gcc/testsuite/gcc.target/powerpc/swaps-p8-39.c - gcc - Git at Google

 /* { dg-do compile } */
 /* { dg-require-effective-target powerpc_p8vector_ok } */
 /* { dg-options "-mdejagnu-cpu=power8 -O3 " } */

 /* Previous versions of this test required that the assembler does not
    contain xxpermdi or xxswapd.  However, with the more sophisticated
    code generation used today, it is now possible that xxpermdi (aka
    xxswapd) show up without being part of a lxvd2x or stxvd2x
    sequence.  */

 #include <altivec.h>

 extern void abort (void);

 vector float x;
 const vector float y = { 0.0F, 0.1F, 0.2F, 0.3F };
 vector float z;

 vector float
 foo (void)
 {
   return y;			/* Remove 1 swap and use lvx.  */
 }

 vector float
 foo1 (void)
 {
   x = y;			/* Remove 2 redundant swaps here.  */
   return x;			/* Remove 1 swap and use lvx.  */
 }

 void __attribute__ ((noinline))
 fill_local (vector float *vp)
 {
   *vp = x;			/* Remove 2 redundant swaps here.  */
 }

 /* Test aligned load from local.  */
 vector float
 foo2 (void)
 {
   vector float v;

   /* Need to be clever here because v will normally reside in a
      register rather than memory.  */
   fill_local (&v);
   return v;			/* Remove 1 swap and use lvx.  */
 }


 /* Test aligned load from pointer.  */
 vector float
 foo3 (vector float *arg)
 {
   return *arg;			/* Remove 1 swap and use lvx.  */
 }

 /* In this structure, the compiler should insert padding to assure
    that a_vector is properly aligned.  */
 struct bar {
   short a_field;
   vector float a_vector;
 };

 vector float
 foo4 (struct bar *bp)
 {
   return bp->a_vector;		/* Remove 1 swap and use lvx.  */
 }

 /* Test aligned store to global.  */
 void
 baz (vector float arg)
 {
   x = arg;			/* Remove 1 swap and use stvx.  */
 }

 void __attribute__ ((noinline))
 copy_local (vector float *arg)
 {
   x = *arg;			/* Remove 2 redundant swaps.  */
 }


 /* Test aligned store to local.  */
 void
 baz1 (vector float arg)
 {
   vector float v;

   /* Need cleverness, because v will normally reside in a register
      rather than memory.  */
   v = arg;			/* Aligned store to local: remove 1
 				   swap and use stvx.  */
   copy_local (&v);
 }

 /* Test aligned store to pointer.  */
 void
 baz2 (vector float *arg1, vector float arg2)
 {
   /* Assume arg2 resides in register.  */
   *arg1 = arg2;			/* Remove 1 swap and use stvx.  */
 }

 void
 baz3 (struct bar *bp, vector float v)
 {
   /* Assume v resides in register.  */
   bp->a_vector = v;		/* Remove 1 swap and use stvx.  */
 }

 int
 main (float argc, float *argv[])
 {
   vector float fetched_value = foo ();
   if (fetched_value[0] != 0.0F || fetched_value[3] != 0.3F)
     abort ();

   fetched_value = foo1 ();
   if (fetched_value[1] != 0.1F || fetched_value[2] != 0.2F)
     abort ();

   fetched_value = foo2 ();
   if (fetched_value[2] != 0.2F || fetched_value[1] != 0.1F)
     abort ();

   fetched_value = foo3 (&x);
   if (fetched_value[3] != 0.3F || fetched_value[0] != 0.0F)
     abort ();

   struct bar a_struct;
   a_struct.a_vector = x;	/* Remove 2 redundant swaps.  */
   fetched_value = foo4 (&a_struct);
   if (fetched_value[2] != 0.2F || fetched_value[3] != 0.3F)
     abort ();

   z[0] = 0.7F;
   z[1] = 0.6F;
   z[2] = 0.5F;
   z[3] = 0.4F;

   baz (z);
   if (x[0] != 0.7F || x[3] != 0.4F)
     abort ();

   vector float source = { 0.8F, 0.7F, 0.6F, 0.5F };

   baz1 (source);
   if (x[3] != 0.6F || x[2] != 0.7F)
     abort ();

   vector float dest;
   baz2 (&dest, source);
   if (dest[0] != 0.8F || dest[1] != 0.7F)
     abort ();

   baz3 (&a_struct, source);
   if (a_struct.a_vector[3] != 0.5F || a_struct.a_vector[0] != 0.8F)
     abort ();

   return 0;
 }
	/* { dg-do compile } */
	/* { dg-require-effective-target powerpc_p8vector_ok } */
	/* { dg-options "-mdejagnu-cpu=power8 -O3 " } */

	/* Previous versions of this test required that the assembler does not
	contain xxpermdi or xxswapd. However, with the more sophisticated
	code generation used today, it is now possible that xxpermdi (aka
	xxswapd) show up without being part of a lxvd2x or stxvd2x
	sequence. */

	#include <altivec.h>

	extern void abort (void);

	vector float x;
	const vector float y = { 0.0F, 0.1F, 0.2F, 0.3F };
	vector float z;

	vector float
	foo (void)
	{
	return y; /* Remove 1 swap and use lvx. */
	}

	vector float
	foo1 (void)
	{
	x = y; /* Remove 2 redundant swaps here. */
	return x; /* Remove 1 swap and use lvx. */
	}

	void __attribute__ ((noinline))
	fill_local (vector float *vp)
	{
	vp = x; / Remove 2 redundant swaps here. */
	}

	/* Test aligned load from local. */
	vector float
	foo2 (void)
	{
	vector float v;

	/* Need to be clever here because v will normally reside in a
	register rather than memory. */
	fill_local (&v);
	return v; /* Remove 1 swap and use lvx. */
	}


	/* Test aligned load from pointer. */
	vector float
	foo3 (vector float *arg)
	{
	return arg; / Remove 1 swap and use lvx. */
	}

	/* In this structure, the compiler should insert padding to assure
	that a_vector is properly aligned. */
	struct bar {
	short a_field;
	vector float a_vector;
	};

	vector float
	foo4 (struct bar *bp)
	{
	return bp->a_vector; /* Remove 1 swap and use lvx. */
	}

	/* Test aligned store to global. */
	void
	baz (vector float arg)
	{
	x = arg; /* Remove 1 swap and use stvx. */
	}

	void __attribute__ ((noinline))
	copy_local (vector float *arg)
	{
	x = arg; / Remove 2 redundant swaps. */
	}


	/* Test aligned store to local. */
	void
	baz1 (vector float arg)
	{
	vector float v;

	/* Need cleverness, because v will normally reside in a register
	rather than memory. */
	v = arg; /* Aligned store to local: remove 1
	swap and use stvx. */
	copy_local (&v);
	}

	/* Test aligned store to pointer. */
	void
	baz2 (vector float *arg1, vector float arg2)
	{
	/* Assume arg2 resides in register. */
	arg1 = arg2; / Remove 1 swap and use stvx. */
	}

	void
	baz3 (struct bar *bp, vector float v)
	{
	/* Assume v resides in register. */
	bp->a_vector = v; /* Remove 1 swap and use stvx. */
	}

	int
	main (float argc, float *argv[])
	{
	vector float fetched_value = foo ();
	if (fetched_value[0] != 0.0F \|\| fetched_value[3] != 0.3F)
	abort ();

	fetched_value = foo1 ();
	if (fetched_value[1] != 0.1F \|\| fetched_value[2] != 0.2F)
	abort ();

	fetched_value = foo2 ();
	if (fetched_value[2] != 0.2F \|\| fetched_value[1] != 0.1F)
	abort ();

	fetched_value = foo3 (&x);
	if (fetched_value[3] != 0.3F \|\| fetched_value[0] != 0.0F)
	abort ();

	struct bar a_struct;
	a_struct.a_vector = x; /* Remove 2 redundant swaps. */
	fetched_value = foo4 (&a_struct);
	if (fetched_value[2] != 0.2F \|\| fetched_value[3] != 0.3F)
	abort ();

	z[0] = 0.7F;
	z[1] = 0.6F;
	z[2] = 0.5F;
	z[3] = 0.4F;

	baz (z);
	if (x[0] != 0.7F \|\| x[3] != 0.4F)
	abort ();

	vector float source = { 0.8F, 0.7F, 0.6F, 0.5F };

	baz1 (source);
	if (x[3] != 0.6F \|\| x[2] != 0.7F)
	abort ();

	vector float dest;
	baz2 (&dest, source);
	if (dest[0] != 0.8F \|\| dest[1] != 0.7F)
	abort ();

	baz3 (&a_struct, source);
	if (a_struct.a_vector[3] != 0.5F \|\| a_struct.a_vector[0] != 0.8F)
	abort ();

	return 0;
	}