class CoreExport CommandParser
{
private:
- /** Process a parameter string into a list of items
- * @param command_p The output list of items
- * @param parameters The input string
- * @return The number of parameters parsed into command_p
- */
- int ProcessParameters(std::vector<std::string>& command_p, char* parameters);
-
/** Process a command from a user.
* @param user The user to parse the command for
* @param cmd The command string to process
* @param commandname The command to find. This should be in uppercase.
* @param parameters Parameter list
* @param user The user to call the handler on behalf of
+ * @param cmd If non-NULL and the command was executed it is set to the command handler,
+ * otherwise it isn't written to.
* @return This method will return CMD_SUCCESS if the command handler was found and called,
* and the command completeld successfully. It will return CMD_FAILURE if the command handler was found
* and called, but the command did not complete successfully, and it will return CMD_INVALID if the
* command simply did not exist at all or the wrong number of parameters were given, or the user
* was not privilaged enough to execute the command.
*/
- CmdResult CallHandler(const std::string &commandname, const std::vector<std::string>& parameters, User *user);
+ CmdResult CallHandler(const std::string& commandname, const std::vector<std::string>& parameters, User* user, Command** cmd = NULL);
/** Get the handler function for a command.
* @param commandname The command required. Always use uppercase for this parameter.
*/
Command* GetHandler(const std::string &commandname);
- /** This function returns true if a command is valid with the given number of parameters and user.
- * @param commandname The command name to check
- * @param pcnt The parameter count
- * @param user The user to check against
- * @return If the user given has permission to execute the command, and the parameter count is
- * equal to or greater than the minimum number of parameters to the given command, then this
- * function will return true, otherwise it will return false.
- */
- bool IsValidCommand(const std::string &commandname, unsigned int pcnt, User * user);
-
/** LoopCall is used to call a command handler repeatedly based on the contents of a comma seperated list.
* There are two ways to call this method, either with one potential list or with two potential lists.
* We need to handle two potential lists for JOIN, because a JOIN may contain two lists of items at once:
* @param item The input string
* @param dest The output string. The translation result will be appended to this string
* @param custom_translator Used to translate the parameter if the translation type is TR_CUSTOM, if NULL, TR_CUSTOM will act like TR_TEXT
+ * @param paramnumber The index of the parameter we are translating.
*/
- static void TranslateSingleParam(TranslateType to, const std::string& item, std::string& dest, Command* custom_translator = NULL, unsigned int paramnumber = 0);
+ static void TranslateSingleParam(TranslateType to, const std::string& item, std::string& dest, CommandBase* custom_translator = NULL, unsigned int paramnumber = 0);
/** Translate nicknames in a list of strings into UIDs, based on the TranslateTypes given.
* @param to The translation types to use for the process. If this list is too short, TR_TEXT is assumed for the rest.
* @param custom_translator Used to translate the parameter if the translation type is TR_CUSTOM, if NULL, TR_CUSTOM will act like TR_TEXT
* @return dest The output string
*/
- static std::string TranslateUIDs(const std::vector<TranslateType>& to, const std::vector<std::string>& source, bool prefix_final = false, Command* custom_translator = NULL);
+ static std::string TranslateUIDs(const std::vector<TranslateType>& to, const std::vector<std::string>& source, bool prefix_final = false, CommandBase* custom_translator = NULL);
};
/** A lookup table of values for multiplier characters used by