URL
https://opencores.org/ocsvn/openrisc/openrisc/trunk
Subversion Repositories openrisc
[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [testsuite/] [gcc.target/] [mips/] [loongson-simd.c] - Rev 704
Go to most recent revision | Compare with Previous | Blame | View Log
/* Test cases for ST Microelectronics Loongson-2E/2F SIMD intrinsics. Copyright (C) 2008 Free Software Foundation, Inc. Contributed by CodeSourcery. This file is part of GCC. GCC is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. GCC is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GCC; see the file COPYING3. If not see <http://www.gnu.org/licenses/>. */ /* { dg-do run } */ /* loongson.h does not handle or check for MIPS16ness. There doesn't seem any good reason for it to, given that the Loongson processors do not support MIPS16. */ /* { dg-options "isa=loongson -mhard-float -mno-mips16 -flax-vector-conversions" } */ #include "loongson.h" #include <stdio.h> #include <stdint.h> #include <assert.h> #include <limits.h> typedef union { int32x2_t v; int32_t a[2]; } int32x2_encap_t; typedef union { int16x4_t v; int16_t a[4]; } int16x4_encap_t; typedef union { int8x8_t v; int8_t a[8]; } int8x8_encap_t; typedef union { uint32x2_t v; uint32_t a[2]; } uint32x2_encap_t; typedef union { uint16x4_t v; uint16_t a[4]; } uint16x4_encap_t; typedef union { uint8x8_t v; uint8_t a[8]; } uint8x8_encap_t; #define UINT16x4_MAX USHRT_MAX #define UINT8x8_MAX UCHAR_MAX #define INT8x8_MAX SCHAR_MAX #define INT16x4_MAX SHRT_MAX #define INT32x2_MAX INT_MAX static void test_packsswh (void) { int32x2_encap_t s, t; int16x4_encap_t r; s.a[0] = INT16x4_MAX - 2; s.a[1] = INT16x4_MAX - 1; t.a[0] = INT16x4_MAX; t.a[1] = INT16x4_MAX + 1; r.v = packsswh (s.v, t.v); assert (r.a[0] == INT16x4_MAX - 2); assert (r.a[1] == INT16x4_MAX - 1); assert (r.a[2] == INT16x4_MAX); assert (r.a[3] == INT16x4_MAX); } static void test_packsshb (void) { int16x4_encap_t s, t; int8x8_encap_t r; s.a[0] = INT8x8_MAX - 6; s.a[1] = INT8x8_MAX - 5; s.a[2] = INT8x8_MAX - 4; s.a[3] = INT8x8_MAX - 3; t.a[0] = INT8x8_MAX - 2; t.a[1] = INT8x8_MAX - 1; t.a[2] = INT8x8_MAX; t.a[3] = INT8x8_MAX + 1; r.v = packsshb (s.v, t.v); assert (r.a[0] == INT8x8_MAX - 6); assert (r.a[1] == INT8x8_MAX - 5); assert (r.a[2] == INT8x8_MAX - 4); assert (r.a[3] == INT8x8_MAX - 3); assert (r.a[4] == INT8x8_MAX - 2); assert (r.a[5] == INT8x8_MAX - 1); assert (r.a[6] == INT8x8_MAX); assert (r.a[7] == INT8x8_MAX); } static void test_packushb (void) { uint16x4_encap_t s, t; uint8x8_encap_t r; s.a[0] = UINT8x8_MAX - 6; s.a[1] = UINT8x8_MAX - 5; s.a[2] = UINT8x8_MAX - 4; s.a[3] = UINT8x8_MAX - 3; t.a[0] = UINT8x8_MAX - 2; t.a[1] = UINT8x8_MAX - 1; t.a[2] = UINT8x8_MAX; t.a[3] = UINT8x8_MAX + 1; r.v = packushb (s.v, t.v); assert (r.a[0] == UINT8x8_MAX - 6); assert (r.a[1] == UINT8x8_MAX - 5); assert (r.a[2] == UINT8x8_MAX - 4); assert (r.a[3] == UINT8x8_MAX - 3); assert (r.a[4] == UINT8x8_MAX - 2); assert (r.a[5] == UINT8x8_MAX - 1); assert (r.a[6] == UINT8x8_MAX); assert (r.a[7] == UINT8x8_MAX); } static void test_paddw_u (void) { uint32x2_encap_t s, t; uint32x2_encap_t r; s.a[0] = 1; s.a[1] = 2; t.a[0] = 3; t.a[1] = 4; r.v = paddw_u (s.v, t.v); assert (r.a[0] == 4); assert (r.a[1] == 6); } static void test_paddw_s (void) { int32x2_encap_t s, t; int32x2_encap_t r; s.a[0] = -2; s.a[1] = -1; t.a[0] = 3; t.a[1] = 4; r.v = paddw_s (s.v, t.v); assert (r.a[0] == 1); assert (r.a[1] == 3); } static void test_paddh_u (void) { uint16x4_encap_t s, t; uint16x4_encap_t r; s.a[0] = 1; s.a[1] = 2; s.a[2] = 3; s.a[3] = 4; t.a[0] = 5; t.a[1] = 6; t.a[2] = 7; t.a[3] = 8; r.v = paddh_u (s.v, t.v); assert (r.a[0] == 6); assert (r.a[1] == 8); assert (r.a[2] == 10); assert (r.a[3] == 12); } static void test_paddh_s (void) { int16x4_encap_t s, t; int16x4_encap_t r; s.a[0] = -10; s.a[1] = -20; s.a[2] = -30; s.a[3] = -40; t.a[0] = 1; t.a[1] = 2; t.a[2] = 3; t.a[3] = 4; r.v = paddh_s (s.v, t.v); assert (r.a[0] == -9); assert (r.a[1] == -18); assert (r.a[2] == -27); assert (r.a[3] == -36); } static void test_paddb_u (void) { uint8x8_encap_t s, t; uint8x8_encap_t r; s.a[0] = 1; s.a[1] = 2; s.a[2] = 3; s.a[3] = 4; s.a[4] = 5; s.a[5] = 6; s.a[6] = 7; s.a[7] = 8; t.a[0] = 9; t.a[1] = 10; t.a[2] = 11; t.a[3] = 12; t.a[4] = 13; t.a[5] = 14; t.a[6] = 15; t.a[7] = 16; r.v = paddb_u (s.v, t.v); assert (r.a[0] == 10); assert (r.a[1] == 12); assert (r.a[2] == 14); assert (r.a[3] == 16); assert (r.a[4] == 18); assert (r.a[5] == 20); assert (r.a[6] == 22); assert (r.a[7] == 24); } static void test_paddb_s (void) { int8x8_encap_t s, t; int8x8_encap_t r; s.a[0] = -10; s.a[1] = -20; s.a[2] = -30; s.a[3] = -40; s.a[4] = -50; s.a[5] = -60; s.a[6] = -70; s.a[7] = -80; t.a[0] = 1; t.a[1] = 2; t.a[2] = 3; t.a[3] = 4; t.a[4] = 5; t.a[5] = 6; t.a[6] = 7; t.a[7] = 8; r.v = paddb_s (s.v, t.v); assert (r.a[0] == -9); assert (r.a[1] == -18); assert (r.a[2] == -27); assert (r.a[3] == -36); assert (r.a[4] == -45); assert (r.a[5] == -54); assert (r.a[6] == -63); assert (r.a[7] == -72); } static void test_paddd_u (void) { uint64_t d = 123456; uint64_t e = 789012; uint64_t r; r = paddd_u (d, e); assert (r == 912468); } static void test_paddd_s (void) { int64_t d = 123456; int64_t e = -789012; int64_t r; r = paddd_s (d, e); assert (r == -665556); } static void test_paddsh (void) { int16x4_encap_t s, t; int16x4_encap_t r; s.a[0] = -1; s.a[1] = 0; s.a[2] = 1; s.a[3] = 2; t.a[0] = INT16x4_MAX; t.a[1] = INT16x4_MAX; t.a[2] = INT16x4_MAX; t.a[3] = INT16x4_MAX; r.v = paddsh (s.v, t.v); assert (r.a[0] == INT16x4_MAX - 1); assert (r.a[1] == INT16x4_MAX); assert (r.a[2] == INT16x4_MAX); assert (r.a[3] == INT16x4_MAX); } static void test_paddsb (void) { int8x8_encap_t s, t; int8x8_encap_t r; s.a[0] = -6; s.a[1] = -5; s.a[2] = -4; s.a[3] = -3; s.a[4] = -2; s.a[5] = -1; s.a[6] = 0; s.a[7] = 1; t.a[0] = INT8x8_MAX; t.a[1] = INT8x8_MAX; t.a[2] = INT8x8_MAX; t.a[3] = INT8x8_MAX; t.a[4] = INT8x8_MAX; t.a[5] = INT8x8_MAX; t.a[6] = INT8x8_MAX; t.a[7] = INT8x8_MAX; r.v = paddsb (s.v, t.v); assert (r.a[0] == INT8x8_MAX - 6); assert (r.a[1] == INT8x8_MAX - 5); assert (r.a[2] == INT8x8_MAX - 4); assert (r.a[3] == INT8x8_MAX - 3); assert (r.a[4] == INT8x8_MAX - 2); assert (r.a[5] == INT8x8_MAX - 1); assert (r.a[6] == INT8x8_MAX); assert (r.a[7] == INT8x8_MAX); } static void test_paddush (void) { uint16x4_encap_t s, t; uint16x4_encap_t r; s.a[0] = 0; s.a[1] = 1; s.a[2] = 0; s.a[3] = 1; t.a[0] = UINT16x4_MAX; t.a[1] = UINT16x4_MAX; t.a[2] = UINT16x4_MAX; t.a[3] = UINT16x4_MAX; r.v = paddush (s.v, t.v); assert (r.a[0] == UINT16x4_MAX); assert (r.a[1] == UINT16x4_MAX); assert (r.a[2] == UINT16x4_MAX); assert (r.a[3] == UINT16x4_MAX); } static void test_paddusb (void) { uint8x8_encap_t s, t; uint8x8_encap_t r; s.a[0] = 0; s.a[1] = 1; s.a[2] = 0; s.a[3] = 1; s.a[4] = 0; s.a[5] = 1; s.a[6] = 0; s.a[7] = 1; t.a[0] = UINT8x8_MAX; t.a[1] = UINT8x8_MAX; t.a[2] = UINT8x8_MAX; t.a[3] = UINT8x8_MAX; t.a[4] = UINT8x8_MAX; t.a[5] = UINT8x8_MAX; t.a[6] = UINT8x8_MAX; t.a[7] = UINT8x8_MAX; r.v = paddusb (s.v, t.v); assert (r.a[0] == UINT8x8_MAX); assert (r.a[1] == UINT8x8_MAX); assert (r.a[2] == UINT8x8_MAX); assert (r.a[3] == UINT8x8_MAX); assert (r.a[4] == UINT8x8_MAX); assert (r.a[5] == UINT8x8_MAX); assert (r.a[6] == UINT8x8_MAX); assert (r.a[7] == UINT8x8_MAX); } static void test_pandn_ud (void) { uint64_t d1 = 0x0000ffff0000ffffull; uint64_t d2 = 0x0000ffff0000ffffull; uint64_t r; r = pandn_ud (d1, d2); assert (r == 0); } static void test_pandn_sd (void) { int64_t d1 = (int64_t) 0x0000000000000000ull; int64_t d2 = (int64_t) 0xfffffffffffffffeull; int64_t r; r = pandn_sd (d1, d2); assert (r == -2); } static void test_pandn_uw (void) { uint32x2_encap_t s, t; uint32x2_encap_t r; s.a[0] = 0xffffffff; s.a[1] = 0x00000000; t.a[0] = 0x00000000; t.a[1] = 0xffffffff; r.v = pandn_uw (s.v, t.v); assert (r.a[0] == 0x00000000); assert (r.a[1] == 0xffffffff); } static void test_pandn_sw (void) { int32x2_encap_t s, t; int32x2_encap_t r; s.a[0] = 0xffffffff; s.a[1] = 0x00000000; t.a[0] = 0xffffffff; t.a[1] = 0xfffffffe; r.v = pandn_sw (s.v, t.v); assert (r.a[0] == 0); assert (r.a[1] == -2); } static void test_pandn_uh (void) { uint16x4_encap_t s, t; uint16x4_encap_t r; s.a[0] = 0xffff; s.a[1] = 0x0000; s.a[2] = 0xffff; s.a[3] = 0x0000; t.a[0] = 0x0000; t.a[1] = 0xffff; t.a[2] = 0x0000; t.a[3] = 0xffff; r.v = pandn_uh (s.v, t.v); assert (r.a[0] == 0x0000); assert (r.a[1] == 0xffff); assert (r.a[2] == 0x0000); assert (r.a[3] == 0xffff); } static void test_pandn_sh (void) { int16x4_encap_t s, t; int16x4_encap_t r; s.a[0] = 0xffff; s.a[1] = 0x0000; s.a[2] = 0xffff; s.a[3] = 0x0000; t.a[0] = 0xffff; t.a[1] = 0xfffe; t.a[2] = 0xffff; t.a[3] = 0xfffe; r.v = pandn_sh (s.v, t.v); assert (r.a[0] == 0); assert (r.a[1] == -2); assert (r.a[2] == 0); assert (r.a[3] == -2); } static void test_pandn_ub (void) { uint8x8_encap_t s, t; uint8x8_encap_t r; s.a[0] = 0xff; s.a[1] = 0x00; s.a[2] = 0xff; s.a[3] = 0x00; s.a[4] = 0xff; s.a[5] = 0x00; s.a[6] = 0xff; s.a[7] = 0x00; t.a[0] = 0x00; t.a[1] = 0xff; t.a[2] = 0x00; t.a[3] = 0xff; t.a[4] = 0x00; t.a[5] = 0xff; t.a[6] = 0x00; t.a[7] = 0xff; r.v = pandn_ub (s.v, t.v); assert (r.a[0] == 0x00); assert (r.a[1] == 0xff); assert (r.a[2] == 0x00); assert (r.a[3] == 0xff); assert (r.a[4] == 0x00); assert (r.a[5] == 0xff); assert (r.a[6] == 0x00); assert (r.a[7] == 0xff); } static void test_pandn_sb (void) { int8x8_encap_t s, t; int8x8_encap_t r; s.a[0] = 0xff; s.a[1] = 0x00; s.a[2] = 0xff; s.a[3] = 0x00; s.a[4] = 0xff; s.a[5] = 0x00; s.a[6] = 0xff; s.a[7] = 0x00; t.a[0] = 0xff; t.a[1] = 0xfe; t.a[2] = 0xff; t.a[3] = 0xfe; t.a[4] = 0xff; t.a[5] = 0xfe; t.a[6] = 0xff; t.a[7] = 0xfe; r.v = pandn_sb (s.v, t.v); assert (r.a[0] == 0); assert (r.a[1] == -2); assert (r.a[2] == 0); assert (r.a[3] == -2); assert (r.a[4] == 0); assert (r.a[5] == -2); assert (r.a[6] == 0); assert (r.a[7] == -2); } static void test_pavgh (void) { uint16x4_encap_t s, t; uint16x4_encap_t r; s.a[0] = 1; s.a[1] = 2; s.a[2] = 3; s.a[3] = 4; t.a[0] = 5; t.a[1] = 6; t.a[2] = 7; t.a[3] = 8; r.v = pavgh (s.v, t.v); assert (r.a[0] == 3); assert (r.a[1] == 4); assert (r.a[2] == 5); assert (r.a[3] == 6); } static void test_pavgb (void) { uint8x8_encap_t s, t; uint8x8_encap_t r; s.a[0] = 1; s.a[1] = 2; s.a[2] = 3; s.a[3] = 4; s.a[4] = 1; s.a[5] = 2; s.a[6] = 3; s.a[7] = 4; t.a[0] = 5; t.a[1] = 6; t.a[2] = 7; t.a[3] = 8; t.a[4] = 5; t.a[5] = 6; t.a[6] = 7; t.a[7] = 8; r.v = pavgb (s.v, t.v); assert (r.a[0] == 3); assert (r.a[1] == 4); assert (r.a[2] == 5); assert (r.a[3] == 6); assert (r.a[4] == 3); assert (r.a[5] == 4); assert (r.a[6] == 5); assert (r.a[7] == 6); } static void test_pcmpeqw_u (void) { uint32x2_encap_t s, t; uint32x2_encap_t r; s.a[0] = 42; s.a[1] = 43; t.a[0] = 43; t.a[1] = 43; r.v = pcmpeqw_u (s.v, t.v); assert (r.a[0] == 0x00000000); assert (r.a[1] == 0xffffffff); } static void test_pcmpeqh_u (void) { uint16x4_encap_t s, t; uint16x4_encap_t r; s.a[0] = 42; s.a[1] = 43; s.a[2] = 42; s.a[3] = 43; t.a[0] = 43; t.a[1] = 43; t.a[2] = 43; t.a[3] = 43; r.v = pcmpeqh_u (s.v, t.v); assert (r.a[0] == 0x0000); assert (r.a[1] == 0xffff); assert (r.a[2] == 0x0000); assert (r.a[3] == 0xffff); } static void test_pcmpeqb_u (void) { uint8x8_encap_t s, t; uint8x8_encap_t r; s.a[0] = 42; s.a[1] = 43; s.a[2] = 42; s.a[3] = 43; s.a[4] = 42; s.a[5] = 43; s.a[6] = 42; s.a[7] = 43; t.a[0] = 43; t.a[1] = 43; t.a[2] = 43; t.a[3] = 43; t.a[4] = 43; t.a[5] = 43; t.a[6] = 43; t.a[7] = 43; r.v = pcmpeqb_u (s.v, t.v); assert (r.a[0] == 0x00); assert (r.a[1] == 0xff); assert (r.a[2] == 0x00); assert (r.a[3] == 0xff); assert (r.a[4] == 0x00); assert (r.a[5] == 0xff); assert (r.a[6] == 0x00); assert (r.a[7] == 0xff); } static void test_pcmpeqw_s (void) { int32x2_encap_t s, t; int32x2_encap_t r; s.a[0] = -42; s.a[1] = -42; t.a[0] = 42; t.a[1] = -42; r.v = pcmpeqw_s (s.v, t.v); assert (r.a[0] == 0); assert (r.a[1] == -1); } static void test_pcmpeqh_s (void) { int16x4_encap_t s, t; int16x4_encap_t r; s.a[0] = -42; s.a[1] = -42; s.a[2] = -42; s.a[3] = -42; t.a[0] = 42; t.a[1] = -42; t.a[2] = 42; t.a[3] = -42; r.v = pcmpeqh_s (s.v, t.v); assert (r.a[0] == 0); assert (r.a[1] == -1); assert (r.a[2] == 0); assert (r.a[3] == -1); } static void test_pcmpeqb_s (void) { int8x8_encap_t s, t; int8x8_encap_t r; s.a[0] = -42; s.a[1] = -42; s.a[2] = -42; s.a[3] = -42; s.a[4] = -42; s.a[5] = -42; s.a[6] = -42; s.a[7] = -42; t.a[0] = 42; t.a[1] = -42; t.a[2] = 42; t.a[3] = -42; t.a[4] = 42; t.a[5] = -42; t.a[6] = 42; t.a[7] = -42; r.v = pcmpeqb_s (s.v, t.v); assert (r.a[0] == 0); assert (r.a[1] == -1); assert (r.a[2] == 0); assert (r.a[3] == -1); assert (r.a[4] == 0); assert (r.a[5] == -1); assert (r.a[6] == 0); assert (r.a[7] == -1); } static void test_pcmpgtw_u (void) { uint32x2_encap_t s, t; uint32x2_encap_t r; s.a[0] = 42; s.a[1] = 43; t.a[0] = 43; t.a[1] = 42; r.v = pcmpgtw_u (s.v, t.v); assert (r.a[0] == 0x00000000); assert (r.a[1] == 0xffffffff); } static void test_pcmpgth_u (void) { uint16x4_encap_t s, t; uint16x4_encap_t r; s.a[0] = 40; s.a[1] = 41; s.a[2] = 42; s.a[3] = 43; t.a[0] = 40; t.a[1] = 41; t.a[2] = 43; t.a[3] = 42; r.v = pcmpgth_u (s.v, t.v); assert (r.a[0] == 0x0000); assert (r.a[1] == 0x0000); assert (r.a[2] == 0x0000); assert (r.a[3] == 0xffff); } static void test_pcmpgtb_u (void) { uint8x8_encap_t s, t; uint8x8_encap_t r; s.a[0] = 40; s.a[1] = 41; s.a[2] = 42; s.a[3] = 43; s.a[4] = 44; s.a[5] = 45; s.a[6] = 46; s.a[7] = 47; t.a[0] = 48; t.a[1] = 47; t.a[2] = 46; t.a[3] = 45; t.a[4] = 44; t.a[5] = 43; t.a[6] = 42; t.a[7] = 41; r.v = pcmpgtb_u (s.v, t.v); assert (r.a[0] == 0x00); assert (r.a[1] == 0x00); assert (r.a[2] == 0x00); assert (r.a[3] == 0x00); assert (r.a[4] == 0x00); assert (r.a[5] == 0xff); assert (r.a[6] == 0xff); assert (r.a[7] == 0xff); } static void test_pcmpgtw_s (void) { int32x2_encap_t s, t; int32x2_encap_t r; s.a[0] = 42; s.a[1] = -42; t.a[0] = -42; t.a[1] = -42; r.v = pcmpgtw_s (s.v, t.v); assert (r.a[0] == -1); assert (r.a[1] == 0); } static void test_pcmpgth_s (void) { int16x4_encap_t s, t; int16x4_encap_t r; s.a[0] = -42; s.a[1] = -42; s.a[2] = -42; s.a[3] = -42; t.a[0] = 42; t.a[1] = 43; t.a[2] = 44; t.a[3] = -43; r.v = pcmpgth_s (s.v, t.v); assert (r.a[0] == 0); assert (r.a[1] == 0); assert (r.a[2] == 0); assert (r.a[3] == -1); } static void test_pcmpgtb_s (void) { int8x8_encap_t s, t; int8x8_encap_t r; s.a[0] = -42; s.a[1] = -42; s.a[2] = -42; s.a[3] = -42; s.a[4] = 42; s.a[5] = 42; s.a[6] = 42; s.a[7] = 42; t.a[0] = -45; t.a[1] = -44; t.a[2] = -43; t.a[3] = -42; t.a[4] = 42; t.a[5] = 43; t.a[6] = 41; t.a[7] = 40; r.v = pcmpgtb_s (s.v, t.v); assert (r.a[0] == -1); assert (r.a[1] == -1); assert (r.a[2] == -1); assert (r.a[3] == 0); assert (r.a[4] == 0); assert (r.a[5] == 0); assert (r.a[6] == -1); assert (r.a[7] == -1); } static void test_pextrh_u (void) { uint16x4_encap_t s; uint16x4_encap_t r; s.a[0] = 40; s.a[1] = 41; s.a[2] = 42; s.a[3] = 43; r.v = pextrh_u (s.v, 1); assert (r.a[0] == 41); assert (r.a[1] == 0); assert (r.a[2] == 0); assert (r.a[3] == 0); } static void test_pextrh_s (void) { int16x4_encap_t s; int16x4_encap_t r; s.a[0] = -40; s.a[1] = -41; s.a[2] = -42; s.a[3] = -43; r.v = pextrh_s (s.v, 2); assert (r.a[0] == -42); assert (r.a[1] == 0); assert (r.a[2] == 0); assert (r.a[3] == 0); } static void test_pinsrh_0123_u (void) { uint16x4_encap_t s, t; uint16x4_encap_t r; s.a[0] = 42; s.a[1] = 0; s.a[2] = 0; s.a[3] = 0; t.a[0] = 0; t.a[1] = 0; t.a[2] = 0; t.a[3] = 0; r.v = pinsrh_0_u (t.v, s.v); r.v = pinsrh_1_u (r.v, s.v); r.v = pinsrh_2_u (r.v, s.v); r.v = pinsrh_3_u (r.v, s.v); assert (r.a[0] == 42); assert (r.a[1] == 42); assert (r.a[2] == 42); assert (r.a[3] == 42); } static void test_pinsrh_0123_s (void) { int16x4_encap_t s, t; int16x4_encap_t r; s.a[0] = -42; s.a[1] = 0; s.a[2] = 0; s.a[3] = 0; t.a[0] = 0; t.a[1] = 0; t.a[2] = 0; t.a[3] = 0; r.v = pinsrh_0_s (t.v, s.v); r.v = pinsrh_1_s (r.v, s.v); r.v = pinsrh_2_s (r.v, s.v); r.v = pinsrh_3_s (r.v, s.v); assert (r.a[0] == -42); assert (r.a[1] == -42); assert (r.a[2] == -42); assert (r.a[3] == -42); } static void test_pmaddhw (void) { int16x4_encap_t s, t; int32x2_encap_t r; s.a[0] = -5; s.a[1] = -4; s.a[2] = -3; s.a[3] = -2; t.a[0] = 10; t.a[1] = 11; t.a[2] = 12; t.a[3] = 13; r.v = pmaddhw (s.v, t.v); assert (r.a[0] == (-5*10 + -4*11)); assert (r.a[1] == (-3*12 + -2*13)); } static void test_pmaxsh (void) { int16x4_encap_t s, t; int16x4_encap_t r; s.a[0] = -20; s.a[1] = 40; s.a[2] = -10; s.a[3] = 50; t.a[0] = 20; t.a[1] = -40; t.a[2] = 10; t.a[3] = -50; r.v = pmaxsh (s.v, t.v); assert (r.a[0] == 20); assert (r.a[1] == 40); assert (r.a[2] == 10); assert (r.a[3] == 50); } static void test_pmaxub (void) { uint8x8_encap_t s, t; uint8x8_encap_t r; s.a[0] = 10; s.a[1] = 20; s.a[2] = 30; s.a[3] = 40; s.a[4] = 50; s.a[5] = 60; s.a[6] = 70; s.a[7] = 80; t.a[0] = 80; t.a[1] = 70; t.a[2] = 60; t.a[3] = 50; t.a[4] = 40; t.a[5] = 30; t.a[6] = 20; t.a[7] = 10; r.v = pmaxub (s.v, t.v); assert (r.a[0] == 80); assert (r.a[1] == 70); assert (r.a[2] == 60); assert (r.a[3] == 50); assert (r.a[4] == 50); assert (r.a[5] == 60); assert (r.a[6] == 70); assert (r.a[7] == 80); } static void test_pminsh (void) { int16x4_encap_t s, t; int16x4_encap_t r; s.a[0] = -20; s.a[1] = 40; s.a[2] = -10; s.a[3] = 50; t.a[0] = 20; t.a[1] = -40; t.a[2] = 10; t.a[3] = -50; r.v = pminsh (s.v, t.v); assert (r.a[0] == -20); assert (r.a[1] == -40); assert (r.a[2] == -10); assert (r.a[3] == -50); } static void test_pminub (void) { uint8x8_encap_t s, t; uint8x8_encap_t r; s.a[0] = 10; s.a[1] = 20; s.a[2] = 30; s.a[3] = 40; s.a[4] = 50; s.a[5] = 60; s.a[6] = 70; s.a[7] = 80; t.a[0] = 80; t.a[1] = 70; t.a[2] = 60; t.a[3] = 50; t.a[4] = 40; t.a[5] = 30; t.a[6] = 20; t.a[7] = 10; r.v = pminub (s.v, t.v); assert (r.a[0] == 10); assert (r.a[1] == 20); assert (r.a[2] == 30); assert (r.a[3] == 40); assert (r.a[4] == 40); assert (r.a[5] == 30); assert (r.a[6] == 20); assert (r.a[7] == 10); } static void test_pmovmskb_u (void) { uint8x8_encap_t s; uint8x8_encap_t r; s.a[0] = 0xf0; s.a[1] = 0x40; s.a[2] = 0xf0; s.a[3] = 0x40; s.a[4] = 0xf0; s.a[5] = 0x40; s.a[6] = 0xf0; s.a[7] = 0x40; r.v = pmovmskb_u (s.v); assert (r.a[0] == 0x55); assert (r.a[1] == 0); assert (r.a[2] == 0); assert (r.a[3] == 0); assert (r.a[4] == 0); assert (r.a[5] == 0); assert (r.a[6] == 0); assert (r.a[7] == 0); } static void test_pmovmskb_s (void) { int8x8_encap_t s; int8x8_encap_t r; s.a[0] = -1; s.a[1] = 1; s.a[2] = -1; s.a[3] = 1; s.a[4] = -1; s.a[5] = 1; s.a[6] = -1; s.a[7] = 1; r.v = pmovmskb_s (s.v); assert (r.a[0] == 0x55); assert (r.a[1] == 0); assert (r.a[2] == 0); assert (r.a[3] == 0); assert (r.a[4] == 0); assert (r.a[5] == 0); assert (r.a[6] == 0); assert (r.a[7] == 0); } static void test_pmulhuh (void) { uint16x4_encap_t s, t; uint16x4_encap_t r; s.a[0] = 0xff00; s.a[1] = 0xff00; s.a[2] = 0xff00; s.a[3] = 0xff00; t.a[0] = 16; t.a[1] = 16; t.a[2] = 16; t.a[3] = 16; r.v = pmulhuh (s.v, t.v); assert (r.a[0] == 0x000f); assert (r.a[1] == 0x000f); assert (r.a[2] == 0x000f); assert (r.a[3] == 0x000f); } static void test_pmulhh (void) { int16x4_encap_t s, t; int16x4_encap_t r; s.a[0] = 0x0ff0; s.a[1] = 0x0ff0; s.a[2] = 0x0ff0; s.a[3] = 0x0ff0; t.a[0] = -16*16; t.a[1] = -16*16; t.a[2] = -16*16; t.a[3] = -16*16; r.v = pmulhh (s.v, t.v); assert (r.a[0] == -16); assert (r.a[1] == -16); assert (r.a[2] == -16); assert (r.a[3] == -16); } static void test_pmullh (void) { int16x4_encap_t s, t; int16x4_encap_t r; s.a[0] = 0x0ff0; s.a[1] = 0x0ff0; s.a[2] = 0x0ff0; s.a[3] = 0x0ff0; t.a[0] = -16*16; t.a[1] = -16*16; t.a[2] = -16*16; t.a[3] = -16*16; r.v = pmullh (s.v, t.v); assert (r.a[0] == 4096); assert (r.a[1] == 4096); assert (r.a[2] == 4096); assert (r.a[3] == 4096); } static void test_pmuluw (void) { uint32x2_encap_t s, t; uint64_t r; s.a[0] = 0xdeadbeef; s.a[1] = 0; t.a[0] = 0x0f00baaa; t.a[1] = 0; r = pmuluw (s.v, t.v); assert (r == 0xd0cd08e1d1a70b6ull); } static void test_pasubub (void) { uint8x8_encap_t s, t; uint8x8_encap_t r; s.a[0] = 10; s.a[1] = 20; s.a[2] = 30; s.a[3] = 40; s.a[4] = 50; s.a[5] = 60; s.a[6] = 70; s.a[7] = 80; t.a[0] = 80; t.a[1] = 70; t.a[2] = 60; t.a[3] = 50; t.a[4] = 40; t.a[5] = 30; t.a[6] = 20; t.a[7] = 10; r.v = pasubub (s.v, t.v); assert (r.a[0] == 70); assert (r.a[1] == 50); assert (r.a[2] == 30); assert (r.a[3] == 10); assert (r.a[4] == 10); assert (r.a[5] == 30); assert (r.a[6] == 50); assert (r.a[7] == 70); } static void test_biadd (void) { uint8x8_encap_t s; uint16x4_encap_t r; s.a[0] = 10; s.a[1] = 20; s.a[2] = 30; s.a[3] = 40; s.a[4] = 50; s.a[5] = 60; s.a[6] = 70; s.a[7] = 80; r.v = biadd (s.v); assert (r.a[0] == 360); assert (r.a[1] == 0); assert (r.a[2] == 0); assert (r.a[3] == 0); } static void test_psadbh (void) { uint8x8_encap_t s, t; uint16x4_encap_t r; s.a[0] = 10; s.a[1] = 20; s.a[2] = 30; s.a[3] = 40; s.a[4] = 50; s.a[5] = 60; s.a[6] = 70; s.a[7] = 80; t.a[0] = 80; t.a[1] = 70; t.a[2] = 60; t.a[3] = 50; t.a[4] = 40; t.a[5] = 30; t.a[6] = 20; t.a[7] = 10; r.v = psadbh (s.v, t.v); assert (r.a[0] == 0x0140); assert (r.a[1] == 0); assert (r.a[2] == 0); assert (r.a[3] == 0); } static void test_pshufh_u (void) { uint16x4_encap_t s; uint16x4_encap_t r; s.a[0] = 1; s.a[1] = 2; s.a[2] = 3; s.a[3] = 4; r.a[0] = 0; r.a[1] = 0; r.a[2] = 0; r.a[3] = 0; r.v = pshufh_u (r.v, s.v, 0xe5); assert (r.a[0] == 2); assert (r.a[1] == 2); assert (r.a[2] == 3); assert (r.a[3] == 4); } static void test_pshufh_s (void) { int16x4_encap_t s; int16x4_encap_t r; s.a[0] = -1; s.a[1] = 2; s.a[2] = -3; s.a[3] = 4; r.a[0] = 0; r.a[1] = 0; r.a[2] = 0; r.a[3] = 0; r.v = pshufh_s (r.v, s.v, 0xe5); assert (r.a[0] == 2); assert (r.a[1] == 2); assert (r.a[2] == -3); assert (r.a[3] == 4); } static void test_psllh_u (void) { uint16x4_encap_t s; uint16x4_encap_t r; s.a[0] = 0xffff; s.a[1] = 0xffff; s.a[2] = 0xffff; s.a[3] = 0xffff; r.v = psllh_u (s.v, 1); assert (r.a[0] == 0xfffe); assert (r.a[1] == 0xfffe); assert (r.a[2] == 0xfffe); assert (r.a[3] == 0xfffe); } static void test_psllw_u (void) { uint32x2_encap_t s; uint32x2_encap_t r; s.a[0] = 0xffffffff; s.a[1] = 0xffffffff; r.v = psllw_u (s.v, 2); assert (r.a[0] == 0xfffffffc); assert (r.a[1] == 0xfffffffc); } static void test_psllh_s (void) { int16x4_encap_t s; int16x4_encap_t r; s.a[0] = -1; s.a[1] = -1; s.a[2] = -1; s.a[3] = -1; r.v = psllh_s (s.v, 1); assert (r.a[0] == -2); assert (r.a[1] == -2); assert (r.a[2] == -2); assert (r.a[3] == -2); } static void test_psllw_s (void) { int32x2_encap_t s; int32x2_encap_t r; s.a[0] = -1; s.a[1] = -1; r.v = psllw_s (s.v, 2); assert (r.a[0] == -4); assert (r.a[1] == -4); } static void test_psrah_u (void) { uint16x4_encap_t s; uint16x4_encap_t r; s.a[0] = 0xffef; s.a[1] = 0xffef; s.a[2] = 0xffef; s.a[3] = 0xffef; r.v = psrah_u (s.v, 1); assert (r.a[0] == 0xfff7); assert (r.a[1] == 0xfff7); assert (r.a[2] == 0xfff7); assert (r.a[3] == 0xfff7); } static void test_psraw_u (void) { uint32x2_encap_t s; uint32x2_encap_t r; s.a[0] = 0xffffffef; s.a[1] = 0xffffffef; r.v = psraw_u (s.v, 1); assert (r.a[0] == 0xfffffff7); assert (r.a[1] == 0xfffffff7); } static void test_psrah_s (void) { int16x4_encap_t s; int16x4_encap_t r; s.a[0] = -2; s.a[1] = -2; s.a[2] = -2; s.a[3] = -2; r.v = psrah_s (s.v, 1); assert (r.a[0] == -1); assert (r.a[1] == -1); assert (r.a[2] == -1); assert (r.a[3] == -1); } static void test_psraw_s (void) { int32x2_encap_t s; int32x2_encap_t r; s.a[0] = -2; s.a[1] = -2; r.v = psraw_s (s.v, 1); assert (r.a[0] == -1); assert (r.a[1] == -1); } static void test_psrlh_u (void) { uint16x4_encap_t s; uint16x4_encap_t r; s.a[0] = 0xffef; s.a[1] = 0xffef; s.a[2] = 0xffef; s.a[3] = 0xffef; r.v = psrlh_u (s.v, 1); assert (r.a[0] == 0x7ff7); assert (r.a[1] == 0x7ff7); assert (r.a[2] == 0x7ff7); assert (r.a[3] == 0x7ff7); } static void test_psrlw_u (void) { uint32x2_encap_t s; uint32x2_encap_t r; s.a[0] = 0xffffffef; s.a[1] = 0xffffffef; r.v = psrlw_u (s.v, 1); assert (r.a[0] == 0x7ffffff7); assert (r.a[1] == 0x7ffffff7); } static void test_psrlh_s (void) { int16x4_encap_t s; int16x4_encap_t r; s.a[0] = -1; s.a[1] = -1; s.a[2] = -1; s.a[3] = -1; r.v = psrlh_s (s.v, 1); assert (r.a[0] == INT16x4_MAX); assert (r.a[1] == INT16x4_MAX); assert (r.a[2] == INT16x4_MAX); assert (r.a[3] == INT16x4_MAX); } static void test_psrlw_s (void) { int32x2_encap_t s; int32x2_encap_t r; s.a[0] = -1; s.a[1] = -1; r.v = psrlw_s (s.v, 1); assert (r.a[0] == INT32x2_MAX); assert (r.a[1] == INT32x2_MAX); } static void test_psubw_u (void) { uint32x2_encap_t s, t; uint32x2_encap_t r; s.a[0] = 3; s.a[1] = 4; t.a[0] = 2; t.a[1] = 1; r.v = psubw_u (s.v, t.v); assert (r.a[0] == 1); assert (r.a[1] == 3); } static void test_psubw_s (void) { int32x2_encap_t s, t; int32x2_encap_t r; s.a[0] = -2; s.a[1] = -1; t.a[0] = 3; t.a[1] = -4; r.v = psubw_s (s.v, t.v); assert (r.a[0] == -5); assert (r.a[1] == 3); } static void test_psubh_u (void) { uint16x4_encap_t s, t; uint16x4_encap_t r; s.a[0] = 5; s.a[1] = 6; s.a[2] = 7; s.a[3] = 8; t.a[0] = 1; t.a[1] = 2; t.a[2] = 3; t.a[3] = 4; r.v = psubh_u (s.v, t.v); assert (r.a[0] == 4); assert (r.a[1] == 4); assert (r.a[2] == 4); assert (r.a[3] == 4); } static void test_psubh_s (void) { int16x4_encap_t s, t; int16x4_encap_t r; s.a[0] = -10; s.a[1] = -20; s.a[2] = -30; s.a[3] = -40; t.a[0] = 1; t.a[1] = 2; t.a[2] = 3; t.a[3] = 4; r.v = psubh_s (s.v, t.v); assert (r.a[0] == -11); assert (r.a[1] == -22); assert (r.a[2] == -33); assert (r.a[3] == -44); } static void test_psubb_u (void) { uint8x8_encap_t s, t; uint8x8_encap_t r; s.a[0] = 10; s.a[1] = 11; s.a[2] = 12; s.a[3] = 13; s.a[4] = 14; s.a[5] = 15; s.a[6] = 16; s.a[7] = 17; t.a[0] = 1; t.a[1] = 2; t.a[2] = 3; t.a[3] = 4; t.a[4] = 5; t.a[5] = 6; t.a[6] = 7; t.a[7] = 8; r.v = psubb_u (s.v, t.v); assert (r.a[0] == 9); assert (r.a[1] == 9); assert (r.a[2] == 9); assert (r.a[3] == 9); assert (r.a[4] == 9); assert (r.a[5] == 9); assert (r.a[6] == 9); assert (r.a[7] == 9); } static void test_psubb_s (void) { int8x8_encap_t s, t; int8x8_encap_t r; s.a[0] = -10; s.a[1] = -20; s.a[2] = -30; s.a[3] = -40; s.a[4] = -50; s.a[5] = -60; s.a[6] = -70; s.a[7] = -80; t.a[0] = 1; t.a[1] = 2; t.a[2] = 3; t.a[3] = 4; t.a[4] = 5; t.a[5] = 6; t.a[6] = 7; t.a[7] = 8; r.v = psubb_s (s.v, t.v); assert (r.a[0] == -11); assert (r.a[1] == -22); assert (r.a[2] == -33); assert (r.a[3] == -44); assert (r.a[4] == -55); assert (r.a[5] == -66); assert (r.a[6] == -77); assert (r.a[7] == -88); } static void test_psubd_u (void) { uint64_t d = 789012; uint64_t e = 123456; uint64_t r; r = psubd_u (d, e); assert (r == 665556); } static void test_psubd_s (void) { int64_t d = 123456; int64_t e = -789012; int64_t r; r = psubd_s (d, e); assert (r == 912468); } static void test_psubsh (void) { int16x4_encap_t s, t; int16x4_encap_t r; s.a[0] = -1; s.a[1] = 0; s.a[2] = 1; s.a[3] = 2; t.a[0] = -INT16x4_MAX; t.a[1] = -INT16x4_MAX; t.a[2] = -INT16x4_MAX; t.a[3] = -INT16x4_MAX; r.v = psubsh (s.v, t.v); assert (r.a[0] == INT16x4_MAX - 1); assert (r.a[1] == INT16x4_MAX); assert (r.a[2] == INT16x4_MAX); assert (r.a[3] == INT16x4_MAX); } static void test_psubsb (void) { int8x8_encap_t s, t; int8x8_encap_t r; s.a[0] = -6; s.a[1] = -5; s.a[2] = -4; s.a[3] = -3; s.a[4] = -2; s.a[5] = -1; s.a[6] = 0; s.a[7] = 1; t.a[0] = -INT8x8_MAX; t.a[1] = -INT8x8_MAX; t.a[2] = -INT8x8_MAX; t.a[3] = -INT8x8_MAX; t.a[4] = -INT8x8_MAX; t.a[5] = -INT8x8_MAX; t.a[6] = -INT8x8_MAX; t.a[7] = -INT8x8_MAX; r.v = psubsb (s.v, t.v); assert (r.a[0] == INT8x8_MAX - 6); assert (r.a[1] == INT8x8_MAX - 5); assert (r.a[2] == INT8x8_MAX - 4); assert (r.a[3] == INT8x8_MAX - 3); assert (r.a[4] == INT8x8_MAX - 2); assert (r.a[5] == INT8x8_MAX - 1); assert (r.a[6] == INT8x8_MAX); assert (r.a[7] == INT8x8_MAX); } static void test_psubush (void) { uint16x4_encap_t s, t; uint16x4_encap_t r; s.a[0] = 0; s.a[1] = 1; s.a[2] = 2; s.a[3] = 3; t.a[0] = 1; t.a[1] = 1; t.a[2] = 3; t.a[3] = 3; r.v = psubush (s.v, t.v); assert (r.a[0] == 0); assert (r.a[1] == 0); assert (r.a[2] == 0); assert (r.a[3] == 0); } static void test_psubusb (void) { uint8x8_encap_t s, t; uint8x8_encap_t r; s.a[0] = 0; s.a[1] = 1; s.a[2] = 2; s.a[3] = 3; s.a[4] = 4; s.a[5] = 5; s.a[6] = 6; s.a[7] = 7; t.a[0] = 1; t.a[1] = 1; t.a[2] = 3; t.a[3] = 3; t.a[4] = 5; t.a[5] = 5; t.a[6] = 7; t.a[7] = 7; r.v = psubusb (s.v, t.v); assert (r.a[0] == 0); assert (r.a[1] == 0); assert (r.a[2] == 0); assert (r.a[3] == 0); assert (r.a[4] == 0); assert (r.a[5] == 0); assert (r.a[6] == 0); assert (r.a[7] == 0); } static void test_punpckhbh_s (void) { int8x8_encap_t s, t; int8x8_encap_t r; s.a[0] = -1; s.a[1] = -3; s.a[2] = -5; s.a[3] = -7; s.a[4] = -9; s.a[5] = -11; s.a[6] = -13; s.a[7] = -15; t.a[0] = 2; t.a[1] = 4; t.a[2] = 6; t.a[3] = 8; t.a[4] = 10; t.a[5] = 12; t.a[6] = 14; t.a[7] = 16; r.v = punpckhbh_s (s.v, t.v); assert (r.a[0] == -9); assert (r.a[1] == 10); assert (r.a[2] == -11); assert (r.a[3] == 12); assert (r.a[4] == -13); assert (r.a[5] == 14); assert (r.a[6] == -15); assert (r.a[7] == 16); } static void test_punpckhbh_u (void) { uint8x8_encap_t s, t; uint8x8_encap_t r; s.a[0] = 1; s.a[1] = 3; s.a[2] = 5; s.a[3] = 7; s.a[4] = 9; s.a[5] = 11; s.a[6] = 13; s.a[7] = 15; t.a[0] = 2; t.a[1] = 4; t.a[2] = 6; t.a[3] = 8; t.a[4] = 10; t.a[5] = 12; t.a[6] = 14; t.a[7] = 16; r.v = punpckhbh_u (s.v, t.v); assert (r.a[0] == 9); assert (r.a[1] == 10); assert (r.a[2] == 11); assert (r.a[3] == 12); assert (r.a[4] == 13); assert (r.a[5] == 14); assert (r.a[6] == 15); assert (r.a[7] == 16); } static void test_punpckhhw_s (void) { int16x4_encap_t s, t; int16x4_encap_t r; s.a[0] = -1; s.a[1] = 3; s.a[2] = -5; s.a[3] = 7; t.a[0] = -2; t.a[1] = 4; t.a[2] = -6; t.a[3] = 8; r.v = punpckhhw_s (s.v, t.v); assert (r.a[0] == -5); assert (r.a[1] == -6); assert (r.a[2] == 7); assert (r.a[3] == 8); } static void test_punpckhhw_u (void) { uint16x4_encap_t s, t; uint16x4_encap_t r; s.a[0] = 1; s.a[1] = 3; s.a[2] = 5; s.a[3] = 7; t.a[0] = 2; t.a[1] = 4; t.a[2] = 6; t.a[3] = 8; r.v = punpckhhw_u (s.v, t.v); assert (r.a[0] == 5); assert (r.a[1] == 6); assert (r.a[2] == 7); assert (r.a[3] == 8); } static void test_punpckhwd_s (void) { int32x2_encap_t s, t; int32x2_encap_t r; s.a[0] = 1; s.a[1] = 3; t.a[0] = 2; t.a[1] = -4; r.v = punpckhwd_s (s.v, t.v); assert (r.a[0] == 3); assert (r.a[1] == -4); } static void test_punpckhwd_u (void) { uint32x2_encap_t s, t; uint32x2_encap_t r; s.a[0] = 1; s.a[1] = 3; t.a[0] = 2; t.a[1] = 4; r.v = punpckhwd_u (s.v, t.v); assert (r.a[0] == 3); assert (r.a[1] == 4); } static void test_punpcklbh_s (void) { int8x8_encap_t s, t; int8x8_encap_t r; s.a[0] = -1; s.a[1] = -3; s.a[2] = -5; s.a[3] = -7; s.a[4] = -9; s.a[5] = -11; s.a[6] = -13; s.a[7] = -15; t.a[0] = 2; t.a[1] = 4; t.a[2] = 6; t.a[3] = 8; t.a[4] = 10; t.a[5] = 12; t.a[6] = 14; t.a[7] = 16; r.v = punpcklbh_s (s.v, t.v); assert (r.a[0] == -1); assert (r.a[1] == 2); assert (r.a[2] == -3); assert (r.a[3] == 4); assert (r.a[4] == -5); assert (r.a[5] == 6); assert (r.a[6] == -7); assert (r.a[7] == 8); } static void test_punpcklbh_u (void) { uint8x8_encap_t s, t; uint8x8_encap_t r; s.a[0] = 1; s.a[1] = 3; s.a[2] = 5; s.a[3] = 7; s.a[4] = 9; s.a[5] = 11; s.a[6] = 13; s.a[7] = 15; t.a[0] = 2; t.a[1] = 4; t.a[2] = 6; t.a[3] = 8; t.a[4] = 10; t.a[5] = 12; t.a[6] = 14; t.a[7] = 16; r.v = punpcklbh_u (s.v, t.v); assert (r.a[0] == 1); assert (r.a[1] == 2); assert (r.a[2] == 3); assert (r.a[3] == 4); assert (r.a[4] == 5); assert (r.a[5] == 6); assert (r.a[6] == 7); assert (r.a[7] == 8); } static void test_punpcklhw_s (void) { int16x4_encap_t s, t; int16x4_encap_t r; s.a[0] = -1; s.a[1] = 3; s.a[2] = -5; s.a[3] = 7; t.a[0] = -2; t.a[1] = 4; t.a[2] = -6; t.a[3] = 8; r.v = punpcklhw_s (s.v, t.v); assert (r.a[0] == -1); assert (r.a[1] == -2); assert (r.a[2] == 3); assert (r.a[3] == 4); } static void test_punpcklhw_u (void) { uint16x4_encap_t s, t; uint16x4_encap_t r; s.a[0] = 1; s.a[1] = 3; s.a[2] = 5; s.a[3] = 7; t.a[0] = 2; t.a[1] = 4; t.a[2] = 6; t.a[3] = 8; r.v = punpcklhw_u (s.v, t.v); assert (r.a[0] == 1); assert (r.a[1] == 2); assert (r.a[2] == 3); assert (r.a[3] == 4); } static void test_punpcklwd_s (void) { int32x2_encap_t s, t; int32x2_encap_t r; s.a[0] = 1; s.a[1] = 3; t.a[0] = -2; t.a[1] = 4; r.v = punpcklwd_s (s.v, t.v); assert (r.a[0] == 1); assert (r.a[1] == -2); } static void test_punpcklwd_u (void) { uint32x2_encap_t s, t; uint32x2_encap_t r; s.a[0] = 1; s.a[1] = 3; t.a[0] = 2; t.a[1] = 4; r.v = punpcklwd_u (s.v, t.v); assert (r.a[0] == 1); assert (r.a[1] == 2); } int main (void) { test_packsswh (); test_packsshb (); test_packushb (); test_paddw_u (); test_paddw_s (); test_paddh_u (); test_paddh_s (); test_paddb_u (); test_paddb_s (); test_paddd_u (); test_paddd_s (); test_paddsh (); test_paddsb (); test_paddush (); test_paddusb (); test_pandn_ud (); test_pandn_sd (); test_pandn_uw (); test_pandn_sw (); test_pandn_uh (); test_pandn_sh (); test_pandn_ub (); test_pandn_sb (); test_pavgh (); test_pavgb (); test_pcmpeqw_u (); test_pcmpeqh_u (); test_pcmpeqb_u (); test_pcmpeqw_s (); test_pcmpeqh_s (); test_pcmpeqb_s (); test_pcmpgtw_u (); test_pcmpgth_u (); test_pcmpgtb_u (); test_pcmpgtw_s (); test_pcmpgth_s (); test_pcmpgtb_s (); test_pextrh_u (); test_pextrh_s (); test_pinsrh_0123_u (); test_pinsrh_0123_s (); test_pmaddhw (); test_pmaxsh (); test_pmaxub (); test_pminsh (); test_pminub (); test_pmovmskb_u (); test_pmovmskb_s (); test_pmulhuh (); test_pmulhh (); test_pmullh (); test_pmuluw (); test_pasubub (); test_biadd (); test_psadbh (); test_pshufh_u (); test_pshufh_s (); test_psllh_u (); test_psllw_u (); test_psllh_s (); test_psllw_s (); test_psrah_u (); test_psraw_u (); test_psrah_s (); test_psraw_s (); test_psrlh_u (); test_psrlw_u (); test_psrlh_s (); test_psrlw_s (); test_psubw_u (); test_psubw_s (); test_psubh_u (); test_psubh_s (); test_psubb_u (); test_psubb_s (); test_psubd_u (); test_psubd_s (); test_psubsh (); test_psubsb (); test_psubush (); test_psubusb (); test_punpckhbh_s (); test_punpckhbh_u (); test_punpckhhw_s (); test_punpckhhw_u (); test_punpckhwd_s (); test_punpckhwd_u (); test_punpcklbh_s (); test_punpcklbh_u (); test_punpcklhw_s (); test_punpcklhw_u (); test_punpcklwd_s (); test_punpcklwd_u (); return 0; }
Go to most recent revision | Compare with Previous | Blame | View Log