// ------------------------------------------------------------------------------------------------ #include "Logger.hpp" // ------------------------------------------------------------------------------------------------ #include #include #include #include // ------------------------------------------------------------------------------------------------ #include // ------------------------------------------------------------------------------------------------ #ifdef SQMOD_OS_WINDOWS // ------------------------------------------------------------------------------------------------ #include // ------------------------------------------------------------------------------------------------ namespace { /* ------------------------------------------------------------------------------------------------ * Common windows colors. */ enum { LC_NORMAL = FOREGROUND_RED | FOREGROUND_GREEN | FOREGROUND_BLUE, LC_WHITE = FOREGROUND_INTENSITY | FOREGROUND_RED | FOREGROUND_GREEN | FOREGROUND_BLUE, LC_GRAY = FOREGROUND_INTENSITY, LC_LIGHT_BLUE = FOREGROUND_INTENSITY | FOREGROUND_BLUE, LC_DARK_BLUE = FOREGROUND_BLUE, LC_LIGHT_GREEN = FOREGROUND_INTENSITY | FOREGROUND_GREEN, LC_DARK_GREEN = FOREGROUND_GREEN, LC_LIGHT_CYAN = FOREGROUND_INTENSITY | FOREGROUND_GREEN | FOREGROUND_BLUE, LC_DARK_CYAN = FOREGROUND_GREEN | FOREGROUND_BLUE, LC_LIGHT_YELLOW = FOREGROUND_INTENSITY | FOREGROUND_RED | FOREGROUND_GREEN, LC_DARK_YELLOW = FOREGROUND_RED | FOREGROUND_GREEN, LC_LIGHT_RED = FOREGROUND_INTENSITY | FOREGROUND_RED, LC_DARK_RED = FOREGROUND_RED, LC_LIGHT_MAGENTA = FOREGROUND_INTENSITY | FOREGROUND_RED | FOREGROUND_BLUE, LC_DARK_MAGENTA = FOREGROUND_RED | FOREGROUND_BLUE }; /* ------------------------------------------------------------------------------------------------ * Logging colors. */ enum { LC_DBG = LC_LIGHT_BLUE, LC_USR = LC_GRAY, LC_SCS = LC_LIGHT_GREEN, LC_INF = LC_LIGHT_CYAN, LC_WRN = LC_LIGHT_YELLOW, LC_ERR = LC_LIGHT_RED, LC_FTL = LC_LIGHT_MAGENTA }; /* ------------------------------------------------------------------------------------------------ * Identify the associated message color. */ inline WORD GetLevelColor(BYTE level) { switch (level) { case SqMod::LOGL_DBG: return LC_DBG; case SqMod::LOGL_USR: return LC_USR; case SqMod::LOGL_SCS: return LC_SCS; case SqMod::LOGL_INF: return LC_INF; case SqMod::LOGL_WRN: return LC_WRN; case SqMod::LOGL_ERR: return LC_ERR; case SqMod::LOGL_FTL: return LC_FTL; default: return LC_NORMAL; } } } // Namespace:: #endif // SQMOD_OS_WINDOWS // ------------------------------------------------------------------------------------------------ namespace SqMod { /* ------------------------------------------------------------------------------------------------ * Identify the message prefix. */ static inline CCStr GetLevelTag(Uint8 level) { switch (level) { case LOGL_DBG: return "[DBG]"; case LOGL_USR: return "[USR]"; case LOGL_SCS: return "[SCS]"; case LOGL_INF: return "[INF]"; case LOGL_WRN: return "[WRN]"; case LOGL_ERR: return "[ERR]"; case LOGL_FTL: return "[FTL]"; default: return "[UNK]"; } } /* ------------------------------------------------------------------------------------------------ * Identify the message prefix and color. */ static inline CCStr GetColoredLevelTag(Uint8 level) { switch (level) { case LOGL_DBG: return "\033[21;94m[[DBG]\033[0m"; case LOGL_USR: return "\033[21;37m[[USR]\033[0m"; case LOGL_SCS: return "\033[21;92m[[SCS]\033[0m"; case LOGL_INF: return "\033[21;96m[[INF]\033[0m"; case LOGL_WRN: return "\033[21;93m[[WRN]\033[0m"; case LOGL_ERR: return "\033[21;91m[[ERR]\033[0m"; case LOGL_FTL: return "\033[21;95m[[FTL]\033[0m"; default: return "\033[21;0m[[UNK]\033[0m"; } } /* ------------------------------------------------------------------------------------------------ * Output a logging message to the console window. */ static inline void OutputConsoleMessage(Uint8 level, bool sub, CCStr tms, CCStr msg) { #ifdef SQMOD_OS_WINDOWS HANDLE hstdout = GetStdHandle(STD_OUTPUT_HANDLE); CONSOLE_SCREEN_BUFFER_INFO csb_state; GetConsoleScreenBufferInfo(hstdout, &csb_state); SetConsoleTextAttribute(hstdout, GetLevelColor(level)); if (tms) { std::printf("%s %s ", GetLevelTag(level), tms); } else { std::printf("%s ", GetLevelTag(level)); } SetConsoleTextAttribute(hstdout, sub ? LC_NORMAL : LC_WHITE); std::puts(msg); SetConsoleTextAttribute(hstdout, csb_state.wAttributes); #else if (tms) { std::printf("%s %s ", GetColoredLevelTag(level), tms); } else { std::printf("%s ", GetColoredLevelTag(level)); } std::puts(msg); #endif // SQMOD_OS_WINDOWS } /* -------------------------------------------------------------------------------------------- * Raw console message output. */ static inline void OutputMessageImpl(CCStr msg, va_list args) { #if defined(WIN32) || defined(_WIN32) HANDLE hstdout = GetStdHandle(STD_OUTPUT_HANDLE); CONSOLE_SCREEN_BUFFER_INFO csb_before; GetConsoleScreenBufferInfo( hstdout, &csb_before); SetConsoleTextAttribute(hstdout, FOREGROUND_GREEN); std::printf("[SQMOD] "); SetConsoleTextAttribute(hstdout, FOREGROUND_GREEN | FOREGROUND_BLUE | FOREGROUND_RED | FOREGROUND_INTENSITY); std::vprintf(msg, args); std::puts(""); SetConsoleTextAttribute(hstdout, csb_before.wAttributes); #else std::printf("\033[21;32m[SQMOD]\033[0m"); std::vprintf(msg, args); std::puts(""); #endif } /* -------------------------------------------------------------------------------------------- * Raw console error output. */ static inline void OutputErrorImpl(CCStr msg, va_list args) { #if defined(WIN32) || defined(_WIN32) HANDLE hstdout = GetStdHandle(STD_OUTPUT_HANDLE); CONSOLE_SCREEN_BUFFER_INFO csb_before; GetConsoleScreenBufferInfo( hstdout, &csb_before); SetConsoleTextAttribute(hstdout, FOREGROUND_RED | FOREGROUND_INTENSITY); std::printf("[SQMOD] "); SetConsoleTextAttribute(hstdout, FOREGROUND_GREEN | FOREGROUND_BLUE | FOREGROUND_RED | FOREGROUND_INTENSITY); std::vprintf(msg, args); std::puts(""); SetConsoleTextAttribute(hstdout, csb_before.wAttributes); #else std::printf("\033[21;91m[SQMOD]\033[0m"); std::vprintf(msg, args); std::puts(""); #endif } /* ------------------------------------------------------------------------------------------------ * Identify the associated message color. */ static inline CCStr GetTimeStampStr() { static CharT tmbuff[80]; std::time_t t = std::time(nullptr); std::strftime(tmbuff, sizeof(tmbuff), "%Y-%m-%d %H:%M:%S", std::localtime(&t)); // Return the resulted buffer return tmbuff; } // ------------------------------------------------------------------------------------------------ Logger Logger::s_Inst; // ------------------------------------------------------------------------------------------------ Logger::Logger() : m_Buffer() , m_ConsoleLevels(LOGL_ANY) , m_LogFileLevels(~LOGL_DBG) , m_ConsoleTime(false) , m_LogFileTime(true) , m_File(nullptr) , m_Filename() { /* ... */ } // ------------------------------------------------------------------------------------------------ Logger::~Logger() { Close(); } // ------------------------------------------------------------------------------------------------ void Logger::Close() { // Is there a file handle to close? if (m_File) { // Flush buffered data std::fflush(m_File); // Close the file handle std::fclose(m_File); // Prevent further use of this file handle m_File = nullptr; } } // ------------------------------------------------------------------------------------------------ void Logger::SetLogFilename(CCStr filename) { // Close the current logging file, if any Close(); // Clear the current name m_Filename.clear(); // Was there a name specified? if (!filename || *filename == '\0') { return; // We're done here! } // Make sure the internal buffer has some memory m_Buffer.Adjust(1024); // Generate the filename using the current timestamp std::time_t t = std::time(nullptr); std::strftime(m_Buffer.Data(), m_Buffer.Size(), filename, std::localtime(&t)); // Is the resulted filename valid? if (m_Buffer.At(0) != '\0') { m_Filename.assign(m_Buffer.Data()); } else { return; // We're done here! } // Attempt to open the file for writing m_File = std::fopen(m_Filename.c_str(), "w"); // See if the file could be opened if (!m_File) { OutputError("Unable to open the log file (%s) : %s", m_Filename.c_str(), std::strerror(errno)); } } // ------------------------------------------------------------------------------------------------ void Logger::Initialize(CCStr filename) { // Close the logging file Close(); // Allocate some memory in the buffer m_Buffer.Adjust(1024); // Set the log file name and open the file if necessary SetLogFilename(filename); } // ------------------------------------------------------------------------------------------------ void Logger::Terminate() { // Release all the buffer resources and references m_Buffer.ResetAll(); } // ------------------------------------------------------------------------------------------------ void Logger::Proccess(Uint8 level, bool sub) { // Obtain the time-stamp if necessary CCStr tms = (m_ConsoleTime || m_LogFileTime) ? GetTimeStampStr() : nullptr; // Are we allowed to send this message level to console? if (m_ConsoleLevels & level) { OutputConsoleMessage(level, sub, (m_ConsoleTime ? tms : nullptr), m_Buffer.Get()); } // Are we allowed to write it to a file? if (m_File && (m_LogFileLevels & level)) { // Write the level tag std::fputs(GetLevelTag(level), m_File); std::fputc(' ', m_File); // Should we include the time-stamp? if (m_LogFileTime && tms) { std::fputs(tms, m_File); std::fputc(' ', m_File); } // Write the message std::fputs(m_Buffer.Get(), m_File); // Append a new line std::fputc('\n', m_File); } } // ------------------------------------------------------------------------------------------------ void Logger::Send(Uint8 level, bool sub, CCStr fmt, va_list args) { // Is this level even allowed? if ((m_ConsoleLevels & level) || (m_LogFileLevels & level)) { // Generate the message in the buffer m_Buffer.WriteF(0, fmt, args); // Process the message in the buffer Proccess(level, sub); } } // ------------------------------------------------------------------------------------------------ void Logger::Write(Uint8 level, bool sub, CCStr fmt, ...) { if ((m_ConsoleLevels & level) || (m_LogFileLevels & level)) { // Initialize the variable argument list va_list args; va_start(args, fmt); // Generate the message in the buffer m_Buffer.WriteF(0, fmt, args); // Finalize the variable argument list va_end(args); // Process the message in the buffer Proccess(level, sub); } } // ------------------------------------------------------------------------------------------------ void Logger::Debug(CCStr fmt, ...) { // Initialize the variable argument list va_list args; va_start(args, fmt); // Forward the call to the actual debug function Debug(fmt, args); // Finalize the variable argument list va_end(args); } void Logger::Debug(CCStr fmt, va_list args) { using namespace Sqrat; // Retrieve the default Squirrel VM HSQUIRRELVM vm = DefaultVM::Get(); // Used to acquire SQStackInfos si; // Write the message to the buffer Int32 ret = m_Buffer.WriteF(0, fmt, args); // Obtain information about the current stack level if (SQ_SUCCEEDED(sq_stackinfos(vm, 1, &si))) { m_Buffer.WriteF(ret, "\n[\n=>Location: %s\n=>Line: %d\n=>Function: %s\n]" , si.source ? si.source : _SC("unknown") , si.line , si.funcname ? si.funcname : _SC("unknown")); } else { m_Buffer.WriteF(ret, "\n[\n=>Location: unknown\n=>Line: unknown\n=>Function: unknown\n]"); } // Process the message in the buffer Proccess(LOGL_ERR, true); // Begin the traceback process ret = m_Buffer.WriteF(0, "Traceback:\n[\n"); // Traceback the function call for (Int32 level = 1; SQ_SUCCEEDED(sq_stackinfos(vm, level, &si)); ++level) { ret += m_Buffer.WriteF(ret, "=> [%d] %s (%d) [%s]\n", level , si.source ? si.source : _SC("unknown") , si.line , si.funcname ? si.funcname : _SC("unknown")); } // End the function call traceback m_Buffer.WriteF(ret, "]"); // Process the message in the buffer Proccess(LOGL_INF, true); // Temporary variables to retrieve stack information CSStr s_ = 0, name = 0; SQInteger i_, seq = 0; SQFloat f_; SQUserPointer p_; // Begin the local variables information ret = m_Buffer.WriteF(0, "Locals:\n[\n"); // Process each stack level for (Int32 level = 0; level < 10; level++) { seq = 0; // Display all locals in the current stack level while((name = sq_getlocal(vm, level, seq))) { ++seq; switch(sq_gettype(vm, -1)) { case OT_NULL: ret += m_Buffer.WriteF(ret, "=> [%d] NULL [%s] : ...\n", level, name); break; case OT_INTEGER: sq_getinteger(vm, -1, &i_); ret += m_Buffer.WriteF(ret, "=> [%d] INTEGER [%s] : %d\n", level, name, i_); break; case OT_FLOAT: sq_getfloat(vm, -1, &f_); ret += m_Buffer.WriteF(ret, "=> [%d] FLOAT [%s] : %f\n", level, name, f_); break; case OT_USERPOINTER: sq_getuserpointer(vm, -1, &p_); ret += m_Buffer.WriteF(ret, "=> [%d] USERPOINTER [%s] : %p\n", level, name, p_); break; case OT_STRING: sq_getstring(vm, -1, &s_); ret += m_Buffer.WriteF(ret, "=> [%d] STRING [%s] : %s\n", level, name, s_); break; case OT_TABLE: ret += m_Buffer.WriteF(ret, "=> [%d] TABLE [%s] : ...\n", level, name); break; case OT_ARRAY: ret += m_Buffer.WriteF(ret, "=> [%d] ARRAY [%s] : ...\n", level, name); break; case OT_CLOSURE: ret += m_Buffer.WriteF(ret, "=> [%d] CLOSURE [%s] : ...\n", level, name); break; case OT_NATIVECLOSURE: ret += m_Buffer.WriteF(ret, "=> [%d] NATIVECLOSURE [%s] : ...\n", level, name); break; case OT_GENERATOR: ret += m_Buffer.WriteF(ret, "=> [%d] GENERATOR [%s] : ...\n", level, name); break; case OT_USERDATA: ret += m_Buffer.WriteF(ret, "=> [%d] USERDATA [%s] : ...\n", level, name); break; case OT_THREAD: ret += m_Buffer.WriteF(ret, "=> [%d] THREAD [%s] : ...\n", level, name); break; case OT_CLASS: ret += m_Buffer.WriteF(ret, "=> [%d] CLASS [%s] : ...\n", level, name); break; case OT_INSTANCE: ret += m_Buffer.WriteF(ret, "=> [%d] INSTANCE [%s] : ...\n", level, name); break; case OT_WEAKREF: ret += m_Buffer.WriteF(ret, "=> [%d] WEAKREF [%s] : ...\n", level, name); break; case OT_BOOL: sq_getinteger(vm, -1, &i_); ret += m_Buffer.WriteF(ret, "=> [%d] BOOL [%s] : %s\n", level, name, i_ ? _SC("true") : _SC("false")); break; default: ret += m_Buffer.WriteF(ret, "=> [%d] UNKNOWN [%s] : ...\n", level, name); break; } sq_pop(vm, 1); } } // End the variables information m_Buffer.WriteF(ret, "]"); // Process the message in the buffer Proccess(LOGL_INF, true); } // ------------------------------------------------------------------------------------------------ #define SQMOD_LOG(N_, L_, S_) /* */ void N_(CCStr fmt, ...) /* */ { /* */ va_list args; /* */ va_start(args, fmt); /* */ Logger::Get().Send(L_, S_, fmt, args); /* */ va_end(args); /* */ } /* */ // ------------------------------------------------------------------------------------------------ SQMOD_LOG(LogDbg, LOGL_DBG, false) SQMOD_LOG(LogUsr, LOGL_USR, false) SQMOD_LOG(LogScs, LOGL_SCS, false) SQMOD_LOG(LogInf, LOGL_INF, false) SQMOD_LOG(LogWrn, LOGL_WRN, false) SQMOD_LOG(LogErr, LOGL_ERR, false) SQMOD_LOG(LogFtl, LOGL_FTL, false) // ------------------------------------------------------------------------------------------------ SQMOD_LOG(LogSDbg, LOGL_DBG, true) SQMOD_LOG(LogSUsr, LOGL_USR, true) SQMOD_LOG(LogSScs, LOGL_SCS, true) SQMOD_LOG(LogSInf, LOGL_INF, true) SQMOD_LOG(LogSWrn, LOGL_WRN, true) SQMOD_LOG(LogSErr, LOGL_ERR, true) SQMOD_LOG(LogSFtl, LOGL_FTL, true) // ------------------------------------------------------------------------------------------------ #define SQMOD_CLOG(N_, L_, S_) /* */bool N_(bool c, CCStr fmt, ...) /* */ { /* */ if (!c) /* */ { /* */ return c; /* */ } /* */ va_list args; /* */ va_start(args, fmt); /* */ Logger::Get().Send(L_, S_, fmt, args); /* */ va_end(args); /* */ return c; /* */ } /* */ // ------------------------------------------------------------------------------------------------ SQMOD_CLOG(cLogDbg, LOGL_DBG, false) SQMOD_CLOG(cLogUsr, LOGL_USR, false) SQMOD_CLOG(cLogScs, LOGL_SCS, false) SQMOD_CLOG(cLogInf, LOGL_INF, false) SQMOD_CLOG(cLogWrn, LOGL_WRN, false) SQMOD_CLOG(cLogErr, LOGL_ERR, false) SQMOD_CLOG(cLogFtl, LOGL_FTL, false) // ------------------------------------------------------------------------------------------------ SQMOD_CLOG(cLogSDbg, LOGL_DBG, true) SQMOD_CLOG(cLogSUsr, LOGL_USR, true) SQMOD_CLOG(cLogSScs, LOGL_SCS, true) SQMOD_CLOG(cLogSInf, LOGL_INF, true) SQMOD_CLOG(cLogSWrn, LOGL_WRN, true) SQMOD_CLOG(cLogSErr, LOGL_ERR, true) SQMOD_CLOG(cLogSFtl, LOGL_FTL, true) // -------------------------------------------------------------------------------------------- void OutputDebug(CCStr msg, ...) { #ifdef _DEBUG // Initialize the arguments list va_list args; va_start(args, msg); // Call the output function OutputMessageImpl(msg, args); // Finalize the arguments list va_end(args); #else SQMOD_UNUSED_VAR(msg); #endif } // -------------------------------------------------------------------------------------------- void OutputMessage(CCStr msg, ...) { // Initialize the arguments list va_list args; va_start(args, msg); // Call the output function OutputMessageImpl(msg, args); // Finalize the arguments list va_end(args); } // -------------------------------------------------------------------------------------------- void OutputError(CCStr msg, ...) { // Initialize the arguments list va_list args; va_start(args, msg); // Call the output function OutputErrorImpl(msg, args); // Finalize the arguments list va_end(args); } } // Namespace:: SqMod