gcc/testsuite/gcc.target/i386/avx512fp16-vsqrtph-1b.c - gcc - Git at Google

 /* { dg-do run { target avx512fp16 } } */
 /* { dg-options "-O2 -mavx512fp16 -mavx512dq" } */


 #define AVX512FP16
 #include "avx512fp16-helper.h"

 #define N_ELEMS (AVX512F_LEN / 16)

 void NOINLINE
 EMULATE(sqrt_ph) (V512 * dest, V512 op1,
 		__mmask32 k, int zero_mask)
 {
   V512 v1, v2, v3, v4, v5, v6, v7, v8;
   int i;
   __mmask16 m1, m2;

   m1 = k & 0xffff;
   m2 = (k >> 16) & 0xffff;

   unpack_ph_2twops(op1, &v1, &v2);
   unpack_ph_2twops(*dest, &v7, &v8);

   for (i = 0; i < 16; i++) {
     if (((1 << i) & m1) == 0) {
       if (zero_mask) {
 	v5.f32[i] = 0;
       }
       else {
 	v5.u32[i] = v7.u32[i];
       }
     }
     else {
       v5.f32[i] = sqrtf(v1.f32[i]);
     }

     if (((1 << i) & m2) == 0) {
       if (zero_mask) {
 	v6.f32[i] = 0;
       }
       else {
 	v6.u32[i] = v8.u32[i];
       }
     }
     else {
       v6.f32[i] = sqrtf(v2.f32[i]);
     }

   }
   *dest = pack_twops_2ph(v5, v6);
 }

 void
 TEST (void)
 {
   V512 res;
   V512 exp;

   init_src();

   EMULATE(sqrt_ph) (&exp, src1, NET_MASK, 0);
   HF(res) = INTRINSIC (_sqrt_ph) (HF(src1));
   CHECK_RESULT (&res, &exp, N_ELEMS, _sqrt_ph);

   init_dest(&res, &exp);
   EMULATE(sqrt_ph) (&exp, src1, MASK_VALUE, 0);
   HF(res) = INTRINSIC (_mask_sqrt_ph) (HF(res), MASK_VALUE, HF(src1));
   CHECK_RESULT (&res, &exp, N_ELEMS, _mask_sqrt_ph);

   EMULATE(sqrt_ph) (&exp, src1, ZMASK_VALUE, 1);
   HF(res) = INTRINSIC (_maskz_sqrt_ph) (ZMASK_VALUE, HF(src1));
   CHECK_RESULT (&res, &exp, N_ELEMS, _maskz_sqrt_ph);

 #if AVX512F_LEN == 512
   EMULATE(sqrt_ph) (&exp, src1, NET_MASK, 0);
   HF(res) = INTRINSIC (_sqrt_round_ph) (HF(src1), 8);
   CHECK_RESULT (&res, &exp, N_ELEMS, _sqrt_round_ph);

   init_dest(&res, &exp);
   EMULATE(sqrt_ph) (&exp, src1, MASK_VALUE, 0);
   HF(res) = INTRINSIC (_mask_sqrt_round_ph) (HF(res), MASK_VALUE, HF(src1), 8);
   CHECK_RESULT (&res, &exp, N_ELEMS, _mask_sqrt_round_ph);

   EMULATE(sqrt_ph) (&exp, src1,  ZMASK_VALUE, 1);
   HF(res) = INTRINSIC (_maskz_sqrt_round_ph) (ZMASK_VALUE, HF(src1), 8);
   CHECK_RESULT (&res, &exp, N_ELEMS, _maskz_sqrt_round_ph);
 #endif

   if (n_errs != 0)
     abort ();
 }
	/* { dg-do run { target avx512fp16 } } */
	/* { dg-options "-O2 -mavx512fp16 -mavx512dq" } */


	#define AVX512FP16
	#include "avx512fp16-helper.h"

	#define N_ELEMS (AVX512F_LEN / 16)

	void NOINLINE
	EMULATE(sqrt_ph) (V512 * dest, V512 op1,
	__mmask32 k, int zero_mask)
	{
	V512 v1, v2, v3, v4, v5, v6, v7, v8;
	int i;
	__mmask16 m1, m2;

	m1 = k & 0xffff;
	m2 = (k >> 16) & 0xffff;

	unpack_ph_2twops(op1, &v1, &v2);
	unpack_ph_2twops(*dest, &v7, &v8);

	for (i = 0; i < 16; i++) {
	if (((1 << i) & m1) == 0) {
	if (zero_mask) {
	v5.f32[i] = 0;
	}
	else {
	v5.u32[i] = v7.u32[i];
	}
	}
	else {
	v5.f32[i] = sqrtf(v1.f32[i]);
	}

	if (((1 << i) & m2) == 0) {
	if (zero_mask) {
	v6.f32[i] = 0;
	}
	else {
	v6.u32[i] = v8.u32[i];
	}
	}
	else {
	v6.f32[i] = sqrtf(v2.f32[i]);
	}

	}
	*dest = pack_twops_2ph(v5, v6);
	}

	void
	TEST (void)
	{
	V512 res;
	V512 exp;

	init_src();

	EMULATE(sqrt_ph) (&exp, src1, NET_MASK, 0);
	HF(res) = INTRINSIC (_sqrt_ph) (HF(src1));
	CHECK_RESULT (&res, &exp, N_ELEMS, _sqrt_ph);

	init_dest(&res, &exp);
	EMULATE(sqrt_ph) (&exp, src1, MASK_VALUE, 0);
	HF(res) = INTRINSIC (_mask_sqrt_ph) (HF(res), MASK_VALUE, HF(src1));
	CHECK_RESULT (&res, &exp, N_ELEMS, _mask_sqrt_ph);

	EMULATE(sqrt_ph) (&exp, src1, ZMASK_VALUE, 1);
	HF(res) = INTRINSIC (_maskz_sqrt_ph) (ZMASK_VALUE, HF(src1));
	CHECK_RESULT (&res, &exp, N_ELEMS, _maskz_sqrt_ph);

	#if AVX512F_LEN == 512
	EMULATE(sqrt_ph) (&exp, src1, NET_MASK, 0);
	HF(res) = INTRINSIC (_sqrt_round_ph) (HF(src1), 8);
	CHECK_RESULT (&res, &exp, N_ELEMS, _sqrt_round_ph);

	init_dest(&res, &exp);
	EMULATE(sqrt_ph) (&exp, src1, MASK_VALUE, 0);
	HF(res) = INTRINSIC (_mask_sqrt_round_ph) (HF(res), MASK_VALUE, HF(src1), 8);
	CHECK_RESULT (&res, &exp, N_ELEMS, _mask_sqrt_round_ph);

	EMULATE(sqrt_ph) (&exp, src1, ZMASK_VALUE, 1);
	HF(res) = INTRINSIC (_maskz_sqrt_round_ph) (ZMASK_VALUE, HF(src1), 8);
	CHECK_RESULT (&res, &exp, N_ELEMS, _maskz_sqrt_round_ph);
	#endif

	if (n_errs != 0)
	abort ();
	}