/* * ORXONOX - the hottest 3D action shooter ever to exist * > www.orxonox.net < * * * License notice: * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * Author: * Damian 'Mozork' Frick * Co-authors: * ... * */ /** @file NotificationManager.cc @brief Implementation of the NotificationManager class. */ #include "NotificationManager.h" #include "core/command/ConsoleCommand.h" #include "core/CoreIncludes.h" #include "core/GUIManager.h" #include "core/LuaState.h" #include "network/Host.h" #include "network/NetworkFunction.h" #include "util/Convert.h" #include "util/ScopedSingletonManager.h" #include "interfaces/NotificationListener.h" #include "Notification.h" #include "NotificationQueue.h" #include "ToluaBindNotifications.h" namespace orxonox { const std::string NotificationManager::ALL("all"); const std::string NotificationManager::NONE("none"); // Register tolua_open function when loading the library. DeclareToluaInterface(Notifications); ManageScopedSingleton(NotificationManager, ScopeID::Root, false); // Setting console command to enter the edit mode. SetConsoleCommand("enterEditMode", &NotificationManager::enterEditMode); registerStaticNetworkFunction(NotificationManager::sendNotification); /** @brief Constructor. Registers the Object. */ NotificationManager::NotificationManager() { RegisterRootObject(NotificationManager); this->highestIndex_ = 0; ModifyConsoleCommand("enterEditMode").setObject(this); COUT(3) << "NotificatioManager created." << std::endl; } /** @brief Destructor. */ NotificationManager::~NotificationManager() { ModifyConsoleCommand("enterEditMode").setObject(NULL); // Destroys all Notifications. for(std::multimap::iterator it = this->allNotificationsList_.begin(); it!= this->allNotificationsList_.end(); it++) it->second->destroy(); this->allNotificationsList_.clear(); COUT(3) << "NotificationManager destroyed." << std::endl; } /** @brief Is called before the object is destroyed. */ void NotificationManager::preDestroy(void) { // Destroys all NotificationQueues that have been registered with the NotificationManager. for(std::map::iterator it = this->queues_.begin(); it != this->queues_.end(); it++) it->second->destroy(true); this->queues_.clear(); } /** @brief Sends a Notification with the specified message to the specified client from the specified sender. @param message The message that should be sent. @param clientId The id of the client the notification should be sent to. @param sender The sender that sent the notification. @param isLocal If this is set to true (false is default), then the Notification is sent to the client where this function is executed, meaning the Notification is sent locally. */ /*static*/ void NotificationManager::sendNotification(const std::string& message, unsigned int clientId, const std::string& sender, bool isLocal) { // If we're in standalone mode or we're already no the right client we create and send the Notification. if(GameMode::isStandalone() || isLocal || Host::getPlayerID() == clientId) { Notification* notification = new Notification(message, sender); if(NotificationManager::getInstance().registerNotification(notification)) COUT(3) << "Notification \"" << notification->getMessage() << "\" sent." << std::endl; } // If we're on the server (and the server is not the intended recipient of the Notification) we send it over the network. else if(GameMode::isServer()) { callStaticNetworkFunction(NotificationManager::sendNotification, clientId, message, clientId, sender); } } /** @brief Registers a Notification within the NotificationManager and makes sure that the Notification is sent to all the NotificationListeners associated with its sender. @param notification The Notification to be registered. @return Returns true if successful. */ bool NotificationManager::registerNotification(Notification* notification) { assert(notification); std::time_t time = std::time(0); // Get current time. // Add the Notification to the list that holds all Notifications. this->allNotificationsList_.insert(std::pair(time, notification)); if(notification->getSender() == NotificationManager::NONE) // If the sender has no specific name, then the Notification is only added to the list of all Notifications. return true; bool all = false; if(notification->getSender() == NotificationManager::ALL) // If all are the sender, then the Notifications is added to every NotificationListener. all = true; // Insert the Notification in all NotificationListeners that have its sender as target. for(std::map::iterator it = this->listenerList_.begin(); it != this->listenerList_.end(); it++) // Iterate through all NotificationListeners. { const std::set& set = it->first->getTargetsSet(); bool bAll = set.find(NotificationManager::ALL) != set.end(); // If either the Notification has as sender 'all', the NotificationListener displays all Notifications or the NotificationListener has the sender of the Notification as target. if(all || bAll || set.find(notification->getSender()) != set.end()) { if(!bAll) this->notificationLists_[it->second]->insert(std::pair(time, notification)); // Insert the Notification in the notifications list of the current NotificationListener. it->first->update(notification, time); // Update the NotificationListener. } } COUT(4) << "Notification (&" << notification << ") registered with the NotificationManager." << std::endl; return true; } /** @brief Unregisters a Notification within the NotificationManager for a given NotificationListener. @param notification A pointer to the Notification to be unregistered. @param listener A pointer to the NotificationListener the Notification is unregistered for. */ void NotificationManager::unregisterNotification(Notification* notification, NotificationListener* listener) { assert(notification); assert(listener); // Remove the Notification from the list of Notifications of the input NotificationListener. this->removeNotification(notification, *(this->notificationLists_.find(this->listenerList_.find(listener)->second)->second)); COUT(4) << "Notification (&" << notification << ") unregistered with the NotificationManager from listener (&" << listener << ")" << std::endl; } /** @brief Helper method that removes an input Notification form an input map. @param notification A pointer to the Notification to be removed. @param map The map the Notification should be removed from. @return Returns true if successful. */ bool NotificationManager::removeNotification(Notification* notification, std::multimap& map) { // Iterates through all items in the map until the Notification is found. //TODO: Do more efficiently? for(std::multimap::iterator it = map.begin(); it != map.end(); it++) { if(it->second == notification) { map.erase(it); return true; } } return false; } /** @brief Registers a NotificationListener within the NotificationManager. @param listener The NotificationListener to be registered. @return Returns true if successful. Fales if the NotificationListener is already registered. */ bool NotificationManager::registerListener(NotificationListener* listener) { assert(listener); // If the NotificationListener is already registered. if(this->listenerList_.find(listener) != this->listenerList_.end()) return false; this->highestIndex_ += 1; unsigned int index = this->highestIndex_; // An identifier that identifies each registered NotificationListener uniquely. this->listenerList_[listener] = index; // Add the NotificationListener to the list of NotificationListeners. const std::set& set = listener->getTargetsSet(); // If all senders are the target of the NotificationListener, then the list of Notifications for that specific NotificationListener is the same as the list of all Notifications. bool bAll = set.find(NotificationManager::ALL) != set.end(); std::multimap* map = NULL; if(bAll) this->notificationLists_[index] = &this->allNotificationsList_; // Else a new list (resp. multimap) is created and added to the list of Notification lists for NotificationListeners. else { this->notificationLists_[index] = new std::multimap; map = this->notificationLists_[index]; } // Iterate through all Notifications to determine whether any of them should belong to the newly registered NotificationListener. for(std::multimap::iterator it = this->allNotificationsList_.begin(); it != this->allNotificationsList_.end(); it++) { if(!bAll && set.find(it->second->getSender()) != set.end()) // Checks whether the listener has the sender of the current Notification as target. map->insert(std::pair(it->first, it->second)); } listener->update(); // Update the listener. COUT(4) << "NotificationListener registered with the NotificationManager." << std::endl; return true; } /** @brief Unregisters a NotificationListener within the NotificationManager. @param listener The NotificationListener to be unregistered. */ void NotificationManager::unregisterListener(NotificationListener* listener) { assert(listener); unsigned int identifier = this->listenerList_.find(listener)->second; std::multimap* map = this->notificationLists_.find(identifier)->second; // If the map is not the map of all Notifications, make sure all Notifications are unregistered. std::multimap::iterator it = map->begin(); if(map != &this->allNotificationsList_) { while(it != map->end()) { this->unregisterNotification(it->second, listener); it = map->begin(); } delete map; } // Remove the NotificationListener from the list of NotificationListeners. this->listenerList_.erase(listener); // Remove the Notifications list that was associated with the input NotificationListener. this->notificationLists_.erase(identifier); COUT(4) << "NotificationListener unregistered with the NotificationManager." << std::endl; } /** @brief Fetches the Notifications for a specific NotificationListener in a specified timeframe and stores them in the input map. @param listener The NotificationListener the Notifications are fetched for. @param map A pointer to a multimap, in which the notifications are stored. The map needs to have been allocated. @param timeFrameStart The start time of the timeframe. @param timeFrameEnd The end time of the timeframe. @return Returns true if successful. */ void NotificationManager::getNotifications(NotificationListener* listener, std::multimap* map, const std::time_t & timeFrameStart, const std::time_t & timeFrameEnd) { assert(listener); assert(map); std::multimap* notifications = this->notificationLists_[this->listenerList_[listener]]; // All the Notifications for the input NotificationListener. std::multimap::iterator it, itLowest, itHighest; // Iterators pointing to the bounds specified by the specified start and end times of the time frame. itLowest = notifications->lower_bound(timeFrameStart); itHighest = notifications->upper_bound(timeFrameEnd); for(it = itLowest; it != itHighest; it++) // Iterate through the Notifications from the start of the time frame to the end of it. map->insert(std::pair(it->first, it->second)); // Add the found Notifications to the map. } /** @brief Fetches the newest Notifications for a specific NotificationListener and stores them in the input map. @param listener The NotificationListener the Notifications are fetched for. @param map A pointer to a multimap, in which the notifications are stored. The map needs to have been allocated. @param numberOfNotifications The number of newest Notifications to be got. @return Returns true if successful. */ void NotificationManager::getNewestNotifications(NotificationListener* listener, std::multimap* map, int numberOfNotifications) { assert(listener); assert(map); std::multimap* notifications = this->notificationLists_[this->listenerList_[listener]]; // All the Notifications for the input NotificationListener. if(!notifications->empty()) // If the list of Notifications is not empty. { std::multimap::iterator it = notifications->end(); for(int i = 0; i < numberOfNotifications; i++) // Iterate through the Notifications from the newest until we have the specified number of notifications. { it--; map->insert(std::pair(it->first, it->second)); // Add the found Notifications to the map. if(it == notifications->begin()) break; } } } /** @brief Enters the edit mode of the NotificationLayer. */ void NotificationManager::enterEditMode(void) { if(GameMode::showsGraphics()) { GUIManager::getInstance().hideGUI("NotificationLayer"); GUIManager::getInstance().showGUI("NotificationLayer", false, false); GUIManager::getInstance().getLuaState()->doString("NotificationLayer.enterEditMode()"); } } /** @brief Registers a NotificationQueue. This makes sure that the NotificationQueue can be attained through lua by name. It also makes sure that the NotificationQueue is destroyed upon destruction of the NotificationManager. @param queue A pointer to the NotificationQueue to be registered. @return Returns true if successful. If e.g. the a NotificationQueue with that name already exists this returns false. */ bool NotificationManager::registerQueue(NotificationQueue* queue) { return this->queues_.insert(std::pair(queue->getName(), queue)).second; } /** @brief Unregisters a NotificationQueue. @param queue A pointer to the NotificationQueue to be unregistered. */ void NotificationManager::unregisterQueue(NotificationQueue* queue) { this->queues_.erase(queue->getName()); } /** @brief Loads all the NotificationQueues that should exist. */ void NotificationManager::loadQueues(void) { NotificationQueue* allQueue = new NotificationQueue("all"); GUIManager::getInstance().getLuaState()->doString("NotificationLayer.resizeQueue(\"all\", 0.5, 0, " + multi_cast(allQueue->getMaxSize()) + ")"); GUIManager::getInstance().getLuaState()->doString("NotificationLayer.moveQueue(\"all\", 0, 10, 0.3, 0)"); NotificationQueue* infoQueue = new NotificationQueue("info", NotificationManager::ALL, 1, -1); GUIManager::getInstance().getLuaState()->doString("NotificationLayer.changeQueueFont(\"info\", 24, \"FFFFFF00\")"); GUIManager::getInstance().getLuaState()->doString("NotificationLayer.resizeQueue(\"info\", 0.6, 0, " + multi_cast(infoQueue->getMaxSize()) + ")"); GUIManager::getInstance().getLuaState()->doString("NotificationLayer.moveQueue(\"info\", 0.2, 0, 0.8, 0)"); } /** @brief Creates a new NotificationQueue. This is used in lua. @param name The name of the new NotificationQueue. */ void NotificationManager::createQueue(const std::string& name) { new NotificationQueue(name); } /** @brief Get the NotificationQueue with the input name. @param name The name of the NotificationQueue. @return Returns a pointer to the NotificationQueue with the input name. Returns NULL if no NotificationQueue with such a name exists. */ NotificationQueue* NotificationManager::getQueue(const std::string & name) { std::map::iterator it = this->queues_.find(name); // Returns NULL if no such NotificationQueue exists. if(it == this->queues_.end()) return NULL; return (*it).second; } }