,X,OP,Y,RES) do { \
  volatile _Complex TYPE foo; \
  foo = (_Complex TYPE)(X); \
  foo OP##= (_Complex TYPE)(Y); \
  if (foo != (_Complex TYPE)(RES)) \
    __builtin_abort(); \
} while (0)

/* Evaluate this expression at compile-time and runtime.  */
#define TESTIT(TYPE,X,OP,Y,RES) do { \
  STATICINIT_TESTIT(TYPE,X,OP,Y,RES); \
  COMPILETIME_TESTIT(TYPE,X,OP,Y,RES); \
  RUNTIME_TESTIT(TYPE,X,OP,Y,RES); \
} while (0)

/* Either the real or imaginary parts should be infinity.  */
#define TEST_ONE_PART_INF(VAL) do { \
  static const _Complex double foo = (VAL); \
  if (! __builtin_isinf(__real foo) && ! __builtin_isinf(__imag foo)) \
    ERROR_FUNC (__LINE__); \
  if (! __builtin_isinf(__real (VAL)) && ! __builtin_isinf(__imag (VAL))) \
    __builtin_abort(); \
} while (0)

int main()
{
  /* Test some regular finite values.  */
  TESTIT (double, 3.+4.i, *, 2, 6+8i);
  TESTIT (double, 3.+4.i, /, 2, 1.5+2i);
  TESTIT (int, 3+4i, *, 2, 6+8i);
  TESTIT (int, 3+4i, /, 2, 1+2i);

  TESTIT (double, 3.+4.i, *, 2+5i, -14+23i);
  TESTIT (double, 3.+4.i, /, 5i, .8-.6i);
  TESTIT (int, 3+4i, *, 2+5i, -14+23i);
  TESTIT (int, 30+40i, /, 5i, 8-6i);
  TESTIT (int, 14+6i, /, 7+3i, 2);
  TESTIT (int, 8+24i, /, 4+12i, 2);

  /* Test that we don't overflow.  */
  TESTIT (double,
	  (__DBL_MAX__ * 0.5 + __DBL_MAX__ * 0.5i),
	  /,
	  (__DBL_MAX__ * 0.25 + __DBL_MAX__ * 0.25i),
	  2);

  /* Test for accuracy.  */
  COMPILETIME_TESTIT (double,
		      (1 + __DBL_EPSILON__ + 1i),
		      *,
		      (1 - __DBL_EPSILON__ + 1i),
		      -4.93038065763132378382330353301741393545754021943139377981e-32+2i);

  /* This becomes (NaN + iInf).  */
#define VAL1 ((_Complex double)__builtin_inf() * 1i)

  /* Test some C99 Annex G special cases.  */
  TEST_ONE_PART_INF ((VAL1) * (VAL1));
  TEST_ONE_PART_INF ((_Complex double)1 / (_Complex double)0);
  TEST_ONE_PART_INF ((VAL1) / (_Complex double)1);

  RUNTIME_TESTIT (double, 1, /, VAL1, 0);
  STATICINIT_TESTIT (double, 1, /, VAL1, 0);

  return 0;
}