pcsx2/pcsx2/Vif_Codes.cpp

659 lines
21 KiB
C++

/* 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/>.
*/
#include "PrecompiledHeader.h"
#include "Common.h"
#include "GS.h"
#include "Gif_Unit.h"
#include "Vif_Dma.h"
#include "newVif.h"
#include "VUmicro.h"
#include "MTVU.h"
#define vifOp(vifCodeName) _vifT int __fastcall vifCodeName(int pass, const u32 *data)
#define pass1 if (pass == 0)
#define pass2 if (pass == 1)
#define pass3 if (pass == 2)
#define pass1or2 if (pass == 0 || pass == 1)
#define vif1Only() { if (!idx) return vifCode_Null<idx>(pass, (u32*)data); }
vifOp(vifCode_Null);
//------------------------------------------------------------------
// Vif0/Vif1 Misc Functions
//------------------------------------------------------------------
__ri void vifExecQueue(int idx)
{
if (!GetVifX.queued_program)
return;
GetVifX.queued_program = false;
int startcycles = 0;
if (!idx) startcycles = VU0.cycle;
else startcycles = VU1.cycle;
if (!idx) vu0ExecMicro(vif0.queued_pc);
else vu1ExecMicro(vif1.queued_pc);
///NOTE: Shadowman 2 has SPS with this, uncommenting the correct code fixes it
if (!idx) { startcycles = ((VU0.cycle-startcycles) + ( vif0ch.qwc - (vif0.vifpacketsize >> 2) )); CPU_INT(VIF_VU0_FINISH, 1/*startcycles * BIAS*/); }
else { startcycles = ((VU1.cycle-startcycles) + ( vif1ch.qwc - (vif1.vifpacketsize >> 2) )); CPU_INT(VIF_VU1_FINISH, 1/*startcycles * BIAS*/); }
//DevCon.Warning("Ran VU%x, VU0 Cycles %x, VU1 Cycles %x, start %x cycle %x", idx, g_vu0Cycles, g_vu1Cycles, startcycles, VU1.cycle);
//GetVifX.vifstalled.enabled = VifStallEnable(vifXch);
//GetVifX.vifstalled.value = VIF_TIMING_BREAK;
}
static __fi void vifFlush(int idx) {
if (!idx) vif0FLUSH();
else vif1FLUSH();
vifExecQueue(idx);
}
static __fi void vuExecMicro(int idx, u32 addr) {
VIFregisters& vifRegs = vifXRegs;
vifFlush(idx);
if(GetVifX.waitforvu)
return;
vifRegs.stat.VEW = true;
if (vifRegs.itops > (idx ? 0x3ffu : 0xffu)) {
Console.WriteLn("VIF%d ITOP overrun! %x", idx, vifRegs.itops);
vifRegs.itops &= (idx ? 0x3ffu : 0xffu);
}
vifRegs.itop = vifRegs.itops;
if (idx) {
// in case we're handling a VIF1 execMicro, set the top with the tops value
vifRegs.top = vifRegs.tops & 0x3ff;
// is DBF flag set in VIF_STAT?
if (vifRegs.stat.DBF) {
// it is, so set tops with base, and clear the stat DBF flag
vifRegs.tops = vifRegs.base;
vifRegs.stat.DBF = false;
}
else {
// it is not, so set tops with base + offset, and set stat DBF flag
vifRegs.tops = vifRegs.base + vifRegs.ofst;
vifRegs.stat.DBF = true;
}
}
GetVifX.queued_program = true;
GetVifX.queued_pc = addr;
GetVifX.unpackcalls = 0;
}
void ExecuteVU(int idx)
{
vifStruct& vifX = GetVifX;
if((vifX.cmd & 0x7f) == 0x17)
{
vuExecMicro(idx, -1);
vifX.cmd = 0;
vifX.pass = 0;
}
else if((vifX.cmd & 0x7f) == 0x14 || (vifX.cmd & 0x7f) == 0x15)
{
vuExecMicro(idx, (u16)(vifXRegs.code) << 3);
vifX.cmd = 0;
vifX.pass = 0;
}
}
//------------------------------------------------------------------
// Vif0/Vif1 Code Implementations
//------------------------------------------------------------------
vifOp(vifCode_Base) {
vif1Only();
pass1 { vif1Regs.base = vif1Regs.code & 0x3ff; vif1.cmd = 0; vif1.pass = 0; }
pass3 { VifCodeLog("Base"); }
return 1;
}
template<int idx> __fi int _vifCode_Direct(int pass, const u8* data, bool isDirectHL) {
vif1Only();
pass1 {
int vifImm = (u16)vif1Regs.code;
vif1.tag.size = vifImm ? (vifImm*4) : (65536*4);
vif1.pass = 1;
return 1;
}
pass2 {
const char* name = isDirectHL ? "DirectHL" : "Direct";
GIF_TRANSFER_TYPE tranType = isDirectHL ? GIF_TRANS_DIRECTHL : GIF_TRANS_DIRECT;
uint size = std::min(vif1.vifpacketsize, vif1.tag.size) * 4; // Get size in bytes
uint ret = gifUnit.TransferGSPacketData(tranType, (u8*)data, size);
vif1.tag.size -= ret/4; // Convert to u32's
vif1Regs.stat.VGW = false;
if (ret & 3) DevCon.Warning("Vif %s: Ret wasn't a multiple of 4!", name); // Shouldn't happen
if (size == 0) DevCon.Warning("Vif %s: No Data Transfer?", name); // Can this happen?
if (size != ret) { // Stall if gif didn't process all the data (path2 queued)
GUNIT_WARN("Vif %s: Stall! [size=%d][ret=%d]", name, size, ret);
//gifUnit.PrintInfo();
vif1.vifstalled.enabled = VifStallEnable(vif1ch);
vif1.vifstalled.value = VIF_TIMING_BREAK;
vif1Regs.stat.VGW = true;
return 0;
}
if (vif1.tag.size == 0) {
vif1.cmd = 0;
vif1.pass = 0;
vif1.vifstalled.enabled = VifStallEnable(vif1ch);
vif1.vifstalled.value = VIF_TIMING_BREAK;
}
return ret / 4;
}
return 0;
}
vifOp(vifCode_Direct) {
pass3 { VifCodeLog("Direct"); }
return _vifCode_Direct<idx>(pass, (u8*)data, 0);
}
vifOp(vifCode_DirectHL) {
pass3 { VifCodeLog("DirectHL"); }
return _vifCode_Direct<idx>(pass, (u8*)data, 1);
}
vifOp(vifCode_Flush) {
vif1Only();
//vifStruct& vifX = GetVifX;
pass1or2 {
bool p1or2 = (gifRegs.stat.APATH != 0 && gifRegs.stat.APATH != 3);
vif1Regs.stat.VGW = false;
vifFlush(idx);
if (gifUnit.checkPaths(1,1,0) || p1or2) {
GUNIT_WARN("Vif Flush: Stall!");
//gifUnit.PrintInfo();
vif1Regs.stat.VGW = true;
vif1.vifstalled.enabled = VifStallEnable(vif1ch);
vif1.vifstalled.value = VIF_TIMING_BREAK;
return 0;
}
else vif1.cmd = 0;
vif1.pass = 0;
}
pass3 { VifCodeLog("Flush"); }
return 1;
}
vifOp(vifCode_FlushA) {
vif1Only();
//vifStruct& vifX = GetVifX;
pass1or2 {
//Gif_Path& p3 = gifUnit.gifPath[GIF_PATH_3];
u32 gifBusy = gifUnit.checkPaths(1,1,1) || (gifRegs.stat.APATH != 0);
//bool doStall = false;
vif1Regs.stat.VGW = false;
vifFlush(idx);
if (gifBusy)
{
GUNIT_WARN("Vif FlushA: Stall!");
vif1Regs.stat.VGW = true;
vif1.vifstalled.enabled = VifStallEnable(vif1ch);
vif1.vifstalled.value = VIF_TIMING_BREAK;
return 0;
}
vif1.cmd = 0;
vif1.pass = 0;
}
pass3 { VifCodeLog("FlushA"); }
return 1;
}
// ToDo: FixMe
vifOp(vifCode_FlushE) {
vifStruct& vifX = GetVifX;
pass1 { vifFlush(idx); vifX.cmd = 0; vifX.pass = 0;}
pass3 { VifCodeLog("FlushE"); }
return 1;
}
vifOp(vifCode_ITop) {
pass1 { vifXRegs.itops = vifXRegs.code & 0x3ff; GetVifX.cmd = 0; GetVifX.pass = 0; }
pass3 { VifCodeLog("ITop"); }
return 1;
}
vifOp(vifCode_Mark) {
vifStruct& vifX = GetVifX;
pass1 {
vifXRegs.mark = (u16)vifXRegs.code;
vifXRegs.stat.MRK = true;
vifX.cmd = 0;
vifX.pass = 0;
}
pass3 { VifCodeLog("Mark"); }
return 1;
}
static __fi void _vifCode_MPG(int idx, u32 addr, const u32 *data, int size) {
VURegs& VUx = idx ? VU1 : VU0;
vifStruct& vifX = GetVifX;
u16 vuMemSize = idx ? 0x4000 : 0x1000;
pxAssert(VUx.Micro);
vifExecQueue(idx);
if (idx && THREAD_VU1) {
vu1Thread.WriteMicroMem(addr, (u8*)data, size*4);
return;
}
// Don't forget the Unsigned designator for these checks
if((addr + size *4) > vuMemSize)
{
//DevCon.Warning("Handling split MPG");
if (!idx) CpuVU0->Clear(addr, vuMemSize - addr);
else CpuVU1->Clear(addr, vuMemSize - addr);
memcpy(VUx.Micro + addr, data, vuMemSize - addr);
size -= (vuMemSize - addr) / 4;
memcpy(VUx.Micro, data, size);
vifX.tag.addr = size * 4;
}
else
{
//The compare is pretty much a waste of time, likelyhood is that the program isnt there, thats why its copying it.
//Faster without.
//if (memcmp_mmx(VUx.Micro + addr, data, size*4)) {
// Clear VU memory before writing!
if (!idx) CpuVU0->Clear(addr, size*4);
else CpuVU1->Clear(addr, size*4);
memcpy(VUx.Micro + addr, data, size*4); //from tests, memcpy is 1fps faster on Grandia 3 than memcpy
vifX.tag.addr += size * 4;
}
}
vifOp(vifCode_MPG) {
vifStruct& vifX = GetVifX;
pass1 {
int vifNum = (u8)(vifXRegs.code >> 16);
vifX.tag.addr = (u16)(vifXRegs.code << 3) & (idx ? 0x3fff : 0xfff);
vifX.tag.size = vifNum ? (vifNum*2) : 512;
vifFlush(idx);
if(vifX.vifstalled.enabled) return 0;
else
{
vifX.pass = 1;
return 1;
}
}
pass2 {
if (vifX.vifpacketsize < vifX.tag.size) { // Partial Transfer
if((vifX.tag.addr + vifX.vifpacketsize*4) > (idx ? 0x4000 : 0x1000)) {
//DevCon.Warning("Vif%d MPG Split Overflow", idx);
}
_vifCode_MPG(idx, vifX.tag.addr, data, vifX.vifpacketsize);
vifX.tag.size -= vifX.vifpacketsize; //We can do this first as its passed as a pointer
return vifX.vifpacketsize;
}
else { // Full Transfer
if((vifX.tag.addr + vifX.tag.size*4) > (idx ? 0x4000 : 0x1000)) {
//DevCon.Warning("Vif%d MPG Split Overflow full %x", idx, vifX.tag.addr + vifX.tag.size*4);
}
_vifCode_MPG(idx, vifX.tag.addr, data, vifX.tag.size);
int ret = vifX.tag.size;
vifX.tag.size = 0;
vifX.cmd = 0;
vifX.pass = 0;
return ret;
}
}
pass3 { VifCodeLog("MPG"); }
return 0;
}
vifOp(vifCode_MSCAL) {
vifStruct& vifX = GetVifX;
pass1 {
vifFlush(idx);
if(!vifX.waitforvu)
{
vuExecMicro(idx, (u16)(vifXRegs.code) << 3);
vifX.cmd = 0;
vifX.pass = 0;
if(GetVifX.vifpacketsize > 1)
{
//Warship Gunner 2 has a rather big dislike for the delays
if(((data[1] >> 24) & 0x60) == 0x60) // Immediate following Unpack
{
//Snowblind games only use MSCAL, so other MS kicks force the program directly.
vifExecQueue(idx);
}
}
}
}
pass3 { VifCodeLog("MSCAL"); }
return 1;
}
vifOp(vifCode_MSCALF) {
vifStruct& vifX = GetVifX;
pass1or2 {
vifXRegs.stat.VGW = false;
vifFlush(idx);
if (u32 a = gifUnit.checkPaths(1,1,0)) {
GUNIT_WARN("Vif MSCALF: Stall! [%d,%d]", !!(a&1), !!(a&2));
vif1Regs.stat.VGW = true;
vifX.vifstalled.enabled = VifStallEnable(vifXch);
vifX.vifstalled.value = VIF_TIMING_BREAK;
}
if(!vifX.waitforvu)
{
vuExecMicro(idx, (u16)(vifXRegs.code) << 3);
vifX.cmd = 0;
vifX.pass = 0;
vifExecQueue(idx);
}
}
pass3 { VifCodeLog("MSCALF"); }
return 1;
}
vifOp(vifCode_MSCNT) {
vifStruct& vifX = GetVifX;
pass1 {
vifFlush(idx);
if(!vifX.waitforvu)
{
vuExecMicro(idx, -1);
vifX.cmd = 0;
vifX.pass = 0;
if (GetVifX.vifpacketsize > 1)
{
if (((data[1] >> 24) & 0x60) == 0x60) // Immediate following Unpack
{
vifExecQueue(idx);
}
}
}
}
pass3 { VifCodeLog("MSCNT"); }
return 1;
}
// ToDo: FixMe
vifOp(vifCode_MskPath3) {
vif1Only();
pass1 {
vif1Regs.mskpath3 = (vif1Regs.code >> 15) & 0x1;
gifRegs.stat.M3P = (vif1Regs.code >> 15) & 0x1;
GUNIT_LOG("Vif1 - MskPath3 [p3 = %s]", vif1Regs.mskpath3 ? "masked" : "enabled");
if(!vif1Regs.mskpath3) {
GUNIT_WARN("Path3 triggering!");
if(CHECK_GIFFIFOHACK)gif_fifo.read(false);
else gifInterrupt();
}
vif1.cmd = 0;
vif1.pass = 0;
}
pass3 { VifCodeLog("MskPath3"); }
return 1;
}
vifOp(vifCode_Nop) {
pass1 {
GetVifX.cmd = 0;
GetVifX.pass = 0;
vifExecQueue(idx);
//If the top bit was set to interrupt, we don't want it to take commands from a bad code if it's interpreted as a nop by us.
//Onimusha - Blade Warriors
if ((vifXRegs.code & 0x80000000) && (vifXRegs.code & 0xFF0000) != 0 && vifXch.qwc > 0 /*Not tag*/)
{
GetVifX.irq = 0;
}
if (GetVifX.vifpacketsize > 1)
{
if(((data[1] >> 24) & 0x7f) == 0x6 && (data[1] & 0x1)) //is mskpath3 next
{
GetVifX.vifstalled.enabled = VifStallEnable(vifXch);
GetVifX.vifstalled.value = VIF_TIMING_BREAK;
}
}
}
pass3 { VifCodeLog("Nop"); }
return 1;
}
// ToDo: Review Flags
vifOp(vifCode_Null) {
vifStruct& vifX = GetVifX;
pass1 {
// if ME1, then force the vif to interrupt
if (!(vifXRegs.err.ME1)) { // Ignore vifcode and tag mismatch error
Console.WriteLn("Vif%d: Unknown VifCmd! [%x]", idx, vifX.cmd);
vifXRegs.stat.ER1 = true;
vifX.vifstalled.enabled = VifStallEnable(vifXch);
vifX.vifstalled.value = VIF_IRQ_STALL;
//vifX.irq++;
}
vifX.cmd = 0;
vifX.pass = 0;
//If the top bit was set to interrupt, we don't want it to take commands from a bad code
if (vifXRegs.code & 0x80000000) vifX.irq = 0;
}
pass2 { Console.Error("Vif%d bad vifcode! [CMD = %x]", idx, vifX.cmd); }
pass3 { VifCodeLog("Null"); }
return 1;
}
vifOp(vifCode_Offset) {
vif1Only();
pass1 {
vif1Regs.stat.DBF = false;
vif1Regs.ofst = vif1Regs.code & 0x3ff;
vif1Regs.tops = vif1Regs.base;
vif1.cmd = 0;
vif1.pass = 0;
}
pass3 { VifCodeLog("Offset"); }
return 1;
}
template<int idx> static __fi int _vifCode_STColRow(const u32* data, u32* pmem2) {
vifStruct& vifX = GetVifX;
int ret = std::min(4 - vifX.tag.addr, vifX.vifpacketsize);
pxAssume(vifX.tag.addr < 4);
pxAssume(ret > 0);
switch (ret) {
case 4: pmem2[3] = data[3]; // Fall through
case 3: pmem2[2] = data[2]; // Fall through
case 2: pmem2[1] = data[1]; // Fall through
case 1: pmem2[0] = data[0];
break;
jNO_DEFAULT
}
vifX.tag.addr += ret;
vifX.tag.size -= ret;
if (!vifX.tag.size)
{
vifX.pass = 0;
vifX.cmd = 0;
}
return ret;
}
vifOp(vifCode_STCol) {
vifStruct& vifX = GetVifX;
pass1 {
vifX.tag.addr = 0;
vifX.tag.size = 4;
vifX.pass = 1;
return 1;
}
pass2 {
u32 ret = _vifCode_STColRow<idx>(data, &vifX.MaskCol._u32[vifX.tag.addr]);
if (idx && THREAD_VU1) { vu1Thread.WriteCol(vifX); }
return ret;
}
pass3 { VifCodeLog("STCol"); }
return 0;
}
vifOp(vifCode_STRow) {
vifStruct& vifX = GetVifX;
pass1 {
vifX.tag.addr = 0;
vifX.tag.size = 4;
vifX.pass = 1;
return 1;
}
pass2 {
u32 ret = _vifCode_STColRow<idx>(data, &vifX.MaskRow._u32[vifX.tag.addr]);
if (idx && THREAD_VU1) { vu1Thread.WriteRow(vifX); }
return ret;
}
pass3 { VifCodeLog("STRow"); }
return 1;
}
vifOp(vifCode_STCycl) {
vifStruct& vifX = GetVifX;
pass1 {
vifXRegs.cycle.cl = (u8)(vifXRegs.code);
vifXRegs.cycle.wl = (u8)(vifXRegs.code >> 8);
vifX.cmd = 0;
vifX.pass = 0;
}
pass3 { VifCodeLog("STCycl"); }
return 1;
}
vifOp(vifCode_STMask) {
vifStruct& vifX = GetVifX;
pass1 { vifX.tag.size = 1; vifX.pass = 1; return 1; }
pass2 { vifXRegs.mask = data[0]; vifX.tag.size = 0; vifX.cmd = 0; vifX.pass = 0;}
pass3 { VifCodeLog("STMask"); }
return 1;
}
vifOp(vifCode_STMod) {
pass1 { vifXRegs.mode = vifXRegs.code & 0x3; GetVifX.cmd = 0; GetVifX.pass = 0;}
pass3 { VifCodeLog("STMod"); }
return 1;
}
template< uint idx >
static uint calc_addr(bool flg)
{
VIFregisters& vifRegs = vifXRegs;
uint retval = vifRegs.code;
if (idx && flg) retval += vifRegs.tops;
return retval & (idx ? 0x3ff : 0xff);
}
vifOp(vifCode_Unpack) {
pass1 {
vifUnpackSetup<idx>(data);
return 1;
}
pass2 {
return nVifUnpack<idx>((u8*)data);
}
pass3 {
vifStruct& vifX = GetVifX;
VIFregisters& vifRegs = vifXRegs;
uint vl = vifX.cmd & 0x03;
uint vn = (vifX.cmd >> 2) & 0x3;
bool flg = (vifRegs.code >> 15) & 1;
static const char* const vntbl[] = { "S", "V2", "V3", "V4" };
static const uint vltbl[] = { 32, 16, 8, 5 };
VifCodeLog("Unpack %s_%u (%s) @ 0x%04X%s (cl=%u wl=%u num=0x%02X)",
vntbl[vn], vltbl[vl], (vifX.cmd & 0x10) ? "masked" : "unmasked",
calc_addr<idx>(flg), flg ? "(FLG)" : "",
vifRegs.cycle.cl, vifRegs.cycle.wl, (vifXRegs.code >> 16) & 0xff
);
}
return 0;
}
//------------------------------------------------------------------
// Vif0/Vif1 Code Tables
//------------------------------------------------------------------
__aligned16 FnType_VifCmdHandler* const vifCmdHandler[2][128] =
{
{
vifCode_Nop<0> , vifCode_STCycl<0> , vifCode_Offset<0> , vifCode_Base<0> , vifCode_ITop<0> , vifCode_STMod<0> , vifCode_MskPath3<0>, vifCode_Mark<0>, /*0x00*/
vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0>, /*0x08*/
vifCode_FlushE<0> , vifCode_Flush<0> , vifCode_Null<0> , vifCode_FlushA<0> , vifCode_MSCAL<0> , vifCode_MSCALF<0> , vifCode_Null<0> , vifCode_MSCNT<0>, /*0x10*/
vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0>, /*0x18*/
vifCode_STMask<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0>, /*0x20*/
vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0>, /*0x28*/
vifCode_STRow<0> , vifCode_STCol<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0>, /*0x30*/
vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0>, /*0x38*/
vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0>, /*0x40*/
vifCode_Null<0> , vifCode_Null<0> , vifCode_MPG<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0>, /*0x48*/
vifCode_Direct<0> , vifCode_DirectHL<0>, vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0>, /*0x50*/
vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0> , vifCode_Null<0>, /*0x58*/
vifCode_Unpack<0> , vifCode_Unpack<0> , vifCode_Unpack<0> , vifCode_Unpack<0> , vifCode_Unpack<0> , vifCode_Unpack<0> , vifCode_Unpack<0> , vifCode_Null<0>, /*0x60*/
vifCode_Unpack<0> , vifCode_Unpack<0> , vifCode_Unpack<0> , vifCode_Unpack<0> , vifCode_Unpack<0> , vifCode_Unpack<0> , vifCode_Unpack<0> , vifCode_Unpack<0>, /*0x68*/
vifCode_Unpack<0> , vifCode_Unpack<0> , vifCode_Unpack<0> , vifCode_Unpack<0> , vifCode_Unpack<0> , vifCode_Unpack<0> , vifCode_Unpack<0> , vifCode_Null<0>, /*0x70*/
vifCode_Unpack<0> , vifCode_Unpack<0> , vifCode_Unpack<0> , vifCode_Null<0> , vifCode_Unpack<0> , vifCode_Unpack<0> , vifCode_Unpack<0> , vifCode_Unpack<0> /*0x78*/
},
{
vifCode_Nop<1> , vifCode_STCycl<1> , vifCode_Offset<1> , vifCode_Base<1> , vifCode_ITop<1> , vifCode_STMod<1> , vifCode_MskPath3<1>, vifCode_Mark<1>, /*0x00*/
vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1>, /*0x08*/
vifCode_FlushE<1> , vifCode_Flush<1> , vifCode_Null<1> , vifCode_FlushA<1> , vifCode_MSCAL<1> , vifCode_MSCALF<1> , vifCode_Null<1> , vifCode_MSCNT<1>, /*0x10*/
vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1>, /*0x18*/
vifCode_STMask<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1>, /*0x20*/
vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1>, /*0x28*/
vifCode_STRow<1> , vifCode_STCol<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1>, /*0x30*/
vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1>, /*0x38*/
vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1>, /*0x40*/
vifCode_Null<1> , vifCode_Null<1> , vifCode_MPG<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1>, /*0x48*/
vifCode_Direct<1> , vifCode_DirectHL<1>, vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1>, /*0x50*/
vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1> , vifCode_Null<1>, /*0x58*/
vifCode_Unpack<1> , vifCode_Unpack<1> , vifCode_Unpack<1> , vifCode_Unpack<1> , vifCode_Unpack<1> , vifCode_Unpack<1> , vifCode_Unpack<1> , vifCode_Null<1>, /*0x60*/
vifCode_Unpack<1> , vifCode_Unpack<1> , vifCode_Unpack<1> , vifCode_Unpack<1> , vifCode_Unpack<1> , vifCode_Unpack<1> , vifCode_Unpack<1> , vifCode_Unpack<1>, /*0x68*/
vifCode_Unpack<1> , vifCode_Unpack<1> , vifCode_Unpack<1> , vifCode_Unpack<1> , vifCode_Unpack<1> , vifCode_Unpack<1> , vifCode_Unpack<1> , vifCode_Null<1>, /*0x70*/
vifCode_Unpack<1> , vifCode_Unpack<1> , vifCode_Unpack<1> , vifCode_Null<1> , vifCode_Unpack<1> , vifCode_Unpack<1> , vifCode_Unpack<1> , vifCode_Unpack<1> /*0x78*/
}
};