#ifndef CLOG_H #define CLOG_H #include "common.h" #include //! Logging facility /*! The logging class; all console output should go through this class. It supports multithread safe operation, several message priority levels, filtering by priority, and output redirection. The macros log() and clog() provide convenient access. */ class CLog { public: //! Log levels /*! The logging priority levels in order of highest to lowest priority. */ enum ELevel { kFATAL, //!< For fatal errors kERROR, //!< For serious errors kWARNING, //!< For minor errors and warnings kNOTE, //!< For messages about notable events kINFO, //!< For informational messages kDEBUG, //!< For important debugging messages kDEBUG1, //!< For more detailed debugging messages kDEBUG2 //!< For even more detailed debugging messages }; //! Outputter function. /*! Type of outputter function. The outputter should write \c message, which has the given \c priority, to a log and return true. Or it can return false to let CLog use the default outputter. */ typedef bool (*Outputter)(int priority, const char* message); //! Locking function /*! Type of lock/unlock function. If \c lock is true then block other threads that try to lock until this thread unlocks. If \c lock is false then unlock and allow another (waiting) thread to lock. */ typedef void (*Lock)(bool lock); //! @name manipulators //@{ //! Set the function used to write the log /*! Sets the function used to write to the log. The outputter function is called with the formatted string to write and the priority level. CLog will have already filtered messages below the current filter priority. A NULL outputter means to use the default which is to print to stderr. Note that the outputter should not call CLog methods but, if it does, the current lock function must permit recursive locks. */ static void setOutputter(Outputter); //! Set the lock/unlock function /*! Set the lock/unlock function. Use setLock(NULL) to remove the locking function. There is no default lock function; do not call CLog from multiple threads unless a working lock function has been installed. */ static void setLock(Lock); //! Set the minimum priority filter. /*! Set the filter. Messages below this priority are discarded. The default priority is 4 (INFO) (unless built without NDEBUG in which case it's 5 (DEBUG)). The default can be overridden by setting the SYN_LOG_PRI env var to "FATAL", "ERROR", etc. setFilter(const char*) returns true if the priority \c name was recognized; if \c name is NULL then it simply returns true. */ static bool setFilter(const char* name); static void setFilter(int); //@} //! @name accessors //@{ //! Print a log message /*! Print a log message using the printf-like \c format and arguments. */ static void print(const char* format, ...); //! Print a log message /*! Print a log message using the printf-like \c format and arguments preceded by the filename and line number. */ static void printt(const char* file, int line, const char* format, ...); //! Get the function used to write the log static Outputter getOutputter(); //! Get the lock/unlock function /*! Get the lock/unlock function. Note that the lock function is used when retrieving the lock function. */ static Lock getLock(); //! Get the minimum priority level. static int getFilter(); //@} private: class CHoldLock { public: CHoldLock(Lock lock) : m_lock(lock) { m_lock(true); } ~CHoldLock() { m_lock(false); } private: Lock m_lock; }; static void dummyLock(bool); static int getMaxPriority(); static void output(int priority, char* msg); #if WINDOWS_LIKE static void openConsole(); #endif private: static Outputter s_outputter; static Lock s_lock; static int s_maxPriority; }; /*! \def log(arg) Write to the log. Because macros cannot accept variable arguments, this should be invoked like so: \code log((CLOG_XXX "%d and %d are %s", x, y, x == y ? "equal" : "not equal")); \endcode In particular, notice the double open and close parentheses. Also note that there is no comma after the \c CLOG_XXX. The \c XXX should be replaced by one of enumerants in \c CLog::ELevel without the leading \c k. For example, \c CLOG_INFO. The special \c CLOG_PRINT level will not be filtered and is never prefixed by the filename and line number. If \c NOLOGGING is defined during the build then this macro expands to nothing. If \c NDEBUG is defined during the build then it expands to a call to CLog::print. Otherwise it expands to a call to CLog::printt, which includes the filename and line number. */ /*! \def logc(expr, arg) Write to the log if and only if expr is true. Because macros cannot accept variable arguments, this should be invoked like so: \code clog(x == y, (CLOG_XXX "%d and %d are equal", x, y)); \endcode In particular, notice the parentheses around everything after the boolean expression. Also note that there is no comma after the \c CLOG_XXX. The \c XXX should be replaced by one of enumerants in \c CLog::ELevel without the leading \c k. For example, \c CLOG_INFO. The special \c CLOG_PRINT level will not be filtered and is never prefixed by the filename and line number. If \c NOLOGGING is defined during the build then this macro expands to nothing. If \c NDEBUG is defined during the build then it expands to a call to CLog::print. Otherwise it expands to a call to CLog::printt, which includes the filename and line number. */ #if defined(NOLOGGING) #define log(_a1) #define logc(_a1, _a2) #define CLOG_TRACE #elif defined(NDEBUG) #define log(_a1) CLog::print _a1 #define logc(_a1, _a2) if (_a1) CLog::print _a2 #define CLOG_TRACE #else #define log(_a1) CLog::printt _a1 #define logc(_a1, _a2) if (_a1) CLog::printt _a2 #define CLOG_TRACE __FILE__, __LINE__, #endif #define CLOG_PRINT CLOG_TRACE "%z\057" #define CLOG_CRIT CLOG_TRACE "%z\060" #define CLOG_ERR CLOG_TRACE "%z\061" #define CLOG_WARN CLOG_TRACE "%z\062" #define CLOG_NOTE CLOG_TRACE "%z\063" #define CLOG_INFO CLOG_TRACE "%z\064" #define CLOG_DEBUG CLOG_TRACE "%z\065" #define CLOG_DEBUG1 CLOG_TRACE "%z\066" #define CLOG_DEBUG2 CLOG_TRACE "%z\067" #endif