op.c 21.2 KB
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/*
 *  ARM micro operations
 * 
 *  Copyright (c) 2003 Fabrice Bellard
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 *  Copyright (c) 2005 CodeSourcery, LLC
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 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation; either
 * version 2 of the License, or (at your option) any later version.
 *
 * This library 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
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 */
#include "exec.h"

#define REGNAME r0
#define REG (env->regs[0])
#include "op_template.h"

#define REGNAME r1
#define REG (env->regs[1])
#include "op_template.h"

#define REGNAME r2
#define REG (env->regs[2])
#include "op_template.h"

#define REGNAME r3
#define REG (env->regs[3])
#include "op_template.h"

#define REGNAME r4
#define REG (env->regs[4])
#include "op_template.h"

#define REGNAME r5
#define REG (env->regs[5])
#include "op_template.h"

#define REGNAME r6
#define REG (env->regs[6])
#include "op_template.h"

#define REGNAME r7
#define REG (env->regs[7])
#include "op_template.h"

#define REGNAME r8
#define REG (env->regs[8])
#include "op_template.h"

#define REGNAME r9
#define REG (env->regs[9])
#include "op_template.h"

#define REGNAME r10
#define REG (env->regs[10])
#include "op_template.h"

#define REGNAME r11
#define REG (env->regs[11])
#include "op_template.h"

#define REGNAME r12
#define REG (env->regs[12])
#include "op_template.h"

#define REGNAME r13
#define REG (env->regs[13])
#include "op_template.h"

#define REGNAME r14
#define REG (env->regs[14])
#include "op_template.h"

#define REGNAME r15
#define REG (env->regs[15])
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#define SET_REG(x) REG = x & ~(uint32_t)1
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#include "op_template.h"

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void OPPROTO op_bx_T0(void)
{
  env->regs[15] = T0 & ~(uint32_t)1;
  env->thumb = (T0 & 1) != 0;
}

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void OPPROTO op_movl_T0_0(void)
{
    T0 = 0;
}

void OPPROTO op_movl_T0_im(void)
{
    T0 = PARAM1;
}

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void OPPROTO op_movl_T0_T1(void)
{
    T0 = T1;
}

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void OPPROTO op_movl_T1_im(void)
{
    T1 = PARAM1;
}

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void OPPROTO op_mov_CF_T1(void)
{
    env->CF = ((uint32_t)T1) >> 31;
}

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void OPPROTO op_movl_T2_im(void)
{
    T2 = PARAM1;
}

void OPPROTO op_addl_T1_im(void)
{
    T1 += PARAM1;
}

void OPPROTO op_addl_T1_T2(void)
{
    T1 += T2;
}

void OPPROTO op_subl_T1_T2(void)
{
    T1 -= T2;
}

void OPPROTO op_addl_T0_T1(void)
{
    T0 += T1;
}

void OPPROTO op_addl_T0_T1_cc(void)
{
    unsigned int src1;
    src1 = T0;
    T0 += T1;
    env->NZF = T0;
    env->CF = T0 < src1;
    env->VF = (src1 ^ T1 ^ -1) & (src1 ^ T0);
}

void OPPROTO op_adcl_T0_T1(void)
{
    T0 += T1 + env->CF;
}

void OPPROTO op_adcl_T0_T1_cc(void)
{
    unsigned int src1;
    src1 = T0;
    if (!env->CF) {
        T0 += T1;
        env->CF = T0 < src1;
    } else {
        T0 += T1 + 1;
        env->CF = T0 <= src1;
    }
    env->VF = (src1 ^ T1 ^ -1) & (src1 ^ T0);
    env->NZF = T0;
    FORCE_RET();
}

#define OPSUB(sub, sbc, res, T0, T1)            \
                                                \
void OPPROTO op_ ## sub ## l_T0_T1(void)        \
{                                               \
    res = T0 - T1;                              \
}                                               \
                                                \
void OPPROTO op_ ## sub ## l_T0_T1_cc(void)     \
{                                               \
    unsigned int src1;                          \
    src1 = T0;                                  \
    T0 -= T1;                                   \
    env->NZF = T0;                              \
    env->CF = src1 >= T1;                       \
    env->VF = (src1 ^ T1) & (src1 ^ T0);        \
    res = T0;                                   \
}                                               \
                                                \
void OPPROTO op_ ## sbc ## l_T0_T1(void)        \
{                                               \
    res = T0 - T1 + env->CF - 1;                \
}                                               \
                                                \
void OPPROTO op_ ## sbc ## l_T0_T1_cc(void)     \
{                                               \
    unsigned int src1;                          \
    src1 = T0;                                  \
    if (!env->CF) {                             \
        T0 = T0 - T1 - 1;                       \
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        env->CF = src1 > T1;                    \
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    } else {                                    \
        T0 = T0 - T1;                           \
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        env->CF = src1 >= T1;                   \
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    }                                           \
    env->VF = (src1 ^ T1) & (src1 ^ T0);        \
    env->NZF = T0;                              \
    res = T0;                                   \
    FORCE_RET();                                \
}

OPSUB(sub, sbc, T0, T0, T1)

OPSUB(rsb, rsc, T0, T1, T0)

void OPPROTO op_andl_T0_T1(void)
{
    T0 &= T1;
}

void OPPROTO op_xorl_T0_T1(void)
{
    T0 ^= T1;
}

void OPPROTO op_orl_T0_T1(void)
{
    T0 |= T1;
}

void OPPROTO op_bicl_T0_T1(void)
{
    T0 &= ~T1;
}

void OPPROTO op_notl_T1(void)
{
    T1 = ~T1;
}

void OPPROTO op_logic_T0_cc(void)
{
    env->NZF = T0;
}

void OPPROTO op_logic_T1_cc(void)
{
    env->NZF = T1;
}

#define EIP (env->regs[15])

void OPPROTO op_test_eq(void)
{
    if (env->NZF == 0)
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        GOTO_LABEL_PARAM(1);;
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    FORCE_RET();
}

void OPPROTO op_test_ne(void)
{
    if (env->NZF != 0)
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        GOTO_LABEL_PARAM(1);;
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    FORCE_RET();
}

void OPPROTO op_test_cs(void)
{
    if (env->CF != 0)
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        GOTO_LABEL_PARAM(1);
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    FORCE_RET();
}

void OPPROTO op_test_cc(void)
{
    if (env->CF == 0)
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        GOTO_LABEL_PARAM(1);
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    FORCE_RET();
}

void OPPROTO op_test_mi(void)
{
    if ((env->NZF & 0x80000000) != 0)
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        GOTO_LABEL_PARAM(1);
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    FORCE_RET();
}

void OPPROTO op_test_pl(void)
{
    if ((env->NZF & 0x80000000) == 0)
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        GOTO_LABEL_PARAM(1);
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    FORCE_RET();
}

void OPPROTO op_test_vs(void)
{
    if ((env->VF & 0x80000000) != 0)
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        GOTO_LABEL_PARAM(1);
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    FORCE_RET();
}

void OPPROTO op_test_vc(void)
{
    if ((env->VF & 0x80000000) == 0)
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        GOTO_LABEL_PARAM(1);
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    FORCE_RET();
}

void OPPROTO op_test_hi(void)
{
    if (env->CF != 0 && env->NZF != 0)
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        GOTO_LABEL_PARAM(1);
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    FORCE_RET();
}

void OPPROTO op_test_ls(void)
{
    if (env->CF == 0 || env->NZF == 0)
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        GOTO_LABEL_PARAM(1);
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    FORCE_RET();
}

void OPPROTO op_test_ge(void)
{
    if (((env->VF ^ env->NZF) & 0x80000000) == 0)
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        GOTO_LABEL_PARAM(1);
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    FORCE_RET();
}

void OPPROTO op_test_lt(void)
{
    if (((env->VF ^ env->NZF) & 0x80000000) != 0)
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        GOTO_LABEL_PARAM(1);
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    FORCE_RET();
}

void OPPROTO op_test_gt(void)
{
    if (env->NZF != 0 && ((env->VF ^ env->NZF) & 0x80000000) == 0)
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        GOTO_LABEL_PARAM(1);
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    FORCE_RET();
}

void OPPROTO op_test_le(void)
{
    if (env->NZF == 0 || ((env->VF ^ env->NZF) & 0x80000000) != 0)
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        GOTO_LABEL_PARAM(1);
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    FORCE_RET();
}

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void OPPROTO op_goto_tb0(void)
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{
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    GOTO_TB(op_goto_tb0, PARAM1, 0);
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}

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void OPPROTO op_goto_tb1(void)
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{
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    GOTO_TB(op_goto_tb1, PARAM1, 1);
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}

void OPPROTO op_exit_tb(void)
{
    EXIT_TB();
}

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void OPPROTO op_movl_T0_cpsr(void)
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{
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    T0 = cpsr_read(env);
    FORCE_RET();
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}

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void OPPROTO op_movl_T0_spsr(void)
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{
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    T0 = env->spsr;
}

void OPPROTO op_movl_spsr_T0(void)
{
    uint32_t mask = PARAM1;
    env->spsr = (env->spsr & ~mask) | (T0 & mask);
}

void OPPROTO op_movl_cpsr_T0(void)
{
    cpsr_write(env, T0, PARAM1);
    FORCE_RET();
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}

void OPPROTO op_mul_T0_T1(void)
{
    T0 = T0 * T1;
}

/* 64 bit unsigned mul */
void OPPROTO op_mull_T0_T1(void)
{
    uint64_t res;
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    res = (uint64_t)T0 * (uint64_t)T1;
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    T1 = res >> 32;
    T0 = res;
}

/* 64 bit signed mul */
void OPPROTO op_imull_T0_T1(void)
{
    uint64_t res;
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    res = (int64_t)((int32_t)T0) * (int64_t)((int32_t)T1);
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    T1 = res >> 32;
    T0 = res;
}

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/* 48 bit signed mul, top 32 bits */
void OPPROTO op_imulw_T0_T1(void)
{
  uint64_t res;
  res = (int64_t)((int32_t)T0) * (int64_t)((int32_t)T1);
  T0 = res >> 16;
}

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void OPPROTO op_addq_T0_T1(void)
{
    uint64_t res;
    res = ((uint64_t)T1 << 32) | T0;
    res += ((uint64_t)(env->regs[PARAM2]) << 32) | (env->regs[PARAM1]);
    T1 = res >> 32;
    T0 = res;
}

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void OPPROTO op_addq_lo_T0_T1(void)
{
    uint64_t res;
    res = ((uint64_t)T1 << 32) | T0;
    res += (uint64_t)(env->regs[PARAM1]);
    T1 = res >> 32;
    T0 = res;
}

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void OPPROTO op_logicq_cc(void)
{
    env->NZF = (T1 & 0x80000000) | ((T0 | T1) != 0);
}

/* memory access */

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#define MEMSUFFIX _raw
#include "op_mem.h"
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#if !defined(CONFIG_USER_ONLY)
#define MEMSUFFIX _user
#include "op_mem.h"
#define MEMSUFFIX _kernel
#include "op_mem.h"
#endif
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/* shifts */

/* T1 based */
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void OPPROTO op_shll_T1_im(void)
{
    T1 = T1 << PARAM1;
}

void OPPROTO op_shrl_T1_im(void)
{
    T1 = (uint32_t)T1 >> PARAM1;
}

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void OPPROTO op_shrl_T1_0(void)
{
    T1 = 0;
}

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void OPPROTO op_sarl_T1_im(void)
{
    T1 = (int32_t)T1 >> PARAM1;
}

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void OPPROTO op_sarl_T1_0(void)
{
    T1 = (int32_t)T1 >> 31;
}

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void OPPROTO op_rorl_T1_im(void)
{
    int shift;
    shift = PARAM1;
    T1 = ((uint32_t)T1 >> shift) | (T1 << (32 - shift));
}

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void OPPROTO op_rrxl_T1(void)
{
    T1 = ((uint32_t)T1 >> 1) | ((uint32_t)env->CF << 31);
}

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/* T1 based, set C flag */
void OPPROTO op_shll_T1_im_cc(void)
{
    env->CF = (T1 >> (32 - PARAM1)) & 1;
    T1 = T1 << PARAM1;
}

void OPPROTO op_shrl_T1_im_cc(void)
{
    env->CF = (T1 >> (PARAM1 - 1)) & 1;
    T1 = (uint32_t)T1 >> PARAM1;
}

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void OPPROTO op_shrl_T1_0_cc(void)
{
    env->CF = (T1 >> 31) & 1;
    T1 = 0;
}

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void OPPROTO op_sarl_T1_im_cc(void)
{
    env->CF = (T1 >> (PARAM1 - 1)) & 1;
    T1 = (int32_t)T1 >> PARAM1;
}

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void OPPROTO op_sarl_T1_0_cc(void)
{
    env->CF = (T1 >> 31) & 1;
    T1 = (int32_t)T1 >> 31;
}

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void OPPROTO op_rorl_T1_im_cc(void)
{
    int shift;
    shift = PARAM1;
    env->CF = (T1 >> (shift - 1)) & 1;
    T1 = ((uint32_t)T1 >> shift) | (T1 << (32 - shift));
}

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void OPPROTO op_rrxl_T1_cc(void)
{
    uint32_t c;
    c = T1 & 1;
    T1 = ((uint32_t)T1 >> 1) | ((uint32_t)env->CF << 31);
    env->CF = c;
}

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/* T2 based */
void OPPROTO op_shll_T2_im(void)
{
    T2 = T2 << PARAM1;
}

void OPPROTO op_shrl_T2_im(void)
{
    T2 = (uint32_t)T2 >> PARAM1;
}

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void OPPROTO op_shrl_T2_0(void)
{
    T2 = 0;
}

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void OPPROTO op_sarl_T2_im(void)
{
    T2 = (int32_t)T2 >> PARAM1;
}

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void OPPROTO op_sarl_T2_0(void)
{
    T2 = (int32_t)T2 >> 31;
}

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void OPPROTO op_rorl_T2_im(void)
{
    int shift;
    shift = PARAM1;
    T2 = ((uint32_t)T2 >> shift) | (T2 << (32 - shift));
}

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void OPPROTO op_rrxl_T2(void)
{
    T2 = ((uint32_t)T2 >> 1) | ((uint32_t)env->CF << 31);
}

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/* T1 based, use T0 as shift count */

void OPPROTO op_shll_T1_T0(void)
{
    int shift;
    shift = T0 & 0xff;
    if (shift >= 32)
        T1 = 0;
    else
        T1 = T1 << shift;
    FORCE_RET();
}

void OPPROTO op_shrl_T1_T0(void)
{
    int shift;
    shift = T0 & 0xff;
    if (shift >= 32)
        T1 = 0;
    else
        T1 = (uint32_t)T1 >> shift;
    FORCE_RET();
}

void OPPROTO op_sarl_T1_T0(void)
{
    int shift;
    shift = T0 & 0xff;
    if (shift >= 32)
        shift = 31;
    T1 = (int32_t)T1 >> shift;
}

void OPPROTO op_rorl_T1_T0(void)
{
    int shift;
    shift = T0 & 0x1f;
    if (shift) {
        T1 = ((uint32_t)T1 >> shift) | (T1 << (32 - shift));
    }
    FORCE_RET();
}

/* T1 based, use T0 as shift count and compute CF */

void OPPROTO op_shll_T1_T0_cc(void)
{
    int shift;
    shift = T0 & 0xff;
    if (shift >= 32) {
        if (shift == 32)
            env->CF = T1 & 1;
        else
            env->CF = 0;
        T1 = 0;
    } else if (shift != 0) {
        env->CF = (T1 >> (32 - shift)) & 1;
        T1 = T1 << shift;
    }
    FORCE_RET();
}

void OPPROTO op_shrl_T1_T0_cc(void)
{
    int shift;
    shift = T0 & 0xff;
    if (shift >= 32) {
        if (shift == 32)
            env->CF = (T1 >> 31) & 1;
        else
            env->CF = 0;
        T1 = 0;
    } else if (shift != 0) {
        env->CF = (T1 >> (shift - 1)) & 1;
        T1 = (uint32_t)T1 >> shift;
    }
    FORCE_RET();
}

void OPPROTO op_sarl_T1_T0_cc(void)
{
    int shift;
    shift = T0 & 0xff;
    if (shift >= 32) {
        env->CF = (T1 >> 31) & 1;
        T1 = (int32_t)T1 >> 31;
    } else {
        env->CF = (T1 >> (shift - 1)) & 1;
        T1 = (int32_t)T1 >> shift;
    }
    FORCE_RET();
}

void OPPROTO op_rorl_T1_T0_cc(void)
{
    int shift1, shift;
    shift1 = T0 & 0xff;
    shift = shift1 & 0x1f;
    if (shift == 0) {
        if (shift1 != 0)
            env->CF = (T1 >> 31) & 1;
    } else {
        env->CF = (T1 >> (shift - 1)) & 1;
        T1 = ((uint32_t)T1 >> shift) | (T1 << (32 - shift));
    }
    FORCE_RET();
}

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/* misc */
void OPPROTO op_clz_T0(void)
{
    int count;
    for (count = 32; T0 > 0; count--)
        T0 = T0 >> 1;
    T0 = count;
    FORCE_RET();
}

void OPPROTO op_sarl_T0_im(void)
{
    T0 = (int32_t)T0 >> PARAM1;
}

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/* Sign/zero extend */
void OPPROTO op_sxth_T0(void)
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{
  T0 = (int16_t)T0;
}

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void OPPROTO op_sxth_T1(void)
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{
  T1 = (int16_t)T1;
}

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void OPPROTO op_sxtb_T1(void)
{
    T1 = (int8_t)T1;
}

void OPPROTO op_uxtb_T1(void)
{
    T1 = (uint8_t)T1;
}

void OPPROTO op_uxth_T1(void)
{
    T1 = (uint16_t)T1;
}

void OPPROTO op_sxtb16_T1(void)
{
    uint32_t res;
    res = (uint16_t)(int8_t)T1;
    res |= (uint32_t)(int8_t)(T1 >> 16) << 16;
    T1 = res;
}

void OPPROTO op_uxtb16_T1(void)
{
    uint32_t res;
    res = (uint16_t)(uint8_t)T1;
    res |= (uint32_t)(uint8_t)(T1 >> 16) << 16;
    T1 = res;
}

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#define SIGNBIT (uint32_t)0x80000000
/* saturating arithmetic  */
void OPPROTO op_addl_T0_T1_setq(void)
{
  uint32_t res;

  res = T0 + T1;
  if (((res ^ T0) & SIGNBIT) && !((T0 ^ T1) & SIGNBIT))
      env->QF = 1;

  T0 = res;
  FORCE_RET();
}

void OPPROTO op_addl_T0_T1_saturate(void)
{
  uint32_t res;

  res = T0 + T1;
  if (((res ^ T0) & SIGNBIT) && !((T0 ^ T1) & SIGNBIT)) {
      env->QF = 1;
      if (T0 & SIGNBIT)
          T0 = 0x80000000;
      else
          T0 = 0x7fffffff;
  }
  else
    T0 = res;
  
  FORCE_RET();
}

void OPPROTO op_subl_T0_T1_saturate(void)
{
  uint32_t res;

  res = T0 - T1;
  if (((res ^ T0) & SIGNBIT) && ((T0 ^ T1) & SIGNBIT)) {
      env->QF = 1;
      if (T0 & SIGNBIT)
          T0 = 0x8000000;
      else
          T0 = 0x7fffffff;
  }
  else
    T0 = res;
  
  FORCE_RET();
}

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void OPPROTO op_double_T1_saturate(void)
{
  int32_t val;

  val = T1;
  if (val >= 0x40000000) {
      T1 = 0x7fffffff;
      env->QF = 1;
  } else if (val <= (int32_t)0xc0000000) {
      T1 = 0x80000000;
      env->QF = 1;
  } else {
      T1 = val << 1;
  }
  FORCE_RET();
}

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/* thumb shift by immediate */
void OPPROTO op_shll_T0_im_thumb(void)
{
    int shift;
    shift = PARAM1;
    if (shift != 0) {
	env->CF = (T1 >> (32 - shift)) & 1;
	T0 = T0 << shift;
    }
    env->NZF = T0;
    FORCE_RET();
}

void OPPROTO op_shrl_T0_im_thumb(void)
{
    int shift;

    shift = PARAM1;
    if (shift == 0) {
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	env->CF = ((uint32_t)shift) >> 31;
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	T0 = 0;
    } else {
	env->CF = (T0 >> (shift - 1)) & 1;
	T0 = T0 >> shift;
    }
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    env->NZF = T0;
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    FORCE_RET();
}

void OPPROTO op_sarl_T0_im_thumb(void)
{
    int shift;

    shift = PARAM1;
    if (shift == 0) {
	T0 = ((int32_t)T0) >> 31;
	env->CF = T0 & 1;
    } else {
	env->CF = (T0 >> (shift - 1)) & 1;
	T0 = ((int32_t)T0) >> shift;
    }
    env->NZF = T0;
    FORCE_RET();
}

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/* exceptions */

void OPPROTO op_swi(void)
{
    env->exception_index = EXCP_SWI;
    cpu_loop_exit();
}

void OPPROTO op_undef_insn(void)
{
    env->exception_index = EXCP_UDEF;
    cpu_loop_exit();
}

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void OPPROTO op_debug(void)
{
    env->exception_index = EXCP_DEBUG;
    cpu_loop_exit();
}

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void OPPROTO op_wfi(void)
{
    env->exception_index = EXCP_HLT;
    env->halted = 1;
    cpu_loop_exit();
}

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void OPPROTO op_bkpt(void)
{
    env->exception_index = EXCP_BKPT;
    cpu_loop_exit();
}

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/* VFP support.  We follow the convention used for VFP instrunctions:
   Single precition routines have a "s" suffix, double precision a
   "d" suffix.  */
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#define VFP_OP(name, p) void OPPROTO op_vfp_##name##p(void)
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#define VFP_BINOP(name) \
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VFP_OP(name, s)             \
{                           \
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    FT0s = float32_ ## name (FT0s, FT1s, &env->vfp.fp_status);    \
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}                           \
VFP_OP(name, d)             \
{                           \
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    FT0d = float64_ ## name (FT0d, FT1d, &env->vfp.fp_status);    \
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}
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VFP_BINOP(add)
VFP_BINOP(sub)
VFP_BINOP(mul)
VFP_BINOP(div)
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#undef VFP_BINOP

#define VFP_HELPER(name)  \
VFP_OP(name, s)           \
{                         \
    do_vfp_##name##s();    \
}                         \
VFP_OP(name, d)           \
{                         \
    do_vfp_##name##d();    \
}
VFP_HELPER(abs)
VFP_HELPER(sqrt)
VFP_HELPER(cmp)
VFP_HELPER(cmpe)
#undef VFP_HELPER

/* XXX: Will this do the right thing for NANs.  Should invert the signbit
   without looking at the rest of the value.  */
VFP_OP(neg, s)
{
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    FT0s = float32_chs(FT0s);
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}

VFP_OP(neg, d)
{
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    FT0d = float64_chs(FT0d);
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}

VFP_OP(F1_ld0, s)
{
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    union {
        uint32_t i;
        float32 s;
    } v;
    v.i = 0;
    FT1s = v.s;
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}

VFP_OP(F1_ld0, d)
{
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    union {
        uint64_t i;
        float64 d;
    } v;
    v.i = 0;
    FT1d = v.d;
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}

/* Helper routines to perform bitwise copies between float and int.  */
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static inline float32 vfp_itos(uint32_t i)
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{
    union {
        uint32_t i;
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        float32 s;
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    } v;

    v.i = i;
    return v.s;
}

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static inline uint32_t vfp_stoi(float32 s)
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{
    union {
        uint32_t i;
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        float32 s;
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    } v;

    v.s = s;
    return v.i;
}

/* Integer to float conversion.  */
VFP_OP(uito, s)
{
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    FT0s = uint32_to_float32(vfp_stoi(FT0s), &env->vfp.fp_status);
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}

VFP_OP(uito, d)
{
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    FT0d = uint32_to_float64(vfp_stoi(FT0s), &env->vfp.fp_status);
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}

VFP_OP(sito, s)
{
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    FT0s = int32_to_float32(vfp_stoi(FT0s), &env->vfp.fp_status);
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}

VFP_OP(sito, d)
{
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    FT0d = int32_to_float64(vfp_stoi(FT0s), &env->vfp.fp_status);
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}

/* Float to integer conversion.  */
VFP_OP(toui, s)
{
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    FT0s = vfp_itos(float32_to_uint32(FT0s, &env->vfp.fp_status));
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}

VFP_OP(toui, d)
{
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    FT0s = vfp_itos(float64_to_uint32(FT0d, &env->vfp.fp_status));
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}

VFP_OP(tosi, s)
{
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    FT0s = vfp_itos(float32_to_int32(FT0s, &env->vfp.fp_status));
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}

VFP_OP(tosi, d)
{
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    FT0s = vfp_itos(float64_to_int32(FT0d, &env->vfp.fp_status));
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}

/* TODO: Set rounding mode properly.  */
VFP_OP(touiz, s)
{
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    FT0s = vfp_itos(float32_to_uint32_round_to_zero(FT0s, &env->vfp.fp_status));
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}

VFP_OP(touiz, d)
{
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    FT0s = vfp_itos(float64_to_uint32_round_to_zero(FT0d, &env->vfp.fp_status));
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}

VFP_OP(tosiz, s)
{
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    FT0s = vfp_itos(float32_to_int32_round_to_zero(FT0s, &env->vfp.fp_status));
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}

VFP_OP(tosiz, d)
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{
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    FT0s = vfp_itos(float64_to_int32_round_to_zero(FT0d, &env->vfp.fp_status));
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}

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/* floating point conversion */
VFP_OP(fcvtd, s)
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{
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    FT0d = float32_to_float64(FT0s, &env->vfp.fp_status);
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}

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VFP_OP(fcvts, d)
{
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    FT0s = float64_to_float32(FT0d, &env->vfp.fp_status);
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}

/* Get and Put values from registers.  */
VFP_OP(getreg_F0, d)
{
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  FT0d = *(float64 *)((char *) env + PARAM1);
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}

VFP_OP(getreg_F0, s)
{
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  FT0s = *(float32 *)((char *) env + PARAM1);
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}

VFP_OP(getreg_F1, d)
{
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  FT1d = *(float64 *)((char *) env + PARAM1);
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}

VFP_OP(getreg_F1, s)
{
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  FT1s = *(float32 *)((char *) env + PARAM1);
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}

VFP_OP(setreg_F0, d)
{
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  *(float64 *)((char *) env + PARAM1) = FT0d;
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}

VFP_OP(setreg_F0, s)
{
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  *(float32 *)((char *) env + PARAM1) = FT0s;
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}

void OPPROTO op_vfp_movl_T0_fpscr(void)
{
    do_vfp_get_fpscr ();
}

void OPPROTO op_vfp_movl_T0_fpscr_flags(void)
{
    T0 = env->vfp.fpscr & (0xf << 28);
}

void OPPROTO op_vfp_movl_fpscr_T0(void)
{
    do_vfp_set_fpscr();
}

/* Move between FT0s to T0  */
void OPPROTO op_vfp_mrs(void)
{
    T0 = vfp_stoi(FT0s);
}

void OPPROTO op_vfp_msr(void)
{
    FT0s = vfp_itos(T0);
}

/* Move between FT0d and {T0,T1} */
void OPPROTO op_vfp_mrrd(void)
{
    CPU_DoubleU u;
    
    u.d = FT0d;
    T0 = u.l.lower;
    T1 = u.l.upper;
}

void OPPROTO op_vfp_mdrr(void)
{
    CPU_DoubleU u;
    
    u.l.lower = T0;
    u.l.upper = T1;
    FT0d = u.d;
}

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/* Copy the most significant bit to T0 to all bits of T1.  */
void OPPROTO op_signbit_T1_T0(void)
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{
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    T1 = (int32_t)T0 >> 31;
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}

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void OPPROTO op_movl_cp15_T0(void)
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{
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    helper_set_cp15(env, PARAM1, T0);
    FORCE_RET();
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}

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void OPPROTO op_movl_T0_cp15(void)
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{
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    T0 = helper_get_cp15(env, PARAM1);
    FORCE_RET();
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}

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/* Access to user mode registers from privileged modes.  */
void OPPROTO op_movl_T0_user(void)
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{
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    int regno = PARAM1;
    if (regno == 13) {
        T0 = env->banked_r13[0];
    } else if (regno == 14) {
        T0 = env->banked_r14[0];
    } else if ((env->uncached_cpsr & 0x1f) == ARM_CPU_MODE_FIQ) {
        T0 = env->usr_regs[regno - 8];
    } else {
        T0 = env->regs[regno];
    }
    FORCE_RET();
}


void OPPROTO op_movl_user_T0(void)
{
    int regno = PARAM1;
    if (regno == 13) {
        env->banked_r13[0] = T0;
    } else if (regno == 14) {
        env->banked_r14[0] = T0;
    } else if ((env->uncached_cpsr & 0x1f) == ARM_CPU_MODE_FIQ) {
        env->usr_regs[regno - 8] = T0;
    } else {
        env->regs[regno] = T0;
    }
    FORCE_RET();
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}
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void OPPROTO op_movl_T2_T0(void)
{
    T2 = T0;
}

void OPPROTO op_movl_T0_T2(void)
{
    T0 = T2;
}