mirror of
https://sourceware.org/git/binutils-gdb.git
synced 2024-12-15 04:31:49 +08:00
8acc9f485b
Two modifications: 1. The addition of 2013 to the copyright year range for every file; 2. The use of a single year range, instead of potentially multiple year ranges, as approved by the FSF.
415 lines
13 KiB
C
415 lines
13 KiB
C
/* The common simulator framework for GDB, the GNU Debugger.
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Copyright 2002-2013 Free Software Foundation, Inc.
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Contributed by Andrew Cagney and Red Hat.
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This file is part of GDB.
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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 3 of the License, or
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(at your option) any later version.
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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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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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#ifndef _SIM_ENDIAN_H_
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#define _SIM_ENDIAN_H_
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/* C byte conversion functions */
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INLINE_SIM_ENDIAN(unsigned_1) endian_h2t_1(unsigned_1 x);
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INLINE_SIM_ENDIAN(unsigned_2) endian_h2t_2(unsigned_2 x);
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INLINE_SIM_ENDIAN(unsigned_4) endian_h2t_4(unsigned_4 x);
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INLINE_SIM_ENDIAN(unsigned_8) endian_h2t_8(unsigned_8 x);
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INLINE_SIM_ENDIAN(unsigned_16) endian_h2t_16(unsigned_16 x);
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INLINE_SIM_ENDIAN(unsigned_1) endian_t2h_1(unsigned_1 x);
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INLINE_SIM_ENDIAN(unsigned_2) endian_t2h_2(unsigned_2 x);
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INLINE_SIM_ENDIAN(unsigned_4) endian_t2h_4(unsigned_4 x);
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INLINE_SIM_ENDIAN(unsigned_8) endian_t2h_8(unsigned_8 x);
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INLINE_SIM_ENDIAN(unsigned_16) endian_t2h_16(unsigned_16 x);
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INLINE_SIM_ENDIAN(unsigned_1) swap_1(unsigned_1 x);
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INLINE_SIM_ENDIAN(unsigned_2) swap_2(unsigned_2 x);
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INLINE_SIM_ENDIAN(unsigned_4) swap_4(unsigned_4 x);
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INLINE_SIM_ENDIAN(unsigned_8) swap_8(unsigned_8 x);
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INLINE_SIM_ENDIAN(unsigned_16) swap_16(unsigned_16 x);
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INLINE_SIM_ENDIAN(unsigned_1) endian_h2be_1(unsigned_1 x);
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INLINE_SIM_ENDIAN(unsigned_2) endian_h2be_2(unsigned_2 x);
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INLINE_SIM_ENDIAN(unsigned_4) endian_h2be_4(unsigned_4 x);
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INLINE_SIM_ENDIAN(unsigned_8) endian_h2be_8(unsigned_8 x);
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INLINE_SIM_ENDIAN(unsigned_16) endian_h2be_16(unsigned_16 x);
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INLINE_SIM_ENDIAN(unsigned_1) endian_be2h_1(unsigned_1 x);
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INLINE_SIM_ENDIAN(unsigned_2) endian_be2h_2(unsigned_2 x);
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INLINE_SIM_ENDIAN(unsigned_4) endian_be2h_4(unsigned_4 x);
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INLINE_SIM_ENDIAN(unsigned_8) endian_be2h_8(unsigned_8 x);
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INLINE_SIM_ENDIAN(unsigned_16) endian_be2h_16(unsigned_16 x);
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INLINE_SIM_ENDIAN(unsigned_1) endian_h2le_1(unsigned_1 x);
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INLINE_SIM_ENDIAN(unsigned_2) endian_h2le_2(unsigned_2 x);
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INLINE_SIM_ENDIAN(unsigned_4) endian_h2le_4(unsigned_4 x);
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INLINE_SIM_ENDIAN(unsigned_8) endian_h2le_8(unsigned_8 x);
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INLINE_SIM_ENDIAN(unsigned_16) endian_h2le_16(unsigned_16 x);
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INLINE_SIM_ENDIAN(unsigned_1) endian_le2h_1(unsigned_1 x);
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INLINE_SIM_ENDIAN(unsigned_2) endian_le2h_2(unsigned_2 x);
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INLINE_SIM_ENDIAN(unsigned_4) endian_le2h_4(unsigned_4 x);
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INLINE_SIM_ENDIAN(unsigned_8) endian_le2h_8(unsigned_8 x);
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INLINE_SIM_ENDIAN(unsigned_16) endian_le2h_16(unsigned_16 x);
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INLINE_SIM_ENDIAN(void*) offset_1(unsigned_1 *x, unsigned ws, unsigned w);
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INLINE_SIM_ENDIAN(void*) offset_2(unsigned_2 *x, unsigned ws, unsigned w);
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INLINE_SIM_ENDIAN(void*) offset_4(unsigned_4 *x, unsigned ws, unsigned w);
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INLINE_SIM_ENDIAN(void*) offset_8(unsigned_8 *x, unsigned ws, unsigned w);
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INLINE_SIM_ENDIAN(void*) offset_16(unsigned_16 *x, unsigned ws, unsigned w);
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INLINE_SIM_ENDIAN(unsigned_16) sim_endian_join_16 (unsigned_8 h, unsigned_8 l);
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INLINE_SIM_ENDIAN(unsigned_8) sim_endian_split_16 (unsigned_16 word, int w);
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/* SWAP */
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#define SWAP_1 swap_1
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#define SWAP_2 swap_2
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#define SWAP_4 swap_4
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#define SWAP_8 swap_8
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#define SWAP_16 swap_16
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/* HOST to BE */
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#define H2BE_1 endian_h2be_1
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#define H2BE_2 endian_h2be_2
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#define H2BE_4 endian_h2be_4
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#define H2BE_8 endian_h2be_8
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#define H2BE_16 endian_h2be_16
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#define BE2H_1 endian_be2h_1
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#define BE2H_2 endian_be2h_2
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#define BE2H_4 endian_be2h_4
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#define BE2H_8 endian_be2h_8
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#define BE2H_16 endian_be2h_16
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/* HOST to LE */
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#define H2LE_1 endian_h2le_1
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#define H2LE_2 endian_h2le_2
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#define H2LE_4 endian_h2le_4
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#define H2LE_8 endian_h2le_8
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#define H2LE_16 endian_h2le_16
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#define LE2H_1 endian_le2h_1
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#define LE2H_2 endian_le2h_2
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#define LE2H_4 endian_le2h_4
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#define LE2H_8 endian_le2h_8
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#define LE2H_16 endian_le2h_16
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/* HOST to TARGET */
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#define H2T_1 endian_h2t_1
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#define H2T_2 endian_h2t_2
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#define H2T_4 endian_h2t_4
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#define H2T_8 endian_h2t_8
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#define H2T_16 endian_h2t_16
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#define T2H_1 endian_t2h_1
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#define T2H_2 endian_t2h_2
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#define T2H_4 endian_t2h_4
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#define T2H_8 endian_t2h_8
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#define T2H_16 endian_t2h_16
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/* CONVERT IN PLACE
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These macros, given an argument of unknown size, swap its value in
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place if a host/target conversion is required. */
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#define H2T(VARIABLE) \
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do { \
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void *vp = &(VARIABLE); \
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switch (sizeof (VARIABLE)) { \
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case 1: *(unsigned_1*)vp = H2T_1(*(unsigned_1*)vp); break; \
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case 2: *(unsigned_2*)vp = H2T_2(*(unsigned_2*)vp); break; \
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case 4: *(unsigned_4*)vp = H2T_4(*(unsigned_4*)vp); break; \
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case 8: *(unsigned_8*)vp = H2T_8(*(unsigned_8*)vp); break; \
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case 16: *(unsigned_16*)vp = H2T_16(*(unsigned_16*)vp); break; \
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} \
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} while (0)
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#define T2H(VARIABLE) \
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do { \
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switch (sizeof(VARIABLE)) { \
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case 1: VARIABLE = T2H_1(VARIABLE); break; \
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case 2: VARIABLE = T2H_2(VARIABLE); break; \
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case 4: VARIABLE = T2H_4(VARIABLE); break; \
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case 8: VARIABLE = T2H_8(VARIABLE); break; \
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/*case 16: VARIABLE = T2H_16(VARIABLE); break;*/ \
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} \
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} while (0)
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#define SWAP(VARIABLE) \
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do { \
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switch (sizeof(VARIABLE)) { \
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case 1: VARIABLE = SWAP_1(VARIABLE); break; \
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case 2: VARIABLE = SWAP_2(VARIABLE); break; \
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case 4: VARIABLE = SWAP_4(VARIABLE); break; \
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case 8: VARIABLE = SWAP_8(VARIABLE); break; \
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/*case 16: VARIABLE = SWAP_16(VARIABLE); break;*/ \
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} \
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} while (0)
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#define H2BE(VARIABLE) \
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do { \
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switch (sizeof(VARIABLE)) { \
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case 1: VARIABLE = H2BE_1(VARIABLE); break; \
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case 2: VARIABLE = H2BE_2(VARIABLE); break; \
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case 4: VARIABLE = H2BE_4(VARIABLE); break; \
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case 8: VARIABLE = H2BE_8(VARIABLE); break; \
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/*case 16: VARIABLE = H2BE_16(VARIABLE); break;*/ \
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} \
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} while (0)
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#define BE2H(VARIABLE) \
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do { \
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switch (sizeof(VARIABLE)) { \
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case 1: VARIABLE = BE2H_1(VARIABLE); break; \
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case 2: VARIABLE = BE2H_2(VARIABLE); break; \
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case 4: VARIABLE = BE2H_4(VARIABLE); break; \
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case 8: VARIABLE = BE2H_8(VARIABLE); break; \
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/*case 16: VARIABLE = BE2H_16(VARIABLE); break;*/ \
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} \
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} while (0)
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#define H2LE(VARIABLE) \
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do { \
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switch (sizeof(VARIABLE)) { \
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case 1: VARIABLE = H2LE_1(VARIABLE); break; \
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case 2: VARIABLE = H2LE_2(VARIABLE); break; \
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case 4: VARIABLE = H2LE_4(VARIABLE); break; \
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case 8: VARIABLE = H2LE_8(VARIABLE); break; \
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/*case 16: VARIABLE = H2LE_16(VARIABLE); break;*/ \
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} \
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} while (0)
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#define LE2H(VARIABLE) \
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do { \
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switch (sizeof(VARIABLE)) { \
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case 1: VARIABLE = LE2H_1(VARIABLE); break; \
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case 2: VARIABLE = LE2H_2(VARIABLE); break; \
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case 4: VARIABLE = LE2H_4(VARIABLE); break; \
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case 8: VARIABLE = LE2H_8(VARIABLE); break; \
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/*case 16: VARIABLE = LE2H_16(VARIABLE); break;*/ \
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} \
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} while (0)
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/* TARGET WORD:
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Byte swap a quantity the size of the targets word */
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#if (WITH_TARGET_WORD_BITSIZE == 64)
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#define H2T_word H2T_8
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#define T2H_word T2H_8
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#define H2BE_word H2BE_8
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#define BE2H_word BE2H_8
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#define H2LE_word H2LE_8
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#define LE2H_word LE2H_8
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#define SWAP_word SWAP_8
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#endif
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#if (WITH_TARGET_WORD_BITSIZE == 32)
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#define H2T_word H2T_4
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#define T2H_word T2H_4
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#define H2BE_word H2BE_4
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#define BE2H_word BE2H_4
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#define H2LE_word H2LE_4
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#define LE2H_word LE2H_4
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#define SWAP_word SWAP_4
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#endif
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/* TARGET CELL:
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Byte swap a quantity the size of the targets IEEE 1275 memory cell */
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#define H2T_cell H2T_4
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#define T2H_cell T2H_4
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#define H2BE_cell H2BE_4
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#define BE2H_cell BE2H_4
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#define H2LE_cell H2LE_4
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#define LE2H_cell LE2H_4
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#define SWAP_cell SWAP_4
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/* HOST Offsets:
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Address of high/low sub-word within a host word quantity.
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Address of sub-word N within a host word quantity. NOTE: Numbering
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is BIG endian always. */
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#define AH1_2(X) (unsigned_1*)offset_2((X), 1, 0)
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#define AL1_2(X) (unsigned_1*)offset_2((X), 1, 1)
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#define AH2_4(X) (unsigned_2*)offset_4((X), 2, 0)
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#define AL2_4(X) (unsigned_2*)offset_4((X), 2, 1)
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#define AH4_8(X) (unsigned_4*)offset_8((X), 4, 0)
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#define AL4_8(X) (unsigned_4*)offset_8((X), 4, 1)
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#define AH8_16(X) (unsigned_8*)offset_16((X), 8, 0)
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#define AL8_16(X) (unsigned_8*)offset_16((X), 8, 1)
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#if (WITH_TARGET_WORD_BITSIZE == 64)
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#define AH_word(X) AH4_8(X)
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#define AL_word(X) AL4_8(X)
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#endif
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#if (WITH_TARGET_WORD_BITSIZE == 32)
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#define AH_word(X) AH2_4(X)
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#define AL_word(X) AL2_4(X)
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#endif
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#define A1_2(X,N) (unsigned_1*)offset_2((X), 1, (N))
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#define A1_4(X,N) (unsigned_1*)offset_4((X), 1, (N))
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#define A2_4(X,N) (unsigned_2*)offset_4((X), 2, (N))
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#define A1_8(X,N) (unsigned_1*)offset_8((X), 1, (N))
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#define A2_8(X,N) (unsigned_2*)offset_8((X), 2, (N))
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#define A4_8(X,N) (unsigned_4*)offset_8((X), 4, (N))
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#define A1_16(X,N) (unsigned_1*)offset_16((X), 1, (N))
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#define A2_16(X,N) (unsigned_2*)offset_16((X), 2, (N))
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#define A4_16(X,N) (unsigned_4*)offset_16((X), 4, (N))
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#define A8_16(X,N) (unsigned_8*)offset_16((X), 8, (N))
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/* HOST Components:
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Value of sub-word within a host word quantity */
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#define VH1_2(X) ((unsigned_1)((unsigned_2)(X) >> 8))
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#define VL1_2(X) (unsigned_1)(X)
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#define VH2_4(X) ((unsigned_2)((unsigned_4)(X) >> 16))
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#define VL2_4(X) ((unsigned_2)(X))
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#define VH4_8(X) ((unsigned_4)((unsigned_8)(X) >> 32))
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#define VL4_8(X) ((unsigned_4)(X))
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#define VH8_16(X) (sim_endian_split_16 ((X), 0))
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#define VL8_16(X) (sim_endian_split_16 ((X), 1))
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#if (WITH_TARGET_WORD_BITSIZE == 64)
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#define VH_word(X) VH4_8(X)
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#define VL_word(X) VL4_8(X)
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#endif
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#if (WITH_TARGET_WORD_BITSIZE == 32)
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#define VH_word(X) VH2_4(X)
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#define VL_word(X) VL2_4(X)
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#endif
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#define V1_2(X,N) ((unsigned_1)((unsigned_2)(X) >> ( 8 * (1 - (N)))))
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#define V1_4(X,N) ((unsigned_1)((unsigned_4)(X) >> ( 8 * (3 - (N)))))
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#define V2_4(X,N) ((unsigned_2)((unsigned_4)(X) >> (16 * (1 - (N)))))
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#define V1_8(X,N) ((unsigned_1)((unsigned_8)(X) >> ( 8 * (7 - (N)))))
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#define V2_8(X,N) ((unsigned_2)((unsigned_8)(X) >> (16 * (3 - (N)))))
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#define V4_8(X,N) ((unsigned_4)((unsigned_8)(X) >> (32 * (1 - (N)))))
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#define V1_16(X,N) (*A1_16 (&(X),N))
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#define V2_16(X,N) (*A2_16 (&(X),N))
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#define V4_16(X,N) (*A4_16 (&(X),N))
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#define V8_16(X,N) (*A8_16 (&(X),N))
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/* Reverse - insert sub-word into word quantity */
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#define V2_H1(X) ((unsigned_2)(unsigned_1)(X) << 8)
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#define V2_L1(X) ((unsigned_2)(unsigned_1)(X))
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#define V4_H2(X) ((unsigned_4)(unsigned_2)(X) << 16)
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#define V4_L2(X) ((unsigned_4)(unsigned_2)(X))
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#define V8_H4(X) ((unsigned_8)(unsigned_4)(X) << 32)
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#define V8_L4(X) ((unsigned_8)(unsigned_4)(X))
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#define V16_H8(X) ((unsigned_16)(unsigned_8)(X) << 64)
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#define V16_L8(X) ((unsigned_16)(unsigned_8)(X))
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#define V2_1(X,N) ((unsigned_2)(unsigned_1)(X) << ( 8 * (1 - (N))))
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#define V4_1(X,N) ((unsigned_4)(unsigned_1)(X) << ( 8 * (3 - (N))))
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#define V4_2(X,N) ((unsigned_4)(unsigned_2)(X) << (16 * (1 - (N))))
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#define V8_1(X,N) ((unsigned_8)(unsigned_1)(X) << ( 8 * (7 - (N))))
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#define V8_2(X,N) ((unsigned_8)(unsigned_2)(X) << (16 * (3 - (N))))
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#define V8_4(X,N) ((unsigned_8)(unsigned_4)(X) << (32 * (1 - (N))))
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#define V16_1(X,N) ((unsigned_16)(unsigned_1)(X) << ( 8 * (15 - (N))))
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#define V16_2(X,N) ((unsigned_16)(unsigned_2)(X) << (16 * (7 - (N))))
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#define V16_4(X,N) ((unsigned_16)(unsigned_4)(X) << (32 * (3 - (N))))
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#define V16_8(X,N) ((unsigned_16)(unsigned_8)(X) << (64 * (1 - (N))))
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/* Reverse - insert N sub-words into single word quantity */
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#define U2_1(I0,I1) (V2_1(I0,0) | V2_1(I1,1))
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#define U4_1(I0,I1,I2,I3) (V4_1(I0,0) | V4_1(I1,1) | V4_1(I2,2) | V4_1(I3,3))
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#define U8_1(I0,I1,I2,I3,I4,I5,I6,I7) \
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(V8_1(I0,0) | V8_1(I1,1) | V8_1(I2,2) | V8_1(I3,3) \
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| V8_1(I4,4) | V8_1(I5,5) | V8_1(I6,6) | V8_1(I7,7))
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#define U16_1(I0,I1,I2,I3,I4,I5,I6,I7,I8,I9,I10,I11,I12,I13,I14,I15) \
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(V16_1(I0,0) | V16_1(I1,1) | V16_1(I2,2) | V16_1(I3,3) \
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| V16_1(I4,4) | V16_1(I5,5) | V16_1(I6,6) | V16_1(I7,7) \
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| V16_1(I8,8) | V16_1(I9,9) | V16_1(I10,10) | V16_1(I11,11) \
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| V16_1(I12,12) | V16_1(I13,13) | V16_1(I14,14) | V16_1(I15,15))
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#define U4_2(I0,I1) (V4_2(I0,0) | V4_2(I1,1))
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#define U8_2(I0,I1,I2,I3) (V8_2(I0,0) | V8_2(I1,1) | V8_2(I2,2) | V8_2(I3,3))
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#define U16_2(I0,I1,I2,I3,I4,I5,I6,I7) \
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(V16_2(I0,0) | V16_2(I1,1) | V16_2(I2,2) | V16_2(I3,3) \
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| V16_2(I4,4) | V16_2(I5,5) | V16_2(I6,6) | V16_2(I7,7) )
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#define U8_4(I0,I1) (V8_4(I0,0) | V8_4(I1,1))
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#define U16_4(I0,I1,I2,I3) (V16_4(I0,0) | V16_4(I1,1) | V16_4(I2,2) | V16_4(I3,3))
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#define U16_8(I0,I1) (sim_endian_join_16 (I0, I1))
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#if (WITH_TARGET_WORD_BITSIZE == 64)
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#define Vword_H(X) V8_H4(X)
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#define Vword_L(X) V8_L4(X)
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#endif
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#if (WITH_TARGET_WORD_BITSIZE == 32)
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#define Vword_H(X) V4_H2(X)
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#define Vword_L(X) V4_L2(X)
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#endif
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#if H_REVEALS_MODULE_P (SIM_ENDIAN_INLINE)
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#include "sim-endian.c"
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#endif
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#endif /* _SIM_ENDIAN_H_ */
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