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

 /* Copyright (C) 2006  Free Software Foundation.

    Verify that built-in math function folding of fmin/fmax is
    correctly performed by the compiler.

    Origin: Kaveh R. Ghazi,  November 13, 2006.  */

 /* { dg-do link } */
 /* { dg-options "-fno-math-errno" } */
 /* { dg-skip-if "" { *-*-* } { "-O0" } { "" } } */

 /* All references to link_error should go away at compile-time.  */
 extern void link_error(int);

 #define DECLARE(FUNC) \
   extern float FUNC##f (float); \
   extern double FUNC (double); \
   extern long double FUNC##l (long double)
 #define DECLARE2(FUNC) \
   extern float FUNC##f (float, float); \
   extern double FUNC (double, double); \
   extern long double FUNC##l (long double, long double)

 DECLARE2(fmin);
 DECLARE2(fmax);
 DECLARE(fabs);
 extern int pure(int) __attribute__ ((__pure__));

 /* Test that FUNC(x,x) == x.  We cast to (long) so "!=" folds.  */
 #define TEST_EQ(FUNC) do { \
   if ((long)FUNC##f(xf,xf) != (long)xf) \
     link_error(__LINE__); \
   if ((long)FUNC(x,x) != (long)x) \
     link_error(__LINE__); \
   if ((long)FUNC##l(xl,xl) != (long)xl) \
     link_error(__LINE__); \
   } while (0)

 /* Test that FUNC(purefn,purefn) == purefn.  We cast to (long) so "!=" folds.  */
 #define TEST_EQ_PURE(FUNC) do { \
   if ((long)FUNC##f(pure(i),pure(i)) != (long)FUNC##f(pure(i),pure(i))) \
     link_error(__LINE__); \
   if ((long)FUNC(pure(i),pure(i)) != (long)FUNC(pure(i),pure(i))) \
     link_error(__LINE__); \
   if ((long)FUNC##l(pure(i),pure(i)) != (long)FUNC##l(pure(i),pure(i))) \
     link_error(__LINE__); \
   } while (0)

 /* Test that FIXFUNC(FUNC(int1,int2)) == (TYPE)FUNC(int1,int2),
    i.e. FIXFUNC should be folded away and replaced with a cast.  */
 #define TEST_FIXFUNC(FUNC,FIXFUNC,TYPE) do { \
   if (FIXFUNC##f(FUNC##f(i,j)) != (TYPE)FUNC##f(i,j)) \
     link_error(__LINE__); \
   if (FIXFUNC(FUNC(i,j)) != (TYPE)FUNC(i,j)) \
     link_error(__LINE__); \
   if (FIXFUNC##l(FUNC##l(i,j)) != (TYPE)FUNC##l(i,j)) \
     link_error(__LINE__); \
   } while (0)

 /* Test that FUNC(int1,int2) has an integer return type.  */
 #define TEST_INT(FUNC) do { \
   TEST_FIXFUNC(FUNC,__builtin_lround,long); \
   TEST_FIXFUNC(FUNC,__builtin_llround,long long); \
   TEST_FIXFUNC(FUNC,__builtin_lrint,long); \
   TEST_FIXFUNC(FUNC,__builtin_llrint,long long); \
   TEST_FIXFUNC(FUNC,__builtin_lceil,long); \
   TEST_FIXFUNC(FUNC,__builtin_llceil,long long); \
   TEST_FIXFUNC(FUNC,__builtin_lfloor,long); \
   TEST_FIXFUNC(FUNC,__builtin_llfloor,long long); \
   } while (0)

 /* Test that (long)fabs(FUNC(fabs(x),fabs(y))) ==
    (long)FUNC(fabs(x),fabs(y)).  We cast to (long) so "!=" folds.  */
 #define TEST_NONNEG(FUNC) do { \
   if ((long)fabsf(FUNC##f(fabsf(xf),fabsf(yf))) != (long)FUNC##f(fabsf(xf),fabsf(yf))) \
     link_error(__LINE__); \
   if ((long)fabs(FUNC(fabs(x),fabs(y))) != (long)FUNC(fabs(x),fabs(y))) \
     link_error(__LINE__); \
   if ((long)fabsl(FUNC##l(fabsl(xl),fabsl(yl))) != (long)FUNC##l(fabsl(xl),fabsl(yl))) \
     link_error(__LINE__); \
   } while (0)

 /* Test that FUNC(NaN,x) == x.  We cast to (long) so "!=" folds.  Set
    parameter SIGNAL to `s' for testing signaling NaN.  */
 #define TEST_NAN(FUNC,SIGNAL) do { \
   if ((long)FUNC##f(__builtin_nan##SIGNAL##f(""),xf) != (long)xf) \
     link_error(__LINE__); \
   if ((long)FUNC##f(xf,__builtin_nan##SIGNAL##f("")) != (long)xf) \
     link_error(__LINE__); \
   if ((long)FUNC(__builtin_nan##SIGNAL(""),x) != (long)x) \
     link_error(__LINE__); \
   if ((long)FUNC(x,__builtin_nan##SIGNAL("")) != (long)x) \
     link_error(__LINE__); \
   if ((long)FUNC##l(__builtin_nan##SIGNAL##l(""),xl) != (long)xl) \
     link_error(__LINE__); \
   if ((long)FUNC##l(xl,__builtin_nan##SIGNAL##l("")) != (long)xl) \
     link_error(__LINE__); \
   } while (0)

 void __attribute__ ((__noinline__))
      foo (float xf, double x, long double xl,
 	  float yf, double y, long double yl,
 	  int i, int j)
 {
   TEST_EQ(fmin);
   TEST_EQ(fmax);

 #ifdef __OPTIMIZE__
   TEST_EQ_PURE(fmin);
   TEST_EQ_PURE(fmax);
 #endif

   TEST_INT(fmin);
   TEST_INT(fmax);

   TEST_NONNEG(fmin);
   TEST_NONNEG(fmax);

   TEST_NAN(fmin,);
   TEST_NAN(fmax,);
   TEST_NAN(fmin,s);
   TEST_NAN(fmax,s);
 }

 int main()
 {
   foo (1,1,1,1,1,1,1,1);
   return 0;
 }
	/* Copyright (C) 2006 Free Software Foundation.

	Verify that built-in math function folding of fmin/fmax is
	correctly performed by the compiler.

	Origin: Kaveh R. Ghazi, November 13, 2006. */

	/* { dg-do link } */
	/* { dg-options "-fno-math-errno" } */
	/* { dg-skip-if "" { --* } { "-O0" } { "" } } */

	/* All references to link_error should go away at compile-time. */
	extern void link_error(int);

	#define DECLARE(FUNC) \
	extern float FUNC##f (float); \
	extern double FUNC (double); \
	extern long double FUNC##l (long double)
	#define DECLARE2(FUNC) \
	extern float FUNC##f (float, float); \
	extern double FUNC (double, double); \
	extern long double FUNC##l (long double, long double)

	DECLARE2(fmin);
	DECLARE2(fmax);
	DECLARE(fabs);
	extern int pure(int) __attribute__ ((__pure__));

	/* Test that FUNC(x,x) == x. We cast to (long) so "!=" folds. */
	#define TEST_EQ(FUNC) do { \
	if ((long)FUNC##f(xf,xf) != (long)xf) \
	link_error(__LINE__); \
	if ((long)FUNC(x,x) != (long)x) \
	link_error(__LINE__); \
	if ((long)FUNC##l(xl,xl) != (long)xl) \
	link_error(__LINE__); \
	} while (0)

	/* Test that FUNC(purefn,purefn) == purefn. We cast to (long) so "!=" folds. */
	#define TEST_EQ_PURE(FUNC) do { \
	if ((long)FUNC##f(pure(i),pure(i)) != (long)FUNC##f(pure(i),pure(i))) \
	link_error(__LINE__); \
	if ((long)FUNC(pure(i),pure(i)) != (long)FUNC(pure(i),pure(i))) \
	link_error(__LINE__); \
	if ((long)FUNC##l(pure(i),pure(i)) != (long)FUNC##l(pure(i),pure(i))) \
	link_error(__LINE__); \
	} while (0)

	/* Test that FIXFUNC(FUNC(int1,int2)) == (TYPE)FUNC(int1,int2),
	i.e. FIXFUNC should be folded away and replaced with a cast. */
	#define TEST_FIXFUNC(FUNC,FIXFUNC,TYPE) do { \
	if (FIXFUNC##f(FUNC##f(i,j)) != (TYPE)FUNC##f(i,j)) \
	link_error(__LINE__); \
	if (FIXFUNC(FUNC(i,j)) != (TYPE)FUNC(i,j)) \
	link_error(__LINE__); \
	if (FIXFUNC##l(FUNC##l(i,j)) != (TYPE)FUNC##l(i,j)) \
	link_error(__LINE__); \
	} while (0)

	/* Test that FUNC(int1,int2) has an integer return type. */
	#define TEST_INT(FUNC) do { \
	TEST_FIXFUNC(FUNC,__builtin_lround,long); \
	TEST_FIXFUNC(FUNC,__builtin_llround,long long); \
	TEST_FIXFUNC(FUNC,__builtin_lrint,long); \
	TEST_FIXFUNC(FUNC,__builtin_llrint,long long); \
	TEST_FIXFUNC(FUNC,__builtin_lceil,long); \
	TEST_FIXFUNC(FUNC,__builtin_llceil,long long); \
	TEST_FIXFUNC(FUNC,__builtin_lfloor,long); \
	TEST_FIXFUNC(FUNC,__builtin_llfloor,long long); \
	} while (0)

	/* Test that (long)fabs(FUNC(fabs(x),fabs(y))) ==
	(long)FUNC(fabs(x),fabs(y)). We cast to (long) so "!=" folds. */
	#define TEST_NONNEG(FUNC) do { \
	if ((long)fabsf(FUNC##f(fabsf(xf),fabsf(yf))) != (long)FUNC##f(fabsf(xf),fabsf(yf))) \
	link_error(__LINE__); \
	if ((long)fabs(FUNC(fabs(x),fabs(y))) != (long)FUNC(fabs(x),fabs(y))) \
	link_error(__LINE__); \
	if ((long)fabsl(FUNC##l(fabsl(xl),fabsl(yl))) != (long)FUNC##l(fabsl(xl),fabsl(yl))) \
	link_error(__LINE__); \
	} while (0)

	/* Test that FUNC(NaN,x) == x. We cast to (long) so "!=" folds. Set
	parameter SIGNAL to `s' for testing signaling NaN. */
	#define TEST_NAN(FUNC,SIGNAL) do { \
	if ((long)FUNC##f(__builtin_nan##SIGNAL##f(""),xf) != (long)xf) \
	link_error(__LINE__); \
	if ((long)FUNC##f(xf,__builtin_nan##SIGNAL##f("")) != (long)xf) \
	link_error(__LINE__); \
	if ((long)FUNC(__builtin_nan##SIGNAL(""),x) != (long)x) \
	link_error(__LINE__); \
	if ((long)FUNC(x,__builtin_nan##SIGNAL("")) != (long)x) \
	link_error(__LINE__); \
	if ((long)FUNC##l(__builtin_nan##SIGNAL##l(""),xl) != (long)xl) \
	link_error(__LINE__); \
	if ((long)FUNC##l(xl,__builtin_nan##SIGNAL##l("")) != (long)xl) \
	link_error(__LINE__); \
	} while (0)

	void __attribute__ ((__noinline__))
	foo (float xf, double x, long double xl,
	float yf, double y, long double yl,
	int i, int j)
	{
	TEST_EQ(fmin);
	TEST_EQ(fmax);

	#ifdef __OPTIMIZE__
	TEST_EQ_PURE(fmin);
	TEST_EQ_PURE(fmax);
	#endif

	TEST_INT(fmin);
	TEST_INT(fmax);

	TEST_NONNEG(fmin);
	TEST_NONNEG(fmax);

	TEST_NAN(fmin,);
	TEST_NAN(fmax,);
	TEST_NAN(fmin,s);
	TEST_NAN(fmax,s);
	}

	int main()
	{
	foo (1,1,1,1,1,1,1,1);
	return 0;
	}