//Config.h #pragma once #include #include #include #include #include /* * \brief Generic configuration Class * */ class Config { // Data protected: std::string m_Delimiter; //!< separator between key and value std::string m_Comment; //!< separator between value and comments std::map m_Contents; //!< extracted keys and values typedef std::map::iterator mapi; typedef std::map::const_iterator mapci; // Methods public: Config( std::string filename,std::string delimiter = "=",std::string comment = "#" ); Config(); template T Read( const std::string& in_key ) const; //! template T Read( const std::string& in_key, const T& in_value ) const; template bool ReadInto( T& out_var, const std::string& in_key ) const; template bool ReadInto( T& out_var, const std::string& in_key, const T& in_value ) const; bool FileExist(std::string filename); void ReadFile(std::string filename,std::string delimiter = "=",std::string comment = "#" ); // Check whether key exists in configuration bool KeyExists( const std::string& in_key ) const; // Modify keys and values template void Add( const std::string& in_key, const T& in_value ); void Remove( const std::string& in_key ); // Check or change configuration syntax std::string GetDelimiter() const { return m_Delimiter; } std::string GetComment() const { return m_Comment; } std::string SetDelimiter( const std::string& in_s ) { std::string old = m_Delimiter; m_Delimiter = in_s; return old; } std::string SetComment( const std::string& in_s ) { std::string old = m_Comment; m_Comment = in_s; return old; } // Write or read configuration friend std::ostream& operator<<( std::ostream& os, const Config& cf ); friend std::istream& operator>>( std::istream& is, Config& cf ); protected: template static std::string T_as_string( const T& t ); template static T string_as_T( const std::string& s ); static void Trim( std::string& inout_s ); // Exception types public: struct File_not_found { std::string filename; File_not_found( const std::string& filename_ = std::string() ) : filename(filename_) {} }; struct Key_not_found { // thrown only by T read(key) variant of read() std::string key; Key_not_found( const std::string& key_ = std::string() ) : key(key_) {} }; }; /* static */ template std::string Config::T_as_string( const T& t ) { // Convert from a T to a string // Type T must support << operator std::ostringstream ost; ost << t; return ost.str(); } /* static */ template T Config::string_as_T( const std::string& s ) { // Convert from a string to a T // Type T must support >> operator T t; std::istringstream ist(s); ist >> t; return t; } /* static */ template<> inline std::string Config::string_as_T( const std::string& s ) { // Convert from a string to a string // In other words, do nothing return s; } /* static */ template<> inline bool Config::string_as_T( const std::string& s ) { // Convert from a string to a bool // Interpret "false", "F", "no", "n", "0" as false // Interpret "true", "T", "yes", "y", "1", "-1", or anything else as true bool b = true; std::string sup = s; for( std::string::iterator p = sup.begin(); p != sup.end(); ++p ) *p = toupper(*p); // make string all caps if( sup==std::string("FALSE") || sup==std::string("F") || sup==std::string("NO") || sup==std::string("N") || sup==std::string("0") || sup==std::string("NONE") ) b = false; return b; } template T Config::Read( const std::string& key ) const { // Read the value corresponding to key mapci p = m_Contents.find(key); if( p == m_Contents.end() ) throw Key_not_found(key); return string_as_T( p->second ); }