/* * settings.c * * This file is part of Emu48 * * Copyright (C) 2000 Christoph Gießelink * */ #include "pch.h" #include "Emu48.h" #include "i28f160.h" // #define REGISTRY // use registry instead of *.ini file //################ //# //# Low level subroutines //# //################ #if !defined REGISTRY // INI-file handling #if !defined EMU48_INI #define EMU48_INI "Emu48.ini" #endif #define ReadString(sec,key,dv,v,sv) GetPrivateProfileString(sec,key,dv,v,sv,_T(EMU48_INI)) #define ReadInt(sec,key,dv) GetPrivateProfileInt(sec,key,dv,_T(EMU48_INI)); #define WriteString(sec,key,v) WritePrivateProfileString(sec,key,v,_T(EMU48_INI)) #define WriteInt(sec,key,v) WritePrivateProfileInt(sec,key,v,_T(EMU48_INI)) #define DelKey(sec,key) WritePrivateProfileString(sec,key,NULL,_T(EMU48_INI)) static BOOL WritePrivateProfileInt(LPCTSTR lpszSection, LPCTSTR lpszEntry, int nValue, LPCTSTR lpszFilename) { TCHAR s[16]; wsprintf(s,_T("%i"),nValue); return WritePrivateProfileString(lpszSection, lpszEntry, s, lpszFilename); } #else // registry handling #if !defined REGISTRYKEY #define REGISTRYKEY "Software\\Emu48" #endif #define ReadString(sec,key,dv,v,sv) GetRegistryString(sec,key,dv,v,sv) #define ReadInt(sec,key,dv) GetRegistryInt(sec,key,dv) #define WriteString(sec,key,v) WriteReg(sec,key,REG_SZ,(BYTE *) v,(lstrlen(v)+1) * sizeof(*v)) #define WriteInt(sec,key,v) WriteReg(sec,key,REG_DWORD,(BYTE *) &v,sizeof(int)) #define DelKey(sec,key) DelReg(sec,key) static VOID ReadReg(LPCTSTR lpSubKey, LPCTSTR lpValueName, LPBYTE lpData, DWORD *pdwSize) { TCHAR lpKey[256] = _T(REGISTRYKEY) _T("\\"); DWORD retCode,dwType; HKEY hKey; lstrcat(lpKey, lpSubKey); // full registry key retCode = RegOpenKeyEx(HKEY_CURRENT_USER, lpKey, 0, KEY_QUERY_VALUE, &hKey); if (retCode == ERROR_SUCCESS) { retCode = RegQueryValueEx(hKey,lpValueName,NULL,&dwType,lpData,pdwSize); RegCloseKey(hKey); } if (retCode != ERROR_SUCCESS) // registry entry not found *pdwSize = 0; // return zero size return; } static BOOL WriteReg(LPCTSTR lpSubKey, LPCTSTR lpValueName, DWORD dwType, CONST BYTE *lpData, DWORD cbData) { TCHAR lpKey[256] = _T(REGISTRYKEY) _T("\\"); DWORD retCode; HKEY hKey; DWORD dwDisposition; lstrcat(lpKey, lpSubKey); // full registry key retCode = RegCreateKeyEx(HKEY_CURRENT_USER, lpKey, 0,_T(""), REG_OPTION_NON_VOLATILE, KEY_WRITE, NULL, &hKey, &dwDisposition); _ASSERT(retCode == ERROR_SUCCESS); RegSetValueEx(hKey,lpValueName,0,dwType,lpData,cbData); RegCloseKey(hKey); return retCode == ERROR_SUCCESS; } static BOOL DelReg(LPCTSTR lpSubKey, LPCTSTR lpValueName) { TCHAR lpKey[256] = _T(REGISTRYKEY) _T("\\"); DWORD retCode; HKEY hKey; lstrcat(lpKey, lpSubKey); // full registry key retCode = RegOpenKeyEx(HKEY_CURRENT_USER, lpKey, 0, KEY_SET_VALUE, &hKey); if (retCode == ERROR_SUCCESS) { retCode = RegDeleteValue(hKey,lpValueName); RegCloseKey(hKey); } return retCode == ERROR_SUCCESS; } static DWORD GetRegistryString(LPCTSTR lpszSection, LPCTSTR lpszEntry, LPCTSTR lpDefault, LPTSTR lpData, DWORD dwSize) { dwSize *= sizeof(*lpData); // buffer size in bytes ReadReg(lpszSection,lpszEntry,(LPBYTE) lpData,&dwSize); if (dwSize == 0) { lstrcpy(lpData,lpDefault); dwSize = lstrlen(lpData); } else { dwSize = (dwSize / sizeof(*lpData)) - 1; } return dwSize; } static UINT GetRegistryInt(LPCTSTR lpszSection, LPCTSTR lpszEntry, INT nDefault) { UINT nValue; DWORD dwSize = sizeof(nValue); ReadReg(lpszSection,lpszEntry,(LPBYTE) &nValue,&dwSize); return dwSize ? nValue : nDefault; } #endif //################ //# //# Public functions //# //################ VOID ReadSettings(VOID) { // Files ReadString(_T("Files"),_T("Emu48Directory"),szCurrentDirectory,szEmuDirectory,ARRAYSIZEOF(szEmuDirectory)); bAutoSave = ReadInt(_T("Files"),_T("AutoSave"),bAutoSave); bAutoSaveOnExit = ReadInt(_T("Files"),_T("AutoSaveOnExit"),bAutoSaveOnExit); bSaveDefConfirm = ReadInt(_T("Files"),_T("SaveDefaultConfirm"),bSaveDefConfirm); bStartupBackup = ReadInt(_T("Files"),_T("StartupBackup"),bStartupBackup); bLoadObjectWarning = ReadInt(_T("Files"),_T("LoadObjectWarning"),bLoadObjectWarning); // Port2 bPort2IsShared = ReadInt(_T("Port2"),_T("IsShared"),bPort2IsShared); ReadString(_T("Port2"),_T("Filename"),_T("SHARED.BIN"),szPort2Filename,ARRAYSIZEOF(szPort2Filename)); // KML bAlwaysDisplayLog = ReadInt(_T("KML"),_T("AlwaysDisplayLog"),bAlwaysDisplayLog); // Disassembler disassembler_mode = ReadInt(_T("Disassembler"),_T("Mnemonics"),disassembler_mode); disassembler_symb = ReadInt(_T("Disassembler"),_T("Symbolic"),disassembler_symb); // Emulator bAlwaysOnTop = ReadInt(_T("Emulator"),_T("AlwaysOnTop"),bAlwaysOnTop); bActFollowsMouse = ReadInt(_T("Emulator"),_T("ActivationFollowsMouse"),bActFollowsMouse); bSingleInstance = ReadInt(_T("Emulator"),_T("SingleInstance"),bSingleInstance); bRealSpeed = ReadInt(_T("Emulator"),_T("RealSpeed"),bRealSpeed); dwSXCycles = ReadInt(_T("Emulator"),_T("SXCycles"),dwSXCycles); dwGXCycles = ReadInt(_T("Emulator"),_T("GXCycles"),dwGXCycles); dwKeyMinDelay = ReadInt(_T("Emulator"),_T("KeyMinDelay"),dwKeyMinDelay); dwWakeupDelay = ReadInt(_T("Emulator"),_T("WakeupDelay"),dwWakeupDelay); bGrayscale = ReadInt(_T("Emulator"),_T("Grayscale"),bGrayscale); bWaveBeep = ReadInt(_T("Emulator"),_T("WaveBeep"),bWaveBeep); dwWaveVol = ReadInt(_T("Emulator"),_T("WaveVolume"),dwWaveVol); // LowBat bLowBatDisable = ReadInt(_T("LowBat"),_T("Disable"),bLowBatDisable); // Macro bMacroRealSpeed = ReadInt(_T("Macro"),_T("RealSpeed"),bMacroRealSpeed); nMacroTimeout = ReadInt(_T("Macro"),_T("ReplayTimeout"),nMacroTimeout); dwMacroMinDelay = ReadInt(_T("Macro"),_T("KeyMinDelay"),dwMacroMinDelay); // IrPrinter ReadString(_T("IrPrinter"),_T("Address"),szUdpServer,szUdpServer,ARRAYSIZEOF(szUdpServer)); wUdpPort = ReadInt(_T("IrPrinter"),_T("Port"),wUdpPort); // Serial ReadString(_T("Serial"),_T("Wire"),_T(NO_SERIAL),szSerialWire,ARRAYSIZEOF(szSerialWire)); ReadString(_T("Serial"),_T("Ir"),_T(NO_SERIAL),szSerialIr,ARRAYSIZEOF(szSerialIr)); // ROM bRomWriteable = ReadInt(_T("ROM"),_T("Writeable"),bRomWriteable); bWP = ReadInt(_T("ROM"),_T("WP#"),bWP); return; } VOID WriteSettings(VOID) { // Files WriteString(_T("Files"),_T("Emu48Directory"),szEmuDirectory); WriteInt(_T("Files"),_T("AutoSave"),bAutoSave); WriteInt(_T("Files"),_T("AutoSaveOnExit"),bAutoSaveOnExit); WriteInt(_T("Files"),_T("SaveDefaultConfirm"),bSaveDefConfirm); WriteInt(_T("Files"),_T("StartupBackup"),bStartupBackup); WriteInt(_T("Files"),_T("LoadObjectWarning"),bLoadObjectWarning); // Port2 WriteInt(_T("Port2"),_T("IsShared"),bPort2IsShared); WriteString(_T("Port2"),_T("Filename"),szPort2Filename); // KML WriteInt(_T("KML"),_T("AlwaysDisplayLog"),bAlwaysDisplayLog); // Disassembler WriteInt(_T("Disassembler"),_T("Mnemonics"),disassembler_mode); WriteInt(_T("Disassembler"),_T("Symbolic"),disassembler_symb); // Emulator WriteInt(_T("Emulator"),_T("AlwaysOnTop"),bAlwaysOnTop); WriteInt(_T("Emulator"),_T("ActivationFollowsMouse"),bActFollowsMouse); WriteInt(_T("Emulator"),_T("SingleInstance"),bSingleInstance); WriteInt(_T("Emulator"),_T("RealSpeed"),bRealSpeed); WriteInt(_T("Emulator"),_T("SXCycles"),dwSXCycles); WriteInt(_T("Emulator"),_T("GXCycles"),dwGXCycles); WriteInt(_T("Emulator"),_T("KeyMinDelay"),dwKeyMinDelay); WriteInt(_T("Emulator"),_T("WakeupDelay"),dwWakeupDelay); WriteInt(_T("Emulator"),_T("Grayscale"),bGrayscale); WriteInt(_T("Emulator"),_T("WaveBeep"),bWaveBeep); WriteInt(_T("Emulator"),_T("WaveVolume"),dwWaveVol); // LowBat WriteInt(_T("LowBat"),_T("Disable"),bLowBatDisable); // Macro WriteInt(_T("Macro"),_T("RealSpeed"),bMacroRealSpeed); WriteInt(_T("Macro"),_T("ReplayTimeout"),nMacroTimeout); WriteInt(_T("Macro"),_T("KeyMinDelay"),dwMacroMinDelay); // IrPrinter WriteString(_T("IrPrinter"),_T("Address"),szUdpServer); WriteInt(_T("IrPrinter"),_T("Port"),wUdpPort); // Serial WriteString(_T("Serial"),_T("Wire"),szSerialWire); WriteString(_T("Serial"),_T("Ir"),szSerialIr); // ROM WriteInt(_T("ROM"),_T("Writeable"),bRomWriteable); return; } VOID ReadLastDocument(LPTSTR szFilename, DWORD nSize) { ReadString(_T("Files"),_T("LastDocument"),_T(""),szFilename,nSize); return; } VOID WriteLastDocument(LPCTSTR szFilename) { WriteString(_T("Files"),_T("LastDocument"),szFilename); return; } VOID ReadSettingsString(LPCTSTR lpszSection, LPCTSTR lpszEntry, LPCTSTR lpDefault, LPTSTR lpData, DWORD dwSize) { ReadString(lpszSection,lpszEntry,lpDefault,lpData,dwSize); return; } VOID WriteSettingsString(LPCTSTR lpszSection, LPCTSTR lpszEntry, LPTSTR lpData) { WriteString(lpszSection,lpszEntry,lpData); return; } INT ReadSettingsInt(LPCTSTR lpszSection, LPCTSTR lpszEntry, INT nDefault) { return ReadInt(lpszSection,lpszEntry,nDefault); } VOID WriteSettingsInt(LPCTSTR lpszSection, LPCTSTR lpszEntry, INT nValue) { WriteInt(lpszSection,lpszEntry,nValue); return; } VOID DelSettingsKey(LPCTSTR lpszSection, LPCTSTR lpszEntry) { DelKey(lpszSection,lpszEntry); return; }