Beispiel #1
0
DataContainer GraphicsImpl::getData(const DataIdentifier& id)
{
	if (id == "window.handle") {
		std::ostringstream windowHndStr;
		size_t windowHnd = 0;
		window->getCustomAttribute("WINDOW", &windowHnd);
		windowHndStr << windowHnd;

		return DataContainer(windowHndStr.str());
	}

	return DataContainer();
}
VIEW_API void windowAttributes(size_t& handle, u32& width, u32& height)
{
	Ogre::Root* root = Ogre::Root::getSingletonPtr();
	
	if (! root)
		throw std::logic_error
			("View::windowAttributes: Ogre hasn't been initialized yet.");
	
	Ogre::RenderWindow* win = root->getAutoCreatedWindow();

	win->getCustomAttribute("WINDOW", &handle);
	height = win->getHeight();
	width = win->getWidth();
}
	void ClipboardManager::initialise()
	{
		MYGUI_ASSERT(false == mIsInitialise, INSTANCE_TYPE_NAME << " initialised twice");
		MYGUI_LOG(Info, "* Initialise: " << INSTANCE_TYPE_NAME);

#if OGRE_PLATFORM == OGRE_PLATFORM_WIN32
		Ogre::RenderWindow * window = Gui::getInstance().getRenderWindow();
		if (window != nullptr) {
			window->getCustomAttribute("WINDOW", &mHwnd);
		}
#endif

		MYGUI_LOG(Info, INSTANCE_TYPE_NAME << " successfully initialized");
		mIsInitialise = true;
	}
void application::create_frame_listener()
{
    Ogre::LogManager::getSingletonPtr() -> logMessage("Initializing OIS");
    OIS::ParamList pl;
    size_t wndhnd = 0;
    std::ostringstream wndhndstr;

    wnd->getCustomAttribute ("WINDOW", &wndhnd);
    wndhndstr << wndhnd;
    pl.insert (std::make_pair (std::string {"WINDOW"}, wndhndstr.str()));

    input = OIS::InputManager::createInputSystem(pl);

    kbd   = static_cast<OIS::Keyboard*> (input->createInputObject (OIS::OISKeyboard, true));
    mouse = static_cast<OIS::Mouse*>    (input->createInputObject (OIS::OISMouse,    true));

    mouse -> setEventCallback(this);
    kbd   -> setEventCallback(this);

    windowResized(wnd);

    Ogre::WindowEventUtilities::addWindowEventListener (wnd, this);

    OgreBites::InputContext inctx;
    inctx.mMouse    = mouse;
    inctx.mKeyboard = kbd;
    tray_mgr = new OgreBites::SdkTrayManager ("InterfaceName", wnd, inctx, this);
    tray_mgr->showFrameStats(OgreBites::TL_BOTTOMLEFT);
    tray_mgr->showLogo(OgreBites::TL_BOTTOMRIGHT);
    tray_mgr->hideCursor();

    Ogre::StringVector items;
    items.push_back("cam.pX");
    items.push_back("cam.pY");
    items.push_back("cam.pZ");
    items.push_back("");
    items.push_back("cam.oW");
    items.push_back("cam.oX");
    items.push_back("cam.oY");
    items.push_back("cam.oZ");
    items.push_back("");
    items.push_back("Filtering");
    items.push_back("Poly Mode");

    root->addFrameListener(this);
}
Beispiel #5
0
void OISInput::initialise()
{
    Ogre::RenderWindow* window = GetRenderWindow();

    OIS::ParamList param_list;
    std::size_t window_handle = 0;
    window->getCustomAttribute("WINDOW", &window_handle);
    typedef OIS::ParamList::value_type ParamType;
    param_list.insert(
        ParamType("WINDOW",
                  boost::lexical_cast<std::string>(window_handle)));

    OgreGUI* gui = OgreGUI::GetGUI();
    assert(gui);
    const Ogre::SharedPtr<Ogre::DataStream>& config_file_stream = gui->ConfigFileStream();
    if (!config_file_stream.isNull()) {
        Ogre::ConfigFile config_file;
        config_file.load(config_file_stream);
        for (Ogre::ConfigFile::SettingsIterator it = config_file.getSettingsIterator();
             it.hasMoreElements();
             it.getNext()) {
            param_list.insert(ParamType(it.peekNextKey(), it.peekNextValue()));
            Ogre::LogManager::getSingleton().logMessage("OISPlugin using config setting " + it.peekNextKey() + "=" + it.peekNextValue());
        }
    }

    m_input_manager = OIS::InputManager::createInputSystem(param_list);
    m_keyboard = boost::polymorphic_downcast<OIS::Keyboard*>(
        m_input_manager->createInputObject(OIS::OISKeyboard, true));
    m_keyboard->setEventCallback(this);
    m_mouse = boost::polymorphic_downcast<OIS::Mouse*>(
        m_input_manager->createInputObject(OIS::OISMouse, true));
    m_mouse->setEventCallback(this);

    const OIS::MouseState& mouse_state = m_mouse->getMouseState();
    mouse_state.width = Value(gui->AppWidth());
    mouse_state.height = Value(gui->AppHeight());

    ConnectHandlers();
}
bool OISManager::init()
{
	OIS::ParamList pl;
	size_t windowHnd = 0;
	std::ostringstream windowHndStr;
	Ogre::RenderWindow* rw = OgreManager::getInstance().getRenderWindow();
	rw->getCustomAttribute("WINDOW", &windowHnd);
	windowHndStr << windowHnd;
	pl.insert(std::make_pair(std::string("WINDOW"), windowHndStr.str()));

	_inputManager = OIS::InputManager::createInputSystem( pl );

	 _keyboard = static_cast<OIS::Keyboard*>(_inputManager->createInputObject( OIS::OISKeyboard, true ));
	_mouse = static_cast<OIS::Mouse*>(_inputManager->createInputObject( OIS::OISMouse, true ));
	const OIS::MouseState &ms = _mouse->getMouseState();
	ms.width = static_cast<int>(rw->getWidth());
	ms.height = static_cast<int>(rw->getHeight());

	_keyboard->setEventCallback(this);
	_mouse->setEventCallback(this);

	_L = ScriptManager::getInstance().getLuaVM();
	return true;
}
// Sets up input devices and event callbacks
void InputManager::initialize() {

	_lastKeyPressedEvt = NULL;
    _lastKeyReleasedEvt = NULL;
    _lastMouseMovedEvt = NULL;
    _lastMousePressedEvt = NULL;
    _lastMouseReleasedEvt = NULL;

	OIS::ParamList pl;
    size_t windowHnd = 0;
    std::ostringstream windowHndStr;
    Ogre::RenderWindow* mWindow;

    // set up the render window
	mWindow = GraphicsManager::instance()->getRenderWindow();
    mWindow->getCustomAttribute("WINDOW", &windowHnd);
    windowHndStr << windowHnd;
    pl.insert(std::make_pair(std::string("WINDOW"), windowHndStr.str()));

	// Set up the input thread
	_mInputManager = OIS::InputManager::createInputSystem(pl);

	// Set up the input devices
	_mKeyboard = static_cast<OIS::Keyboard*>(_mInputManager->createInputObject(OIS::OISKeyboard, true));
	_mMouse = static_cast<OIS::Mouse*>(_mInputManager->createInputObject(OIS::OISMouse, true));

	// Register for events
	_mMouse->setEventCallback(this);
	_mKeyboard->setEventCallback(this);

	// Set initial mouse clipping size
    windowResized(mWindow);

	// Register as a Window listener
	Ogre::WindowEventUtilities::addWindowEventListener(mWindow, this);
}
Beispiel #8
0
INT WINAPI WinMain(HINSTANCE hInstance, HINSTANCE hPrevInstance, LPSTR lpCmdLine, int nCmdShow) {
#else
int main (int argc, char *argv[]) {
#endif

	#define OGRE_STATIC_ParticleFX 1

	Ogre::Root *ogre;
	Ogre::RenderWindow *window;
	Ogre::SceneManager *sceneMgr;
	Ogre::Camera *camera;

	// fire up an Ogre rendering window. Clearing the first two (of three) params will let us 
	// specify plugins and resources in code instead of via text file
	ogre = new Ogre::Root("", "");


	// This is a VERY minimal rendersystem loading example; we are hardcoding the OpenGL 
	// renderer, instead of loading GL and D3D9. We will add renderer selection support in a 
	// future article.

	// I separate the debug and release versions of my plugins using the same "_d" suffix that
	// the Ogre main libraries use; you may need to remove the "_d" in your code, depending on the
	// naming convention you use 
	ogre->loadPlugin("RenderSystem_GL_d");
	ogre->loadPlugin("Plugin_ParticleFX_d");
	const Ogre::RenderSystemList &renderSystems = ogre->getAvailableRenderers();
	Ogre::RenderSystemList::const_iterator r_it;

	// we do this step just to get an iterator that we can use with setRenderSystem. In a future article
	// we actually will iterate the list to display which renderers are available. 
	// renderSystems = ogre->getAvailableRenderers();
	r_it = renderSystems.begin();
	ogre->setRenderSystem(*r_it);
	ogre->initialise(false);

	// load common plugins
	ogre->loadPlugin("Plugin_CgProgramManager_d");		
	ogre->loadPlugin("Plugin_OctreeSceneManager_d");

	// setup main window; hardcode some defaults for the sake of presentation
	Ogre::NameValuePairList opts;
	opts["resolution"] = "1024x768";
	opts["fullscreen"] = "false";
	opts["vsync"] = "true";

	// create a rendering window with the title "CDK"
	window = ogre->createRenderWindow("CDK", 1024, 768, false, &opts);

		// load the basic resource location(s)
	Ogre::ResourceGroupManager::getSingleton().addResourceLocation(
		"resource", "FileSystem", "General");
	Ogre::ResourceGroupManager::getSingleton().addResourceLocation(
		"resource/gui.zip", "Zip", "GUI");
	Ogre::ResourceGroupManager::getSingleton().addResourceLocation(
		"resource/textures", "FileSystem", "Textures");
	Ogre::ResourceGroupManager::getSingleton().addResourceLocation(
		"resource/particles", "FileSystem", "Particles");
	Ogre::ResourceGroupManager::getSingleton().addResourceLocation(
		"resource/materials", "FileSystem", "Materials");
#if defined(WIN32)
	Ogre::ResourceGroupManager::getSingleton().addResourceLocation(
		"c:\\windows\\fonts", "FileSystem", "GUI"); 
#endif
	//Must initialize resource groups after window if using particle effects.
	Ogre::ResourceGroupManager::getSingleton().initialiseResourceGroup("General");
	Ogre::ResourceGroupManager::getSingleton().initialiseResourceGroup("GUI");
	Ogre::ResourceGroupManager::getSingleton().initialiseResourceGroup("Textures");
	Ogre::ResourceGroupManager::getSingleton().initialiseResourceGroup("Materials");
	Ogre::ResourceGroupManager::getSingleton().initialiseResourceGroup("Particles");

	// since this is basically a CEGUI app, we can use the ST_GENERIC scene manager for now; in a later article 
	// we'll see how to change this
	sceneMgr = ogre->createSceneManager(Ogre::ST_GENERIC);
	camera = sceneMgr->createCamera("camera");
	camera->setNearClipDistance(1);
    Ogre::Viewport* vp = window->addViewport(camera);
    vp->setBackgroundColour(Ogre::ColourValue(0,0,0));

	// most examples get the viewport size to calculate this; for now, we'll just 
	// set it to 4:3 the easy way
	camera->setAspectRatio((Ogre::Real)1.333333);

// with a scene manager and window, we can create a the GUI renderer
	
	// new way to instantiate a CEGUIOgreRenderer (Ogre 1.7)
	Ogre::RenderTarget *mRenderTarget = window;
	CEGUI::OgreRenderer* pGUIRenderer = &CEGUI::OgreRenderer::bootstrapSystem(*mRenderTarget);
 
	// create the root CEGUI class
	CEGUI::System* pSystem = CEGUI::System::getSingletonPtr();
 
	// tell us a lot about what is going on (see CEGUI.log in the working directory)
	CEGUI::Logger::getSingleton().setLoggingLevel(CEGUI::Informative);
 
	// use this CEGUI scheme definition (see CEGUI docs for more)
	CEGUI::SchemeManager::getSingleton().create((CEGUI::utf8*)"TaharezLookSkin.scheme", (CEGUI::utf8*)"GUI");
 
	// show the CEGUI mouse cursor (defined in the look-n-feel)
	pSystem->setDefaultMouseCursor((CEGUI::utf8*)"TaharezLook", (CEGUI::utf8*)"MouseArrow");
 
	// use this font for text in the UI
	CEGUI::FontManager::getSingleton().create("Tahoma-8.font", (CEGUI::utf8*)"GUI");
	pSystem->setDefaultFont((CEGUI::utf8*)"Tahoma-8");
 
	// load a layout from the XML layout file (you'll find this in resources/gui.zip), and 
	// put it in the GUI resource group
	CEGUI::Window* pLayout = CEGUI::WindowManager::getSingleton().loadWindowLayout("katana.layout", "", "GUI");
 
	// you need to tell CEGUI which layout to display. You can call this at any time to change the layout to
	// another loaded layout (i.e. moving from screen to screen or to load your HUD layout). Note that this takes
	// a CEGUI::Window instance -- you can use anything (any widget) that serves as a root window.
	pSystem->setGUISheet(pLayout);

	// this next bit is for the sake of the input handler
	unsigned long hWnd;
	// WINDOW is generic to all platforms now as of Eihort
	window->getCustomAttribute("WINDOW", &hWnd);

	// set up the input handlers
	Simulation *sim = new Simulation();

	// since the input handler deals with pushing input to CEGUI, we need to give it a pointer
	// to the CEGUI System instance to use
	InputHandler *handler = new InputHandler(pSystem, sim, hWnd);

	// put us into our "main menu" state
	sim->requestStateChange(GUI);

	// make an instance of our GUI sheet handler class
	MainMenuDlg* pDlg = new MainMenuDlg(pSystem, pLayout, sim);
	
	//testing shit
	Ogre::SceneNode *systemNode = sceneMgr->getRootSceneNode()->createChildSceneNode(Ogre::Vector3(0,0,0));
	

	
	SphereMesh *sphere = NULL;
	sphere->createSphere("sphereMesh", 80, 64, 64);


	/*
	// Now I can create several entities using that mesh
	Ogre::Entity *MoonEntity = sceneMgr->createEntity("Moon", planetMesh);
	// Now I attach it to a scenenode, so that it becomes present in the scene.
	Ogre::SceneNode *EarthOrbitNode = systemNode->createChildSceneNode("Earth Orbit", Ogre::Vector3(0,0,0));
	Ogre::SceneNode *EarthNode = EarthOrbitNode->createChildSceneNode("Earth", Ogre::Vector3(200,0,0));
	Ogre::SceneNode *MoonNode = EarthNode->createChildSceneNode("Moon", Ogre::Vector3(150,0,0));
	MoonNode->attachObject(MoonEntity);
	MoonEntity->getParentNode()->scale(0.5,0.5,0.5);
	*/
	//Material Tests
	Ogre::MaterialManager& lMaterialManager = Ogre::MaterialManager::getSingleton();
	Ogre::String lNameOfResourceGroup = "Mission 1 : Deliver Tom";
	
	Ogre::ResourceGroupManager& lRgMgr = Ogre::ResourceGroupManager::getSingleton();
	lRgMgr.createResourceGroup(lNameOfResourceGroup);

	{
			Ogre::MaterialPtr lMaterial = lMaterialManager.create("M_Lighting+OneTexture",lNameOfResourceGroup);
			Ogre::Technique* lFirstTechnique = lMaterial->getTechnique(0);
			Ogre::Pass* lFirstPass = lFirstTechnique->getPass(0);
 
			lFirstPass->setDiffuse(0.8f, 0.8f, 0.8f,1.0f);
			lFirstPass->setAmbient(0.3f, 0.3f, 0.3f);
			lFirstPass->setSpecular(1.0f, 1.0f, 1.0f, 1.0f);
			lFirstPass->setShininess(64.0f);
			lFirstPass->setSelfIllumination(0.1f, 0.1f, 0.1f);

			Ogre::TextureUnitState* lTextureUnit = lFirstPass->createTextureUnitState();
			lTextureUnit->setTextureName("SimpleTexture.bmp", Ogre::TEX_TYPE_2D);
			lTextureUnit->setTextureCoordSet(0);
	}
	
	
	// 3/ Lighting color.
	// To have the feeling of '3D', the lighting is good feeling.
		// It often requires the object to have correct normals (see my manual object construction), 
		// and some lights in the scene.
		
	{
			Ogre::MaterialPtr lMaterial = lMaterialManager.create("Sun",lNameOfResourceGroup);
			Ogre::Technique* lFirstTechnique = lMaterial->getTechnique(0);
			Ogre::Pass* lFirstPass = lFirstTechnique->getPass(0);
			
			// Lighting is allowed on this pass.
			lFirstPass->setLightingEnabled(true);

			// Emissive / self illumination is the color 'produced' by the object.
			// Color values vary between 0.0(minimum) to 1.0 (maximum).
			Ogre::ColourValue lSelfIllumnationColour(0.5f, 0.0f, 0.0f, 1.0f);
			lFirstPass->setSelfIllumination(lSelfIllumnationColour);

			// diffuse color is the traditionnal color of the lit object.
			Ogre::ColourValue lDiffuseColour(1.0f, 0.4f, 0.4f, 1.0f);
			lFirstPass->setDiffuse(lDiffuseColour);

			// ambient colour is linked to ambient lighting.
			// If there is no ambient lighting, then this has no influence.
			// It the ambient lighting is at 1, then this colour is fully added.
			// This is often use to change the general feeling of a whole scene.
			Ogre::ColourValue lAmbientColour(0.4f, 0.1f, 0.1f, 1.0f);
			lFirstPass->setAmbient(lAmbientColour);

			// specular colour, is the colour of the 'little light reflection'
			// that you can see on some object. For example, my bald head skin
			// reflect the sun. This make a 'round of specular lighting'.
			// Set this to black if you don't want to see it.
			Ogre::ColourValue lSpecularColour(1.0f, 1.0f, 1.0f, 1.0f);
			lFirstPass->setSpecular(lSpecularColour);

			// Shininess is the 'inverse of specular color splattering' coefficient.
			// If this is big (e.g : 64) you get a very tiny dot with a quite strong color (on round surface).
			// If this is 0, you get a simple color layer (the dot has become very wide).
			Ogre::Real lShininess = 64.0f;
			lFirstPass->setShininess(lShininess);
	}
		{
			Ogre::MaterialPtr lMaterial = lMaterialManager.create("mars",lNameOfResourceGroup);
			Ogre::Technique* lFirstTechnique = lMaterial->getTechnique(0);
			Ogre::Pass* lFirstPass = lFirstTechnique->getPass(0);
			
			// Lighting is allowed on this pass.
			lFirstPass->setLightingEnabled(true);

			// Emissive / self illumination is the color 'produced' by the object.
			// Color values vary between 0.0(minimum) to 1.0 (maximum).
			Ogre::ColourValue lSelfIllumnationColour(0.6f, 0.1f, 0.1f, 0.0f);
			lFirstPass->setSelfIllumination(lSelfIllumnationColour);

			// diffuse color is the traditionnal color of the lit object.
			Ogre::ColourValue lDiffuseColour(1.0f, 0.2f, 0.0f, 0.0f);
			lFirstPass->setDiffuse(lDiffuseColour);

			// ambient colour is linked to ambient lighting.
			// If there is no ambient lighting, then this has no influence.
			// It the ambient lighting is at 1, then this colour is fully added.
			// This is often use to change the general feeling of a whole scene.
			Ogre::ColourValue lAmbientColour(1.0f, 0.2f, 0.0f, 0.0f);
			lFirstPass->setAmbient(lAmbientColour);

			// specular colour, is the colour of the 'little light reflection'
			// that you can see on some object. For example, my bald head skin
			// reflect the sun. This make a 'round of specular lighting'.
			// Set this to black if you don't want to see it.
			Ogre::ColourValue lSpecularColour(1.0f, 0.3f, 0.3f, 0.3f);
			lFirstPass->setSpecular(lSpecularColour);

			// Shininess is the 'inverse of specular color splattering' coefficient.
			// If this is big (e.g : 64) you get a very tiny dot with a quite strong color (on round surface).
			// If this is 0, you get a simple color layer (the dot has become very wide).
			Ogre::Real lShininess = 34.0f;
			lFirstPass->setShininess(lShininess);
		}

	{
			Ogre::MaterialPtr lMaterial = lMaterialManager.create("gaia",lNameOfResourceGroup);
			Ogre::Technique* lFirstTechnique = lMaterial->getTechnique(0);
			Ogre::Pass* lFirstPass = lFirstTechnique->getPass(0);
			
			// Lighting is allowed on this pass.
			lFirstPass->setLightingEnabled(true);

			// Emissive / self illumination is the color 'produced' by the object.
			// Color values vary between 0.0(minimum) to 1.0 (maximum).
			Ogre::ColourValue lSelfIllumnationColour(0.0f, 0.0f, 0.1f, 0.3f);
			lFirstPass->setSelfIllumination(lSelfIllumnationColour);

			// diffuse color is the traditionnal color of the lit object.
			Ogre::ColourValue lDiffuseColour(0.1f, 0.2f, 0.8f, 1.0f);
			lFirstPass->setDiffuse(lDiffuseColour);

			// ambient colour is linked to ambient lighting.
			// If there is no ambient lighting, then this has no influence.
			// It the ambient lighting is at 1, then this colour is fully added.
			// This is often use to change the general feeling of a whole scene.
			Ogre::ColourValue lAmbientColour(0.0f, 0.1f, 0.4f, 1.0f);
			lFirstPass->setAmbient(lAmbientColour);

			// specular colour, is the colour of the 'little light reflection'
			// that you can see on some object. For example, my bald head skin
			// reflect the sun. This make a 'round of specular lighting'.
			// Set this to black if you don't want to see it.
			Ogre::ColourValue lSpecularColour(0.0f, 0.3f, 1.0f, 1.0f);
			lFirstPass->setSpecular(lSpecularColour);

			// Shininess is the 'inverse of specular color splattering' coefficient.
			// If this is big (e.g : 64) you get a very tiny dot with a quite strong color (on round surface).
			// If this is 0, you get a simple color layer (the dot has become very wide).
			Ogre::Real lShininess = 34.0f;
			lFirstPass->setShininess(lShininess);
		}
		{
			Ogre::MaterialPtr lMaterial = lMaterialManager.create("barren",lNameOfResourceGroup);
			Ogre::Technique* lFirstTechnique = lMaterial->getTechnique(0);
			Ogre::Pass* lFirstPass = lFirstTechnique->getPass(0);
			
			// Lighting is allowed on this pass.
			lFirstPass->setLightingEnabled(true);

			// Emissive / self illumination is the color 'produced' by the object.
			// Color values vary between 0.0(minimum) to 1.0 (maximum).
			Ogre::ColourValue lSelfIllumnationColour(0.1f, 0.1f, 0.1f, 0.1f);
			lFirstPass->setSelfIllumination(lSelfIllumnationColour);

			// diffuse color is the traditionnal color of the lit object.
			Ogre::ColourValue lDiffuseColour(0.3f, 0.3f, 0.3f, 0.3f);
			lFirstPass->setDiffuse(lDiffuseColour);

			// ambient colour is linked to ambient lighting.
			// If there is no ambient lighting, then this has no influence.
			// It the ambient lighting is at 1, then this colour is fully added.
			// This is often use to change the general feeling of a whole scene.
			Ogre::ColourValue lAmbientColour(0.3f, 0.3f, 0.3f, 0.3f);
			lFirstPass->setAmbient(lAmbientColour);

			// specular colour, is the colour of the 'little light reflection'
			// that you can see on some object. For example, my bald head skin
			// reflect the sun. This make a 'round of specular lighting'.
			// Set this to black if you don't want to see it.
			Ogre::ColourValue lSpecularColour(0.7f, 0.7f, 0.7f, 0.7f);
			lFirstPass->setSpecular(lSpecularColour);

			// Shininess is the 'inverse of specular color splattering' coefficient.
			// If this is big (e.g : 64) you get a very tiny dot with a quite strong color (on round surface).
			// If this is 0, you get a simple color layer (the dot has become very wide).
			Ogre::Real lShininess = 34.0f;
			lFirstPass->setShininess(lShininess);
		}
	{
			Ogre::MaterialPtr lMaterial = lMaterialManager.create("gasgiant",lNameOfResourceGroup);
			Ogre::Technique* lFirstTechnique = lMaterial->getTechnique(0);
			Ogre::Pass* lFirstPass = lFirstTechnique->getPass(0);
			
			// Lighting is allowed on this pass.
			lFirstPass->setLightingEnabled(true);

			// Emissive / self illumination is the color 'produced' by the object.
			// Color values vary between 0.0(minimum) to 1.0 (maximum).
			Ogre::ColourValue lSelfIllumnationColour(0.0f, 0.3f, 0.0f, 0.1f);
			lFirstPass->setSelfIllumination(lSelfIllumnationColour);

			// diffuse color is the traditionnal color of the lit object.
			Ogre::ColourValue lDiffuseColour(0.1f, 0.7f, 0.1f, 0.3f);
			lFirstPass->setDiffuse(lDiffuseColour);

			// ambient colour is linked to ambient lighting.
			// If there is no ambient lighting, then this has no influence.
			// It the ambient lighting is at 1, then this colour is fully added.
			// This is often use to change the general feeling of a whole scene.
			Ogre::ColourValue lAmbientColour(0.1f, 0.7f, 0.3f, 0.3f);
			lFirstPass->setAmbient(lAmbientColour);

			// specular colour, is the colour of the 'little light reflection'
			// that you can see on some object. For example, my bald head skin
			// reflect the sun. This make a 'round of specular lighting'.
			// Set this to black if you don't want to see it.
			Ogre::ColourValue lSpecularColour(0.2f, 1.0f, 0.6f, 0.6f);
			lFirstPass->setSpecular(lSpecularColour);

			// Shininess is the 'inverse of specular color splattering' coefficient.
			// If this is big (e.g : 64) you get a very tiny dot with a quite strong color (on round surface).
			// If this is 0, you get a simple color layer (the dot has become very wide).
			Ogre::Real lShininess = 34.0f;
			lFirstPass->setShininess(lShininess);
		}

	//end material tests

	//System Creator
	std::string systemDefinition[10] = {"15000,0,0,false,false,false,700000,0", "300,0,0,false,false,barren,2500,1",
		"300,x,y,false,co2,barren,6000,2", "300,x,y,h2o,n2/o2,gaia,6300,3", "300,x,y,false,co2,mars,3400,4",
		"300,x,y,false,h2/he,gasgiant,71000,5", "300,x,y,false,h2/he,gasgiant,60000,6", "300,x,y,false,h2/he,gasgiant,25001,7",
		"300,x,y,false,h2/he,gasgiant,25000,8", "300,x,y,false,n-ice,ice,1100,9"};

	StarSystem sol = StarSystem::StarSystem(sceneMgr, systemDefinition);

	//Star Creator
	/*
	{
	int x = 0;
	int y = 0;
	int kelvin = 15000;
	CelestialBody newstar = CelestialBody::CelestialBody(kelvin, 100, systemNode, sceneMgr, x, y);
	}

	// Spectrum testing and multi star generation.
	
	int time = 200;
	int x = -500;
	int y = 500;

	for ( int count = 1; count <= time; count++){
	
		int kelvin = count * (40000/time);
		Star newstar = Star::Star(kelvin, 100, systemNode, sceneMgr, x, y);
		x += 20;

		if (count % 10 == 0) {
			y -= 20;
			x = -500;
		}
	}
	*/

	// I move the SceneNode back 15 so that it is visible to the camera.
	float PositionOffset = 0.0;
	float distance = -2000.0;

	systemNode->translate(0, PositionOffset, distance);
	
	camera->lookAt(Ogre::Vector3(0,0,distance));

	while (sim->getCurrentState() != SHUTDOWN) {
		
		sol.rotateOrbits();
		
		handler->capture();

		ogre->renderOneFrame();

		// run the message pump (uncomment for Eihort)
		Ogre::WindowEventUtilities::messagePump();
	}

	{
		window->removeAllViewports();
	}
	{
		sceneMgr->destroyAllCameras();
		sceneMgr->destroyAllManualObjects();
		sceneMgr->destroyAllEntities();
		sceneMgr->destroyAllLights();
		systemNode->removeAndDestroyAllChildren();
	}

	{
		Ogre::ResourceGroupManager& lRgMgr = Ogre::ResourceGroupManager::getSingleton();
		lRgMgr.destroyResourceGroup(lNameOfResourceGroup);
	}

	// clean up after ourselves
	delete pDlg;
	delete handler;
	delete sim;
	delete ogre;

	return 0;
}
Beispiel #9
0
int WINAPI WinMain(HINSTANCE hInstance, HINSTANCE hPrevInstance, LPSTR lpCmdLine, int nCmdShow) {
#else
int main (int argc, char *argv[]) {
#endif

	Ogre::Root *ogre;
	Ogre::RenderWindow *window;
	Ogre::SceneManager *sceneMgr;
	Ogre::SceneManager *guiSceneMgr;
	Ogre::Camera *camera;
	Ogre::Camera *guiCamera;

	// fire up an Ogre rendering window. Clearing the first two (of three) params will let us 
	// specify plugins and resources in code instead of via text file
	ogre = new Ogre::Root("", "");

#if defined(_DEBUG)
	ogre->loadPlugin("RenderSystem_GL_d");
#else
	ogre->loadPlugin("RenderSystem_GL");
#endif

	Ogre::RenderSystemList *renderSystems = NULL;
	Ogre::RenderSystemList::iterator r_it;

	renderSystems = ogre->getAvailableRenderers();
	r_it = renderSystems->begin();
	ogre->setRenderSystem(*r_it);
	ogre->initialise(false);

	// load common plugins
#if defined(_DEBUG)
	//ogre->loadPlugin("Plugin_CgProgramManager_d");		
	ogre->loadPlugin("Plugin_OctreeSceneManager_d");
#else
	//ogre->loadPlugin("Plugin_CgProgramManager");		
	ogre->loadPlugin("Plugin_OctreeSceneManager");
#endif
	// load the basic resource location(s)
	Ogre::ResourceGroupManager::getSingleton().addResourceLocation("resource", "FileSystem", "General");
	Ogre::ResourceGroupManager::getSingleton().addResourceLocation("resource/gui.zip", "Zip", "GUI");
	Ogre::ResourceGroupManager::getSingleton().addResourceLocation("meshes", "FileSystem", "Meshes");
#if defined(WIN32)
	Ogre::ResourceGroupManager::getSingleton().addResourceLocation("c:\\windows\\fonts", "FileSystem", "GUI");
#endif

	Ogre::ResourceGroupManager::getSingleton().initialiseResourceGroup("General");
	Ogre::ResourceGroupManager::getSingleton().initialiseResourceGroup("GUI");
	Ogre::ResourceGroupManager::getSingleton().initialiseResourceGroup("Meshes");

	// setup main window; hardcode some defaults for the sake of presentation
	Ogre::NameValuePairList opts;
	opts["resolution"] = "1024x768";
	opts["fullscreen"] = "false";
	opts["vsync"] = "false";

	// create a rendering window with the title "CDK"
	window = ogre->createRenderWindow("Bouwgame Client v0.1", 1024, 768, false, &opts);

	// since this is basically a CEGUI app, we can use the ST_GENERIC scene manager for now; in a later article 
	// we'll see how to change this
	sceneMgr = ogre->createSceneManager(Ogre::ST_GENERIC);
	guiSceneMgr = ogre->createSceneManager(Ogre::ST_GENERIC);

	guiCamera = guiSceneMgr->createCamera("GUICamera");
	guiCamera->setNearClipDistance(5);
	camera = sceneMgr->createCamera("camera");
	camera->setNearClipDistance(5);
    Ogre::Viewport* vp = window->addViewport(guiCamera);
    vp->setBackgroundColour(Ogre::ColourValue(0.2f,0.2f,0.8f));

	/* ambient light */
	sceneMgr->setAmbientLight(Ogre::ColourValue(0.8, 0.8, 0.8));
	sceneMgr->setShadowTechnique(Ogre::SHADOWTYPE_STENCIL_ADDITIVE);

	/* meshes */
	Ogre::Entity* ent = sceneMgr->createEntity( "BouwPlaatsEntity", "world.mesh" );
	Ogre::SceneNode* node = sceneMgr->getRootSceneNode()->createChildSceneNode("BouwNode", Ogre::Vector3(0, 0, 0));
    node->attachObject(ent);
	//node->setScale(Ogre::Vector3(0.7,0.7,0.7));

	ent = sceneMgr->createEntity("plaats", "bouwplaats_step_00.mesh");
	Ogre::Vector3 size = ent->getBoundingBox().getSize();
	Ogre::LogManager::getSingletonPtr()->getDefaultLog()->logMessage(Ogre::String("Bouwplaats size: ") + Ogre::StringConverter::toString(size));
	size = ent->getBoundingBox().getMaximum();
	Ogre::LogManager::getSingletonPtr()->getDefaultLog()->logMessage(Ogre::String("Bouwplaats max: ") + Ogre::StringConverter::toString(size));
	size = ent->getBoundingBox().getMinimum();
	Ogre::LogManager::getSingletonPtr()->getDefaultLog()->logMessage(Ogre::String("Bouwplaats min: ") + Ogre::StringConverter::toString(size));

    Ogre::Entity* ent1 = sceneMgr->createEntity( "KeetEntity", "keet.mesh" );
	Ogre::SceneNode* scenenode = sceneMgr->getRootSceneNode()->createChildSceneNode("KeetNode", Ogre::Vector3(0, 0, 0));
    scenenode->attachObject(ent1);

	
	Ogre::Entity* ent2 = sceneMgr->createEntity( "HekjeEntity", "hekje.mesh" );
	Ogre::SceneNode* scenenode2 = sceneMgr->getRootSceneNode()->createChildSceneNode("HekjeNode", Ogre::Vector3(0, -100, 0));
    scenenode2->attachObject(ent2);
	scenenode2->setScale(Ogre::Vector3(400,0,100));

	// most examples get the viewport size to calculate this; for now, we'll just 
	// set it to 4:3 the easy way
	camera->setAspectRatio((Ogre::Real)1.333333);
	camera->setPosition(Ogre::Vector3(40,100,10));
	guiCamera->setPosition(0, 0, 300);
	guiCamera->lookAt(node->getPosition());

	// this next bit is for the sake of the input handler
	unsigned long hWnd;
	window->getCustomAttribute("WINDOW", &hWnd);

	
	// set up the input handlers
	Simulation *sim = new Simulation();
	InputHandler *handler = new InputHandler(sim, hWnd, camera);
	DataManager *dataManager = new DataManager();
	GameAI* gameAI = new GameAI(dataManager);

	//Create Network
	Network * net = new Network(dataManager);
	//net->start();

	sim->requestStateChange(GUI);
	gui = new GuiManager();

	// networkshit
	while(!net->isConnected())
	{
		Sleep(1000);
	}
	net->Send(GETGROUPS, "", "", NULL);
	net->Send(LOGIN, "gast", "gast", 1);

	gui->setSimulation(sim);
	gui->init("", ogre, guiSceneMgr, window);
	gui->activate("main");
	handler->setWindowExtents(1024,768);
	
	SimulationState cState;
	Ogre::WindowEventUtilities::addWindowEventListener(window, handler);

	DWORD tFrameStart = 0x0; //in miliseconds
	signed long tFrameX = 0x0;
	float tDelta2 = 0.0f; //in seconds
	float m_fps = 60.0f;
	tFrameStart = GetTickCount();

	float tDelta;

	//testAI->calculateNextPath(40,10);

	while ((cState = sim->getCurrentState()) != SHUTDOWN) {

		tFrameX = GetTickCount() - tFrameStart;
		tDelta2 = (float)tFrameX / 1000.0f;
		if (tDelta2 > 3600) // tDelta > 1 hour
			tDelta2 = 1.0f / m_fps; //< System tick count has highly likely overflowed, so get approximation
		tFrameStart = GetTickCount();
		m_fps = (int)(1.0f / tDelta2);

		tDelta = tDelta2;

		handler->capture();
		handler->update(tDelta);
		gui->update(tDelta);

		//if (sim->getCurrentState() == SIMULATION || sim->getCurrentState() == SIMULATION_MOUSELOOK)
//			testAI->update(tDelta);

		// run the message pump (Eihort)
		Ogre::WindowEventUtilities::messagePump();

		ogre->renderOneFrame();

		if (sim->getCurrentState() != cState) {
			handler->StateSwitched(cState, sim->getCurrentState());
			switch (sim->getCurrentState()) {
				case GUI:
					window->getViewport(0)->setCamera(guiCamera);
					break;
				case SIMULATION:
					window->getViewport(0)->setCamera(camera);
					break;
			}
		}

	}

	// clean up after ourselves
	//delete testAI;
	delete sim;
	delete ogre;
	delete handler;
	delete gameAI;
	delete dataManager;

	return 0;
}
Beispiel #10
0
    bool initialise()
    {
		mRoot = new Ogre::Root(PLUGINS_CFG, OGRE_CFG, OGRE_LOG);

		if (!mRoot->restoreConfig())
			if (!mRoot->showConfigDialog())
				return false;

		initResources();

        mWindow = mRoot->initialise(true, "CS Clone Editor v0.0");
        Ogre::WindowEventUtilities::addWindowEventListener(mWindow, this);

		mSceneMgr = mRoot->createSceneManager(Ogre::ST_GENERIC);
		mSceneMgr->setAmbientLight(Ogre::ColourValue(0.7, 0.7, 0.7));
		mCamera = mSceneMgr->createCamera("camera");
        mWindow->addViewport(mCamera);
        mCamera->setAutoAspectRatio(true);
        mCamera->setNearClipDistance(0.1);
        mCamera->setFarClipDistance(10000);
        mCamera->setPosition(10, 10, 10);
//        mCamera->lookAt(0, 0, 0);

        mRoot->addFrameListener(this);

		Ogre::ResourceGroupManager::getSingleton().initialiseAllResourceGroups();
//Initializing OIS
		Ogre::LogManager::getSingletonPtr()->logMessage("*-*-* OIS Initialising");

		OIS::ParamList pl;
		size_t windowHnd = 0;
		mWindow->getCustomAttribute("WINDOW", &windowHnd);
		pl.insert(std::make_pair(std::string("WINDOW"), Ogre::StringConverter::toString(windowHnd)));

#if OGRE_DEBUG_MODE == 1
	#if OGRE_PLATFORM == OGRE_PLATFORM_LINUX
		#define NO_EXCLUSIVE_INPUT
	#endif
#endif

#ifdef NO_EXCLUSIVE_INPUT
	#if defined OIS_WIN32_PLATFORM
		pl.insert(std::make_pair(std::string("w32_mouse"), std::string("DISCL_FOREGROUND" )));
		pl.insert(std::make_pair(std::string("w32_mouse"), std::string("DISCL_NONEXCLUSIVE")));
		pl.insert(std::make_pair(std::string("w32_keyboard"), std::string("DISCL_FOREGROUND")));
		pl.insert(std::make_pair(std::string("w32_keyboard"), std::string("DISCL_NONEXCLUSIVE")));
	#elif defined OIS_LINUX_PLATFORM
		pl.insert(std::make_pair(std::string("x11_mouse_grab"), std::string("false")));
		pl.insert(std::make_pair(std::string("x11_mouse_hide"), std::string("false")));
		pl.insert(std::make_pair(std::string("x11_keyboard_grab"), std::string("false")));
		pl.insert(std::make_pair(std::string("XAutoRepeatOn"), std::string("true")));
	#endif
#endif
		mInputManager = OIS::InputManager::createInputSystem(pl);

		mKeyboard = static_cast<OIS::Keyboard*>(mInputManager->createInputObject(OIS::OISKeyboard, true));
		mKeyboard->setEventCallback(this);
		mMouse = static_cast<OIS::Mouse*>(mInputManager->createInputObject(OIS::OISMouse, true));
		mMouse->setEventCallback(this);

		windowResized(mWindow);
//Initialising GUI
		Ogre::LogManager::getSingletonPtr()->logMessage("*-*-* MyGUI Initialising");
		mGUI = new MyGUI::Gui;
		mGUI->initialise(mWindow);
		mGUI->load("editor.layout");

		mMenuBar = mGUI->createWidget<MyGUI::MenuBar>("MenuBar",
			MyGUI::IntCoord(0, 0, mGUI->getViewWidth(), 28),
			MyGUI::ALIGN_TOP | MyGUI::ALIGN_HSTRETCH, "Overlapped");

		mMenuBar->addItem("File");
		mPopupMenuFile = mMenuBar->getItemMenu(0);
		mPopupMenuFile->addItem("New");
		mPopupMenuFile->addItem("Open ...");
		mPopupMenuFile->addItem("Save");
		mPopupMenuFile->addItem("Save as ...", false, true);
		mPopupMenuFile->addItem("Settings", false, true);
		mPopupMenuFile->addItem("Quit");

		mMenuBar->addItem("Help");
		mPopupMenuHelp = mMenuBar->getItemMenu(1);
		mPopupMenuHelp->addItem("Help");
		mPopupMenuHelp->addItem("About ...");

		return (true);
    }
Beispiel #11
0
int initOgreAR(aruco::CameraParameters camParams, unsigned char* buffer, std::string resourcePath)
{
	/// INIT OGRE FUNCTIONS
#ifdef _WIN32
  	root = new Ogre::Root(resourcePath + "plugins_win.cfg", resourcePath + "ogre_win.cfg");
#elif __x86_64__ || __ppc64__
	root = new Ogre::Root(resourcePath + "plugins_x64.cfg", resourcePath + "ogre.cfg");
#else
	root = new Ogre::Root(resourcePath + "plugins.cfg", resourcePath + "ogre.cfg");
#endif
  	if (!root->showConfigDialog()) return -1;
	Ogre::SceneManager* smgr = root->createSceneManager(Ogre::ST_GENERIC);


	/// CREATE WINDOW, CAMERA AND VIEWPORT
    Ogre::RenderWindow* window = root->initialise(true);
	Ogre::Camera *camera;
	Ogre::SceneNode* cameraNode;
	camera = smgr->createCamera("camera");
	camera->setNearClipDistance(0.01f);
	camera->setFarClipDistance(10.0f);
	camera->setProjectionType(Ogre::PT_ORTHOGRAPHIC);
	camera->setPosition(0, 0, 0);
	camera->lookAt(0, 0, 1);
	double pMatrix[16];
	camParams.OgreGetProjectionMatrix(camParams.CamSize,camParams.CamSize, pMatrix, 0.05,10, false);
	Ogre::Matrix4 PM(pMatrix[0], pMatrix[1], pMatrix[2] , pMatrix[3],
			pMatrix[4], pMatrix[5], pMatrix[6] , pMatrix[7],
			pMatrix[8], pMatrix[9], pMatrix[10], pMatrix[11],
			pMatrix[12], pMatrix[13], pMatrix[14], pMatrix[15]);
	camera->setCustomProjectionMatrix(true, PM);
	camera->setCustomViewMatrix(true, Ogre::Matrix4::IDENTITY);
	window->addViewport(camera);
	cameraNode = smgr->getRootSceneNode()->createChildSceneNode("cameraNode");
	cameraNode->attachObject(camera);


	/// CREATE BACKGROUND FROM CAMERA IMAGE
	int width = camParams.CamSize.width;
	int height = camParams.CamSize.height;
	// create background camera image
	mPixelBox = Ogre::PixelBox(width, height, 1, Ogre::PF_R8G8B8, buffer);
	// Create Texture
	mTexture = Ogre::TextureManager::getSingleton().createManual("CameraTexture",Ogre::ResourceGroupManager::DEFAULT_RESOURCE_GROUP_NAME,
		      Ogre::TEX_TYPE_2D,width,height,0,Ogre::PF_R8G8B8,Ogre::TU_DYNAMIC_WRITE_ONLY_DISCARDABLE);

	//Create Camera Material
	Ogre::MaterialPtr material = Ogre::MaterialManager::getSingleton().create("CameraMaterial", Ogre::ResourceGroupManager::DEFAULT_RESOURCE_GROUP_NAME);
	Ogre::Technique *technique = material->createTechnique();
	technique->createPass();
	material->getTechnique(0)->getPass(0)->setLightingEnabled(false);
	material->getTechnique(0)->getPass(0)->setDepthWriteEnabled(false);
	material->getTechnique(0)->getPass(0)->createTextureUnitState("CameraTexture");

	Ogre::Rectangle2D* rect = new Ogre::Rectangle2D(true);
	rect->setCorners(-1.0, 1.0, 1.0, -1.0);
	rect->setMaterial("CameraMaterial");

	// Render the background before everything else
	rect->setRenderQueueGroup(Ogre::RENDER_QUEUE_BACKGROUND);

	// Hacky, but we need to set the bounding box to something big, use infinite AAB to always stay visible
	Ogre::AxisAlignedBox aabInf;
	aabInf.setInfinite();
	rect->setBoundingBox(aabInf);

	// Attach background to the scene
	Ogre::SceneNode* node = smgr->getRootSceneNode()->createChildSceneNode("Background");
	node->attachObject(rect);


	/// CREATE SIMPLE OGRE SCENE
	// add sinbad.mesh
	Ogre::ResourceGroupManager::getSingleton().addResourceLocation(resourcePath + "Sinbad.zip", "Zip", "Popular");
 	Ogre::ResourceGroupManager::getSingleton().initialiseAllResourceGroups();
	for(int i=0; i<MAX_MARKERS; i++) {
	  Ogre::String entityName = "Marker_" + Ogre::StringConverter::toString(i);
	  Ogre::Entity* ogreEntity = smgr->createEntity(entityName, "Sinbad.mesh");
	  Ogre::Real offset = ogreEntity->getBoundingBox().getHalfSize().y;
	  ogreNode[i] = smgr->getRootSceneNode()->createChildSceneNode();
	  // add entity to a child node to correct position (this way, entity axis is on feet of sinbad)
	  Ogre::SceneNode *ogreNodeChild = ogreNode[i]->createChildSceneNode();
	  ogreNodeChild->attachObject(ogreEntity);
	  // Sinbad is placed along Y axis, we need to rotate to put it along Z axis so it stands up over the marker
	  // first rotate along X axis, then add offset in Z dir so it is over the marker and not in the middle of it
	  ogreNodeChild->rotate(Ogre::Vector3(1,0,0), Ogre::Radian(Ogre::Degree(90)));
	  ogreNodeChild->translate(0,0,offset,Ogre::Node::TS_PARENT);
	  // mesh is too big, rescale!
	  const float scale = 0.006675f;
	  ogreNode[i]->setScale(scale, scale, scale);

	    // Init animation
	  ogreEntity->getSkeleton()->setBlendMode(Ogre::ANIMBLEND_CUMULATIVE);
	  if(i==0)
	  {
        baseAnim[i] = ogreEntity->getAnimationState("HandsClosed");
        topAnim[i] = ogreEntity->getAnimationState("HandsRelaxed");
	  }
	  else if(i==1)
	  {
        baseAnim[i] = ogreEntity->getAnimationState("Dance");
        topAnim[i] = ogreEntity->getAnimationState("Dance");
	  }
	  else if(i==2)
	  {
        baseAnim[i] = ogreEntity->getAnimationState("RunBase");
        topAnim[i] = ogreEntity->getAnimationState("RunTop");
	  }
	  else
	  {
        baseAnim[i] = ogreEntity->getAnimationState("IdleBase");
        topAnim[i] = ogreEntity->getAnimationState("IdleTop");
	  }
	  baseAnim[i]->setLoop(true);
	  topAnim[i]->setLoop(true);
	  baseAnim[i]->setEnabled(true);
	  topAnim[i]->setEnabled(true);
	}


 	/// KEYBOARD INPUT READING
 	size_t windowHnd = 0;
 	window->getCustomAttribute("WINDOW", &windowHnd);
 	im = OIS::InputManager::createInputSystem(windowHnd);
 	keyboard = static_cast<OIS::Keyboard*>(im->createInputObject(OIS::OISKeyboard, true));

	return 1;
}