llvm-gcc-4.2/gcc/testsuite/gcc.dg/torture/builtin-convert-1.c - llvm-archive - Git at Google

 /* Copyright (C) 2004  Free Software Foundation.

    Verify that built-in math function conversion to smaller FP types
    is correctly performed by the compiler.

    Written by Kaveh Ghazi, 2004-03-17.  */

 /* { dg-do link } */
 /* { dg-options "-ffast-math" } */
 /* { dg-options "-ffast-math -mmacosx-version-min=10.3" { target powerpc-*-darwin* } } */
 /* { dg-options "-ffast-math -std=c99" { target *-*-solaris2* } } */

 #include "../builtins-config.h"

 /* This check is necessary when converting to a C99 function.  */
 #ifdef HAVE_C99_RUNTIME
 #define C99CODE(CODE) (CODE)
 #define MAYBEC99(CODE, C99) (CODE)
 #else
 #define C99CODE(CODE) 0
 #define MAYBEC99(CODE, C99) (!(C99) && (CODE))
 #endif

 void test(double d1, float f1, long double ld1)
 {
   /* Test converting math builtins to narrower FP types based on a
      narrowing cast on the outside of the call.  MATHFN is the
      function to test, and C99 is 0/1 depending on whether the
      `double' version of MATHFN is a C99 function.  The optimization
      is only performed if the replacement function is actually
      narrower in width, so check that first.  */
 #define OUTER_CAST1(MATHFN, C99) \
  extern void link_failure_outer_##MATHFN##l_##MATHFN##_1(void); \
  extern void link_failure_outer_##MATHFN##l_##MATHFN##_2(void); \
  extern void link_failure_outer_##MATHFN##l_##MATHFN##f_1(void); \
  extern void link_failure_outer_##MATHFN##l_##MATHFN##f_2(void); \
  extern void link_failure_outer_##MATHFN##_##MATHFN##f_1(void); \
  extern void link_failure_outer_##MATHFN##_##MATHFN##f_2(void); \
  if (sizeof (long double) > sizeof (double) \
      && MAYBEC99 ((double) __builtin_##MATHFN##l((double)ld1) != __builtin_##MATHFN(ld1), C99)) \
     link_failure_outer_##MATHFN##l_##MATHFN##_1(); \
  if (sizeof (long double) > sizeof (double) \
      && MAYBEC99 ((double) __builtin_##MATHFN##l(d1) != __builtin_##MATHFN(d1), C99)) \
     link_failure_outer_##MATHFN##l_##MATHFN##_1(); \
  if (sizeof (long double) > sizeof (double) \
      && MAYBEC99 ((double) __builtin_##MATHFN##l(f1) != __builtin_##MATHFN(f1), C99)) \
     link_failure_outer_##MATHFN##l_##MATHFN##_2(); \
  if (sizeof (long double) > sizeof (float) \
      && C99CODE ((float) __builtin_##MATHFN##l((float) ld1) != __builtin_##MATHFN##f(ld1))) \
     link_failure_outer_##MATHFN##l_##MATHFN##f_1(); \
  if (sizeof (long double) > sizeof (float) \
      && C99CODE ((float) __builtin_##MATHFN##l((float) d1) != __builtin_##MATHFN##f(d1))) \
     link_failure_outer_##MATHFN##l_##MATHFN##f_1(); \
  if (sizeof (long double) > sizeof (float) \
      && C99CODE ((float) __builtin_##MATHFN##l(f1) != __builtin_##MATHFN##f(f1))) \
     link_failure_outer_##MATHFN##l_##MATHFN##f_2(); \
  if (sizeof (double) > sizeof (float) \
      && C99CODE ((float) __builtin_##MATHFN((float) ld1) != __builtin_##MATHFN##f(ld1))) \
     link_failure_outer_##MATHFN##_##MATHFN##f_1(); \
  if (sizeof (double) > sizeof (float) \
      && C99CODE ((float) __builtin_##MATHFN((float) d1) != __builtin_##MATHFN##f(d1))) \
     link_failure_outer_##MATHFN##_##MATHFN##f_1(); \
  if (sizeof (double) > sizeof (float) \
      && C99CODE ((float) __builtin_##MATHFN(f1) != __builtin_##MATHFN##f(f1))) \
     link_failure_outer_##MATHFN##_##MATHFN##f_2()

   /* Test converting math builtins to narrower FP types based on if
      the argument is a narrower type (perhaps implicitly) cast to a
      wider one.  */
 #define INNER_CAST1(MATHFN, C99) \
  extern void link_failure_inner_##MATHFN##l_##MATHFN(void); \
  extern void link_failure_inner_##MATHFN##l_##MATHFN##f(void); \
  extern void link_failure_inner_##MATHFN##_##MATHFN##f(void); \
  if (sizeof (long double) > sizeof (double) \
      && MAYBEC99 (__builtin_##MATHFN##l(d1) != (long double) __builtin_##MATHFN(d1), C99)) \
     link_failure_inner_##MATHFN##l_##MATHFN(); \
  if (sizeof (long double) > sizeof (float) \
      && C99CODE (__builtin_##MATHFN##l(f1) != (long double) __builtin_##MATHFN##f(f1))) \
     link_failure_inner_##MATHFN##l_##MATHFN##f(); \
  if (sizeof (long double) > sizeof (float) \
      && C99CODE (__builtin_##MATHFN##l((double)f1) != (long double) __builtin_##MATHFN##f(f1))) \
     link_failure_inner_##MATHFN##l_##MATHFN##f(); \
  if (sizeof (double) > sizeof (float) \
      && C99CODE (__builtin_##MATHFN(f1) != (double) __builtin_##MATHFN##f(f1))) \
     link_failure_inner_##MATHFN##_##MATHFN##f()


 #ifdef __OPTIMIZE__
   OUTER_CAST1 (acos, /*C99=*/ 0);
   OUTER_CAST1 (acosh, /*C99=*/ 1);
   OUTER_CAST1 (asin, /*C99=*/ 1);
   OUTER_CAST1 (asinh, /*C99=*/ 1);
   OUTER_CAST1 (atan, /*C99=*/ 0);
   OUTER_CAST1 (atanh, /*C99=*/ 1);
   OUTER_CAST1 (cbrt, /*C99=*/ 1);
   OUTER_CAST1 (cos, /*C99=*/ 0);
   OUTER_CAST1 (cosh, /*C99=*/ 0);
   OUTER_CAST1 (erf, /*C99=*/ 1);
   OUTER_CAST1 (erfc, /*C99=*/ 1);
   OUTER_CAST1 (exp, /*C99=*/ 0);
   OUTER_CAST1 (exp2, /*C99=*/ 1);
   OUTER_CAST1 (expm1, /*C99=*/ 1);
   OUTER_CAST1 (fabs, /*C99=*/ 0);
   OUTER_CAST1 (log, /*C99=*/ 0);
   OUTER_CAST1 (log10, /*C99=*/ 0);
   OUTER_CAST1 (log1p, /*C99=*/ 1);
   OUTER_CAST1 (log2, /*C99=*/ 1);
   OUTER_CAST1 (logb, /*C99=*/ 1);
   OUTER_CAST1 (sin, /*C99=*/ 0);
   OUTER_CAST1 (sinh, /*C99=*/ 0);
   OUTER_CAST1 (sqrt, /*C99=*/ 0);
   OUTER_CAST1 (tan, /*C99=*/ 0);
   OUTER_CAST1 (tanh, /*C99=*/ 0);
   OUTER_CAST1 (tgamma, /*C99=*/ 1);

   INNER_CAST1 (ceil, /*C99=*/ 0);
   OUTER_CAST1 (ceil, /*C99=*/ 0);
   INNER_CAST1 (floor, /*C99=*/ 0);
   OUTER_CAST1 (floor, /*C99=*/ 0);
   INNER_CAST1 (lceil, /*C99=*/ 1);
   OUTER_CAST1 (lceil, /*C99=*/ 1);
   INNER_CAST1 (lfloor, /*C99=*/ 1);
   OUTER_CAST1 (lfloor, /*C99=*/ 1);
   INNER_CAST1 (lrint, /*C99=*/ 1);
   OUTER_CAST1 (lrint, /*C99=*/ 1);
   INNER_CAST1 (lround, /*C99=*/ 1);
   OUTER_CAST1 (lround, /*C99=*/ 1);
   INNER_CAST1 (llceil, /*C99=*/ 1);
   OUTER_CAST1 (llceil, /*C99=*/ 1);
   INNER_CAST1 (llfloor, /*C99=*/ 1);
   OUTER_CAST1 (llfloor, /*C99=*/ 1);
   INNER_CAST1 (llrint, /*C99=*/ 1);
   OUTER_CAST1 (llrint, /*C99=*/ 1);
   INNER_CAST1 (llround, /*C99=*/ 1);
   OUTER_CAST1 (llround, /*C99=*/ 1);
   INNER_CAST1 (nearbyint, /*C99=*/ 1);
   OUTER_CAST1 (nearbyint, /*C99=*/ 1);
   INNER_CAST1 (rint, /*C99=*/ 1);
   OUTER_CAST1 (rint, /*C99=*/ 1);
   INNER_CAST1 (round, /*C99=*/ 1);
   OUTER_CAST1 (round, /*C99=*/ 1);
   INNER_CAST1 (trunc, /*C99=*/ 1);
   OUTER_CAST1 (trunc, /*C99=*/ 1);
 #endif /* __OPTIMIZE__ */
 }

 int main (void)
 {
   return 0;
 }
	/* Copyright (C) 2004 Free Software Foundation.

	Verify that built-in math function conversion to smaller FP types
	is correctly performed by the compiler.

	Written by Kaveh Ghazi, 2004-03-17. */

	/* { dg-do link } */
	/* { dg-options "-ffast-math" } */
	/* { dg-options "-ffast-math -mmacosx-version-min=10.3" { target powerpc--darwin } } */
	/* { dg-options "-ffast-math -std=c99" { target --solaris2* } } */

	#include "../builtins-config.h"

	/* This check is necessary when converting to a C99 function. */
	#ifdef HAVE_C99_RUNTIME
	#define C99CODE(CODE) (CODE)
	#define MAYBEC99(CODE, C99) (CODE)
	#else
	#define C99CODE(CODE) 0
	#define MAYBEC99(CODE, C99) (!(C99) && (CODE))
	#endif

	void test(double d1, float f1, long double ld1)
	{
	/* Test converting math builtins to narrower FP types based on a
	narrowing cast on the outside of the call. MATHFN is the
	function to test, and C99 is 0/1 depending on whether the
	`double' version of MATHFN is a C99 function. The optimization
	is only performed if the replacement function is actually
	narrower in width, so check that first. */
	#define OUTER_CAST1(MATHFN, C99) \
	extern void link_failure_outer_##MATHFN##l_##MATHFN##_1(void); \
	extern void link_failure_outer_##MATHFN##l_##MATHFN##_2(void); \
	extern void link_failure_outer_##MATHFN##l_##MATHFN##f_1(void); \
	extern void link_failure_outer_##MATHFN##l_##MATHFN##f_2(void); \
	extern void link_failure_outer_##MATHFN##_##MATHFN##f_1(void); \
	extern void link_failure_outer_##MATHFN##_##MATHFN##f_2(void); \
	if (sizeof (long double) > sizeof (double) \
	&& MAYBEC99 ((double) __builtin_##MATHFN##l((double)ld1) != __builtin_##MATHFN(ld1), C99)) \
	link_failure_outer_##MATHFN##l_##MATHFN##_1(); \
	if (sizeof (long double) > sizeof (double) \
	&& MAYBEC99 ((double) __builtin_##MATHFN##l(d1) != __builtin_##MATHFN(d1), C99)) \
	link_failure_outer_##MATHFN##l_##MATHFN##_1(); \
	if (sizeof (long double) > sizeof (double) \
	&& MAYBEC99 ((double) __builtin_##MATHFN##l(f1) != __builtin_##MATHFN(f1), C99)) \
	link_failure_outer_##MATHFN##l_##MATHFN##_2(); \
	if (sizeof (long double) > sizeof (float) \
	&& C99CODE ((float) __builtin_##MATHFN##l((float) ld1) != __builtin_##MATHFN##f(ld1))) \
	link_failure_outer_##MATHFN##l_##MATHFN##f_1(); \
	if (sizeof (long double) > sizeof (float) \
	&& C99CODE ((float) __builtin_##MATHFN##l((float) d1) != __builtin_##MATHFN##f(d1))) \
	link_failure_outer_##MATHFN##l_##MATHFN##f_1(); \
	if (sizeof (long double) > sizeof (float) \
	&& C99CODE ((float) __builtin_##MATHFN##l(f1) != __builtin_##MATHFN##f(f1))) \
	link_failure_outer_##MATHFN##l_##MATHFN##f_2(); \
	if (sizeof (double) > sizeof (float) \
	&& C99CODE ((float) __builtin_##MATHFN((float) ld1) != __builtin_##MATHFN##f(ld1))) \
	link_failure_outer_##MATHFN##_##MATHFN##f_1(); \
	if (sizeof (double) > sizeof (float) \
	&& C99CODE ((float) __builtin_##MATHFN((float) d1) != __builtin_##MATHFN##f(d1))) \
	link_failure_outer_##MATHFN##_##MATHFN##f_1(); \
	if (sizeof (double) > sizeof (float) \
	&& C99CODE ((float) __builtin_##MATHFN(f1) != __builtin_##MATHFN##f(f1))) \
	link_failure_outer_##MATHFN##_##MATHFN##f_2()

	/* Test converting math builtins to narrower FP types based on if
	the argument is a narrower type (perhaps implicitly) cast to a
	wider one. */
	#define INNER_CAST1(MATHFN, C99) \
	extern void link_failure_inner_##MATHFN##l_##MATHFN(void); \
	extern void link_failure_inner_##MATHFN##l_##MATHFN##f(void); \
	extern void link_failure_inner_##MATHFN##_##MATHFN##f(void); \
	if (sizeof (long double) > sizeof (double) \
	&& MAYBEC99 (__builtin_##MATHFN##l(d1) != (long double) __builtin_##MATHFN(d1), C99)) \
	link_failure_inner_##MATHFN##l_##MATHFN(); \
	if (sizeof (long double) > sizeof (float) \
	&& C99CODE (__builtin_##MATHFN##l(f1) != (long double) __builtin_##MATHFN##f(f1))) \
	link_failure_inner_##MATHFN##l_##MATHFN##f(); \
	if (sizeof (long double) > sizeof (float) \
	&& C99CODE (__builtin_##MATHFN##l((double)f1) != (long double) __builtin_##MATHFN##f(f1))) \
	link_failure_inner_##MATHFN##l_##MATHFN##f(); \
	if (sizeof (double) > sizeof (float) \
	&& C99CODE (__builtin_##MATHFN(f1) != (double) __builtin_##MATHFN##f(f1))) \
	link_failure_inner_##MATHFN##_##MATHFN##f()


	#ifdef __OPTIMIZE__
	OUTER_CAST1 (acos, /C99=/ 0);
	OUTER_CAST1 (acosh, /C99=/ 1);
	OUTER_CAST1 (asin, /C99=/ 1);
	OUTER_CAST1 (asinh, /C99=/ 1);
	OUTER_CAST1 (atan, /C99=/ 0);
	OUTER_CAST1 (atanh, /C99=/ 1);
	OUTER_CAST1 (cbrt, /C99=/ 1);
	OUTER_CAST1 (cos, /C99=/ 0);
	OUTER_CAST1 (cosh, /C99=/ 0);
	OUTER_CAST1 (erf, /C99=/ 1);
	OUTER_CAST1 (erfc, /C99=/ 1);
	OUTER_CAST1 (exp, /C99=/ 0);
	OUTER_CAST1 (exp2, /C99=/ 1);
	OUTER_CAST1 (expm1, /C99=/ 1);
	OUTER_CAST1 (fabs, /C99=/ 0);
	OUTER_CAST1 (log, /C99=/ 0);
	OUTER_CAST1 (log10, /C99=/ 0);
	OUTER_CAST1 (log1p, /C99=/ 1);
	OUTER_CAST1 (log2, /C99=/ 1);
	OUTER_CAST1 (logb, /C99=/ 1);
	OUTER_CAST1 (sin, /C99=/ 0);
	OUTER_CAST1 (sinh, /C99=/ 0);
	OUTER_CAST1 (sqrt, /C99=/ 0);
	OUTER_CAST1 (tan, /C99=/ 0);
	OUTER_CAST1 (tanh, /C99=/ 0);
	OUTER_CAST1 (tgamma, /C99=/ 1);

	INNER_CAST1 (ceil, /C99=/ 0);
	OUTER_CAST1 (ceil, /C99=/ 0);
	INNER_CAST1 (floor, /C99=/ 0);
	OUTER_CAST1 (floor, /C99=/ 0);
	INNER_CAST1 (lceil, /C99=/ 1);
	OUTER_CAST1 (lceil, /C99=/ 1);
	INNER_CAST1 (lfloor, /C99=/ 1);
	OUTER_CAST1 (lfloor, /C99=/ 1);
	INNER_CAST1 (lrint, /C99=/ 1);
	OUTER_CAST1 (lrint, /C99=/ 1);
	INNER_CAST1 (lround, /C99=/ 1);
	OUTER_CAST1 (lround, /C99=/ 1);
	INNER_CAST1 (llceil, /C99=/ 1);
	OUTER_CAST1 (llceil, /C99=/ 1);
	INNER_CAST1 (llfloor, /C99=/ 1);
	OUTER_CAST1 (llfloor, /C99=/ 1);
	INNER_CAST1 (llrint, /C99=/ 1);
	OUTER_CAST1 (llrint, /C99=/ 1);
	INNER_CAST1 (llround, /C99=/ 1);
	OUTER_CAST1 (llround, /C99=/ 1);
	INNER_CAST1 (nearbyint, /C99=/ 1);
	OUTER_CAST1 (nearbyint, /C99=/ 1);
	INNER_CAST1 (rint, /C99=/ 1);
	OUTER_CAST1 (rint, /C99=/ 1);
	INNER_CAST1 (round, /C99=/ 1);
	OUTER_CAST1 (round, /C99=/ 1);
	INNER_CAST1 (trunc, /C99=/ 1);
	OUTER_CAST1 (trunc, /C99=/ 1);
	#endif /* __OPTIMIZE__ */
	}

	int main (void)
	{
	return 0;
	}