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https://github.com/xemu-project/xemu.git
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825d6eba7c
Signed-off-by: Taylor Simpson <tsimpson@quicinc.com> Message-Id: <1612763186-18161-33-git-send-email-tsimpson@quicinc.com> Signed-off-by: Richard Henderson <richard.henderson@linaro.org>
329 lines
9.8 KiB
C
329 lines
9.8 KiB
C
/*
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* Copyright(c) 2019-2021 Qualcomm Innovation Center, Inc. All Rights Reserved.
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, see <http://www.gnu.org/licenses/>.
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*/
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#include <stdio.h>
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/*
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* Make sure that the :mem_noshuf packet attribute is honored.
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* This is important when the addresses overlap.
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* The store instruction in slot 1 effectively executes first,
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* followed by the load instruction in slot 0.
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*/
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#define MEM_NOSHUF32(NAME, ST_TYPE, LD_TYPE, ST_OP, LD_OP) \
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static inline unsigned int NAME(ST_TYPE * p, LD_TYPE * q, ST_TYPE x) \
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{ \
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unsigned int ret; \
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asm volatile("{\n\t" \
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" " #ST_OP "(%1) = %3\n\t" \
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" %0 = " #LD_OP "(%2)\n\t" \
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"}:mem_noshuf\n" \
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: "=r"(ret) \
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: "r"(p), "r"(q), "r"(x) \
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: "memory"); \
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return ret; \
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}
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#define MEM_NOSHUF64(NAME, ST_TYPE, LD_TYPE, ST_OP, LD_OP) \
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static inline unsigned long long NAME(ST_TYPE * p, LD_TYPE * q, ST_TYPE x) \
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{ \
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unsigned long long ret; \
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asm volatile("{\n\t" \
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" " #ST_OP "(%1) = %3\n\t" \
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" %0 = " #LD_OP "(%2)\n\t" \
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"}:mem_noshuf\n" \
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: "=r"(ret) \
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: "r"(p), "r"(q), "r"(x) \
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: "memory"); \
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return ret; \
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}
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/* Store byte combinations */
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MEM_NOSHUF32(mem_noshuf_sb_lb, signed char, signed char, memb, memb)
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MEM_NOSHUF32(mem_noshuf_sb_lub, signed char, unsigned char, memb, memub)
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MEM_NOSHUF32(mem_noshuf_sb_lh, signed char, signed short, memb, memh)
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MEM_NOSHUF32(mem_noshuf_sb_luh, signed char, unsigned short, memb, memuh)
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MEM_NOSHUF32(mem_noshuf_sb_lw, signed char, signed int, memb, memw)
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MEM_NOSHUF64(mem_noshuf_sb_ld, signed char, signed long long, memb, memd)
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/* Store half combinations */
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MEM_NOSHUF32(mem_noshuf_sh_lb, signed short, signed char, memh, memb)
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MEM_NOSHUF32(mem_noshuf_sh_lub, signed short, unsigned char, memh, memub)
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MEM_NOSHUF32(mem_noshuf_sh_lh, signed short, signed short, memh, memh)
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MEM_NOSHUF32(mem_noshuf_sh_luh, signed short, unsigned short, memh, memuh)
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MEM_NOSHUF32(mem_noshuf_sh_lw, signed short, signed int, memh, memw)
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MEM_NOSHUF64(mem_noshuf_sh_ld, signed short, signed long long, memh, memd)
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/* Store word combinations */
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MEM_NOSHUF32(mem_noshuf_sw_lb, signed int, signed char, memw, memb)
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MEM_NOSHUF32(mem_noshuf_sw_lub, signed int, unsigned char, memw, memub)
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MEM_NOSHUF32(mem_noshuf_sw_lh, signed int, signed short, memw, memh)
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MEM_NOSHUF32(mem_noshuf_sw_luh, signed int, unsigned short, memw, memuh)
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MEM_NOSHUF32(mem_noshuf_sw_lw, signed int, signed int, memw, memw)
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MEM_NOSHUF64(mem_noshuf_sw_ld, signed int, signed long long, memw, memd)
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/* Store double combinations */
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MEM_NOSHUF32(mem_noshuf_sd_lb, long long, signed char, memd, memb)
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MEM_NOSHUF32(mem_noshuf_sd_lub, long long, unsigned char, memd, memub)
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MEM_NOSHUF32(mem_noshuf_sd_lh, long long, signed short, memd, memh)
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MEM_NOSHUF32(mem_noshuf_sd_luh, long long, unsigned short, memd, memuh)
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MEM_NOSHUF32(mem_noshuf_sd_lw, long long, signed int, memd, memw)
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MEM_NOSHUF64(mem_noshuf_sd_ld, long long, signed long long, memd, memd)
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static inline unsigned int cancel_sw_lb(int pred, int *p, signed char *q, int x)
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{
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unsigned int ret;
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asm volatile("p0 = cmp.eq(%4, #0)\n\t"
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"{\n\t"
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" if (!p0) memw(%1) = %3\n\t"
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" %0 = memb(%2)\n\t"
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"}:mem_noshuf\n"
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: "=r"(ret)
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: "r"(p), "r"(q), "r"(x), "r"(pred)
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: "p0", "memory");
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return ret;
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}
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static inline
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unsigned long long cancel_sw_ld(int pred, int *p, long long *q, int x)
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{
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long long ret;
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asm volatile("p0 = cmp.eq(%4, #0)\n\t"
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"{\n\t"
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" if (!p0) memw(%1) = %3\n\t"
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" %0 = memd(%2)\n\t"
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"}:mem_noshuf\n"
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: "=r"(ret)
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: "r"(p), "r"(q), "r"(x), "r"(pred)
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: "p0", "memory");
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return ret;
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}
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typedef union {
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signed long long d[2];
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unsigned long long ud[2];
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signed int w[4];
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unsigned int uw[4];
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signed short h[8];
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unsigned short uh[8];
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signed char b[16];
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unsigned char ub[16];
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} Memory;
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int err;
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static void check32(int n, int expect)
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{
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if (n != expect) {
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printf("ERROR: 0x%08x != 0x%08x\n", n, expect);
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err++;
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}
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}
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static void check64(long long n, long long expect)
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{
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if (n != expect) {
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printf("ERROR: 0x%08llx != 0x%08llx\n", n, expect);
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err++;
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}
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}
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int main()
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{
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Memory n;
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unsigned int res32;
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unsigned long long res64;
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/*
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* Store byte combinations
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*/
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n.w[0] = ~0;
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res32 = mem_noshuf_sb_lb(&n.b[0], &n.b[0], 0x87);
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check32(res32, 0xffffff87);
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n.w[0] = ~0;
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res32 = mem_noshuf_sb_lub(&n.b[0], &n.ub[0], 0x87);
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check32(res32, 0x00000087);
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n.w[0] = ~0;
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res32 = mem_noshuf_sb_lh(&n.b[0], &n.h[0], 0x87);
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check32(res32, 0xffffff87);
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n.w[0] = ~0;
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res32 = mem_noshuf_sb_luh(&n.b[0], &n.uh[0], 0x87);
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check32(res32, 0x0000ff87);
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n.w[0] = ~0;
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res32 = mem_noshuf_sb_lw(&n.b[0], &n.w[0], 0x87);
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check32(res32, 0xffffff87);
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n.d[0] = ~0LL;
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res64 = mem_noshuf_sb_ld(&n.b[0], &n.d[0], 0x87);
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check64(res64, 0xffffffffffffff87LL);
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/*
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* Store half combinations
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*/
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n.w[0] = ~0;
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res32 = mem_noshuf_sh_lb(&n.h[0], &n.b[0], 0x8787);
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check32(res32, 0xffffff87);
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n.w[0] = ~0;
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res32 = mem_noshuf_sh_lub(&n.h[0], &n.ub[1], 0x8f87);
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check32(res32, 0x0000008f);
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n.w[0] = ~0;
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res32 = mem_noshuf_sh_lh(&n.h[0], &n.h[0], 0x8a87);
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check32(res32, 0xffff8a87);
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n.w[0] = ~0;
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res32 = mem_noshuf_sh_luh(&n.h[0], &n.uh[0], 0x8a87);
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check32(res32, 0x8a87);
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n.w[0] = ~0;
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res32 = mem_noshuf_sh_lw(&n.h[1], &n.w[0], 0x8a87);
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check32(res32, 0x8a87ffff);
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n.w[0] = ~0;
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res64 = mem_noshuf_sh_ld(&n.h[1], &n.d[0], 0x8a87);
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check64(res64, 0xffffffff8a87ffffLL);
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/*
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* Store word combinations
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*/
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n.w[0] = ~0;
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res32 = mem_noshuf_sw_lb(&n.w[0], &n.b[0], 0x12345687);
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check32(res32, 0xffffff87);
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n.w[0] = ~0;
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res32 = mem_noshuf_sw_lub(&n.w[0], &n.ub[0], 0x12345687);
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check32(res32, 0x00000087);
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n.w[0] = ~0;
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res32 = mem_noshuf_sw_lh(&n.w[0], &n.h[0], 0x1234f678);
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check32(res32, 0xfffff678);
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n.w[0] = ~0;
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res32 = mem_noshuf_sw_luh(&n.w[0], &n.uh[0], 0x12345678);
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check32(res32, 0x00005678);
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n.w[0] = ~0;
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res32 = mem_noshuf_sw_lw(&n.w[0], &n.w[0], 0x12345678);
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check32(res32, 0x12345678);
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n.d[0] = ~0LL;
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res64 = mem_noshuf_sw_ld(&n.w[0], &n.d[0], 0x12345678);
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check64(res64, 0xffffffff12345678LL);
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/*
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* Store double combinations
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*/
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n.d[0] = ~0LL;
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res32 = mem_noshuf_sd_lb(&n.d[0], &n.b[1], 0x123456789abcdef0);
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check32(res32, 0xffffffde);
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n.d[0] = ~0LL;
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res32 = mem_noshuf_sd_lub(&n.d[0], &n.ub[1], 0x123456789abcdef0);
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check32(res32, 0x000000de);
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n.d[0] = ~0LL;
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res32 = mem_noshuf_sd_lh(&n.d[0], &n.h[1], 0x123456789abcdef0);
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check32(res32, 0xffff9abc);
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n.d[0] = ~0LL;
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res32 = mem_noshuf_sd_luh(&n.d[0], &n.uh[1], 0x123456789abcdef0);
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check32(res32, 0x00009abc);
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n.d[0] = ~0LL;
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res32 = mem_noshuf_sd_lw(&n.d[0], &n.w[1], 0x123456789abcdef0);
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check32(res32, 0x12345678);
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n.d[0] = ~0LL;
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res64 = mem_noshuf_sd_ld(&n.d[0], &n.d[0], 0x123456789abcdef0);
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check64(res64, 0x123456789abcdef0LL);
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/*
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* Predicated word stores
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*/
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n.w[0] = ~0;
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res32 = cancel_sw_lb(0, &n.w[0], &n.b[0], 0x12345678);
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check32(res32, 0xffffffff);
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n.w[0] = ~0;
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res32 = cancel_sw_lb(1, &n.w[0], &n.b[0], 0x12345687);
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check32(res32, 0xffffff87);
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/*
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* Predicated double stores
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*/
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n.d[0] = ~0LL;
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res64 = cancel_sw_ld(0, &n.w[0], &n.d[0], 0x12345678);
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check64(res64, 0xffffffffffffffffLL);
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n.d[0] = ~0LL;
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res64 = cancel_sw_ld(1, &n.w[0], &n.d[0], 0x12345678);
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check64(res64, 0xffffffff12345678LL);
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n.d[0] = ~0LL;
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res64 = cancel_sw_ld(0, &n.w[1], &n.d[0], 0x12345678);
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check64(res64, 0xffffffffffffffffLL);
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n.d[0] = ~0LL;
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res64 = cancel_sw_ld(1, &n.w[1], &n.d[0], 0x12345678);
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check64(res64, 0x12345678ffffffffLL);
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/*
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* No overlap tests
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*/
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n.w[0] = ~0;
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res32 = mem_noshuf_sb_lb(&n.b[1], &n.b[0], 0x87);
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check32(res32, 0xffffffff);
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n.w[0] = ~0;
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res32 = mem_noshuf_sb_lb(&n.b[0], &n.b[1], 0x87);
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check32(res32, 0xffffffff);
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n.w[0] = ~0;
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res32 = mem_noshuf_sh_lh(&n.h[1], &n.h[0], 0x8787);
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check32(res32, 0xffffffff);
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n.w[0] = ~0;
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res32 = mem_noshuf_sh_lh(&n.h[0], &n.h[1], 0x8787);
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check32(res32, 0xffffffff);
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n.d[0] = ~0LL;
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res32 = mem_noshuf_sw_lw(&n.w[0], &n.w[1], 0x12345678);
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check32(res32, 0xffffffff);
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n.d[0] = ~0LL;
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res32 = mem_noshuf_sw_lw(&n.w[1], &n.w[0], 0x12345678);
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check32(res32, 0xffffffff);
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n.d[0] = ~0LL;
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n.d[1] = ~0LL;
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res64 = mem_noshuf_sd_ld(&n.d[1], &n.d[0], 0x123456789abcdef0LL);
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check64(res64, 0xffffffffffffffffLL);
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n.d[0] = ~0LL;
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n.d[1] = ~0LL;
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res64 = mem_noshuf_sd_ld(&n.d[0], &n.d[1], 0x123456789abcdef0LL);
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check64(res64, 0xffffffffffffffffLL);
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puts(err ? "FAIL" : "PASS");
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return err;
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}
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