void TestLayer2::restartCallback(Ref* sender) { auto s = new TransitionsTestScene(); auto layer = new TestLayer1(); s->addChild(layer); auto scene = createTransition(s_nSceneIdx, TRANSITION_DURATION, s); s->release(); layer->release(); if (scene) { Director::getInstance()->replaceScene(scene); } }
void TestLayer2::restartCallback(CCObject* pSender) { CCScene* s = new TransitionsTestScene(); CCLayer* pLayer = new TestLayer1(); s->addChild(pLayer); CCScene* pScene = createTransition(s_nSceneIdx, TRANSITION_DURATION, s); s->release(); pLayer->release(); if (pScene) { CCDirector::sharedDirector()->replaceScene(pScene); } }
void SceneManager::go(Layer* layer) { Director *director = Director::getInstance(); Scene *newScene = SceneManager::wrap(layer); if ( director->getRunningScene() ) { s_nSceneIdx++; s_nSceneIdx = s_nSceneIdx % MAX_LAYER; Director::getInstance()->replaceScene(createTransition(s_nSceneIdx, TRANSITION_DURATION, newScene)); } else { director->runWithScene(newScene); } }
void TestLayer1::nextCallback(NSObject* pSender) { s_nSceneIdx++; s_nSceneIdx = s_nSceneIdx % MAX_LAYER; CCScene* s = new TransitionsTestScene(); CCLayer* pLayer = new TestLayer2(); s->addChild(pLayer); CCScene* pScene = createTransition(s_nSceneIdx, TRANSITION_DURATION, s); s->release(); pLayer->release(); if (pScene) { CCDirector::sharedDirector()->replaceScene(pScene); } }
void TestLayer2::backCallback(CCObject* pSender) { s_nSceneIdx--; int total = MAX_LAYER; if( s_nSceneIdx < 0 ) s_nSceneIdx += total; CCScene* s = new TransitionsTestScene(); CCLayer* pLayer = new TestLayer1(); s->addChild(pLayer); CCScene* pScene = createTransition(s_nSceneIdx, TRANSITION_DURATION, s); s->release(); pLayer->release(); if (pScene) { CCDirector::sharedDirector()->replaceScene(pScene); } }
void TestLayer2::backCallback(Ref* sender) { s_nSceneIdx--; int total = MAX_LAYER; if( s_nSceneIdx < 0 ) s_nSceneIdx += total; auto s = new TransitionsTestScene(); auto layer = new TestLayer1(); s->addChild(layer); auto scene = createTransition(s_nSceneIdx, TRANSITION_DURATION, s); s->release(); layer->release(); if (scene) { Director::getInstance()->replaceScene(scene); } }
LimaString initRule(Rule& r, const LimaString& str, MediaId language, const std::vector<Gazeteer>& gazeteers, const std::vector<SubAutomaton>& subAutomatons, const std::vector<LimaString>& activeEntityGroups, const std::string& filename, uint64_t lineNumber) { AUCLOGINIT; LDEBUG << "RuleCompiler:initializing rule " << str; //LimaString ruleString; RuleString s(str,language,gazeteers,subAutomatons); try { // copy constraint informations to the rule // set the number of constraints r.setNumberOfConstraints(s.getNbConstraints()); r.setHasLeftRightConstraint(s.hasLeftRightConstraint()); // add the actions to the rule for (std::vector<Constraint>::const_iterator a=s.getActions().begin(); a!=s.getActions().end(); a++) { r.addAction(*a); } //ruleString=s.getString(); } catch (AutomatonCompilerException& exception) { LERROR << "Error on rule: " << str << LENDL; throw; } //LDEBUG << "RuleCompiler:string=" << ruleString << LENDL; r.setTrigger(createTransition(s.getTrigger(),language,activeEntityGroups)); try { r.setLeftAutomaton(AutomatonCompiler::buildAutomaton(s.getLeft(), language, BACKWARDSEARCH, activeEntityGroups)); } catch (AutomatonCompilerException& e) { LERROR << "Error: "<< e.what() << LENDL << " on left part of rule: " << str << LENDL; throw; } try { r.setRightAutomaton(AutomatonCompiler::buildAutomaton(s.getRight(), language, FORWARDSEARCH, activeEntityGroups)); } catch (AutomatonCompilerException& e) { LERROR << "Error: "<< e.what() << LENDL << " on left part of rule: " << str << LENDL; throw; } LimaString& stringType=s.getType(); try { if (stringType.indexOf(STRING_NEGATIVE_TYPE_RULE)==0) { setType(r, stringType.mid( LENGTH_NEGATIVE_TYPE_RULE), activeEntityGroups); r.setNegative(true); } else if (stringType.indexOf(STRING_ABSOLUTE_TYPE_RULE)==0) { setType(r, stringType.mid( LENGTH_ABSOLUTE_TYPE_RULE), activeEntityGroups); r.setContextual(false); } else { setType(r,stringType,activeEntityGroups); } } catch (UnknownTypeException) { LERROR << "Error on rule [" << str << "]" << LENDL; throw; } r.setNormalizedForm(s.getNorm()); ostringstream oss; oss << filename << ":" << lineNumber; LDEBUG << "rule id is '" << oss.str() << "' / filename="<< filename << ",lineNumber=" << lineNumber << LENDL; r.setRuleId(oss.str()); return str; }
void *NclTransitionParser::parseTransition( DOMElement *parentElement, void *objGrandParent) { return createTransition(parentElement, objGrandParent); }
void CPlayerList::start() { QSettings settings(QCoreApplication::applicationDirPath () + "/config.ini", QSettings::IniFormat); scene = new QGraphicsScene(desk.screenGeometry(), this); scene->setBackgroundBrush(Qt::black); if( settings.value("displayDefaultImage",true).toBool() ) { CImage *image = new CImage(QPixmap(":/images/horux.png")); image->setDuration(5000); mediaList << image; connect(image, SIGNAL(finished()), this, SLOT(playNext())); } splash = new SplashItem(); splash->setZValue(5); splash->setPos(100, scene->sceneRect().top()); scene->addItem(splash); myview = new QGraphicsView(scene); myview->setHorizontalScrollBarPolicy(Qt::ScrollBarAlwaysOff); myview->setVerticalScrollBarPolicy(Qt::ScrollBarAlwaysOff); myview->setRenderHints(QPainter::Antialiasing | QPainter::SmoothPixmapTransform); myview->setFrameShadow(QFrame::Plain); myview->setFrameShape(QFrame::NoFrame); myview->showFullScreen(); myview->setCursor( QCursor( Qt::BlankCursor ) ); QString mediaPath = settings.value("media_path","").toString(); QSqlQuery query("SELECT * FROM hr_horux_media_media WHERE published=1 AND id_device=" + deviceId + " ORDER by `order`"); while(query.next()) { QString type = query.value(2).toString(); QString path = mediaPath + query.value(3).toString(); int time = query.value(4).toInt(); QFile file(path); if(file.exists()) { if(type == "IMAGE") { CImage *image = new CImage(QPixmap(path)); image->setDuration(time * 1000); mediaList << image; connect(image, SIGNAL(finished()), this, SLOT(playNext())); } if(type == "MOVIE") { VideoWidget *video = new VideoWidget(); video->setDuration(time * 1000); video->setMedia(path); mediaList << video; connect(video, SIGNAL(finished()), this, SLOT(playNext())); } } } if(mediaList.count() == 0) { CImage *image = new CImage(QPixmap(":/images/horux.png")); image->setDuration(5000); mediaList << image; connect(image, SIGNAL(finished()), this, SLOT(playNext())); } group = new QtStateGroup(scene); createTransition(); stateList.at(0)->activate(); isStart = true; if(mediaList.size() > 0) { index = 0; playNext(); } }
/* Creer un automate a partir d'un fichier texte * Valeur de retour : Automate cree */ bool parse(FILE *data, struct fsm *fsm) { char *param, *tmp; char type[TYPE_SIZE], s[LINE_SIZE]; bool alphabet = false; struct state *st, *st2; struct transition *tr; int i = 0, j; char **trans = NULL; fsm->alphabet = NULL; fsm->initials = NULL; fsm->states = NULL; fsm->ilen = fsm->alen = fsm->slen = 0; while(EOF != fscanf(data, "%18s%255[^\n]", type, s)) { /* TYPE_SIZE et LINE_SIZE */ param = s; while((*param == ' ' || *param == '\t') && *param != '\0') { param++; } if(!(*param)) { fprintf(stderr, "parse: `%s %s': Invalid format.\n", type, s); return false; } if(!strcmp(type, "alphabet_terminal")) { alphabet = true; tmp = strtok(param, " "); while(tmp != NULL) { if(!addAlphabet(fsm, tmp)) return false; tmp = strtok(NULL, " "); } } else if(!strcmp(type, "initial")) { tmp = strtok(param, " "); while(tmp != NULL) { if(!addInitial(fsm, tmp)) return false; tmp = strtok(NULL, " "); } } else if(!strcmp(type, "terminal")) { tmp = strtok(param, " "); while(tmp != NULL) { if(!addState(fsm, tmp, true)) return false; tmp = strtok(NULL, " "); } } else { i = 0; trans = NULL; tmp = strtok(param, " "); if(((trans = realloc(trans, (i+1)*sizeof(char *))) == NULL) || ((trans[i] = malloc((strlen(tmp)+1)*sizeof(char))) == NULL)) { fprintf(stderr, "parse: Memory allocation failed.\n"); return false; } strcpy(trans[i++], tmp); if((tmp = strtok(NULL, " ")) == NULL) { fprintf(stderr, "parse: `%s %s': Invalid format; destination stateis not specified.\n", type, s); return false; } do { if(((trans = realloc(trans, (i+1)*sizeof(char *))) == NULL) || ((trans[i] = malloc((strlen(tmp)+1)*sizeof(char))) == NULL)) { fprintf(stderr, "parse: Memory allocation failed.\n"); return false; } strcpy(trans[i++], tmp); } while((tmp = strtok(NULL, " ")) != NULL); if(((st = addState(fsm, type, false)) == NULL) || ((st2 = addState(fsm, trans[i-1], false)) == NULL)) { return false; } for(j = 0; j < i-1; j++) { if(alphabet && (!containsLetter(fsm, trans[j])) && strcmp(trans[j], EPSILON)) { fprintf(stderr, "parse: `%s' does not belong to the alphabet.\n", trans[j]); for(j = 0; j < i; j++) free(trans[j]); free(trans); return false; } else if(!alphabet && strcmp(trans[j], EPSILON)) { if(!addAlphabet(fsm, trans[j])) return false; } if(((tr = createTransition(trans[j], st2)) == NULL) || (!addTransition(st, tr))) return false; } for(j = 0; j < i; j++) free(trans[j]); free(trans); } } return true; }