/* ZeroGS KOSMOS * Copyright (C) 2005-2006 zerofrog@gmail.com * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program 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 this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "GS.h" #include "Mem.h" #include "zerogs.h" #include "GifTransfer.h" #ifdef _DEBUG static int count = 0; #endif /*void _GSgifPacket(pathInfo *path, u32 *pMem) // 128bit { FUNCLOG int reg = (int)((path->regs >> path->regn) & 0xf); g_GIFPackedRegHandlers[reg](pMem); path->regn += 4; if (path->nreg == path->regn) { path->regn = 0; path->nloop--; } } void _GSgifRegList(pathInfo *path, u32 *pMem) // 64bit { FUNCLOG int reg = (int)((path->regs >> path->regn) & 0xf); g_GIFRegHandlers[reg](pMem); path->regn += 4; if (path->nreg == path->regn) { path->regn = 0; path->nloop--; } }*/ static int nPath3Hack = 0; void CALLBACK GSgetLastTag(u64* ptag) { FUNCLOG *(u32*)ptag = nPath3Hack; nPath3Hack = 0; } #ifdef _WIN32 // for debug assertion checks (thread affinity checks) extern HANDLE g_hCurrentThread; #endif __forceinline void gifTransferLog(int index, u32 *pMem, u32 size) { #ifdef _DEBUG if (conf.log /*& 0x20*/) { static int nSaveIndex = 0; ZZLog::GS_Log("%d: p:%d %x", nSaveIndex++, index + 1, size); int vals[4] = {0}; for (u32 i = 0; i < size; i++) { for (u32 j = 0; j < 4; ++j) vals[j] ^= pMem[4*i+j]; } ZZLog::GS_Log("%x %x %x %x", vals[0], vals[1], vals[2], vals[3]); } #endif } #ifdef NEW_GIF_TRANSFER extern int g_GSMultiThreaded; template void _GSgifTransfer(u32 *pMem, u32 size) { FUNCLOG pathInfo *path = &gs.path[index]; #ifdef _WIN32 assert(g_hCurrentThread == GetCurrentThread()); #endif #ifdef _DEBUG gifTransferLog(index, pMem, size); #endif while (size > 0) { //LOG(_T("Transfer(%08x, %d) START\n"), pMem, size); if (path->nloop == 0) { path->setTag(pMem); pMem += 4; size--; if ((conf.settings().path3) && (index == 2) && path->eop) nPath3Hack = 1; // eeuser 7.2.2. GIFtag: "... when NLOOP is 0, the GIF does not output anything, and // values other than the EOP field are disregarded." if (path->nloop > 0) { gs.q = 1.0f; if (path->tag.PRE && (path->tag.FLG == GIF_FLG_PACKED)) { u32 tagprim = path->tag.PRIM; GIFRegHandlerPRIM((u32*)&tagprim); } } } else { switch (path->mode) { case GIF_FLG_PACKED: { // Needs to be looked at. // first try a shortcut for a very common case /*if(path.adonly && size >= path.nloop) { size -= path.nloop; do { GIFPackedRegHandlerA_D(pMem); mem += sizeof(GIFPackedReg); } while(--path.nloop > 0);*/ do { g_GIFPackedRegHandlers[path->GetReg()](pMem); pMem += 4; size--; } while (path->StepReg() && (size > 0)); break; } case GIF_FLG_REGLIST: { // Needs to be looked at. //ZZLog::GS_Log("%8.8x%8.8x %d L", ((u32*)&gs.regs)[1], *(u32*)&gs.regs, path->tag.nreg/4); size *= 2; do { g_GIFRegHandlers[path->GetReg()](pMem); pMem += 2; size--; } while (path->StepReg() && (size > 0)); if (size & 1) pMem += 2; size /= 2; break; } case GIF_FLG_IMAGE: // FROM_VFRAM case GIF_FLG_IMAGE2: // Used in the DirectX version, so we'll use it here too. { int len = min(size, path->nloop); //ZZLog::Error_Log("GIF_FLG_IMAGE(%d)=%d", gs.imageTransfer, len); switch (gs.imageTransfer) { case 0: ZeroGS::TransferHostLocal(pMem, len * 4); break; case 1: ZeroGS::TransferLocalHost(pMem, len); break; case 2: //Move(); //ZZLog::Error_Log("GIF_FLG_IMAGE MOVE"); break; case 3: //assert(0); break; default: //assert(0); break; } pMem += len * 4; path->nloop -= len; size -= len; break; } default: // GIF_IMAGE ZZLog::GS_Log("*** WARNING **** Unexpected GIFTag flag."); assert(0); path->nloop = 0; break; } } if (index == 0) { if (path->tag.EOP && path->nloop == 0) { break; } } } // This is the case when not all data was readed from one try: VU1 has too much data. // So we should redo reading from the start. if (index == 0) { if (size == 0 && path->nloop > 0) { if (g_GSMultiThreaded) { path->nloop = 0; } else { _GSgifTransfer<0>(pMem - 0x4000, 0x4000 / 16); } } } } void CALLBACK GSgifTransfer1(u32 *pMem, u32 addr) { FUNCLOG //ZZLog::GS_Log("GSgifTransfer1 0x%x (mode %d).", addr, path->mode); #ifdef _DEBUG ZZLog::Prim_Log("count: %d\n", count); count++; #endif _GSgifTransfer<0>((u32*)((u8*)pMem + addr), (0x4000 - addr) / 16); } void CALLBACK GSgifTransfer2(u32 *pMem, u32 size) { FUNCLOG //ZZLog::GS_Log("GSgifTransfer2 size = %lx (mode %d, gs.path2.tag.nloop = %d).", size, gs.path[1].mode, gs.path[1].tag.nloop); _GSgifTransfer<1>(pMem, size); } void CALLBACK GSgifTransfer3(u32 *pMem, u32 size) { FUNCLOG //ZZLog::GS_Log("GSgifTransfer3 size = %lx (mode %d, gs.path3.tag.nloop = %d).", size, gs.path[2].mode, gs.path[2].tag.nloop); _GSgifTransfer<2>(pMem, size); } #else template void _GSgifTransfer(u32 *pMem, u32 size) { FUNCLOG pathInfo *path = &gs.path[index]; #ifdef _WIN32 assert(g_hCurrentThread == GetCurrentThread()); #endif #ifdef _DEBUG gifTransferLog(index, pMem, size); #endif while (size > 0) { //LOG(_T("Transfer(%08x, %d) START\n"), pMem, size); if (path->nloop == 0) { path->setTag(pMem); gs.q = 1; pMem += 4; size--; if ((conf.settings() & GAME_PATH3HACK) && (index == 2) && path->eop) nPath3Hack = 1; if (index == 0) { if (path->mode == GIF_FLG_PACKED) { // check if 0xb is in any reg, if yes, exit (kh2) for (int i = 0; i < path->nreg; i += 4) { if (((path->regs >> i) & 0xf) == 11) { ERROR_LOG_SPAM("Invalid unpack type\n"); path->nloop = 0; return; } } } } if (path->nloop == 0) { if (index == 0) { // ffx hack if (path->eop) return; continue; } /*if( !path->eop ) { //ZZLog::Debug_Log("Continuing from eop."); continue; }*/ // Issue 174 fix! continue; } } switch (path->mode) { case GIF_FLG_PACKED: { assert(path->nloop > 0); for (; size > 0; size--, pMem += 4) { int reg = (int)((path->regs >> path->regn) & 0xf); g_GIFPackedRegHandlers[reg](pMem); path->regn += 4; if (path->nreg == path->regn) { path->regn = 0; if (path->nloop-- <= 1) { size--; pMem += 4; break; } } } break; } case GIF_FLG_REGLIST: { //GS_LOG("%8.8x%8.8x %d L", ((u32*)&gs.regs)[1], *(u32*)&gs.regs, path->tag.nreg/4); assert(path->nloop > 0); size *= 2; for (; size > 0; pMem += 2, size--) { int reg = (int)((path->regs >> path->regn) & 0xf); g_GIFRegHandlers[reg](pMem); path->regn += 4; if (path->nreg == path->regn) { path->regn = 0; if (path->nloop-- <= 1) { size--; pMem += 2; break; } } } if (size & 1) pMem += 2; size /= 2; break; } case GIF_FLG_IMAGE: // FROM_VFRAM case GIF_FLG_IMAGE2: // Used in the DirectX version, so we'll use it here too. { if (gs.imageTransfer >= 0 && gs.imageTransfer <= 1) { int process = min((int)size, path->nloop); if (process > 0) { if (gs.imageTransfer) ZeroGS::TransferLocalHost(pMem, process); else ZeroGS::TransferHostLocal(pMem, process*4); path->nloop -= process; pMem += process * 4; size -= process; assert(size == 0 || path->nloop == 0); } break; } else { // simulate int process = min((int)size, path->nloop); path->nloop -= process; pMem += process * 4; size -= process; } break; } default: // GIF_IMAGE ZZLog::GS_Log("*** WARNING **** Unexpected GIFTag flag."); assert(0); path->nloop = 0; break; } if ((index == 0) && path->eop) return; } // This is the case when not all data was readed from one try: VU1 has too much data. // So we should redo reading from the start. if ((index == 0) && size == 0 && path->nloop > 0) { ERROR_LOG_SPAMA("VU1 too much data, ignore if gfx are fine %d\n", path->nloop) // TODO: this code is not working correctly. Anyway, ringing work only in single-threaded mode. // _GSgifTransfer(&gs.path[0], (u32*)((u8*)pMem-0x4000), (0x4000)/16); } } void CALLBACK GSgifTransfer1(u32 *pMem, u32 addr) { FUNCLOG pathInfo *path = &gs.path[0]; //ZZLog::GS_Log("GSgifTransfer1 0x%x (mode %d).", addr, path->mode); // addr &= 0x3fff; #ifdef _DEBUG ZZLog::Prim_Log("count: %d\n", count); count++; #endif path->nloop = 0; path->eop = 0; _GSgifTransfer<0>((u32*)((u8*)pMem + addr), (0x4000 - addr) / 16); if (!path->eop && (path->nloop > 0)) { assert((addr&0xf) == 0); //BUG path->nloop = 0; ZZLog::Debug_Log("Transfer1 - 2."); return; } } void CALLBACK GSgifTransfer2(u32 *pMem, u32 size) { FUNCLOG //ZZLog::GS_Log("GSgifTransfer2 size = %lx (mode %d, gs.path2.tag.nloop = %d).", size, gs.path[1].mode, gs.path[1].tag.nloop); _GSgifTransfer<1>(pMem, size); } void CALLBACK GSgifTransfer3(u32 *pMem, u32 size) { FUNCLOG //ZZLog::GS_Log("GSgifTransfer3 size = %lx (mode %d, gs.path3.tag.nloop = %d).", size, gs.path[2].mode, gs.path[2].tag.nloop); nPath3Hack = 0; _GSgifTransfer<2>(pMem, size); } #endif