#include "RunManager.h" // Constructor takes a RenderWindow because it uses that to determine input context RunManager::RunManager(OgreControl * mOgre, bool bufferedKeys, bool bufferedMouse, bool bufferedJoy ) : mOgre(mOgre), mWindow(mOgre->getRenderWindow()), mStatsOn(true), mNumScreenShots(0), mTimeUntilNextToggle(0), mFiltering(TFO_BILINEAR), mAniso(1), mSceneDetailIndex(0), mDebugOverlay(0), mInputManager(0), mMouse(0), mKeyboard(0), mJoy(0) { // create new SceneManger mSceneMgr = mOgre->getRoot()->createSceneManager(ST_GENERIC,"mScene"); // create various objects // background scene mScene = new OrxonoxScene(mSceneMgr); // create a steerable SceneNode for the spaceship to be attached to mShipNode = mSceneMgr->getRootSceneNode()->createChildSceneNode("ShipNode", Vector3(20, 20, 20)); // spaceship mShip = new OrxonoxShip(mSceneMgr, mShipNode); // load all resources and create the entities mScene->initialise(); mShip->initialise(); // create camera and viewport createCamera(); createViewports(); // Set default mipmap level (NB some APIs ignore this) TextureManager::getSingleton().setDefaultNumMipmaps(5); using namespace OIS; mDebugOverlay = OverlayManager::getSingleton().getByName("Core/DebugOverlay"); LogManager::getSingletonPtr()->logMessage("*** Initializing OIS ***"); ParamList pl; size_t windowHnd = 0; std::ostringstream windowHndStr; mWindow->getCustomAttribute("WINDOW", &windowHnd); windowHndStr << windowHnd; pl.insert(std::make_pair(std::string("WINDOW"), windowHndStr.str())); mInputManager = InputManager::createInputSystem( pl ); //Create all devices (We only catch joystick exceptions here, as, most people have Key/Mouse) mKeyboard = static_cast(mInputManager->createInputObject( OISKeyboard, bufferedKeys )); mMouse = static_cast(mInputManager->createInputObject( OISMouse, bufferedMouse )); try { mJoy = static_cast(mInputManager->createInputObject( OISJoyStick, bufferedJoy )); } catch(...) { mJoy = 0; } //Set initial mouse clipping size windowResized(mWindow); showDebugOverlay(true); //Register as a Window listener WindowEventUtilities::addWindowEventListener(mWindow, this); } RunManager::~RunManager() { //Remove ourself as a Window listener WindowEventUtilities::removeWindowEventListener(mWindow, this); windowClosed(mWindow); if (mScene) delete mScene; } // Override frameStarted event to process that (don't care about frameEnded) bool RunManager::tick(unsigned long time, float deltaTime) { mTime = time; updateStats(); mScene->tick(time, deltaTime); mShip->tick(time, deltaTime); using namespace OIS; if(mWindow->isClosed()) return false; //Need to capture/update each device mKeyboard->capture(); mMouse->capture(); if( mJoy ) mJoy->capture(); bool buffJ = (mJoy) ? mJoy->buffered() : true; //Check if one of the devices is not buffered if( !mMouse->buffered() || !mKeyboard->buffered() || !buffJ ) { // one of the input modes is immediate, so setup what is needed for immediate movement if (mTimeUntilNextToggle >= 0) mTimeUntilNextToggle -= deltaTime; } //Check to see which device is not buffered, and handle it if( !mKeyboard->buffered() ) if( processUnbufferedKeyInput() == false ) return false; if( !mMouse->buffered() ) if( processUnbufferedMouseInput() == false ) return false; return true; } //Adjust mouse clipping area void RunManager::windowResized(RenderWindow* rw) { unsigned int width, height, depth; int left, top; rw->getMetrics(width, height, depth, left, top); const OIS::MouseState &ms = mMouse->getMouseState(); ms.width = width; ms.height = height; } //Unattach OIS before window shutdown (very important under Linux) void RunManager::windowClosed(RenderWindow* rw) { //Only close for window that created OIS (the main window in these demos) if( rw == mWindow ) { if( mInputManager ) { mInputManager->destroyInputObject( mMouse ); mInputManager->destroyInputObject( mKeyboard ); mInputManager->destroyInputObject( mJoy ); OIS::InputManager::destroyInputSystem(mInputManager); mInputManager = 0; } } } bool RunManager::processUnbufferedKeyInput() { using namespace OIS; if(mKeyboard->isKeyDown(KC_A) || mKeyboard->isKeyDown(KC_LEFT)) mShip->setSideThrust(1); else if(mKeyboard->isKeyDown(KC_D) || mKeyboard->isKeyDown(KC_RIGHT)) mShip->setSideThrust(-1); else mShip->setSideThrust(0); if(mKeyboard->isKeyDown(KC_UP) || mKeyboard->isKeyDown(KC_W) ) mShip->setThrust(1); else if(mKeyboard->isKeyDown(KC_DOWN) || mKeyboard->isKeyDown(KC_S) ) mShip->setThrust(-1); else mShip->setThrust(0); if( mKeyboard->isKeyDown(KC_ESCAPE) || mKeyboard->isKeyDown(KC_Q) ) return false; if( mKeyboard->isKeyDown(KC_F) && mTimeUntilNextToggle <= 0 ) { mStatsOn = !mStatsOn; showDebugOverlay(mStatsOn); mTimeUntilNextToggle = 1; } if( mKeyboard->isKeyDown(KC_T) && mTimeUntilNextToggle <= 0 ) { switch(mFiltering) { case TFO_BILINEAR: mFiltering = TFO_TRILINEAR; mAniso = 1; break; case TFO_TRILINEAR: mFiltering = TFO_ANISOTROPIC; mAniso = 8; break; case TFO_ANISOTROPIC: mFiltering = TFO_BILINEAR; mAniso = 1; break; default: break; } MaterialManager::getSingleton().setDefaultTextureFiltering(mFiltering); MaterialManager::getSingleton().setDefaultAnisotropy(mAniso); showDebugOverlay(mStatsOn); mTimeUntilNextToggle = 1; } if(mKeyboard->isKeyDown(KC_SYSRQ) && mTimeUntilNextToggle <= 0) { std::ostringstream ss; ss << "screenshot_" << ++mNumScreenShots << ".png"; mWindow->writeContentsToFile(ss.str()); mTimeUntilNextToggle = 0.5; mDebugText = "Saved: " + ss.str(); } if(mKeyboard->isKeyDown(KC_R) && mTimeUntilNextToggle <=0) { mSceneDetailIndex = (mSceneDetailIndex+1)%3 ; switch(mSceneDetailIndex) { case 0 : mCamera->setPolygonMode(PM_SOLID); break; case 1 : mCamera->setPolygonMode(PM_WIREFRAME); break; case 2 : mCamera->setPolygonMode(PM_POINTS); break; } mTimeUntilNextToggle = 0.5; } static bool displayCameraDetails = false; if(mKeyboard->isKeyDown(KC_P) && mTimeUntilNextToggle <= 0) { displayCameraDetails = !displayCameraDetails; mTimeUntilNextToggle = 0.5; if (!displayCameraDetails) mDebugText = ""; } // Print camera details if(displayCameraDetails) mDebugText = StringConverter::toString(mShip->getThrust()) + " | Speed = " + StringConverter::toString(mShip->speed); // mDebugText = "P: " + StringConverter::toString(mCamera->getDerivedPosition()) + // " " + "O: " + StringConverter::toString(mCamera->getDerivedOrientation()); // Return true to continue rendering return true; } bool RunManager::processUnbufferedMouseInput() { using namespace OIS; // Rotation factors, may not be used if the second mouse button is pressed // 2nd mouse button - slide, otherwise rotate const MouseState &ms = mMouse->getMouseState(); mShip->setYaw(Degree(-ms.X.rel * 0.13)); mShip->setPitch(Degree(-ms.Y.rel * 0.13)); return true; } void RunManager::showDebugOverlay(bool show) { if (mDebugOverlay) { if (show) mDebugOverlay->show(); else mDebugOverlay->hide(); } } void RunManager::updateStats(void) { static String currFps = "Current FPS: "; static String avgFps = "Average FPS: "; static String bestFps = "Best FPS: "; static String worstFps = "Worst FPS: "; static String tris = "Triangle Count: "; static String batches = "Batch Count: "; // update stats when necessary try { OverlayElement* guiAvg = OverlayManager::getSingleton().getOverlayElement("Core/AverageFps"); OverlayElement* guiCurr = OverlayManager::getSingleton().getOverlayElement("Core/CurrFps"); OverlayElement* guiBest = OverlayManager::getSingleton().getOverlayElement("Core/BestFps"); OverlayElement* guiWorst = OverlayManager::getSingleton().getOverlayElement("Core/WorstFps"); //OverlayElement* asfd = OverlayManager::getSingleton().getOverlayElement( const RenderTarget::FrameStats& stats = mWindow->getStatistics(); guiAvg->setCaption(avgFps + StringConverter::toString(stats.avgFPS)); guiCurr->setCaption(currFps + StringConverter::toString(stats.lastFPS)); guiBest->setCaption(bestFps + StringConverter::toString(stats.bestFPS) +" "+StringConverter::toString(stats.bestFrameTime)+" ms"); guiWorst->setCaption(worstFps + StringConverter::toString(stats.worstFPS) +" "+StringConverter::toString(stats.worstFrameTime)+" ms"); OverlayElement* guiTris = OverlayManager::getSingleton().getOverlayElement("Core/NumTris"); guiTris->setCaption(tris + StringConverter::toString(stats.triangleCount)); OverlayElement* guiBatches = OverlayManager::getSingleton().getOverlayElement("Core/NumBatches"); guiBatches->setCaption(batches + StringConverter::toString(stats.batchCount)); OverlayElement* guiDbg = OverlayManager::getSingleton().getOverlayElement("Core/DebugText"); guiDbg->setCaption(mDebugText); } catch(...) { /* ignore */ } } // create camera void RunManager::createCamera(void) { mCamera = mSceneMgr->createCamera("PlayerCam"); mShipNode->attachObject(mCamera); mCamera->setNearClipDistance(5); mCamera->setPosition(Vector3(0,10,500)); mCamera->lookAt(Vector3(0,0,0)); } void RunManager::createViewports(void) { // Create one viewport, entire window Viewport* vp = mWindow->addViewport(mCamera); vp->setBackgroundColour(ColourValue(0,0,0)); // Alter the camera aspect ratio to match the viewport mCamera->setAspectRatio( Real(vp->getActualWidth()) / Real(vp->getActualHeight())); }