コード例 #1
0
//-------------------------------------------------------------------------------------
void SampleApp::createScene(void)
{
	mImpulse = btVector3(0,0,0);
    mLoader = new DotSceneLoader();
	mLoader->parseDotScene(mSceneFile, "General", mSceneMgr,0,"",Globals::phyWorld);

    // Get rid of the initial camera
    mSceneMgr->destroyCamera(mCamera);

	//ENTITY DECLARATIONS

	Ogre::SceneNode* headNode;
	Ogre::Entity* head;
	head = mSceneMgr->createEntity("Ex1.mesh");
	headNode = mSceneMgr->createSceneNode();
	mSceneMgr->getRootSceneNode()->addChild(headNode);
	headNode->attachObject(head);
	//headNode->scale(0.1,0.1,0.1);
	//headNode->setPosition(0,25,0);

	//Create shape.
	BtOgre::StaticMeshToShapeConverter converter(head);
	mCharacterShape = converter.createBox(); // Declare this btCollisionShape * pointer in SampleApp.h  

	//Calculate inertia tensor.
	btScalar mass = 5;
	btVector3 inertia;
	mCharacterShape -> calculateLocalInertia(mass, inertia);

	//Create BtOgre MotionState (connects Ogre and Bullet).
	BtOgre::RigidBodyState *characterState = new BtOgre::RigidBodyState(headNode);
	
	//Create the Body.
	mCharacterBody = new btRigidBody(mass, characterState, mCharacterShape, inertia);
	mCharacterBody ->setActivationState(DISABLE_DEACTIVATION);
	//mCharacterBody->setCollisionFlags(mCharacterBody->getCollisionFlags() | btCollisionObject::CF_STATIC_OBJECT);
	// Get bullet debug lines to show using F3
	Globals::dbgdraw = new BtOgre::DebugDrawer(mSceneMgr -> getRootSceneNode(), Globals::phyWorld);
	Globals::phyWorld->setDebugDrawer(Globals::dbgdraw);
	Globals::phyWorld->addRigidBody(mCharacterBody);

	//END OF ENTITY DECLARATIONS

    // Loop through all cameras and grab their name and set their debug representation
    Ogre::SceneManager::CameraIterator cameras = mSceneMgr->getCameraIterator();
    while (cameras.hasMoreElements())
    {
        Ogre::Camera* camera = cameras.getNext();
        mCamNames.push_back(camera->getName());
        Ogre::Entity* debugEnt = mSceneMgr->createEntity(camera->getName() + Ogre::String("_debug"), "scbCamera.mesh");

        try{
            Ogre::SceneNode* sNode = mSceneMgr->getSceneNode(camera->getName());
            sNode->attachObject(debugEnt);
            sNode->scale(0.5, 0.5, 0.5);
        }catch (...){
            Ogre::SceneNode* pNode = mSceneMgr->getRootSceneNode()->createChildSceneNode(camera->getName());
            pNode->setPosition(camera->getPosition());
            pNode->setOrientation(camera->getOrientation());

            pNode->attachObject(debugEnt);
            pNode->scale(0.5, 0.5, 0.5);
        }
    }
    // Grab the first available camera, for now
    Ogre::String cameraName = mCamNames[0];
    try
    {
        mActiveCamera = mSceneMgr->getCamera(cameraName);
        mWindow->getViewport(0)->setCamera(mActiveCamera);
        mCameraMan->setCamera(mActiveCamera);
        mSceneMgr->getEntity(mActiveCamera->getName() + Ogre::String("_debug"))->setVisible(false);

        //for(unsigned int ij = 0;ij < mLoader->mPGHandles.size();ij++)
        //{
        //    mLoader->mPGHandles[ij]->setCamera(mActiveCamera);
        //}
        
    }
    catch (Ogre::Exception& e)
    {
        Ogre::LogManager::getSingleton().logMessage("SampleApp::createScene : setting the active camera to (\"" +
            cameraName + ") failed: " + e.getFullDescription());
    }
}
コード例 #2
0
ファイル: OgreInfo.cpp プロジェクト: Chimangoo/ember
void OgreInfo::diagnose(std::ostream& outputStream)
{
	Ogre::SceneManagerEnumerator::SceneManagerIterator sceneManagerI = Ogre::Root::getSingleton().getSceneManagerIterator();
	while (sceneManagerI.hasMoreElements()) {
		Ogre::SceneManager* sceneManager = sceneManagerI.getNext();
		outputStream << "Scenemanager(" << sceneManager->getTypeName() << ") " << sceneManager->getName() << std::endl;
		outputStream << " Number of scene nodes: " << countNodes(sceneManager->getRootSceneNode()) << std::endl;
		outputStream << " Movable objects:" << std::endl;
		unsigned int movableObjectCounter = 0;
		Ogre::Root::MovableObjectFactoryIterator movableObjectFactoryI = Ogre::Root::getSingleton().getMovableObjectFactoryIterator();
		while (movableObjectFactoryI.hasMoreElements()) {
			Ogre::MovableObjectFactory* factory = movableObjectFactoryI.getNext();
			std::string type(factory->getType());
			{
				Ogre::SceneManager::MovableObjectIterator I = sceneManager->getMovableObjectIterator(type);
				while (I.hasMoreElements()) {
					movableObjectCounter++;
					Ogre::MovableObject* movable = I.getNext();
					if (movable->getMovableType() == "Light") {
						Ogre::Light* light = static_cast<Ogre::Light*> (movable);
						outputStream << "  * Light " << light->getName() << "(" << (light->isInScene() ? "in scene" : "not in scene") << ")" << std::endl;
						outputStream << "   Pos: " << light->getDerivedPosition() << std::endl;
						outputStream << "   Direction: " << light->getDerivedDirection() << std::endl;

					} else {
						std::stringstream ssPosAndOrientation;
						if (movable->getParentSceneNode() && movable->isInScene()) {
							ssPosAndOrientation << " pos: " << movable->getParentSceneNode()->getPosition() << " orientation: " << movable->getParentSceneNode()->getOrientation();
						}
						outputStream << "  * " << type << " " << movable->getName() << "(" << (movable->isInScene() ? "in scene" : "not in scene") << ")" << ssPosAndOrientation.str() << std::endl;
						//					outputStream << "  Pos: " << light->getDerivedPosition() << std::endl;
						//					outputStream << "  Direction: " << light->getDerivedDirection() << std::endl;
					}
				}
			}
		}

		outputStream << " Number of movable objects: " << movableObjectCounter << std::endl;

		outputStream << " Cameras:" << std::endl;
		{
			Ogre::SceneManager::CameraIterator I = sceneManager->getCameraIterator();
			while (I.hasMoreElements()) {
				Ogre::Camera* camera = I.getNext();
				outputStream << "  Camera " << camera->getName() << "(" << (camera->isInScene() ? "in scene" : "not in scene") << ")" << std::endl;
				outputStream << "  Pos: " << camera->getDerivedPosition() << std::endl;
				outputStream << "  Direction: " << camera->getDerivedDirection() << std::endl;
				outputStream << "  Clip distances: " << camera->getNearClipDistance() << " - " << camera->getFarClipDistance() << std::endl;
			}
		}

	}

	size_t resourceMemoryUsage = 0;
	outputStream << "Resource Managers:" << std::endl;
	Ogre::ResourceGroupManager::ResourceManagerIterator I = Ogre::ResourceGroupManager::getSingleton().getResourceManagerIterator();
	while (I.hasMoreElements()) {
		std::string name = I.peekNextKey();
		Ogre::ResourceManager* manager = I.getNext();
		outputStream << " Resource Manager: " << name << std::endl;
		if (manager->getMemoryBudget() == std::numeric_limits<size_t>::max()) {
			outputStream << "  Memory budget: not set" << std::endl;
		} else {
			outputStream << "  Memory budget: " << manager->getMemoryBudget() << " bytes" << std::endl;
		}
		outputStream << "  Memory usage:  " << manager->getMemoryUsage() << " bytes" << std::endl;
		resourceMemoryUsage += manager->getMemoryUsage();

		Ogre::ResourceManager::ResourceMapIterator resourceI = manager->getResourceIterator();
		if (resourceI.hasMoreElements()) {
			outputStream << "  Resources: " << std::endl;
			int resourceCount = 0;
			int loadedResourceCount = 0;
			while (resourceI.hasMoreElements()) {
				Ogre::ResourcePtr resource = resourceI.getNext();
				if (resource->isLoaded()) {
					std::string reloadable = resource->isReloadable() ? " reloadable" : "";
					outputStream << "   " << resource->getName() << " ( " << resource->getSize() << " bytes)" << reloadable;
					Ogre::Texture* texture = dynamic_cast<Ogre::Texture*>(resource.get());
					if (texture) {
						outputStream << texture->getWidth() << "x" << texture->getHeight() << " ";
					}
					outputStream << std::endl;
					loadedResourceCount++;
				}
				resourceCount++;
			}
			outputStream << "  Total number of resources: " << resourceCount << std::endl;
			outputStream << "  Number of loaded resources: " << loadedResourceCount << std::endl;
		}
	}

	outputStream << "Total memory usage for all resource manager: " << resourceMemoryUsage << " bytes" << std::endl;

	outputStream << std::flush;
}