2007-12-07 13:59:18 +03:00
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/////////////////////////////////////////////////////////////////////////
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2010-02-26 01:04:31 +03:00
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// $Id: bit32.cc,v 1.18 2010-02-25 22:04:30 sshwarts Exp $
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2007-12-07 13:59:18 +03:00
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/////////////////////////////////////////////////////////////////////////
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//
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2009-12-04 19:53:12 +03:00
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// Copyright (C) 2001-2009 The Bochs Project
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2007-12-07 13:59:18 +03:00
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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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2009-01-16 21:18:59 +03:00
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// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA B 02110-1301 USA
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2007-12-07 13:59:18 +03:00
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/////////////////////////////////////////////////////////////////////////
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#define NEED_CPU_REG_SHORTCUTS 1
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#include "bochs.h"
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#include "cpu.h"
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#define LOG_THIS BX_CPU_THIS_PTR
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#if BX_CPU_LEVEL >= 3
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2008-08-10 23:34:28 +04:00
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::BSF_GdEdR(bxInstruction_c *i)
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2007-12-07 13:59:18 +03:00
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{
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2008-08-10 23:34:28 +04:00
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Bit32u op2_32 = BX_READ_32BIT_REG(i->rm());
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2007-12-07 13:59:18 +03:00
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if (op2_32 == 0) {
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assert_ZF(); /* op1_32 undefined */
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}
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2008-07-13 14:44:34 +04:00
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else {
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2008-08-10 23:34:28 +04:00
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Bit32u op1_32 = 0;
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2008-07-13 14:44:34 +04:00
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while ((op2_32 & 0x01) == 0) {
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op1_32++;
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op2_32 >>= 1;
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}
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2007-12-07 13:59:18 +03:00
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2008-07-13 14:44:34 +04:00
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SET_FLAGS_OSZAPC_LOGIC_32(op1_32);
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clear_ZF();
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2007-12-07 13:59:18 +03:00
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2008-07-13 14:44:34 +04:00
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/* now write result back to destination */
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BX_WRITE_32BIT_REGZ(i->nnn(), op1_32);
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}
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2007-12-07 13:59:18 +03:00
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}
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2008-08-10 23:34:28 +04:00
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::BSR_GdEdR(bxInstruction_c *i)
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2007-12-07 13:59:18 +03:00
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{
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2008-08-10 23:34:28 +04:00
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Bit32u op2_32 = BX_READ_32BIT_REG(i->rm());
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2007-12-07 13:59:18 +03:00
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if (op2_32 == 0) {
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assert_ZF(); /* op1_32 undefined */
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}
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2008-07-13 14:44:34 +04:00
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else {
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2008-08-10 23:34:28 +04:00
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Bit32u op1_32 = 31;
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2008-07-13 14:44:34 +04:00
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while ((op2_32 & 0x80000000) == 0) {
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op1_32--;
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op2_32 <<= 1;
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}
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2007-12-07 13:59:18 +03:00
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2008-07-13 14:44:34 +04:00
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SET_FLAGS_OSZAPC_LOGIC_32(op1_32);
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clear_ZF();
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2007-12-07 13:59:18 +03:00
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2008-07-13 14:44:34 +04:00
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/* now write result back to destination */
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BX_WRITE_32BIT_REGZ(i->nnn(), op1_32);
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}
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2007-12-07 13:59:18 +03:00
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}
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2008-03-23 00:29:41 +03:00
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::BT_EdGdM(bxInstruction_c *i)
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2007-12-07 13:59:18 +03:00
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{
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bx_address op1_addr;
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Bit32u op1_32, op2_32, index;
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Bit32s displacement32;
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2008-08-08 13:22:49 +04:00
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bx_address eaddr = BX_CPU_CALL_METHODR(i->ResolveModrm, (i));
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2007-12-07 13:59:18 +03:00
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2008-01-10 22:37:56 +03:00
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op2_32 = BX_READ_32BIT_REG(i->nnn());
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2007-12-07 13:59:18 +03:00
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index = op2_32 & 0x1f;
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displacement32 = ((Bit32s) (op2_32&0xffffffe0)) / 32;
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2008-08-08 13:22:49 +04:00
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op1_addr = eaddr + 4 * displacement32;
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2008-04-25 11:40:51 +04:00
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if (! i->as32L())
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op1_addr = (Bit16u) op1_addr;
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#if BX_SUPPORT_X86_64
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else if (! i->as64L())
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op1_addr = (Bit32u) op1_addr;
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#endif
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2007-12-07 13:59:18 +03:00
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/* pointer, segment address pair */
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2007-12-20 23:58:38 +03:00
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op1_32 = read_virtual_dword(i->seg(), op1_addr);
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2007-12-07 13:59:18 +03:00
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set_CF((op1_32 >> index) & 0x01);
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}
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2008-03-23 00:29:41 +03:00
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::BT_EdGdR(bxInstruction_c *i)
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2007-12-07 13:59:18 +03:00
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{
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Bit32u op1_32, op2_32;
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op1_32 = BX_READ_32BIT_REG(i->rm());
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op2_32 = BX_READ_32BIT_REG(i->nnn());
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op2_32 &= 0x1f;
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set_CF((op1_32 >> op2_32) & 0x01);
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}
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2008-03-23 00:29:41 +03:00
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::BTS_EdGdM(bxInstruction_c *i)
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2007-12-07 13:59:18 +03:00
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{
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bx_address op1_addr;
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2007-12-23 20:21:28 +03:00
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Bit32u op1_32, op2_32, index;
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2007-12-07 13:59:18 +03:00
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Bit32s displacement32;
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2007-12-23 20:21:28 +03:00
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bx_bool bit_i;
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2007-12-07 13:59:18 +03:00
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2008-08-08 13:22:49 +04:00
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bx_address eaddr = BX_CPU_CALL_METHODR(i->ResolveModrm, (i));
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2007-12-07 13:59:18 +03:00
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2008-01-10 22:37:56 +03:00
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op2_32 = BX_READ_32BIT_REG(i->nnn());
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2007-12-07 13:59:18 +03:00
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index = op2_32 & 0x1f;
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displacement32 = ((Bit32s) (op2_32&0xffffffe0)) / 32;
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2008-08-08 13:22:49 +04:00
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op1_addr = eaddr + 4 * displacement32;
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2008-04-25 11:40:51 +04:00
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if (! i->as32L())
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op1_addr = (Bit16u) op1_addr;
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#if BX_SUPPORT_X86_64
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else if (! i->as64L())
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op1_addr = (Bit32u) op1_addr;
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#endif
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2007-12-07 13:59:18 +03:00
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/* pointer, segment address pair */
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2007-12-20 23:58:38 +03:00
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op1_32 = read_RMW_virtual_dword(i->seg(), op1_addr);
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2007-12-07 13:59:18 +03:00
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bit_i = (op1_32 >> index) & 0x01;
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op1_32 |= (((Bit32u) 1) << index);
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write_RMW_virtual_dword(op1_32);
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set_CF(bit_i);
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}
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2008-03-23 00:29:41 +03:00
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::BTS_EdGdR(bxInstruction_c *i)
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2007-12-07 13:59:18 +03:00
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{
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Bit32u op1_32, op2_32;
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op1_32 = BX_READ_32BIT_REG(i->rm());
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op2_32 = BX_READ_32BIT_REG(i->nnn());
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op2_32 &= 0x1f;
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set_CF((op1_32 >> op2_32) & 0x01);
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op1_32 |= (((Bit32u) 1) << op2_32);
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/* now write result back to the destination */
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BX_WRITE_32BIT_REGZ(i->rm(), op1_32);
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}
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2008-03-23 00:29:41 +03:00
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::BTR_EdGdM(bxInstruction_c *i)
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2007-12-07 13:59:18 +03:00
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{
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bx_address op1_addr;
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Bit32u op1_32, op2_32, index;
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Bit32s displacement32;
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2008-08-08 13:22:49 +04:00
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bx_address eaddr = BX_CPU_CALL_METHODR(i->ResolveModrm, (i));
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2007-12-07 13:59:18 +03:00
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2008-01-10 22:37:56 +03:00
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op2_32 = BX_READ_32BIT_REG(i->nnn());
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2007-12-07 13:59:18 +03:00
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index = op2_32 & 0x1f;
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displacement32 = ((Bit32s) (op2_32&0xffffffe0)) / 32;
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2008-08-08 13:22:49 +04:00
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op1_addr = eaddr + 4 * displacement32;
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2008-04-25 11:40:51 +04:00
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if (! i->as32L())
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op1_addr = (Bit16u) op1_addr;
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#if BX_SUPPORT_X86_64
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else if (! i->as64L())
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op1_addr = (Bit32u) op1_addr;
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#endif
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2007-12-07 13:59:18 +03:00
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/* pointer, segment address pair */
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2007-12-20 23:58:38 +03:00
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op1_32 = read_RMW_virtual_dword(i->seg(), op1_addr);
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2007-12-07 13:59:18 +03:00
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bx_bool temp_cf = (op1_32 >> index) & 0x01;
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op1_32 &= ~(((Bit32u) 1) << index);
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/* now write back to destination */
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write_RMW_virtual_dword(op1_32);
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set_CF(temp_cf);
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}
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2008-03-23 00:29:41 +03:00
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::BTR_EdGdR(bxInstruction_c *i)
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2007-12-07 13:59:18 +03:00
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{
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Bit32u op1_32, op2_32;
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op1_32 = BX_READ_32BIT_REG(i->rm());
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op2_32 = BX_READ_32BIT_REG(i->nnn());
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op2_32 &= 0x1f;
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set_CF((op1_32 >> op2_32) & 0x01);
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op1_32 &= ~(((Bit32u) 1) << op2_32);
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/* now write result back to the destination */
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BX_WRITE_32BIT_REGZ(i->rm(), op1_32);
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}
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2008-03-23 00:29:41 +03:00
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::BTC_EdGdM(bxInstruction_c *i)
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2007-12-07 13:59:18 +03:00
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{
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bx_address op1_addr;
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Bit32u op1_32, op2_32, index_32;
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Bit32s displacement32;
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2008-08-08 13:22:49 +04:00
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bx_address eaddr = BX_CPU_CALL_METHODR(i->ResolveModrm, (i));
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2008-01-10 22:37:56 +03:00
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2007-12-07 13:59:18 +03:00
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op2_32 = BX_READ_32BIT_REG(i->nnn());
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index_32 = op2_32 & 0x1f;
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displacement32 = ((Bit32s) (op2_32 & 0xffffffe0)) / 32;
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2008-08-08 13:22:49 +04:00
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op1_addr = eaddr + 4 * displacement32;
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2008-04-25 11:40:51 +04:00
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if (! i->as32L())
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op1_addr = (Bit16u) op1_addr;
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#if BX_SUPPORT_X86_64
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else if (! i->as64L())
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op1_addr = (Bit32u) op1_addr;
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#endif
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2007-12-07 13:59:18 +03:00
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2008-04-25 11:40:51 +04:00
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op1_32 = read_RMW_virtual_dword(i->seg(), op1_addr);
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2007-12-07 13:59:18 +03:00
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bx_bool temp_CF = (op1_32 >> index_32) & 0x01;
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op1_32 ^= (((Bit32u) 1) << index_32); /* toggle bit */
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set_CF(temp_CF);
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write_RMW_virtual_dword(op1_32);
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}
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2008-03-23 00:29:41 +03:00
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::BTC_EdGdR(bxInstruction_c *i)
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2007-12-07 13:59:18 +03:00
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{
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Bit32u op1_32, op2_32;
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op1_32 = BX_READ_32BIT_REG(i->rm());
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op2_32 = BX_READ_32BIT_REG(i->nnn());
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op2_32 &= 0x1f;
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bx_bool temp_CF = (op1_32 >> op2_32) & 0x01;
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op1_32 ^= (((Bit32u) 1) << op2_32); /* toggle bit */
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set_CF(temp_CF);
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BX_WRITE_32BIT_REGZ(i->rm(), op1_32);
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}
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2008-03-23 00:29:41 +03:00
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::BT_EdIbM(bxInstruction_c *i)
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2007-12-07 13:59:18 +03:00
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{
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2008-08-08 13:22:49 +04:00
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bx_address eaddr = BX_CPU_CALL_METHODR(i->ResolveModrm, (i));
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2008-01-10 22:37:56 +03:00
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2008-08-08 13:22:49 +04:00
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Bit32u op1_32 = read_virtual_dword(i->seg(), eaddr);
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2007-12-20 23:58:38 +03:00
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Bit8u op2_8 = i->Ib() & 0x1f;
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2007-12-07 13:59:18 +03:00
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set_CF((op1_32 >> op2_8) & 0x01);
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}
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2008-03-23 00:29:41 +03:00
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::BT_EdIbR(bxInstruction_c *i)
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2007-12-07 13:59:18 +03:00
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{
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Bit32u op1_32 = BX_READ_32BIT_REG(i->rm());
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Bit8u op2_8 = i->Ib() & 0x1f;
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set_CF((op1_32 >> op2_8) & 0x01);
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}
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2008-03-23 00:29:41 +03:00
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::BTS_EdIbM(bxInstruction_c *i)
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2007-12-07 13:59:18 +03:00
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{
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Bit8u op2_8 = i->Ib() & 0x1f;
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2008-08-08 13:22:49 +04:00
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bx_address eaddr = BX_CPU_CALL_METHODR(i->ResolveModrm, (i));
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2008-01-10 22:37:56 +03:00
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2008-08-08 13:22:49 +04:00
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Bit32u op1_32 = read_RMW_virtual_dword(i->seg(), eaddr);
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2007-12-07 13:59:18 +03:00
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bx_bool temp_CF = (op1_32 >> op2_8) & 0x01;
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op1_32 |= (((Bit32u) 1) << op2_8);
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write_RMW_virtual_dword(op1_32);
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set_CF(temp_CF);
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}
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2008-03-23 00:29:41 +03:00
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::BTS_EdIbR(bxInstruction_c *i)
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2007-12-07 13:59:18 +03:00
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{
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Bit8u op2_8 = i->Ib() & 0x1f;
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2007-12-20 23:58:38 +03:00
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Bit32u op1_32 = BX_READ_32BIT_REG(i->rm());
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2007-12-07 13:59:18 +03:00
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bx_bool temp_CF = (op1_32 >> op2_8) & 0x01;
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op1_32 |= (((Bit32u) 1) << op2_8);
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BX_WRITE_32BIT_REGZ(i->rm(), op1_32);
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set_CF(temp_CF);
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}
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2008-03-23 00:29:41 +03:00
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::BTC_EdIbM(bxInstruction_c *i)
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2007-12-07 13:59:18 +03:00
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{
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Bit8u op2_8 = i->Ib() & 0x1f;
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2008-08-08 13:22:49 +04:00
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bx_address eaddr = BX_CPU_CALL_METHODR(i->ResolveModrm, (i));
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2008-01-10 22:37:56 +03:00
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2008-08-08 13:22:49 +04:00
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Bit32u op1_32 = read_RMW_virtual_dword(i->seg(), eaddr);
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2007-12-07 13:59:18 +03:00
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bx_bool temp_CF = (op1_32 >> op2_8) & 0x01;
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op1_32 ^= (((Bit32u) 1) << op2_8); /* toggle bit */
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write_RMW_virtual_dword(op1_32);
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set_CF(temp_CF);
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}
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2008-03-23 00:29:41 +03:00
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::BTC_EdIbR(bxInstruction_c *i)
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2007-12-07 13:59:18 +03:00
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{
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Bit8u op2_8 = i->Ib() & 0x1f;
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2007-12-20 23:58:38 +03:00
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Bit32u op1_32 = BX_READ_32BIT_REG(i->rm());
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2007-12-07 13:59:18 +03:00
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bx_bool temp_CF = (op1_32 >> op2_8) & 0x01;
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op1_32 ^= (((Bit32u) 1) << op2_8); /* toggle bit */
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BX_WRITE_32BIT_REGZ(i->rm(), op1_32);
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set_CF(temp_CF);
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}
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2008-03-23 00:29:41 +03:00
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::BTR_EdIbM(bxInstruction_c *i)
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2007-12-07 13:59:18 +03:00
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{
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Bit8u op2_8 = i->Ib() & 0x1f;
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2008-08-08 13:22:49 +04:00
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bx_address eaddr = BX_CPU_CALL_METHODR(i->ResolveModrm, (i));
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2008-01-10 22:37:56 +03:00
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2008-08-08 13:22:49 +04:00
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Bit32u op1_32 = read_RMW_virtual_dword(i->seg(), eaddr);
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2007-12-07 13:59:18 +03:00
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bx_bool temp_CF = (op1_32 >> op2_8) & 0x01;
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op1_32 &= ~(((Bit32u) 1) << op2_8);
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write_RMW_virtual_dword(op1_32);
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set_CF(temp_CF);
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}
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2008-03-23 00:29:41 +03:00
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::BTR_EdIbR(bxInstruction_c *i)
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2007-12-07 13:59:18 +03:00
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{
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Bit8u op2_8 = i->Ib() & 0x1f;
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2007-12-20 23:58:38 +03:00
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Bit32u op1_32 = BX_READ_32BIT_REG(i->rm());
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2007-12-07 13:59:18 +03:00
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bx_bool temp_CF = (op1_32 >> op2_8) & 0x01;
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op1_32 &= ~(((Bit32u) 1) << op2_8);
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BX_WRITE_32BIT_REGZ(i->rm(), op1_32);
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set_CF(temp_CF);
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}
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2010-02-09 22:44:25 +03:00
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/* F3 0F B8 */
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2008-08-11 01:16:12 +04:00
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::POPCNT_GdEdR(bxInstruction_c *i)
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2007-12-07 13:59:18 +03:00
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{
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2008-08-11 01:16:12 +04:00
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Bit32u op2_32 = BX_READ_32BIT_REG(i->rm());
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2007-12-07 13:59:18 +03:00
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2008-08-11 01:16:12 +04:00
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Bit32u op1_32 = 0;
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2007-12-07 13:59:18 +03:00
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while (op2_32 != 0) {
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if (op2_32 & 1) op1_32++;
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op2_32 >>= 1;
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}
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Bit32u flags = op1_32 ? 0 : EFlagsZFMask;
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setEFlagsOSZAPC(flags);
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/* now write result back to destination */
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BX_WRITE_32BIT_REGZ(i->nnn(), op1_32);
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}
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#endif // (BX_CPU_LEVEL >= 3)
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