void
TestScene5::runOgre()
{
// initialize framework & open window
Ogre::Root* root = new Ogre::Root();
root->restoreConfig();
root->initialise(false);
auto window = root->createRenderWindow("Ogre RenderWindow", 800, 600, false);
auto sceneMgr = root->createSceneManager(Ogre::ST_GENERIC);
// adjust camera
auto cam1 = sceneMgr->createCamera("cam1");
auto camNode1 = sceneMgr->getRootSceneNode()->createChildSceneNode("camnode1");
cam1->setNearClipDistance(5);
camNode1->attachObject(cam1);
camNode1->setPosition(100, 100, 100);
camNode1->lookAt(Ogre::Vector3(-1, -1, -1), Ogre::Node::TS_LOCAL);
window->addViewport(cam1);
// load & integrate model
root->addResourceLocation("./resources/Ogre", "FileSystem");
Ogre::ResourceGroupManager::getSingleton().initialiseAllResourceGroups();
auto model = sceneMgr->createEntity("model", "alexandria.mesh");
auto modelNode = sceneMgr->getRootSceneNode()->createChildSceneNode();
modelNode->attachObject(model);
// position model
modelNode->setPosition(-100, -100, -100);
// loop
runOgreLoop(root);
}
void WebAPI::setWebView( WebView *view )
{
WebPage *page = view->page();
frame = page->mainFrame();
attachObject();
connect( frame, SIGNAL(javaScriptWindowObjectCleared()),
this, SLOT(attachObject()) );
}
void BrowserApi::setWebView(QWebView *view)
{
QWebPage *page = view->page();
m_frame = page->mainFrame();
attachObject();
connect(m_frame, SIGNAL(javaScriptWindowObjectCleared()), this, SLOT(attachObject()));
}
void CellDrawActor< C >::gridDraw(
const GridDrawMessage& m
) {
// Левый нижний угол - центр координат (порт - матрица).
// Нумерация строк / столбцов матрицы совпадает с напраслением
// осей OX / OZ.
// Не рисуем сетку, если она уже есть
const std::string sceneName = "CellDrawActor::gridDraw::Scene";
const bool virgin = m.sm->hasSceneNode( sceneName );
if ( !virgin ) {
// Каждому образу - свой холст (общая сцена)
auto scene = m.sm->getRootSceneNode()->createChildSceneNode( sceneName );
// Ячейки смещаем на полмасштаба влево-вниз
const auto halfCell = m.scale / 2.0f;
auto mo = m.sm->createManualObject();
mo->begin( "smokeport2d/grid", Ogre::RenderOperation::OT_LINE_LIST );
const float side = (float)m.size * m.scale;
for (size_t i = 0; i <= m.size; ++i) {
// OX
const float z = (float)i * m.scale - halfCell;
mo->position( Ogre::Vector3( -halfCell, 0.0f, z ) );
mo->position( Ogre::Vector3( side - halfCell, 0.0f, z ) );
// OZ
const float x = (float)i * m.scale - halfCell;
mo->position( Ogre::Vector3( x, 0.0f, -halfCell ) );
mo->position( Ogre::Vector3( x, 0.0f, side - halfCell ) );
}
mo->end();
// Каждому образу - свой холст
auto moScene = scene->createChildSceneNode( "CellDrawActor::gridDraw::MOScene::Scene" );
moScene->attachObject( mo );
//childScene->setPosition( Ogre::Vector3::ZERO );
// Отмечаем первую ячейку (центр координат)
auto centerScene = scene->createChildSceneNode( "CellDrawActor::gridDraw::CenterScene::Scene" );
auto point = m.sm->createEntity( "sphere.mesh" );
//centerScene->setPosition( Ogre::Vector3::ZERO );
centerScene->attachObject( point );
//centerScene->setScale( Ogre::Vector3( 1.0f / 20.0f ) );
} // if ( !virgin )
}
void fakeHaskell()
{
DemoApp* da = initDemo();
Ogre::SceneManager* sm = getSceneManager();
Ogre::SceneNode* rnode = getRootSceneNode(sm);
/* OgreFramework::getSingletonPtr()->m_pSceneMgr->setSkyBox(true, "Examples/SpaceSkyBox");
m_pCubeEntity = OgreFramework::getSingletonPtr()->m_pSceneMgr->createEntity("Cube", "ogrehead.mesh");
m_pCubeNode = OgreFramework::getSingletonPtr()->m_pSceneMgr->getRootSceneNode()->createChildSceneNode("CubeNode");
m_pCubeNode->attachObject(m_pCubeEntity);
m_pCube2E = OgreFramework::getSingletonPtr()->m_pSceneMgr->createEntity("Steve", Ogre::SceneManager::PT_CUBE);
m_pCube2N = OgreFramework::getSingletonPtr()->m_pSceneMgr->getRootSceneNode()->createChildSceneNode("SteveN");
m_pCube2N->attachObject(m_pCube2E);*/
setSkybox(sm, true, "Examples/SpaceSkyBox");
Ogre::Entity* cubeEntity = createEntity(sm, "Cube", "ogrehead.mesh");
Ogre::SceneNode* cubeNode = createChildSceneNode(rnode, "CubeNode");
attachObject(cubeNode, cubeEntity);
finishSetupAndRun(da);
}
void ScriptApi::setWebView( View *view )
{
m_view = view;
attachObject();
connect( m_view->page()->mainFrame(), SIGNAL(javaScriptWindowObjectCleared()), this, SLOT(attachObject()) );
installGlobals();
}
bool xSceneHelperDrawableNode::attachDrawElement(IDrawElement* pDrawElement)
{
if(pDrawElement == NULL)
return false;
xSceneHelperDrawable* pObject = new xSceneHelperDrawable(m_pScene , 0);
pObject->setDrawElement(pDrawElement,0);
return attachObject(pObject);
}
void
TestScene12::runOgre()
{
// initialize framework & open window
Ogre::Root* root = new Ogre::Root();
root->restoreConfig();
root->initialise(false);
auto window = root->createRenderWindow("Ogre RenderWindow", 800, 600, false);
auto sceneMgr = root->createSceneManager(Ogre::ST_GENERIC);
// adjust camera
auto cam1 = sceneMgr->createCamera("cam1");
auto camNode1 = sceneMgr->getRootSceneNode()->createChildSceneNode("camnode1");
cam1->setNearClipDistance(5);
camNode1->attachObject(cam1);
camNode1->setPosition(Ogre::Vector3(100, 100, 100));
camNode1->lookAt(Ogre::Vector3(-1, -1, -1), Ogre::Node::TS_LOCAL);
window->addViewport(cam1);
// load & integrate model
root->addResourceLocation("./resources/Ogre", "FileSystem");
Ogre::ResourceGroupManager::getSingleton().initialiseAllResourceGroups();
Mesh_Cube M(1);
M.createMesh("cube");
Ogre::SceneNode* groups[ROWS];
std::list<Ogre::SceneNode*> nodes;
for (int i = 0; i < ROWS; i++)
{
groups[i] = sceneMgr->getRootSceneNode()->createChildSceneNode();
nodes.push_back(groups[i]);
}
for (int i = 0; i < ROWS * COLS; i++)
{
auto node = groups[i % ROWS]->createChildSceneNode();
node->attachObject(sceneMgr->createEntity(std::string("model") + boost::lexical_cast<std::string>(i), "cube"));
node->setPosition(
camNode1->getOrientation() * -Ogre::Vector3::UNIT_X * LEFT(i)
+ camNode1->getOrientation() * Ogre::Vector3::UNIT_Y * UP(i)
);
}
root->addFrameListener(new MoveObjectTask_Ogre12(nodes));
// loop
runOgreLoop(root);
}
/*===========================================================================*/
void StochasticUniformGridRenderer::Engine::create( kvs::ObjectBase* object, kvs::Camera* camera, kvs::Light* light )
{
kvs::StructuredVolumeObject* volume = kvs::StructuredVolumeObject::DownCast( object );
attachObject( object );
createRandomTexture();
this->create_shader_program( volume );
this->create_volume_texture( volume );
this->create_transfer_function_texture();
this->create_bounding_cube_buffer( volume );
this->create_framebuffer( camera->windowWidth(), camera->windowHeight() );
}
void CameraWrapper::createCamera(const std::string& name)
{
if(mObjectId == name && mObject) {
return;
}
mObjectId = name;
LOG(TRACE) << "Create camera with id " << name;
// toss camera object to the movable wrapper
mObject = mSceneManager->createCamera(name);
mObject->setListener(this);
attachObject(mObject);
}
void Ogrenoid::createScene(void)
{
m_theBall = new TheBall(m_sceneManager);
m_playerPaddle = new Paddle(m_sceneManager);
//Left wall
auto leftWallEntity = m_sceneManager->createEntity("leftWall", "cube.mesh");
auto leftWallNode = m_sceneManager->getRootSceneNode()->createChildSceneNode("leftWall");
leftWallNode->attachObject(leftWallEntity);
leftWallNode->setPosition(-110, 0, 0);
leftWallNode->setScale(2.0, 100.00, 1.0);
//Right wall
auto rightWallEntity = m_sceneManager->createEntity("rightWall", "cube.mesh");
auto rightWallNode = m_sceneManager->getRootSceneNode()->createChildSceneNode("rightWall");
rightWallNode->attachObject(rightWallEntity);
rightWallNode->setPosition(110, 0, 0);
rightWallNode->setScale(2.0, 100.00, 1.0);
//Upper wall
auto upperWallEntity = m_sceneManager->createEntity("upperWall", "cube.mesh");
auto upperWallNode = m_sceneManager->getRootSceneNode()->createChildSceneNode("upperWall");
upperWallNode->attachObject(upperWallEntity);
upperWallNode->setPosition(0, 82, 0);
upperWallNode->setScale(190.0, 2.0, 1.0);
//Bottom wall
auto bottomWallEntity = m_sceneManager->createEntity("bottomWall", "cube.mesh");
auto bottomWallNode = m_sceneManager->getRootSceneNode()->createChildSceneNode("bottomWall");
bottomWallNode->attachObject(bottomWallEntity);
bottomWallNode->setPosition(0, -82, 0);
bottomWallNode->setScale(190.0, 2.0, 1.0);
//Ambient light
m_sceneManager->setAmbientLight(Ogre::ColourValue(0.75, 0.75, 0.75));
Ogre::Light* lightPtr = m_sceneManager->createLight("ambientLight");
lightPtr->setPosition(0, 0, 50);
}
//-------------------------------------------------------
void Ground::LoadFromHeightMap(std::shared_ptr<Ogre::Image> hmap, Ogre::SceneNode* parentNode)
{
mImage = hmap;
Ogre::Box box = Ogre::Box(0, 0, mImage->getWidth(), mImage->getHeight());
mRootNode = parentNode->createChildSceneNode();
mGlobalBoundingBox.setNull();
Ogre::Material* groundMaterial = CreateGroundMaterialTextured("Material/" + CLASS_NAME + "/Textured", mImage.get());
static const float VERTEX_STEP = 1.0f;
static const float HEIGHT_STEP = 8.0f;
float offsetX = GROUND_SIZE * VERTEX_STEP / 2.0f;
float offsetY = GROUND_SIZE * VERTEX_STEP / 2.0f;
size_t width = mImage->getWidth();
size_t height = mImage->getHeight();
float texStep = 1.0f / REGIONS_NUMBER;
size_t texRegionWidth = static_cast<size_t>(std::ceil(static_cast<float>(width) / REGIONS_NUMBER));
size_t texRegionHeight = static_cast<size_t>(std::ceil(static_cast<float>(height) / REGIONS_NUMBER));
for (size_t y = 0; y < REGIONS_NUMBER; ++y)
{
size_t top = y * texRegionHeight;
for (size_t x = 0; x < REGIONS_NUMBER; ++x)
{
size_t left = x * texRegionWidth;
Ogre::Box roi = Ogre::Box(left, height - std::min(top + texRegionHeight + 1, height), std::min(left + texRegionWidth + 1, width), height - top);
Ogre::MeshPtr mesh = CreateRegion(y * REGIONS_NUMBER + x, groundMaterial->getName(), roi,
Ogre::Vector3(x * VERTEX_STEP * REGION_SIZE - offsetX, y * VERTEX_STEP * REGION_SIZE - offsetY, 0.0f),
Ogre::Vector3(VERTEX_STEP, VERTEX_STEP, HEIGHT_STEP),
Ogre::Vector2(x * texStep, 1.0f - (y + 1) * texStep));
Ogre::Entity* entity = mSceneManager->createEntity(mesh);
auto node = mRootNode->createChildSceneNode();
node->attachObject(entity);
node->showBoundingBox(true);
mGlobalBoundingBox.merge(entity->getBoundingBox());
mEntities.push_back(entity);
}
}
}
void GOAPapp::initCamera(float asp) {
//camera
m_pCamera.reset(new Camera("cam1"));
auto cameraNode = new Node("cameraNode1");
cameraNode->attachObject(m_pCamera.get());
m_pCamera->setLocalRotation(vec3f(-PI / 2, 0, 0));
m_pCamera->setPosition(vec3f(20, 40, 6));
m_pCamera->updateViewMatrix();
m_pCamera->setProjection(45.0f, asp, 0.1f, 10000.f);
if (root)
root->addAChindNode(cameraNode);
m_pCamera->applyImpulse(vec3f());
}
WebView::WebView(QWidget *parent) :
QWebView(parent)
, m_page(new WebPage(this))
{
setPage(m_page);
page()->setLinkDelegationPolicy(QWebPage::DelegateAllLinks);
connect( m_page->mainFrame() , SIGNAL(javaScriptWindowObjectCleared()), this, SLOT(attachObject()) );
connect(this,SIGNAL(loadFinished(bool)),this,SLOT(loadFinished(bool)));
connect(this,SIGNAL(selectionChanged()),this,SLOT(doNothing()));
connect(this,SIGNAL(urlChanged(QUrl)),this,SLOT(urlChanged(QUrl)));
enableSettings();
attachObject();
//setContextMenuPolicy(Qt::PreventContextMenu);
}
Brush::Brush(Ogre::TerrainGroup* group, Ogre::SceneManager* sceneMgr, QUndoStack* stack)
: QObject(),
m_mode(Brush::M_NONE),
m_stack(stack),
m_drawer(new BrushDrawer("Brush", group)),
m_group(group),
m_currentCommand(nullptr),
m_enabled(true)
{
auto rootNode = sceneMgr->getRootSceneNode();
rootNode->attachObject(m_drawer);
settings_t def { 2.0f, 5.0f, 0.0f };
m_settings[M_HEIGHT_FLATTEN] = def;
m_settings[M_HEIGHT_SMOOTH] = def;
m_settings[M_HEIGHT_RAISE] = def;
m_settings[M_LAYER_PAINT] = def;
}
void Player::spawn( const Vector3& position, const Quaternion& orientation )
{
Character::spawn( position, orientation );
mMesh = Procedural::CapsuleGenerator().setHeight( mHeight ).setRadius( mRadius ).realizeMesh( "playerStandCapsule" );
mItem = Locator::getGraphics().getScene()->createItem( mMesh );
mItem->setQueryFlags( SceneQueryFlag_Character );
mItem->setDatablock( "Developer/Placeholder/Player" );
mItem->setCastShadows( true );
mNode->attachObject( mItem );
auto skull = Locator::getGraphics().getScene()->createEntity( "skull_02.mesh" );
auto snode = mNode->createChildSceneNode( Ogre::SCENE_DYNAMIC, Vector3( 0, 1.5f, 0 ) );
skull->setQueryFlags( SceneQueryFlag_Camera );
snode->attachObject( skull );
}
void
TestScene3::runOgre()
{
// initialize framework & open window
Ogre::Root* root = new Ogre::Root();
root->restoreConfig();
root->initialise(false);
auto window = root->createRenderWindow("Ogre RenderWindow", 800, 600, false);
auto sceneMgr = root->createSceneManager(Ogre::ST_GENERIC);
// adjust camera
auto cam1 = sceneMgr->createCamera("cam1");
auto camNode1 = sceneMgr->getRootSceneNode()->createChildSceneNode("camnode1");
cam1->setNearClipDistance(5);
camNode1->attachObject(cam1);
camNode1->setPosition(100, 100, 100);
camNode1->lookAt(Ogre::Vector3(-1, -1, -1), Ogre::Node::TS_LOCAL);
window->addViewport(cam1);
// loop
runOgreLoop(root);
}
void Layer::gradientPointDraw(
Ogre::SceneManager* sm,
Ogre::SceneNode* sn,
const surface2d_t& gp
) const {
assert( (gp.size() > 1) && "Точки перепада не получены." );
assert( (gp.size() == feature.countGradient)
&& "Количество полученных точек перепада не соотв. ожидаемому." );
// Создаём образ
// Каждую точку представим в виде меша
for (auto itr = gp.cbegin(); itr != gp.cend(); ++itr) {
const coord2d_t coord = *itr;
auto point = sm->createEntity( "sphere.mesh" );
auto childScene = sn->createChildSceneNode();
childScene->attachObject( point );
childScene->setPosition( coord.get<0>(), 0.0f, coord.get<1>() );
}
// Соединим точки
auto image = sm->createManualObject();
int i = 0;
image->begin( "landscape25/red", Ogre::RenderOperation::OT_LINE_STRIP );
for (auto itr = gp.cbegin(); itr != gp.cend(); ++itr) {
const coord2d_t coord = *itr;
image->position( coord.get<0>(), 0.0f, coord.get<1>() );
image->index( i ); ++i;
}
image->end();
image->setCastShadows( false );
sn->createChildSceneNode()->attachObject( image );
}
TestMenuState::TestMenuState(XE::XEngine& engine, bool replace)
: XE::XEState(engine, replace)
{
LOG(plog::info) << "InitState - Initialization";
auto ctrlSystem = engine.getScene().systems.add<XET::TestControllerSystem>(engine);
engine.getScene().create(1);
XE::FileResource fres;
engine.getResourceMgr().getBufferFromFile("dbData/UI/TestAtlas.fbbin", fres);
engine.getGraphicsManager().getGUIRenderer().loadAtlas(fres.buffer); // "dbData/UI/TestAtlas.fbbin"); // ("XEngine", "General"); //texturemanager initialized in createrenderwindow!!!
/*if (!engine.getGraphicsManager().getGUIRenderer().loadAtlas("dbData/UI/TestAtlas.fbbin"))
return;*/
//create an empty entity for free style camera
entityx::Entity entity = engine.getScene().entities.create();
XE::BodyComponent* body = entity.assign<XE::BodyComponent>().get();
XE::CameraRenderable* camRenderable = entity.assign<XE::CameraRenderable>(0, engine.getGraphicsManager(), engine.getScene()).get();
XE::CameraFreeComponent* camera = entity.assign<XE::CameraFreeComponent>(*camRenderable, *body).get();
body->setPosition(0,10,0);
XET::TestControllerComponent* ctrl = entity.assign<XET::TestControllerComponent>(0,engine, engine.getGraphicsManager().getWindow(), true).get();
XE::ScreenComponent* screenComp = entity.assign<XE::ScreenComponent>(*camRenderable, engine.getGraphicsManager().getWindow()).get(); //createScreen(); //workspace needed for screen
screenComp->mUIStateManager.get()->addUIState(screenComp->mUIStateManager.get()->build <XE::UIDebug>(NetMsg::UIStateId_Stats, entity, true));
// screenComp->mUIStateManager.addUIState(screenComp->mUIStateManager.build <XE::UIConsole>(10, entity, true));//ctrl.createConsole();
screenComp->mUIStateManager.get()->addUIState(screenComp->mUIStateManager.get()->build <UIState_1>(99, entity, true));//ctrl.createConsole();
//XE::ScreenComponent* screenComp = entity.assign<XE::ScreenComponent>(*camRenderable, engine.getGraphicsManager().getWindowManager().getWindow(0)).get(); //createScreen(); //workspace needed for screen
ctrlSystem->setBasicInputEvents(*ctrl);
ctrl->setActionMap(*ctrl);
m_engine.getGraphicsManager().getIntoRendererQueue().push([this, camRenderable]()
{
//XET::TestPostProcess pp(m_engine, *camRenderable);
// pp.createCustomTextures();
m_engine.getResourceMgr()._t_initResourceGroup("TestGrp");
// pp.setupCompositor();
// pp.togglePostprocess("Bloom");
//load gltf
// gltf::Asset asset;
// //gltf::load("F:/Projekte/coop/XGame/data/assets/Impact/impact_ground_1.gltf", asset);
////gltf::load("F:/Projekte/coop/FrankE/data/assets/DamagedHelmet/DamagedHelmet.gltf", asset);
// gltf::load("F:/Projekte/coop/XGame/data/assets/Turricane/turicane_blendshapes.gltf", asset);
// // gltf::load("F:/Projekte/coop/glTF-Sample-Models/2.0/AnimatedMorphCube/glTF/AnimatedMorphCube.gltf", asset);
////gltf::load("F:/Projekte/coop/glTF-Sample-Models/2.0/DamagedHelmet/glTF/DamagedHelmet.gltf", asset);
// XE::XEMesh mesh;
// mesh.buildMesh(asset, m_engine.getGraphicsManager(), m_engine.getScene().getOgreSceneManager().__OgreSceneMgrPtr);
gltf::Asset assetEmissive;
gltf::load(m_engine.settings.resourceData.assetsFolder + "/DebugPack/material_ball/material_ball.gltf", assetEmissive);
XE::XEMesh meshMaterialBall;
meshMaterialBall.buildMesh(assetEmissive, "Ball 1", m_engine.getGraphicsManager(), m_engine.getScene().getOgreSceneManager().__OgreSceneMgrPtr);
{
Ogre::Item* item{ nullptr };
item = m_engine.getScene().getOgreSceneManager().__OgreSceneMgrPtr->createItem(meshMaterialBall.m_ogreMesh, Ogre::SCENE_DYNAMIC);
auto m_sceneNode = m_engine.getScene().getOgreSceneManager().__OgreSceneMgrPtr->getRootSceneNode(Ogre::SCENE_DYNAMIC)->createChildSceneNode(Ogre::SCENE_DYNAMIC);
m_sceneNode->attachObject(item);
item->setCastShadows(true);
//do it at last! here the texture baking happens! needed for normal maps etc.
if (meshMaterialBall.m_datablock)
item->setDatablock(meshMaterialBall.m_datablock);
m_sceneNode->setPosition(0, 10, 0);
m_sceneNode->rotate(Ogre::Quaternion(Ogre::Degree(90), Ogre::Vector3(1, 0, 0))); // needed for blender exported meshes!
}
{
Ogre::Item* item{ nullptr };
item = m_engine.getScene().getOgreSceneManager().__OgreSceneMgrPtr->createItem(meshMaterialBall.m_ogreMesh, Ogre::SCENE_DYNAMIC);
auto m_sceneNode = m_engine.getScene().getOgreSceneManager().__OgreSceneMgrPtr->getRootSceneNode(Ogre::SCENE_DYNAMIC)->createChildSceneNode(Ogre::SCENE_DYNAMIC);
m_sceneNode->attachObject(item);
item->setCastShadows(true);
//do it at last! here the texture baking happens! needed for normal maps etc.
Ogre::HlmsManager *hlmsManager = m_engine.getGraphicsManager().getRoot()->getHlmsManager();
Ogre::HlmsUnlitDatablock* testdatablock = (Ogre::HlmsUnlitDatablock*)hlmsManager->getDatablock("BillBoardTest");
testdatablock->setUseColour(true);
testdatablock->setColour(Ogre::ColourValue(0, 1, 0, 1) * 1.5);
item->setDatablock(testdatablock);
m_sceneNode->setPosition(20, 10, 0);
m_sceneNode->rotate(Ogre::Quaternion(Ogre::Degree(90), Ogre::Vector3(1, 0, 0))); // needed for blender exported meshes!
}
});
LOG(XE::info) << "InitState - Initialized";
}
void CellDrawActor< C >::allDraw(
const AllDrawMessage< C >& m
) {
// Рисуем только если ещё не было нарисовано
// или по просьбе "обновлять постоянно"
const std::string sceneName = "CellDrawActor::allDraw::Scene";
const std::string bsName = "CellDrawActor::allDraw::BillboardSet";
// @test
/*
try {
m.sm->getRootSceneNode()->removeAndDestroyChild( sceneName );
} catch ( ... ) {
}
try {
m.sm->destroyBillboardSet( bsName );
} catch ( ... ) {
}
*/
if ( m.update || !m.sm->hasSceneNode( sceneName ) ) {
// Каждому образу - свой холст (общая сцена)
auto scene = m.sm->hasSceneNode( sceneName ) ?
m.sm->getSceneNode( sceneName ) :
m.sm->getRootSceneNode()->createChildSceneNode( sceneName );
// Определяем общее кол-во элементов
const size_t NM = m.N * m.M;
// Готовим биллборды
// Обращаются за отрисовкой первый раз?
const bool virgin = m.sm->hasBillboardSet( bsName );
Ogre::BillboardSet* bs = nullptr;
if ( virgin ) {
bs = m.sm->getBillboardSet( bsName );
} else {
// Один образ для всех ячеек
// @todo Расширить кол-во образов.
bs = m.sm->createBillboardSet( bsName, NM );
bs->setAutoextend( true );
const std::string nameMaterial = m.prefixMaterial + "0";
bs->setMaterialName( nameMaterial );
bs->setBillboardType( Ogre::BBT_PERPENDICULAR_COMMON );
bs->setCommonUpVector( Ogre::Vector3::UNIT_Z );
bs->setCommonDirection( -Ogre::Vector3::UNIT_Y );
bs->setBillboardsInWorldSpace( true );
bs->setBillboardOrigin( Ogre::BBO_CENTER );
bs->setDefaultDimensions( m.scale, m.scale );
bs->setUseAccurateFacing( false );
scene->attachObject( bs );
}
// Визуализируем каждую ячейку
/* - @todo Можно ускорить отрисовку > http://www.ogre3d.org/forums/viewtopic.php?f=2&t=11134&start=0
Ogre::Billboard b = Ogre::Billboard( Ogre::Vector3::ZERO, bs );
b.setColour( Ogre::ColourValue::White );
b.setRotation( Ogre::Degree( (float)rand() ) );
*/
//bs->beginBillboards();
for (size_t z = 0; z < m.M; ++z) {
for (size_t x = 0; x < m.N; ++x) {
const coordInt2d_t coord( (int)x, (int)z );
// Создадим образ ячейки с указанной координатой
const int i = helper::ic( coord.get<0>(), coord.get<1>(), m.N, m.M );
assert( (i != -1) && "Получена координата за пределами матрицы порта." );
const C c = m.content[i];
// Биллборд уже мог быть создан ранее
const auto bi = helper::index( *bs, coord, m.scale );
if (bi != -1) {
bs->removeBillboard( bi );
}
if (c.uid == 0) {
// Вакуум - отсутствие образа
continue;
}
#if 0
// - Медленно. Переписано через биллборды.
/*
const std::string name =
"smoke-pressure-"
+ Ogre::StringConverter::toString( (int)c.pressure );
*/
const std::string meshName = "sphere.mesh";
/* - @todo Так ли каждый раз нужна новая сущность?
const std::string entityName = meshName + ".entity";
const bool has = sm->hasEntity( entityName );
Ogre::Entity* image = has ?
sm->getEntity( entityName ) :
sm->createEntity( entityName, meshName );
*/
Ogre::Entity* image = sm->createEntity( meshName );
auto childScene = sn->createChildSceneNode();
childScene->attachObject( image );
// Координаты образа кратны масштабу
childScene->setPosition(
(float)coord.get<0>() * scale,
0.0f,
(float)coord.get<1>() * scale
);
// Образ заполняет ячейку целиком
//const Ogre::Vector3 fillScale( scale / image->getBoundingRadius() );
//childScene->setScale( fillScale );
#endif
// Работаем через биллборды
// @source http://89.151.96.106/forums/viewtopic.php?f=10&t=60455
// @todo Визаулизировать в зависимости от характеристики ячейки и соседей.
// Позиционируем биллборд
Ogre::Billboard* b = bs->createBillboard(
(float)coord.get<0>() * m.scale,
0.0f,
(float)coord.get<1>() * m.scale
);
b->setRotation( Ogre::Degree( (float)rand() ) );
/*
b.setPosition(
(float)coord.get<0>() * m.scale,
0.0f,
(float)coord.get<1>() * m.scale
);
bs->injectBillboard( b );
*/
// @test
//break;
} // for (size_t x = 0; x < m.N; ++x)
} // for (size_t z = 0; z < m.M; ++z)
//bs->endBillboards();
} // if ( m.update || !m.sm->hasSceneNode( sceneName ) )
}
bool CLiftableObject::lift() {
assert(m_eState == LOS_AT_DEFAULT_LOCATION);
m_eState = LOS_LIFTED;
sendCreateInnerObjectEvent(IOCE_LIFT);
btRigidBody *pRB = btRigidBody::upcast(m_pCollisionObject);
btRigidBody *pNewRB(NULL);
assert(pRB);
if (m_bRecreateOnLift) {
Ogre::String meshFile;
// create dynamic close of pRB -> pNewRB, and delete the other one in the next frame
auto pSN = m_ObjectManager.getMap().getRootSceneNode()->createChildSceneNode();
CPhysicsCollisionObject *pCO = m_ObjectManager.getMap().getPhysicsManager()->findCollisionShape(m_pCollisionObject->getCollisionShape());
auto shape = pCO->getShape();
meshFile = m_ObjectManager.getMap().getPhysicsManager()->getCollisionShapeKey(*pCO);
float mass = 100.0f;
btVector3 inertia;
shape->calculateLocalInertia(mass, inertia);
btRigidBody::btRigidBodyConstructionInfo rbInfo(mass,
new BtOgre::RigidBodyState(pSN, m_pCollisionObject->getWorldTransform(), btTransform(btQuaternion::getIdentity(), BtOgre::Convert::toBullet(-pCO->getOffset()))),
shape,inertia);
pNewRB = new btRigidBody(rbInfo);
// object now belongs to player, so dont interact with each other
// create the entity
Ogre::Entity *pEnt = m_ObjectManager.getMap().getSceneManager()->createEntity(meshFile);
pSN->attachObject(pEnt);
//m_ObjectManager.getMap().destroyObjectsEntity(this, NULL, BtOgre::Convert::toOgre(pNewRB->getWorldTransform().getOrigin()));
//m_ObjectManager.getMap().getPhysicsManager()->createLater(const_cast<btRigidBody*>(pNewRB));
//m_ObjectManager.getMap().getPhysicsManager()->deleteLater(const_cast<btRigidBody*>(pRB));
delete pRB->getMotionState();
delete pRB;
m_pCollisionObject = pNewRB;
setAsUserPointer(pNewRB);
}
else {
pNewRB = pRB;
}
assert(pNewRB);
m_ObjectManager.getMap().getPhysicsManager()->getWorld()->removeCollisionObject(const_cast<btRigidBody*>(pRB));
m_ObjectManager.getMap().getPhysicsManager()->getWorld()->addRigidBody(pNewRB, COL_DAMAGE_P, COL_STATIC | COL_WALL | COL_CHARACTER_N);
// is there an linked object to delete on lift?
Ogre::String sRemoveObjectOnLift(m_UserData.getStringUserData("removeObjectOnLift"));
if (sRemoveObjectOnLift.length() > 0) {
m_ObjectManager.getObjectBySafeStateId(sRemoveObjectOnLift)->suicide();
}
return true;
}
// 当属性改变了,需要重构贴花的时候
void GridDecal::updateDecal()
{
#define WIDTH_POS_COUNT (m_widthGridCount + 1)
#define HEIGHT_POS_COUNT (m_heightGridCount + 1)
// 显示整个节点
m_node->setVisible(m_visible);
// 不可视就不更新了
if(!m_visible)
{
return;
}
// 错误数据检查
if(m_heightGridCount == 0 || m_widthGridCount == 0)
return;
// 如果网格大小改变了,就重构
if((m_dirty & (GRID_DECAL_DIRTY_WIDTH_GRID_COUNT
| GRID_DECAL_DIRTY_HEIGHT_GRID_COUNT))
|| m_gridPositions == 0
)
{
OGRE_DELETE_ARRAY(m_gridPositions);
m_gridPositions = new Vector3[WIDTH_POS_COUNT * HEIGHT_POS_COUNT];
memset(m_gridPositions , 0 , sizeof(Vector3) * WIDTH_POS_COUNT * HEIGHT_POS_COUNT);
}
// 位置、深度、大小会导致平面重新定义
if(m_dirty & (DIRTY_POSITION
| DIRTY_DEPTH
| DIRTY_SIZE
| GRID_DECAL_DIRTY_WIDTH_GRID_COUNT
| GRID_DECAL_DIRTY_HEIGHT_GRID_COUNT)
)
{
for(uint y = 0 ; y < WIDTH_POS_COUNT ; y ++)
{
for(uint x = 0 ; x < HEIGHT_POS_COUNT ; x ++)
{
// 找到与地形相交的点
if(!IDecalSystem::getSingleton().worldRayQuery(m_gridPositions[y * WIDTH_POS_COUNT + x]
, m_position + Vector3(m_size.x * ((float)x / (float)WIDTH_POS_COUNT) - m_size.x / 2.0f , m_depth , m_size.y * ((float)y / (float)HEIGHT_POS_COUNT) - m_size.y / 2.0f)
, m_position + Vector3(m_size.x * ((float)x / (float)WIDTH_POS_COUNT) - m_size.x / 2.0f , -m_depth , m_size.y * ((float)y / (float)HEIGHT_POS_COUNT) - m_size.y / 2.0f)
)
)
{
return;
}
// 移动到相对位置
m_gridPositions[y * WIDTH_POS_COUNT + x] -= m_position;
}
}
// 从三点定义贴花平面
m_decalPlane.redefine(m_gridPositions[WIDTH_POS_COUNT / 2]
, m_gridPositions[WIDTH_POS_COUNT * (HEIGHT_POS_COUNT - 1)]
, m_gridPositions[WIDTH_POS_COUNT * HEIGHT_POS_COUNT - 1]
);
}
// 改变节点位置
if(m_dirty & DIRTY_POSITION)
{
m_node->setPosition(m_position);
}
// 材质名和大小会影响贴花对象的重构
if(m_dirty & (DIRTY_POSITION
| DIRTY_DEPTH
| DIRTY_MATERIAL_NAME
| DIRTY_SIZE
| GRID_DECAL_DIRTY_WIDTH_GRID_COUNT
| GRID_DECAL_DIRTY_HEIGHT_GRID_COUNT)
)
{
// 材质贴花
if(!m_materialName.empty())
{
// 创建贴花对象
if(m_decal == 0)
{
m_decal = m_sceneMgr->createManualObject(m_name + "_GridDecal");
m_decal->setDynamic(true);
m_decal->begin(m_materialName);
m_decal->position(Vector3::ZERO);
m_decal->textureCoord(0,0);
m_decal->index(0);
m_decal->end();
// 贴花在地形之后,物件之前
m_decal->setRenderQueueGroup(RENDER_QUEUE_DECAL);
attachObject(m_decal);
}
// 设置材质
if(m_dirty & DIRTY_MATERIAL_NAME)
{
m_decal->getSection(0)->setMaterialName(m_materialName);
}
// 更新顶点
if(m_dirty & (DIRTY_POSITION
| DIRTY_DEPTH
| DIRTY_SIZE
| GRID_DECAL_DIRTY_WIDTH_GRID_COUNT
| GRID_DECAL_DIRTY_HEIGHT_GRID_COUNT)
)
{
m_decal->beginUpdate(0);
// 生成所有顶点
for(uint y = 0 ; y < HEIGHT_POS_COUNT ; y ++)
{
for(uint x = 0 ; x < WIDTH_POS_COUNT ; x ++)
{
m_decal->position(m_gridPositions[y * WIDTH_POS_COUNT + x]);
m_decal->textureCoord((float)x / (float)WIDTH_POS_COUNT
, (float)y / (float)HEIGHT_POS_COUNT);
}
}
// 根据顶点生成索引缓冲区
for(uint y = 0 ; y < m_heightGridCount ; y ++)
{
for(uint x = 0 ; x < m_widthGridCount ; x ++)
{
uint tl = y * WIDTH_POS_COUNT + x;
uint tr = y * WIDTH_POS_COUNT + x + 1;
uint bl = (y + 1) * WIDTH_POS_COUNT + x;
uint br = (y + 1) * WIDTH_POS_COUNT + x + 1;
m_decal->quad(tl
, bl
, br
, tr
);
}
}
m_decal->end();
}
}
else
{
if(m_decal)
{
m_sceneMgr->destroyManualObject(m_decal);
m_decal = 0;
}
}
}
// 改变附加对象的节点旋转
if(m_nodeAttachObject)
{
// 位置信息改变才需要重新设置
if(m_dirty & (DIRTY_POSITION
| DIRTY_DEPTH
| DIRTY_SIZE
| DIRTY_OFFSET)
)
{
m_nodeAttachObject->setPosition(m_offsetPosition);
}
}
}
void QmlWebViewWidget::setUrl(QUrl arg)
{
connect(m_widget->page()->mainFrame(), SIGNAL(javaScriptWindowObjectCleared()), SLOT(attachObject()));
QWebSettings::globalSettings( )->setAttribute( QWebSettings::PrivateBrowsingEnabled, true );
QWebSettings::setMaximumPagesInCache( 0 );
QWebSettings::setObjectCacheCapacities( 0, 0, 0 );
QWebSettings::clearMemoryCaches( );
m_widget->setUrl(arg);
}
/// Hack to handle overloaded methods.
inline
void scriptAttachObject1(AttachableObject& _object)
{
attachObject(_object);
}
void GasCellPort::cellDraw( const coordInt2d_t& coord ) const {
// Создаём образ
// Содержимое ячейки представим в виде меша
const int i = helper::ic( coord.get<0>(), coord.get<1>(), N, M );
assert( (i != -1) && "Получена координата за пределами матрицы порта." );
const GasFD c = content[i];
if (c.uid == 0) {
// Вакуум не показываем
return;
}
#if 0
// - Медленно. Переписано через биллборды.
/*
const std::string name =
"smoke-pressure-"
+ Ogre::StringConverter::toString( (int)c.pressure );
*/
const std::string meshName = "sphere.mesh";
/* - @todo Так ли каждый раз нужна новая сущность?
const std::string entityName = meshName + ".entity";
const bool has = sm->hasEntity( entityName );
Ogre::Entity* image = has ?
sm->getEntity( entityName ) :
sm->createEntity( entityName, meshName );
*/
Ogre::Entity* image = sm->createEntity( meshName );
auto childScene = sn->createChildSceneNode();
childScene->attachObject( image );
// Координаты образа кратны масштабу
childScene->setPosition(
(float)coord.get<0>() * scale,
0.0f,
(float)coord.get<1>() * scale
);
// Образ заполняет ячейку целиком
//const Ogre::Vector3 fillScale( scale / image->getBoundingRadius() );
//childScene->setScale( fillScale );
#endif
// Работаем через биллборды
// @source http://89.151.96.106/forums/viewtopic.php?f=10&t=60455
const float S = scale * visualScale;
// Готовим биллборды при первом обращении к ним
// @todo Визаулизировать в зависимости от характеристики ячейки и соседей.
std::string bsName = "GasCellPort-bs";
Ogre::BillboardSet* bs = nullptr;
if ( sm->hasBillboardSet( bsName ) ) {
bs = sm->getBillboardSet( bsName );
} else {
// Дым - один образ на всю ячейку
bs = sm->createBillboardSet( bsName, count() );
bs->setAutoextend( false );
const std::string prefixMaterial = "smokeport2d/smoke-";
const std::string nameMaterial = prefixMaterial + "0";
bs->setMaterialName( nameMaterial );
bs->setBillboardType( Ogre::BBT_PERPENDICULAR_COMMON );
bs->setCommonUpVector( Ogre::Vector3::UNIT_Z );
bs->setCommonDirection( -Ogre::Vector3::UNIT_Y );
bs->setBillboardsInWorldSpace( true );
bs->setBillboardOrigin( Ogre::BBO_CENTER );
bs->setDefaultDimensions( S, S );
sn->attachObject( bs );
}
// Позиционируем биллборд
Ogre::Billboard* b = bs->createBillboard(
(float)coord.get<0>() * S,
0.0f,
(float)coord.get<1>() * S
);
//b->setRotation( Ogre::Degree( (float)rand() ) );
}
void App::createScene()
{
#pragma region Plane
// Define the mathematical plane
Ogre::Plane plane(Vector3::UNIT_Y, 0);
// Create the plane into memory
Ogre::MeshManager::getSingleton().createPlane(
"plane",
ResourceGroupManager::DEFAULT_RESOURCE_GROUP_NAME,
plane,
500, 500, // size
25, 25, // how many quads are used to make the plane
true,
1, 5, 5, Vector3::UNIT_Z);
// Create an instance of the plane
auto planeEnt = mSceneMgr->createEntity("PlaneEntity", "plane");
planeEnt->setMaterialName("Examples/BeachStones");
// Create a node for the plane and attach he plane to it
mSceneMgr->getRootSceneNode()->createChildSceneNode("planeNode")->attachObject(planeEnt);
#pragma endregion
#pragma region Lights
// Directional
auto sunlight = mSceneMgr->createLight("sun");
sunlight->setType(Ogre::Light::LT_DIRECTIONAL);
sunlight->setDirection(Ogre::Vector3(0, -1, -1));
sunlight->setDiffuseColour(Ogre::ColourValue(.30, .30, 0));
sunlight->setSpecularColour(Ogre::ColourValue(.30, .30, 0));
// Spotlight
auto spotlight = mSceneMgr->createLight("spotlight");
spotlight->setType(Ogre::Light::LT_SPOTLIGHT);
spotlight->setSpotlightRange(
Ogre::Degree(5.0f), // inner angle
Ogre::Degree(15.0f), // outer angle
0.0f); // falloff
spotlight->setDiffuseColour(Ogre::ColourValue(1.0f, 0.0f, 0.0f));
// Sphere to visualize the spotlights source
auto sphereEnt = mSceneMgr->createEntity("sphere", "sphere.mesh");
sphereEnt->setMaterialName("Examples/checker");
auto sphereNode = mSceneMgr->getSceneNode("planeNode")->createChildSceneNode("spotlightNode");
sphereNode->attachObject(sphereEnt);
sphereNode->attachObject(spotlight);
sphereNode->scale(0.02f, 0.02f, 0.02f);
sphereNode->translate(0.0f, 15.0f, 0.0f);
sphereNode->lookAt(Ogre::Vector3(0, 0, 0), Ogre::Node::TS_PARENT);
#pragma endregion
#pragma region Entities
std::array<Ogre::Entity*, 6> entities;
auto entParentNode = mSceneMgr->getSceneNode("planeNode")->createChildSceneNode("entParentNode");
float angleOffset = 360.0f / 6.0f;
float radius = 30.0f;
for (int i = 0; i < entities.size(); ++i)
{
auto e = mSceneMgr->createEntity("Sinbad.mesh");
entParentNode->createChildSceneNode(Ogre::Vector3(
radius * Math::Cos(Math::DegreesToRadians(angleOffset * i)), // x = r cos(t)
6.75f, // y = height
radius * Math::Sin(Math::DegreesToRadians(angleOffset * i)))) // z = r sin(t)
->attachObject(e);
}
// Barrel
auto barrel = mSceneMgr->createEntity("barrel.mesh");
mSceneMgr->getSceneNode("planeNode")->createChildSceneNode("barrel", Ogre::Vector3(0, 2.5f, 0))->attachObject(barrel);
#pragma endregion
// Skybox
mSceneMgr->setSkyBox(true, "Examples/SpaceSkyBox", 5000, false);
}
