llvm-gcc-4.2/gcc/testsuite/gcc.dg/builtins-20.c - llvm-archive - Git at Google

 /* Copyright (C) 2003  Free Software Foundation.

    Verify that built-in math function constant folding doesn't break
    anything and produces the expected results.

    Written by Roger Sayle, 8th June 2003.  */

 /* { dg-do link } */
 /* { dg-options "-O2 -ffast-math" } */
 /* { dg-options "-O2 -ffast-math -mmacosx-version-min=10.3" { target powerpc-*-darwin* } } */
 /* { dg-options "-O2 -ffast-math -std=c99" { target *-*-solaris2* } } */

 #include "builtins-config.h"

 extern double cos (double);
 extern double sin (double);
 extern double tan (double);
 extern float cosf (float);
 extern float sinf (float);
 extern float tanf (float);
 extern long double cosl (long double);
 extern long double sinl (long double);
 extern long double tanl (long double);

 extern void link_error(void);

 void test1(double x)
 {
   if (cos(x) != cos(-x))
     link_error ();

   if (sin(x)/cos(x) != tan(x))
     link_error ();

   if (cos(x)/sin(x) != 1.0/tan(x))
     link_error ();

   if (tan(x)*cos(x) != sin(x))
     link_error ();

   if (cos(x)*tan(x) != sin(x))
     link_error ();

   if (sin(x)/tan(x) != cos(x))
     link_error ();

   if (tan(x)/sin(x) != 1.0/cos(x))
     link_error ();
 }

 void test2(double x, double y)
 {
   if (-tan(x-y) != tan(y-x))
     link_error ();

   if (-sin(x-y) != sin(y-x))
     link_error ();
 }

 void test1f(float x)
 {
   if (cosf(x) != cosf(-x))
     link_error ();

 #ifdef HAVE_C99_RUNTIME
   if (sinf(x)/cosf(x) != tanf(x))
     link_error ();

   if (cosf(x)/sinf(x) != 1.0f/tanf(x))
     link_error ();

   if (tanf(x)*cosf(x) != sinf(x))
     link_error ();

   if (cosf(x)*tanf(x) != sinf(x))
     link_error ();

   if (sinf(x)/tanf(x) != cosf(x))
     link_error ();

   if (tanf(x)/sinf(x) != 1.0f/cosf(x))
     link_error ();
 #endif
 }

 void test2f(float x, float y)
 {
   if (-tanf(x-y) != tanf(y-x))
     link_error ();

   if (-sinf(x-y) != sinf(y-x))
     link_error ();
 }


 void test1l(long double x)
 {
   if (cosl(x) != cosl(-x))
     link_error ();

 #ifdef HAVE_C99_RUNTIME
   if (sinl(x)/cosl(x) != tanl(x))
     link_error ();

   if (cosl(x)/sinl(x) != 1.0l/tanl(x))
     link_error ();

   if (tanl(x)*cosl(x) != sinl(x))
     link_error ();

   if (cosl(x)*tanl(x) != sinl(x))
     link_error ();

   if (sinl(x)/tanl(x) != cosl(x))
     link_error ();

   if (tanl(x)/sinl(x) != 1.0l/cosl(x))
     link_error ();
 #endif
 }

 void test2l(long double x, long double y)
 {
   if (-tanl(x-y) != tanl(y-x))
     link_error ();

   if (-sinl(x-y) != sinl(y-x))
     link_error ();
 }

 int main()
 {
   test1 (1.0);
   test2 (1.0, 2.0);

   test1f (1.0f);
   test2f (1.0f, 2.0f);

   test1l (1.0l);
   test2l (1.0l, 2.0l);

   return 0;
 }
	/* Copyright (C) 2003 Free Software Foundation.

	Verify that built-in math function constant folding doesn't break
	anything and produces the expected results.

	Written by Roger Sayle, 8th June 2003. */

	/* { dg-do link } */
	/* { dg-options "-O2 -ffast-math" } */
	/* { dg-options "-O2 -ffast-math -mmacosx-version-min=10.3" { target powerpc--darwin } } */
	/* { dg-options "-O2 -ffast-math -std=c99" { target --solaris2* } } */

	#include "builtins-config.h"

	extern double cos (double);
	extern double sin (double);
	extern double tan (double);
	extern float cosf (float);
	extern float sinf (float);
	extern float tanf (float);
	extern long double cosl (long double);
	extern long double sinl (long double);
	extern long double tanl (long double);

	extern void link_error(void);

	void test1(double x)
	{
	if (cos(x) != cos(-x))
	link_error ();

	if (sin(x)/cos(x) != tan(x))
	link_error ();

	if (cos(x)/sin(x) != 1.0/tan(x))
	link_error ();

	if (tan(x)*cos(x) != sin(x))
	link_error ();

	if (cos(x)*tan(x) != sin(x))
	link_error ();

	if (sin(x)/tan(x) != cos(x))
	link_error ();

	if (tan(x)/sin(x) != 1.0/cos(x))
	link_error ();
	}

	void test2(double x, double y)
	{
	if (-tan(x-y) != tan(y-x))
	link_error ();

	if (-sin(x-y) != sin(y-x))
	link_error ();
	}

	void test1f(float x)
	{
	if (cosf(x) != cosf(-x))
	link_error ();

	#ifdef HAVE_C99_RUNTIME
	if (sinf(x)/cosf(x) != tanf(x))
	link_error ();

	if (cosf(x)/sinf(x) != 1.0f/tanf(x))
	link_error ();

	if (tanf(x)*cosf(x) != sinf(x))
	link_error ();

	if (cosf(x)*tanf(x) != sinf(x))
	link_error ();

	if (sinf(x)/tanf(x) != cosf(x))
	link_error ();

	if (tanf(x)/sinf(x) != 1.0f/cosf(x))
	link_error ();
	#endif
	}

	void test2f(float x, float y)
	{
	if (-tanf(x-y) != tanf(y-x))
	link_error ();

	if (-sinf(x-y) != sinf(y-x))
	link_error ();
	}


	void test1l(long double x)
	{
	if (cosl(x) != cosl(-x))
	link_error ();

	#ifdef HAVE_C99_RUNTIME
	if (sinl(x)/cosl(x) != tanl(x))
	link_error ();

	if (cosl(x)/sinl(x) != 1.0l/tanl(x))
	link_error ();

	if (tanl(x)*cosl(x) != sinl(x))
	link_error ();

	if (cosl(x)*tanl(x) != sinl(x))
	link_error ();

	if (sinl(x)/tanl(x) != cosl(x))
	link_error ();

	if (tanl(x)/sinl(x) != 1.0l/cosl(x))
	link_error ();
	#endif
	}

	void test2l(long double x, long double y)
	{
	if (-tanl(x-y) != tanl(y-x))
	link_error ();

	if (-sinl(x-y) != sinl(y-x))
	link_error ();
	}

	int main()
	{
	test1 (1.0);
	test2 (1.0, 2.0);

	test1f (1.0f);
	test2f (1.0f, 2.0f);

	test1l (1.0l);
	test2l (1.0l, 2.0l);

	return 0;
	}