0ca9d3807c
The patch below uses the float32 and float64 types instead of the float and double types in the PPC code. This doesn't change anything when using softfloat-native as the types are the same, but that helps compiling the PPC target with softfloat. It also defines a new union CPU_FloatU in addition to CPU_DoubleU, and use them instead of identical unions that are defined in numerous places. git-svn-id: svn://svn.savannah.nongnu.org/qemu/trunk@4047 c046a42c-6fe2-441c-8c8c-71466251a162
357 lines
11 KiB
C
357 lines
11 KiB
C
/*
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* PowerPC emulation micro-operations helpers for qemu.
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*
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* Copyright (c) 2003-2007 Jocelyn Mayer
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2 of the License, or (at your option) any later version.
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*
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* This library 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 GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library; if not, write to the Free Software
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* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*/
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#include "op_mem_access.h"
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/* Multiple word / string load and store */
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void glue(do_lmw, MEMSUFFIX) (int dst)
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{
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for (; dst < 32; dst++, T0 += 4) {
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env->gpr[dst] = glue(ldu32, MEMSUFFIX)((uint32_t)T0);
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}
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}
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#if defined(TARGET_PPC64)
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void glue(do_lmw_64, MEMSUFFIX) (int dst)
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{
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for (; dst < 32; dst++, T0 += 4) {
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env->gpr[dst] = glue(ldu32, MEMSUFFIX)((uint64_t)T0);
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}
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}
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#endif
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void glue(do_stmw, MEMSUFFIX) (int src)
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{
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for (; src < 32; src++, T0 += 4) {
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glue(st32, MEMSUFFIX)((uint32_t)T0, env->gpr[src]);
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}
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}
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#if defined(TARGET_PPC64)
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void glue(do_stmw_64, MEMSUFFIX) (int src)
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{
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for (; src < 32; src++, T0 += 4) {
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glue(st32, MEMSUFFIX)((uint64_t)T0, env->gpr[src]);
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}
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}
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#endif
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void glue(do_lmw_le, MEMSUFFIX) (int dst)
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{
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for (; dst < 32; dst++, T0 += 4) {
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env->gpr[dst] = glue(ldu32r, MEMSUFFIX)((uint32_t)T0);
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}
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}
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#if defined(TARGET_PPC64)
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void glue(do_lmw_le_64, MEMSUFFIX) (int dst)
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{
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for (; dst < 32; dst++, T0 += 4) {
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env->gpr[dst] = glue(ldu32r, MEMSUFFIX)((uint64_t)T0);
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}
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}
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#endif
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void glue(do_stmw_le, MEMSUFFIX) (int src)
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{
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for (; src < 32; src++, T0 += 4) {
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glue(st32r, MEMSUFFIX)((uint32_t)T0, env->gpr[src]);
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}
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}
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#if defined(TARGET_PPC64)
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void glue(do_stmw_le_64, MEMSUFFIX) (int src)
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{
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for (; src < 32; src++, T0 += 4) {
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glue(st32r, MEMSUFFIX)((uint64_t)T0, env->gpr[src]);
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}
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}
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#endif
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void glue(do_lsw, MEMSUFFIX) (int dst)
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{
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uint32_t tmp;
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int sh;
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for (; T1 > 3; T1 -= 4, T0 += 4) {
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env->gpr[dst++] = glue(ldu32, MEMSUFFIX)((uint32_t)T0);
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if (unlikely(dst == 32))
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dst = 0;
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}
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if (unlikely(T1 != 0)) {
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tmp = 0;
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for (sh = 24; T1 > 0; T1--, T0++, sh -= 8) {
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tmp |= glue(ldu8, MEMSUFFIX)((uint32_t)T0) << sh;
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}
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env->gpr[dst] = tmp;
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}
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}
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#if defined(TARGET_PPC64)
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void glue(do_lsw_64, MEMSUFFIX) (int dst)
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{
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uint32_t tmp;
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int sh;
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for (; T1 > 3; T1 -= 4, T0 += 4) {
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env->gpr[dst++] = glue(ldu32, MEMSUFFIX)((uint64_t)T0);
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if (unlikely(dst == 32))
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dst = 0;
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}
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if (unlikely(T1 != 0)) {
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tmp = 0;
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for (sh = 24; T1 > 0; T1--, T0++, sh -= 8) {
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tmp |= glue(ldu8, MEMSUFFIX)((uint64_t)T0) << sh;
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}
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env->gpr[dst] = tmp;
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}
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}
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#endif
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void glue(do_stsw, MEMSUFFIX) (int src)
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{
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int sh;
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for (; T1 > 3; T1 -= 4, T0 += 4) {
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glue(st32, MEMSUFFIX)((uint32_t)T0, env->gpr[src++]);
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if (unlikely(src == 32))
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src = 0;
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}
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if (unlikely(T1 != 0)) {
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for (sh = 24; T1 > 0; T1--, T0++, sh -= 8)
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glue(st8, MEMSUFFIX)((uint32_t)T0, (env->gpr[src] >> sh) & 0xFF);
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}
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}
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#if defined(TARGET_PPC64)
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void glue(do_stsw_64, MEMSUFFIX) (int src)
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{
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int sh;
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for (; T1 > 3; T1 -= 4, T0 += 4) {
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glue(st32, MEMSUFFIX)((uint64_t)T0, env->gpr[src++]);
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if (unlikely(src == 32))
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src = 0;
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}
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if (unlikely(T1 != 0)) {
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for (sh = 24; T1 > 0; T1--, T0++, sh -= 8)
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glue(st8, MEMSUFFIX)((uint64_t)T0, (env->gpr[src] >> sh) & 0xFF);
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}
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}
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#endif
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/* Instruction cache invalidation helper */
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void glue(do_icbi, MEMSUFFIX) (void)
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{
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uint32_t tmp;
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/* Invalidate one cache line :
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* PowerPC specification says this is to be treated like a load
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* (not a fetch) by the MMU. To be sure it will be so,
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* do the load "by hand".
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*/
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T0 &= ~(env->icache_line_size - 1);
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tmp = glue(ldl, MEMSUFFIX)((uint32_t)T0);
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tb_invalidate_page_range((uint32_t)T0,
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(uint32_t)(T0 + env->icache_line_size));
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}
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#if defined(TARGET_PPC64)
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void glue(do_icbi_64, MEMSUFFIX) (void)
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{
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uint64_t tmp;
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/* Invalidate one cache line :
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* PowerPC specification says this is to be treated like a load
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* (not a fetch) by the MMU. To be sure it will be so,
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* do the load "by hand".
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*/
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T0 &= ~(env->icache_line_size - 1);
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tmp = glue(ldq, MEMSUFFIX)((uint64_t)T0);
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tb_invalidate_page_range((uint64_t)T0,
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(uint64_t)(T0 + env->icache_line_size));
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}
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#endif
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void glue(do_dcbz, MEMSUFFIX) (void)
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{
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int dcache_line_size = env->dcache_line_size;
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/* XXX: should be 970 specific (?) */
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if (((env->spr[SPR_970_HID5] >> 7) & 0x3) == 1)
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dcache_line_size = 32;
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T0 &= ~(uint32_t)(dcache_line_size - 1);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x00), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x04), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x08), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x0C), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x10), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x14), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x18), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x1C), 0);
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if (dcache_line_size >= 64) {
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x20UL), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x24UL), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x28UL), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x2CUL), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x30UL), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x34UL), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x38UL), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x3CUL), 0);
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if (dcache_line_size >= 128) {
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x40UL), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x44UL), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x48UL), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x4CUL), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x50UL), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x54UL), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x58UL), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x5CUL), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x60UL), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x64UL), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x68UL), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x6CUL), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x70UL), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x74UL), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x78UL), 0);
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glue(stl, MEMSUFFIX)((uint32_t)(T0 + 0x7CUL), 0);
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}
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}
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}
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#if defined(TARGET_PPC64)
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void glue(do_dcbz_64, MEMSUFFIX) (void)
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{
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int dcache_line_size = env->dcache_line_size;
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/* XXX: should be 970 specific (?) */
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if (((env->spr[SPR_970_HID5] >> 6) & 0x3) == 0x2)
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dcache_line_size = 32;
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T0 &= ~(uint64_t)(dcache_line_size - 1);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x00), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x04), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x08), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x0C), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x10), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x14), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x18), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x1C), 0);
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if (dcache_line_size >= 64) {
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x20UL), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x24UL), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x28UL), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x2CUL), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x30UL), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x34UL), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x38UL), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x3CUL), 0);
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if (dcache_line_size >= 128) {
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x40UL), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x44UL), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x48UL), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x4CUL), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x50UL), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x54UL), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x58UL), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x5CUL), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x60UL), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x64UL), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x68UL), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x6CUL), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x70UL), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x74UL), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x78UL), 0);
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glue(stl, MEMSUFFIX)((uint64_t)(T0 + 0x7CUL), 0);
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}
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}
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}
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#endif
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/* PowerPC 601 specific instructions (POWER bridge) */
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// XXX: to be tested
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void glue(do_POWER_lscbx, MEMSUFFIX) (int dest, int ra, int rb)
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{
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int i, c, d, reg;
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d = 24;
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reg = dest;
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for (i = 0; i < T1; i++) {
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c = glue(ldu8, MEMSUFFIX)((uint32_t)T0++);
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/* ra (if not 0) and rb are never modified */
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if (likely(reg != rb && (ra == 0 || reg != ra))) {
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env->gpr[reg] = (env->gpr[reg] & ~(0xFF << d)) | (c << d);
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}
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if (unlikely(c == T2))
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break;
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if (likely(d != 0)) {
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d -= 8;
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} else {
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d = 24;
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reg++;
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reg = reg & 0x1F;
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}
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}
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T0 = i;
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}
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/* XXX: TAGs are not managed */
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void glue(do_POWER2_lfq, MEMSUFFIX) (void)
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{
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FT0 = glue(ldfq, MEMSUFFIX)((uint32_t)T0);
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FT1 = glue(ldfq, MEMSUFFIX)((uint32_t)(T0 + 4));
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}
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static always_inline float64 glue(ldfqr, MEMSUFFIX) (target_ulong EA)
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{
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CPU_DoubleU u;
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u.d = glue(ldfq, MEMSUFFIX)(EA);
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u.ll = bswap64(u.ll);
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return u.d;
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}
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void glue(do_POWER2_lfq_le, MEMSUFFIX) (void)
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{
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FT0 = glue(ldfqr, MEMSUFFIX)((uint32_t)(T0 + 4));
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FT1 = glue(ldfqr, MEMSUFFIX)((uint32_t)T0);
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}
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void glue(do_POWER2_stfq, MEMSUFFIX) (void)
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{
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glue(stfq, MEMSUFFIX)((uint32_t)T0, FT0);
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glue(stfq, MEMSUFFIX)((uint32_t)(T0 + 4), FT1);
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}
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static always_inline void glue(stfqr, MEMSUFFIX) (target_ulong EA, float64 d)
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{
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CPU_DoubleU u;
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u.d = d;
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u.ll = bswap64(u.ll);
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glue(stfq, MEMSUFFIX)(EA, u.d);
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}
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void glue(do_POWER2_stfq_le, MEMSUFFIX) (void)
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{
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glue(stfqr, MEMSUFFIX)((uint32_t)(T0 + 4), FT0);
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glue(stfqr, MEMSUFFIX)((uint32_t)T0, FT1);
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}
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#undef MEMSUFFIX
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