ref_vuzp.c - platform/external/arm-neon-tests - Git at Google

 /*

 Copyright (c) 2009, 2010, 2011, 2013 STMicroelectronics
 Written by Christophe Lyon

 Permission is hereby granted, free of charge, to any person obtaining a copy
 of this software and associated documentation files (the "Software"), to deal
 in the Software without restriction, including without limitation the rights
 to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 copies of the Software, and to permit persons to whom the Software is
 furnished to do so, subject to the following conditions:

 The above copyright notice and this permission notice shall be included in
 all copies or substantial portions of the Software.

 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 THE SOFTWARE.

 */

 #if defined(__arm__) || defined(__aarch64__)
 #include <arm_neon.h>
 #else
 #include "stm-arm-neon.h"
 #endif

 #include "stm-arm-neon-ref.h"

 #ifndef INSN_NAME
 #define INSN_NAME vuzp
 #define TEST_MSG "VUZP/VUZPQ"
 #endif

 #define FNNAME1(NAME) void exec_ ## NAME (void)
 #define FNNAME(NAME) FNNAME1(NAME)

 FNNAME (INSN_NAME)
 {
   /* In this case, output variables are arrays of vectors */
 #define DECL_VUZP(T1, W, N)						\
   VECT_ARRAY_TYPE(T1, W, N, 2) VECT_ARRAY_VAR(result_vec, T1, W, N, 2);	\
   VECT_VAR_DECL(result_bis, T1, W, N)[2 * N]

   /* We need to use a temporary result buffer (result_bis), because
      the one used for other tests is not large enough. A subset of the
      result data is moved from result_bis to result, and it is this
      subset which is used to check the actual behaviour. The next
      macro enables to move another chunk of data from result_bis to
      result.  */
 #define TEST_VUZP(INSN, Q, T1, T2, W, N)				\
   VECT_ARRAY_VAR(result_vec, T1, W, N, 2) =				\
     INSN##Q##_##T2##W(VECT_VAR(vector1, T1, W, N),			\
 		      VECT_VAR(vector2, T1, W, N));			\
   vst2##Q##_##T2##W(VECT_VAR(result_bis, T1, W, N),			\
 		    VECT_ARRAY_VAR(result_vec, T1, W, N, 2));		\
   memcpy(VECT_VAR(result, T1, W, N), VECT_VAR(result_bis, T1, W, N),	\
 	 sizeof(VECT_VAR(result, T1, W, N)));

   /* Overwrite "result" with the contents of "result_bis"[X] */
 #define TEST_EXTRA_CHUNK(T1, W, N, X)					\
   memcpy(VECT_VAR(result, T1, W, N), &(VECT_VAR(result_bis, T1, W, N)[X*N]), \
 	 sizeof(VECT_VAR(result, T1, W, N)));

   /* With ARM RVCT, we need to declare variables before any executable
      statement */
   DECL_VARIABLE_ALL_VARIANTS(vector1);
   DECL_VARIABLE_ALL_VARIANTS(vector2);

   /* We don't need 64 bits variants */
 #define DECL_ALL_VUZP()				\
   DECL_VUZP(int, 8, 8);				\
   DECL_VUZP(int, 16, 4);			\
   DECL_VUZP(int, 32, 2);			\
   DECL_VUZP(uint, 8, 8);			\
   DECL_VUZP(uint, 16, 4);			\
   DECL_VUZP(uint, 32, 2);			\
   DECL_VUZP(poly, 8, 8);			\
   DECL_VUZP(poly, 16, 4);			\
   DECL_VUZP(float, 32, 2);			\
   DECL_VUZP(int, 8, 16);			\
   DECL_VUZP(int, 16, 8);			\
   DECL_VUZP(int, 32, 4);			\
   DECL_VUZP(uint, 8, 16);			\
   DECL_VUZP(uint, 16, 8);			\
   DECL_VUZP(uint, 32, 4);			\
   DECL_VUZP(poly, 8, 16);			\
   DECL_VUZP(poly, 16, 8);			\
   DECL_VUZP(float, 32, 4)

   DECL_ALL_VUZP();

   /* Initialize input "vector" from "buffer"  */
   TEST_MACRO_ALL_VARIANTS_2_5(VLOAD, vector1, buffer);
   VLOAD(vector1, buffer, , float, f, 32, 2);
   VLOAD(vector1, buffer, q, float, f, 32, 4);

   /* Choose arbitrary initialization values */
   VDUP(vector2, , int, s, 8, 8, 0x11);
   VDUP(vector2, , int, s, 16, 4, 0x22);
   VDUP(vector2, , int, s, 32, 2, 0x33);
   VDUP(vector2, , uint, u, 8, 8, 0x55);
   VDUP(vector2, , uint, u, 16, 4, 0x66);
   VDUP(vector2, , uint, u, 32, 2, 0x77);
   VDUP(vector2, , poly, p, 8, 8, 0x55);
   VDUP(vector2, , poly, p, 16, 4, 0x66);
   VDUP(vector2, , float, f, 32, 2, 33.6f);

   VDUP(vector2, q, int, s, 8, 16, 0x11);
   VDUP(vector2, q, int, s, 16, 8, 0x22);
   VDUP(vector2, q, int, s, 32, 4, 0x33);
   VDUP(vector2, q, uint, u, 8, 16, 0x55);
   VDUP(vector2, q, uint, u, 16, 8, 0x66);
   VDUP(vector2, q, uint, u, 32, 4, 0x77);
   VDUP(vector2, q, poly, p, 8, 16, 0x55);
   VDUP(vector2, q, poly, p, 16, 8, 0x66);
   VDUP(vector2, q, float, f, 32, 4, 33.8f);

 #define TEST_ALL_VUZP(INSN)			\
   TEST_VUZP(INSN, , int, s, 8, 8);		\
   TEST_VUZP(INSN, , int, s, 16, 4);		\
   TEST_VUZP(INSN, , int, s, 32, 2);		\
   TEST_VUZP(INSN, , uint, u, 8, 8);		\
   TEST_VUZP(INSN, , uint, u, 16, 4);		\
   TEST_VUZP(INSN, , uint, u, 32, 2);		\
   TEST_VUZP(INSN, , poly, p, 8, 8);		\
   TEST_VUZP(INSN, , poly, p, 16, 4);		\
   TEST_VUZP(INSN, , float, f, 32, 2);		\
   TEST_VUZP(INSN, q, int, s, 8, 16);		\
   TEST_VUZP(INSN, q, int, s, 16, 8);		\
   TEST_VUZP(INSN, q, int, s, 32, 4);		\
   TEST_VUZP(INSN, q, uint, u, 8, 16);		\
   TEST_VUZP(INSN, q, uint, u, 16, 8);		\
   TEST_VUZP(INSN, q, uint, u, 32, 4);		\
   TEST_VUZP(INSN, q, poly, p, 8, 16);		\
   TEST_VUZP(INSN, q, poly, p, 16, 8);		\
   TEST_VUZP(INSN, q, float, f, 32, 4)

 #define TEST_ALL_EXTRA_CHUNKS()			\
   TEST_EXTRA_CHUNK(int, 8, 8, 1);		\
   TEST_EXTRA_CHUNK(int, 16, 4, 1);		\
   TEST_EXTRA_CHUNK(int, 32, 2, 1);		\
   TEST_EXTRA_CHUNK(uint, 8, 8, 1);		\
   TEST_EXTRA_CHUNK(uint, 16, 4, 1);		\
   TEST_EXTRA_CHUNK(uint, 32, 2, 1);		\
   TEST_EXTRA_CHUNK(poly, 8, 8, 1);		\
   TEST_EXTRA_CHUNK(poly, 16, 4, 1);		\
   TEST_EXTRA_CHUNK(float, 32, 2, 1);		\
   TEST_EXTRA_CHUNK(int, 8, 16, 1);		\
   TEST_EXTRA_CHUNK(int, 16, 8, 1);		\
   TEST_EXTRA_CHUNK(int, 32, 4, 1);		\
   TEST_EXTRA_CHUNK(uint, 8, 16, 1);		\
   TEST_EXTRA_CHUNK(uint, 16, 8, 1);		\
   TEST_EXTRA_CHUNK(uint, 32, 4, 1);		\
   TEST_EXTRA_CHUNK(poly, 8, 16, 1);		\
   TEST_EXTRA_CHUNK(poly, 16, 8, 1);		\
   TEST_EXTRA_CHUNK(float, 32, 4, 1)

   /* Check vuzp/vuzpq */
   clean_results ();
   TEST_ALL_VUZP(INSN_NAME);

   dump_results_hex2 (TEST_MSG, " chunk 0");

   TEST_ALL_EXTRA_CHUNKS();
   dump_results_hex2 (TEST_MSG, " chunk 1");
 }
	/*

	Copyright (c) 2009, 2010, 2011, 2013 STMicroelectronics
	Written by Christophe Lyon

	Permission is hereby granted, free of charge, to any person obtaining a copy
	of this software and associated documentation files (the "Software"), to deal
	in the Software without restriction, including without limitation the rights
	to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
	copies of the Software, and to permit persons to whom the Software is
	furnished to do so, subject to the following conditions:

	The above copyright notice and this permission notice shall be included in
	all copies or substantial portions of the Software.

	THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
	IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
	FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
	AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
	LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
	OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
	THE SOFTWARE.

	*/

	#if defined(__arm__) \|\| defined(__aarch64__)
	#include <arm_neon.h>
	#else
	#include "stm-arm-neon.h"
	#endif

	#include "stm-arm-neon-ref.h"

	#ifndef INSN_NAME
	#define INSN_NAME vuzp
	#define TEST_MSG "VUZP/VUZPQ"
	#endif

	#define FNNAME1(NAME) void exec_ ## NAME (void)
	#define FNNAME(NAME) FNNAME1(NAME)

	FNNAME (INSN_NAME)
	{
	/* In this case, output variables are arrays of vectors */
	#define DECL_VUZP(T1, W, N) \
	VECT_ARRAY_TYPE(T1, W, N, 2) VECT_ARRAY_VAR(result_vec, T1, W, N, 2); \
	VECT_VAR_DECL(result_bis, T1, W, N)[2 * N]

	/* We need to use a temporary result buffer (result_bis), because
	the one used for other tests is not large enough. A subset of the
	result data is moved from result_bis to result, and it is this
	subset which is used to check the actual behaviour. The next
	macro enables to move another chunk of data from result_bis to
	result. */
	#define TEST_VUZP(INSN, Q, T1, T2, W, N) \
	VECT_ARRAY_VAR(result_vec, T1, W, N, 2) = \
	INSN##Q##_##T2##W(VECT_VAR(vector1, T1, W, N), \
	VECT_VAR(vector2, T1, W, N)); \
	vst2##Q##_##T2##W(VECT_VAR(result_bis, T1, W, N), \
	VECT_ARRAY_VAR(result_vec, T1, W, N, 2)); \
	memcpy(VECT_VAR(result, T1, W, N), VECT_VAR(result_bis, T1, W, N), \
	sizeof(VECT_VAR(result, T1, W, N)));

	/* Overwrite "result" with the contents of "result_bis"[X] */
	#define TEST_EXTRA_CHUNK(T1, W, N, X) \
	memcpy(VECT_VAR(result, T1, W, N), &(VECT_VAR(result_bis, T1, W, N)[X*N]), \
	sizeof(VECT_VAR(result, T1, W, N)));

	/* With ARM RVCT, we need to declare variables before any executable
	statement */
	DECL_VARIABLE_ALL_VARIANTS(vector1);
	DECL_VARIABLE_ALL_VARIANTS(vector2);

	/* We don't need 64 bits variants */
	#define DECL_ALL_VUZP() \
	DECL_VUZP(int, 8, 8); \
	DECL_VUZP(int, 16, 4); \
	DECL_VUZP(int, 32, 2); \
	DECL_VUZP(uint, 8, 8); \
	DECL_VUZP(uint, 16, 4); \
	DECL_VUZP(uint, 32, 2); \
	DECL_VUZP(poly, 8, 8); \
	DECL_VUZP(poly, 16, 4); \
	DECL_VUZP(float, 32, 2); \
	DECL_VUZP(int, 8, 16); \
	DECL_VUZP(int, 16, 8); \
	DECL_VUZP(int, 32, 4); \
	DECL_VUZP(uint, 8, 16); \
	DECL_VUZP(uint, 16, 8); \
	DECL_VUZP(uint, 32, 4); \
	DECL_VUZP(poly, 8, 16); \
	DECL_VUZP(poly, 16, 8); \
	DECL_VUZP(float, 32, 4)

	DECL_ALL_VUZP();

	/* Initialize input "vector" from "buffer" */
	TEST_MACRO_ALL_VARIANTS_2_5(VLOAD, vector1, buffer);
	VLOAD(vector1, buffer, , float, f, 32, 2);
	VLOAD(vector1, buffer, q, float, f, 32, 4);

	/* Choose arbitrary initialization values */
	VDUP(vector2, , int, s, 8, 8, 0x11);
	VDUP(vector2, , int, s, 16, 4, 0x22);
	VDUP(vector2, , int, s, 32, 2, 0x33);
	VDUP(vector2, , uint, u, 8, 8, 0x55);
	VDUP(vector2, , uint, u, 16, 4, 0x66);
	VDUP(vector2, , uint, u, 32, 2, 0x77);
	VDUP(vector2, , poly, p, 8, 8, 0x55);
	VDUP(vector2, , poly, p, 16, 4, 0x66);
	VDUP(vector2, , float, f, 32, 2, 33.6f);

	VDUP(vector2, q, int, s, 8, 16, 0x11);
	VDUP(vector2, q, int, s, 16, 8, 0x22);
	VDUP(vector2, q, int, s, 32, 4, 0x33);
	VDUP(vector2, q, uint, u, 8, 16, 0x55);
	VDUP(vector2, q, uint, u, 16, 8, 0x66);
	VDUP(vector2, q, uint, u, 32, 4, 0x77);
	VDUP(vector2, q, poly, p, 8, 16, 0x55);
	VDUP(vector2, q, poly, p, 16, 8, 0x66);
	VDUP(vector2, q, float, f, 32, 4, 33.8f);

	#define TEST_ALL_VUZP(INSN) \
	TEST_VUZP(INSN, , int, s, 8, 8); \
	TEST_VUZP(INSN, , int, s, 16, 4); \
	TEST_VUZP(INSN, , int, s, 32, 2); \
	TEST_VUZP(INSN, , uint, u, 8, 8); \
	TEST_VUZP(INSN, , uint, u, 16, 4); \
	TEST_VUZP(INSN, , uint, u, 32, 2); \
	TEST_VUZP(INSN, , poly, p, 8, 8); \
	TEST_VUZP(INSN, , poly, p, 16, 4); \
	TEST_VUZP(INSN, , float, f, 32, 2); \
	TEST_VUZP(INSN, q, int, s, 8, 16); \
	TEST_VUZP(INSN, q, int, s, 16, 8); \
	TEST_VUZP(INSN, q, int, s, 32, 4); \
	TEST_VUZP(INSN, q, uint, u, 8, 16); \
	TEST_VUZP(INSN, q, uint, u, 16, 8); \
	TEST_VUZP(INSN, q, uint, u, 32, 4); \
	TEST_VUZP(INSN, q, poly, p, 8, 16); \
	TEST_VUZP(INSN, q, poly, p, 16, 8); \
	TEST_VUZP(INSN, q, float, f, 32, 4)

	#define TEST_ALL_EXTRA_CHUNKS() \
	TEST_EXTRA_CHUNK(int, 8, 8, 1); \
	TEST_EXTRA_CHUNK(int, 16, 4, 1); \
	TEST_EXTRA_CHUNK(int, 32, 2, 1); \
	TEST_EXTRA_CHUNK(uint, 8, 8, 1); \
	TEST_EXTRA_CHUNK(uint, 16, 4, 1); \
	TEST_EXTRA_CHUNK(uint, 32, 2, 1); \
	TEST_EXTRA_CHUNK(poly, 8, 8, 1); \
	TEST_EXTRA_CHUNK(poly, 16, 4, 1); \
	TEST_EXTRA_CHUNK(float, 32, 2, 1); \
	TEST_EXTRA_CHUNK(int, 8, 16, 1); \
	TEST_EXTRA_CHUNK(int, 16, 8, 1); \
	TEST_EXTRA_CHUNK(int, 32, 4, 1); \
	TEST_EXTRA_CHUNK(uint, 8, 16, 1); \
	TEST_EXTRA_CHUNK(uint, 16, 8, 1); \
	TEST_EXTRA_CHUNK(uint, 32, 4, 1); \
	TEST_EXTRA_CHUNK(poly, 8, 16, 1); \
	TEST_EXTRA_CHUNK(poly, 16, 8, 1); \
	TEST_EXTRA_CHUNK(float, 32, 4, 1)

	/* Check vuzp/vuzpq */
	clean_results ();
	TEST_ALL_VUZP(INSN_NAME);

	dump_results_hex2 (TEST_MSG, " chunk 0");

	TEST_ALL_EXTRA_CHUNKS();
	dump_results_hex2 (TEST_MSG, " chunk 1");
	}