pcsx2/common/include/x86emitter/internal.h

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/* PCSX2 - PS2 Emulator for PCs
* Copyright (C) 2002-2010 PCSX2 Dev Team
*
* PCSX2 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 Found-
* ation, either version 3 of the License, or (at your option) any later version.
*
* PCSX2 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License along with PCSX2.
* If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
#include "x86types.h"
#include "instructions.h"
namespace x86Emitter {
#define OpWriteSSE( pre, op ) xOpWrite0F( pre, op, to, from )
extern void SimdPrefix( u8 prefix, u16 opcode );
extern void EmitSibMagic( uint regfield, const void* address );
extern void EmitSibMagic( uint regfield, const xIndirectVoid& info );
extern void EmitSibMagic( uint reg1, const xRegisterBase& reg2 );
extern void EmitSibMagic( const xRegisterBase& reg1, const xRegisterBase& reg2 );
extern void EmitSibMagic( const xRegisterBase& reg1, const void* src );
extern void EmitSibMagic( const xRegisterBase& reg1, const xIndirectVoid& sib );
extern void EmitRex( uint regfield, const void* address );
extern void EmitRex( uint regfield, const xIndirectVoid& info );
extern void EmitRex( uint reg1, const xRegisterBase& reg2 );
extern void EmitRex( const xRegisterBase& reg1, const xRegisterBase& reg2 );
extern void EmitRex( const xRegisterBase& reg1, const void* src );
extern void EmitRex( const xRegisterBase& reg1, const xIndirectVoid& sib );
extern void _xMovRtoR( const xRegisterInt& to, const xRegisterInt& from );
template< typename T > inline
void xWrite( T val )
{
*(T*)x86Ptr = val;
x86Ptr += sizeof(T);
}
template< typename T1, typename T2 > __emitinline
void xOpWrite( u8 prefix, u8 opcode, const T1& param1, const T2& param2 )
{
if( prefix != 0 ) xWrite8( prefix );
EmitRex( param1, param2 );
xWrite8( opcode );
EmitSibMagic( param1, param2 );
}
template< typename T1, typename T2 > __emitinline
void xOpAccWrite( u8 prefix, u8 opcode, const T1& param1, const T2& param2 )
{
if( prefix != 0 ) xWrite8( prefix );
EmitRex( param1, param2 );
xWrite8( opcode );
}
2016-01-17 11:07:41 +00:00
//////////////////////////////////////////////////////////////////////////////////////////
// emitter helpers for xmm instruction with prefixes, most of which are using
// the basic opcode format (items inside braces denote optional or conditional
// emission):
//
// [Prefix] / 0x0f / [OpcodePrefix] / Opcode / ModRM+[SibSB]
//
// Prefixes are typically 0x66, 0xf2, or 0xf3. OpcodePrefixes are either 0x38 or
// 0x3a [and other value will result in assertion failue].
//
template< typename T1, typename T2 > __emitinline
void xOpWrite0F( u8 prefix, u16 opcode, const T1& param1, const T2& param2 )
{
if( prefix != 0 ) xWrite8( prefix );
EmitRex( param1, param2 );
SimdPrefix( 0, opcode );
EmitSibMagic( param1, param2 );
}
template< typename T1, typename T2 > __emitinline
void xOpWrite0F( u8 prefix, u16 opcode, const T1& param1, const T2& param2, u8 imm8 )
{
xOpWrite0F( prefix, opcode, param1, param2 );
xWrite8( imm8 );
}
template< typename T1, typename T2 > __emitinline
void xOpWrite0F( u16 opcode, const T1& param1, const T2& param2 ) { xOpWrite0F( 0, opcode, param1, param2 ); }
template< typename T1, typename T2 > __emitinline
void xOpWrite0F( u16 opcode, const T1& param1, const T2& param2, u8 imm8 ) { xOpWrite0F( 0, opcode, param1, param2, imm8 ); }
// VEX 2 Bytes Prefix
template< typename T1, typename T2, typename T3 > __emitinline
void xOpWriteC5( u8 prefix, u8 opcode, const T1& param1, const T2& param2, const T3& param3 )
{
pxAssert( prefix == 0 || prefix == 0x66 || prefix == 0xF3 || prefix == 0xF2 );
const xRegisterInt& reg = param1.IsReg() ? param1 : param2;
#ifdef __x86_64__
u8 nR = reg.IsExtended() ? 0x00 : 0x80;
#else
u8 nR = 0x80;
#endif
u8 L = reg.IsWideSIMD() ? 4 : 0;
u8 nv = (~param2.GetId() & 0xF) << 3;
u8 p =
prefix == 0xF2 ? 3 :
prefix == 0xF3 ? 2 :
prefix == 0x66 ? 1 : 0;
xWrite8( 0xC5 );
xWrite8( nR | nv | L | p );
xWrite8( opcode );
EmitSibMagic( param1, param3 );
}
// VEX 3 Bytes Prefix
template< typename T1, typename T2, typename T3 > __emitinline
void xOpWriteC4( u8 prefix, u8 mb_prefix, u8 opcode, const T1& param1, const T2& param2, const T3& param3, int w = -1 )
{
pxAssert( prefix == 0 || prefix == 0x66 || prefix == 0xF3 || prefix == 0xF2 );
pxAssert( mb_prefix == 0x0F || mb_prefix == 0x38 || mb_prefix == 0x3A );
const xRegisterInt& reg = param1.IsReg() ? param1 : param2;
#ifdef __x86_64__
u8 nR = reg.IsExtended() ? 0x00 : 0x80;
u8 nB = param3.IsExtended() ? 0x00 : 0x20;
u8 nX = 0x40; // likely unused so hardwired to disabled
#else
u8 nR = 0x80;
u8 nB = 0x20;
u8 nX = 0x40;
#endif
u8 L = reg.IsWideSIMD() ? 4 : 0;
u8 W = (w == -1) ? (reg.GetOperandSize() == 8 ? 0x80 : 0) : // autodetect the size
0x80 * w; // take directly the W value
u8 nv = (~param2.GetId() & 0xF) << 3;
u8 p =
prefix == 0xF2 ? 3 :
prefix == 0xF3 ? 2 :
prefix == 0x66 ? 1 : 0;
u8 m =
mb_prefix == 0x3A ? 3 :
mb_prefix == 0x38 ? 2 : 1;
xWrite8( 0xC4 );
xWrite8( nR | nX | nB | m );
xWrite8( W | nv | L | p );
xWrite8( opcode );
EmitSibMagic( param1, param3 );
}
}