MODEACTION_ALLOW = 1 /* Allow the mode */
};
-/**
- * Used to mask off the mode types in the mode handler
- * array. Used in a simple two instruction hashing function
- * "(modeletter - 65) OR mask"
- */
-enum ModeMasks
-{
- MASK_USER = 128, /* A user mode */
- MASK_CHANNEL = 0 /* A channel mode */
-};
-
/**
* These fixed values can be used to proportionally compare module-defined prefixes to known values.
* For example, if your module queries a Channel, and is told that user 'joebloggs' has the prefix
class CoreExport ModeHandler : public ServiceProvider
{
public:
+ typedef size_t Id;
+
enum Class
{
MC_PREFIX,
MC_OTHER
};
+ private:
+ /** The opaque id of this mode assigned by the mode parser
+ */
+ Id modeid;
+
protected:
/**
* The mode parameter translation type
*/
inline char GetModeChar() { return mode; }
+ /** Return the id of this mode which is used in User::modes and
+ * Channel::modes as the index to determine whether a mode is set.
+ */
+ Id GetId() const { return modeid; }
+
/** For user modes, return the current parameter, if any
*/
virtual std::string GetUserParameter(User* useor);
virtual void RemoveMode(Channel* channel, irc::modestacker& stack);
inline unsigned int GetLevelRequired() const { return levelrequired; }
+
+ friend class ModeParser;
};
/**
*/
class CoreExport ModeParser
{
+ public:
+ static const ModeHandler::Id MODEID_MAX = 64;
+
+ /** Type of the container that maps mode names to ModeHandlers
+ */
+ typedef TR1NS::unordered_map<std::string, ModeHandler*, irc::insensitive, irc::StrHashComp> ModeHandlerMap;
+
private:
+ /** Last item in the ModeType enum
+ */
+ static const unsigned int MODETYPE_LAST = 2;
+
/** Mode handlers for each mode, to access a handler subtract
* 65 from the ascii value of the mode letter.
* The upper bit of the value indicates if its a usermode
* or a channel mode, so we have 256 of them not 64.
*/
- ModeHandler* modehandlers[256];
+ ModeHandler* modehandlers[MODETYPE_LAST][128];
+
+ /** An array of mode handlers indexed by the mode id
+ */
+ ModeHandler* modehandlersbyid[MODETYPE_LAST][MODEID_MAX];
+
+ /** A map of mode handlers keyed by their name
+ */
+ ModeHandlerMap modehandlersbyname[MODETYPE_LAST];
/** Lists of mode handlers by type
*/
*/
void RecreateModeListFor004Numeric();
+ /** Allocates an unused id for the given mode type, throws a ModuleException if out of ids.
+ * @param mt The type of the mode to allocate the id for
+ * @return The id
+ */
+ ModeHandler::Id AllocateModeId(ModeType mt);
+
/** The string representing the last set of modes to be parsed.
* Use GetLastParse() to get this value, to be used for display purposes.
*/
const std::string& GetLastParse() const { return LastParse; }
const std::vector<std::string>& GetLastParseParams() { return LastParseParams; }
const std::vector<TranslateType>& GetLastParseTranslate() { return LastParseTranslate; }
+
/** Add a mode to the mode parser.
- * @return True if the mode was successfully added.
+ * Throws a ModuleException if the mode cannot be added.
*/
- bool AddMode(ModeHandler* mh);
+ void AddMode(ModeHandler* mh);
+
/** Delete a mode from the mode parser.
* When a mode is deleted, the mode handler will be called
* for every user (if it is a user mode) or for every channel
*/
void Process(const std::vector<std::string>& parameters, User* user, ModeProcessFlag flags = MODE_NONE);
+ /** Find the mode handler for a given mode name and type.
+ * @param modename The mode name to search for.
+ * @param mt Type of mode to search for, user or channel.
+ * @return A pointer to a ModeHandler class, or NULL of there isn't a handler for the given mode name.
+ */
+ ModeHandler* FindMode(const std::string& modename, ModeType mt);
+
/** Find the mode handler for a given mode and type.
* @param modeletter mode letter to search for
* @param mt type of mode to search for, user or channel
* @return A list containing all prefix modes
*/
const PrefixModeList& GetPrefixModes() const { return mhlist.prefix; }
+
+ /** Get a mode name -> ModeHandler* map containing all modes of the given type
+ * @param mt Type of modes to return, MODETYPE_USER or MODETYPE_CHANNEL
+ * @return A map of mode handlers of the given type
+ */
+ const ModeHandlerMap& GetModes(ModeType mt) const { return modehandlersbyname[mt]; }
};
inline const std::string& ModeParser::GetModeListFor004Numeric()