gcc/testsuite/gcc.dg/torture/builtin-logb-1.c - gcc - Git at Google

 /* Copyright (C) 2007  Free Software Foundation.

    Verify that built-in folding of logb, ilogb and significand is
    correctly performed by the compiler.

    Origin: Kaveh R. Ghazi,  February 22, 2007.  */

 /* { dg-do link } */
 /* { dg-options "-fno-finite-math-only" { target sh*-*-* } } */
 /* In order to fold algebraic exprs below, targets with "composite"
    floating point formats need -funsafe-math-optimizations.  */
 /* { dg-require-effective-target inf } */
 /* { dg-options "-funsafe-math-optimizations" { target powerpc*-*-* } } */

 extern void link_error(int);

 /* Return TRUE if the sign of X != sign of Y.  This is important when
    comparing signed zeros.  */
 #define CKSGN_F(X,Y) \
   (__builtin_copysignf(1.0F,(X)) != __builtin_copysignf(1.0F,(Y)))
 #define CKSGN(X,Y) \
   (__builtin_copysign(1.0,(X)) != __builtin_copysign(1.0,(Y)))
 #define CKSGN_L(X,Y) \
   (__builtin_copysignl(1.0L,(X)) != __builtin_copysignl(1.0L,(Y)))

 /* Test that FUNC(ARG) == RES.  Check the sign in case we get -0.0.  */
 #define TESTIT(FUNC,ARG,RES) do { \
   if (__builtin_##FUNC##f(ARG##f) != RES##f \
       || CKSGN_F(__builtin_##FUNC##f(ARG##f),RES##f)) \
     link_error(__LINE__); \
   if (__builtin_##FUNC(ARG) != RES \
       || CKSGN(__builtin_##FUNC(ARG),RES)) \
     link_error(__LINE__); \
   if (__builtin_##FUNC##l(ARG##l) != RES##l \
       || CKSGN_L(__builtin_##FUNC##l(ARG##l),RES##l)) \
     link_error(__LINE__); \
   } while (0)

 /* Test that FUNC(ARG) == RES.  RES is an int so it can't be -0.0.  */
 #define TESTIT2(FUNC,ARG,RES) do { \
   if (__builtin_##FUNC##f(ARG##f) != RES) \
     link_error(__LINE__); \
   if (__builtin_##FUNC(ARG) != RES) \
     link_error(__LINE__); \
   if (__builtin_##FUNC##l(ARG##l) != RES) \
     link_error(__LINE__); \
   } while (0)

 /* Test if FUNCRES(FUNC(NEG FUNCARG(ARGARG))) is false.  Check the
    sign as well.  */
 #define TESTIT3(FUNC,NEG,FUNCARG,ARGARG,FUNCRES,NEG2) do { \
   if (!__builtin_##FUNCRES##f(__builtin_##FUNC(NEG __builtin_##FUNCARG##f(ARGARG))) \
       || CKSGN_F(__builtin_##FUNC##f(NEG __builtin_##FUNCARG##f(ARGARG)), NEG2 __builtin_##FUNCARG##f(ARGARG))) \
     link_error(__LINE__); \
   if (!__builtin_##FUNCRES(__builtin_##FUNC(NEG __builtin_##FUNCARG(ARGARG))) \
       || CKSGN(__builtin_##FUNC(NEG __builtin_##FUNCARG(ARGARG)), NEG2 __builtin_##FUNCARG(ARGARG))) \
     link_error(__LINE__); \
   if (!__builtin_##FUNCRES##l(__builtin_##FUNC##l(NEG __builtin_##FUNCARG##l(ARGARG))) \
       || CKSGN_L(__builtin_##FUNC##l(NEG __builtin_##FUNCARG##l(ARGARG)), NEG2 __builtin_##FUNCARG##l(ARGARG))) \
     link_error(__LINE__); \
   } while (0)

 void __attribute__ ((__noinline__))
 foo(void)
 {
   /* If radix == 2, test that logb(ARG2) -> ARG3.  */
 #if __FLT_RADIX__ == 2
   TESTIT (logb, -0x1p40, 40.0);
   TESTIT (logb, -0x1p30, 30.0);
   TESTIT (logb, -0x1p20, 20.0);
   TESTIT (logb, -0x1p10, 10.0);
   TESTIT (logb, -0x1p5, 5.0);
   TESTIT (logb, -100/3.0, 5.0);
   TESTIT (logb, -2.0, 1.0);
   TESTIT (logb, -1.5, 0.0);
   TESTIT (logb, -1.0, 0.0);
   TESTIT (logb, -1/3.0, -2.0);
   TESTIT (logb, -1/9.0, -4.0);
   TESTIT (logb, -0x1p-5, -5.0);
   TESTIT (logb, -0x1p-10, -10.0);
   TESTIT (logb, -0x1p-20, -20.0);
   TESTIT (logb, -0x1p-30, -30.0);
   TESTIT (logb, -0x1p-40, -40.0);

   TESTIT (logb, 0x1p-40, -40.0);
   TESTIT (logb, 0x1p-30, -30.0);
   TESTIT (logb, 0x1p-20, -20.0);
   TESTIT (logb, 0x1p-10, -10.0);
   TESTIT (logb, 0x1p-5, -5.0);
   TESTIT (logb, 1/9.0, -4.0);
   TESTIT (logb, 1/3.0, -2.0);
   TESTIT (logb, 1.0, 0.0);
   TESTIT (logb, 1.5, 0.0);
   TESTIT (logb, 2.0, 1.0);
   TESTIT (logb, 100/3.0, 5.0);
   TESTIT (logb, 0x1p5, 5.0);
   TESTIT (logb, 0x1p10, 10.0);
   TESTIT (logb, 0x1p20, 20.0);
   TESTIT (logb, 0x1p30, 30.0);
   TESTIT (logb, 0x1p40, 40.0);
 #endif

   /* If radix == 2, test that ilogb(ARG2) -> ARG3.  */
 #if __FLT_RADIX__ == 2
   TESTIT2 (ilogb, -0x1p40, 40);
   TESTIT2 (ilogb, -0x1p30, 30);
   TESTIT2 (ilogb, -0x1p20, 20);
   TESTIT2 (ilogb, -0x1p10, 10);
   TESTIT2 (ilogb, -0x1p5, 5);
   TESTIT2 (ilogb, -100/3.0, 5);
   TESTIT2 (ilogb, -2.0, 1);
   TESTIT2 (ilogb, -1.5, 0);
   TESTIT2 (ilogb, -1.0, 0);
   TESTIT2 (ilogb, -1/3.0, -2);
   TESTIT2 (ilogb, -1/9.0, -4);
   TESTIT2 (ilogb, -0x1p-5, -5);
   TESTIT2 (ilogb, -0x1p-10, -10);
   TESTIT2 (ilogb, -0x1p-20, -20);
   TESTIT2 (ilogb, -0x1p-30, -30);
   TESTIT2 (ilogb, -0x1p-40, -40);

   TESTIT2 (ilogb, 0x1p-40, -40);
   TESTIT2 (ilogb, 0x1p-30, -30);
   TESTIT2 (ilogb, 0x1p-20, -20);
   TESTIT2 (ilogb, 0x1p-10, -10);
   TESTIT2 (ilogb, 0x1p-5, -5);
   TESTIT2 (ilogb, 1/9.0, -4);
   TESTIT2 (ilogb, 1/3.0, -2);
   TESTIT2 (ilogb, 1.0, 0);
   TESTIT2 (ilogb, 1.5, 0);
   TESTIT2 (ilogb, 2.0, 1);
   TESTIT2 (ilogb, 100/3.0, 5);
   TESTIT2 (ilogb, 0x1p5, 5);
   TESTIT2 (ilogb, 0x1p10, 10);
   TESTIT2 (ilogb, 0x1p20, 20);
   TESTIT2 (ilogb, 0x1p30, 30);
   TESTIT2 (ilogb, 0x1p40, 40);
 #endif

   /* If radix == 2, test that significand(ARG2) -> ARG3.  Zero always
      folds regardless of the radix.  */
   TESTIT (significand, -0.0, -0.0);
   TESTIT (significand, 0.0, 0.0);

 #if __FLT_RADIX__ == 2
   TESTIT (significand, -0x1p5, -1.0);
   TESTIT (significand, -100/3.0, -100/96.0);
   TESTIT (significand, -1.5, -1.5);
   TESTIT (significand, -1.0, -1.0);
   TESTIT (significand, -1/3.0, -4/3.0);
   TESTIT (significand, -1/9.0, -16/9.0);
   TESTIT (significand, -0x1p-5, -1.0);

   TESTIT (significand, 0x1p-5, 1.0);
   TESTIT (significand, 1/9.0, 16/9.0);
   TESTIT (significand, 1/3.0, 4/3.0);
   TESTIT (significand, 1.0, 1.0);
   TESTIT (significand, 1.5, 1.5);
   TESTIT (significand, 100/3.0, 100/96.0);
   TESTIT (significand, 0x1p5, 1.0);
 #endif

   /* Test for f(+-Inf) -> +-Inf and f(+-NaN) -> +-NaN, regardless of
      the radix.  */
   TESTIT3 (logb, ,inf, , isinf, );
   TESTIT3 (logb, - ,inf, , isinf, );
   TESTIT3 (logb,  ,nan, "", isnan, );
   TESTIT3 (logb, - ,nan, "", isnan, -);

   TESTIT3 (significand, ,inf, , isinf, );
   TESTIT3 (significand, - ,inf, , isinf, -);
   TESTIT3 (significand,  ,nan, "", isnan, );
   TESTIT3 (significand, - ,nan, "", isnan, -);
 }

 int main()
 {
   foo ();

   return 0;
 }
	/* Copyright (C) 2007 Free Software Foundation.

	Verify that built-in folding of logb, ilogb and significand is
	correctly performed by the compiler.

	Origin: Kaveh R. Ghazi, February 22, 2007. */

	/* { dg-do link } */
	/* { dg-options "-fno-finite-math-only" { target sh--* } } */
	/* In order to fold algebraic exprs below, targets with "composite"
	floating point formats need -funsafe-math-optimizations. */
	/* { dg-require-effective-target inf } */
	/* { dg-options "-funsafe-math-optimizations" { target powerpc--* } } */

	extern void link_error(int);

	/* Return TRUE if the sign of X != sign of Y. This is important when
	comparing signed zeros. */
	#define CKSGN_F(X,Y) \
	(__builtin_copysignf(1.0F,(X)) != __builtin_copysignf(1.0F,(Y)))
	#define CKSGN(X,Y) \
	(__builtin_copysign(1.0,(X)) != __builtin_copysign(1.0,(Y)))
	#define CKSGN_L(X,Y) \
	(__builtin_copysignl(1.0L,(X)) != __builtin_copysignl(1.0L,(Y)))

	/* Test that FUNC(ARG) == RES. Check the sign in case we get -0.0. */
	#define TESTIT(FUNC,ARG,RES) do { \
	if (__builtin_##FUNC##f(ARG##f) != RES##f \
	\|\| CKSGN_F(__builtin_##FUNC##f(ARG##f),RES##f)) \
	link_error(__LINE__); \
	if (__builtin_##FUNC(ARG) != RES \
	\|\| CKSGN(__builtin_##FUNC(ARG),RES)) \
	link_error(__LINE__); \
	if (__builtin_##FUNC##l(ARG##l) != RES##l \
	\|\| CKSGN_L(__builtin_##FUNC##l(ARG##l),RES##l)) \
	link_error(__LINE__); \
	} while (0)

	/* Test that FUNC(ARG) == RES. RES is an int so it can't be -0.0. */
	#define TESTIT2(FUNC,ARG,RES) do { \
	if (__builtin_##FUNC##f(ARG##f) != RES) \
	link_error(__LINE__); \
	if (__builtin_##FUNC(ARG) != RES) \
	link_error(__LINE__); \
	if (__builtin_##FUNC##l(ARG##l) != RES) \
	link_error(__LINE__); \
	} while (0)

	/* Test if FUNCRES(FUNC(NEG FUNCARG(ARGARG))) is false. Check the
	sign as well. */
	#define TESTIT3(FUNC,NEG,FUNCARG,ARGARG,FUNCRES,NEG2) do { \
	if (!__builtin_##FUNCRES##f(__builtin_##FUNC(NEG __builtin_##FUNCARG##f(ARGARG))) \
	\|\| CKSGN_F(__builtin_##FUNC##f(NEG __builtin_##FUNCARG##f(ARGARG)), NEG2 __builtin_##FUNCARG##f(ARGARG))) \
	link_error(__LINE__); \
	if (!__builtin_##FUNCRES(__builtin_##FUNC(NEG __builtin_##FUNCARG(ARGARG))) \
	\|\| CKSGN(__builtin_##FUNC(NEG __builtin_##FUNCARG(ARGARG)), NEG2 __builtin_##FUNCARG(ARGARG))) \
	link_error(__LINE__); \
	if (!__builtin_##FUNCRES##l(__builtin_##FUNC##l(NEG __builtin_##FUNCARG##l(ARGARG))) \
	\|\| CKSGN_L(__builtin_##FUNC##l(NEG __builtin_##FUNCARG##l(ARGARG)), NEG2 __builtin_##FUNCARG##l(ARGARG))) \
	link_error(__LINE__); \
	} while (0)

	void __attribute__ ((__noinline__))
	foo(void)
	{
	/* If radix == 2, test that logb(ARG2) -> ARG3. */
	#if __FLT_RADIX__ == 2
	TESTIT (logb, -0x1p40, 40.0);
	TESTIT (logb, -0x1p30, 30.0);
	TESTIT (logb, -0x1p20, 20.0);
	TESTIT (logb, -0x1p10, 10.0);
	TESTIT (logb, -0x1p5, 5.0);
	TESTIT (logb, -100/3.0, 5.0);
	TESTIT (logb, -2.0, 1.0);
	TESTIT (logb, -1.5, 0.0);
	TESTIT (logb, -1.0, 0.0);
	TESTIT (logb, -1/3.0, -2.0);
	TESTIT (logb, -1/9.0, -4.0);
	TESTIT (logb, -0x1p-5, -5.0);
	TESTIT (logb, -0x1p-10, -10.0);
	TESTIT (logb, -0x1p-20, -20.0);
	TESTIT (logb, -0x1p-30, -30.0);
	TESTIT (logb, -0x1p-40, -40.0);

	TESTIT (logb, 0x1p-40, -40.0);
	TESTIT (logb, 0x1p-30, -30.0);
	TESTIT (logb, 0x1p-20, -20.0);
	TESTIT (logb, 0x1p-10, -10.0);
	TESTIT (logb, 0x1p-5, -5.0);
	TESTIT (logb, 1/9.0, -4.0);
	TESTIT (logb, 1/3.0, -2.0);
	TESTIT (logb, 1.0, 0.0);
	TESTIT (logb, 1.5, 0.0);
	TESTIT (logb, 2.0, 1.0);
	TESTIT (logb, 100/3.0, 5.0);
	TESTIT (logb, 0x1p5, 5.0);
	TESTIT (logb, 0x1p10, 10.0);
	TESTIT (logb, 0x1p20, 20.0);
	TESTIT (logb, 0x1p30, 30.0);
	TESTIT (logb, 0x1p40, 40.0);
	#endif

	/* If radix == 2, test that ilogb(ARG2) -> ARG3. */
	#if __FLT_RADIX__ == 2
	TESTIT2 (ilogb, -0x1p40, 40);
	TESTIT2 (ilogb, -0x1p30, 30);
	TESTIT2 (ilogb, -0x1p20, 20);
	TESTIT2 (ilogb, -0x1p10, 10);
	TESTIT2 (ilogb, -0x1p5, 5);
	TESTIT2 (ilogb, -100/3.0, 5);
	TESTIT2 (ilogb, -2.0, 1);
	TESTIT2 (ilogb, -1.5, 0);
	TESTIT2 (ilogb, -1.0, 0);
	TESTIT2 (ilogb, -1/3.0, -2);
	TESTIT2 (ilogb, -1/9.0, -4);
	TESTIT2 (ilogb, -0x1p-5, -5);
	TESTIT2 (ilogb, -0x1p-10, -10);
	TESTIT2 (ilogb, -0x1p-20, -20);
	TESTIT2 (ilogb, -0x1p-30, -30);
	TESTIT2 (ilogb, -0x1p-40, -40);

	TESTIT2 (ilogb, 0x1p-40, -40);
	TESTIT2 (ilogb, 0x1p-30, -30);
	TESTIT2 (ilogb, 0x1p-20, -20);
	TESTIT2 (ilogb, 0x1p-10, -10);
	TESTIT2 (ilogb, 0x1p-5, -5);
	TESTIT2 (ilogb, 1/9.0, -4);
	TESTIT2 (ilogb, 1/3.0, -2);
	TESTIT2 (ilogb, 1.0, 0);
	TESTIT2 (ilogb, 1.5, 0);
	TESTIT2 (ilogb, 2.0, 1);
	TESTIT2 (ilogb, 100/3.0, 5);
	TESTIT2 (ilogb, 0x1p5, 5);
	TESTIT2 (ilogb, 0x1p10, 10);
	TESTIT2 (ilogb, 0x1p20, 20);
	TESTIT2 (ilogb, 0x1p30, 30);
	TESTIT2 (ilogb, 0x1p40, 40);
	#endif

	/* If radix == 2, test that significand(ARG2) -> ARG3. Zero always
	folds regardless of the radix. */
	TESTIT (significand, -0.0, -0.0);
	TESTIT (significand, 0.0, 0.0);

	#if __FLT_RADIX__ == 2
	TESTIT (significand, -0x1p5, -1.0);
	TESTIT (significand, -100/3.0, -100/96.0);
	TESTIT (significand, -1.5, -1.5);
	TESTIT (significand, -1.0, -1.0);
	TESTIT (significand, -1/3.0, -4/3.0);
	TESTIT (significand, -1/9.0, -16/9.0);
	TESTIT (significand, -0x1p-5, -1.0);

	TESTIT (significand, 0x1p-5, 1.0);
	TESTIT (significand, 1/9.0, 16/9.0);
	TESTIT (significand, 1/3.0, 4/3.0);
	TESTIT (significand, 1.0, 1.0);
	TESTIT (significand, 1.5, 1.5);
	TESTIT (significand, 100/3.0, 100/96.0);
	TESTIT (significand, 0x1p5, 1.0);
	#endif

	/* Test for f(+-Inf) -> +-Inf and f(+-NaN) -> +-NaN, regardless of
	the radix. */
	TESTIT3 (logb, ,inf, , isinf, );
	TESTIT3 (logb, - ,inf, , isinf, );
	TESTIT3 (logb, ,nan, "", isnan, );
	TESTIT3 (logb, - ,nan, "", isnan, -);

	TESTIT3 (significand, ,inf, , isinf, );
	TESTIT3 (significand, - ,inf, , isinf, -);
	TESTIT3 (significand, ,nan, "", isnan, );
	TESTIT3 (significand, - ,nan, "", isnan, -);
	}

	int main()
	{
	foo ();

	return 0;
	}