gcc/testsuite/gcc.target/aarch64/advsimd-intrinsics/vreinterpret_p128.c - gcc - Git at Google

 /* This file contains tests for the vreinterpret *p128 intrinsics.  */

 /* { dg-require-effective-target arm_crypto_ok { target { arm*-*-* } } } */
 /* { dg-add-options arm_crypto } */
 /* { dg-additional-options "-march=armv8-a+crypto" { target { aarch64*-*-* } } }*/

 #include <arm_neon.h>
 #include "arm-neon-ref.h"
 #include "compute-ref-data.h"

 /* Expected results: vreinterpretq_p128_*.  */
 VECT_VAR_DECL(vreint_expected_q_p128_s8,poly,64,2) [] = { 0xf7f6f5f4f3f2f1f0,
 							  0xfffefdfcfbfaf9f8 };
 VECT_VAR_DECL(vreint_expected_q_p128_s16,poly,64,2) [] = { 0xfff3fff2fff1fff0,
 							   0xfff7fff6fff5fff4 };
 VECT_VAR_DECL(vreint_expected_q_p128_s32,poly,64,2) [] = { 0xfffffff1fffffff0,
 							   0xfffffff3fffffff2 };
 VECT_VAR_DECL(vreint_expected_q_p128_s64,poly,64,2) [] = { 0xfffffffffffffff0,
 							   0xfffffffffffffff1 };
 VECT_VAR_DECL(vreint_expected_q_p128_u8,poly,64,2) [] = { 0xf7f6f5f4f3f2f1f0,
 							  0xfffefdfcfbfaf9f8 };
 VECT_VAR_DECL(vreint_expected_q_p128_u16,poly,64,2) [] = { 0xfff3fff2fff1fff0,
 							   0xfff7fff6fff5fff4 };
 VECT_VAR_DECL(vreint_expected_q_p128_u32,poly,64,2) [] = { 0xfffffff1fffffff0,
 							   0xfffffff3fffffff2 };
 VECT_VAR_DECL(vreint_expected_q_p128_u64,poly,64,2) [] = { 0xfffffffffffffff0,
 							   0xfffffffffffffff1 };
 VECT_VAR_DECL(vreint_expected_q_p128_p8,poly,64,2) [] = { 0xf7f6f5f4f3f2f1f0,
 							  0xfffefdfcfbfaf9f8 };
 VECT_VAR_DECL(vreint_expected_q_p128_p16,poly,64,2) [] = { 0xfff3fff2fff1fff0,
 							   0xfff7fff6fff5fff4 };
 VECT_VAR_DECL(vreint_expected_q_p128_f32,poly,64,2) [] = { 0xc1700000c1800000,
 							   0xc1500000c1600000 };
 VECT_VAR_DECL(vreint_expected_q_p128_f16,poly,64,2) [] = { 0xca80cb00cb80cc00,
 							   0xc880c900c980ca00 };
 #ifdef __aarch64__
 VECT_VAR_DECL(vreint_expected_q_p128_f64,poly,64,2) [] = { 0xc030000000000000,
 							   0xc02e000000000000 };
 #endif

 /* Expected results: vreinterpretq_*_p128.  */
 VECT_VAR_DECL(vreint_expected_q_s8_p128,int,8,16) [] = { 0xf0, 0xff, 0xff, 0xff,
 							 0xff, 0xff, 0xff, 0xff,
 							 0xf1, 0xff, 0xff, 0xff,
 							 0xff, 0xff, 0xff, 0xff };
 VECT_VAR_DECL(vreint_expected_q_s16_p128,int,16,8) [] = { 0xfff0, 0xffff,
 							  0xffff, 0xffff,
 							  0xfff1, 0xffff,
 							  0xffff, 0xffff };
 VECT_VAR_DECL(vreint_expected_q_s32_p128,int,32,4) [] = { 0xfffffff0, 0xffffffff,
 							  0xfffffff1, 0xffffffff };
 VECT_VAR_DECL(vreint_expected_q_s64_p128,int,64,2) [] = { 0xfffffffffffffff0,
 							  0xfffffffffffffff1 };
 VECT_VAR_DECL(vreint_expected_q_u8_p128,uint,8,16) [] = { 0xf0, 0xff, 0xff, 0xff,
 							  0xff, 0xff, 0xff, 0xff,
 							  0xf1, 0xff, 0xff, 0xff,
 							  0xff, 0xff, 0xff, 0xff };
 VECT_VAR_DECL(vreint_expected_q_u16_p128,uint,16,8) [] = { 0xfff0, 0xffff,
 							   0xffff, 0xffff,
 							   0xfff1, 0xffff,
 							   0xffff, 0xffff };
 VECT_VAR_DECL(vreint_expected_q_u32_p128,uint,32,4) [] = { 0xfffffff0, 0xffffffff,
 							   0xfffffff1, 0xffffffff };
 VECT_VAR_DECL(vreint_expected_q_u64_p128,uint,64,2) [] = { 0xfffffffffffffff0,
 							   0xfffffffffffffff1 };
 VECT_VAR_DECL(vreint_expected_q_p8_p128,poly,8,16) [] = { 0xf0, 0xff, 0xff, 0xff,
 							  0xff, 0xff, 0xff, 0xff,
 							  0xf1, 0xff, 0xff, 0xff,
 							  0xff, 0xff, 0xff, 0xff };
 VECT_VAR_DECL(vreint_expected_q_p16_p128,poly,16,8) [] = { 0xfff0, 0xffff,
 							   0xffff, 0xffff,
 							   0xfff1, 0xffff,
 							   0xffff, 0xffff };
 VECT_VAR_DECL(vreint_expected_q_p64_p128,uint,64,2) [] = { 0xfffffffffffffff0,
 							   0xfffffffffffffff1 };
 VECT_VAR_DECL(vreint_expected_q_f32_p128,hfloat,32,4) [] = { 0xfffffff0, 0xffffffff,
 							     0xfffffff1, 0xffffffff };
 VECT_VAR_DECL(vreint_expected_q_f16_p128,hfloat,16,8) [] = { 0xfff0, 0xffff,
 							     0xffff, 0xffff,
 							     0xfff1, 0xffff,
 							     0xffff, 0xffff };
 #ifdef __aarch64__
 VECT_VAR_DECL(vreint_expected_q_f64_p128,hfloat,64,2) [] = { 0xfffffffffffffff0,
 							     0xfffffffffffffff1 };
 #endif

 int main (void)
 {
   DECL_VARIABLE_128BITS_VARIANTS(vreint_vector);
   DECL_VARIABLE_128BITS_VARIANTS(vreint_vector_res);

   clean_results ();

   TEST_MACRO_128BITS_VARIANTS_2_5(VLOAD, vreint_vector, buffer);
   VLOAD(vreint_vector, buffer, q, poly, p, 64, 2);
 #if defined (__ARM_FP16_FORMAT_IEEE) || defined (__ARM_FP16_FORMAT_ALTERNATIVE)
   VLOAD(vreint_vector, buffer, q, float, f, 16, 8);
 #endif
   VLOAD(vreint_vector, buffer, q, float, f, 32, 4);

 #ifdef __aarch64__
   VLOAD(vreint_vector, buffer, q, float, f, 64, 2);
 #endif

   /* vreinterpretq_p128_* tests.  */
 #undef TEST_MSG
 #define TEST_MSG "VREINTERPRETQ_P128_*"

   /* Since there is no way to store a poly128_t value, convert to
      poly64x2_t before storing. This means that we are not able to
      test vreinterpretq_p128* alone, and that errors in
      vreinterpretq_p64_p128 could compensate for errors in
      vreinterpretq_p128*.  */
 #define TEST_VREINTERPRET128(Q, T1, T2, W, N, TS1, TS2, WS, NS, EXPECTED) \
   VECT_VAR(vreint_vector_res, poly, 64, 2) =  vreinterpretq_p64_p128(	\
     vreinterpret##Q##_##T2##W##_##TS2##WS(VECT_VAR(vreint_vector, TS1, WS, NS))); \
   vst1##Q##_##T2##64(VECT_VAR(result, poly, 64, 2),			\
                      VECT_VAR(vreint_vector_res, poly, 64, 2));		\
   CHECK_POLY(TEST_MSG, T1, 64, 2, PRIx##64, EXPECTED, "");

   TEST_VREINTERPRET128(q, poly, p, 128, 1, int, s, 8, 16, vreint_expected_q_p128_s8);
   TEST_VREINTERPRET128(q, poly, p, 128, 1, int, s, 16, 8, vreint_expected_q_p128_s16);
   TEST_VREINTERPRET128(q, poly, p, 128, 1, int, s, 32, 4, vreint_expected_q_p128_s32);
   TEST_VREINTERPRET128(q, poly, p, 128, 1, int, s, 64, 2, vreint_expected_q_p128_s64);
   TEST_VREINTERPRET128(q, poly, p, 128, 1, uint, u, 8, 16, vreint_expected_q_p128_u8);
   TEST_VREINTERPRET128(q, poly, p, 128, 1, uint, u, 16, 8, vreint_expected_q_p128_u16);
   TEST_VREINTERPRET128(q, poly, p, 128, 1, uint, u, 32, 4, vreint_expected_q_p128_u32);
   TEST_VREINTERPRET128(q, poly, p, 128, 1, uint, u, 64, 2, vreint_expected_q_p128_u64);
   TEST_VREINTERPRET128(q, poly, p, 128, 1, poly, p, 8, 16, vreint_expected_q_p128_p8);
   TEST_VREINTERPRET128(q, poly, p, 128, 1, poly, p, 16, 8, vreint_expected_q_p128_p16);
 #if defined (__ARM_FP16_FORMAT_IEEE) || defined (__ARM_FP16_FORMAT_ALTERNATIVE)
   TEST_VREINTERPRET128(q, poly, p, 128, 1, float, f, 16, 8, vreint_expected_q_p128_f16);
 #endif
   TEST_VREINTERPRET128(q, poly, p, 128, 1, float, f, 32, 4, vreint_expected_q_p128_f32);

 #ifdef __aarch64__
   TEST_VREINTERPRET128(q, poly, p, 128, 1, float, f, 64, 2, vreint_expected_q_p128_f64);
 #endif

   /* vreinterpretq_*_p128 tests.  */
 #undef TEST_MSG
 #define TEST_MSG "VREINTERPRETQ_*_P128"

   /* Since there is no way to load a poly128_t value, load a
      poly64x2_t and convert it to poly128_t. This means that we are
      not able to test vreinterpretq_*_p128 alone, and that errors in
      vreinterpretq_p128_p64 could compensate for errors in
      vreinterpretq_*_p128*.  */
 #define TEST_VREINTERPRET_FROM_P128(Q, T1, T2, W, N, TS1, TS2, WS, NS, EXPECTED) \
   VECT_VAR(vreint_vector_res, T1, W, N) =				\
     vreinterpret##Q##_##T2##W##_##TS2##WS(				\
   vreinterpretq_p128_p64(VECT_VAR(vreint_vector, TS1, 64, 2)));		\
   vst1##Q##_##T2##W(VECT_VAR(result, T1, W, N),				\
 		    VECT_VAR(vreint_vector_res, T1, W, N));		\
   CHECK(TEST_MSG, T1, W, N, PRIx##W, EXPECTED, "");

 #define TEST_VREINTERPRET_FP_FROM_P128(Q, T1, T2, W, N, TS1, TS2, WS, NS, EXPECTED) \
   VECT_VAR(vreint_vector_res, T1, W, N) =				\
     vreinterpret##Q##_##T2##W##_##TS2##WS(				\
   vreinterpretq_p128_p64(VECT_VAR(vreint_vector, TS1, 64, 2)));		\
   vst1##Q##_##T2##W(VECT_VAR(result, T1, W, N),				\
 		    VECT_VAR(vreint_vector_res, T1, W, N));		\
   CHECK_FP(TEST_MSG, T1, W, N, PRIx##W, EXPECTED, "");

   TEST_VREINTERPRET_FROM_P128(q, int, s, 8, 16, poly, p, 128, 1, vreint_expected_q_s8_p128);
   TEST_VREINTERPRET_FROM_P128(q, int, s, 16, 8, poly, p, 128, 1, vreint_expected_q_s16_p128);
   TEST_VREINTERPRET_FROM_P128(q, int, s, 32, 4, poly, p, 128, 1, vreint_expected_q_s32_p128);
   TEST_VREINTERPRET_FROM_P128(q, int, s, 64, 2, poly, p, 128, 1, vreint_expected_q_s64_p128);
   TEST_VREINTERPRET_FROM_P128(q, uint, u, 8, 16, poly, p, 128, 1, vreint_expected_q_u8_p128);
   TEST_VREINTERPRET_FROM_P128(q, uint, u, 16, 8, poly, p, 128, 1, vreint_expected_q_u16_p128);
   TEST_VREINTERPRET_FROM_P128(q, uint, u, 32, 4, poly, p, 128, 1, vreint_expected_q_u32_p128);
   TEST_VREINTERPRET_FROM_P128(q, uint, u, 64, 2, poly, p, 128, 1, vreint_expected_q_u64_p128);
   TEST_VREINTERPRET_FROM_P128(q, poly, p, 8, 16, poly, p, 128, 1, vreint_expected_q_p8_p128);
   TEST_VREINTERPRET_FROM_P128(q, poly, p, 16, 8, poly, p, 128, 1, vreint_expected_q_p16_p128);
 #if defined (__ARM_FP16_FORMAT_IEEE) || defined (__ARM_FP16_FORMAT_ALTERNATIVE)
   TEST_VREINTERPRET_FP_FROM_P128(q, float, f, 16, 8, poly, p, 128, 1, vreint_expected_q_f16_p128);
 #endif
   TEST_VREINTERPRET_FP_FROM_P128(q, float, f, 32, 4, poly, p, 128, 1, vreint_expected_q_f32_p128);

 #ifdef __aarch64__
   TEST_VREINTERPRET_FP_FROM_P128(q, float, f, 64, 2, poly, p, 128, 1, vreint_expected_q_f64_p128);
 #endif
   return 0;
 }
	/* This file contains tests for the vreinterpret p128 intrinsics. /

	/* { dg-require-effective-target arm_crypto_ok { target { arm--* } } } */
	/* { dg-add-options arm_crypto } */
	/* { dg-additional-options "-march=armv8-a+crypto" { target { aarch64--* } } }*/

	#include <arm_neon.h>
	#include "arm-neon-ref.h"
	#include "compute-ref-data.h"

	/* Expected results: vreinterpretq_p128_. /
	VECT_VAR_DECL(vreint_expected_q_p128_s8,poly,64,2) [] = { 0xf7f6f5f4f3f2f1f0,
	0xfffefdfcfbfaf9f8 };
	VECT_VAR_DECL(vreint_expected_q_p128_s16,poly,64,2) [] = { 0xfff3fff2fff1fff0,
	0xfff7fff6fff5fff4 };
	VECT_VAR_DECL(vreint_expected_q_p128_s32,poly,64,2) [] = { 0xfffffff1fffffff0,
	0xfffffff3fffffff2 };
	VECT_VAR_DECL(vreint_expected_q_p128_s64,poly,64,2) [] = { 0xfffffffffffffff0,
	0xfffffffffffffff1 };
	VECT_VAR_DECL(vreint_expected_q_p128_u8,poly,64,2) [] = { 0xf7f6f5f4f3f2f1f0,
	0xfffefdfcfbfaf9f8 };
	VECT_VAR_DECL(vreint_expected_q_p128_u16,poly,64,2) [] = { 0xfff3fff2fff1fff0,
	0xfff7fff6fff5fff4 };
	VECT_VAR_DECL(vreint_expected_q_p128_u32,poly,64,2) [] = { 0xfffffff1fffffff0,
	0xfffffff3fffffff2 };
	VECT_VAR_DECL(vreint_expected_q_p128_u64,poly,64,2) [] = { 0xfffffffffffffff0,
	0xfffffffffffffff1 };
	VECT_VAR_DECL(vreint_expected_q_p128_p8,poly,64,2) [] = { 0xf7f6f5f4f3f2f1f0,
	0xfffefdfcfbfaf9f8 };
	VECT_VAR_DECL(vreint_expected_q_p128_p16,poly,64,2) [] = { 0xfff3fff2fff1fff0,
	0xfff7fff6fff5fff4 };
	VECT_VAR_DECL(vreint_expected_q_p128_f32,poly,64,2) [] = { 0xc1700000c1800000,
	0xc1500000c1600000 };
	VECT_VAR_DECL(vreint_expected_q_p128_f16,poly,64,2) [] = { 0xca80cb00cb80cc00,
	0xc880c900c980ca00 };
	#ifdef __aarch64__
	VECT_VAR_DECL(vreint_expected_q_p128_f64,poly,64,2) [] = { 0xc030000000000000,
	0xc02e000000000000 };
	#endif

	/* Expected results: vreinterpretq__p128. /
	VECT_VAR_DECL(vreint_expected_q_s8_p128,int,8,16) [] = { 0xf0, 0xff, 0xff, 0xff,
	0xff, 0xff, 0xff, 0xff,
	0xf1, 0xff, 0xff, 0xff,
	0xff, 0xff, 0xff, 0xff };
	VECT_VAR_DECL(vreint_expected_q_s16_p128,int,16,8) [] = { 0xfff0, 0xffff,
	0xffff, 0xffff,
	0xfff1, 0xffff,
	0xffff, 0xffff };
	VECT_VAR_DECL(vreint_expected_q_s32_p128,int,32,4) [] = { 0xfffffff0, 0xffffffff,
	0xfffffff1, 0xffffffff };
	VECT_VAR_DECL(vreint_expected_q_s64_p128,int,64,2) [] = { 0xfffffffffffffff0,
	0xfffffffffffffff1 };
	VECT_VAR_DECL(vreint_expected_q_u8_p128,uint,8,16) [] = { 0xf0, 0xff, 0xff, 0xff,
	0xff, 0xff, 0xff, 0xff,
	0xf1, 0xff, 0xff, 0xff,
	0xff, 0xff, 0xff, 0xff };
	VECT_VAR_DECL(vreint_expected_q_u16_p128,uint,16,8) [] = { 0xfff0, 0xffff,
	0xffff, 0xffff,
	0xfff1, 0xffff,
	0xffff, 0xffff };
	VECT_VAR_DECL(vreint_expected_q_u32_p128,uint,32,4) [] = { 0xfffffff0, 0xffffffff,
	0xfffffff1, 0xffffffff };
	VECT_VAR_DECL(vreint_expected_q_u64_p128,uint,64,2) [] = { 0xfffffffffffffff0,
	0xfffffffffffffff1 };
	VECT_VAR_DECL(vreint_expected_q_p8_p128,poly,8,16) [] = { 0xf0, 0xff, 0xff, 0xff,
	0xff, 0xff, 0xff, 0xff,
	0xf1, 0xff, 0xff, 0xff,
	0xff, 0xff, 0xff, 0xff };
	VECT_VAR_DECL(vreint_expected_q_p16_p128,poly,16,8) [] = { 0xfff0, 0xffff,
	0xffff, 0xffff,
	0xfff1, 0xffff,
	0xffff, 0xffff };
	VECT_VAR_DECL(vreint_expected_q_p64_p128,uint,64,2) [] = { 0xfffffffffffffff0,
	0xfffffffffffffff1 };
	VECT_VAR_DECL(vreint_expected_q_f32_p128,hfloat,32,4) [] = { 0xfffffff0, 0xffffffff,
	0xfffffff1, 0xffffffff };
	VECT_VAR_DECL(vreint_expected_q_f16_p128,hfloat,16,8) [] = { 0xfff0, 0xffff,
	0xffff, 0xffff,
	0xfff1, 0xffff,
	0xffff, 0xffff };
	#ifdef __aarch64__
	VECT_VAR_DECL(vreint_expected_q_f64_p128,hfloat,64,2) [] = { 0xfffffffffffffff0,
	0xfffffffffffffff1 };
	#endif

	int main (void)
	{
	DECL_VARIABLE_128BITS_VARIANTS(vreint_vector);
	DECL_VARIABLE_128BITS_VARIANTS(vreint_vector_res);

	clean_results ();

	TEST_MACRO_128BITS_VARIANTS_2_5(VLOAD, vreint_vector, buffer);
	VLOAD(vreint_vector, buffer, q, poly, p, 64, 2);
	#if defined (__ARM_FP16_FORMAT_IEEE) \|\| defined (__ARM_FP16_FORMAT_ALTERNATIVE)
	VLOAD(vreint_vector, buffer, q, float, f, 16, 8);
	#endif
	VLOAD(vreint_vector, buffer, q, float, f, 32, 4);

	#ifdef __aarch64__
	VLOAD(vreint_vector, buffer, q, float, f, 64, 2);
	#endif

	/* vreinterpretq_p128_* tests. */
	#undef TEST_MSG
	#define TEST_MSG "VREINTERPRETQ_P128_*"

	/* Since there is no way to store a poly128_t value, convert to
	poly64x2_t before storing. This means that we are not able to
	test vreinterpretq_p128* alone, and that errors in
	vreinterpretq_p64_p128 could compensate for errors in
	vreinterpretq_p128. /
	#define TEST_VREINTERPRET128(Q, T1, T2, W, N, TS1, TS2, WS, NS, EXPECTED) \
	VECT_VAR(vreint_vector_res, poly, 64, 2) = vreinterpretq_p64_p128( \
	vreinterpret##Q##_##T2##W##_##TS2##WS(VECT_VAR(vreint_vector, TS1, WS, NS))); \
	vst1##Q##_##T2##64(VECT_VAR(result, poly, 64, 2), \
	VECT_VAR(vreint_vector_res, poly, 64, 2)); \
	CHECK_POLY(TEST_MSG, T1, 64, 2, PRIx##64, EXPECTED, "");

	TEST_VREINTERPRET128(q, poly, p, 128, 1, int, s, 8, 16, vreint_expected_q_p128_s8);
	TEST_VREINTERPRET128(q, poly, p, 128, 1, int, s, 16, 8, vreint_expected_q_p128_s16);
	TEST_VREINTERPRET128(q, poly, p, 128, 1, int, s, 32, 4, vreint_expected_q_p128_s32);
	TEST_VREINTERPRET128(q, poly, p, 128, 1, int, s, 64, 2, vreint_expected_q_p128_s64);
	TEST_VREINTERPRET128(q, poly, p, 128, 1, uint, u, 8, 16, vreint_expected_q_p128_u8);
	TEST_VREINTERPRET128(q, poly, p, 128, 1, uint, u, 16, 8, vreint_expected_q_p128_u16);
	TEST_VREINTERPRET128(q, poly, p, 128, 1, uint, u, 32, 4, vreint_expected_q_p128_u32);
	TEST_VREINTERPRET128(q, poly, p, 128, 1, uint, u, 64, 2, vreint_expected_q_p128_u64);
	TEST_VREINTERPRET128(q, poly, p, 128, 1, poly, p, 8, 16, vreint_expected_q_p128_p8);
	TEST_VREINTERPRET128(q, poly, p, 128, 1, poly, p, 16, 8, vreint_expected_q_p128_p16);
	#if defined (__ARM_FP16_FORMAT_IEEE) \|\| defined (__ARM_FP16_FORMAT_ALTERNATIVE)
	TEST_VREINTERPRET128(q, poly, p, 128, 1, float, f, 16, 8, vreint_expected_q_p128_f16);
	#endif
	TEST_VREINTERPRET128(q, poly, p, 128, 1, float, f, 32, 4, vreint_expected_q_p128_f32);

	#ifdef __aarch64__
	TEST_VREINTERPRET128(q, poly, p, 128, 1, float, f, 64, 2, vreint_expected_q_p128_f64);
	#endif

	/* vreinterpretq__p128 tests. /
	#undef TEST_MSG
	#define TEST_MSG "VREINTERPRETQ_*_P128"

	/* Since there is no way to load a poly128_t value, load a
	poly64x2_t and convert it to poly128_t. This means that we are
	not able to test vreinterpretq_*_p128 alone, and that errors in
	vreinterpretq_p128_p64 could compensate for errors in
	vreinterpretq__p128. */
	#define TEST_VREINTERPRET_FROM_P128(Q, T1, T2, W, N, TS1, TS2, WS, NS, EXPECTED) \
	VECT_VAR(vreint_vector_res, T1, W, N) = \
	vreinterpret##Q##_##T2##W##_##TS2##WS( \
	vreinterpretq_p128_p64(VECT_VAR(vreint_vector, TS1, 64, 2))); \
	vst1##Q##_##T2##W(VECT_VAR(result, T1, W, N), \
	VECT_VAR(vreint_vector_res, T1, W, N)); \
	CHECK(TEST_MSG, T1, W, N, PRIx##W, EXPECTED, "");

	#define TEST_VREINTERPRET_FP_FROM_P128(Q, T1, T2, W, N, TS1, TS2, WS, NS, EXPECTED) \
	VECT_VAR(vreint_vector_res, T1, W, N) = \
	vreinterpret##Q##_##T2##W##_##TS2##WS( \
	vreinterpretq_p128_p64(VECT_VAR(vreint_vector, TS1, 64, 2))); \
	vst1##Q##_##T2##W(VECT_VAR(result, T1, W, N), \
	VECT_VAR(vreint_vector_res, T1, W, N)); \
	CHECK_FP(TEST_MSG, T1, W, N, PRIx##W, EXPECTED, "");

	TEST_VREINTERPRET_FROM_P128(q, int, s, 8, 16, poly, p, 128, 1, vreint_expected_q_s8_p128);
	TEST_VREINTERPRET_FROM_P128(q, int, s, 16, 8, poly, p, 128, 1, vreint_expected_q_s16_p128);
	TEST_VREINTERPRET_FROM_P128(q, int, s, 32, 4, poly, p, 128, 1, vreint_expected_q_s32_p128);
	TEST_VREINTERPRET_FROM_P128(q, int, s, 64, 2, poly, p, 128, 1, vreint_expected_q_s64_p128);
	TEST_VREINTERPRET_FROM_P128(q, uint, u, 8, 16, poly, p, 128, 1, vreint_expected_q_u8_p128);
	TEST_VREINTERPRET_FROM_P128(q, uint, u, 16, 8, poly, p, 128, 1, vreint_expected_q_u16_p128);
	TEST_VREINTERPRET_FROM_P128(q, uint, u, 32, 4, poly, p, 128, 1, vreint_expected_q_u32_p128);
	TEST_VREINTERPRET_FROM_P128(q, uint, u, 64, 2, poly, p, 128, 1, vreint_expected_q_u64_p128);
	TEST_VREINTERPRET_FROM_P128(q, poly, p, 8, 16, poly, p, 128, 1, vreint_expected_q_p8_p128);
	TEST_VREINTERPRET_FROM_P128(q, poly, p, 16, 8, poly, p, 128, 1, vreint_expected_q_p16_p128);
	#if defined (__ARM_FP16_FORMAT_IEEE) \|\| defined (__ARM_FP16_FORMAT_ALTERNATIVE)
	TEST_VREINTERPRET_FP_FROM_P128(q, float, f, 16, 8, poly, p, 128, 1, vreint_expected_q_f16_p128);
	#endif
	TEST_VREINTERPRET_FP_FROM_P128(q, float, f, 32, 4, poly, p, 128, 1, vreint_expected_q_f32_p128);

	#ifdef __aarch64__
	TEST_VREINTERPRET_FP_FROM_P128(q, float, f, 64, 2, poly, p, 128, 1, vreint_expected_q_f64_p128);
	#endif
	return 0;
	}