/* * 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: * Reto Grieder * Benjamin Knecht * Co-authors: * * */ /** @file @brief Implementation of the GUIManager class. */ #include "OrxonoxStableHeaders.h" #include "GUIManager.h" #include #include #include #include #include #include "SpecialConfig.h" // Configures the macro below #ifdef CEGUILUA_USE_INTERNAL_LIBRARY # include #else # include #endif #include "util/Exception.h" #include "core/ConsoleCommand.h" #include "core/Core.h" #include "core/Clock.h" #include "ToluaBindCore.h" #include "ToluaBindOrxonox.h" extern "C" { #include } namespace orxonox { GUIManager* GUIManager::singletonRef_s = 0; GUIManager::GUIManager() : renderWindow_(0) , guiRenderer_(0) , resourceProvider_(0) , scriptModule_(0) , guiSystem_(0) , state_(Uninitialised) { assert(singletonRef_s == 0); singletonRef_s = this; } /** @brief Deconstructor of the GUIManager Basically shuts down CEGUI and destroys the Lua engine and afterwards the interface to the Ogre engine. */ GUIManager::~GUIManager() { if (guiSystem_) delete guiSystem_; if (scriptModule_) { // destroy our own tolua interfaces lua_pushnil(luaState_); lua_setglobal(luaState_, "Orxonox"); lua_pushnil(luaState_); lua_setglobal(luaState_, "Core"); delete scriptModule_; } if (guiRenderer_) delete guiRenderer_; singletonRef_s = 0; } /** @brief Initialises the GUIManager by starting up CEGUI @param renderWindow Ogre's render window. Without this, the GUI cannot be displayed. @return true if success, otherwise false Before this call the GUIManager won't do anything, but can be accessed. Creates the interface to Ogre, sets up the CEGUI renderer and the Lua script module together with the Lua engine. The log is set up and connected to the CEGUILogger. After Lua setup tolua++-elements are linked to Lua-state to give Lua access to C++-code. Finally initial Lua code is executed (maybe we can do this with the CEGUI startup script automatically). */ bool GUIManager::initialise(Ogre::RenderWindow* renderWindow) { using namespace CEGUI; if (state_ == Uninitialised) { COUT(3) << "Initialising CEGUI." << std::endl; try { // save the render window renderWindow_ = renderWindow; // Note: No SceneManager specified yet this->guiRenderer_ = new OgreCEGUIRenderer(renderWindow_, Ogre::RENDER_QUEUE_OVERLAY, true, 3000); this->resourceProvider_ = guiRenderer_->createResourceProvider(); this->resourceProvider_->setDefaultResourceGroup("GUI"); // setup scripting this->scriptModule_ = new LuaScriptModule(); this->luaState_ = this->scriptModule_->getLuaState(); // Create our own logger to specify the filepath boost::filesystem::path ceguiLogFilepath(Core::getLogPath() / "cegui.log"); this->ceguiLogger_ = new DefaultLogger(); this->ceguiLogger_->setLogFilename(ceguiLogFilepath.string()); // set the log level according to ours (translate by subtracting 1) this->ceguiLogger_->setLoggingLevel( (LoggingLevel)(Core::getSoftDebugLevel(OutputHandler::LD_Logfile) - 1)); // create the CEGUI system singleton this->guiSystem_ = new System(this->guiRenderer_, this->resourceProvider_, 0, this->scriptModule_); // do this after 'new CEGUI::Sytem' because that creates the lua state in the first place tolua_Core_open(this->scriptModule_->getLuaState()); tolua_Orxonox_open(this->scriptModule_->getLuaState()); // initialise the basic lua code loadLuaCode(); } catch (CEGUI::Exception& ex) { #if CEGUI_VERSION_MAJOR == 0 && CEGUI_VERSION_MINOR < 6 throw GeneralException(ex.getMessage().c_str()); #else throw GeneralException(ex.getMessage().c_str(), ex.getLine(), ex.getFileName().c_str(), ex.getName().c_str()); #endif } state_ = Ready; } return true; } /** @brief Calls main Lua script @todo Replace loadGUI.lua with loadGUI_2.lua after merging this back to trunk. However CEGUI is able to execute a startup script. We could maybe put this call in this startup code. This function calls the main Lua script for our GUI. Additionally we set the datapath variable in Lua. This is needed so Lua can access the data used for the GUI. */ void GUIManager::loadLuaCode() { try { // set datapath for GUI data lua_pushfstring(this->scriptModule_->getLuaState(), Core::getMediaPathString().c_str()); lua_setglobal(this->scriptModule_->getLuaState(), "datapath"); // call main Lua script this->scriptModule_->executeScriptFile("loadGUI_3.lua", "GUI"); } catch (CEGUI::Exception& ex) { #if CEGUI_VERSION_MINOR < 6 throw GeneralException(ex.getMessage().c_str()); #else throw GeneralException(ex.getMessage().c_str(), ex.getLine(), ex.getFileName().c_str(), ex.getName().c_str()); #endif } } /** @brief used to tick the GUI @param time clock which provides time value for the GUI System Ticking the GUI means updating it with a certain regularity. The elapsed time since the last call is given in the time value provided by the clock. This time value is then used to provide a fluent animation of the GUI. */ void GUIManager::update(const Clock& time) { assert(guiSystem_); guiSystem_->injectTimePulse(time.getDeltaTime()); } /** @brief Executes Lua code @param str reference to string object holding the Lua code which is to be executed This function gives total access to the GUI. You can execute ANY Lua code here. */ void GUIManager::executeCode(const std::string& str) { try { this->scriptModule_->executeString(str); } catch (CEGUI::Exception& ex) { COUT(2) << "CEGUI Error: \"" << ex.getMessage() << "\" while executing code \"" << str << "\"" << std::endl; } } /** @brief Tells the GUIManager which SceneManager to use @param camera The current camera on which the GUI should be displayed on. In fact the GUIManager needs the SceneManager and not the Camera to display the GUI. This means the GUI is not bound to a camera but rather to the SceneManager. Hidding the GUI when needed can therefore not be solved by just NOT setting the current camera. */ void GUIManager::setCamera(Ogre::Camera* camera) { if (camera == NULL) this->guiRenderer_->setTargetSceneManager(0); else this->guiRenderer_->setTargetSceneManager(camera->getSceneManager()); } /** @brief Displays specified GUI on screen @param name The name of the GUI The function executes the Lua function with the same name in case the GUIManager is ready. For more details check out loadGUI_2.lua where the function presides. */ void GUIManager::showGUI(const std::string& name) { if (state_ != Uninitialised) { //COUT(3) << "Loading GUI " << name << std::endl; try { this->scriptModule_->executeString(std::string("showGUI(\"") + name + "\")"); } catch (CEGUI::Exception& ex) { COUT(2) << "Error while executing lua script. Message:\n" << ex.getMessage() << std::endl; } catch (...) { COUT(2) << "Could show a menu due to unknown reasons." << std::endl; } } else { COUT(2) << "Warning: GUI Manager not yet initialised, cannot load a GUI" << std::endl; } } /** @brief Function receiving a mouse button pressed event. @param id ID of the mouse button which got pressed This function is inherited by MouseHandler and injects the event into CEGUI. It is for CEGUI to process the event. */ void GUIManager::mouseButtonPressed(MouseButtonCode::ByEnum id) { try { guiSystem_->injectMouseButtonDown(convertButton(id)); } catch (CEGUI::ScriptException& ex) { // We simply ignore the exception and proceed COUT(1) << ex.getMessage() << std::endl; } } /** @brief Function receiving a mouse button released event. @param id ID of the mouse button which got released This function is inherited by MouseHandler and injects the event into CEGUI. It is for CEGUI to process the event. */ void GUIManager::mouseButtonReleased(MouseButtonCode::ByEnum id) { try { guiSystem_->injectMouseButtonUp(convertButton(id)); } catch (CEGUI::ScriptException& ex) { // We simply ignore the exception and proceed COUT(1) << ex.getMessage() << std::endl; } } /** @brief converts mouse event code to CEGUI event code @param button code of the mouse button as we use it in Orxonox @return code of the mouse button as it is used by CEGUI Simple convertion from mouse event code in Orxonox to the one used in CEGUI. */ inline CEGUI::MouseButton GUIManager::convertButton(MouseButtonCode::ByEnum button) { switch (button) { case MouseButtonCode::Left: return CEGUI::LeftButton; case MouseButtonCode::Right: return CEGUI::RightButton; case MouseButtonCode::Middle: return CEGUI::MiddleButton; case MouseButtonCode::Button3: return CEGUI::X1Button; case MouseButtonCode::Button4: return CEGUI::X2Button; default: return CEGUI::NoButton; } } }