gcc/testsuite/gcc.target/powerpc/vsx-builtin-18d.c - gcc - Git at Google

 /* { dg-do run } */
 /* { dg-require-effective-target vmx_hw } */
 /* { dg-options "-maltivec -O3" } */

 /* This test should run the same on any target that supports altivec/vmx
    instructions.  Unsigned Intentionally not specifying cpu in order to test
    all code generation paths.  */

 #include <altivec.h>

 extern void abort (void);

 #define CONST0		(0)
 #define CONST1		(1)
 #define CONST2		(2)
 #define CONST3		(3)

 /* Test that indices > length of vector are applied modulo the vector
    length.  */

 /* Test for vector residing in register.  */
 vector unsigned int s3 (vector unsigned int v, unsigned int x)
 {
   return vec_insert (x, v, 3);
 }

 vector unsigned int s1 (vector unsigned int v, unsigned int x)
 {
   return vec_insert (x, v, 1);
 }

 vector unsigned int s21 (vector unsigned int v, unsigned int x)
 {
   return vec_insert (x, v, 21);
 }

 vector unsigned int s30 (vector unsigned int v, unsigned int x)
 {
   return vec_insert (x, v, 30);
 }

 /* Test for vector residing in memory.  */
 vector unsigned int ms3 (vector unsigned int *vp, unsigned int x)
 {
   return vec_insert (x, *vp, 3);
 }

 vector unsigned int ms1(vector unsigned int *vp, unsigned int x)
 {
   return vec_insert (x, *vp, 1);
 }

 vector unsigned int ms21(vector unsigned int *vp, unsigned int x)
 {
   return vec_insert (x, *vp, 21);
 }

 vector unsigned int ms30(vector unsigned int *vp, unsigned int x)
 {
   return vec_insert (x, *vp, 30);
 }

 /* Test the same with variable indices.  */

 /* Test for variable selector and vector residing in register.  */
 __attribute__((noinline))
 vector unsigned int ci (vector unsigned int v, int i, unsigned int x)
 {
   return vec_insert (x, v, i);
 }

 /* Test for variable selector and vector residing in memory.  */
 __attribute__((noinline))
 vector unsigned int mci(vector unsigned int *vp, int i, unsigned int x)
 {
   return vec_insert (x, *vp, i);
 }


 int main (int argc, unsigned char *argv[]) {
   vector unsigned int sv = { CONST0, CONST1, CONST2, CONST3 };

   sv = s3 (sv, CONST2);
   if (sv [3] != CONST2)
     abort ();

   sv = s1 (sv, CONST2);
   if (sv [1] != CONST2)
     abort ();

   sv = s21 (sv, CONST3);
   if (sv [1] != CONST3)
     abort ();

   sv = s30 (sv, CONST1);
   if (sv [2] != CONST1)
     abort ();

   sv = ms3 (&sv, CONST0);
   if (sv [3] != CONST0)
     abort ();

   sv = ms1 (&sv, CONST0);
   if (sv [1] != CONST0)
     abort ();

   sv = ms21 (&sv, CONST1);
   if (sv [1] != CONST1)
     abort ();

   sv = ms30 (&sv, CONST0);
   if (sv [2] != CONST0)
     abort ();

   sv = ci (sv, 5, CONST3);
   if (sv [1] != CONST3)
     abort ();

   sv = ci (sv, 2, CONST0);
   if (sv [2] != CONST0)
     abort ();

   sv = ci (sv, 15, CONST1);
   if (sv [3] != CONST1)
     abort ();

   sv = ci (sv, 28, CONST3);
   if (sv [0] != CONST3)
     abort ();

   sv = mci (&sv, 5, CONST0);
   if (sv [1] != CONST0)
     abort ();

   sv = mci (&sv, 12, CONST2);
   if (sv [0] != CONST2)
     abort ();

   sv = mci (&sv, 25, CONST3);
   if (sv [1] != CONST3)
     abort ();

   sv = mci (&sv, 16, CONST1);
   if (sv [0] != CONST1)
     abort ();

   return 0;
 }
	/* { dg-do run } */
	/* { dg-require-effective-target vmx_hw } */
	/* { dg-options "-maltivec -O3" } */

	/* This test should run the same on any target that supports altivec/vmx
	instructions. Unsigned Intentionally not specifying cpu in order to test
	all code generation paths. */

	#include <altivec.h>

	extern void abort (void);

	#define CONST0 (0)
	#define CONST1 (1)
	#define CONST2 (2)
	#define CONST3 (3)

	/* Test that indices > length of vector are applied modulo the vector
	length. */

	/* Test for vector residing in register. */
	vector unsigned int s3 (vector unsigned int v, unsigned int x)
	{
	return vec_insert (x, v, 3);
	}

	vector unsigned int s1 (vector unsigned int v, unsigned int x)
	{
	return vec_insert (x, v, 1);
	}

	vector unsigned int s21 (vector unsigned int v, unsigned int x)
	{
	return vec_insert (x, v, 21);
	}

	vector unsigned int s30 (vector unsigned int v, unsigned int x)
	{
	return vec_insert (x, v, 30);
	}

	/* Test for vector residing in memory. */
	vector unsigned int ms3 (vector unsigned int *vp, unsigned int x)
	{
	return vec_insert (x, *vp, 3);
	}

	vector unsigned int ms1(vector unsigned int *vp, unsigned int x)
	{
	return vec_insert (x, *vp, 1);
	}

	vector unsigned int ms21(vector unsigned int *vp, unsigned int x)
	{
	return vec_insert (x, *vp, 21);
	}

	vector unsigned int ms30(vector unsigned int *vp, unsigned int x)
	{
	return vec_insert (x, *vp, 30);
	}

	/* Test the same with variable indices. */

	/* Test for variable selector and vector residing in register. */
	__attribute__((noinline))
	vector unsigned int ci (vector unsigned int v, int i, unsigned int x)
	{
	return vec_insert (x, v, i);
	}

	/* Test for variable selector and vector residing in memory. */
	__attribute__((noinline))
	vector unsigned int mci(vector unsigned int *vp, int i, unsigned int x)
	{
	return vec_insert (x, *vp, i);
	}


	int main (int argc, unsigned char *argv[]) {
	vector unsigned int sv = { CONST0, CONST1, CONST2, CONST3 };

	sv = s3 (sv, CONST2);
	if (sv [3] != CONST2)
	abort ();

	sv = s1 (sv, CONST2);
	if (sv [1] != CONST2)
	abort ();

	sv = s21 (sv, CONST3);
	if (sv [1] != CONST3)
	abort ();

	sv = s30 (sv, CONST1);
	if (sv [2] != CONST1)
	abort ();

	sv = ms3 (&sv, CONST0);
	if (sv [3] != CONST0)
	abort ();

	sv = ms1 (&sv, CONST0);
	if (sv [1] != CONST0)
	abort ();

	sv = ms21 (&sv, CONST1);
	if (sv [1] != CONST1)
	abort ();

	sv = ms30 (&sv, CONST0);
	if (sv [2] != CONST0)
	abort ();

	sv = ci (sv, 5, CONST3);
	if (sv [1] != CONST3)
	abort ();

	sv = ci (sv, 2, CONST0);
	if (sv [2] != CONST0)
	abort ();

	sv = ci (sv, 15, CONST1);
	if (sv [3] != CONST1)
	abort ();

	sv = ci (sv, 28, CONST3);
	if (sv [0] != CONST3)
	abort ();

	sv = mci (&sv, 5, CONST0);
	if (sv [1] != CONST0)
	abort ();

	sv = mci (&sv, 12, CONST2);
	if (sv [0] != CONST2)
	abort ();

	sv = mci (&sv, 25, CONST3);
	if (sv [1] != CONST3)
	abort ();

	sv = mci (&sv, 16, CONST1);
	if (sv [0] != CONST1)
	abort ();

	return 0;
	}