/**************************************************************************** * Snes9x 1.51 Nintendo Wii/Gamecube Port * * crunchy2 April 2007-July 2007 * Michniewski 2008 * Tantric 2008-2009 * * sram.cpp * * SRAM save/load/import/export handling ***************************************************************************/ #include #include #include #include #include "snes9x.h" #include "memmap.h" #include "srtc.h" #include "snes9xGX.h" #include "memcardop.h" #include "menu.h" #include "fileop.h" #include "filebrowser.h" #include "input.h" /**************************************************************************** * Load SRAM ***************************************************************************/ bool LoadSRAM (char * filepath, bool silent) { int offset = 0; int device; if(!FindDevice(filepath, &device)) return 0; AllocSaveBuffer(); offset = LoadFile(filepath, silent); if (offset > 0) { int size = Memory.SRAMSize ? (1 << (Memory.SRAMSize + 3)) * 128 : 0; if (size > 0x20000) size = 0x20000; if (device == DEVICE_MC_SLOTA || device == DEVICE_MC_SLOTB || offset == size + 512 || offset == size + 512 + SRTC_SRAM_PAD) { // SRAM has a 512 byte header - remove it, then import the SRAM, // ignoring anything after the SRAM memcpy(Memory.SRAM, savebuffer+512, size); } else if (offset == size || offset == size + SRTC_SRAM_PAD) { // SRAM data should be at the start of the file, just import it and // ignore anything after the SRAM memcpy (Memory.SRAM, savebuffer, size); } else { ErrorPrompt("Incompatible SRAM save!"); } S9xSoftReset(); FreeSaveBuffer (); return true; } else { FreeSaveBuffer (); // if we reached here, nothing was done! if(!silent) ErrorPrompt("SRAM file not found"); return false; } } bool LoadSRAMAuto (bool silent) { char filepath[MAXPATHLEN]; char filepath2[MAXPATHLEN]; // look for Auto save file if(!MakeFilePath(filepath, FILE_SRAM, Memory.ROMFilename, 0)) return false; if (LoadSRAM(filepath, silent)) return true; // look for file with no number or Auto appended if(!MakeFilePath(filepath2, FILE_SRAM, Memory.ROMFilename, -1)) return false; if(LoadSRAM(filepath2, silent)) { // rename this file - append Auto rename(filepath2, filepath); // rename file (to avoid duplicates) return true; } return false; } /**************************************************************************** * Save SRAM ***************************************************************************/ bool SaveSRAM (char * filepath, bool silent) { bool retval = false; int offset = 0; int device; if(!FindDevice(filepath, &device)) return 0; // determine SRAM size int size = Memory.SRAMSize ? (1 << (Memory.SRAMSize + 3)) * 128 : 0; if (size > 0x20000) size = 0x20000; if (size > 0) { if(device == DEVICE_MC_SLOTA || device == DEVICE_MC_SLOTB) { // Set the sramcomments char sramcomment[2][32]; memset(sramcomment, 0, 64); sprintf (sramcomment[0], "%s SRAM", APPNAME); sprintf (sramcomment[1], Memory.ROMName); SetMCSaveComments(sramcomment); } AllocSaveBuffer (); // copy in the SRAM, leaving a 512 byte header (for compatibility with other platforms) memcpy(savebuffer+512, Memory.SRAM, size); offset = SaveFile(filepath, size+512, silent); FreeSaveBuffer (); if (offset > 0) { if (!silent) InfoPrompt("Save successful"); retval = true; } } else { if(!silent) ErrorPrompt("No SRAM data to save!"); } return retval; } bool SaveSRAMAuto (bool silent) { char filepath[1024]; if(!MakeFilePath(filepath, FILE_SRAM, Memory.ROMFilename, 0)) return false; return SaveSRAM(filepath, silent); }