/** ** Supermodel ** A Sega Model 3 Arcade Emulator. ** Copyright 2011 Bart Trzynadlowski ** ** This file is part of Supermodel. ** ** Supermodel 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 3 of the License, or (at your option) ** any later version. ** ** Supermodel 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 Supermodel. If not, see . **/ /* * TileGen.cpp * * Implementation of the CTileGen class: 2D tile generator. * * TO-DO List: * ----------- * - For consistency, the registers should probably be byte reversed (this is a * little endian device), forcing the Model3 Read32/Write32 handlers to * manually reverse the data. This keeps with the convention for VRAM. */ #include #include "Supermodel.h" /****************************************************************************** Save States ******************************************************************************/ void CTileGen::SaveState(CBlockFile *SaveState) { SaveState->NewBlock("Tile Generator", __FILE__); SaveState->Write(memoryPool, 0x100000+0x20000); SaveState->Write(regs, sizeof(regs)); } void CTileGen::LoadState(CBlockFile *SaveState) { if (OKAY != SaveState->FindBlock("Tile Generator")) { ErrorLog("Unable to load tile generator state. Save state file is corrupted."); return; } // Load memory one word at a time for (int i = 0; i < (0x100000+0x20000); i += 4) { UINT32 data; SaveState->Read(&data, sizeof(data)); Render2D->WriteVRAM(i, data); *(UINT32 *) &memoryPool[i] = data; } SaveState->Read(regs, sizeof(regs)); } /****************************************************************************** Rendering ******************************************************************************/ void CTileGen::BeginFrame(void) { Render2D->BeginFrame(); /* printf("08: %X\n", regs[0x08/4]); printf("0C: %X\n", regs[0x0C/4]); printf("20: %X\n", regs[0x20/4]); printf("40: %X\n", regs[0x40/4]); printf("44: %X\n", regs[0x44/4]); printf("60: %08X\n", regs[0x60/4]); printf("64: %08X\n", regs[0x64/4]); printf("68: %08X\n", regs[0x68/4]); printf("6C: %08X\n", regs[0x6C/4]); */ } void CTileGen::EndFrame(void) { Render2D->EndFrame(); } /****************************************************************************** Emulation Functions ******************************************************************************/ UINT32 CTileGen::ReadRAM(unsigned addr) { return *(UINT32 *) &memoryPool[addr]; } void CTileGen::WriteRAM(unsigned addr, UINT32 data) { Render2D->WriteVRAM(addr,data); // inform renderer of update first *(UINT32 *) &memoryPool[addr] = data; } void CTileGen::WriteRegister(unsigned reg, UINT32 data) { reg &= 0xFF; regs[reg/4] = data; switch (reg) { case 0x10: // IRQ acknowledge IRQ->Deassert(data&0xFF); break; case 0x60: break; case 0x64: break; case 0x68: break; case 0x6C: break; default: DebugLog("Tile Generator reg %02X = %08X\n", reg, data); //printf("%02X = %08X\n", reg, data); break; } } void CTileGen::Reset(void) { memset(regs, 0, sizeof(regs)); memset(memoryPool, 0, 0x120000); DebugLog("Tile Generator reset\n"); } /****************************************************************************** Configuration, Initialization, and Shutdown ******************************************************************************/ void CTileGen::AttachRenderer(CRender2D *Render2DPtr) { Render2D = Render2DPtr; Render2D->AttachVRAM(memoryPool); Render2D->AttachRegisters(regs); DebugLog("Tile Generator attached a Render2D object\n"); } #define MEMORY_POOL_SIZE 0x120000 bool CTileGen::Init(CIRQ *IRQObjectPtr) { float memSizeMB = (float)MEMORY_POOL_SIZE/(float)0x100000; // Allocate all memory for ROMs and PPC RAM memoryPool = new(std::nothrow) UINT8[MEMORY_POOL_SIZE]; if (NULL == memoryPool) return ErrorLog("Insufficient memory for tile generator object (needs %1.1f MB).", memSizeMB); // Hook up the IRQ controller IRQ = IRQObjectPtr; DebugLog("Initialized Tile Generator (allocated %1.1f MB and connected to IRQ controller)\n", memSizeMB); return OKAY; } CTileGen::CTileGen(void) { IRQ = NULL; memoryPool = NULL; DebugLog("Built Tile Generator\n"); } CTileGen::~CTileGen(void) { // Dump tile generator RAM #if 0 FILE *fp; fp = fopen("tileram", "wb"); if (NULL != fp) { fwrite(memoryPool, sizeof(UINT8), 0x120000, fp); fclose(fp); printf("dumped %s\n", "tileram"); } else printf("unable to dump %s\n", "tileram"); #endif IRQ = NULL; if (memoryPool != NULL) { delete [] memoryPool; memoryPool = NULL; } DebugLog("Destroyed Tile Generator\n"); }