StarsGeode::StarsGeode(const char* brightStarsFilePath) : osg::Geode() , m_program(new osg::Program) , m_vShader(new osg::Shader(osg::Shader::VERTEX)) , m_gShader(new osg::Shader(osg::Shader::GEOMETRY)) , m_fShader(new osg::Shader(osg::Shader::FRAGMENT)) , u_R(NULL) , u_q(NULL) , u_noise1(NULL) , u_color(NULL) , u_glareIntensity(NULL) , u_glareScale(NULL) , u_apparentMagnitude(NULL) , u_scattering(NULL) , u_scintillations(NULL) , u_scale(NULL) { setName("Stars"); osg::StateSet* stateSet = getOrCreateStateSet(); setupNode(stateSet, brightStarsFilePath); setupUniforms(stateSet); setupShader(stateSet); setupTextures(stateSet); };
bool CKLBUISimpleItem::init(CKLBUITask* pParent, CKLBNode* pNode, u32 order, float x, float y, const char* asset) { if(!setupNode()) { return false; } bool bResult = initCore(order,x,y,asset); bResult = registUI(pParent, bResult); if(pNode) { pParent->getNode()->removeNode(getNode()); pNode->addNode(getNode()); } return bResult; }
int main() { ev::io http; ev::io node; setupHTTP(http); setupNode(node); Manager::init(); CommStatic::init(); ev::loop_ref loop = EV_DEFAULT; loop.loop(EVBACKEND_EPOLL); return 0; }
void DiagramWindow::paste() { QString str = QApplication::clipboard()->text(); QStringList parts = str.split(" "); if((parts.count() >= 5) && (parts.first() == "Node")) { Node *node = new Node; node->setText(QStringList(parts.mid(4)).join(" ")); node->setTextColor(QColor(parts[1])); node->setOutlineColor(QColor(parts[2])); node->setBackgroundColor(QColor(parts[3])); setupNode(node); } }
/** * Server function that listens for messages from clients */ void *server(void *token) { me.self = setupNode(); char message[BUFFER_LENGTH]; int numNodes = 0; char *line = NULL; size_t len = 0; ssize_t read; do { //sleep(3); me.endpoints_fp = fopen(ENDPOINTS, "a+"); } while (me.endpoints_fp == NULL); while ((read = getline(&line, &len, me.endpoints_fp)) != -1) { line[read - 1] = '\0'; read--; numNodes++; debug("Read %s from endpoints file", line); } me.id = numNodes; debug("Done reading endpoints file, we have id: %d", me.id); if (args.num_nodes - 1 == numNodes) { debug("We are the last process"); me.last_process = TRUE; } fprintf(me.endpoints_fp, "%s\n", getNodeInfo(me.self)); debug("Node info written to endpoints file"); fclose(me.endpoints_fp); if (!me.last_process) { // wait for OK message debug("Waiting for \"OK\" message"); if (recvfrom(me.self->socket, message, BUFFER_LENGTH, 0, NULL, NULL) == -1) { log_err("Failed to receive message"); } debug("Received message %s", message); if (strcmp(message, "OK") == 0) { debug("Got the \"OK\""); } } pthread_barrier_wait(&me.barrier); free(line); server_listen(message); }
bool CKLBUIMultiImgItem::init(CKLBUITask* pParent, CKLBNode* pNode, u32 order, float x, float y, u32 idx, const char** pArrayAsset, u32* pArrayIndexes, u32 assetCount) { if(!setupNode()) return false; // // Create array and load resources. // u32 max = 0; for(u32 i = 0; i < assetCount; i++) { u32 idxImg = pArrayIndexes[i]; if(max < idxImg) { max = idxImg; } } max++; IMGITEM* items = KLBNEWA(IMGITEM, max); if(!items) { return false; } // Reset all handle to NULL for(u32 i=0; i < max; i++) { items[i].handle = 0; items[i].sprite = NULL; } CKLBRenderingManager& rdr = CKLBRenderingManager::getInstance(); for(u32 i = 0; i < assetCount; i++) { const char* name = pArrayAsset[i]; u32 idxImg = pArrayIndexes[i]; u32 handle; CKLBAsset * pAsset = CKLBUtility::loadAsset(name, &handle, NULL); if(pAsset->getAssetType() == ASSET_IMAGE) { CKLBSprite* pRender = rdr.allocateCommandSprite((CKLBImageAsset*)pAsset,order); items[idxImg].handle = handle; items[idxImg].sprite = pRender; } } bool bResult = initCore(order,x,y,idx,items,max); bResult = registUI(pParent, bResult); if(pNode) { pParent->getNode()->removeNode(getNode()); pNode->addNode(getNode()); } return bResult; }
bool CKLBUIScore::init(CKLBUITask * pParent, CKLBNode * pNode, u32 order, s32 order_offset, float x, float y, const char ** tex_table, float stepX, float stepY, int column, bool fillzero, bool anim_flag, u32 align, bool countclip) { if(!setupNode()) { return false; } // ユーザ定義初期化を呼び、初期化に失敗したら終了。 bool bResult = initCore(order, order_offset, x, y, tex_table, stepX, stepY, column, fillzero, anim_flag, align, countclip); // 初期化処理終了後の登録。失敗時の処理も適切に行う。 bResult = registUI(pParent, bResult); if(pNode) { pParent->getNode()->removeNode(getNode()); pNode->addNode(getNode()); } return bResult; }
AbstractHimmel::AbstractHimmel() : osg::MatrixTransform() , m_timef(NULL) , m_autoUpdateTime(false) , m_initialized(false) , m_dirty(false) , m_cameraHint(NULL) , m_widthHint(0u) , m_heightHint(0u) , m_lastElapsed(0.0) , m_referenceBoundingRadius(1.f) { setupNode(getOrCreateStateSet()); setUpdateCallback(new HimmelNodeCallback); setReferenceFrame(osg::Transform::ABSOLUTE_RF); };
void DiagramWindow::addNode() { Node *node = new Node; node->setText(tr("Node %1").arg(seqNumber + 1)); setupNode(node); }