rsp_x86.c

/*
 * RSP Compiler plug in for Project 64 (A Nintendo 64 emulator).
 *
 * (c) Copyright 2001 jabo (jabo@emulation64.com) and
 * zilmar (zilmar@emulation64.com)
 *
 * pj64 homepage: www.pj64.net
 *
 * Permission to use, copy, modify and distribute Project64 in both binary and
 * source form, for non-commercial purposes, is hereby granted without fee,
 * providing that this license information and copyright notice appear with
 * all copies and any derived work.
 *
 * This software is provided 'as-is', without any express or implied
 * warranty. In no event shall the authors be held liable for any damages
 * arising from the use of this software.
 *
 * Project64 is freeware for PERSONAL USE only. Commercial users should
 * seek permission of the copyright holders first. Commercial use includes
 * charging money for Project64 or software derived from Project64.
 *
 * The copyright holders request that bug fixes and improvements to the code
 * should be forwarded to them so if they want them.
 *
 */

#include "rsp.h"
#include "rsp_x86.h"
#include "main.h"
#include "memory.h"

#define PUTDST8(dest,value)  {(*((uint8_t *)(dest))=(uint8_t)(value)); dest += 1;}
#define PUTDST16(dest,value) {(*((uint16_t *)(dest))=(uint16_t)(value)); dest += 2;}
#define PUTDST32(dest,value) {(*((uint32_t *)(dest))=(uint32_t)(value)); dest += 4;}
#define PUTDST64(dest,value) {(*((uint64_t *)(dest))=(uint64_t)(value)); dest += 8;}


#define x64_Reg     0x10
#define X64_Reg     0x10
#define X64_Ext     0x20

extern uint8_t Index[9];


char * x86_Strings[8] =
{
    "eax", "ebx", "ecx", "edx",
    "esi", "edi", "ebp", "esp"
};

char * x86_ByteStrings[8] =
{
    "al", "bl", "cl", "dl",
    "?4", "?5", "?6", "?7"
};

char * x86_HalfStrings[8] =
{
    "ax", "bx", "cx", "dx",
    "si", "di", "bp", "sp"
};

extern uint32_t ConditionalMove;

#define x86Byte_Name(Reg) (x86_ByteStrings[(Reg)])
#define x86Half_Name(Reg) (x86_HalfStrings[(Reg)])



void RSPAdcX86regToVariable(int32_t x86reg, void * Variable)
{
    OPCODE_REG_VARIABLE(,8,0x11,x86reg,Variable)
}

void RSPAdcConstToVariable(void *Variable, uint8_t Constant)
{
    RSPBreakPoint();

    /*if(((uintptr_t)Variable - (uintptr_t)TLB_Map) < 0x7FFFFFFF) {
        RSPBreakPoint();
        OPCODE_REG_MREG_IMM32(8,0x81,OP_D2,x86_R15,(uintptr_t)Variable - (uintptr_t)TLB_Map);
    } else {
        LOAD_VARIABLE(x86_TEMP, Variable);
        OPCODE_REG_MREG(8,0x81,OP_D2,x86_TEMP);
    }

    PUTDST8(RSPRecompPos,Constant);
    */
}

void RSPAdcX86RegToX86Reg(int32_t Destination, int32_t Source)
{
    OPCODE_REG_REG(8,0x13,Destination,Source);
}

void RSPAddConstToVariable (uint32_t Const, void *Variable)
{
    OPCODE_REG_VARIABLE(,8,0x81,OP_D0,Variable)
    PUTDST32(RSPRecompPos,Const);
}

void RSPAddConstToX86Reg64 (int32_t x86reg, uint32_t Const)
{
    if ((Const & 0xFFFFFF80) != 0 && (Const & 0xFFFFFF80) != 0xFFFFFF80)
    {
        OPCODE_REG_REG(8,0x81,OP_D0,x86reg | x64_Reg);
        PUTDST32(RSPRecompPos, Const);
    }
    else
    {
        OPCODE_REG_REG(8,0x83,OP_D0,x86reg | x64_Reg);
        PUTDST8(RSPRecompPos, Const);
    }
}

void RSPAddConstToX86Reg (int32_t x86reg, uint32_t Const)
{
    if ((Const & 0xFFFFFF80) != 0 && (Const & 0xFFFFFF80) != 0xFFFFFF80)
    {
        OPCODE_REG_REG(8,0x81,OP_D0,x86reg);
        PUTDST32(RSPRecompPos, Const);
    }
    else
    {
        OPCODE_REG_REG(8,0x83,OP_D0,x86reg);
        PUTDST8(RSPRecompPos, Const);
    }
}


void RSPAddQwordToX86Reg (int32_t x86reg, uint64_t Const)
{
#ifdef USEX64
    LOAD_VARIABLE(x86_TEMP, Const);
    OPCODE_REG_REG(8,0x1,x86_TEMP,x86reg);
#else
    RSPAddConstToX86Reg(x86reg, Const);
#endif
}


void RSPAddVariableToX86reg(int32_t x86reg, void * Variable)
{
    OPCODE_REG_VARIABLE(,8,0x3,x86reg,Variable)
}

void RSPAddX86regToVariable(int32_t x86reg, void * Variable)
{
    OPCODE_REG_VARIABLE(,8,0x1,x86reg,Variable)
}

void RSPAddX86RegToX86Reg(int32_t Destination, int32_t Source)
{
    OPCODE_REG_REG(8,0x3,Destination,Source);
}

void RSPAndConstToVariable (uint32_t Const, void *Variable)
{
    OPCODE_REG_VARIABLE(,8,0x81,OP_D4,Variable)
    PUTDST32(RSPRecompPos,Const);
}

void RSPAndConstToX86Reg(int32_t x86reg, uint32_t Const)
{
    if ((Const & 0xFFFFFF80) != 0 && (Const & 0xFFFFFF80) != 0xFFFFFF80)
    {
        OPCODE_REG_REG(8,0x81,OP_D4,x86reg);
        PUTDST32(RSPRecompPos, Const);
    }
    else
    {
        OPCODE_REG_REG(8,0x83,OP_D4,x86reg);
        PUTDST8(RSPRecompPos, Const);
    }
}

void RSPAndVariableDispToX86Reg(void *Variable, int32_t x86reg, int32_t AddrReg, int32_t Multiplier)
{
#ifdef USEX64
    if(((uintptr_t)Variable - (uintptr_t)TLB_Map) < 0x7FFFFFFF)
    {
        OPCODE_REG_BASE_INDEX_SCALE_IMM32(8,0x23,x86reg,x86_R15,AddrReg,Index[Multiplier], (uintptr_t)Variable - (uintptr_t)TLB_Map);
    }
    else
    {
        LOAD_VARIABLE(x86_TEMP, Variable);
        OPCODE_REG_BASE_INDEX_SCALE(8,0x23,x86reg,x86_TEMP,AddrReg,Index[Multiplier]);
    }
#else
    OPCODE_REG_INDEX_SCALE_IMM32(8,0x23,x86reg,AddrReg,Index[Multiplier],Variable);
#endif
}

void RSPAndVariableToX86Reg(void * Variable, int32_t x86reg)
{
    OPCODE_REG_VARIABLE(,8,0x23,x86reg,Variable)
}

void RSPAndX86RegToX86Reg(int32_t Destination, int32_t Source)
{
    OPCODE_REG_REG(8,0x21,Source,Destination);
}

void RSPBreakPoint (void)
{
    PUTDST8(RSPRecompPos,0xCC);
}

void RSPCall_Direct(void * FunctAddress)
{
#ifdef USEX64
//  disp = (uintptr_t)FunctAddress-(uintptr_t)RSPRecompPos - 5;
    RSPSubConstFromX86Reg(x86_RSP, 0x28);
//  if(disp <= 0x7fffffff) {
//      PUTDST8(RSPRecompPos,0xE8);
//      PUTDST32(RSPRecompPos,disp);
//  } else {
    LOAD_VARIABLE(x86_TEMP, FunctAddress);
    OPCODE_REG_REG(8,0xff,OP_D2,x86_TEMP);

//  }
    RSPAddConstToX86Reg(x86_RSP, 0x28);
#else
    uintptr_t disp = (uintptr_t)FunctAddress-(uintptr_t)RSPRecompPos - 5;
    PUTDST8(RSPRecompPos,0xE8);
    PUTDST32(RSPRecompPos,disp);
#endif
}

void RSPCompConstToVariable(uint32_t Const, void * Variable)
{
    OPCODE_REG_VARIABLE(,8,0x81,OP_D7,Variable)
    PUTDST32(RSPRecompPos,Const);
}

void RSPCompConstToX86reg(int32_t x86reg, uint32_t Const)
{
    if ((Const & 0xFFFFFF80) != 0 && (Const & 0xFFFFFF80) != 0xFFFFFF80)
    {
        OPCODE_REG_REG(8,0x81,OP_D7,x86reg);
        PUTDST32(RSPRecompPos,Const);
    }
    else
    {
        OPCODE_REG_REG(8,0x83,OP_D7,x86reg);
        PUTDST8(RSPRecompPos, Const);
    }
}

void RSPCompX86regToVariable(int32_t x86reg, void * Variable)
{
    OPCODE_REG_VARIABLE(,8,0x3B,x86reg,Variable)
}

void RSPCompX86RegToX86Reg(int32_t Destination, int32_t Source)
{
    OPCODE_REG_REG(8,0x3B,Destination,Source);
}

void RSPDecX86reg(int x86reg)
{
    OPCODE_REG_REG(8,0xFF,OP_D1,x86reg);
}

void RSPDivX86reg(int32_t x86reg)
{
    OPCODE_REG_REG(8,0xF7,OP_D6,x86reg);
}

void RSPidivX86reg(int32_t x86reg)
{
    OPCODE_REG_REG(8,0xF7,OP_D7,x86reg);
}

void RSPimulX86reg(int32_t x86reg)
{
    OPCODE_REG_REG(8,0xF7,OP_D5,x86reg);
}

void RSPIncX86reg(int32_t x86reg)
{
    OPCODE_REG_REG(8,0xFF,OP_D0,x86reg);
}

void RSPJaeLabel8( uint8_t Value)
{
    PUTDST8(RSPRecompPos,0x73);
    PUTDST8(RSPRecompPos,Value);
}

void RSPJaeLabel32(uint32_t Value)
{
    PUTDST16(RSPRecompPos,0x830F);
    PUTDST32(RSPRecompPos,Value);
}

void RSPJaLabel8( uint8_t Value)
{
    PUTDST8(RSPRecompPos,0x77);
    PUTDST8(RSPRecompPos,Value);
}

void RSPJaLabel32(uint32_t Value)
{
    PUTDST16(RSPRecompPos,0x870F);
    PUTDST32(RSPRecompPos,Value);
}

void RSPJbLabel8( uint8_t Value)
{
    PUTDST8(RSPRecompPos,0x72);
    PUTDST8(RSPRecompPos,Value);
}

void RSPJbLabel32(uint32_t Value)
{
    PUTDST16(RSPRecompPos,0x820F);
    PUTDST32(RSPRecompPos,Value);
}

void RSPJecxzLabel8( uint8_t Value)
{
    PUTDST8(RSPRecompPos,0xE3);
    PUTDST8(RSPRecompPos,Value);
}

void RSPJeLabel8( uint8_t Value)
{
    PUTDST8(RSPRecompPos,0x74);
    PUTDST8(RSPRecompPos,Value);
}

void RSPJeLabel32(uint32_t Value)
{
    PUTDST16(RSPRecompPos,0x840F);
    PUTDST32(RSPRecompPos,Value);
}

void RSPJgeLabel32(uint32_t Value)
{
    PUTDST16(RSPRecompPos,0x8D0F);
    PUTDST32(RSPRecompPos,Value);
}

void RSPJgLabel8( uint8_t Value)
{
    PUTDST8(RSPRecompPos,0x7F);
    PUTDST8(RSPRecompPos,Value);
}

void RSPJgLabel32(uint32_t Value)
{
    PUTDST16(RSPRecompPos,0x8F0F);
    PUTDST32(RSPRecompPos,Value);
}

void RSPJleLabel8( uint8_t Value)
{
    PUTDST8(RSPRecompPos,0x7E);
    PUTDST8(RSPRecompPos,Value);
}

void RSPJleLabel32(uint32_t Value)
{
    PUTDST16(RSPRecompPos,0x8E0F);
    PUTDST32(RSPRecompPos,Value);
}

void RSPJlLabel8( uint8_t Value)
{
    PUTDST8(RSPRecompPos,0x7C);
    PUTDST8(RSPRecompPos,Value);
}

void RSPJlLabel32(uint32_t Value)
{
    PUTDST16(RSPRecompPos,0x8C0F);
    PUTDST32(RSPRecompPos,Value);
}

void RSPJzLabel8( uint8_t Value)
{
    PUTDST8(RSPRecompPos,0x74);
    PUTDST8(RSPRecompPos,Value);
}

void RSPJnzLabel8( uint8_t Value)
{
    PUTDST8(RSPRecompPos,0x75);
    PUTDST8(RSPRecompPos,Value);
}


void RSPJmpDirectReg( int32_t x86reg )
{
    OPCODE_REG_REG(8,0xff,OP_D4,x86reg);
}

void RSPJmpLabel8( uint8_t Value)
{
    PUTDST8(RSPRecompPos,0xEB);
    PUTDST8(RSPRecompPos,Value);
}

void RSPJmpLabel32( uint32_t Value)
{
    PUTDST8(RSPRecompPos,0xE9);
    PUTDST32(RSPRecompPos,Value);
}

void RSPJneLabel8( uint8_t Value)
{
    PUTDST8(RSPRecompPos,0x75);
    PUTDST8(RSPRecompPos,Value);
}

void RSPJneLabel32(uint32_t Value)
{
    PUTDST16(RSPRecompPos,0x850F);
    PUTDST32(RSPRecompPos,Value);
}

void RSPJnsLabel8( uint8_t Value)
{
    PUTDST8(RSPRecompPos,0x79);
    PUTDST8(RSPRecompPos,Value);
}

void RSPJnsLabel32(uint32_t Value)
{
    PUTDST16(RSPRecompPos,0x890F);
    PUTDST32(RSPRecompPos,Value);
}

void RSPJsLabel32(uint32_t Value)
{
    PUTDST16(RSPRecompPos,0x880F);
    PUTDST32(RSPRecompPos,Value);
}

void RSPLeaRegReg(int32_t x86RegDest, int32_t x86RegSrc, int32_t multiplier)
{
    OPCODE_REG_BASE_INDEX_SCALE(8,0x8D,x86RegDest,x86_EBP,x86RegSrc,Index[multiplier]);
    PUTDST32(RSPRecompPos,0x00000000);
}

void RSPLeaSourceAndOffset(int32_t x86DestReg, int32_t x86SourceReg, int32_t offset)
{
    OPCODE_REG_MREG_IMM32(8,0x8D,x86DestReg,x86SourceReg,offset);
}

void RSPMoveConstByteToVariable (uint8_t Const,void *Variable)
{
    OPCODE_REG_VARIABLE(,8,0xC6,OP_D0,Variable)
    PUTDST8(RSPRecompPos,Const);
}

void RSPMoveConstHalfToVariable (uint16_t Const,void *Variable)
{
    OPCODE_REG_VARIABLE(PUTDST8(RSPRecompPos,0x66),8,0xC7,OP_D0,Variable)
    PUTDST16(RSPRecompPos,Const);
}

void RSPMoveConstHalfToX86regPointer(uint16_t Const, int32_t AddrReg1, int32_t AddrReg2)
{
    PUTDST8(RSPRecompPos,0x66);
    OPCODE_REG_BASE_INDEX(8,0xC7,OP_D0,AddrReg1,AddrReg2);
    PUTDST16(RSPRecompPos,Const);
}

void RSPMoveX86regByteToN64Mem(int32_t x86reg, int32_t AddrReg)
{
    OPCODE_REG_ADDR_DMEM(,8,0x88,x86reg,AddrReg);
}

void RSPMoveX86regHalfToN64Mem(int32_t x86reg, int32_t AddrReg)
{
    OPCODE_REG_ADDR_DMEM(PUTDST8(RSPRecompPos,0x66),8,0x89,x86reg,AddrReg);
}

void RSPMoveX86regToN64Mem(int32_t x86reg, int32_t AddrReg)
{
    OPCODE_REG_ADDR_DMEM(,8,0x89,x86reg,AddrReg);
}


void RSPMoveConstToVariable (uint32_t Const,void *Variable)
{
    OPCODE_REG_VARIABLE(,8,0xC7,OP_D0,Variable)
    PUTDST32(RSPRecompPos,Const);
}

void RSPMoveConstToX86Pointer(uint32_t Const, int32_t X86Pointer)
{
    OPCODE_REG_MREG(8,0xC7,OP_D0,X86Pointer);
    PUTDST32(RSPRecompPos,Const);
}


void RSPMoveOffsetToX86reg(uint32_t Const, int32_t x86reg)
{
    OPCODE_REG_REG(8,0xC7,OP_D0,x86reg);
    PUTDST32(RSPRecompPos,Const);
}


void RSPMoveConstToX86reg(uint32_t Const, int32_t x86reg)
{
    OPCODE_REG_REG(8,0xC7,OP_D0,x86reg);
    PUTDST32(RSPRecompPos,Const);
}

void RSPMoveConstQwordToX86reg(uintptr_t Const, int32_t x86reg)
{
#ifndef USEX64
    OPCODE_REG_REG(8,0xC7,OP_D0,x86reg);
    PUTDST32(RSPRecompPos,Const);
#else
    PUTDST8(RSPRecompPos, 0x48 | ((x86reg&0x20)>>5));
    PUTDST8(RSPRecompPos, 0xB8 | ((x86reg-1)&0x7));
    PUTDST64(RSPRecompPos,Const);
#endif
}

void RSPMoveConstByteToX86regPointer(uint8_t Const, int32_t AddrReg1, int32_t AddrReg2)
{
    OPCODE_REG_BASE_INDEX(8,0xC6,OP_D0,AddrReg1,AddrReg2)
    PUTDST8(RSPRecompPos,Const);
}

void RSPMoveConstToX86regPointer(uint32_t Const, int32_t AddrReg1, int32_t AddrReg2)
{
    OPCODE_REG_BASE_INDEX(8,0xC7,OP_D0,AddrReg1,AddrReg2);
    PUTDST32(RSPRecompPos,Const);
}

void RSPMoveN64MemToX86reg(int32_t x86reg, int32_t AddrReg)
{
#ifdef USEX64
    if(((uintptr_t)DMEM - (uintptr_t)TLB_Map) < 0x7FFFFFFF)
    {
        OPCODE_REG_BASE_INDEX_IMM32(8,0x8B,x86reg,x86_R15,AddrReg,(uintptr_t)DMEM - (uintptr_t)TLB_Map);
    }
    else
    {
        LOAD_VARIABLE(x86_TEMP, DMEM);
        OPCODE_REG_BASE_INDEX(8,0x8B,x86reg,x86_TEMP,AddrReg);
    }
#else
    OPCODE_REG_MREG_IMM32(8,0x8B,x86reg,AddrReg,DMEM);
#endif
}

void RSPMoveSxByteX86regPointerToX86reg(int32_t AddrReg1, int32_t AddrReg2, int32_t x86reg)
{
    OPCODE_REG_BASE_INDEX(16,0xBE0F,x86reg,AddrReg1,AddrReg2);
}

void RSPMoveSxHalfX86regPointerToX86reg(int32_t AddrReg1, int32_t AddrReg2, int32_t x86reg)
{
    OPCODE_REG_BASE_INDEX(16,0xBF0F,x86reg,AddrReg1,AddrReg2);
}


void RSPMoveN64MemToX86regByte(int32_t x86reg, int32_t AddrReg)
{
    OPCODE_REG_ADDR_DMEM(,8,0x8A,x86reg,AddrReg);
}


void RSPMoveSxN64MemToX86regByte(int32_t x86reg, int32_t AddrReg)
{
    OPCODE_REG_ADDR_DMEM(,16,0xBE0F,x86reg,AddrReg);
}

void RSPMoveSxVariableToX86regHalf(void *Variable, int32_t x86reg)
{
    OPCODE_REG_VARIABLE(,16,0xBF0F,x86reg,Variable);
}


void RSPMoveSxN64MemToX86regHalf(int32_t x86reg, int32_t AddrReg)
{
    OPCODE_REG_ADDR_DMEM(,16,0xBF0F,x86reg,AddrReg);
}

void RSPMoveZxN64MemToX86regHalf(int32_t x86reg, int32_t AddrReg)
{
    OPCODE_REG_ADDR_DMEM(,16,0xB70F,x86reg,AddrReg);
}

void RSPMoveVariableToX86reg(void *Variable, int32_t x86reg)
{
    OPCODE_REG_VARIABLE(,8,0x8B,x86reg,Variable);
}

void RSPMoveX86RegDispToX86Reg(int32_t x86reg, int32_t AddrReg, int32_t IndexReg, int32_t Multiplier)
{
    OPCODE_REG_BASE_INDEX_SCALE(8,0x8B,x86reg,AddrReg,IndexReg,Index[Multiplier]);
}

void RSPMoveN64MemDispToX86reg(int32_t x86reg, int32_t AddrReg, uint8_t Disp)
{
#ifdef USEX64
    if(((uintptr_t)DMEM - (uintptr_t)TLB_Map) < 0x7FFFFFFF)
    {
        OPCODE_REG_BASE_INDEX_SCALE_IMM32(8,0x8B,x86reg,x86_R15,AddrReg,Index[0],(((uintptr_t)DMEM - (uintptr_t)TLB_Map))+Disp);
    }
    else
    {
        LOAD_VARIABLE(x86_TEMP, DMEM);
        OPCODE_REG_BASE_INDEX_SCALE_IMM8(8,0x8B,x86reg,x86_TEMP,AddrReg,Index[0],Disp);
    }
#else
    OPCODE_REG_MREG_IMM32(8,0x8B,x86reg,AddrReg,DMEM+Disp);
#endif
}

void RSPMoveVariableDispToX86Reg(void *Variable, int32_t x86reg, int32_t AddrReg, int32_t Multiplier)
{
#ifdef USEX64
    if(((uintptr_t)Variable - (uintptr_t)TLB_Map) < 0x7FFFFFFF)
    {
        OPCODE_REG_BASE_INDEX_SCALE_IMM32(8,0x8B,x86reg,x86_R15,AddrReg,Index[Multiplier],((uintptr_t)Variable - (uintptr_t)TLB_Map));
    }
    else
    {
        LOAD_VARIABLE(x86_TEMP, Variable);
        OPCODE_REG_BASE_INDEX_SCALE(8,0x8B,x86reg,x86_TEMP,AddrReg,Index[Multiplier]);
    }
#else
    OPCODE_REG_INDEX_SCALE_IMM32(8,0x8B,x86reg,AddrReg,Index[Multiplier],Variable);
#endif
}

void RSPMoveN64MemToX86regHalf(int32_t x86reg, int32_t AddrReg)
{
    RSPMoveVariableDispToX86Reg(DMEM,x86reg,AddrReg,1);
}


void RSPMoveVariableToX86regByte(void *Variable, int32_t x86reg)
{
    OPCODE_REG_VARIABLE(,8,0x8A,x86reg,Variable);
}

void RSPMoveVariableToX86regHalf(void *Variable, int32_t x86reg)
{
    OPCODE_REG_VARIABLE(PUTDST8(RSPRecompPos,0x66),8,0x8B,x86reg,Variable);
}

void RSPMoveX86regByteToVariable(int32_t x86reg, void * Variable)
{
    OPCODE_REG_VARIABLE(,8,0x88,x86reg,Variable);
}

void RSPMoveX86regByteToX86regPointer(int32_t x86reg, int32_t AddrReg)
{
    OPCODE_REG_MREG(8,0x88,x86reg,AddrReg);
}

void RSPMoveX86regHalfToVariable(int32_t x86reg, void * Variable)
{
    OPCODE_REG_VARIABLE(PUTDST8(RSPRecompPos,0x66),8,0x89,x86reg,Variable);
}

void RSPMoveX86regHalfToX86regPointer(int32_t x86reg, int32_t AddrReg)
{
    PUTDST8(RSPRecompPos,0x66);
    OPCODE_REG_MREG(8,0x89,x86reg,AddrReg);
}

void RSPMoveX86PointerToX86reg(int32_t x86reg, int32_t X86Pointer)
{
    OPCODE_REG_MREG(8,0x8B,x86reg,X86Pointer);
}

void RSPMoveX86regPointerToX86reg(int32_t Destination, int32_t AddrReg)
{
    OPCODE_REG_MREG(8,0x8B,Destination,AddrReg);
}

void RSPMoveX86regPointerToX86regDisp8(int32_t AddrReg1, int32_t AddrReg2, int32_t x86reg, uint8_t offset)
{
    OPCODE_REG_BASE_INDEX_IMM8(8,0x8B,x86reg,AddrReg1,AddrReg2,offset);
}

void RSPMoveX86regToMemory(int32_t x86reg, int32_t AddrReg, uint32_t Disp)
{
    OPCODE_REG_MREG_IMM32(8,0x89,x86reg,AddrReg,Disp);
}

void RSPMoveX86regToVariable(int32_t x86reg, void * Variable)
{
    OPCODE_REG_VARIABLE(,8,0x89,x86reg,Variable);
}

void RSPMoveX86RegToX86Reg(int32_t Source, int32_t Destination)
{
    OPCODE_REG_REG(8,0x89,Source|X64_Reg, Destination|X64_Reg);
}

void RSPMoveX86regToX86Pointer(int32_t x86reg, int32_t X86Pointer)
{
    OPCODE_REG_MREG(8,0x89,x86reg, X86Pointer);
}

void RSPMoveX86regToX86regPointer(int32_t x86reg, int32_t AddrReg)
{
    OPCODE_REG_MREG(8,0x89,x86reg,AddrReg);
}

void RSPMoveZxByteX86regPointerToX86reg(int32_t AddrReg1, int32_t AddrReg2, int32_t x86reg)
{
    OPCODE_REG_BASE_INDEX(16,0xB60F,x86reg,AddrReg1,AddrReg2);
}

void RSPMoveZxHalfX86regPointerToX86reg(int32_t AddrReg1, int32_t AddrReg2, int32_t x86reg)
{
    OPCODE_REG_BASE_INDEX(16,0xB70F,x86reg,AddrReg1,AddrReg2);
}

void RSPMoveZxVariableToX86regByte(void *Variable, int32_t x86reg)
{
    OPCODE_REG_VARIABLE(,16,0xB60F,x86reg,Variable);
}

void RSPMoveZxVariableToX86regHalf(void *Variable, int32_t x86reg)
{
    OPCODE_REG_VARIABLE(,16,0xB70F,x86reg,Variable);
}

void RSPMulX86reg(int32_t x86reg)
{
    OPCODE_REG_REG(8,0xF7,OP_D4,x86reg);
}

void RSPNotX86Reg(int32_t  x86reg)
{
    OPCODE_REG_REG(8,0xF7,OP_D2,x86reg);
}

void RSPOrConstToVariable(uint32_t Const, void * Variable)
{
    OPCODE_REG_VARIABLE(,8,0x81,OP_D1,Variable);
    PUTDST32(RSPRecompPos,Const);
}

void RSPOrConstToX86Reg(uint32_t Const, int32_t  x86reg)
{
    if ((Const & 0xFFFFFF80) != 0 && (Const & 0xFFFFFF80) != 0xFFFFFF80)
    {
        OPCODE_REG_REG(8,0x81,OP_D1,x86reg);
        PUTDST32(RSPRecompPos, Const);
    }
    else
    {
        OPCODE_REG_REG(8,0x83,OP_D1,x86reg);
        PUTDST8(RSPRecompPos, Const);
    }
}

void RSPOrVariableToX86Reg(void * Variable, int32_t x86reg)
{
    OPCODE_REG_VARIABLE(,8,0xb,x86reg,Variable);
}

void RSPOrX86RegToVariable(void * Variable, int32_t x86reg)
{
    OPCODE_REG_VARIABLE(,8,0x9,x86reg,Variable);
}

void RSPOrX86RegToX86Reg(int32_t Destination, int32_t Source)
{
    OPCODE_REG_REG(8,0x0B,Destination,Source);
}

void RSPPushfd()
{
    PUTDST8(RSPRecompPos,0x9c);
}

void RSPPopfd()
{
    PUTDST8(RSPRecompPos,0x9d);
}

void RSPPopad(void)
{
#ifdef USEX64
    PUTDST16(RSPRecompPos,0x5f41);
    PUTDST16(RSPRecompPos,0x5e41);
    PUTDST16(RSPRecompPos,0x5d41);
    PUTDST16(RSPRecompPos,0x5c41);
    PUTDST16(RSPRecompPos,0x5b41);
    PUTDST16(RSPRecompPos,0x5a41);
    PUTDST16(RSPRecompPos,0x5941);
    PUTDST16(RSPRecompPos,0x5841);
    PUTDST8(RSPRecompPos,0x5f);
    PUTDST8(RSPRecompPos,0x5e);
    PUTDST8(RSPRecompPos,0x5b);
    PUTDST8(RSPRecompPos,0x5a);
    PUTDST8(RSPRecompPos,0x59);
    PUTDST8(RSPRecompPos,0x58);
#else
    PUTDST8(RSPRecompPos,0x61);
#endif
}

void RSPPushad(void)
{
#ifdef USEX64
    PUTDST8(RSPRecompPos,0x50);
    PUTDST8(RSPRecompPos,0x51);
    PUTDST8(RSPRecompPos,0x52);
    PUTDST8(RSPRecompPos,0x53);
    PUTDST8(RSPRecompPos,0x56);
    PUTDST8(RSPRecompPos,0x57);
    PUTDST16(RSPRecompPos,0x5041);
    PUTDST16(RSPRecompPos,0x5141);
    PUTDST16(RSPRecompPos,0x5241);
    PUTDST16(RSPRecompPos,0x5341);
    PUTDST16(RSPRecompPos,0x5441);
    PUTDST16(RSPRecompPos,0x5541);
    PUTDST16(RSPRecompPos,0x5641);
    PUTDST16(RSPRecompPos,0x5741);
#else
    PUTDST8(RSPRecompPos,0x60);
#endif
}

void RSPPush(int32_t x86reg)
{

#ifdef USEX64
    PUTDST8(RSPRecompPos, 0x40 | ((x86reg & 0x20) >> 5));
#endif
    switch(x86reg&0xf)
    {
    case x86_EAX:
        PUTDST8(RSPRecompPos, 0x50);
        break;
    case x86_EBX:
        PUTDST8(RSPRecompPos, 0x53);
        break;
    case x86_ECX:
        PUTDST8(RSPRecompPos, 0x51);
        break;
    case x86_EDX:
        PUTDST8(RSPRecompPos, 0x52);
        break;
    case x86_ESI:
        PUTDST8(RSPRecompPos, 0x56);
        break;
    case x86_EDI:
        PUTDST8(RSPRecompPos, 0x57);
        break;
    case x86_ESP:
        PUTDST8(RSPRecompPos, 0x54);
        break;
    case x86_EBP:
        PUTDST8(RSPRecompPos, 0x55);
        break;
    }
}

void RSPPop(int32_t x86reg)
{
#ifdef USEX64
    PUTDST8(RSPRecompPos, 0x40 | ((x86reg & 0x20) >> 5));
#endif
    switch(x86reg&0xf)
    {

    case x86_EAX:
        PUTDST8(RSPRecompPos, 0x58);
        break;
    case x86_EBX:
        PUTDST8(RSPRecompPos, 0x5B);
        break;
    case x86_ECX:
        PUTDST8(RSPRecompPos, 0x59);
        break;
    case x86_EDX:
        PUTDST8(RSPRecompPos, 0x5A);
        break;
    case x86_ESI:
        PUTDST8(RSPRecompPos, 0x5E);
        break;
    case x86_EDI:
        PUTDST8(RSPRecompPos, 0x5F);
        break;
    case x86_ESP:
        PUTDST8(RSPRecompPos, 0x5C);
        break;
    case x86_EBP:
        PUTDST8(RSPRecompPos, 0x5D);
        break;
    }
}

void RSPPushImm32(uint32_t Value)
{
    PUTDST8(RSPRecompPos,0x68);
    PUTDST32(RSPRecompPos,Value);
}

void RSPRet(void)
{
    PUTDST8(RSPRecompPos,0xC3);
}

void RSPSeta(int32_t x86reg)
{
    OPCODE_REG_REG(16,0x970F,OP_D0,x86reg);
}

void RSPSetaVariable(void * Variable)
{
    OPCODE_REG_VARIABLE(,16,0x970F,OP_D0,Variable);
}

void RSPSetae(int32_t x86reg)
{
    OPCODE_REG_REG(16,0x930F,OP_D0,x86reg);
}

void RSPSetb(int32_t x86reg)
{
    OPCODE_REG_REG(16,0x920F,OP_D0,x86reg);
}

void RSPSetbVariable(void * Variable)
{
    OPCODE_REG_VARIABLE(,16,0x920F,OP_D0,Variable);
}

void RSPSetg(int32_t x86reg)
{
    OPCODE_REG_REG(16,0x9F0F,OP_D0,x86reg);
}

void RSPSetgVariable(void * Variable)
{
    OPCODE_REG_VARIABLE(,16,0x9F0F,OP_D0,Variable);
}

void RSPSetl(int32_t x86reg)
{
    OPCODE_REG_REG(16,0x9C0F,OP_D0,x86reg);
}

void RSPSetlVariable(void * Variable)
{
    OPCODE_REG_VARIABLE(,16,0x9C0F,OP_D0,Variable);
}

void RSPShiftLeftSignVariableImmed(void *Variable, uint8_t Immediate)
{
    OPCODE_REG_VARIABLE(,8,0xC1,OP_D4,Variable);
    PUTDST8(RSPRecompPos,Immediate);
}

void RSPShiftRightSignVariableImmed(void *Variable, uint8_t Immediate)
{
    OPCODE_REG_VARIABLE(,8,0xC1,OP_D7,Variable);
    PUTDST8(RSPRecompPos,Immediate);
}

void RSPShiftRightUnsignVariableImmed(void *Variable, uint8_t Immediate)
{
    OPCODE_REG_VARIABLE(,8,0xC1,OP_D5,Variable);
    PUTDST8(RSPRecompPos,Immediate);
}

void RSPSetzVariable(void *Variable)
{
    OPCODE_REG_VARIABLE(,16,0x940F,OP_D0,Variable);
}

void RSPSetnzVariable(void *Variable)
{
    OPCODE_REG_VARIABLE(,16,0x950F,OP_D0,Variable);
}

void RSPSetleVariable(void *Variable)
{
    RSPBreakPoint();
    OPCODE_REG_VARIABLE(,16,0x9E0F,OP_D0,Variable);
}

void RSPSetgeVariable(void *Variable)
{
    RSPBreakPoint();
    OPCODE_REG_VARIABLE(,16,0x9D0F,OP_D0,Variable);
}

void RSPSetz(int32_t x86reg)
{
    OPCODE_REG_REG(16,0x940F,OP_D0,x86reg);
}

void RSPSetnz(int32_t x86reg)
{
    OPCODE_REG_REG(16,0x950F,OP_D0,x86reg);
}

void RSPShiftLeftDouble(int32_t Destination, int32_t Source)
{
    OPCODE_REG_REG(16,0xA50F,Source,Destination);
}

void RSPShiftLeftDoubleImmed(int32_t Destination, int32_t Source, uint8_t Immediate)
{
    OPCODE_REG_REG(16,0xA40F,Source,Destination);
    PUTDST8(RSPRecompPos,Immediate);
}

void RSPShiftLeftSign(int32_t x86reg)
{
    OPCODE_REG_REG(8,0xD3,OP_D4,x86reg);
}

void RSPShiftLeftSignImmed(int32_t x86reg, uint8_t Immediate)
{
    OPCODE_REG_REG(8,0xC1,OP_D4,x86reg);
    PUTDST8(RSPRecompPos,Immediate);
}

void RSPShiftRightSign(int32_t x86reg)
{
    OPCODE_REG_REG(8,0xD3,OP_D7,x86reg);
}

void RSPShiftRightSignImmed(int32_t x86reg, uint8_t Immediate)
{
    OPCODE_REG_REG(8,0xC1,OP_D7,x86reg);
    PUTDST8(RSPRecompPos,Immediate);
}

void RSPShiftRightUnsign(int32_t x86reg)
{
    OPCODE_REG_REG(8,0xD3,OP_D5,x86reg);
}

void RSPShiftRightDouble(int32_t Destination, int32_t Source)
{
    OPCODE_REG_REG(16,0xAD0F,Source,Destination);
}

void RSPShiftRightDoubleImmed(int32_t Destination, int32_t Source, uint8_t Immediate)
{
    OPCODE_REG_REG(16,0xAC0F,Source,Destination);
    PUTDST8(RSPRecompPos,Immediate);
}

void RSPShiftRightUnsignImmed(int32_t x86reg, uint8_t Immediate)
{
    OPCODE_REG_REG(8,0xC1,OP_D5,x86reg);
    PUTDST8(RSPRecompPos,Immediate);
}

void RSPSbbConstFromX86Reg (int32_t x86reg, uint32_t Const)
{
    RSPBreakPoint();

    if ((Const & 0xFFFFFF80) != 0 && (Const & 0xFFFFFF80) != 0xFFFFFF80)
    {
        OPCODE_REG_REG(8,0x81,OP_D3,x86reg);
        PUTDST32(RSPRecompPos, Const);
    }
    else
    {
        OPCODE_REG_REG(8,0x83,OP_D3,x86reg);
        PUTDST8(RSPRecompPos, Const);
    }
}

void RSPSbbVariableFromX86reg(int32_t x86reg, void * Variable)
{
    RSPBreakPoint();
    OPCODE_REG_VARIABLE(,8,0x1B,x86reg,Variable);
}

void RSPSbbX86RegToX86Reg(int32_t Destination, int32_t Source)
{
    OPCODE_REG_REG(8,0x1B,Destination,Source);
}

void RSPSubConstFromVariable (uint32_t Const, void *Variable)
{
    OPCODE_REG_VARIABLE(,8,0x81,OP_D5,Variable);
    PUTDST32(RSPRecompPos,Const);
}

void RSPSubConstFromX86Reg (int32_t x86reg, uint32_t Const)
{
    if ((Const & 0xFFFFFF80) != 0 && (Const & 0xFFFFFF80) != 0xFFFFFF80)
    {
        OPCODE_REG_REG(8,0x81,OP_D5,x86reg);
        PUTDST32(RSPRecompPos, Const);
    }
    else
    {
        OPCODE_REG_REG(8,0x83,OP_D5,x86reg);
        PUTDST8(RSPRecompPos, Const);
    }
}

void RSPSubVariableFromX86reg(int32_t x86reg, void * Variable)
{
    OPCODE_REG_VARIABLE(,8,0x2B,x86reg,Variable);
}

void RSPSubX86RegToX86Reg(int32_t Destination, int32_t Source)
{
    OPCODE_REG_REG(8,0x2B,Destination,Source);
}

void RSPTestConstToX86Reg(uint32_t Const, int32_t x86reg)
{
    OPCODE_REG_REG(8,0xF7,OP_D0,x86reg);
    PUTDST32(RSPRecompPos,Const);
}

void RSPTestVariable(uint32_t Const, void * Variable)
{
    OPCODE_REG_VARIABLE(,8,0xf7,OP_D0,Variable);
    PUTDST32(RSPRecompPos,Const);
}

void RSPTestX86RegToX86Reg(int32_t Destination, int32_t Source)
{
    OPCODE_REG_REG(8,0x85,Destination,Source);
}

void RSPTestVariableToX86Reg(uint32_t x86reg, void * Variable)
{
    OPCODE_REG_VARIABLE(,8,0x85,x86reg,Variable);
}

void RSPXorConstToX86Reg(int32_t x86reg, uint32_t Const)
{
    if ((Const & 0xFFFFFF80) != 0 && (Const & 0xFFFFFF80) != 0xFFFFFF80)
    {
        OPCODE_REG_REG(8,0x81,OP_D6,x86reg);
        PUTDST32(RSPRecompPos, Const);
    }
    else
    {
        OPCODE_REG_REG(8,0x83,OP_D6,x86reg);
        PUTDST8(RSPRecompPos, Const);
    }
}


void RSPXorX86RegToX86Reg(int32_t Source, int32_t Destination)
{
    OPCODE_REG_REG(8,0x31,Destination,Source);
}

void RSPXorVariableToX86reg(void *Variable, int32_t x86reg)
{
    RSPBreakPoint();
    OPCODE_REG_VARIABLE(,8,0x33,x86reg,Variable);
}


void RSPXorConstToVariable(void *Variable, uint32_t Const)
{
    OPCODE_REG_VARIABLE(,8,0x81,OP_D6,Variable);
    PUTDST32(RSPRecompPos,Const);
}

// ********************************************************************************************

void RSPAndX86RegToVariable(void * Variable, int32_t x86Reg)
{
    OPCODE_REG_VARIABLE(,8,0x21,x86Reg,Variable);
}

void RSPXorX86RegToVariable(void *Variable, int32_t x86reg)
{
    OPCODE_REG_VARIABLE(,8,0x31,x86reg,Variable);
}

void RSPTestConstToVariable(uint32_t Const, void * Variable)
{
    OPCODE_REG_VARIABLE(,8,0xf7,OP_D0,Variable);
    PUTDST32(RSPRecompPos,Const);
}

void RSPCondMoveGreaterEqual(int32_t Destination, int32_t Source)
{
    if (ConditionalMove == 0)
    {
        uint8_t * Jump;
        // CPU_Message("   [*]cmovge %s, %s",x86_Name(Destination),x86_Name(Source));

        RSPJlLabel8(0);
        Jump = RSPRecompPos - 1;
        RSPMoveX86RegToX86Reg(Source, Destination);
        // CPU_Message("     label:");
        RSPx86_SetBranch8b(Jump, RSPRecompPos);
    }
    else
    {
        uint8_t x86Command;
        // CPU_Message("      cmovge %s, %s",x86_Name(Destination),x86_Name(Source));

        PUTDST16(RSPRecompPos,0x4D0F);

        switch (Source&0xf)
        {
        case x86_EAX:
            x86Command = 0x00;
            break;
        case x86_EBX:
            x86Command = 0x03;
            break;
        case x86_ECX:
            x86Command = 0x01;
            break;
        case x86_EDX:
            x86Command = 0x02;
            break;
        case x86_ESI:
            x86Command = 0x06;
            break;
        case x86_EDI:
            x86Command = 0x07;
            break;
        case x86_ESP:
            x86Command = 0x04;
            break;
        case x86_EBP:
            x86Command = 0x05;
            break;
        }

        switch (Destination&0xf)
        {
        case x86_EAX:
            x86Command += 0xC0;
            break;
        case x86_EBX:
            x86Command += 0xD8;
            break;
        case x86_ECX:
            x86Command += 0xC8;
            break;
        case x86_EDX:
            x86Command += 0xD0;
            break;
        case x86_ESI:
            x86Command += 0xF0;
            break;
        case x86_EDI:
            x86Command += 0xF8;
            break;
        case x86_ESP:
            x86Command += 0xE0;
            break;
        case x86_EBP:
            x86Command += 0xE8;
            break;
        }

        PUTDST8(RSPRecompPos, x86Command);
    }
}

void RSPMoveX86regPointerToX86regByte(int32_t Destination, int32_t AddrReg)
{
    uint8_t x86Command = 0;

    // CPU_Message("      mov %s, byte ptr [%s]",x86Byte_Name(Destination), x86_Name(AddrReg));

    switch (AddrReg&0xf)
    {
    case x86_EAX:
        x86Command = 0x00;
        break;
    case x86_EBX:
        x86Command = 0x03;
        break;
    case x86_ECX:
        x86Command = 0x01;
        break;
    case x86_EDX:
        x86Command = 0x02;
        break;
    case x86_ESI:
        x86Command = 0x06;
        break;
    case x86_EDI:
        x86Command = 0x07;
        break;
    default:
        DisplayError("MoveX86regPointerToX86regByte\nUnknown x86 Register");
    }

    switch (Destination&0xf)
    {
    case x86_EAX:
        x86Command += 0x00;
        break;
    case x86_EBX:
        x86Command += 0x18;
        break;
    case x86_ECX:
        x86Command += 0x08;
        break;
    case x86_EDX:
        x86Command += 0x10;
        break;
    default:
        DisplayError("MoveX86regPointerToX86regByte\nUnknown x86 Register");
    }

    PUTDST8(RSPRecompPos, 0x8A);
    PUTDST8(RSPRecompPos, x86Command);
}

void RSPMoveX86regToN64MemDisp(int32_t x86reg, int32_t AddrReg, uint8_t Disp)
{
#ifdef USEX64
    if(((uintptr_t)DMEM - (uintptr_t)TLB_Map) < 0x7FFFFFFF)
    {
        OPCODE_REG_BASE_INDEX_IMM32(8,0x89,x86reg,x86_R15,AddrReg,((uintptr_t)DMEM - (uintptr_t)TLB_Map) +  Disp);
    }
    else
    {
        LOAD_VARIABLE(x86_TEMP, DMEM);
        OPCODE_REG_MREG_IMM8(8,0xf7,x86reg,x86_TEMP,Disp);
    }
#else
    OPCODE_REG_MREG_IMM32(8,0x89,x86reg,AddrReg,DMEM + Disp);
#endif
}

void RSPOrVariableToX86regHalf(void * Variable, int32_t x86Reg)
{
    OPCODE_REG_VARIABLE(PUTDST8(RSPRecompPos,0x66),8,0xb,x86Reg,Variable);
}

void RSPAndVariableToX86regHalf(void * Variable, int32_t x86Reg)
{
    OPCODE_REG_VARIABLE(PUTDST8(RSPRecompPos,0x66),8,0x23,x86Reg,Variable);
}

void RSPAndX86RegHalfToX86RegHalf(int32_t Destination, int32_t Source)
{
    PUTDST8(RSPRecompPos, 0x66);
    OPCODE_REG_REG(8,0x21,Source,Destination);
}

void RSPCondMoveNotEqual(int32_t Destination, int32_t Source)
{
    if (ConditionalMove == 0)
    {
        uint8_t * Jump;

        RSPJeLabel8(0);
        Jump = RSPRecompPos - 1;
        RSPMoveX86RegToX86Reg(Source, Destination);
        // CPU_Message("     label:");
        RSPx86_SetBranch8b(Jump, RSPRecompPos);
    }
    else
    {
        uint8_t x86Command;

        PUTDST16(RSPRecompPos,0x450F);

        switch (Source&0xf)
        {
        case x86_EAX:
            x86Command = 0x00;
            break;
        case x86_EBX:
            x86Command = 0x03;
            break;
        case x86_ECX:
            x86Command = 0x01;
            break;
        case x86_EDX:
            x86Command = 0x02;
            break;
        case x86_ESI:
            x86Command = 0x06;
            break;
        case x86_EDI:
            x86Command = 0x07;
            break;
        case x86_ESP:
            x86Command = 0x04;
            break;
        case x86_EBP:
            x86Command = 0x05;
            break;
        }

        switch (Destination&0xf)
        {
        case x86_EAX:
            x86Command += 0xC0;
            break;
        case x86_EBX:
            x86Command += 0xD8;
            break;
        case x86_ECX:
            x86Command += 0xC8;
            break;
        case x86_EDX:
            x86Command += 0xD0;
            break;
        case x86_ESI:
            x86Command += 0xF0;
            break;
        case x86_EDI:
            x86Command += 0xF8;
            break;
        case x86_ESP:
            x86Command += 0xE0;
            break;
        case x86_EBP:
            x86Command += 0xE8;
            break;
        }

        PUTDST8(RSPRecompPos, x86Command);
    }
}


void RSPNegateX86reg(int32_t x86reg)
{
    switch (x86reg&0xf)
    {
    case x86_EAX:
        PUTDST16(RSPRecompPos,0xd8f7);
        break;
    case x86_EBX:
        PUTDST16(RSPRecompPos,0xdbf7);
        break;
    case x86_ECX:
        PUTDST16(RSPRecompPos,0xd9f7);
        break;
    case x86_EDX:
        PUTDST16(RSPRecompPos,0xdaf7);
        break;
    case x86_ESI:
        PUTDST16(RSPRecompPos,0xdef7);
        break;
    case x86_EDI:
        PUTDST16(RSPRecompPos,0xdff7);
        break;
    case x86_ESP:
        PUTDST16(RSPRecompPos,0xdcf7);
        break;
    case x86_EBP:
        PUTDST16(RSPRecompPos,0xddf7);
        break;
    default:
        DisplayError("NegateX86reg\nUnknown x86 Register");
    }
}


void RSPImulX86RegToX86Reg(int32_t Destination, int32_t Source)
{
    uint8_t x86Command;

    switch (Source&0xf)
    {
    case x86_EAX:
        x86Command = 0x00;
        break;
    case x86_EBX:
        x86Command = 0x03;
        break;
    case x86_ECX:
        x86Command = 0x01;
        break;
    case x86_EDX:
        x86Command = 0x02;
        break;
    case x86_ESI:
        x86Command = 0x06;
        break;
    case x86_EDI:
        x86Command = 0x07;
        break;
    case x86_ESP:
        x86Command = 0x04;
        break;
    case x86_EBP:
        x86Command = 0x05;
        break;
    }

    switch (Destination&0xf)
    {
    case x86_EAX:
        x86Command += 0xC0;
        break;
    case x86_EBX:
        x86Command += 0xD8;
        break;
    case x86_ECX:
        x86Command += 0xC8;
        break;
    case x86_EDX:
        x86Command += 0xD0;
        break;
    case x86_ESI:
        x86Command += 0xF0;
        break;
    case x86_EDI:
        x86Command += 0xF8;
        break;
    case x86_ESP:
        x86Command += 0xE0;
        break;
    case x86_EBP:
        x86Command += 0xE8;
        break;
    }

    PUTDST16(RSPRecompPos, 0xAF0F);
    PUTDST8(RSPRecompPos, x86Command);
}


void RSPMoveX86RegToX86regPointerDisp ( int32_t Source, int32_t AddrReg, uint8_t Disp )
{
    OPCODE_REG_MREG_IMM8(8,0x89,Source,AddrReg,Disp);
}

void RSPCondMoveGreater(int32_t Destination, int32_t Source)
{
    if (ConditionalMove == 0)
    {
        uint8_t * Jump;

        RSPJleLabel8(0);
        Jump = RSPRecompPos - 1;
        RSPMoveX86RegToX86Reg(Source, Destination);
        RSPx86_SetBranch8b(Jump, RSPRecompPos);
    }
    else
    {
        uint8_t x86Command;

        PUTDST16(RSPRecompPos,0x4F0F);

        switch (Source&0xf)
        {
        case x86_EAX:
            x86Command = 0x00;
            break;
        case x86_EBX:
            x86Command = 0x03;
            break;
        case x86_ECX:
            x86Command = 0x01;
            break;
        case x86_EDX:
            x86Command = 0x02;
            break;
        case x86_ESI:
            x86Command = 0x06;
            break;
        case x86_EDI:
            x86Command = 0x07;
            break;
        case x86_ESP:
            x86Command = 0x04;
            break;
        case x86_EBP:
            x86Command = 0x05;
            break;
        }

        switch (Destination&0xf)
        {
        case x86_EAX:
            x86Command += 0xC0;
            break;
        case x86_EBX:
            x86Command += 0xD8;
            break;
        case x86_ECX:
            x86Command += 0xC8;
            break;
        case x86_EDX:
            x86Command += 0xD0;
            break;
        case x86_ESI:
            x86Command += 0xF0;
            break;
        case x86_EDI:
            x86Command += 0xF8;
            break;
        case x86_ESP:
            x86Command += 0xE0;
            break;
        case x86_EBP:
            x86Command += 0xE8;
            break;
        }

        PUTDST8(RSPRecompPos, x86Command);
    }
}

void RSPCondMoveLess(int32_t Destination, int32_t Source)
{
    if (ConditionalMove == 0)
    {
        uint8_t * Jump;

        RSPJgeLabel8(0);
        Jump = RSPRecompPos - 1;
        RSPMoveX86RegToX86Reg(Source, Destination);
        RSPx86_SetBranch8b(Jump, RSPRecompPos);
    }
    else
    {
        uint8_t x86Command;

        PUTDST16(RSPRecompPos,0x4C0F);

        switch (Source&0xf)
        {
        case x86_EAX:
            x86Command = 0x00;
            break;
        case x86_EBX:
            x86Command = 0x03;
            break;
        case x86_ECX:
            x86Command = 0x01;
            break;
        case x86_EDX:
            x86Command = 0x02;
            break;
        case x86_ESI:
            x86Command = 0x06;
            break;
        case x86_EDI:
            x86Command = 0x07;
            break;
        case x86_ESP:
            x86Command = 0x04;
            break;
        case x86_EBP:
            x86Command = 0x05;
            break;
        }

        switch (Destination&0xf)
        {
        case x86_EAX:
            x86Command += 0xC0;
            break;
        case x86_EBX:
            x86Command += 0xD8;
            break;
        case x86_ECX:
            x86Command += 0xC8;
            break;
        case x86_EDX:
            x86Command += 0xD0;
            break;
        case x86_ESI:
            x86Command += 0xF0;
            break;
        case x86_EDI:
            x86Command += 0xF8;
            break;
        case x86_ESP:
            x86Command += 0xE0;
            break;
        case x86_EBP:
            x86Command += 0xE8;
            break;
        }

        PUTDST8(RSPRecompPos, x86Command);
    }
}

void RSPMoveSxX86RegPtrDispToX86RegHalf(int32_t AddrReg, uint8_t Disp, int32_t Destination)
{
    OPCODE_REG_MREG_IMM8(16,0xBF0F,Destination,AddrReg,Disp);

}


void RSPMoveZxX86RegPtrDispToX86RegHalf(int32_t AddrReg, uint8_t Disp, int32_t Destination)
{
    OPCODE_REG_MREG_IMM8(16,0xB70F,Destination,AddrReg,Disp);
}


void RSPMoveX86regHalfToX86regPointerDisp(int32_t Source, int32_t AddrReg, uint8_t Disp)
{
    uint8_t x86Amb;

    switch (AddrReg&0xf)
    {
    case x86_EAX:
        x86Amb = 0x00;
        break;
    case x86_EBX:
        x86Amb = 0x03;
        break;
    case x86_ECX:
        x86Amb = 0x01;
        break;
    case x86_EDX:
        x86Amb = 0x02;
        break;
    case x86_ESI:
        x86Amb = 0x06;
        break;
    case x86_EDI:
        x86Amb = 0x07;
        break;
    case x86_ESP:
        x86Amb = 0x04;
        break;
    case x86_EBP:
        x86Amb = 0x05;
        break;
    default:
        DisplayError("MoveX86regBytePointer\nUnknown x86 Register");
    }

    switch (Source&0xf)
    {
    case x86_EAX:
        x86Amb += 0x00;
        break;
    case x86_ECX:
        x86Amb += 0x08;
        break;
    case x86_EDX:
        x86Amb += 0x10;
        break;
    case x86_EBX:
        x86Amb += 0x18;
        break;
    case x86_ESI:
        x86Amb += 0x30;
        break;
    case x86_EDI:
        x86Amb += 0x38;
        break;
    case x86_ESP:
        x86Amb += 0x20;
        break;
    case x86_EBP:
        x86Amb += 0x28;
        break;
    default:
        DisplayError("MoveX86regBytePointer\nUnknown x86 Register");
    }

    PUTDST16(RSPRecompPos, 0x8966);
    PUTDST8(RSPRecompPos, x86Amb | 0x40);
    PUTDST8(RSPRecompPos, Disp);
}

void RSPCondMoveEqual(int32_t Destination, int32_t Source)
{
    if (ConditionalMove == 0)
    {
        uint8_t * Jump;

        RSPJneLabel8(0);
        Jump = RSPRecompPos - 1;
        RSPMoveX86RegToX86Reg(Source, Destination);
        // CPU_Message("     label:");
        RSPx86_SetBranch8b(Jump, RSPRecompPos);
    }
    else
    {
        uint8_t x86Command;

        PUTDST16(RSPRecompPos,0x440F);

        switch (Source&0xf)
        {
        case x86_EAX:
            x86Command = 0x00;
            break;
        case x86_EBX:
            x86Command = 0x03;
            break;
        case x86_ECX:
            x86Command = 0x01;
            break;
        case x86_EDX:
            x86Command = 0x02;
            break;
        case x86_ESI:
            x86Command = 0x06;
            break;
        case x86_EDI:
            x86Command = 0x07;
            break;
        case x86_ESP:
            x86Command = 0x04;
            break;
        case x86_EBP:
            x86Command = 0x05;
            break;
        }

        switch (Destination&0xf)
        {
        case x86_EAX:
            x86Command += 0xC0;
            break;
        case x86_EBX:
            x86Command += 0xD8;
            break;
        case x86_ECX:
            x86Command += 0xC8;
            break;
        case x86_EDX:
            x86Command += 0xD0;
            break;
        case x86_ESI:
            x86Command += 0xF0;
            break;
        case x86_EDI:
            x86Command += 0xF8;
            break;
        case x86_ESP:
            x86Command += 0xE0;
            break;
        case x86_EBP:
            x86Command += 0xE8;
            break;
        }

        PUTDST8(RSPRecompPos, x86Command);
    }
}

void RSPCwd(void)
{
    PUTDST16(RSPRecompPos, 0x9966);
}

void RSPCwde(void)
{
    PUTDST8(RSPRecompPos, 0x98);
}

void RSPSubX86regFromVariable(int32_t x86reg, void * Variable)
{
    OPCODE_REG_VARIABLE(,8,0x29,x86reg,Variable);
}

void RSPJumpX86Reg( int32_t x86reg )
{
    OPCODE_REG_REG(8,0xFF,OP_D4,x86reg);
}

void RSPJgeLabel8(uint8_t Value)
{
    PUTDST8(RSPRecompPos,0x7D);
    PUTDST8(RSPRecompPos,Value);
}